scholarly article | Q13442814 |
P50 | author | Matthew Kraman | Q57496401 |
P2093 | author name string | Douglas T Fearon | |
Oliver Bannard | |||
P2860 | cites work | Cre reporter strains produced by targeted insertion of EYFP and ECFP into the ROSA26 locus | Q24797230 |
Modelling T-cell memory by genetic marking of memory T cells in vivo | Q28137842 | ||
Two subsets of memory T lymphocytes with distinct homing potentials and effector functions | Q28146072 | ||
Lineage relationship and protective immunity of memory CD8 T cell subsets | Q28206693 | ||
Initial T cell frequency dictates memory CD8+ T cell lineage commitment | Q33768584 | ||
Arrested differentiation, the self-renewing memory lymphocyte, and vaccination. | Q34307999 | ||
Inflammation directs memory precursor and short-lived effector CD8(+) T cell fates via the graded expression of T-bet transcription factor | Q36082833 | ||
Interleukin-2 signals during priming are required for secondary expansion of CD8+ memory T cells. | Q37418499 | ||
Regulation of Cre recombinase activity by mutated estrogen receptor ligand-binding domains | Q38343320 | ||
Cell cycle-related acquisition of cytotoxic mediators defines the progressive differentiation to effector status for virus-specific CD8+ T cells | Q45391522 | ||
Memory CD4 T cells emerge from effector T-cell progenitors | Q48887186 | ||
A single naive CD8+ T cell precursor can develop into diverse effector and memory subsets. | Q51968727 | ||
Asymmetric T lymphocyte division in the initiation of adaptive immune responses. | Q51977375 | ||
The 5'-flanking region of the human CGL-1/granzyme B gene targets expression of a reporter gene to activated T-lymphocytes in transgenic mice | Q67802950 | ||
P433 | issue | 5913 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | phenotype | Q104053 |
P304 | page(s) | 505-9 | |
P577 | publication date | 2009-01-23 | |
P1433 | published in | Science | Q192864 |
P1476 | title | Secondary replicative function of CD8+ T cells that had developed an effector phenotype | |
P478 | volume | 323 |
Q41842929 | "Cell biology meets physiology: functional organization of vertebrate plasma membranes"--the immunological synapse |
Q37452219 | A default pathway of memory CD8 T cell differentiation after dendritic cell immunization is deflected by encounter with inflammatory cytokines during antigen-driven proliferation. |
Q35835755 | Acquired transcriptional programming in functional and exhausted virus-specific CD8 T cells. |
Q36170597 | Activation of the Hippo pathway by CTLA-4 regulates the expression of Blimp-1 in the CD8+ T cell |
Q37719124 | Adenovirus vector-induced CD8⁺ T effector memory cell differentiation and recirculation, but not proliferation, are important for protective immunity against experimental Trypanosoma cruzi Infection |
Q38129082 | Antiviral memory phenotype T cells in unexposed adults |
Q37086173 | Asymmetric cell division of T cells upon antigen presentation uses multiple conserved mechanisms |
Q36917855 | Asymmetric inheritance of mTORC1 kinase activity during division dictates CD8(+) T cell differentiation |
Q36388507 | B7-H1 limits the entry of effector CD8(+) T cells to the memory pool by upregulating Bim |
Q50770388 | Blockade of CTLA-4 promotes the development of effector CD8+ T lymphocytes and the therapeutic effect of vaccination with an attenuated protozoan expressing NY-ESO-1. |
Q34575382 | Blockade of Kv1.3 potassium channels inhibits differentiation and granzyme B secretion of human CD8+ T effector memory lymphocytes |
Q30419978 | CD27 stimulation promotes the frequency of IL-7 receptor-expressing memory precursors and prevents IL-12-mediated loss of CD8(+) T cell memory in the absence of CD4(+) T cell help |
Q33591684 | CD4+ T cell regulation of CD25 expression controls development of short-lived effector CD8+ T cells in primary and secondary responses |
Q51039669 | CD8 T-Cell Memory Differentiation during Acute and Chronic Viral Infections |
Q36179184 | CD8 T-cell recognition of acquired alloantigen promotes acute allograft rejection |
Q33911139 | Characterization of the metabolic phenotype of rapamycin-treated CD8+ T cells with augmented ability to generate long-lasting memory cells |
Q95327696 | Clonal expansion of innate and adaptive lymphocytes |
Q41719095 | Contribution of pulmonary KLRG1(high) and KLRG1(low) CD8 T cells to effector and memory responses during influenza virus infection |
Q45371325 | Cutting edge: Virus-specific CD8+ T cell clones and the maintenance of replicative function during a persistent viral infection |
Q47189764 | Cytokine Secreting Microparticles Engineer the Fate and the Effector Functions of T-Cells. |
Q36132663 | Dicer Regulates the Balance of Short-Lived Effector and Long-Lived Memory CD8 T Cell Lineages |
Q37671907 | Diversity in T cell memory: an embarrassment of riches |
Q41200210 | Early CD8 T-cell memory precursors and terminal effectors exhibit equipotent in vivo degranulation |
Q38208821 | Early Decision: Effector and Effector Memory T Cell Differentiation in Chronic Infection |
Q40731405 | Early effector cells survive the contraction phase in malaria infection and generate both central and effector memory T cells |
Q34013557 | Early events governing memory CD8+ T-cell differentiation |
Q34381605 | Early signals during CD8 T cell priming regulate the generation of central memory cells |
Q92817508 | Effector TH17 Cells Give Rise to Long-Lived TRM Cells that Are Essential for an Immediate Response against Bacterial Infection |
Q37727632 | From the thymus to longevity in the periphery. |
Q37646737 | Functional anatomy of T cell activation and synapse formation |
Q37764002 | Generating diversity: transcriptional regulation of effector and memory CD8 T-cell differentiation |
Q37790599 | Harnessing the immune response to treat cancer |
Q33533293 | Highly differentiated, resting gn-specific memory CD8+ T cells persist years after infection by andes hantavirus |
Q37367860 | IL-7 receptor expression provides the potential for long-term survival of both CD62Lhigh central memory T cells and Th1 effector cells during Leishmania major infection |
Q34033248 | Identification of stem cell transcriptional programs normally expressed in embryonic and neural stem cells in alloreactive CD8+ T cells mediating graft-versus-host disease |
Q34575987 | Immunologic basis for revaccination of HIV-infected children receiving HAART. |
Q42732716 | Immunology. Ex uno plura |
Q51733559 | Influence of Inflammation in the Process of T Lymphocyte Differentiation: Proliferative, Metabolic, and Oxidative Changes. |
Q35779345 | Integrated molecular profiles of invasive breast tumors and ductal carcinoma in situ (DCIS) reveal differential vascular and interleukin signaling |
Q89528104 | Integrating resident memory into T cell differentiation models |
Q34003618 | Interleukin-2 and inflammation induce distinct transcriptional programs that promote the differentiation of effector cytolytic T cells |
Q27026665 | Lineage relationship of effector and memory T cells |
Q33946164 | Lytic gene expression is frequent in HSV-1 latent infection and correlates with the engagement of a cell-intrinsic transcriptional response |
Q36043445 | Maintenance of T cell function in the face of chronic antigen stimulation and repeated reactivation for a latent virus infection |
Q34157833 | Making memories that last a lifetime: heritable functions of self-renewing memory CD8 T cells |
Q37778284 | Mapping the life histories of T cells. |
Q45237943 | Mathematical model of the primary CD8 T cell immune response: stability analysis of a nonlinear age-structured system |
Q36455241 | Memory CD8 T cells specific for plasmodia liver-stage antigens maintain protracted protection against malaria |
Q33720379 | Memory CD8+ T cell differentiation |
Q27314597 | Metabolic maintenance of cell asymmetry following division in activated T lymphocytes |
Q37828371 | Metabolism, migration and memory in cytotoxic T cells |
Q37782409 | Nature and nurture: T-cell receptor-dependent and T-cell receptor-independent differentiation cues in the selection of the memory T-cell pool. |
Q34245299 | Nonhematopoietic antigen blocks memory programming of alloreactive CD8+ T cells and drives their eventual exhaustion in mouse models of bone marrow transplantation |
Q37764001 | Once a killer, always a killer: from cytotoxic T cell to memory cell |
Q33902414 | One naive T cell, multiple fates in CD8+ T cell differentiation. |
Q35523289 | Pathogen-induced inflammatory environment controls effector and memory CD8+ T cell differentiation |
Q37564265 | Pathways of memory CD8+ T-cell development |
Q37763999 | Plasticity in programming of effector and memory CD8 T-cell formation |
Q40241876 | Polycomb Repressive Complex 2-Mediated Chromatin Repression Guides Effector CD8+ T Cell Terminal Differentiation and Loss of Multipotency |
Q50284024 | Profiling lymphocyte interactions at the single-cell level by microfluidic cell pairing |
Q38076413 | Protecting and rescuing the effectors: roles of differentiation and survival in the control of memory T cell development |
Q37975284 | Regulation of mature T cell responses by the Wnt signaling pathway |
Q35872027 | Regulatory T cells protect from autoimmune arthritis during pregnancy |
Q36474557 | Relevance of long-lived CD8(+) T effector memory cells for protective immunity elicited by heterologous prime-boost vaccination |
Q42177520 | Resolution of infection promotes a state of dormancy and long survival of CD4 memory T cells. |
Q30389274 | Role of CD8(+) T-cell immunity in influenza infection: potential use in future vaccine development |
Q33617726 | Selected microRNAs define cell fate determination of murine central memory CD8 T cells |
Q35903157 | Signal integration by Akt regulates CD8 T cell effector and memory differentiation. |
Q92859191 | Stability and flexibility in chromatin structure and transcription underlies memory CD8 T-cell differentiation |
Q38162595 | Stemness of T cells and the hematopoietic stem cells: fate, memory, niche, cytokines |
Q92404807 | Striking a Balance-Cellular and Molecular Drivers of Memory T Cell Development and Responses to Chronic Stimulation |
Q35207523 | Synergy of brief activation of CD8 T-cells in the presence of IL-12 and adoptive transfer into lymphopenic hosts promotes tumor clearance and anti-tumor memory. |
Q36646448 | T cell-intrinsic S1PR1 regulates endogenous effector T-cell egress dynamics from lymph nodes during infection. |
Q41877294 | T-bet-mediated differentiation of the activated CD8+ T cell |
Q26745851 | The Role of Lymphatic Niches in T Cell Differentiation |
Q37830730 | The descent of memory T cells. |
Q38034268 | The fourth dimension in immunological space: how the struggle for nutrients selects high-affinity lymphocytes. |
Q34458066 | The magnitude of local immunity in the lungs of mice induced by live attenuated influenza vaccines is determined by local viral replication and induction of cytokines |
Q38677956 | The memory of a killer T cell: models of CD8(+) T cell differentiation |
Q38000057 | The origin of diversity: studying the evolution of multi-faceted CD8+ T cell responses |
Q37724035 | The persistence of T cell memory. |
Q51891099 | The precursors of memory: models and controversies. |
Q39382868 | The road not taken: memory T cell fate 'decisions'. |
Q38083054 | The smallest unit: effector and memory CD8(+) T cell differentiation on the single cell level |
Q41384086 | The specific NK cell response in concert with perforin prevents CD8(+) T cell-mediated immunopathology after mouse cytomegalovirus infection. |
Q42133463 | The transcription factor Foxo1 controls central-memory CD8+ T cell responses to infection |
Q41636146 | Transcriptional profiles reveal a stepwise developmental program of memory CD8(+) T cell differentiation. |
Q37155351 | Transcriptional regulation of effector and memory CD8+ T cell fates. |
Q33993999 | Tumor-primed, in vitro-activated CD4+ effector T cells establish long-term memory without exogenous cytokine support or ongoing antigen exposure |
Q50535489 | Understanding Subset Diversity in T Cell Memory. |
Q51891153 | Viewpoints on animal models of disease: memory reviews. Editorial. |
Q40270792 | Visualizing Endogenous Effector T Cell Egress from the Lymph Nodes. |
Search more.