Content Posted in 2020
1973-1974 Report of the President, The Rockefeller University
1976-1977 Report of the President, The Rockefeller University
1978-1979 Report of the President, The Rockefeller University
1980-1981 Report of the President, The Rockefeller University
2002 ALBERT LASKER AWARD, The Rockefeller University
2002 LEWIS THOMAS PRIZE, The Rockefeller University
2002 SCIENCE WATCH RANKINGS, The Rockefeller University
2004 LEWIS THOMAS PRIZE, The Rockefeller University
2005 HOLIDAY PARTY, The Rockefeller University
2005 LEWIS THOMAS PRIZE, The Rockefeller University
2006 HOLIDAY PARTY, The Rockefeller University
2006 LEWIS THOMAN PRIZE, The Rockefeller University
2007 HOLIDAY PARTY, The Rockefeller University
2007 LASKER AWARD, The Rockefeller University
2007 LEWIS THOMAS PRIZE, The Rockefeller University
2008 HOLIDAY PARTY, The Rockefeller University
2008 LEWIS THOMAS PRIZE, The Rockefeller University
2009 LEWIS THOMAS PRIZE, The Rockefeller University
2011 HOLIDAY PARTY, The Rockefeller University
2012 HOLIDAY PARTY, The Rockefeller University
2012 LEWIS THOMAS PRIZE, The Rockefeller University
2013 LEWIS THOMAS PRIZE, The Rockefeller University
2014 LEWIS THOMAS PRIZE, The Rockefeller University
60 YEARS AGO, The Rockefeller University
65 YEARS AGO, The Rockefeller University
Abby Aldrich Rockefeller, Mary Ellen Chase
Abby Aldrich Rockefeller: The Woman in the Family, Bernice Kert
Abby Dining Room, The Rockefeller University
Abby Hall, 1968, The Rockefeller University
Abby Hall, 1973, The Rockefeller University
Abby Lounge, The Rockefeller University
Accessory Cells in Lymph Node, Steinman Laboratory
Accessory cells in Murine Peyer’s patch: I. Identification and enrichment of a functional dendritic cell, David M. Spalding, William J. Koopman, and John H. Eldridge
Accessory cell - T lymphocyte interactions: antigen dependent and independent clustering, Kayo Inaba and Ralph M. Steinman
Accessory cell-T lymphocyte interactions. antigen-dependent and -independent clustering, Kayo Inaba and Ralph M. Steinman
A comparison of murine epidermal Langerhans cells with spleen dendritic cells, Gerold Schuler, Nikolaus Romani, and Ralph M. Steinman
Activation of natural killer T cells by α-galactosylceramide rapidly induces the full maturation of dendritic cells in vivo and thereby acts as an adjuvant for combined CD4 and CD8 T cell immunity to a coadministered protein, Shinichiro Fujii, Kanako Shimizu, and Carol L. Smith
Administration of LACK Chimeric Antibodies, Steinman Laboratory
A Dominant Complement Fixation Pathway for Pneumococcal Polysaccharides Initiated by SIGN-R1 Interacting with C1q, Youngsun Kang, Yoonkyung Do, and Haekyung Lee
Adventure in Giving, Raymond B. Fosdick
Aerial view of the Institute, 1930-31, The Rockefeller University
Aerial view of the Institute and the East River
Afferent and Effernt Lymphatic, Steinman Laboratory
A High-Throughput Approach to Uncover Novel Roles of APOBEC2, a Functional Orphan of the AID/APOBEC Family, Linda Molla
Ahrens, Edward H., Jr., The Rockefeller University
Ahrens Laboratory. Corridor, 1962, The Rockefeller University
Ahrens Laboratory. Equipment for the Diet Formula
Ahrens Laboratory. Room 509, 1962, The Rockefeller University
Ahrens Laboratory. Room 510, 1962, The Rockefeller University
Ahrens Laboratory. Room 514, 1960, The Rockefeller University
Ahrens Laboratory. Room 516A, 1962, The Rockefeller University
Ahrens Laboratory. Room 518, 1962, The Rockefeller University
Ahrens Laboratory. Room 520, 1962, The Rockefeller University
Ahrens Laboratory. Room 523, 1962, The Rockefeller University
Ahrens Laboratory. Rooms 509-511, 1960, The Rockefeller University
Ahrens Laboratory. Rooms 509-511, 1960, The Rockefeller University
A Hybrid Anti-Human DEC-HIV Gag p24 Antibody, Steinman Laboratory
Allen, Frederick M., The Rockefeller University
Allfrey, Vincent G., The Rockefeller University
Allfrey, Vincent G., The Rockefeller University
America's Medicis: the Rockefellers and Their Astonishing Cultural Legacy, Suzanne Loebl
A Mineralocorticoid-Dependent Effect of Prestress on Avoidance Responding in Rats, Peter Gray
A Model for the Chloroplast: A Study of the Photochemical and Spectral Properties of Pheophytin A Adsorbed to the Surface of Small Particles, Richard Andrew Cellarius
A monoclonal antibody specific for mouse dendritic cells, Michel C. Nussenzweig, Ralph M. Steinman, Margit D. Witmer, and Badma Gutchinov
A monoclonal antibody specific for mouse dendritic cells, Michel C. Nussenzweig, Ralph M. Steinman, Margit D. Witmer, and Badma Gutchinov
An Ambulance of the Rockefeller Hospital
An analysis of in vitro T cell responsiveness in lepromatous leprosy, Gilla Kaplan, David E. Weinstein, and Ralph M. Steinman
An Analysis of Spatial Summation in the Receptive Fields of Goldfish Retinal Ganglion Cells, Michael William Levine
An antigen-independent contact mechanism as an early step in T cell-proliferative responses to dendritic cells, Kayo Inaba, Nikolaus Romani, and Ralph M. Steinman
Anatomy of germinal centers in mouse spleen, with special reference to 'follicular dendritic cells', Lei L. Chen, Judy Adams, and Ralph M. Steinman
ANDERSON CANCER SYMPOSIUM, The Rockefeller University
ANDERSON CANCER SYMPOSIUM, The Rockefeller University
ANDERSON CANCER SYMPOSIUM, The Rockefeller University
ANDERSON CANCER SYMPOSIUM, The Rockefeller University
ANDERSON CANCER SYMPOSIUM, The Rockefeller University
A new triggering receptor expressed on myeloid cells (Trem) family member, Trem-like 4, binds to dead cells and is a DNAX activation protein 12-linked marker for subsets of mouse macrophages and dendritic cells, Hiroaki Hemmi, Juliana Idoyaga, and Koji Suda
An IFN-γ-IL-18 signaling loop accelerates memory CD8+ T cell proliferation, Yochiko Iwai, Hiroaki Hemmi, and Olga Mizenina
An Immune "Ménage à Trois", Steinman Laboratory
Antibody to Langerin/CD207 localizes large numbers of CD8α + dendritic cells to the marginal zone of mouse spleen, Juliana Idoyaga, Nao Suda, and Koji Suda
Antigen From EL4/GalCer, Steinman Laboratory
Antigen processing by epidermal langerhans cells correlates with the level of biosynthesis of major histocompatibility complex class II molecules and expression of invariant chain, Ellen Puré, Kayo Inaba, and Mary T. Crowley
Antigen processing by epidermal Langerhans cells correlates with the level of biosynthesis of MHC class II molecules and expression of invariant chain, Ellen Puré, Kayo Inaba, and Mary T. Crowley
Antigen-Specific Control of Immunity in the Intact Animal and Patient, Steinman Laboratory
Antigen-Specific Immune Responses, Steinman Laboratory
Antigen-specific inhibition of effector T cell function in humans after injection of immature dendritic cells, Madhav V. Dhodapkar, Ralph M. Steinman, and Joseph Krasovsky
Antigen targeting to dendritic cells elicits long-lived T cell help for antibody responses, Silvia B. Boscardin, Julius C.R. Hafalla, and Revati F. Masilamani
A Passion for Asia: The Rockefeller Legacy, Asia Society
A Patient Ward, The Rockefeller University
A Pharmacological Analysis of the Ionic Channels of Nerve, Bertil Hille
A physiologic function for p-glycoprotein (MDR-1) during the migration of dendritic cells from skin via afferent lymphatic vessels, Gwendalyn J. Randolph, Sylvia Beaulieu, and Melissa Pope
APOBEC3G/3F mediates intrinsic resistance of monocyte-derived dendritic cells to HIV-1 infection, Marjorie Pion, Angela Granelli-Piperno, and Bastein Mangeat
A Rockefeller Family Portrait, from John D. to Nelson, William Manchester
Art at Work: The Chase Manhattan Collection, Walter J. Severinghaus
ART SHOW, The Rockefeller University
ART SHOW 2007, The Rockefeller University
ART SHOW 2008, The Rockefeller University
ART SHOW 2009, The Rockefeller University and A. E. Mirsky
ART SHOW 2010, The Rockefeller University
ART SHOW 2012, The Rockefeller University
ART SHOW 2013, The Rockefeller University and A. E. Mirsky
ART SHOW 2014, The Rockefeller University
A SCIENTIFIC MEDLEY, The Rockefeller University
A Simple Dose of B16 Melanoma Cells, Steinman Laboratory
A Single Dose of J558/GalCer, Steinman Laboratory
A small number of anti-CD3 molecules on dendritic cells stimulate DNA synthesis in mouse T lymphocytes, Nikolaus Romani, Ellen Puré, and Kayo Inaba
A small number of anti-CD3 molecules on dendritic cells stimulates DNA synthesis in mouse T lymphocytes, Nikolaus Romani, Kayo Inaba, and Ellen Puré
A Special Place, The Rockefeller University
Assembly Hall, The Rockefeller University
Association of SIGNR1 with TLR4-MD-2 enhances signal transduction by recognition of LPS in gram-negative bacteria, Kojii Nagaoka, Kazuhiko Takahara, and Kay Tanaka
A Statistical-Mechanical Model for the Binding of Flexible Ligands to Proteins, Nora Dawn Laiken
A Study Ionic Permeability Changes Underlying Excitation in Myelinated Nerve Fibers of the Frog, Frederick Arthur Dodge
A Study of the Transmission of Sensory Information in the Cat Spinal Cord, Paul Richards Burgess
A subset of dendritic cells induces CD4+ T cells to produce IFN-γ by an IL-12-independent but CD70-dependent mechanism in vivo, Helena Soares, Haena Waechter, and Nicolas Glaichenhaus
A Subset of Large SIGN-R1-Positive Macrophages Isolated from Mouse Spleen, Steinman Laboratory
Atraumatic oral spray immunization with replication-deficient viral vector vaccines, Christiane P. Stahl-Hennig, Seraphin Kuate, and Monika Franz
A TRIBUTE TO BRUCE MERRIFIELD, The Rockefeller University
AUTHOR BOOK TALK, The Rockefeller University
Avery Laboratory, The Rockefeller University
Avery, Oswald, The Rockefeller University
Avery, Oswald, The Rockefeller University
Avoiding horror autotoxicus: The importance of dendritic cells in peripheral T cell tolerance, Ralph M. Steinman and Michel C. Nussenzweig
A WAR ON OBESITY, The Rockefeller University
Axonal Transport of Glycoproteins and Glycolipids in the Goldfish Optic System, David Sholem Forman
B16, Steinman Laboratory
B16 and CD1d-Transfected B16 Melanoma, Steinman Laboratory
B16/GalCer Tumor Cells, Steinman Laboratory
B16/GalCer Tumor Cells, Steinman Laboratory
B16/GalCer Tumor Cells, Injected I.V., Steinman Laboratory
B16 Melanoma, Steinman Laboratory
B16 Melanoma Cells, Steinman Laboratory
Baker, Lillian, The Rockefeller University
Barker, Bertha, The Rockefeller University
Bearn, Alexander G., The Rockefeller University
Bearn Laboratory. Room 716, July 1962, The Rockefeller University
Bearn Laboratory. View no. 1, December 1961, The Rockefeller University
Bearn Laboratory. View no. 2, December 1961, The Rockefeller University
BEATRICE RENFIELD LECTURESHIP, The Rockefeller University
BEATRICE RENFIELD LECTURESHIP, The Rockefeller University
BEATRICE RENFIELD LECTURESHIP, The Rockefeller University
Bég, Mirza A.B., The Rockefeller University
Being a Rockefeller, Becoming Myself: A Memoir, Eileen Rockefeller
Bergmann, Max, The Rockefeller University
Berlin, Theodore H., The Rockefeller University
Bhardwaj, Nina, The Rockefeller University
Biochemical and Biological Studies on the Growth of an RNA Containing Bacteriophage, Stephen Cooper
Biochemical Studies of the Purine Analogues, 2-Aminopurine and 2, 6 Diaminopurine, Anthony Cerami
Blobel, Günter, The Rockefeller University
Blobel Laboratory. View no. 10, April 2018, The Rockefeller University
Blobel Laboratory. View no.11, April 2018, The Rockefeller University
Blobel Laboratory. View no. 12, April 2018, The Rockefeller University
Blobel Laboratory. View no. 13, April 2018, The Rockefeller University
Blobel Laboratory. View no. 14, April 2018, The Rockefeller University
Blobel Laboratory. View no. 15, 2018, The Rockefeller University
Blobel Laboratory. View no. 16, April 2018, The Rockefeller University
Blobel Laboratory. View no. 17, April 2018, The Rockefeller University
Blobel Laboratory. View no. 18, 2018, The Rockefeller University
Blobel Laboratory. View no. 19, April 2018, The Rockefeller University
Blobel Laboratory. View no. 1, April 2018, The Rockefeller University
Blobel Laboratory. View no. 20, April 2018, The Rockefeller University
Blobel Laboratory. View no. 21, April 2018, The Rockefeller University
Blobel Laboratory. View no. 22, April 2018, The Rockefeller University
Blobel Laboratory. View no. 23, April 2018, The Rockefeller University
Blobel Laboratory. View no. 24, April 2018, The Rockefeller University
Blobel Laboratory. View no.2, April 2018, The Rockefeller University
Blobel Laboratory. View no.3, April 2018, The Rockefeller University
Blobel Laboratory. View no. 4, April 2018, The Rockefeller University
Blobel Laboratory. View no. 5, April 2018, The Rockefeller University
Blobel Laboratory. View no. 6, April 2018, The Rockefeller University
Blobel Laboratory. View no. 7, April 2018, The Rockefeller University
Blobel Laboratory. View no. 8, April 2018, The Rockefeller University
Blobel Laboratory. View no. 9, April 2018, The Rockefeller University
Blockade of Acetylcholine Receptors by Cobra Toxin Electrophysiology and Pharmacology, Henry A. Lester
Blood-Derived Plasminogen Modulates the Neuroimmune Response in Both Alzheimer's Disease and Systemic Infection Models, Sarah K. Baker
Boone, Jon, The Rockefeller University
Both dendritic cells and memory T lymphocytes emigrate from organ cultures of human skin and form distinctive dendritic-T-cell conjugates, Melissa Pope, Michael G.H. Betjes, and Haideh Hirman
Braun, Armin C., The Rockefeller University
Bronk, Detlev W., The Rockefeller University
Brown, Wade H., The Rockefeller University
Cafeteria. View no. 2, 1955, The Rockefeller University
Cafeteria. View no. 3, 1955, The Rockefeller University
Cafeteria. View no. 5, 1955, The Rockefeller University
Calcitonin gene-related peptide decreases expression of HLA-DR and CD86 by human dendritic cells and dampens dendritic cell-driven T cell- proliferative responses via the type I calcitonin gene-related peptide receptor, John A. Carucci, Ralf Ignatius, and Yang Wei
Callaway, David, The Rockefeller University
Campo, Anthony J., The Rockefeller University
Campus View, 1912, The Rockefeller University
Campus View, 1916, The Rockefeller University
Campus View, 1920, The Rockefeller University
Campus view, 1925, The Rockefeller University
Campus view, 1926, The Rockefeller University
Campus View, 1930, The Rockefeller University
Campus View, 1932, The Rockefeller University
Campus view, 1933, The Rockefeller University
Campus View. Esplanade, 1959, The Rockefeller University
Canarypox virus-induced maturation of dendritic cells is mediated by apoptotic cell death and tumor necrosis factor alpha secretion, Ralf Ignatius, Mary A. Marovich, and Erin Mahlhop
CAREER SYMPOSIUM, The Rockefeller University
Carrel, Alexis, The Rockefeller University
Carrel's Laboratory, The Rockefeller University
Carrel's Laboratory, The Rockefeller University
Carter, Martin, The Rockefeller University
Cas9-Primed Adaptive Immunity During the CRISPR-Cas Response, Philip M. Nussenzweig
Case, Kenneth M., The Rockefeller University
Caspary Dome, The Rockefeller University
Caspary Dome, The Rockefeller University
Caspary Hall, The Rockefeller University
CD11c+ Dendritic Cells, Steinman Laboratory
CD11c Promoter, Steinman Laboratory
CD11c Promoter-EYFP Mice Visualizing Dendritic Cells In Vivo, Steinman Laboratory
CD 16: DEC Tail Fusion Receptor, The Rockefeller University
CD1d-EL4/GalCer, Steinman Laboratory
CD1d-EL4/GalCer Injected I.V., Steinman Laboratory
CD25+ CD4+ T cells, expanded with dendritic cells presenting a single autoantigenic peptide, suppress autoimmune diabetes, Kristin V. Tarbell, Sayuri Yamazaki, and Kara D. Olson
CD80+CD205+ splenic dendritic cells are specialized to induce Foxp3+ regulatory T cells, Sayuri Yamazaki, Diana Dudziak, and Gordon Heidkamp
CD8+ T Cell Proliferation, The Rockefeller University
CD8+ T Cell Proliferation, Steinman Laboratory
Cell-Mediated Immunity, Steinman Laboratory
Cell Memory and Fate in Human Development, Anna Kresovich Yoney
Cell type-dependent retention and transmission of HIV-1 by DC-SIGN, Christine Trumpfheller, Chaegyu Park, and Jennifer S. Finke
CELLULAR NANOMACHINERY, The Rockefeller University
CENTER FOR BASIC AND TRANSLATIONAL RESEARCH, The Rockefeller University
CFSE-Labeled Tumor Cells, Steinman Laboratory
Chase, Merrill W., The Rockefeller University
Children's Garden, The Rockefeller University
Children's Gardens, The Rockefeller University
Children's Gardens, The Rockefeller University
Children's Playground, The Rockefeller University
Children's playground, 1924, The Rockefeller University
Circulation Desk and Catalogs, The Rockefeller University
Class 1959, The Rockefeller University
Class 1960, The Rockefeller University
Class 1962, The Rockefeller University
Class 1963, The Rockefeller University
Class 1964, The Rockefeller University
Class 1965, The Rockefeller University
Class 1966, The Rockefeller University
Class 1967, The Rockefeller University
Class 1968, The Rockefeller University
Class 1969, The Rockefeller University
Class 1970, The Rockefeller University
Class 1971, The Rockefeller University
Class 1972, The Rockefeller University
Class 1973, The Rockefeller University
Class 1974, The Rockefeller University
Class 1975, The Rockefeller University
Class 1976, The Rockefeller University
Class 1977, The Rockefeller University
Class 1978, The Rockefeller University
Class 1979, The Rockefeller University
Class 1980, The Rockefeller University
Class 1981, The Rockefeller University
Class 1982, The Rockefeller University
Class 1983, The Rockefeller University
Class 1984, The Rockefeller University
Class 1985, The Rockefeller University
Class 1986, The Rockefeller University
Classical Flt3L-dependent dendritic cells control immunity to protein vaccine, Niroshana Anandasabapathy, Rachel E. Feder, and Shamim A. Mollah
Claude, Albert, The Rockefeller University
CLINICAL AND TRANSLATION RESEARCH DAY, The Rockefeller University
Clinical Laboratory, 1960, The Rockefeller University
Clinical Laboratory. Room 710, 1960, The Rockefeller University
Clinical Laboratory. Room 710, January 1962, The Rockefeller University
Clinical Laboratory. Room 710, January 1962, The Rockefeller University
Clonal expansion of human T lymphocytes initiated by dendritic cells, Erik G. Langhoff and Ralph M. Steinman
Clustering of dendritic cells, helper T lymphocytes, and histocompatible B cells during primary antibody responses in vitro, Kayo Inaba, Margit D. Witmer, and Ralph M. Steinman
Clustering of dendritic cells, helper T lymphocytes, and histocompatible B cells, during primary antibody responses in vitro, Kayo Inaba, Margit D. Witmer, and Ralph M. Steinman
Coexpression of NF-κB/Rel and Sp1 transcription factors in human immunodeficiency virus 1-induced, dendritic cell-T-cell syncytia, Angela Granelli-Piperno, Melissa Pope, Kayo Inaba, and Ralph M. Steinman
Cohen, E.G. D., The Rockefeller University
Cohn, Alfred E., The Rockefeller University
Cohn laboratory, The Rockefeller University
Cohn, Zanvil A., The Rockefeller University
Cold Room in Smith Hall, The Rockefeller University
Cole, Rufus, The Rockefeller University
Comparison of the Protein Contents of Bovine Zymogen Granules and of Pancreatic Juice, Lewis Joel Greene
COMPELLED TO CREATE, The Rockefeller University
COMPELLED TO CREATE?, The Rockefeller University
Concert in Caspary Auditorium, The Rockefeller University
Consequences of Dendritic Cell Subset Function in Vivo, Steinman Laboratory
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2017, JULY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
CONSTRUCTION 2018, MAY, The Rockefeller University
Construction, December 1968, The Rockefeller University
Construction, March 1968, The Rockefeller University
Construction of Greenhouse on the Roof of Flexner Hall, The Rockefeller University
Construction of Greenhouses at 64th Street, The Rockefeller University
Construction of Greenhouses at 64th Street, The Rockefeller University
Construction of Greenhouses at 64th Street, The Rockefeller University
Construction of North Laboratory, 1928
Construction of North Laboratory, 1929, The Rockefeller University
Construction Site, The Rockefeller University
Construction Site, 1967, The Rockefeller University
Construction site. View no. 10, July 1968, The Rockefeller University
Construction site. View no. 11, July 1968, The Rockefeller University
Construction site. View no. 12, July 1968, The Rockefeller University
Construction site. View no. 12, October 1955, The Rockefeller University
Construction site. View no. 13, October 1955, The Rockefeller University
Construction site. View no. 14, August 1968, The Rockefeller University
Construction site. View no. 15, August 1968, The Rockefeller University
Construction site. View no. 16, October 1955, The Rockefeller University
Construction site. View no. 16, September 1968, The Rockefeller University
Construction site. View no. 17, November 1955, The Rockefeller University
Construction site. View no.18, November 1955, The Rockefeller University
Construction site. View no. 19, November 1955, The Rockefeller University
Construction site. View no. 19, September 1968, The Rockefeller University
Construction site. View no. 1, August 1955, The Rockefeller University
Construction site. View no. 21, November 1955, The Rockefeller University
Construction site. View no. 21, September 1968, The Rockefeller University
Construction site. View no. 22, November 1955, The Rockefeller University
Construction site. View no. 22, October 1968, The Rockefeller University
Construction site. View no. 23, May 1956, The Rockefeller University
Construction site. View no. 23, October 1968, The Rockefeller University
Construction site. View no. 24, June 1956, The Rockefeller University
Construction site. View no. 24, October 1968, The Rockefeller University
Construction site. View no. 25, November 1968, The Rockefeller University
Construction Site. View no. 26, July 1956, The Rockefeller University
Construction Site. View no. 27, August 1956, The Rockefeller University
Construction site. View no. 27, November 1968, The Rockefeller University
Construction Site. View no. 28, August 1956, The Rockefeller University
Construction site. View no. 28, November 1968, The Rockefeller University
Construction Site. View no. 29, August 1956, The Rockefeller University
Construction site. View no.2, August 1955, The Rockefeller University
Construction Site. View no. 30. September 1956, The Rockefeller University
Construction Site. View no. 31, September 1956, The Rockefeller University
Construction Site. View no. 32, October 1956, The Rockefeller University
Construction Site. View no. 34, October 1956, The Rockefeller University
Construction Site. View no. 35, October 1956, The Rockefeller University
Construction Site. View no. 36, December 1956, The Rockefeller University
Construction site. View no. 36, November 1956, The Rockefeller University
Construction Site. View no. 38, December 1956, The Rockefeller University
Construction Site. View no. 39, March 1957, The Rockefeller University
Construction site. View no. 3, September 1955, The Rockefeller University
Construction site. View no. 4, September 1955, The Rockefeller University
Construction site. View no. 5, September 21, The Rockefeller University
Construction site. View no. 6, September 1955, The Rockefeller University
Construction site. View no. 7, June 1968, The Rockefeller University
Construction site. View no. 8, June 1968, The Rockefeller University
Construction site. View no. 9, July 1968, The Rockefeller University
Construction sitе. View no. 15, October 1955, The Rockefeller University
Construction. View no. 1, May 1968, The Rockefeller University
Construction. View no. 1, October 1927, The Rockefeller University
Construction. View no. 2, May 1968, The Rockefeller University
Construction. View no. 2, October 1927, The Rockefeller University
Construction. View no. 3, February 1928, The Rockefeller University
Construction. View no. 3, May 1968, The Rockefeller University
Construction. View no. 4, February 1928, The Rockefeller University
Construction. View no. 4, May 1968, The Rockefeller University
Construction. View no. 5, April 1928, The Rockefeller University
Construction. View no. 5, June 1968, The Rockefeller University
Construction. View no. 6, April 1928, The Rockefeller University
Construction. View no. 6, June 1968, The Rockefeller University
Construction. View no. 7, late 1928, The Rockefeller University
Construction. View no. 8, late 1928, The Rockefeller University
Contribution of dendritic cells to stimulation of the murine syngeneic mixed leukocyte reaction, Michel C. Nussenzweig and Ralph M. Steinman
Contributions to the Theory of Non-Equilibrium Thermodynamics, Ronald Forrest Fox
Contruction Site. View no. 25, June 1956, The Rockefeller University
CONVOCATION 2003, The Rockefeller University
CONVOCATION 2004, The Rockefeller University
CONVOCATION 2005, The Rockefeller University
CONVOCATION 2006, The Rockefeller University
CONVOCATION 2007, The Rockefeller University
CONVOCATION 2008, The Rockefeller University
CONVOCATION 2009, The Rockefeller University
CONVOCATION 2010, The Rockefeller University
CONVOCATION 2011, The Rockefeller University
CONVOCATION 2012, The Rockefeller University
CONVOCATION 2013, The Rockefeller University
CONVOCATION 2014, The Rockefeller University and A. E. Mirsky
CONVOCATION SYMPOSIUM, The Rockefeller University
Correction, Madhav V. Dhodapkar, Devi K. Banerjee, and John E. Connolly
Corrections to the Debye-Huckel Theory, Thomas James Murphy
Corrigendum to Murine Langerin+ dermal dendritic cells prime CD8+ T cells while Langerhans ells induce cross-tolerance, Vincent Flacher, Christoph H. Trip, and David G. Mairhofer
Cowdry, Edmund V., The Rockefeller University
Cox, Brian, The Rockefeller University
CPA EVENTS, The Rockefeller University
Craig Laboratory. View no.10, March 2009, The Rockefeller University
Craig Laboratory. View no.11, March 2009, The Rockefeller University
Craig Laboratory. View no.12, March 2009, The Rockefeller University
Craig Laboratory. View no.13, March 2009, The Rockefeller University
Craig Laboratory. View no. 1, March 2009, The Rockefeller University
Craig Laboratory. View no.2, March 2009, The Rockefeller University
Craig Laboratory. View no.3, March 2009, The Rockefeller University
Craig Laboratory. View no.4, March 2009, The Rockefeller University
Craig Laboratory. View no.5, March 2009, The Rockefeller University
Craig Laboratory. View no.6, March 2009, The Rockefeller University
Craig Laboratory. View no.7, March 2009, The Rockefeller University
Craig Laboratory. View no.8, March 2009, The Rockefeller University
Craig Laboratory. View no.9, March 2009, The Rockefeller University
Craig, Lyman C., The Rockefeller University
Cranefeild, Paul F., The Rockefeller University
Creative Management in Banking, David Rockefeller
Cross-presentation of glycolipid from tumor cells loaded with α-galactosylceramide leads to potent and long-lived T cell-mediated immunity via dendritic cells, Kanako Shimizu, Yuri Kurosawa, and Masaru Taniguchi
Cross Tolerance via Dendritic Cells, Steinman Laboratory
CRYO-ELECTRON MICROSCOPY SYMPOSIUM, The Rockefeller University
Cunningham, Bruce A., The Rockefeller University
Cutting edge: Langerin/CD207 receptor on dendritic cells mediates efficient antigen presentation on MHC I and II products in vivo, Juliana Idoyaga, Cheolho Cheong, and Koji Suda
Daly, Marie M., Unknown
DC Precursors, Steinman Laboratory
DC - SIGN, Steinman Laboratory
DC-SIGN, The Rockefeller University
DC-SIGN: A guide to some mysteries of dendritic cells, Ralph M. Steinman
DC-SIGN (CD209) mediates dengue virus infection of human dendritic cells, Boonrat Tassaneetrithep, Timothy H. Burgess, and Angela Granelli-Piperno
Dear Father/Dear Son: Correspondence of John D. Rockefeller and John D. Rockefeller, Jr., Joseph W. Ernst
DEC-205, The Rockefeller University
DEC-205, a DECalectin on Dendritic and Epithelial Cells, Steinman Laboratory
DEC-205 as a Unique Receptor for Adsorptive Endocytosis, The Rockefeller University
DEC-205 in Dendritic Cells, The Rockefeller University
DEC-205 on Dendritic Cells in Lymph Node T Areas, The Rockefeller University
DEC-205 receptor on dendritic cells mediates presentation of HIV gag protein to CD8+ T cells in a spectrum of human MHC I haplotypes, Leonia Bozzacco, Christine Trumpfheller, and Frederick P. Siegal
DEC-205+ Subset of Dendritic Cells, Steinman Laboratory
DEC and 33D1 Antibodies Target the LACK Antigen, Steinman Laboratory
Decisions about dendritic cells: Past, present, and future, Ralph M. Steinman
Dedication Ceremony, The Rockefeller University
de Duve, Christian R., The Rockefeller University
Defective λ interferon production in leprosy reversal with antigen and interleukin 2, Natalia Nogueira, Gilla Kaplan, and E. Levy
Delivery of Defined Antigens to Dendritic Cells, The Rockefeller University
Delivery of HIV Gag p24 via DEC-205, Steinman Laboratory
Dendritic Cell and Immune Tolerence, Steinman Laboratory
Dendritic cell-expanded, islet-specific CD4+ CD25+ CD62L+ regulatory T cells restore normoglycemia in diabetic NOD mice, Kristin V. Tarbell, Lucine Petit Francis, and Xiaopan Zuo
Dendritic cell maturation by innate lymphocytes: Coordinated stimulation of innate and adaptive immunity, Christian Münz, Ralph M. Steinman, and Shinichiro Fujii
Dendritic Cell Maturation: Initiating T Cell Immunity, Steinman Laboratory
Dendritic cell progenitors phagocytose particulates, including bacillus calmette-guerin organisms, and sensitize mice to mycobacterial antigens in vivo, Kayo Inaba, Muneo M. Inaba, and Makoto Naito
Dendritic cell progenitors phagocytose particulates, including Bacillus Calmette-Guerin organisms, and sensitize mice to mycobacterial antigens in vivo, Kayo Inaba, Muneo M. Inaba, Makoto Naito, and Ralph M. Steinman
Dendritic Cells, Steinman Laboratory
Dendritic Cells, Steinman Laboratory
Dendritic Cells: A Major Reservoir for DEC-205, The Rockefeller University
Dendritic Cells and Antigen-Transporting Crypt Epithelia, The Rockefeller University
Dendritic cells are accessory cells for the development of anti-trinitrophenyl cytotoxic T lymphocytes, Michel C. Nussenzweig, Ralph M. Steinman, Badma Gutchinov, and Zanvil A. Cohn
Dendritic cells are accessory cells for the development of anti-trinitrophenyl cytotoxic T lymphocytes, Michel C. Nussenzweig, Ralph M. Steinman, Badma Gutchinov, and Zanvil A. Cohn
Dendritic cells are critical accessory cells for thymus-dependent antibody responses in mouse and in man, Kayo Inaba, Ralph M. Steinman, and Wesley C. Voorhis
Dendritic cells are critical accessory cells for thymus-dependent antibody responses in mouse and in man, Kayo Inaba, Ralph M. Steinman, and Wesley C. Voorhis
Dendritic cells are the principal cell in mouse spleen bearing immunogenic fragments of foreign proteins, Mary T. Crowley, Kayo Inaba, and Ralph M. Steinman
Dendritic cells are the principal cells in mouse spleen bearing immunogenic fragments of foreign proteins, Mary T. Crowley, Kayo Inaba, and Ralph M. Steinman
Dendritic cells are the principal stimulators of the primary mixed leukocyte reaction in mice, Ralph M. Steinman, Badma Gutchinov, Margit D. Witmer, and Michel C. Nussenzweig
Dendritic cells are the principal stimulators of the primary mixed leukocyte reaction in mice, Ralph M. Steinman, Badma Gutchinov, Margit D. Witmer, and Michel C. Nussenzweig
Dendritic cells as adjuvants for immune-mediated resistance to tumors, Gerold Schuler and Ralph M. Steinman
Dendritic Cells as Nature's Adjuvant, Steinman Laboratory
Dendritic cells at a DNA vaccination site express the encoded influenza nucleoprotein and prime MHC class I-restricted cytolytic lymphocytes upon adoptive transfer, Adrian I. Bot, Alexandru C. Stan, and Kayo Inaba
Dendritic Cells Capture Cell-Associated Antigens In Vivo, Steinman Laboratory
Dendritic Cells Capture Cell-Associated Antigens In Vivo
Dendritic Cells Charged with Apoptotic Tumor Cells Induce Long-Lived Protective CD4+ and CD8+ T Cell Immunity against B16 Melanoma, Romina S. Goldszmid, Juliana Idoyaga, and Alicia Inès Bravo
Dendritic cells cross-present latency gene products from Epstein-Barr virus-transformed B cells and expand tumor-reactive CD8+ killer T cells, Marion S. Subklewe, Casoer Paludan, and Mingli Tsang
Dendritic Cells During Immunity and Tolerance, Steinman Laboratory
Dendritic cells exposed to Human Immunodeficiency Virus-1 transmit a vigorous cytopathic infection to CD4+ T cells, Cameron Dale Bess, Peter S. Freudenthal, and J. M. Barker
Dendritic cells freshly isolated from human blood express CD4 and mature into typical immtmostimulatory dendritic cells after culture in monocyte-conditioned medium, Una O'doherty, Ralph M. Steinman, and Michael Peng
Dendritic cells induce antigen-specific regulatory T cells that prevent graft versus host disease and persist in mice, Uri Sela, Peter Olds, and Andrew Park
Dendritic cells induce a subpopulation of IL-12Rβ2-expressing treg that specifically consumes IL-12 to control Th1 responses, Uri Sela, Chaegyu Park, and Andrew Park
Dendritic cells induce peripheral T cell unresponsiveness under steady state conditions in vivo, Daniel Hawiger, Kayo Inaba, and Yair Dorsett
Dendritic cells induce T lymphocytes to release B cell-stimulating factors by an interleukin 2-dependent mechanism, Kayo Inaba, Angela Granelli-Piperno, and Ralph M. Steinman
Dendritic cells, infected with vesicular stomatitis virus-pseudotyped HIV-1, present viral antigens to CD4+ and CD8+ T cells from HIV-1-infected individuals, Angela Granelli-Piperno, Lei Zhong, and Patrick Haslett
Dendritic cells initiate a two stage mechanism for T lymphocyte proliferation, Jonathan Austyn, Ralph M. Steinman, and David E. Weinstein
Dendritic cells initiate a two-stage mechanism for T lymphocyte proliferation, Jonathan Austyn, Ralph M. Steinman, and David E. Weinstein
Dendritic Cells Initiate Immune Control of Epstein-Barr Virus Transformation of B Lymphocytes in Vitro, Kara L. Bickham, Kiera Goodman, and Casper Paludan
Dendritic Cells Initiate the Immune Response, Steinman Laboratory
Dendritic Cells in T Cell Areas of Mouse Lymph Nodes, Steinman Laboratory
Dendritic cells in transplantation - Friend or foe?, Robert I. Lechler, Wan F. Ng, and Ralph M. Steinman
Dendritic Cells In Vivo: A Key Target for a New Vaccine Science, Ralph M. Steinman
Dendritic Cells (Langerhans Cells) in the Mouse Epidermis, Steinman Laboratory
Dendritic Cells Mature and Act as Adjuvants, Steinman Laboratory
Dendritic cells of the mouse: Identification and characterization, Ralph M. Steinman, Margit D. Witmer, and Michel C. Nussenzweig
Dendritic cell-specific intercellular adhesion molecule 3-grabbing nonintegrin/CD209 is abundant on macrophages in the normal human lymph node and is not required for dendritic cell stimulation of the mixed leukocyte reaction, Angela Granelli-Piperno, Alla Pritsker, and Margit D. Witmer-Pack
Dendritic cells pulsed with protein antigens in vitro can prime antigen specific, MHC restricted T cells in situ, Kayo Inaba, Joshua P. Metlay, Mary T. Crowley, and Ralph M. Steinman
Dendritic cells pulsed with protein antigens in vitro can prime antigen-specific, MHC-restricted T cells in situ, Kayo Inaba, Joshua P. Metlay, Mary T. Crowley, and Ralph M. Steinman
Dendritic cells require a systemic type I interferon response to mature and induce CD4+ Th1 immunity with poly IC as adjuvant, Maria` P. Longhi, Christine Trumpfheller, and Juliana Idoyaga
Dendritic cells: Specialized and regulated antigen processing machines, Ira S. Mellman and Ralph M. Steinman
Dendritic cells stimulate primary human cytolytic lymphocyte responses in the absence of CD4+ helper T cells, James W. Young and Ralph M. Steinman
Dendritic cells stimulate primary human cytolytic lymphocyte responses in the absence of CD4+ helper T cells, James W. Young and Ralph M. Steinman
Dendritic Cells: Targets for Protection and Pathogenesis, Steinman Laboratory
Dendritic Cells: Targets for Protection and Pathogenesis, Steinman Laboratory
Dendritic Cell Subsets, Steinman Laboratory
Dendritic cells with TGF-β1 differentiate naïve CD4 +CD25- T cells into islet-protective Foxp3+ regulatory T cells, Xunrong Luo, Kristin V. Tarbell, and Hua Yang
Dendritic cell targeted HIV gag protein vaccine provides help to a DNA vaccine including mobilization of protective CD8+ T cells, Godwin W. Nchinda, David Amadu, and Christine Trumpfheller
Dendritic cell targeting of survivin protein in a xenogeneic form elicits strong CD4+ T cell immunity to mouse survivin, Anna Charalambous, Margarita Oks, and Godwin W. Nchinda
Design of Protein-Based Vaccines, Steinman Laboratory
Design of Protein-Based Vaccines, Steinman Laboratory
Development. View no.10, January 2017, The Rockefeller University
Development. View no.11, January 2017, The Rockefeller University
Development. View no.12, January 2017, The Rockefeller University
Development. View no.13, January 2017, The Rockefeller University
Development. View no.14, January 2017, The Rockefeller University
Development. View no15., January 2017, The Rockefeller University
Development. View no.16, January 2017, The Rockefeller University
Development. View no.17, January 2017, The Rockefeller University
Development. View no.18, January 2017, The Rockefeller University
Development. View no.19, January 2017, The Rockefeller University
Development. View no.1, January 2017, The Rockefeller University
Development. View no.20, January 2017, The Rockefeller University
Development. View no.21, January 2017, The Rockefeller University
Development. View no.22, January 2017, The Rockefeller University
Development. View no.23, January 2017, The Rockefeller University
Development. View no.24, January 2017, The Rockefeller University
Development. View no.25, January 2017, The Rockefeller University
Development. View no.26, January 2017, The Rockefeller University
Development. View no.27, January 2017, The Rockefeller University
Development. View no.28, January 2017, The Rockefeller University
Development. View no.29, January 2017, The Rockefeller University
Development. View no.2, January 2017, The Rockefeller University
Development. View no.30, January 2017, The Rockefeller University
Development. View no.3, January 2017, The Rockefeller University
Development. View no.4, January 2017, The Rockefeller University
Development. View no5., January 2017, The Rockefeller University
Development. View no6., January 2017, The Rockefeller University
Development. View no.7, January 2017, The Rockefeller University
Development. View no.8, January 2017, The Rockefeller University
Development. View no.9, January 2017, The Rockefeller University
Differentiation of phagocytic monocytes into lymph node dendritic cells in vivo, Gwendalyn J. Randolph, Kayo Inaba, and Davide E. Robbiani
Direct activation of CD8+ cytotoxic T lymphocytes by dendritic cells, Kayo Inaba, James W. Young, and Ralph M. Steinman
Direct activation of CD8+ cytotoxic T lymphocytes by dendritic cells, Kayo Inaba, James W. Young, and Ralph M. Steinman
Direct expansion of functional CD25+ CD4+ regulatory T cells by antigen-processing dendritic cells, Sayuri Yarmazaki, Sayuri Yamazaki, Tomonori Iyoda, and Kristin V. Tarbell
Direct Type I IFN but Not MDA5/TLR3 Activation of Dendritic Cells Is Required for Maturation and Metabolic Shift to Glycolysis after Poly IC Stimulation, Austin Pantel, Angela Teixeira, and Elias K. Haddad
Discovery, Steinman Laboratory
Distinct CD4+ T Cell Differentiation Outcomes in Naive Mice, Steinman Laboratory
Distinct features of dendritic cells and anti-Ig activated B cells as stimulators of the primary mixed leukocyte reaction, Joshua P. Metlay and Ellen Puré
Distribution of horseradish peroxidase (HRP)- anti-HRP immune complexes in mouse spleen with special reference to follicular dendritic cells, Lei L. Chen, Andrea M. Frank, Judy Adams, and Ralph M. Steinman
Diverse Kappa Opioid Receptor Agonists: Relationships Between Signaling and Behavior, Amelia Dunn
Dll4-Notch signaling in Flt3-independent dendritic cell development and autoimmunity in mice, Fabienne Billiard, Camille Lobry, and Guillaume Darrasse-Jèze
Dochez, Alphonse R., The Rockefeller University
Dole, Vincent P., The Rockefeller University
Dubos Laboratory, The Rockefeller University
Dubos, René J., The Rockefeller University
During Infection DCs Must Immunize to Microbes, But Not to Airways Proteins or Self-Antigens, Steinman Laboratory
During Infection Dendritic Cells Must Immunize to Microbes, Steinman Laboratory
Dying Cells: Fates and Functions, Steinman Laboratory
Early 1900s laboratory, The Rockefeller University
Early protection against pathogenic virus infection at a mucosal challenge site after vaccination with attenuated simian immunodeficiency virus, Klara Tenner-Ràcz, Christiane Stahl Hennig, and Klaus T. Überla
East River development, 1931, The Rockefeller University
East River View, 1928, The Rockefeller University
EBNA1-specific CD4+ T cells in healthy carriers of Epstein-Barr virus are primarily Th1 in function, Kara L. Bickham, Christian Münz, and Mingli Tsang
Economides, Kirk, The Rockefeller University
Edelman, Gerald M., The Rockefeller University
Effective Adaptive Immunity, Steinman Laboratory
Effective Adaptive Immunity to Tumors in Mice, Steinman Laboratory
Effective expansion of alloantigen-specific Foxp3+ CD25 + CD4+ regulatory T cells by dendritic cells during the mixed leukocyte reaction, Sayuri Yamazaki, Munjal P. Patel, and Alice D. Harper
Effects of Ventromedial Hypothalamic Lesions on Food-Reinforced Fixed Ratio Responding, Ronald Paul Larkin
Efficient interaction of HIV-1 with purified dendritic cells via multiple chemokine coreceptors, Angela Granelli-Piperno, Bernard Moser, and Melissa Pope
Efficient loading of identical viral peptide onto class II molecules by antigenized immunoglobulin and influenza virus, Teodor D. Brumeanu, Ralph M. Steinman, and William J. Swiggard
Efficient presentation of phagocytosed cellular fragments on the major histocompatibility complex class II products of dendritic cells, Kayo Inaba, Shannon J. Turley, and Fumiya Yamaide
Efficient targeting of protein antigen to the dendritic cell receptor DEC-205 in the steady state leads to antigen presentation on major histocompatibility complex class I products and peripheral CD8+ T cell tolerance, Laura C. Bonifaz, David P. Bonnyay, and Karsten Mahnke
Eisenberg, Lawrence, The Rockefeller University
ELAINE FUCHS, The Rockefeller University
Electrocardiograph machine, The Rockefeller University
Ellicott, Nancy P., The Rockefeller University
Ellicott, Nancy P., The Rockefeller University
EMPLOYEE APPRECIATION, The Rockefeller University
EMPLOYEE APPRECIATION, The Rockefeller University
EMPLOYEE APPRECIATION, The Rockefeller University
EMPLOYEE RECOGNITION, The Rockefeller University
EMPLOYEE RECOGNITION, The Rockefeller University
EMPLOYEE RECOGNITION, The Rockefeller University
EMPLOYEE RECOGNITION, The Rockefeller University
Endocytosis and the recycling of plasma membrane, Ralph M. Steinman, Ira S. Mellman, William A. Muller, and Zanvil A. Cohn
Endocytosis of Non-Replicating Antigens, Steinman Laboratory
Endocytosis Via Coated Pits of Antibodies to DEC-205, The Rockefeller University
Endogenously expressed nef uncouples cytokine and chemokine production from membrane phenotypic maturation in dendritic cells, Davorka Messmer and Jean M. Jacqué
Enzymatic Sulfurylation Mechanisms, Irving Hyman Goldberg
Epidermal langerhans cells rapidly capture and present antigens from C-type lectin-targeting antibodies deposited in the dermis, Vincent Flacher, Christoph H. Trip, and Patrizia Stoitzner
EPIGENETICS AND CANCER, The Rockefeller University
EREIA, The Rockefeller University
Erratum: Flt3L dependence helps define an uncharacterized subset of murine cutaneous dendritic cells, Shamim A. Mollah, Joseph S. Dobrin, and Rachel E. Feder
Erratum: Selective blockade of the inhibitory Fcγ receptor (FcγRIIB) in human dendritic cells and monocytes induces a type I interferon response program, Madhav V. Dhodapkar, Devi K. Banerjee, and John E. Connolly
Erratum: Sustained expansion of NKT cells and antigen-specific T cells after injection of α-galactosyl-ceramide loaded mature dendritic cells in cancer patients, David H. Chang, Keren Osman, and John E. Connolly
ESAT-6 targeting to DEC205+ antigen presenting cells induces specific-T cell responses against ESAT-6 and reduces pulmonary infection with virulent Mycobacterium tuberculosis, Aarón Silva-Sánchez, Selene Meza-Pérez, and Adriana Flores-Langarica
Estilo, Cherry, The Rockefeller University
Exogenous Pathway, The Rockefeller University
Exploiting dendritic cells to improve vaccine efficacy, Ralph M. Steinman and Melissa Pope
Expression of a functional eotaxin (CC chemokine ligand 11) receptor CCR3 by human dendritic cells, Sylvia Beaulieu, Davide E. Robbiani, and Xixuan Du
Expression of DEC-205 in Different Tissues, The Rockefeller University
Expression of NFkB/Rel, The Rockefeller University
Exterior Street and 64th Street, The Rockefeller University
Exterior Street and 68th Street, The Rockefeller University
Exterior. View no. 1, September 1957, The Rockefeller University
Exterior. View no. 2, September 1957, The Rockefeller University
Exterior. View no. 3, December 1957, The Rockefeller University
Factors Affecting Translation of Messenger RNA's In Vitro: Use of a GTP Analogue to Investigate Rates of Polypeptide Chain Elongation, Fred Russell Kramer
Faculty Dining Room, The Rockefeller University
Faculty Dining Room, The Rockefeller University
Faculty Dining Room, The Rockefeller University
Faculty Dining Room, 1954, The Rockefeller University
FALL FESTIVAL, The Rockefeller University
FAREWELL TO PAUL NURSE, The Rockefeller University
Farley, Oliver, The Rockefeller University
Features of the CD4+ T Cell Response of Mice to α-DEC-205, Steinman Laboratory
Feigenbaum, Mitchell J., The Rockefeller University
Field Theoretic Models of Deep Inelastic Lepton-Nucleon Scattering, Stephen Blaha
Fischetti Laboratory. View no. 10 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 11 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 12 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 13 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 14 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 15 , December 2015, The Rockefeller University
Fischetti Laboratory. View no.16, December 2015, The Rockefeller University
Fischetti Laboratory. View no.1, December 2015, The Rockefeller University
Fischetti Laboratory. View no. 2, December 2015, The Rockefeller University
Fischetti Laboratory. View no. 3, December 2015, The Rockefeller University
Fischetti Laboratory. View no. 4, December 2015, The Rockefeller University
Fischetti Laboratory. View no. 5 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 6 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 7 , December 2015, The Rockefeller University
Fischetti Laboratory. View no. 8, December 2015, The Rockefeller University
Fischetti Laboratory. View no. 9 , December 2015, The Rockefeller University
FITC-Dextran Is Selectively Taken by Splenic Marginal Zone Macrophages, Steinman Laboratory
FITS-Dextran, Steinman Laboratory
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN, Chaegyu Park, Kazuhiko Takahara, and Eiji Takahara
Flexner Hall, 1954, The Rockefeller University
Flexner Hall, 1966, The Rockefeller University
Flexner Hall, 1968, The Rockefeller University
Flexner Hall construction, The Rockefeller University
Flexner Laboratory, The Rockefeller University
Flexner, Simon, The Rockefeller University
Flinn, Waldo, The Rockefeller University
Flt3L controls the development of radiosensitive dendritic cells in the meninges and choroid plexus of the steady-state mouse brain, Niroshana Anandasabapathy, Gabriel D. Victora, and Matthew M. Meredith
Flt3L dependence helps define an uncharacterized subset of murine cutaneous dendritic cells, Shamim A. Mollah, Joseph S. Dobrin, and Rachel E. Feder
Flt3 signaling-dependent dendritic cells protect against atherosclerosis, Jae-hoon Choi, Cheolho Cheong, and Guillaume Darrasse-Jèze
Fogg, Alzatta, The Rockefeller University
Forest Hill: The Rockefeller Estate, Sharon E. Gregor
Francis Jr., Thomas, The Rockefeller University
Frog Spinal Motoneurons: Their Supraspinal Synaptic Input and Anatomical Localization, William L R Cruce
From Institute to University: A Brief History of The Rockefeller University, The Rockefeller University
FROM RNA TO HUMANS, The Rockefeller University
Fullam, Ernest, The Rockefeller University
Functional comparison of the mouse DC-SIGN, SIGNR1, SIGNR3 and Langerin, C-type lectins, Kazuhiko Takahara, Yusuke Yashima, and Yoshiki Omatsu
Gadsby, David C., The Rockefeller University
Garden Staircase, The Rockefeller University
Garden Staircase, Detail, The Rockefeller University
Gasser, Herbert S., The Rockefeller University
Gene Activation in Early Amphibian Development, Rosemary Faulkner Bachvarova
Generation of large numbers of dendritic cells from mouse bone marrow cultures supplemented with granulocyte-macrophage colony stimulating factor, Kayo Inaba, Muneo M. Inaba, and Nikolaus Romani
Generation of large numbers of dendritic cells from mouse bone marrow cultures supplemented with granulocyte/macrophage colony-stimulating factor, Kayo Inaba, Muneo M. Inaba, and Nikolaus Romani
Germline Genetic Determination of Cancer Outcome, Benjamin N. Ostendorf
Gharahdaghi, Farzin, The Rockefeller University
Giokaris, Nikos, The Rockefeller University
Glassblower's Shop, 1963, The Rockefeller University
Glassblower's Shop, 1963, The Rockefeller University
GLOBAL CORPORATE CHALLENGE, The Rockefeller University
Glycolipid α-C-galactosylceramide is a distinct inducer of dendritic cell function during innate and adaptive immune responses of mice, Shinichiro Fujii, Kanako Shimizu, and Hiroaki Hemmi
God's Gold: The Story of Rockefeller and His Time, John T. Flynn
Goebel Laboratory, March 1962, The Rockefeller University
Goebel, Walther F., The Rockefeller University
Granick, Sam, The Rockefeller University
Granulocyte-macrophage colony stimulating factor is essential for the viability and function of cultured murine epidermal Langerhans cells, Margit D. Witmer-Pack, Wendy A. Olivier, and Jay E. Valinsky
Granulocyte/macrophage colony-stimulating factor is essential for the viability and function of cultured murine epidermal langerhans cells, Margit D. Witmer-Pack, Wendy A. Olivier, and Jay E. Valinsky
Granulocytes, macrophages, and dendritic cells arise from a common major histocompatibility complex class II-negative progenitor in mouse bone marrow, Kayo Inaba, Muneo M. Inaba, and Masashi Deguchi
Granulocytes, macrophages, and dendritic cells arise from a common major histocompatibility complex class II-negative progenitor in mouse bone marrow, Kayo Inaba, Muneo M. Inaba, and Masashi Deguchi
Greengard, Paul, The Rockefeller University
Greenhouse, The Rockefeller University
Greenhouses at 64th Street, The Rockefeller University
GREEN TIP, The Rockefeller University
Griffin, Donald R., The Rockefeller University
Guatelli, Fay, The Rockefeller University
Guest Rooms. View no. 1, 1963, The Rockefeller University
Guest Room. View no. 2, 1963, The Rockefeller University
Guest Room. View no. 3, 1963, The Rockefeller University
Hall, William, The Rockefeller University
Hanafusa, Hidesaburo, The Rockefeller University
Handwerger, Sandra, The Rockefeller University
Hartline, H. Keffer, The Rockefeller University
Haulenbeck, Joseph B., The Rockefeller University
Heidelberger, Michael, National Library of Medicine
Hematopoietic Stem Cells, Steinman Laboratory
High and low affinity carbohydrate ligands revealed for murine SIGN-R1 by carbohydrate array and cell binding approaches, and differing specificities for SIGN-R3 and langerin, Christine Galustian, Chaegyu Park, and Wengang Chai
High levels of a major histocompatibility complex II-self peptide complex on dendritic cells from the T cell areas of lymph nodes, Kayo Inaba, Margit D. Witmer-Pack, and Muneo M. Inaba
Hiller, Alma E., The Rockefeller University
Hirsch, James G., The Rockefeller University
Hirsch, Jules, The Rockefeller University
Hirsch Laboratory. Room 216, September 1964, The Rockefeller University
Hirsch Laboratory. Room 217A, September 1964, The Rockefeller University
Hirsch Laboratory. Room 218, September 1964, The Rockefeller University
Historic Laboratory. Veiw no.12, April 2013, Mario Morgado
Historic Laboratory. View no.10, March 2017, Mario Morgado and The Rockefeller University
Historic Laboratory. View no.11, April 2013, Mario Morgado and The Rockefeller University
Historic Laboratory. View no.13, January 2019, The Rockefeller University
Historic Laboratory. View no.14, January 2019, The Rockefeller University
Historic Laboratory. View no.15, January 2019, The Rockefeller University
Historic Laboratory. View no.16, January 2019, The Rockefeller University
Historic Laboratory. View no.17, January 2019, The Rockefeller University
Historic Laboratory. View no.1, January 2013, The Rockefeller University
Historic Laboratory. View no.2, 2013, The Rockefeller University
Historic Laboratory. View no.2, January 2013, The Rockefeller University
Historic Laboratory. View no.3, January 2013, The Rockefeller University
Historic Laboratory. View no.4, January 2013, The Rockefeller University
Historic Laboratory. View no.5, January 2013, The Rockefeller University
Historic Laboratory. View no.6, January 2013, The Rockefeller University
Historic Laboratory. View no.7, March 2017, Mario Morgado and The Rockefeller University
Historic Laboratory. View no.8, March 2017, Mario Morgado and The Rockefeller University
Historic Laboratory. View no.9, 2017, Mario Morgado and The Rockefeller University
HIV-1-infected monocyte-derived dendritic cells do not undergo maturation but can elicit IL-10 production and T cell regulation, Angela Granelli-Piperno, Angelika Golebiowska, and Christine Trumpfheller
HIV-1 selectively infects a subset of nonmaturing BDCA1-positive dendritic cells in human blood, Angela Granelli-Piperno, Irina Shimeliovich, and Margit D. Witmer-Pack
Hoagland, Charles L., The Rockefeller University
HODGKIN SYMPOSIUM, The Rockefeller University
Hoffmann, Stella R., The Rockefeller University
Honey Bee Communication: The Dance-Language Controversy, James Leroy Gould
HONORING FRIEDRICH J. BONHOEFFER, The Rockefeller University
HONORING JAN BRESLOW, The Rockefeller University
HONORING JURG OTT, The Rockefeller University
HONORING MARY JEANNE KREEK, The Rockefeller University
HONORING TORSEN N. WIESEL, The Rockefeller University
Horse Exercise Yard, The Rockefeller University
Horsfall, Frank L., Jr., The Rockefeller University
HOSPITAL CENTENNIAL, The Rockefeller University
Hospital Construction, 1909, The Rockefeller University
Hotshkiss, Rollin D., The Rockefeller University
Human CD4+ T lymphocytes consistently respond to the latent Epstein- Barr virus nuclear antigen EBNA1, Christian Münz, Kara L. Bickham, and Marion S. Subklewe
Human dendritic cells activate resting natural killer (NK) cells and are recognized via the NKp30 receptor by activated NK cells, Guido Ferlazzo, Mingli Tsang, and Lorenzo Moretta
Human dendritic cells: Enrichment and characterization from peripheral blood, Wesley C. Voorhis, Laura S. Hair, Ralph M. Steinman, and Gilla Kaplan
Human dendritic cells. Enrichment and characterization from peripheral blood, Wesley C. Voorhis, Laura S. Hair, Ralph M. Steinman, and Gilla Kaplan
Hybridization in Ants, Ian Butler
Identification and expression of mouse Langerin (CD207) in dendritic cells, Kazuhiko Takahara, Yoshiki Omatsu, and Yusuke Yashima
Identification of a 24-kDa cytokine that is required for development of cytolytic T lymphocytes, Cristina Cernetti, Ralph M. Steinman, and Angela Granelli-Piperno
Identification of a novel cell type in peripheral lymphoid organs of mice: II. Functional properties in vitro, Ralph M. Steinman and Zanvil A. Cohn
Identification of a novel cell type in peripheral lymphoid organs of mice. II. Functional properties in vitro, Ralph M. Steinman and Zanvil A. Cohn
Identification of a novel cell type in peripheral lymphoid organs of mice: III. Functional properties in vivo, Ralph M. Steinman, D. S. Lustig, and Zanvil A. Cohn
Identification of a novel cell type in peripheral lymphoid organs of mice: I. Morphology, quantitation, tissue distribution, Ralph M. Steinman and Zanvil A. Cohn
Identification of a novel cell type in peripheral lymphoid organs of mice. I. Morphology, quantitation, tissue distribution, Ralph M. Steinman and Zanvil A. Cohn
Identification of a novel cell type in peripheral lymphoid organs of mice. IV. Identification and distribution in mouse spleen, Ralph M. Steinman, Judy Adams, and Zanvil A. Cohn
Identification of a novel cell type in peripheral lymphoid organs of mice: V. Purification of spleen dendritic cells, new surface markers, and maintenance in vitro*, Ralph M. Steinman, Gilla Kaplan, Margit D. Witmer, and Zanvil A. Cohn
Identification of a novel cell-type in peripheral lymphoid organs of mice. V. Purification of spleen dendritic cells, new surface markers, and maintenance in vitro, Ralph M. Steinman, Gilla Kaplan, Margit D. Witmer, and Zanvil A. Cohn
Identification of antigen-presenting dendritic cells in mouse aorta and cardiac valves, Jae-hoon Choi, Yoonkyung Do, and Cheolho Cheong
Identification of Gag p24 "Mimetope" Peptides, The Rockefeller University
Identification of Gag p24 "Mimetope" Peptides, Steinman Laboratory
Identification of immunostimulatory dendritic cells in the synovial effusions of patients with rheumatoid arthritis, Nathan J. Zvaifler, Ralph M. Steinman, and Gilla Kaplan
Identification of Previously Unknown Interactions Between G Protein-Coupled Receptors and Receptor Activity-Modifying Proteins, Emily Margaretha Lorenzen
Identification of proliferating dendritic cell precursors in mouse blood, Kayo Inaba, Ralph M. Steinman, and Margit D. Witmer-Pack
Identification of proliferating dendritic cell precursors in mouse blood, Kayo Inaba, Ralph M. Steinman, and Margit D. Witmer-Pack
IL-12 p40, Steinman Laboratory
Immature dendritic cells selectively replicate macrophagetropic (M- tropic) human immunodeficiency virus type 1, while mature cells efficiently transmit both M- and T-tropic virus to T cells, Angela Granelli-Piperno, Elena Delgado, and Victoria Finkel
Immune tolerance after delivery of dying cells to dendritic cells in situ, Kang Z. Liu, Tomonori Iyoda, and Marzena Saternus
Immunization with HIV Gag targeted to dendritic cells followed by recombinant New York vaccinia virus induces robust T-cell immunity in nonhuman primates, Barbara J. Flynn, Kathrin Kastenmüller, and Ulrike Wille-Reece
Immunogenicity and efficacy of immunodeficiency virus-like particles pseudotyped with the G protein of vesicular stomatitis virus, Seraphin Kuate, Christiane P. Stahl-Hennig, and Heribert Stoiber
Immunologic properties of purified epidermal langerhans cells: Distinct requirements for stimulation of unprimed and sensitized T lymphocytes, Kayo Inaba, Gerold Schuler, and Margit D. Witmer
Immunologic properties of purified epidermal Langerhans cells: Distinct requirements for stimulation of unprimed and sensitized T lymphocytes, Kayo Inaba, Gerold Schuler, and Margit D. Witmer
Immunology Is Important For Medicine, Steinman Laboratory
Increased macrophage infection upon subcutaneous inoculation of rhesus macaques with simian immunodeficiency virus-loaded dendritic cells or T cells but not with cell-free virus, Ralf Ignatius, Klara Tenner-Ràcz, and Davorka Messmer
Increase in TNF-α and inducible nitric oxide synthase-expressing dendritic cells in psoriasis and reduction with efalizumab (anti-CD11a), Michelle A. Lowes, Francesca N. Chamian, and Maria Veronica Abello
Incubator Room in the Flexner Hall, The Rockefeller University
Inducible ablation of mouse Langerhans cells diminishes but fails to abrogate contact hypersensitivity, Clare L. Bennett, Erwin Van Rijn, and Steffen Jung
Induction of interleukin lα mrna during the antigen-dependent interaction of sensitized t lymphoblasts with macrophages, Sumil Koide and Ralph M. Steinman
Induction of murine interleukin 1: Stimuli and responsive primary cells, Sumil Koide and Ralph M. Steinman
Influence of delayed immune reactions on human epidermal keratinocytes, Gilla Kaplan, Margit D. Witmer, and Indira V. Nath
Influenza virus-induced dendritic cell maturation is associated with the induction of strong T cell immunity to a coadministered, normally nonimmunogenic protein, Marie K. Brimnes, Laura C. Bonifaz, Ralph M. Steinman, and Thomas M. Moran
Influenza virus-infected dendritic cells stimulate strong proliferative and cytolytic responses from human CD8+ T cells, Nina Bhardwaj, Armin Bender, and Noemi Gonzalez
Influenza virus-infected dendritic cells stimulate strong proliferative and cytolytic responses from human CD8+ T cells, Nina Bhardwaj, Armin Bender, and Noemi Gonzalez
IN HONOR OF GEORGE CROSS, The Rockefeller University
IN MEMORY OF fREDERICK SEITZ, The Rockefeller University
IN MEMORY OF HIDESABURO HANAFUSA, The Rockefeller University
IN MEMORY OF JOSHUA LEDERBERG, The Rockefeller University
IN MEMORY OF NORTON ZINDER, The Rockefeller University
IN MEMORY OF RALPH M. STEINMAN, The Rockefeller University
IN MEMORY OF VINCENT DOLE, The Rockefeller University
Innate NKT and MK Cells, Steinman Laboratory
Innate NKT lymphocytes confer superior adaptive immunity via tumor-capturing dendritic cells, Kang Z. Liu, Juliana Idoyaga, and Anna Charalambous
Innate Resistance, Steinman Laboratory
Innate Responses to Mouse Transplantable Tumors, Steinman Laboratory
INSIDE ROCKEFELLER, The Rockefeller University
INSIGHT LECTURE 2004, The Rockefeller University
INSTITUTE OF MEDICINE AWARDS 2002, The Rockefeller University
Institute to University, The Rockefeller University
Institute views, 1937, The Rockefeller University
Institute views from the East River, 1937, The Rockefeller University
Institute Views from the East River, 1950, The Rockefeller University
Institute Views from the East River. 64th Street, 1938, The Rockefeller University
Institute Views from the East River. 65th Street, 1938, The Rockefeller University
Institute Views from the East River. 66th Street, 1938, The Rockefeller University
Institute Views from the East River, 67th Street, 1938, The Rockefeller University
Institute Views from the East River. 67th Street, 1938, The Rockefeller University
Institute Views from the East River. 68th Street, 1938, The Rockefeller University
Instrument Shop, The Rockefeller University
Instrument Shop, The Rockefeller University
Instrument Shop, The Rockefeller University
Instrument Shop, The Rockefeller University
Instrument Shop, The Rockefeller University
Instrument Shop. View no. 1, 1955, The Rockefeller University
Instrument Shop. View no.2, 1955, The Rockefeller University
Instrument Shop. View no. 3, 1955, The Rockefeller University
Instrument Shop. View no. 4, 1955, The Rockefeller University
Instrument Shop. View no. 5, 1955, The Rockefeller University
Instrument Shop. View no. 6, 1955, The Rockefeller University
Instrument Shop. View no. 7, 1955, The Rockefeller University
Instrument Shop. View no. 8, 1955, The Rockefeller University
Instrument Shop. View no. 9, 1955, The Rockefeller University
Intensified and Protective CD4+ T Cell Immunity, Steinman Laboratory
Intensified and protective CD4+ T cell immunity in mice with anti-dendritic cell HIV gag fusion antibody vaccine, Christine Trumpfheller, Jennifer S. Finke, and Carolina B. López
Interdigitating (Dendritic) Cell in the T Cell Area, Steinman Laboratory
Interfaces of Medicine with Immunology, Steinman Laboratory
Interior. View no. 10, October 1957, The Rockefeller University
Interior. View no.11, October 1957, The Rockefeller University
Interior. View no. 12, October 1957, The Rockefeller University
Interior. View no. 13, October 1957, The Rockefeller University
Interior. View. no. 14, October 1957, The Rockefeller University
Interior. View no. 15, October 1957, The Rockefeller University
Interior. View no. 1, March 1957, The Rockefeller University
Interior. View no. 2, April 1957, The Rockefeller University
Interior. View no. 3, April 1957
Interior. View no. 4, June 1957, The Rockefeller University
Interior. View no. 5, June 1957, The Rockefeller University
Interior. View no. 6, June 1957, The Rockefeller University
Interior. View no. 7, September 1957, The Rockefeller University
Interior. View no. 8, October 1957, The Rockefeller University
Interior. View no.9, October 1957, The Rockefeller University
Interleukin 1 enhances T-dependent immune responses by amplifying the function of dendritic cells, Sumil Koide, Kayo Inaba, and Ralph M. Steinman
Interleukin 1 production during accessory cell-dependent mitogenesis of T lymphocytes, Nina Bharwaj, Lisa L. Lau, and Steven M. Friedman
Internalization and degradation of macrophage Fc receptors during receptor-mediated phagocytosis, Ira S. Mellman, Helen Plutner, and Ralph M. Steinman
International Symposia on Dendritic Cells in Fundamental and Clinical Immunology, Steinman Laboratory
Interstitial Dendritic Cells, Steinman Laboratory
Intralysosomal accumulation of polyanions. I. Fusion of pinocytic and phagocytic vacuoles with secondary lysosomes, Margaret Carol Kielian, Ralph M. Steinman, and Zanvil A. Cohn
Introduction to Dendritic Cells, Steinman Laboratory
In Vivo Targeted DEC+ Dendritic Cells Polarize LACK Transgenic T Cells, Steinman Laboratory
In Vivo Targeting of Antigens to Maturing Dendritic Cells via the DEC-205 Receptor Improves T Cell Vaccination, Laura C. Bonifaz, David P. Bonnyay, and Anna Charalambous
Isolation Building construction, The Rockefeller University
I. Solution Photochemistry of Camphor II. Synthesis and Solution Photochemistry of 2, 2-Dimethylcyclobutanone, David Kent Herron
J558 Plasmacytoma, Steinman Laboratory
Jacobs, Walter A., The Rockefeller University
JEFFREY M. FRIEDMAN, The Rockefeller University
JEFFREY RAVETCH AND MICHAEL YOUNG, The Rockefeller University
Jellinck, Harry, The Rockefeller University
Jenberg, Nils, The Rockefeller University
John D. Rockefeller: Entrepreneur & Philanthropist, Susan E. Hamen
John D. Rockefeller, Jr., a Portrait, Raymond B. Fosdick
John D. Rockefeller on Making Money, John D. Rockefeller
John D. Rockefeller: the Cleveland Years, Grace Izant
John D. Rockefeller: The Heroic Age of American Enterprise, Allan Nevins
John, Michael, The Rockefeller University
JOSHUA LEDERBERG - JOHN VON NEUMANN SYMPOSIUM, The Rockefeller University
JOSHUA LEDERBERG - JOHN VON NEUMANN SYMPOSIUM, The Rockefeller University
Kac, Mark, The Rockefeller University
Kaiser, Bonnie, The Rockefeller University
Kanako Shimizu and Shin-ichiro Fujii, Steinman Laboratory
Kaplan, Gilla, The Rockefeller University
Kappas, Attallah, The Rockefeller University
Kleiner, Israel, The Rockefeller University
Kunkel, Henry G., The Rockefeller University
Kunkel, Louis O., The Rockefeller University
Lancefield, Rebecca C., The Rockefeller University
Latent HIV-1 infection in enriched populations of blood monocytes and T cells from seropositive patients, Margaret J. McElrath, Ralph M. Steinman, and Zanvil A. Cohn
Leal, Susan, The Rockefeller University
Lecomte du Noüy Laboratory, The Rockefeller University
Lecomte du Noüy, Pierre, The Rockefeller University
Lecture in Caspary Auditorium, The Rockefeller University
Lederberg, Joshua, The Rockefeller University
Lee, Suey and Ng, Linda, The Rockefeller University
Leonia Bozzaco, Christine Trumpfheller, and Angela Granelli-Piperno, The Rockefeller University
LEPTIN AND METABOLIC DISEASE, The Rockefeller University
Leung, Ken, The Rockefeller University
Levene, Phoebus, The Rockefeller University
Library, The Rockefeller University
Library, The Rockefeller University
LIBRARY WEEK 2011, The Rockefeller University
Life History and Features, Steinman Laboratory
LIFE IN A POST-GENOMIC WORLD, The Rockefeller University
Linking Innate to Adaptive T Cell Immunity, Steinman Laboratory
Lipmann, Fritz A., The Rockefeller University
Lipopolysaccharide or Whole Bacteria Block the Conversion of Inflammatory Monocytes into Dendritic Cells In Vivo, Gianluca Rotta, Emmerson W. Edwards, and Sabina Sangaletti
Little, Ralph B., The Rockefeller University
Liver Cell Adhesion Molecules in Embryonic Development, Warren J. Gallin
Liver macrophages in murine listeriosis: Cell-mediated immunity is correlated with an influx of macrophages capable o f generating reactive oxygen intermediates, David A. Lepay, Ralph M. Steinman, and Carl F. Nathan
Lloyd, David, The Rockefeller University
Location of Dendritic Cells, Steinman Laboratory
Lockie, Alice N., 1939, The Rockefeller University
Lockie, Alice N., 1960, The Rockefeller University
Loeb, Jacques, The Rockefeller University
Longsworth, Lewis G., The Rockefeller University
Lorente de Nó Laboratory, October 1955, The Rockefeller University
Lorente de Nó , Rafael, The Rockefeller University
Lourdes Quirolgico, The Rockefeller University
Low Doses of TGF-β1, Steinman Laboratory
Low levels of HIV-1 infection in cutaneous dendritic cells promote extensive viral replication upon binding to memory CD4+ T cells, Melissa Pope, Stuart Gezelter, and Nancy Gallo
Luck, David J.L., The Rockefeller University
Lunchroom Staff, The Rockefeller University
Lung dendritic cells induce migration of protective T cells to the gastrointestinal tract, Darren Ruane, Lucas Brane, and Bernardo S. Reis
Lupinek, Bernard, The Rockefeller University
Lupinek, Bernard. 1965, The Rockefeller University
Lymphoid dendritic cells are potent stimulators of the primary mixed leukocyte reaction in mice, Ralph M. Steinman and Margit D. Witmer
Lymphoid dendritic cells are potent stimulators of the primary mixed leukocyte reaction in mice, Ralph M. Steinman and Margit D. Witmer-Pack
Lymphokine and nonlymphokine mRNA levels in stimulated human T cells: Kinetics, mitogen requirements, and effects of cyclosporin a, Angela Granelli-Piperno, Linda Andrus, and Ralph M. Steinman
Lymphokine enhances the expression and synthesis of Ia antigen on cultured mouse peritoneal macrophages, Ralph M. Steinman, Natalia Nogueira, and Margit D. Witmer
Lymphokine enhances the expression and synthesis of Ia antigens on cultured mouse peritoneal macrophages, Ralph M. Steinman, Natalia Nogueira, and Margit D. Witmer
Lynch, Clara J., The Rockefeller University
MacInnes, Duncan A., The Rockefeller University
Mackey, Patricia, The Rockefeller University
MacLeod, Colin M., The Rockefeller University
Macrophages control the retention and trafficking of B lymphocytes in the splenic marginal zone, Mikael Karlsson, Rodolphe Renè Guinamard, and Silvia M. Bolland
Macrophages phagocytose thymic lymphocytes with productively rearranged T cell receptor α and β genes, Kayo Inaba, Muneo M. Inaba, and Tatsuo Kinashi
Main Gate, The Rockefeller University
Main Reading Room, The Rockefeller University
Main Reading Room, The Rockefeller University
Main Reading Room, The Rockefeller University
Main Reading Room, The Rockefeller University
Main Reading Room, 1954, The Rockefeller University
Main Reading Room, ca. 1970s, The Rockefeller University
Main Reading Room, South Alcove, The Rockefeller University
Making Discoveries that Transform Science, The Rockefeller University
MARC TESSIER-LAVIGNE, The Rockefeller University
MARKUS LIBRARY, The Rockefeller University
Marler, Peter R., The Rockefeller University
Masterpieces from the David and Peggy Rockefeller Collection : Manet to Picasso, Museum of Modern Art
Maturation of Dendritic Cells, Steinman Laboratory
Mature dendritic cells boost functionally superior CD8+ T-cell in humans without foreign helper epitopes, Madhav V. Dhodapkar, Joseph Krasovsky, Ralph M. Steinman, and Nina Bhardwaj
Mature dendritic cells infected with canarypox virus elicit strong anti-human immunodeficiency virus CD8+ and CD4+ T-cell responses from chronically infected individuals, Jose Engelmayer, Marie C. Larsson, and Andrew W. Lee
Mauro, Alexander, The Rockefeller University
McCarty, Maclyn, The Rockefeller University
McDonald, Margery, The Rockefeller University
McEwen, Bruce, The Rockefeller University
McLean Laboratory, The Rockefeller University
McMaster Laboratory. View no. 1, March 1962, The Rockefeller University
McMaster Laboratory. View no. 2, 1962, The Rockefeller University
McMaster, Philip D., The Rockefeller University
Measurement of T Cell Responses to Proteins, Steinman Laboratory
Mechanisms of mouse spleen dendritic cell function in the generation of influenza-specific, cytolytic T lymphocytes, Rita Nonacs, Cornelia Humborg, James P. Tam, and Ralph M. Steinman
Mechanisms of Target Discrimination by the Echolocating Bat, Vampyrum Spectrum, Jack Winningham Bradbury
Medigreceanu, Florentin, The Rockefeller University
Meltzer, Samuel J., The Rockefeller University
Membrane flow during pinocytosis: A stereologic analysis, Ralph M. Steinman, Scott E. Brodie, and Zanvil A. Cohn
Membrane proteins of the vacuolar system. III. Further studies on the composition and recycling of endocytic vacuole membrane in cultured macrophages, William A. Muller
Memoirs, David Rockefeller
Merrifield, Bruce, The Rockefeller University
Merrifield Laboratory. View no. 10, 2006, The Rockefeller University
Merrifield Laboratory. View no.11, 2006, The Rockefeller University
Merrifield Laboratory. View no.1, 2006, The Rockefeller University
Merrifield Laboratory. View no.12, 2006, The Rockefeller University
Merrifield Laboratory. View no.13, 2006, The Rockefeller University
Merrifield Laboratory. View no.14, 2006, The Rockefeller University
Merrifield Laboratory. View no.2, 2006, The Rockefeller University
Merrifield Laboratory. View no.3, 2006, The Rockefeller University
Merrifield Laboratory. View no.4, 2006, The Rockefeller University
Merrifield Laboratory. View no.5, 2006, The Rockefeller University
Merrifield Laboratory. View no.6, 2006, The Rockefeller University
Merrifield Laboratory. View no. 7, 2006, The Rockefeller University
Merrifield Laboratory. View no.8, 2006, The Rockefeller University
Merrifield Laboratory. View no. 9, 2006, The Rockefeller University
Merrifield Office. Elizabeth (Libby) Merrifield with grandchildren, 2006, The Rockefeller University
Merrifield Office. View no.2, 2006, The Rockefeller University
Merrifield Office. View no.3, 2006, The Rockefeller University
Merrifield Office. View no. 4, 2006, The Rockefeller University
Merrifield Office. View no.5, 2006, The Rockefeller University
Metabolic Coordination of Stem Cell Fate Controls Tumor Initiation and Tissue Repair, Sanjeethan C. Baksh
Michaelis, Leonor, The Rockefeller University
MICHEL C. NUSSENZWEIG, The Rockefeller University
MICHEL C. NUSSENZWEIG, The Rockefeller University
Microbial stimulation fully differentiates monocytes to DC-SIGN/CD209 + dendritic cells for immune T cell areas, Cheolho Cheong, Ines Matos, and Jae-hoon Choi
MICROBIOME SYMPOSIUM, The Rockefeller University
MICRORNAS AND CANCER, The Rockefeller University
Migration and maturation of langerhans cells in skin transplants and explants, Christian P. Larsen, Ralph M. Steinman, and Margit D. Witmer-Pack
Migration and maturation of Langerhans cells in skin transplants and explants, Christian P. Larsen, Ralph M. Steinman, and Margit D. Witmer-Pack
Migration of Dendritic Cells, Steinman Laboratory
Miller, David, The Rockefeller University
Mirsky, Alfred E., The Rockefeller University
MIRSKY HOLIDAY LECTURES ON SCIENCE 2002, The Rockefeller University
MIRSKY HOLIDAY LECTURES ON SCIENCE 2007, The Rockefeller University
MIRSKY HOLIDAY LECTURES ON SCIENCE 2008, The Rockefeller University
MIRSKY HOLIDAY LECTURES ON SCIENCE 2009, The Rockefeller University
MIRSKY HOLIDAY LECTURES ON SCIENCE 2010, The Rockefeller University
MIRSKY HOLIDAY LECTURES ON SCIENCE 2011, The Rockefeller University
MIRSKY HOLIDAY LECTURES ON SCIENCE 2012, The Rockefeller University
Mirsky Laboratory, 1947, The Rockefeller University
Mirsky Laboratory. Balance Room, 1947, The Rockefeller University
Mirsky Laboratory. Dark Room, 1964, The Rockefeller University
Mirsky Laboratory. Room 213, 1949, The Rockefeller University
Mirsky Laboratory. Room 215, 1947, The Rockefeller University
Mirsky Laboratory. View no. 1, 1962, The Rockefeller University
Mirsky Laboratory. View no. 2, 1962, The Rockefeller University
MIRSKY LECTURE ON SCIENCE 2004, The Rockefeller University
MIRSKY LECTURES IN SCIENCE 2003, The Rockefeller University
Model, Peter, The Rockefeller University
MOLECULAR CANCER THERAPY, The Rockefeller University
MOLECULAR TOGGLE SWITCH, The Rockefeller University
Monoclonal antibodies to LFA-1 and TO CD4 inhibit the mixed leukocyte reaction after the antigen-dependent clustering of dendritic cells and T lymphocytes, Kayo Inaba and Ralph M. Steinman
Monoclonial (ERTRA) and Polyclonal Antibodies, Steinman Laboratory
Monogenic Defects of the Type 1 Interferon Signaling Pathway in Human: Molecular and Clinical Implications, Nicholas Hernandez
Moore Laboratory, 1950, The Rockefeller University
Moore, Stanford, The Rockefeller University
Moreillon, Martine, The Rockefeller University
Most CD4+ T cells from human immunodeficiency virus-1 infected patients can undergo prolonged clonal expansion, Erik G. Langhoff, Margaret J. McElrath, and Harm J. Bos
Mouse spleen lymphoblasts generated in vitro: Recovery in high yield and purity after floatation in dense bovine plasma albumin solutions*, Ralph M. Steinman, Beverly G. Machinger, and Jerrold Fried
Mouse spleen lymphoblasts generated in vitro: Their replication and differentiation in vitro*, Ralph M. Steinman, Steven J. Blumencranz, and Beverly G. Machinger
Mr. Rockefeller's Roads, Ann Rockefeller Roberts
Murine epidermal langerhans cells mature into potent immunostimulatory dendritic cells in vitro, Gerold Schuler and Ralph M. Steinman
Murine epidermal Langerhans cells mature into potent immunostimulatory dendritic cells in vitro, Gerold Schuler and Ralph M. Steinman
Murine kupffer cells: Mononuclear phagocytes deficient in the generation of reactive oxygen intermediates, David A. Lepay, Carl F. Nathan, and Ralph M. Steinman
Murine Kupffer cells: mononuclear phagocytes deficient in the generation of reactive oxygen intermediates, David A. Lepay, Carl F. Nathan, and Ralph M. Steinman
Murphy, James B., The Rockefeller University
Murphy Laboratory. View no. 1, ca. 1947, The Rockefeller University
Murphy Laboratory. View no. 2, ca. 1947, The Rockefeller University
Murphy Laboratory. View no. 3, ca. 1947, The Rockefeller University
Murphy Laboratory. View no. 4, ca. 1947, The Rockefeller University
Murphy Laboratory. View no. 5, ca. 1947, The Rockefeller University
Nairn, Angus, The Rockefeller University
Nelson Rockefeller, A Biography, Joe Alex Morris
Nelson Rockefeller's Picassos, William K. Rudolph
Network of dendritic cells within the muscular layer of the mouse intestine, Adriana Flores-Langarica, Selene Meza-Pérez, and Juana Calderón-Amador
Neutralizing monoclonal antibodies block human immunodeficiency virus type 1 infection of dendritic cells and transmission to T cells, Sarah Frankel, Ralph M. Steinman, and Nelson L. Michael
Newcastle disease virus expressing a dendritic cell-targeted HIV Gag protein induces a potent Gag-specific immune response in mice, Jad Mammary, Frida Array, and Qinshan Gao
New Initiatives in Biological and Medical Science, The Rockefeller University
New Periodicals in the Main Reading Room, The Rockefeller University
NEWS AND NOTES 1976, VOL. 7, NO. 10, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.10, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.11, The Rockefeller University
NEWS AND NOTES 1999, VOL. 10, NO. 2, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.3, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.4, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.5, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.6, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.7, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.8, The Rockefeller University
NEWS AND NOTES 1999, VOL.10, NO.9, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.12, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.13, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.14, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.15, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.16, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.17, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.18, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.19, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.20, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.21, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.22, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.23, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.24, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.25, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.26, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.27, The Rockefeller University
NEWS AND NOTES 2000, VOL.10, NO.30, The Rockefeller University
NEWS AND NOTES 2000, VOL.11, NO.2, The Rockefeller University
NEWS AND NOTES 2000, VOL.11, NO.3, The Rockefeller University
NEWS AND NOTES 2000, VOL.11, NO.4, The Rockefeller University
NEWS AND NOTES 2000, VOL.11, NO.7, The Rockefeller University
NEWS AND NOTES 2000, VOL.12, NO.10, The Rockefeller University
NEWS AND NOTES 2000, VOL.12, NO.12, The Rockefeller University
NEWS AND NOTES 2000, VOL.12, NO.8, The Rockefeller University
NEWS AND NOTES 2000, VOL.12, NO.9, The Rockefeller University
NEWS AND NOTES 2001, APRIL 6, The Rockefeller University
NEWS AND NOTES 2001, FEBRUARY 16, The Rockefeller University
NEWS AND NOTES 2001, JUNE 8, The Rockefeller University
NEWS AND NOTES 2001, MARCH 23, The Rockefeller University
NEWS AND NOTES 2001, MARCH 9, The Rockefeller University
NEWS AND NOTES 2001, MAY 18, The Rockefeller University
NEWS AND NOTES 2001, MAY 4, The Rockefeller University
NEWS AND NOTES 2001, VOL. 12, NO.13, The Rockefeller University
NEWS AND NOTES 2001, VOL.12, NO.14, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE, The Rockefeller University
NEWSWIRE: ALZHEIMER'S DISEASE, The Rockefeller University
NEWSWIRE: APOPTOSIS, The Rockefeller University
NEWSWIRE: DENDRITIC CELLS, The Rockefeller University
NEWSWIRE: EPIGENETICS, The Rockefeller University
NEWSWIRE: LEPTIN, The Rockefeller University
NEWSWIRE: NUCLEAR PORE COMPLEX, The Rockefeller University
NEWSWIRE: SMALL RNAs, The Rockefeller University
NEWSWIRE: STEM CELLS, The Rockefeller University
NEWSWIRE: TRYPANOSOME, The Rockefeller University
NICHOLSON LECTURE, The Rockefeller University
NICHOLSON LECTURE, The Rockefeller University
NICHOLSON LECTURE, The Rockefeller University
Nigg, Clara, The Rockefeller University
NKT Cells, Steinman Laboratory
NKT Cells as Adjuncts to Tumor Immunity, Steinman Laboratory
Noguchi, Hideyo, The Rockefeller University
NOON RECITALS, The Rockefeller University
Normal human dermis contains distinct populations of CD11c +BDCA-1+ dendritic cells and CD163+FXIIIA + macrophages, Lisa C. Zaba, Judilyn Fuentes-Duculan, and Ralph M. Steinman
North Alcove, Main Reading Room, The Rockefeller University
North Lot, The Rockefeller University
North Room, The Rockefeller University
Northrop, John H., The Rockefeller University
Nuclear and Plasma Membrane Properties of Macrophage Heterokaryons and Hybrids, Siamon Gordon
Nursing Staff, The Rockefeller University
Nyswander, Marie, Unknown
Occupational Therapy. View no. 1, October 1958, The Rockefeller University
Occupational Therapy. View no. 2, October 1958, The Rockefeller University
Occupational Therapy. View no. 3, October 1958, The Rockefeller University
Occupational Therapy. View no. 4, December 1958, The Rockefeller University
Occupational Therapy. View no. 5, December 1958, The Rockefeller University
Occupational Therapy. View no. 6, December 1958, The Rockefeller University
Occupational Therapy. View no. 7, December 1958, The Rockefeller University
Office. View no.1, 2006, The Rockefeller University
Olitsky, Peter K., The Rockefeller University
On-Call Room. View no.1, 1962, The Rockefeller University
on-Call Room. View no. 2, 1962, The Rockefeller University
On His Own Terms: A Life of Nelson Rockefeller, Richard Norton Smith
Opie, Eugene L., The Rockefeller University
Oral Mucosal Associated Lymphoid Tissue, The Rockefeller University
Oreos and Dubonnet : Remembering Governor Nelson A. Rockefeller, Joseph H. Boyd and Charles R. Holcomb
ORGANISMAL MODELS FOR HUMAN CANCER, The Rockefeller University
Osterhout, Winthrop J. V., The Rockefeller University
Pais, Abraham, The Rockefeller University
Palade, George E., The Rockefeller University
Pasteur and the Scientific Method
Pathogenesis, The Rockefeller University
Pathogenesis & Protection, The Rockefeller University
Patterns of Electrical Communication Among Gymnotoid Fish, Carl Douglas Hopkins
Peabody, Francis W., The Rockefeller University
PEARL MEISTER GREENGARD PRIZE, The Rockefeller University
PEARL MEISTER GREENGARD PRIZE, The Rockefeller University
PEARL MEISTER GREENGARD PRIZE, The Rockefeller University
PEGGY ROCKEFELLER CONCERT 2008-2009, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2002-2003, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2005-2006, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2006-2007, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2007-2008, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2009-2010, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2010-2011, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2011-2012, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2013-2014, The Rockefeller University
PEGGY ROCKEFELLER CONCERTS 2014-2015, The Rockefeller University
Periodical Room, The Rockefeller University
Periodical Room, The Rockefeller University
Perlmann, Gertrude E., The Rockefeller University
Petrzelka, Charles, The Rockefeller University
Pfaffman, Carl, The Rockefeller University
Pfaffman Laboratory. View no. 1, 1965, The Rockefeller University
Pfaffman Laboratory. View no. 2, 1965, The Rockefeller University
Pfaffman Laboratory. View no. 3, 1965, The Rockefeller University
Pharmacy Staff, The Rockefeller University
Phosphoproteins of the Cell Nucleus: Metabolism and Characterization, Lewis Joel Kleinsmith
Pinocytosis in fibroblasts: Quantitative studies in vitro, Ralph M. Steinman, Jonathan M. Silver, and Zanvil A. Cohn
Pittman, Margaret J., The Rockefeller University
Poliovirus Replication: Interactions with Cytoplasmic Membranes and with Compounds Which Affect Virus Biosynthesis, Anne G. Mosser
Pompei, Pierluigi, The Rockefeller University
Pope, Melissa, The Rockefeller University
Porter, Keith, The Rockefeller University
Porter, Keith, The Rockefeller University
Powell, Susan, The Rockefeller University
Power House, The Rockefeller University
Power House staff, The Rockefeller University
Preparation of clinical-grade recombinant canarypox-human immunodeficiency virus vaccine-loaded human dendritic cells, Mary A. Marovich, John R. Mascola, and Michael A. Eller
Presentation of exogenous protein antigens by dendritic cells to T cell clones: intact protein is presented best by immature, epidermal Langerhans cells, Nikolaus Romani, Sumil Koide, and Mary T. Crowley
Presentation of exogenous protein antigens by dendritic cells to T cell clones. Intact protein is presented best by immature, epidermal Langerhans cells, Nikolaus Romani, Sumil Koide, and Mary T. Crowley
President's House, December 1960, The Rockefeller University
Prevention of rejection of murine islet allografts by pretreatment with anti-dendritic cell antibody, Denise L. Faustman, Ralph M. Steinman, and Howard M. Gebel
Prevention of rejection of murine islet allografts by pretreatment with anti-dendritic cell antibody, Denise L. Faustman, Ralph M. Steinman, and Howard M. Gebel
Production of HIV Gag p24, Steinman Laboratory
Production of HIV Gag p24 Fusion Monoclonal Antibodies, Steinman Laboratory
Production of HIV Gag p24 Monoclonal Antibodies, The Rockefeller University
Proliferating dendritic cell progenitors in human blood, Nikolaus Romani, Stefan Gruner, and Daniela Brang
Proliferating dendritic cell progenitors in human blood, Nikolaus Romani, Stefan Gruner, and Daniela Brang
Proliferation (CFSE Dilution), The Rockefeller University
Proliferation (CFSE Dilution), Steinman Laboratory
Proliferation of OVA - Specific CD8+ T Cells, The Rockefeller University
Properties of isolated red pulp macrophages from mouse spleen, Asma R. Nusrat, Samuel D. Wright, and Alan A. Aderem
Properties of memory T lymphocytes isolated from the mixed leukocyte reaction, Kayo Inaba, Sumil Koide, and Ralph M. Steinman
Properties of the Merozygotes Associated with a Sulfonamide-Resistant Mutation in Pneumococcus, Mary Lee Stewart Ledbetter
Properties That Were First Used to Distinguish and Purify Dendritic Cells From Mouse Spleen, Steinman Laboratory
Protein Polysaccharides from Bovine Nasal Cartilage Interactions with Glycoproteins and the Formation of Aggregates, Vincent C. Hascall Jr
Purification and Activity of the PP60SRC Protein Kinase, Michael E. Greenberg
Purification and Properties of Bacteriophage f2 Replicase, Nina V. Fedoroff
Rabbit Antibodies, The Rockefeller University
Radial Glia and the Migration of Young Neurons in the Adult Avian Brain, Arturo Alvarez-Buylla
Radiative Corrections to Low Energy Theorems, Ta-Pei Cheng
Random Reminiscences of Men and Events, John D. Rockefeller
Rapid Alterations in Rat Brain Tryptophan Hydroxylase Activity; Effects of Adrenal Steroids, Drugs and Stressors, Efrain Charles Azmitia Jr.
Rapid generation of broad T-cell immunity in humans after a single injection of mature dendritic cells, Madhav V. Dhodapkar, Ralph M. Steinman, and Mark Sapp
Ratliff, Floyd, The Rockefeller University
Receptors for Antigen Uptake, The Rockefeller University
REDESIGNED ROCKEFELLER UNIVERSITY WEBSITE, The Rockefeller University
Relative efficacy of human monocytes and dendritic cells as accessory cells for T cell replication, Wesley C. Voorhis, Jay E. Valinsky, and Eileen Hoffman
Release of Cytokines into the Serum, Steinman Laboratory
Replication of Dengue Virus in Dendritic Cells, The Rockefeller University
Research on human subjects in the JEM, Ralph M. Steinman
Resistance to B16 Melanoma, Steinman Laboratory
Resting and sensitized T lymphocytes exhibit distinct stimulatory (antigen presenting cell) requirements for growth and lymphokine release, Kayo Inaba and Ralph M. Steinman
Resting and sensitized T lymphocytes exhibit distinct stimulatory (antigen-presenting cell) requirements for growth and lymphokine release, Kayo Inaba and Ralph M. Steinman
Rigorous Bounds on Strong Interaction Coupling Constants, James Bruce Healy
Rivera, Sam, The Rockefeller University
Rivers, Thomas M., The Rockefeller University
Rizack, Martin A., The Rockefeller University
RNA: SYNTHESIS AND REGULATION, The Rockefeller University
ROBERT DARNELL AND TITIA DE LANGE, The Rockefeller University
Robertson, Albert D., The Rockefeller University
Robertson, Albert D., The Rockefeller University
Robinson, George Canby, The Rockefeller University
Rockefeller Center: A Photographic Narrative, Samuel Chamberlain
ROCKEFELLER LOGO, The Rockefeller University
Rockefeller Medicine Men : Medicine and Capitalism in America, E. Richard Brown
ROCKEFELLER REELS, The Rockefeller University
Rothen, Alexandre, The Rockefeller University
Rous Laboratory, September 1931, The Rockefeller University
Rous, Peyton, The Rockefeller University
Sabin, Florence, The Rockefeller University
Scheiner, Candice, The Rockefeller University
Schermerhorn Farm, The Rockefeller University
Schermerhorn Farm above Exterior Street, The Rockefeller University
Schmidt, Louis, The Rockefeller University
Schoenfeld, Robert L., The Rockefeller University
Schwabl, Hubert, The Rockefeller University
SCIENCE AND POLITICS, The Rockefeller University
SCIENCE IN A BYTE, The Rockefeller University
SCIENCE IN A BYTE, The Rockefeller University
SCIENCE OUTREACH SYMPOSIUM, The Rockefeller University
Science vs. AIDS: Defending the Battle Lines, The Rockefeller University
SCIENTIFIC SYMPOSIUM, The Rockefeller University
Seitz, Frederick, The Rockefeller University
Selective blockade of inhibitory Fcγ receptor enables human dendritic cell maturation with IL-12p70 production and immunity to antibody-coated tumor cells, Madhav V. Dhodapkar, Jacob L. Kaufman, and Marc Ehlers
Selective blockade of the inhibitory Fcγ receptor (FcγRIIB) in human dendritic cells and monocytes induces a type I interferon response program, Madhav V. Dhodapkar, Devi K. Banerjee, and John E. Connolly
Selective delivery of β cell antigen to dendritic cells in vivo leads to deletion and tolerance of autoreactive CD8+ T cells in NOD mice, Arunika Mukhopadhaya, Tadashi Hanafusa, and Irene Jarchum
Selective iodination and polypeptide composition of pinocytic vesicles, Ira S. Mellman, Ralph M. Steinman, Jay C. Unkeless, and Zanvil A. Cohn
Selective Targeting of α-DEC-205, The Rockefeller University
Several Types of Living Tumor Cells, Steinman Laboratory
Shedlovsky, Theodore, The Rockefeller University
Shiff, Steven, The Rockefeller University
Shope, Richard, The Rockefeller University
Short-Term Memory for Temporal and Spatial Order Information, Alice F. Healy
Siekevitz, Philip, The Rockefeller University
SIGN-R1, a novel C-type lectin expressed by marginal zone macrophages in spleen, mediates uptake of the polysaccharide dextran, Youngsun Kang, Sayuri Yamazaki, and Tomonori Iyoda
SIGN-R1-Positive Macrophages, Steinman Laboratory
Slide 9-29, Steinman Laboratory
Small amounts of superantigen on dendritic cells are sufficient to initiate T cell responses, Nina Bhardwaj, James W. Young, and Anahid J. Nisanian
Small amounts of superantigen, when presented on dendritic cells, are sufficient to initiate T cell responses, Nina Bhardwaj, James W. Young, and Anahid J. Nisanian
Small Molecule Activation of Yap for Inner-Ear Regeneration and Beyond, Nathaniel Kastan
Smillie, Ernest W., The Rockefeller University
Smillie, Ernest W., 1954, The Rockefeller University
Smith, Edric B., 1920, The Rockefeller University
Smith, Edric B., 1925, The Rockefeller University
Smith, Edric B., 1953, The Rockefeller University
Smith Hall, 1954, The Rockefeller University
Smith Hall, 1954, The Rockefeller University
Smith Hall, 1954, The Rockefeller University
Smith Hall, 1954, The Rockefeller University
Smith, Theobald, The Rockefeller University
SnapShot: Dendritic cells, Juliana Idoyaga and Ralph M. Steinman
Social Service, 1962, The Rockefeller University
Social Service, Room 132, The Rockefeller University
Social Service, Room 134, The Rockefeller University
Social Service, Room 135, The Rockefeller University
Social Service. View no. 1, 1957, The Rockefeller University
Social Service. View no. 2, 1957, The Rockefeller University
Social Service. View no. 3, 1957, The Rockefeller University
Some Innate Features of Dendritic Cells, Steinman Laboratory
Some Innate Features of Dendritic Cells, Steinman Laboratory
Some Locations For Antigen Capturing Dendritic Cells, Steinman Laboratory
Some Members of the TNF and TNF Receptor Families, Steinman Laboratory
Some Nonlinear Networks Suggested by Learning Theory, Stephen Grossberg
Some Problems Connected with the Boltzmann Equation, Francisco Alberto Grunbaum
Some Subsets of Dendritic Cells in the Steady State, Steinman Laboratory
Some Subsets of Dendritic Cells in the Steady State, Steinman Laboratory
South Lot, 1932, The Rockefeller University
Specialized antigen-presenting cells. Splenic-dendritic cells and peritoneal-exudate cells induced by mycobacteria activate effector T cells that are resistant to suppression, Judith S. Britz, Phillip W. Askenase, W. Ptak, and Ralph M. Steinman
Specialized role of migratory dendritic cells in peripheral tolerance induction, Juliana Idoyaga, Christopher Fiorese, and Lori Zbytnik
Specific antimononuclear phagocyte monoclonal antibodies application to the purification of dendritic cells and the tissue localization of macrophages, Wesley C. Voorhis, Ralph M. Steinman, and Laura S. Hair
Specific antimononuclear phagocyte monoclonal antibodies application to the purification of dendritic cells and the tissue localization of macrophages, Wesley C. Voorhis
Spies, Chales B., The Rockefeller University
SPRING NEIGHBORHOOD DAY 2003, The Rockefeller University
Stadie, William, The Rockefeller University
Stamatatos, Leonidas, The Rockefeller University
Steinman, Ralph M., The Rockefeller University
Stein, William H., The Rockefeller University
STEPHEN W. KUFFLER CENTENNIAL SYMPOSIUM, The Rockefeller University
Stewart, Florence M., The Rockefeller University
Stimulation of lymphokine release from T lymphoblasts: Requirement for mRNA synthesis and inhibition by cyclosporin A, Angela Granelli-Piperno, Kayo Inaba, and Ralph M. Steinman
Stone, Leslie, The Rockefeller University
Strategies for Oncogenesis by Avian Leukosis Viruses, Benjamin G. Neel
Strategy for identifying dendritic cell-processed CD4+ T cell epitopes from the HIV Gag p24 protein, Leonia Bozzacco, Haiqiang Yu, and Jörn Dengjel
STRING FEVER, The Rockefeller University
Structural Analyses of Murine Histocompatibility Antigens, Robert Julian Milner
Structural and Functional Studies of the Unconventional Proteobacterial Transcription Activator CRL in Complex with the Transcription Machinery, Alexis Jaramillo Cartagena
Student's Laboratory. View no. 1, 1962, The Rockefeller University
Student's Laboratory. View no. 2, 1962, The Rockefeller University
Student's Laboratory. View no. 3, 1962, The Rockefeller University
STudents Physcial Chemistry Laboratory. View no. 2, 1962, The Rockefeller University
Students Physical Chemistry Laboratory. View no. 1, 1962, The Rockefeller University
Studies of the cell surface of mouse dendritic cells and other leukocytes, Michel C. Nussenzweig, Ralph M. Steinman, and Jay C. Unkeless
Studies of the cell surface of mouse dendritic cells and other leukocytes, Michel C. Nussenzweig, Ralph M. Steinman, and Jay C. Unkeless
Studies on Chloroplast Protein Synthesis In Vivo and In Vitro, Karl Stanley Matlin
Studies on Delayed-Type Hypersensitivity Including Attempts to Effect Transfer in Guinea Pigs with Subcellular Materials, Barry R. Bloom
Studies on Selection in Natural and Experimental Populations of Drosophila Pseudoobscura, Wyatt W. Anderson
Studies on the Complement Receptor of a Human Lymphoblastoid Cell Line, Gary John Hoffman
Studies on the Granule-Moving System of Melanocytes of Fundulus Heteroclitus, Lorna Green
Studies on the Inheritance of Idiotypic Markers of Mouse Antibody to Streptococcal Group A Carbohydrate and on Other Genetic Factors Which Influence the Immune Response, David Elwood Briles
Studies on the Production of yM and yG Antibodies in the Mouse, Richard Charles Blinkoff
Studies on the Secretory Process of Rabbit Parotid, John David Castle
Subset of 33D1+ and DEC-205+ Dendritic Cells in Mouse Spleen, Steinman Laboratory
Sustained expansion of NKT cells and antigen-specific T cells after injection of α-galactosyl-ceramide loaded mature dendritic cells in cancer patients, David H. Chang, Keren Osman, and John E. Connolly
Swift, Homer F., The Rockefeller University
Synthetic double-stranded RNA induces innate immune responses similar to a live viral vaccine in humans, Marina Caskey, François Lefebvre, and Ali Filali-Mouhim
Synthetic double-stranded RNAs are adjuvants for the induction of t helper 1 and humoral immune responses to human papillomavirus in rhesus macaques, Christiane P. Stahl-Hennig, Martin Eisenblätter, and Edith Yasny
TALKING SCIENCE, The Rockefeller University
Targeting Leishmania major Antigens to Dendritic Cells In Vivo Induces Protective Immunity, Ines Matos, Olga Mizenina, Ashira Lubkin, Ralph M. Steinman, and Juliana Idoyaga
Targeting of Different Forms of LACK to Dendritic Cells, Steinman Laboratory
Targeting of Irradiated Tumor ells, Kang Z. Liu and Anna Charalambous
Targeting of Proteins to Dendritic Cells In Situ, Steinman Laboratory
Targeting of the non-mutated tumor antigen HER2/neu to mature dendritic cells induces an integrated immune response that protects against breast cancer in mice, Bei Wang, Neeha Zaidi, and Lishen He
Targeting of α-DEC Antibodies, The Rockefeller University
Targeting of α-DEC Antibodies In Situ to DCs in the T Cell Area, Steinman Laboratory
Tatum, Edward L., The Rockefeller University
T cell studies in a peptide-induced model of systemic lupus erythematosus, Magi Khalil, Kayo Inaba, and Ralph M. Steinman
Tennis Courts, The Rockefeller University
Terrace of Welch Hall, The Rockefeller University
Terrace of Welch Hall, The Rockefeller University
Terrace of Welch Hall, ca. 1950, The Rockefeller University
The Application of a Reporter Group to α-Chymotrypsin, Merrill Burr Hille
The Arrangement of the Disulfide Bonds in a γG Immunoglobulin Molecule, William Einar Gall
The B7/BB1 antigen provides one of several costimulatory signals for the activation of CD4+ T lymphocytes by human blood dendritic cells in vitro, James W. Young, Lydia Koulova, and Steve A. Soergel
The Biogenesis of Peroxisomal Catalase in Rat Liver, Paul Bernard Lazarow
The CD8+ dendritic cell subset selectively endocytoses dying cells in culture and in vivo, Tomonori Iyoda, Susumu Shimoyama, and Kang Z. Liu
The CD8+ Splenic DC Subset Cross Presents Cell-Associated Ovalbumin, Steinman Laboratory
The Chemical Synthesis of Model Catalysts Related to Enzymes, John William Baker Hershey
The Classical Limit of QuantumTheory, John Thomas Bruer
The Colorado Industrial Plan, John D. Rockefeller, Jr.
The Cornerstone of Founder's Hall, The Rockefeller University
The C-type lectin SIGN-R1 mediates uptake of the capsular polysaccharide of Streptococcus pneumoniae in the marginal zone of mouse spleen, Youngsun Kang, Jae Y. Kim, and Sandra A. Bruening
The DEC+ Dendritic Cell Subset, Steinman Laboratory
The decreased replicative capacity of simian immunodeficiency virus SIVmac239Δnef is manifest in cultures of immature dendritic cells and T cells, Davorka Messmer, Ralf Ignatius, and Christine Santisteban
The dendritic cell receptor for endocytosis, DEC-205, can recycle and enhance antigen presentation via major histocompatibility complex class II-positive lysosomal compartments, Karsten Mahnke, Ming Guo, and Sena J. Lee
The Dendritic Cell System: Nature's Adjuvant for Immunity, Steinman Laboratory
The distinct leukocyte integrins of mouse spleen dendritic cells as identified with new hamster monoclonal antibodies, Joshua P. Metlay, Margit D. Witmer-Pack, and Ralf Agger
The distinct leukocyte integrins of mouse spleen dendritic cells as identified with new hamster monoclonal antibodies, Joshua P. Metlay, Margit D. Witmer-Pack, and Ralf Agger
The distinct surface of human blood dendritic cells, as observed after an improved isolation method, Peter S. Freudenthal and Ralph M. Steinman
The distinct surface of human blood dendritic cells as observed following an improved isolation method, Peter S. Freudenthal and Ralph M. Steinman
The Effect of Immunosuppressive Agents on the Induction of Nuclear Factors that Bind to Sites on the Interleukin 2 Promoter, Angela Granelli-Piperno, Patricia Nolan, Kayo Inaba, and Ralph M. Steinman
The Efficacy of Dendritic Cells in "Cross Presentation", The Rockefeller University
The Efficacy of Dendritic Cells in "Cross Presentation", Steinman Laboratory
The efficacy of DNA vaccination is enhanced in mice by targeting the encoded protein to dendritic cells, Godwin W. Nchinda, Janelle Kuroiwa, and Margarita Oks
The Elegance and Scope of Immunology, Steinman Laboratory
The endoeytie activity of dendritic cells, Ralph M. Steinman and Joel A. Swanson
The formation of immunogenic major histocompatibility complex class II-peptide ligands in lysosomal compartments of dendritic cells is regulated by inflammatory stimuli, Kayo Inaba, Shannon J. Turley, and Tomonori Iyoda
The Function of DEC-205+ Dendritic Cells In Vitro, Steinman Laboratory
The function of Ia+ dendritic cells and ia dendritic cell precursors in thymocyte mitogenesis to lectin and lectin plus interleukin i, Kayo Inaba, Margit D. Witmer-Pack, and Muneo M. Inaba
The Future of Biomedical Research and Education, The Rockefeller University
The Future of Federalism, Nelson A. Rockefeller
The Golgi Complex of the Hepatogyte: Isolation and Partial Enzomological Characterization, John Heiman Ehrenreich
The House the Rockefellers Built, Robert Dalzell and Lee Baldwin Datzell
The Hydroxamate Reaction of Aminoacyl-tRNA Synthetases, David Ian Hirsch
The Immune System. Sentinel Dendritic Cells, Steinman Laboratory
The immunological and infectious sequelae of the acquired immune deficiency syndrome, Zanvil A. Cohn and Ralph M. Steinman
The Inactivation of Neurohypophyseal Hormones by the Toad Bladder, Arthur Karlin
The Innate and Adaptive Lymphocytes, Steinman Laboratory
The Instructive Model of Helper T Cell Differentiation, Steinman Laboratory
The interaction of particulate horseradish peroxidase (hrp)-anti hrp immune complexes with mouse peritoneal macrophages in vitro, Ralph M. Steinman and Zanvil A. Cohn
The interaction of soluble horseradish peroxidase with mouse peritoneal macrophages in vitro, Ralph M. Steinman and Zanvil A. Cohn
The JEM and the JCB: A synergistic partnership, Ralph M. Steinman and Ira S. Mellman
The Last Rivet the Story of Rockefeller Center, Merle Crowell
The linkage of innate to adaptive immunity via maturing dendritic cells in vivo requires CD40 ligation in addition to antigen presentation and CD80/86 costimulation, Shinichiro Fujii, Kang Z. Liu, and Carol L. Smith
The L. Major Antigen, Steinman Laboratory
The Luminometer: A Sensitive Instrument for Measuring Low Amounts of Oxygen and some Applications to Problems Involving the Measurement of Photosynthesis, Arthur H. Burr Jr
The membrane proteins of the vacuolar system I. analysis by a novel method of intralysosomal lodination, William A. Muller, Ralph M. Steinman, and Zanvil A. Cohn
The membrane proteins of the vacuolar system II. bidirectional flow between secondary lysosomes and plasma membrane, William A. Muller, Ralph M. Steinman, and Zanvil A. Cohn
The microbial mimic poly IC induces durable and protective CD4+ T cell immunity together with a dendritic cell targeted vaccine, Christine Trumpfheller, Marina Caskey, and Godwin W. Nchinda
The Need to Mature Dendritic Cells, Steinman Laboratory
The Nelson A. Rockefeller Collection: Masterpieces of Modern Art, Lee Boltin
The Nonenzymatic Modification of Proteins by Steroids and DNA by Reducing Sugars; In Vitro and In Vivo Studies, Richard J. Bucala
The Oil Prince's Legacy: Rockefeller Philanthropy in China, Mary Brown Bullock
The Personal Relation in Industry, John D. Rockefeller, Jr.
The Real Rockefeller, Frank Gervaci
THE REGULATION OF EUKARYOTIC TRANSCRIPTION, The Rockefeller University
The relative efficacy of human monocytes and dendritic cells as accessory cells for T cell replication, Wesley C. Voorhis, Jay E. Valinsky, and Eileen Hoffman
The Rich and Evolving Base of Knowledge in Immunology, The Rockefeller University
The Rockefeller Century, John Harr and Peter J. Johnson
The Rockefeller Family Home Kykuit, Ann Rockefeller Roberts
The Rockefeller Institute in 1912, The Rockefeller University
The Rockefeller Institute Review 1964, vol. 2, no. 6, The Rockefeller University
The Rockefeller Institute Review 1968, January-February, The Rockefeller University
The Rockefeller Institute Review 1968, March-April, The Rockefeller University
The Rockefeller Institute Review 1968, May-June, The Rockefeller University
The Rockefeller University Associates, The Rockefeller University
The Rockefeller University Hospital: A Bridge Between Science and Medicine, The Rockefeller University
The Rockefeller University Hospital: Environment for Discovery, The Rockefeller University
The Rockefeller University Hospital: Transforming Medicine, The Rockefeller University
The Rockefeller Women, Clarice Stasz
The Role of Nutrient Availability in Therapeutic Response of Leukemia, Rohiverth Guarecuco Jr
The SIGN-R1 C-type Lectin, Steinman Laboratory
The SIGN-R1-Positive Macrophage Subset, Steinman Laboratory
The simian immunodeficiency virus Δnef vaccine, after application to the tonsils of rhesus macaques, replicates primarily within CD4+ T cells and elicits a local perforin-positive CD8+ T-cell response, Christiane P. Stahl-Hennig, Ralph M. Steinman, and Peter Ten Haaft
The Structure and Replication of Semliki Forest Virus, A Mosquito-Borne Animal Virus, Nicholas Hill Acheson
The Temperature Dependence of Reactions of Gaseous IONS: Kinetics and Thermodynamics of Transfer and Association Reactions, Michael Mautner
The thy-1-bearing cell of murine epidermis: A distinctive leukocyte perhaps related to natural killer cells, Nikolaus Romani, Georg Stingl, and Erwin Tschachler
The Tissue Distribution of the B7-2 Costimulator in Mice: Abundant Expression on Dendritic Cells In Situ and During Maturation In Vitro, Kayo Inaba, Margit D. Witmer-Pack, and Muneo M. Inaba
The tissue distribution of the B7-2 costimulator in mice: abundant expression on dendritic cells in situ and during maturation in vitro, Kayo Inaba, Margit D. Witmer-Pack, and Muneo M. Inaba
The TRAF family of signal transducers mediates NF-κB activation by the TRANCE receptor, Brian R. Wong, Régis Josien, and Soo-Young Lee
The unenlarged lymph nodes of HIV-1-infected, asymptomatic patients with high CD4 T cell counts are sites for virus replication and CD4 T cell proliferation. The impact of highly active antiretroviral therapy, Klara Tenner-Racz, Hans Jürgen Stellbrink, and Jan van Lunzen
The Unicorn Tapestries, Margaret B. Freeman
The Vaccine Legacy of Louis Pasteur, Steinman Laboratory
Those Rockefeller Brothers, Joe Alex Morris
Tilden, Evelyn B., The Rockefeller University
Tillett, William S., The Rockefeller University
Tita Isberto and Lourdes Quirolgico, The Rockefeller University
Titan: The Life of John D. Rockefeller, Sr., Ron Chernov
Tolerance of CD8+ T Cells, Steinman Laboratory
Tolerogenic dendritic cells, Ralph M. Steinman, Daniel Hawiger, and Michel C. Nussenzweig
To Resist Infection, the Immune System Must Recognize and Respond to Microbial Antigens, Steinman Laboratory
Trager, William, The Rockefeller University
TRANCE, a tumor necrosis factor family member critical for CD40 ligand- independent T helper cell activation, Martin F. Bachmann, Brian R. Wong, and Régis Josien
TRANCE (Tumor necrosis factor [TNF]-related Activation-induced Cytokine), a new TNF family member predominantly expressed in t cells, is a dendritic cell-specific survival factor, Brian R. Wong, Régis Josien, and Soo-Young Lee
Transmission of HIV-1 to T Blasts, The Rockefeller University
Trask, Lillia M. D., The Rockefeller University
Treml4, an Ig superfamily member, mediates presentation of several antigens to T cells in vivo, including protective immunity to HER2 protein, Hiroaki Hemmi, Neeha Zaidi, and Bei Wang
TRI-INSTITUTIONAL COLLABORATION NETWORK, The Rockefeller University
TRI-INSTITUTIONAL COLLABORATION NETWORK, The Rockefeller University
TRI-INSTITUTIONAL COLLABORATION NETWORK, The Rockefeller University
Tumor Cells, Steinman Laboratory
Tumor/GalCer, Steinman Laboratory
Tunnel, The Rockefeller University
TURING ENDURING, The Rockefeller University
Twentieth-Century Art From the Nelson Aldrich Rockefeller Collection., Museum of Modern Art
Two Cell Circulations Into T-Cell Areas, Steinman Laboratory
Two Mechanisms for Dendritic Cell Enhancement of HIV-1 Infection, The Rockefeller University
Two Stages of an Immune Response, Steinman Laboratory
Uhlenbeck, George E., The Rockefeller University
Unusual phenotype of B cells in the thymus of normal mice, Muneo Miyama-Inaba, Shoichi Kuma, and Kayo Inaba
Uptake of Irradiated Tumor Cells by Dendritic Cells, Steinman Laboratory
Uptake of Low Doses of TITC-Dextran by SIGN-R1 Transfectants, Steinman Laboratory
Vaccination of Mice, Steinman Laboratory
Vaccination with Mage-3A1 peptide-pulsed nature, monocyte-derived dendritic cells expands specific cytotoxic T cells and induces regression of some metastases in advanced stage IV melanoma, Beatrice Thurner, Ina Haendle, and Claudia Röder
Vaccines Composed of Microbial Proteins Within Monoclonal Antibodies, Steinman Laboratory
Vaccines Have Been a Triumph of Microbiology, Steinman Laboratory
Van Slyke, Donald D., The Rockefeller University
View from Isolation Building, The Rockefeller University
View from Isolation Building, 1931, The Rockefeller University
Vincent Dole's constant temperature room, The Rockefeller University
Vincent Dole's constant temperature room (2), The Rockefeller University
Viral Inhibition of Mammalian Cell DNA Synthesis, William D. Ensminger
Virus replication begins in dendritic cells during the transmission of HIV-1 from mature dendritic cells to T cells, Angela Granelli-Piperno, Victoria Finkel, Elena Delgado, and Ralph M. Steinman
Walsh-Mullen, Annemarie, The Rockefeller University
War Demonstration Hospital, The Rockefeller University
Ward in Isolation Building, The Rockefeller University
Webster, Leslie T., The Rockefeller University
Weiss, Paul A., The Rockefeller University
Welch Hall, ca. 1960, The Rockefeller University
Welch Hall, ca. 1990s, The Rockefeller University
WELNESS AT ROCKEFELLER, The Rockefeller University
Whalen, Mike, The Rockefeller University
Will the making of plasmacytoid dendritic cells in vitro help unravel their mysteries?, Jacques Banchereau, Bali Pulendran, Ralph M. Steinman, and Karolina A. Palucka
Winthrop Rockefeller, Philanhropist: A Life of Change, John L. Ward
Women & Science: Supporting the Advancement of Women in Science, The Rockefeller University
Woolley, D. Wayne, The Rockefeller University
Workers Move Books, The Rockefeller University
X-ray equipment, The Rockefeller University
Zabriskie, John B., The Rockefeller University
Zanvil Alexander Cohn 1926-1993, Ralph M. Steinman and Carol L. Moberg
Zinder, Norton, The Rockefeller University
α-CD 70 Blocks the Induction of IFN-γ by DEC+ DCs, Steinman Laboratory
α-CD 70 Treatment In Vivo Blocks Immunity to LACK in Naive Mice, Steinman Laboratory
α-DEC, Steinman Laboratory
α-DEC-HIV Gag p24, Steinman Laboratory
α-Galactosyl Ceramide, Steinman Laboratory
α-Galactosyl Ceramide Can Act as an Adjuvant, Steinman Laboratory
α-Galactosyl Ceramide Can Act as an Adjuvant, Steinman Laboratory
СD11с+ Dendritic Cells Taken From Mice Injected I.V. With B16/GalCer, Steinman Laboratory