Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
about
How do natural killer T cells help B cells?Original Antigenic Sin Response to RNA Viruses and Antiviral ImmunityHumanized Immunoglobulin Mice: Models for HIV Vaccine Testing and Studying the Broadly Neutralizing Antibody Problem.Gammaherpesvirus-driven plasma cell differentiation regulates virus reactivation from latently infected B lymphocytes.TLR4 signaling augments B lymphocyte migration and overcomes the restriction that limits access to germinal center dark zones.Interferon regulatory factor 4 and 8 in B-cell development.Memory CD8+ T cell differentiationThe Antibody-Secreting Cell Response to Infection: Kinetics and Clinical Applications.Lack of galectin-3 disturbs mesenteric lymph node homeostasis and B cell niches in the course of Schistosoma mansoni infection.B cells and transplantation: an educational resource.Aborted germinal center reactions and B cell memory by follicular T cells specific for a B cell receptor V region peptide.Upregulation of IL-21 receptor on B cells and IL-21 secretion distinguishes novel 2009 H1N1 vaccine responders from nonresponders among HIV-infected persons on combination antiretroviral therapy.Innate immune defects correlate with failure of antibody responses to H1N1/09 vaccine in HIV-infected patientsIncreased p190RhoGEF expression in activated B cells correlates with the induction of the plasma cell differentiation.Germinal-center organization and cellular dynamicsRetinoic acid promotes mouse splenic B cell surface IgG expression and maturation stimulated by CD40 and IL-4.Myeloid-derived suppressor cells in murine retrovirus-induced AIDS inhibit T- and B-cell responses in vitro that are used to define the immunodeficiencyIncreased IL-12 inhibits B cells' differentiation to germinal center cells and promotes differentiation to short-lived plasmablasts.The generation of influenza-specific humoral responses is impaired in ST6Gal I-deficient miceToll-like receptor 3 ligand and retinoic acid enhance germinal center formation and increase the tetanus toxoid vaccine response.Molecular mechanism and function of CD40/CD40L engagement in the immune system.Duration of immunity induced by companion animal vaccines.The role of SAP and SLAM family molecules in the humoral immune response.Differentiation of germinal center B cells and follicular helper T cells as viewed by tracking Bcl6 expression dynamics.Novel pharmacological approaches for treatment of obstructive sleep apnea in children.New roles for the BLyS/BAFF family in antigen-experienced B cell niches.Memory B cells form in aged mice despite impaired affinity maturation and germinal center kinetics.Downregulation of FOXP1 is required during germinal center B-cell function.Polypyrimidine tract-binding protein is critical for the turnover and subcellular distribution of CD40 ligand mRNA in CD4+ T cells.Vanadium pentoxide inhalation provokes germinal center hyperplasia and suppressed humoral immune responses.Ligation of CD11c during vaccination promotes germinal centre induction and robust humoral responses without adjuvant.The Problem of Antigen Affinity Discrimination in B-Cell ImmunologyLymphoid Development
P2860
Q24650966-33EF8639-2951-4819-BA8E-5BC5E6B7905AQ28066918-F15E5A03-C4C7-4CF4-9886-C492C194E643Q30234773-878A27F4-5D96-460B-8BBA-2556AAC76987Q30943994-F18ACFD3-82A2-420C-84D9-DECDBC80035EQ33591027-416472C0-1ED4-4BCC-90D7-D1DC81C579F1Q33662650-3D49E784-B454-44C2-8ECC-474907D1BF39Q33720379-0AC262A6-B0FD-4B7D-9810-47E1E1686911Q33747338-06FACE71-061E-4D12-B99F-E751A3087B9CQ33900663-77572317-315A-46C4-AEEA-2B2CD0E538F9Q34152189-D335482B-1E0C-4F31-A10B-AD8B080D909FQ35097270-77CAE191-F31C-4AAD-81FA-5FD3B8A9C575Q35207950-108C9A25-0007-4093-BC3D-3388C29E4FFAQ35589557-CBE8E8B8-B71B-4643-A594-B8F198B40B56Q35812550-21C732AD-E4B9-49D3-9A70-5040B4C2DB62Q36459345-552AF840-600F-42EC-A78D-302757C019D5Q36487660-79266F6D-282B-466D-A11D-85FDCCF74D49Q36607445-D3BD05F1-76F8-4695-9021-F919E486B189Q36916349-D63A4EC0-74C9-4733-835A-A939CF381FD5Q37153494-BB8CC252-1336-4DA8-803B-ADE46C7987B2Q37374679-A35FC669-DFF5-4B65-868B-81AF39DAB430Q37474929-626B79FB-4CA1-43BC-BEA7-E70C47416BDCQ37804487-783A8D97-D8B1-4F0B-B8CE-E98B6EF41185Q37811046-EF7B08CB-7C37-499F-9CE8-99A78D6DE785Q38002488-9573E6AD-6D11-41D2-A288-A0E553365790Q38057797-C81A48DD-C3C4-41C8-9315-C8B73B208CD1Q38186321-2E62F6C3-2209-449D-B800-736EA4AD39B4Q38794166-ADBF22B1-28AF-4F27-89D1-5D3F31586675Q39167447-A1C87302-ADEB-4C9A-9DA4-0466A15AAA9BQ39606739-F714D4A0-85CD-4DD6-83A9-83F18CE77CE1Q50644992-73FA4210-22D6-4BA2-AFB4-CD98CC19AA5AQ53324315-9A580079-9FB5-4A9C-AB5B-F2B6C92ACF7EQ58999852-74C3903B-AA00-465D-87F0-60FB3EA9BABFQ59280521-E3BCD58F-1E87-4547-BC63-5C12E7162675
P2860
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
description
2007 nî lūn-bûn
@nan
2007 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
@ast
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
@en
type
label
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
@ast
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
@en
prefLabel
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
@ast
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
@en
P2093
P2860
P1476
Affinity of antigen encounter and other early B-cell signals determine B-cell fate.
@en
P2093
Loren D Erickson
Micah J Benson
Michael W Gleeson
Randolph J Noelle
P2860
P304
P356
10.1016/J.COI.2007.04.009
P577
2007-04-12T00:00:00Z