Type |
Details |
Score |
Strain |
Attribute String: |
targeted mutation, mutant strain, congenic |
|
•
•
•
•
•
|
Strain |
Attribute String: |
congenic, mutant strain, targeted mutation |
|
•
•
•
•
•
|
Allele |
Name: |
CD207 antigen; targeted mutation 1, Bjorn E Clausen |
Allele Type: |
Targeted |
Attribute String: |
Inserted expressed sequence |
|
•
•
•
•
•
|
Strain |
Attribute String: |
congenic, mutant strain, targeted mutation |
|
•
•
•
•
•
|
Strain |
Attribute String: |
targeted mutation, mutant strain, congenic |
|
•
•
•
•
•
|
Allele |
Name: |
CD207 antigen; targeted mutation 1a, Helmholtz Zentrum Muenchen GmbH |
Allele Type: |
Targeted |
Attribute String: |
Conditional ready, Null/knockout, Reporter |
|
•
•
•
•
•
|
Allele |
Name: |
CD207 antigen; endonuclease-mediated mutation 5, GemPharmatech Co., Ltd |
Allele Type: |
Endonuclease-mediated |
Attribute String: |
Null/knockout |
|
•
•
•
•
•
|
Allele |
Name: |
CD207 antigen; targeted mutation 1.1, Consortium for Functional Glycomics |
Allele Type: |
Targeted |
Attribute String: |
Null/knockout |
|
•
•
•
•
•
|
Strain |
Attribute String: |
congenic, mutant strain, targeted mutation |
|
•
•
•
•
•
|
Allele |
Name: |
CD207 antigen; targeted mutation 1e, Helmholtz Zentrum Muenchen GmbH |
Allele Type: |
Targeted |
Attribute String: |
Null/knockout, Reporter |
|
•
•
•
•
•
|
Allele |
Name: |
CD207 antigen; endonuclease-mediated mutation 1, GemPharmatech Co., Ltd |
Allele Type: |
Endonuclease-mediated |
Attribute String: |
Conditional ready, No functional change |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Cd207/Cd207 |
Background: |
B6.129S2-Cd207 |
Zygosity: |
hm |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Strain |
Attribute String: |
mutant strain, targeted mutation, congenic |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Cd207/Cd207 |
Background: |
involves: C57BL/6 |
Zygosity: |
hm |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Cd207/Cd207<+> Tgfbr1/Tgfbr1 |
Background: |
involves: 129S4/SvJaeSor * C57BL/6 |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Braf/Braf Cd207/Cd207<+> |
Background: |
involves: 129P2/OlaHsd * 129S4/SvJae * C57BL/6 |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Cd207/Cd207 |
Background: |
involves: 129S2/SvPas |
Zygosity: |
ht |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Cd207/Cd207<+> |
Background: |
involves: C57BL/6 * SJL |
Zygosity: |
ht |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Cd207/Cd207<+> |
Background: |
involves: C57BL/6 |
Zygosity: |
ht |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Allele |
Name: |
transgene insertion, Daniel H Kaplan |
Allele Type: |
Transgenic |
Attribute String: |
Humanized sequence, Inserted expressed sequence |
|
•
•
•
•
•
|
Allele |
Name: |
transgene insertion 312, Daniel H Kaplan |
Allele Type: |
Transgenic |
Attribute String: |
Inserted expressed sequence |
|
•
•
•
•
•
|
Publication |
First Author: |
Flamar AL |
Year: |
2012 |
Journal: |
J Immunol |
Title: |
Noncovalent assembly of anti-dendritic cell antibodies and antigens for evoking immune responses in vitro and in vivo. |
Volume: |
189 |
Issue: |
5 |
Pages: |
2645-55 |
|
•
•
•
•
•
|
Allele |
Name: |
transgene insertion 1, Daniel H Kaplan |
Allele Type: |
Transgenic |
Attribute String: |
Recombinase |
|
•
•
•
•
•
|
Publication |
First Author: |
Bobr A |
Year: |
2010 |
Journal: |
J Immunol |
Title: |
Acute ablation of Langerhans cells enhances skin immune responses. |
Volume: |
185 |
Issue: |
8 |
Pages: |
4724-8 |
|
•
•
•
•
•
|
Strain |
Attribute String: |
coisogenic, mutant strain, transgenic |
|
•
•
•
•
•
|
Strain |
Attribute String: |
congenic, mutant strain, transgenic |
|
•
•
•
•
•
|
Publication |
First Author: |
Obhrai JS |
Year: |
2008 |
Journal: |
J Invest Dermatol |
Title: |
Langerhans cells are not required for efficient skin graft rejection. |
Volume: |
128 |
Issue: |
8 |
Pages: |
1950-5 |
|
•
•
•
•
•
|
Publication |
First Author: |
Su Q |
Year: |
2020 |
Journal: |
PLoS One |
Title: |
Brief communication: Long-term absence of Langerhans cells alters the gene expression profile of keratinocytes and dendritic epidermal T cells. |
Volume: |
15 |
Issue: |
1 |
Pages: |
e0223397 |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Tg(CD207-Dta)312Dhka/? |
Background: |
FVB-Tg(CD207-Dta)312Dhka |
Zygosity: |
ot |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Publication |
First Author: |
Kaplan DH |
Year: |
2005 |
Journal: |
Immunity |
Title: |
Epidermal langerhans cell-deficient mice develop enhanced contact hypersensitivity. |
Volume: |
23 |
Issue: |
6 |
Pages: |
611-20 |
|
•
•
•
•
•
|
Publication |
First Author: |
Lewis JM |
Year: |
2015 |
Journal: |
J Invest Dermatol |
Title: |
Langerhans Cells Facilitate UVB-Induced Epidermal Carcinogenesis. |
Volume: |
135 |
Issue: |
11 |
Pages: |
2824-2833 |
|
•
•
•
•
•
|
Publication |
First Author: |
Lewis JM |
Year: |
2015 |
Journal: |
J Invest Dermatol |
Title: |
Mechanisms of chemical cooperative carcinogenesis by epidermal Langerhans cells. |
Volume: |
135 |
Issue: |
5 |
Pages: |
1405-1414 |
|
•
•
•
•
•
|
Strain |
Attribute String: |
Not specified |
|
•
•
•
•
•
|
Publication |
First Author: |
Tanaka R |
Year: |
2022 |
Journal: |
J Invest Dermatol |
Title: |
The Role of PD-L1 on Langerhans Cells in the Regulation of Psoriasis. |
|
|
|
|
•
•
•
•
•
|
Genotype |
Symbol: |
Flg/Flg Tg(CD207-Dta)312Dhka/? |
Background: |
involves: 129S6/SvEvTac * BALB/c * C57BL/6NTac * FVB |
Zygosity: |
cx |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Publication |
First Author: |
Scholz F |
Year: |
2014 |
Journal: |
PLoS One |
Title: |
Immune mediated shaping of microflora community composition depends on barrier site. |
Volume: |
9 |
Issue: |
1 |
Pages: |
e84019 |
|
•
•
•
•
•
|
Publication |
First Author: |
Modi BG |
Year: |
2012 |
Journal: |
Science |
Title: |
Langerhans cells facilitate epithelial DNA damage and squamous cell carcinoma. |
Volume: |
335 |
Issue: |
6064 |
Pages: |
104-8 |
|
•
•
•
•
•
|
Publication |
First Author: |
Stoitzner P |
Year: |
2005 |
Journal: |
Eur J Cell Biol |
Title: |
Langerhans cells are strongly reduced in the skin of transgenic mice overexpressing follistatin in the epidermis. |
Volume: |
84 |
Issue: |
8 |
Pages: |
733-41 |
|
•
•
•
•
•
|
Publication |
First Author: |
Li H |
Year: |
2011 |
Journal: |
Blood |
Title: |
Langerhans cells are not required for graft-versus-host disease. |
Volume: |
117 |
Issue: |
2 |
Pages: |
697-707 |
|
•
•
•
•
•
|
Publication |
First Author: |
Matsumoto R |
Year: |
2018 |
Journal: |
JCI Insight |
Title: |
Epithelial TRAF6 drives IL-17-mediated psoriatic inflammation. |
Volume: |
3 |
Issue: |
15 |
|
|
•
•
•
•
•
|
Genotype |
Symbol: |
B9d2/Tgfb1/B9d2/Tgfb1 Tg(CD207-cre)1Dhka/? |
Background: |
involves: 129S6/SvEvTac * C57BL/6J * SJL/J |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
B9d2/Tgfb1/B9d2/Tgfb1 Tg(CD207-cre)1Dhka/? |
Background: |
involves: 129S6/SvEvTac * C57BL/6J * SJL/J |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
B9d2/Tgfb1/B9d2<+> Tg(CD207-cre)1Dhka/? |
Background: |
involves: 129S6/SvEvTac * C57BL/6J * SJL/J |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Tgfbr2/Tgfbr2 Tg(CD207-cre)1Dhka/? |
Background: |
involves: 129S6/SvEvTac * C57BL/6J * SJL/J |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Epcam/Epcam Tg(CD207-cre)1Dhka/? |
Background: |
involves: 129 * C57BL/6 * C57BL/6J * SJL/J |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Publication |
First Author: |
Tassi I |
Year: |
2015 |
Journal: |
Eur J Immunol |
Title: |
The NF-κB regulator Bcl-3 modulates inflammation during contact hypersensitivity reactions in radioresistant cells. |
Volume: |
45 |
Issue: |
4 |
Pages: |
1059-1068 |
|
•
•
•
•
•
|
Publication |
First Author: |
Su Q |
Year: |
2019 |
Journal: |
J Invest Dermatol |
Title: |
Keratinocytes Share Gene Expression Fingerprint with Epidermal Langerhans Cells via mRNA Transfer. |
Volume: |
139 |
Issue: |
11 |
Pages: |
2313-2323.e8 |
|
•
•
•
•
•
|
Publication |
First Author: |
Ouchi T |
Year: |
2016 |
Journal: |
J Invest Dermatol |
Title: |
EpCAM Expressed by Murine Epidermal Langerhans Cells Modulates Immunization to an Epicutaneously Applied Protein Antigen. |
Volume: |
136 |
Issue: |
8 |
Pages: |
1627-35 |
|
•
•
•
•
•
|
Publication |
First Author: |
Greter M |
Year: |
2012 |
Journal: |
Immunity |
Title: |
Stroma-derived interleukin-34 controls the development and maintenance of langerhans cells and the maintenance of microglia. |
Volume: |
37 |
Issue: |
6 |
Pages: |
1050-1060 |
|
•
•
•
•
•
|
Publication |
First Author: |
Haley K |
Year: |
2012 |
Journal: |
J Immunol |
Title: |
Langerhans cells require MyD88-dependent signals for Candida albicans response but not for contact hypersensitivity or migration. |
Volume: |
188 |
Issue: |
9 |
Pages: |
4334-9 |
|
•
•
•
•
•
|
Publication |
First Author: |
Huang L |
Year: |
2020 |
Journal: |
Front Immunol |
Title: |
Smad2/4 Signaling Pathway Is Critical for Epidermal Langerhans Cell Repopulation Under Inflammatory Condition but Not Required for Their Homeostasis at Steady State. |
Volume: |
11 |
|
Pages: |
912 |
|
•
•
•
•
•
|
Genotype |
Symbol: |
Tgfb1/B9d2/Tgfb1 Tg(CD207-cre)1Dhka/? |
Background: |
involves: 129S6/SvEvTac * C57BL/6J * SJL/J |
Zygosity: |
cn |
Has Mutant Allele: |
true |
|
•
•
•
•
•
|
Publication |
First Author: |
Igyarto BZ |
Year: |
2009 |
Journal: |
J Immunol |
Title: |
Langerhans cells suppress contact hypersensitivity responses via cognate CD4 interaction and langerhans cell-derived IL-10. |
Volume: |
183 |
Issue: |
8 |
Pages: |
5085-93 |
|
•
•
•
•
•
|
Publication |
First Author: |
Gaiser MR |
Year: |
2012 |
Journal: |
Proc Natl Acad Sci U S A |
Title: |
Cancer-associated epithelial cell adhesion molecule (EpCAM; CD326) enables epidermal Langerhans cell motility and migration in vivo. |
Volume: |
109 |
Issue: |
15 |
Pages: |
E889-97 |
|
•
•
•
•
•
|
Publication |
First Author: |
Hurabielle C |
Year: |
2020 |
Journal: |
Proc Natl Acad Sci U S A |
Title: |
Immunity to commensal skin fungi promotes psoriasiform skin inflammation. |
Volume: |
117 |
Issue: |
28 |
Pages: |
16465-16474 |
|
•
•
•
•
•
|
Publication |
First Author: |
Kaplan DH |
Year: |
2007 |
Journal: |
J Exp Med |
Title: |
Autocrine/paracrine TGFbeta1 is required for the development of epidermal Langerhans cells. |
Volume: |
204 |
Issue: |
11 |
Pages: |
2545-52 |
|
•
•
•
•
•
|
Publication |
First Author: |
Nelson DS |
Year: |
2019 |
Journal: |
PLoS One |
Title: |
BRAF V600E and Pten deletion in mice produces a histiocytic disorder with features of Langerhans cell histiocytosis. |
Volume: |
14 |
Issue: |
9 |
Pages: |
e0222400 |
|
•
•
•
•
•
|
Publication |
First Author: |
Kobayashi T |
Year: |
2015 |
Journal: |
Immunity |
Title: |
Dysbiosis and Staphylococcus aureus Colonization Drives Inflammation in Atopic Dermatitis. |
Volume: |
42 |
Issue: |
4 |
Pages: |
756-66 |
|
•
•
•
•
•
|
Publication |
First Author: |
Liang J |
Year: |
2016 |
Journal: |
Cell Rep |
Title: |
Inflammatory Th1 and Th17 in the Intestine Are Each Driven by Functionally Specialized Dendritic Cells with Distinct Requirements for MyD88. |
Volume: |
17 |
Issue: |
5 |
Pages: |
1330-1343 |
|
•
•
•
•
•
|
Publication |
First Author: |
Wasko R |
Year: |
2022 |
Journal: |
Dev Cell |
Title: |
Langerhans cells are essential components of the angiogenic niche during murine skin repair. |
Volume: |
57 |
Issue: |
24 |
Pages: |
2699-2713.e5 |
|
•
•
•
•
•
|
Publication |
First Author: |
Sun T |
Year: |
2017 |
Journal: |
Mucosal Immunol |
Title: |
Intestinal Batf3-dependent dendritic cells are required for optimal antiviral T-cell responses in adult and neonatal mice. |
Volume: |
10 |
Issue: |
3 |
Pages: |
775-788 |
|
•
•
•
•
•
|
Publication |
First Author: |
Yang Y |
Year: |
2019 |
Journal: |
J Dermatol Sci |
Title: |
Keratinocyte-derived TGFβ is not required to maintain skin immune homeostasis. |
Volume: |
94 |
Issue: |
2 |
Pages: |
290-297 |
|
•
•
•
•
•
|
Publication |
First Author: |
Ndeupen S |
Year: |
2021 |
Journal: |
bioRxiv |
Title: |
Langerhans cells and cDC1s play redundant roles in mRNA-LNP induced protective anti-influenza and anti-SARS-CoV-2 responses. |
|
|
|
|
•
•
•
•
•
|
Publication |
First Author: |
Wong E |
Year: |
2019 |
Journal: |
Cell Rep |
Title: |
Langerhans Cells Orchestrate the Protective Antiviral Innate Immune Response in the Lymph Node. |
Volume: |
29 |
Issue: |
10 |
Pages: |
3047-3059.e3 |
|
•
•
•
•
•
|
Publication |
First Author: |
Guo Y |
Year: |
2004 |
Journal: |
Nat Struct Mol Biol |
Title: |
Structural basis for distinct ligand-binding and targeting properties of the receptors DC-SIGN and DC-SIGNR. |
Volume: |
11 |
Issue: |
7 |
Pages: |
591-8 |
|
•
•
•
•
•
|
Publication |
First Author: |
Feinberg H |
Year: |
2005 |
Journal: |
J Biol Chem |
Title: |
Extended neck regions stabilize tetramers of the receptors DC-SIGN and DC-SIGNR. |
Volume: |
280 |
Issue: |
2 |
Pages: |
1327-35 |
|
•
•
•
•
•
|
Publication |
First Author: |
Valladeau J |
Year: |
2003 |
Journal: |
Immunol Res |
Title: |
Langerin/CD207 sheds light on formation of birbeck granules and their possible function in Langerhans cells. |
Volume: |
28 |
Issue: |
2 |
Pages: |
93-107 |
|
•
•
•
•
•
|
Publication |
First Author: |
Mummidi S |
Year: |
2001 |
Journal: |
J Biol Chem |
Title: |
Extensive repertoire of membrane-bound and soluble dendritic cell-specific ICAM-3-grabbing nonintegrin 1 (DC-SIGN1) and DC-SIGN2 isoforms. Inter-individual variation in expression of DC-SIGN transcripts. |
Volume: |
276 |
Issue: |
35 |
Pages: |
33196-212 |
|
•
•
•
•
•
|
Publication |
First Author: |
Stambach NS |
Year: |
2003 |
Journal: |
Glycobiology |
Title: |
Characterization of carbohydrate recognition by langerin, a C-type lectin of Langerhans cells. |
Volume: |
13 |
Issue: |
5 |
Pages: |
401-10 |
|
•
•
•
•
•
|
Publication |
First Author: |
Massarelli I |
Year: |
2010 |
Journal: |
Int J Mol Sci |
Title: |
Three-dimensional models of the oligomeric human asialoglycoprotein receptor (ASGP-R). |
Volume: |
11 |
Issue: |
10 |
Pages: |
3867-84 |
|
•
•
•
•
•
|
Publication |
First Author: |
Park EI |
Year: |
2005 |
Journal: |
Proc Natl Acad Sci U S A |
Title: |
The asialoglycoprotein receptor clears glycoconjugates terminating with sialic acid alpha 2,6GalNAc. |
Volume: |
102 |
Issue: |
47 |
Pages: |
17125-9 |
|
•
•
•
•
•
|
Protein Domain |
Type: |
Domain |
Description: |
This entry represents the C-type lectin-like domain (CTLD) of the type found in human dendritic cell (DC)-specific intercellular adhesion molecule 3-grabbing non-integrin (DC-SIGN), also known as CD209 antigen, and the related receptor, DC-SIGN receptor (DC-SIGNR), also known as CD209 antigen-like protein 1 or C-type lectin domain family 4 member M. This group also contains proteins similar to hepatic asialoglycoprotein receptor (ASGP-R) and langerin (also known as CD207 or C-type lectin domain family 4 member K) in human. These proteins are type II membrane proteins with a CTLD ectodomain. CTLD refers to a domain homologous to the carbohydrate-recognition domains (CRDs) of the C-type lectins [].DC-SIGN is thought to mediate the initial contact between dendritic cells and resting T cells, and may also mediate the rolling of DCs on epithelium []. DC-SIGN and DC-SIGNR bind to oligosaccharides present on human tissues, as well as on pathogens including parasites, bacteria, and viruses. DC-SIGN and DC-SIGNR bind to HIV, enhancing viral infection of T cells []. DC-SIGN and DC-SIGNR are homotetrameric, and contain four CTLDs stabilized by a coiled coil of alpha helices []. The hepatic ASGP-R is an endocytic recycling receptor which binds and internalizes desialylated glycoproteins having a terminal galactose or N-acetylgalactosamine residues on their N-linked carbohydrate chains, via the clathrin-coated pit mediated endocytic pathway, and delivers them to lysosomes for degradation. It has been proposed that glycoproteins bearing terminals 'Sia (sialic acid) alpha2, 6GalNAc' and 'Sia alpha2, 6Gal' are endogenous ligands for ASGP-R, and that ASGP-R participates in regulating the relative concentration of serum glycoproteins bearing alpha 2,6-linked Sia []. The human ASGP-R is a hetero-oligomer composed of two subunits, both of which are found within this group []. Langerin is expressed in a subset of dendritic leukocytes, the Langerhans cells (LC). Langerin induces the formation of Birbeck Granules (BGs) and associates with these BGs following internalization []. Langerin binds, in a calcium-dependent manner, to glyco-conjugates containing mannose and related sugars mediating their uptake and degradation. Langerin molecules oligomerize as trimers with three CTLDs held together by a coiled-coil of alpha helices []. |
|
•
•
•
•
•
|
Publication |
First Author: |
Tamoutounour S |
Year: |
2019 |
Journal: |
Proc Natl Acad Sci U S A |
Title: |
Keratinocyte-intrinsic MHCII expression controls microbiota-induced Th1 cell responses. |
Volume: |
116 |
Issue: |
47 |
Pages: |
23643-23652 |
|
•
•
•
•
•
|
Publication |
First Author: |
Lewis JM |
Year: |
2021 |
Journal: |
Proc Natl Acad Sci U S A |
Title: |
Chronic UV radiation-induced RORγt+ IL-22-producing lymphoid cells are associated with mutant KC clonal expansion. |
Volume: |
118 |
Issue: |
37 |
|
|
•
•
•
•
•
|
Publication |
First Author: |
Kashem SW |
Year: |
2015 |
Journal: |
Immunity |
Title: |
Nociceptive Sensory Fibers Drive Interleukin-23 Production from CD301b+ Dermal Dendritic Cells and Drive Protective Cutaneous Immunity. |
Volume: |
43 |
Issue: |
3 |
Pages: |
515-26 |
|
•
•
•
•
•
|
Publication |
First Author: |
Strid J |
Year: |
2011 |
Journal: |
Science |
Title: |
The intraepithelial T cell response to NKG2D-ligands links lymphoid stress surveillance to atopy. |
Volume: |
334 |
Issue: |
6060 |
Pages: |
1293-7 |
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Publication |
First Author: |
Panea C |
Year: |
2015 |
Journal: |
Cell Rep |
Title: |
Intestinal Monocyte-Derived Macrophages Control Commensal-Specific Th17 Responses. |
Volume: |
12 |
Issue: |
8 |
Pages: |
1314-24 |
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•
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Publication |
First Author: |
Shipman WD |
Year: |
2018 |
Journal: |
Sci Transl Med |
Title: |
A protective Langerhans cell-keratinocyte axis that is dysfunctional in photosensitivity. |
Volume: |
10 |
Issue: |
454 |
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•
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•
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Publication |
First Author: |
Kim TG |
Year: |
2015 |
Journal: |
J Allergy Clin Immunol |
Title: |
CCCTC-binding factor controls the homeostatic maintenance and migration of Langerhans cells. |
Volume: |
136 |
Issue: |
3 |
Pages: |
713-24 |
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Publication |
First Author: |
Mohammed J |
Year: |
2016 |
Journal: |
Nat Immunol |
Title: |
Stromal cells control the epithelial residence of DCs and memory T cells by regulated activation of TGF-β. |
Volume: |
17 |
Issue: |
4 |
Pages: |
414-21 |
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•
•
•
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Publication |
First Author: |
Russler-Germain EV |
Year: |
2021 |
Journal: |
Immunity |
Title: |
Commensal Cryptosporidium colonization elicits a cDC1-dependent Th1 response that promotes intestinal homeostasis and limits other infections. |
Volume: |
54 |
Issue: |
11 |
Pages: |
2547-2564.e7 |
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•
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•
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Publication |
First Author: |
McKenzie DR |
Year: |
2022 |
Journal: |
Nat Immunol |
Title: |
Normality sensing licenses local T cells for innate-like tissue surveillance. |
Volume: |
23 |
Issue: |
3 |
Pages: |
411-422 |
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•
•
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Publication |
First Author: |
Hirai T |
Year: |
2019 |
Journal: |
Immunity |
Title: |
Keratinocyte-Mediated Activation of the Cytokine TGF-β Maintains Skin Recirculating Memory CD8+ T Cells. |
Volume: |
50 |
Issue: |
5 |
Pages: |
1249-1261.e5 |
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•
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Publication |
First Author: |
Crawford G |
Year: |
2018 |
Journal: |
Nat Immunol |
Title: |
Epithelial damage and tissue γδ T cells promote a unique tumor-protective IgE response. |
Volume: |
19 |
Issue: |
8 |
Pages: |
859-870 |
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Publication |
First Author: |
Gerner MY |
Year: |
2012 |
Journal: |
Immunity |
Title: |
Histo-cytometry: a method for highly multiplex quantitative tissue imaging analysis applied to dendritic cell subset microanatomy in lymph nodes. |
Volume: |
37 |
Issue: |
2 |
Pages: |
364-76 |
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Publication |
First Author: |
Bell BD |
Year: |
2013 |
Journal: |
Nat Immunol |
Title: |
The transcription factor STAT5 is critical in dendritic cells for the development of TH2 but not TH1 responses. |
Volume: |
14 |
Issue: |
4 |
Pages: |
364-71 |
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Publication |
First Author: |
Zhang S |
Year: |
2021 |
Journal: |
Cell |
Title: |
Nonpeptidergic neurons suppress mast cells via glutamate to maintain skin homeostasis. |
Volume: |
184 |
Issue: |
8 |
Pages: |
2151-2166.e16 |
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Publication |
First Author: |
Malhotra D |
Year: |
2016 |
Journal: |
Nat Immunol |
Title: |
Tolerance is established in polyclonal CD4(+) T cells by distinct mechanisms, according to self-peptide expression patterns. |
Volume: |
17 |
Issue: |
2 |
Pages: |
187-95 |
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•
•
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|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
219
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
219
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
218
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
308
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
245
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
178
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
301
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
325
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
237
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
238
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
742
|
Fragment?: |
false |
|
•
•
•
•
•
|
Protein |
Organism: |
Mus musculus/domesticus |
Length: |
331
|
Fragment?: |
false |
|
•
•
•
•
•
|