KP Fraser,
F Gays,
JH Robinson,
K van Beneden,
G Leclercq,
RE Vance,
DH Raulet,
CG Brooks.
(2002)
" NK cells developing in vitro from fetal mouse progenitors express at least one member of the Ly49 family that is acquired in a time-dependent and stochastic manner independently of CD94 and NKG2.
"
Eur J Immunol
32.
868-78
PMID:
11870631
DOI:
10.1002/1521-4141(200203)32:3<868::AID-IMMU868>3.0.CO;2-A
|
Abstract and Keywords
LD Lieto,
K Maasho,
D West,
F Borrego,
JE Coligan.
(2006)
" The human CD94 gene encodes multiple, expressible transcripts including a new partner of NKG2A/B.
"
Genes Immun
7.
36-43
PMID:
16237464
DOI:
10.1038/sj.gene.6364268
|
Abstract and Keywords
M Masilamani,
C Nguyen,
J Kabat,
F Borrego,
JE Coligan.
(2006)
" CD94/NKG2A inhibits NK cell activation by disrupting the actin network at the immunological synapse.
"
J Immunol
177.
3590-6
PMID:
16951318
|
Abstract and Keywords
VJ Cavanaugh,
DH Raulet,
AE Campbell.
(2007)
" Upregulation of CD94/NKG2A receptors and Qa-1b ligand during murine cytomegalovirus infection of salivary glands.
"
J Gen Virol
88.
1440-5
PMID:
17412971
DOI:
10.1099/vir.0.82444-0
|
Abstract and Keywords
J Zhou,
M Matsuoka,
H Cantor,
R Homer,
RI Enelow.
(2008)
" Cutting edge: engagement of NKG2A on CD8+ effector T cells limits immunopathology in influenza pneumonia.
"
J Immunol
180.
25-9
PMID:
18096998
|
Abstract and Keywords
S Chattopadhyay,
J O'Rourke,
RE Cone.
(2008)
" Implication for the CD94/NKG2A-Qa-1 system in the generation and function of ocular-induced splenic CD8+ regulatory T cells.
"
Int Immunol
20.
509-16
PMID:
18359787
DOI:
10.1093/intimm/dxn008
|
Abstract and Keywords
SN Waggoner,
RT Taniguchi,
PA Mathew,
V Kumar,
RM Welsh.
(2010)
" Absence of mouse 2B4 promotes NK cell-mediated killing of activated CD8+ T cells, leading to prolonged viral persistence and altered pathogenesis.
"
J Clin Invest
120.
1925-38
PMID:
20440077
DOI:
10.1172/JCI41264
|
Abstract and Keywords