| Published Application/Species/Sample/Dilution | Reference |
|---|
- flow cytometry; mouse; 1:50; loading ...; fig 2c
| Wuggenig P, Kaya B, Melhem H, Ayata C, Hruz P, Sayan A, et al. Loss of the branched-chain amino acid transporter CD98hc alters the development of colonic macrophages in mice. Commun Biol. 2020;3:130 pubmed publisher |
- flow cytometry; mouse; loading ...; fig s8b
| Li Y, Tinoco R, Elmén L, Segota I, Xian Y, Fujita Y, et al. Gut microbiota dependent anti-tumor immunity restricts melanoma growth in Rnf5-/- mice. Nat Commun. 2019;10:1492 pubmed publisher |
- flow cytometry; mouse; loading ...; fig 1c
| Shishido T, Kohyama M, Nakai W, Matsumoto M, Miyata H, Suenaga T, et al. Invariant chain p41 mediates production of soluble MHC class II molecules. Biochem Biophys Res Commun. 2018;: pubmed publisher |
- flow cytometry; mouse; loading ...; fig s11
| Foerster F, Boegel S, Heck R, Pickert G, R ssel N, Rosigkeit S, et al. Enhanced protection of C57 BL/6 vs Balb/c mice to melanoma liver metastasis is mediated by NK cells. Oncoimmunology. 2018;7:e1409929 pubmed publisher |
- flow cytometry; mouse; loading ...; fig s8a
| Chu L, Indramohan M, Ratsimandresy R, Gangopadhyay A, Morris E, Monack D, et al. The oxidized phospholipid oxPAPC protects from septic shock by targeting the non-canonical inflammasome in macrophages. Nat Commun. 2018;9:996 pubmed publisher |
- flow cytometry; mouse; 1:100; loading ...; fig s4a
| Shakyawar D, Muralikrishna B, Radha V. C3G dynamically associates with nuclear speckles and regulates mRNA splicing. Mol Biol Cell. 2018;: pubmed publisher |
- flow cytometry; mouse; loading ...; fig 1a
| Steiner D, Furuya Y, Metzger D. Detrimental Influence of Alveolar Macrophages on Protective Humoral Immunity during Francisella tularensis SchuS4 Pulmonary Infection. Infect Immun. 2018;86: pubmed publisher |
- flow cytometry; mouse; loading ...; fig 2a
| Rombouts M, Cools N, Grootaert M, de Bakker F, Van Brussel I, Wouters A, et al. Long-Term Depletion of Conventional Dendritic Cells Cannot Be Maintained in an Atherosclerotic Zbtb46-DTR Mouse Model. PLoS ONE. 2017;12:e0169608 pubmed publisher |
- flow cytometry; mouse; fig 1
| Pelly V, Kannan Y, Coomes S, Entwistle L, Rückerl D, Seddon B, et al. IL-4-producing ILC2s are required for the differentiation of TH2 cells following Heligmosomoides polygyrus infection. Mucosal Immunol. 2016;9:1407-1417 pubmed publisher |
- flow cytometry; mouse; fig 5
| Morales D, Monte K, Sun L, Struckhoff J, Agapov E, Holtzman M, et al. Novel mode of ISG15-mediated protection against influenza A virus and Sendai virus in mice. J Virol. 2015;89:337-49 pubmed publisher |
- flow cytometry; mouse; fig 5
| McDonnell A, Lesterhuis W, Khong A, Nowak A, Lake R, Currie A, et al. Tumor-infiltrating dendritic cells exhibit defective cross-presentation of tumor antigens, but is reversed by chemotherapy. Eur J Immunol. 2015;45:49-59 pubmed publisher |
- flow cytometry; mouse; loading ...; fig 4c
| Xia S, Wei J, Wang J, Sun H, Zheng W, Li Y, et al. A requirement of dendritic cell-derived interleukin-27 for the tumor infiltration of regulatory T cells. J Leukoc Biol. 2014;95:733-742 pubmed |
| Leppin K, Behrendt A, Reichard M, Stachs O, Guthoff R, Baltrusch S, et al. Diabetes mellitus leads to accumulation of dendritic cells and nerve fiber damage of the subbasal nerve plexus in the cornea. Invest Ophthalmol Vis Sci. 2014;55:3603-15 pubmed publisher |
| Eisenach P, Roghi C, Fogarasi M, Murphy G, English W. MT1-MMP regulates VEGF-A expression through a complex with VEGFR-2 and Src. J Cell Sci. 2010;123:4182-93 pubmed publisher |
| Bankoti J, Burnett A, Navarro S, Miller A, Rase B, Shepherd D. Effects of TCDD on the fate of naive dendritic cells. Toxicol Sci. 2010;115:422-34 pubmed publisher |
| Osterholzer J, Chen G, Olszewski M, Curtis J, Huffnagle G, Toews G. Accumulation of CD11b+ lung dendritic cells in response to fungal infection results from the CCR2-mediated recruitment and differentiation of Ly-6Chigh monocytes. J Immunol. 2009;183:8044-53 pubmed publisher |
| Fahlén Yrlid L, Gustafsson T, Westlund J, Holmberg A, Strömbeck A, Blomquist M, et al. CD11c(high )dendritic cells are essential for activation of CD4+ T cells and generation of specific antibodies following mucosal immunization. J Immunol. 2009;183:5032-41 pubmed publisher |
| You Y, Zhao H, Wang Y, Carter R. Cutting edge: Primary and secondary effects of CD19 deficiency on cells of the marginal zone. J Immunol. 2009;182:7343-7 pubmed publisher |
| Randall L, Amante F, McSweeney K, Zhou Y, Stanley A, Haque A, et al. Common strategies to prevent and modulate experimental cerebral malaria in mouse strains with different susceptibilities. Infect Immun. 2008;76:3312-20 pubmed publisher |
| Pericolini E, Cenci E, Gabrielli E, Perito S, Mosci P, Bistoni F, et al. Indinavir influences biological function of dendritic cells and stimulates antifungal immunity. J Leukoc Biol. 2008;83:1286-94 pubmed publisher |
| Benson M, Pino Lagos K, Rosemblatt M, Noelle R. All-trans retinoic acid mediates enhanced T reg cell growth, differentiation, and gut homing in the face of high levels of co-stimulation. J Exp Med. 2007;204:1765-74 pubmed |
| Turnquist H, Raimondi G, Zahorchak A, Fischer R, Wang Z, Thomson A. Rapamycin-conditioned dendritic cells are poor stimulators of allogeneic CD4+ T cells, but enrich for antigen-specific Foxp3+ T regulatory cells and promote organ transplant tolerance. J Immunol. 2007;178:7018-31 pubmed |
| Cervantes Barragan L, Zust R, Weber F, Spiegel M, Lang K, Akira S, et al. Control of coronavirus infection through plasmacytoid dendritic-cell-derived type I interferon. Blood. 2007;109:1131-7 pubmed |
| Wikstrom M, Batanero E, Smith M, Thomas J, von Garnier C, Holt P, et al. Influence of mucosal adjuvants on antigen passage and CD4+ T cell activation during the primary response to airborne allergen. J Immunol. 2006;177:913-24 pubmed |
