| Field | Specification |
|---|---|
| Mfr No | |
| Alternative Names | Interferon gamma|IFN-gamma|IFNG |
| Assay Time | |
| Detection Method | |
| Detection Range | |
| Product Type | |
| Reactivity | |
| Sample Type(s) | Serum, Plasma, Cell Culture Supernatant, cell or tissue lysate, Other liquid samples |
| Sensitivity | |
| Species | |
| Storage | |
| Target | |
| UniProt # |
Background
mouse IFN-γ (Interferon Gamma) is a molecular target commonly studied in immunology, signal transduction, and cardiovascular research. Many proteins are studied as molecular readouts that can change with cellular state, tissue remodeling, or stress responses.
Biological role and mechanism
The biological role of IFN-γ is typically understood in terms of its molecular category and interaction network. Depending on the model system, it may participate in cell–cell communication, intracellular signaling, enzymatic processing, or regulation of gene expression programs. Mechanistic interpretation is often strengthened by considering upstream regulators and downstream readouts rather than relying on a single marker.
Expression and abundance of IFN-γ can vary by tissue, cell type, and physiological state. In many systems, levels are influenced by factors such as developmental stage, immune activation, metabolic status, and cellular stress. Because sample matrix and pre-analytical handling can affect measured concentrations, interpretation is typically strongest when experiments keep collection and processing consistent across groups.
Nomenclature and related terms
IFN-γ (Interferon Gamma) may also be referenced as Interferon gamma, IFN-gamma, and IFNG in the literature or in databases. When comparing results across studies, confirm that the reported analyte refers to the same molecule, species context, and molecular form (e.g., precursor vs mature protein, or soluble vs membrane-associated forms).
Why it matters in research
- Understanding how IFN-γ relates to innate and adaptive immune responses, cytokine signaling networks, host–pathogen interactions, and immune cell activation and trafficking in immunology, signal transduction, and cardiovascular research.
- Interpreting shifts in IFN-γ levels alongside other pathway components or complementary markers.
- Connecting molecular changes to phenotypes such as inflammation, remodeling, metabolism shifts, or cell-state transitions (context-dependent).
Molecular forms and interpretation
For some targets, isoforms, proteolytic processing, or post-translational modifications (such as phosphorylation or glycosylation) can influence function and apparent abundance. If multiple molecular forms are expected in your model, align interpretation with the form most relevant to the biological question.
Disease and translational relevance
IFN-γ has been investigated across diverse physiological and disease contexts, and changes in its abundance have been reported in areas aligned with immunology, signal transduction, and cardiovascular studies. These associations are interpreted as research findings rather than diagnostic or therapeutic claims, and they should be evaluated alongside model-specific covariates and study design.
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Turning Waste into Wealth: A Potent Sono-Immune Strategy Based on Microcystis
IF: 27.4 Journal: Advanced Materials Author: Institute of Functional Nano & Soft Materials (FUNSOM), Jiangsu Key Laboratory for Carbon-Based Functional Materials & Devices, Soochow University, Suzhou, 215123, China. Cited Date: 2024-06-28
Carbon dots-mediated lysosomal iron sequestration for cancer immunostimulation
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Immunity/metabolism dual-regulation via an acidity-triggered bioorthogonal assembly nanoplatform enhances glioblastoma immunotherapy by targeting CXCL12/CXCR4 and adenosine-A2AR pathways
IF: 12.8 Journal: Biomaterials Author: Department of Radiology, The Second Affiliated Hospital, School of Medicine, South China University of Technology, Guangzhou 510180, PR China. Cited Date: 2025-03-07
Preparation and effects of functionalized liposomes targeting breast cancer tumors using chemotherapy, phototherapy, and immunotherapy
IF: 10.6 Journal: Journal of Nanobiotechnology Author: State Key Laboratory of Bioactive Substance and Function of Natural Medicines, Institute of Materia Medica, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing, 100050, China. Cited Date: 2024-09-20
Biomimetic nanomedicine cocktail enables selective cell targeting to enhance ovarian Cancer chemo- and immunotherapy
IF: 10.5 Journal: Journal of Controlled Release Author: Department of Pharmaceutics and Key Laboratory of Targeting Therapy and Diagnosis for Critical Diseases, School of Pharmaceutical Sciences, Zhengzhou University, Zhengzhou 450001, Henan, PR China. Cited Date: 2024-07-19
Epigenetic modification of CD4 T cells into Tregs by 5-azacytidine as cellular therapeutic for atherosclerosis treatment
IF: 8.1 Journal: Cell Death & Disease Author: Department of Cardiology, Shaanxi Provincial People's Hospital, Xi'an, Shaanxi, China. Cited Date: 2024-09-27
Alleviating Effects of Citrus Polymethoxyflavones on Autoimmune Thyroiditis via IL‐17 Signaling Pathway
IF: 7.4 Journal: Food Frontiers Author: Laboratory of Fruit Quality Biology/The State Agriculture Ministry Laboratory of Horticultural Plant Growth, Development and Quality Improvement, Fruit Science Institute, College of Agriculture and Biotechnology, Zhejiang University, Hangzhou, China Cited Date: 2025-06-13
Immunogenicity and protective efficacy of tuzin protein as a vaccine candidate in Leishmania donovani-infected BALB/c mice
IF: 7.3 Journal: Frontiers in Immunology Author: Department of Animal Biology, School of Life Sciences, University of Hyderabad, Hyderabad, India Cited Date: 2024-02-02
Self-Iron-Enriched Bacterial Membrane Nanovesicles for Cascade and Multi-Modal Antitumor Therapy
IF: 5.5 Journal: ACS Biomaterials Science & Engineering Author: Microbiome-X, School of Public Healt
