Purified anti-human IFN-γ | BioLegend 502501 product information

product summary

company name :

BioLegend

other brands :

Babco, Signet, Sternberger Monoclonals, Senetek, Covance

product type :

antibody

product name :

Purified anti-human IFN-γ

catalog :

502501

quantity :

50 μg

price :

83 USD

clonality :

monoclonal

host :

mouse

conjugate :

nonconjugated

clone name :

4S.B3

reactivity :

human, mouse, rhesus macaque

application :

western blot, ELISA, immunocytochemistry, flow cytometry

more info or order :

BioLegend product webpage

citations: 73

Published Application/Species/Sample/Dilution	Reference
flow cytometry; human; loading ...; fig 6g	Secchiari F, Nu xf1 ez S, Sierra J, Ziblat A, Regge M, Raffo Iraolagoitia X, et al. The MICA-NKG2D axis in clear cell renal cell carcinoma bolsters MICA as target in immuno-oncology. Oncoimmunology. 2022;11:2104991 pubmed publisher
flow cytometry; human; loading ...; fig 4i	Hickman T, Choi E, Whiteman K, Muralidharan S, Pai T, Johnson T, et al. BOXR1030, an anti-GPC3 CAR with exogenous GOT2 expression, shows enhanced T cell metabolism and improved anti-cell line derived tumor xenograft activity. PLoS ONE. 2022;17:e0266980 pubmed publisher
flow cytometry; human; fig s10	Kono M, Komatsuda H, Yamaki H, Kumai T, Hayashi R, Wakisaka R, et al. Immunomodulation via FGFR inhibition augments FGFR1 targeting T-cell based antitumor immunotherapy for head and neck squamous cell carcinoma. Oncoimmunology. 2022;11:2021619 pubmed publisher
flow cytometry; human; loading ...; fig 2d	Ingelfinger F, Krishnarajah S, Kramer M, Utz S, Galli E, Lutz M, et al. Single-cell profiling of myasthenia gravis identifies a pathogenic T cell signature. Acta Neuropathol. 2021;141:901-915 pubmed publisher
flow cytometry; human; fig 2c	Martin E, Minet N, Boschat A, Sanquer S, Sobrino S, Lenoir C, et al. Impaired lymphocyte function and differentiation in CTPS1-deficient patients result from a hypomorphic homozygous mutation. JCI Insight. 2020;5: pubmed publisher
flow cytometry; human; loading ...; fig 6d	Lynn R, Weber E, Sotillo E, Gennert D, Xu P, Good Z, et al. c-Jun overexpression in CAR T cells induces exhaustion resistance. Nature. 2019;576:293-300 pubmed publisher
flow cytometry; human; loading ...; fig 1b	Meckiff B, Ladell K, McLaren J, Ryan G, Leese A, James E, et al. Primary EBV Infection Induces an Acute Wave of Activated Antigen-Specific Cytotoxic CD4+ T Cells. J Immunol. 2019;203:1276-1287 pubmed publisher
flow cytometry; human; loading ...; fig 3b	Thauland T, Pellerin L, Ohgami R, Bacchetta R, Butte M. Case Study: Mechanism for Increased Follicular Helper T Cell Development in Activated PI3K Delta Syndrome. Front Immunol. 2019;10:753 pubmed publisher
flow cytometry; human; loading ...; fig 2c	Wen Z, Jin K, Shen Y, Yang Z, Li Y, Wu B, et al. N-myristoyltransferase deficiency impairs activation of kinase AMPK and promotes synovial tissue inflammation. Nat Immunol. 2019;20:313-325 pubmed publisher
flow cytometry; human; loading ...; fig 1a	Banki Z, Krabbendam L, Klaver D, Leng T, Kruis S, Mehta H, et al. Antibody opsonization enhances MAIT cell responsiveness to bacteria via a TNF-dependent mechanism. Immunol Cell Biol. 2019;97:538-551 pubmed publisher
flow cytometry; human; loading ...; fig 8d	Aulicino A, Rue Albrecht K, Preciado Llanes L, Napolitani G, Ashley N, Cribbs A, et al. Invasive Salmonella exploits divergent immune evasion strategies in infected and bystander dendritic cell subsets. Nat Commun. 2018;9:4883 pubmed publisher
flow cytometry; human; loading ...; fig s3a	Dias J, Boulouis C, Gorin J, van den Biggelaar R, Lal K, Gibbs A, et al. The CD4-CD8- MAIT cell subpopulation is a functionally distinct subset developmentally related to the main CD8+ MAIT cell pool. Proc Natl Acad Sci U S A. 2018;115:E11513-E11522 pubmed publisher
flow cytometry; human; loading ...; fig 1j	Ye W, Chew M, Hou J, Lai F, Leopold S, Loo H, et al. Microvesicles from malaria-infected red blood cells activate natural killer cells via MDA5 pathway. PLoS Pathog. 2018;14:e1007298 pubmed publisher
flow cytometry; human; loading ...; fig 5d	Clayton K, Collins D, Lengieza J, Ghebremichael M, Dotiwala F, Lieberman J, et al. Resistance of HIV-infected macrophages to CD8+ T lymphocyte-mediated killing drives activation of the immune system. Nat Immunol. 2018;19:475-486 pubmed publisher
flow cytometry; human; loading ...; fig 6a	Li M, Zhang W, Liu J, Li M, Zhang Y, Xiong Y, et al. Dynamic changes in the immunological characteristics of T lymphocytes in surviving patients with severe fever with thrombocytopenia syndrome (SFTS). Int J Infect Dis. 2018;70:72-80 pubmed publisher
flow cytometry; human; loading ...; fig 3b	Li N, van Unen V, Höllt T, Thompson A, van Bergen J, Pezzotti N, et al. Mass cytometry reveals innate lymphoid cell differentiation pathways in the human fetal intestine. J Exp Med. 2018;215:1383-1396 pubmed publisher
flow cytometry; human; loading ...; fig 2i	Pizzolla A, Nguyen T, Sant S, Jaffar J, Loudovaris T, Mannering S, et al. Influenza-specific lung-resident memory T cells are proliferative and polyfunctional and maintain diverse TCR profiles. J Clin Invest. 2018;128:721-733 pubmed publisher
flow cytometry; human; loading ...; fig 2c	Pugh J, Nemat Gorgani N, Norman P, Guethlein L, Parham P. Human NK Cells Downregulate Zap70 and Syk in Response to Prolonged Activation or DNA Damage. J Immunol. 2018;200:1146-1158 pubmed publisher
flow cytometry; human; loading ...; fig 3d	Molnar C, Scherer A, Baraliakos X, de Hooge M, Micheroli R, Exer P, et al. TNF blockers inhibit spinal radiographic progression in ankylosing spondylitis by reducing disease activity: results from the Swiss Clinical Quality Management cohort. Ann Rheum Dis. 2018;77:63-69 pubmed publisher
flow cytometry; human; loading ...; fig 1a	Domae E, Hirai Y, Ikeo T, Goda S, Shimizu Y. Cytokine-mediated activation of human ex vivo-expanded V?9V?2 T cells. Oncotarget. 2017;8:45928-45942 pubmed publisher
flow cytometry; human; fig 4b	Tyler C, McCarthy N, Lindsay J, Stagg A, Moser B, Eberl M. Antigen-Presenting Human γδ T Cells Promote Intestinal CD4+ T Cell Expression of IL-22 and Mucosal Release of Calprotectin. J Immunol. 2017;198:3417-3425 pubmed publisher
flow cytometry; human; loading ...	Tauriainen J, Scharf L, Frederiksen J, Naji A, Ljunggren H, Sonnerborg A, et al. Perturbed CD8+ T cell TIGIT/CD226/PVR axis despite early initiation of antiretroviral treatment in HIV infected individuals. Sci Rep. 2017;7:40354 pubmed publisher
flow cytometry; rhesus macaque; loading ...	Roberts E, Carnathan D, Li H, Shaw G, Silvestri G, Betts M. Collapse of Cytolytic Potential in SIV-Specific CD8+ T Cells Following Acute SIV Infection in Rhesus Macaques. PLoS Pathog. 2016;12:e1006135 pubmed publisher
flow cytometry; mouse; loading ...; fig 3d	Cheng L, Ma J, Li J, Li D, Li G, Li F, et al. Blocking type I interferon signaling enhances T cell recovery and reduces HIV-1 reservoirs. J Clin Invest. 2017;127:269-279 pubmed publisher
flow cytometry; human; fig 2	Pachnio A, Ciáurriz M, Begum J, Lal N, Zuo J, Beggs A, et al. Cytomegalovirus Infection Leads to Development of High Frequencies of Cytotoxic Virus-Specific CD4+ T Cells Targeted to Vascular Endothelium. PLoS Pathog. 2016;12:e1005832 pubmed publisher
flow cytometry; human; fig s9d	He R, Hou S, Liu C, Zhang A, Bai Q, Han M, et al. Follicular CXCR5- expressing CD8(+) T cells curtail chronic viral infection. Nature. 2016;537:412-428 pubmed publisher
flow cytometry; human; fig s1d	Cheng W, van Asten S, Burns L, Evans H, Walter G, Hashim A, et al. Periodontitis-associated pathogens P. gingivalis and A. actinomycetemcomitans activate human CD14(+) monocytes leading to enhanced Th17/IL-17 responses. Eur J Immunol. 2016;46:2211-21 pubmed publisher
flow cytometry; human; loading ...; fig 6c	Zanetti S, Ziblat A, Torres N, Zwirner N, Bouzat C. Expression and Functional Role of ?7 Nicotinic Receptor in Human Cytokine-stimulated Natural Killer (NK) Cells. J Biol Chem. 2016;291:16541-52 pubmed publisher
flow cytometry; human; loading ...; fig 4b	Vallera D, Felices M, McElmurry R, McCullar V, Zhou X, Schmohl J, et al. IL15 Trispecific Killer Engagers (TriKE) Make Natural Killer Cells Specific to CD33+ Targets While Also Inducing Persistence, In Vivo Expansion, and Enhanced Function. Clin Cancer Res. 2016;22:3440-50 pubmed publisher
flow cytometry; human; loading ...; fig 2a	James E, Gates T, LaFond R, Yamamoto S, Ni C, Mai D, et al. Neuroinvasive West Nile Infection Elicits Elevated and Atypically Polarized T Cell Responses That Promote a Pathogenic Outcome. PLoS Pathog. 2016;12:e1005375 pubmed publisher
flow cytometry; human; loading ...; fig 4e	Simonetta F, Pradier A, Bosshard C, Masouridi Levrat S, Chalandon Y, Roosnek E. NK Cell Functional Impairment after Allogeneic Hematopoietic Stem Cell Transplantation Is Associated with Reduced Levels of T-bet and Eomesodermin. J Immunol. 2015;195:4712-20 pubmed publisher
flow cytometry; human; fig 1	Leeansyah E, SvÃ¤rd J, Dias J, Buggert M, NystrÃ¶m J, Quigley M, et al. Arming of MAIT Cell Cytolytic Antimicrobial Activity Is Induced by IL-7 and Defective in HIV-1 Infection. PLoS Pathog. 2015;11:e1005072 pubmed publisher
flow cytometry; human	Zhu F, Qiao J, Cao J, Sun H, Wu Q, Sun Z, et al. Decreased level of cytotoxic T lymphocyte antigen-4 (CTLA-4) in patients with acute immune thrombocytopenia (ITP). Thromb Res. 2015;136:797-802 pubmed publisher
flow cytometry; human; 1:200; fig 6	Adoro S, Cubillos Ruiz J, Chen X, Deruaz M, Vrbanac V, Song M, et al. IL-21 induces antiviral microRNA-29 in CD4 T cells to limit HIV-1 infection. Nat Commun. 2015;6:7562 pubmed publisher
flow cytometry; human; 10,000 ug/ml; fig 3	Zhang P, Lu X, Tao K, Shi L, Li W, Wang G, et al. Siglec-10 is associated with survival and natural killer cell dysfunction in hepatocellular carcinoma. J Surg Res. 2015;194:107-13 pubmed publisher
flow cytometry; human	Dominguez Villar M, Gautron A, de Marcken M, Keller M, Hafler D. TLR7 induces anergy in human CD4(+) T cells. Nat Immunol. 2015;16:118-28 pubmed publisher
flow cytometry; human	Lim D, Yawata N, Selva K, Li N, Tsai C, Yeong L, et al. The combination of type I IFN, TNF-Î±, and cell surface receptor engagement with dendritic cells enables NK cells to overcome immune evasion by dengue virus. J Immunol. 2014;193:5065-75 pubmed publisher
flow cytometry; human; 1:40	Gibbons D, Fleming P, Virasami A, Michel M, Sebire N, Costeloe K, et al. Interleukin-8 (CXCL8) production is a signatory T cell effector function of human newborn infants. Nat Med. 2014;20:1206-10 pubmed publisher
flow cytometry; human	Payne T, Blackinton J, Frisbee A, Pickeral J, Sawant S, Vandergrift N, et al. Transcriptional and posttranscriptional regulation of cytokine gene expression in HIV-1 antigen-specific CD8+ T cells that mediate virus inhibition. J Virol. 2014;88:9514-28 pubmed publisher
flow cytometry; human; loading ...; fig 1	Chang S, Kohrt H, Maecker H. Monitoring the immune competence of cancer patients to predict outcome. Cancer Immunol Immunother. 2014;63:713-9 pubmed publisher
flow cytometry; human	Galindo Albarrán A, Ramirez Pliego O, Labastida Conde R, Melchy Pérez E, Liquitaya Montiel A, Esquivel Guadarrama F, et al. CD43 signals prepare human T cells to receive cytokine differentiation signals. J Cell Physiol. 2014;229:172-80 pubmed
	Rodriguez Salazar C, Recalde Reyes D, Bedoya J, Padilla Sanabria L, Castaño Osorio J, Giraldo M. In Vitro Inhibition of Replication of Dengue Virus Serotypes 1-4 by siRNAs Bound to Non-Toxic Liposomes. Viruses. 2022;14: pubmed publisher
	Wang D, Fang J, Wen S, Li Q, Wang J, Yang L, et al. A comprehensive profile of TCF1+ progenitor and TCF1- terminally exhausted PD-1+CD8+ T cells in head and neck squamous cell carcinoma: implications for prognosis and immunotherapy. Int J Oral Sci. 2022;14:8 pubmed publisher
	Stensland Z, Coleman B, Rihanek M, Baxter R, Gottlieb P, Hsieh E, et al. Peripheral immunophenotyping of AITD subjects reveals alterations in immune cells in pediatric vs adult-onset AITD. iScience. 2022;25:103626 pubmed publisher
	Peeters M, Aehnlich P, Pizzella A, Mølgaard K, Seremet T, Met O, et al. Mitochondrial-Linked De Novo Pyrimidine Biosynthesis Dictates Human T-Cell Proliferation but Not Expression of Effector Molecules. Front Immunol. 2021;12:718863 pubmed publisher
	Sordo Bahamonde C, Lorenzo Herrero S, Gonz xe1 lez Rodr xed guez A, Payer x, Gonz xe1 lez Garc xed a E, L xf3 pez Soto A, et al. LAG-3 Blockade with Relatlimab (BMS-986016) Restores Anti-Leukemic Responses in Chronic Lymphocytic Leukemia. Cancers (Basel). 2021;13: pubmed publisher
	Anna F, Bole Richard E, Lemaoult J, Escande M, Lecomte M, Certoux J, et al. First immunotherapeutic CAR-T cells against the immune checkpoint protein HLA-G. J Immunother Cancer. 2021;9: pubmed publisher
	Cribbs A, Filippakopoulos P, Philpott M, Wells G, Penn H, Oerum H, et al. Dissecting the Role of BET Bromodomain Proteins BRD2 and BRD4 in Human NK Cell Function. Front Immunol. 2021;12:626255 pubmed publisher
	Macmillan M, Hippen K, McKenna D, Kadidlo D, Sumstad D, DeFor T, et al. First-in-human phase 1 trial of induced regulatory T cells for graft-versus-host disease prophylaxis in HLA-matched siblings. Blood Adv. 2021;5:1425-1436 pubmed publisher
	Hwang H, Lee J, Kang S, Suh J, Choi E, Jang S, et al. The BTLA and PD-1 signaling pathways independently regulate the proliferation and cytotoxicity of human peripheral blood γδ T cells. Immun Inflamm Dis. 2021;9:274-287 pubmed publisher
	Law J, Koh W, Budylowski P, Lin J, Yue F, Abe K, et al. Systematic Examination of Antigen-Specific Recall T Cell Responses to SARS-CoV-2 versus Influenza Virus Reveals a Distinct Inflammatory Profile. J Immunol. 2021;206:37-50 pubmed publisher
	Pompura S, Wagner A, Kitz A, LaPerche J, Yosef N, Dominguez Villar M, et al. Oleic acid restores suppressive defects in tissue-resident FOXP3 Tregs from patients with multiple sclerosis. J Clin Invest. 2021;131: pubmed publisher
	Kameda M, Otsuka M, Chiba H, Kuronuma K, Hasegawa T, Takahashi H. CXCL9, CXCL10, and CXCL11; biomarkers of pulmonary inflammation associated with autoimmunity in patients with collagen vascular diseases-associated interstitial lung disease and interstitial pneumonia with autoimmune features. PLoS ONE. 2020;15:e0241719 pubmed publisher
	Li H, Wu H, Guo Q, Yu H, Xu Y, Yu J, et al. Myeloid-Derived Suppressor Cells Promote the Progression of Primary Membranous Nephropathy by Enhancing Th17 Response. Front Immunol. 2020;11:1777 pubmed publisher
	Jilg N, García Broncano P, Peluso M, Segal F, Bosch R, Roberts Toler C, et al. Maintenance of Viral Suppression in Human Immunodeficiency Virus Controllers Despite Waning T-Cell Responses During Antiretroviral Therapy. J Infect Dis. 2020;222:1837-1842 pubmed publisher
	Matthias J, Heink S, Picard F, Zeiträg J, Kolz A, Chao Y, et al. Salt generates antiinflammatory Th17 cells but amplifies pathogenicity in proinflammatory cytokine microenvironments. J Clin Invest. 2020;130:4587-4600 pubmed publisher
	Bobardt M, Kuo J, Chatterji U, Wiedemann N, Vuagniaux G, Gallay P. The inhibitor of apoptosis proteins antagonist Debio 1143 promotes the PD-1 blockade-mediated HIV load reduction in blood and tissues of humanized mice. PLoS ONE. 2020;15:e0227715 pubmed publisher
	Walk J, Sauerwein R. Activatory Receptor NKp30 Predicts NK Cell Activation During Controlled Human Malaria Infection. Front Immunol. 2019;10:2864 pubmed publisher
	Stras S, Werner L, Toothaker J, Olaloye O, Oldham A, McCourt C, et al. Maturation of the Human Intestinal Immune System Occurs Early in Fetal Development. Dev Cell. 2019;51:357-373.e5 pubmed publisher
	Park J, Park H, Son J, Ha S, Cho H. Structural Study of Monomethyl Fumarate-Bound Human GAPDH. Mol Cells. 2019;42:597-603 pubmed publisher
	Salerno F, Freen van Heeren J, Guislain A, Nicolet B, Wolkers M. Costimulation through TLR2 Drives Polyfunctional CD8+ T Cell Responses. J Immunol. 2019;202:714-723 pubmed publisher
	Wang W, Marinis J, Beal A, Savadkar S, Wu Y, Khan M, et al. RIP1 Kinase Drives Macrophage-Mediated Adaptive Immune Tolerance in Pancreatic Cancer. Cancer Cell. 2018;34:757-774.e7 pubmed publisher
	Chang Z, Lorenzini M, Chen X, Tran U, Bangayan N, Chen Y. Rewiring T-cell responses to soluble factors with chimeric antigen receptors. Nat Chem Biol. 2018;14:317-324 pubmed publisher
	Willing A, Jäger J, Reinhardt S, Kursawe N, Friese M. Production of IL-17 by MAIT Cells Is Increased in Multiple Sclerosis and Is Associated with IL-7 Receptor Expression. J Immunol. 2018;200:974-982 pubmed publisher
	Alroqi F, Charbonnier L, Keles S, Ghandour F, Mouawad P, Sabouneh R, et al. DOCK8 Deficiency Presenting as an IPEX-Like Disorder. J Clin Immunol. 2017;37:811-819 pubmed publisher
	Olson B, Gamat M, Seliski J, Sawicki T, Jeffery J, Ellis L, et al. Prostate Cancer Cells Express More Androgen Receptor (AR) Following Androgen Deprivation, Improving Recognition by AR-Specific T Cells. Cancer Immunol Res. 2017;5:1074-1085 pubmed publisher
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	Martins M, Shin Y, Gonzalez Nieto L, Domingues A, Gutman M, Maxwell H, et al. Vaccine-induced immune responses against both Gag and Env improve control of simian immunodeficiency virus replication in rectally challenged rhesus macaques. PLoS Pathog. 2017;13:e1006529 pubmed publisher
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product information

Antigen :

IFN-gamma

Apps. Abbrev. :

ELISA, WB, ICFC

Cat # :

502501

Clone :

4S.B3

Item :

Purified anti-human IFN-γ

Isotype :

Mouse IgG1, κ

Other Names :

Interferon-γ, Immune interferon, Type II interferon, T cell interferon, Macrophage-activating factor (MAF), IFN-g, IFN-gamma

Size :

50 μg

Price (USD) :

83 USD

Reactivity :

Human

Clonality :

Monoclonal

Host :

Mouse

Conjugate/Tag/Label :

PURE

Immunogen :

Partially purified, native human IFN-γ

Application Notes :

ELISA or ELISPOT Detection^5: The biotinylated 4S.B3 antibody is useful as a detection antibody for a sandwich ELISA or ELISPOT assay, when used in conjunction with purified NIB42 antibody (Cat. No. 502402/502404) or purified MD-1 antibody (Cat. No. 507502/507513) as the capture antibody.Flow Cytometry^3,4,6-8: The fluorochrome-labeled 4S.B3 antibody is useful for intracellular immunofluorescent staining and flow cytometric analysis to identify IFN-γ -producing cells within mixed cell populations.Additional reported applications (for the relevant formats) include: neutralization^1,2, Western blotting, immunohistochemical staining of paraformaldehyde-fixed, saponin-treated tissue sections, and immunocytochemistry. The 4S.B3 antibody can neutralize the bioactivity of natural or recombinant IFN-γ.Note: For testing human IFN-γ in serum or plasma, BioLegend's ELISA Max™ Sets (Cat. No. 430101 to 430106) are specially developed and recommended.;

more info or order :

BioLegend product webpage