AB119557
Mouse TGF beta 1 ELISA Kit
5
(5 Reviews)
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(75 Publications)
Mouse TGF beta 1 ELISA Kit is a sandwich ELISA designed to quantify Mouse TGF beta 1 with a sensitivity of 7.8 pg/mL.
- Colorimetric sandwich ELISA - 450 nm readout - works on any plate reader
- Wide dynamic range - quantifies 31.3 - 2000 pg/mL
- Cited in over 60 publications
View Alternative Names
Transforming growth factor beta-1 proprotein, Tgfb1
3 Images
- sELISA
Unknown
Sandwich ELISA - Mouse TGF beta 1 ELISA Kit (AB119557)
Standard curve of Ms TGFb, with background signal subtracted (duplicates; +/- SD).
- sELISA
Unknown
Sandwich ELISA - Mouse TGF beta 1 ELISA Kit (AB119557)
Mouse TGFb measured in activated biological fluids, background signal subtracted (duplicates +/- SD). * Samples without activation.
- sELISA
Supplier Data
Sandwich ELISA - Mouse TGF beta 1 ELISA Kit (AB119557)
Representative Standard Curve using ab119557.
Complementary Products
Reactivity data
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Product details
Mouse TGF beta 1 ELISA Kit ab119557 is a sandwich ELISA to measure Mouse TGF beta 1 in serum, plasma, cell culture supernatant with a sensitivity of 7.8 pg/ml.
How the assay works
Mouse TGF beta 1 specific antibodies have been precoated onto 96-well plates. Standards and test samples are added to the wells and then incubated at room temperature. After washing, a Biotin-conjugated anti-Mouse TGF beta 1 detection antibody is added then incubated at room temperature. Following washing Streptavidin-HRP conjugate is added to each well, incubated at room temperature then again washed. TMB is added and then catalyzed by HRP to produce a blue color product that changes into yellow after the addition of an acidic stop solution. The density of yellow coloration is directly proportional to the amount of Mouse TGF beta 1 captured on the plate
Assay Specificity
Our ELISA kits are rigorously validated to ensure the highest level of consistency and reproducibility. Please check the protocol booklet for more details
Mouse TGF beta 1 ELISA Kit ab119557 protocol summary
1. Add standard or sample to appropriate wells. Incubate the plate
2. Wash and add Biotinylated mouse anti-TGF beta 1 monoclonal antibody to appropriate wells. Incubate the plate.
3. Wash and add prepared Streptavidin-HRP Conjugate to appropriate wells. Incubate at room temperature
4. Wash and add TMB Substrate to each well
5. Add Stop Solution to each well. Read immediately
How the assay works
Mouse TGF beta 1 specific antibodies have been precoated onto 96-well plates. Standards and test samples are added to the wells and then incubated at room temperature. After washing, a Biotin-conjugated anti-Mouse TGF beta 1 detection antibody is added then incubated at room temperature. Following washing Streptavidin-HRP conjugate is added to each well, incubated at room temperature then again washed. TMB is added and then catalyzed by HRP to produce a blue color product that changes into yellow after the addition of an acidic stop solution. The density of yellow coloration is directly proportional to the amount of Mouse TGF beta 1 captured on the plate
Assay Specificity
Our ELISA kits are rigorously validated to ensure the highest level of consistency and reproducibility. Please check the protocol booklet for more details
Mouse TGF beta 1 ELISA Kit ab119557 protocol summary
1. Add standard or sample to appropriate wells. Incubate the plate
2. Wash and add Biotinylated mouse anti-TGF beta 1 monoclonal antibody to appropriate wells. Incubate the plate.
3. Wash and add prepared Streptavidin-HRP Conjugate to appropriate wells. Incubate at room temperature
4. Wash and add TMB Substrate to each well
5. Add Stop Solution to each well. Read immediately
Precision
[ { "reproducibilityType": "Inter", "sample": "Overall", "replicates": 4, "mean": null, "standardDeviation": null, "coefficientOfVariability": "5.8" }, { "reproducibilityType": "Intra", "sample": "Overall", "replicates": 4, "mean": null, "standardDeviation": null, "coefficientOfVariability": "7.9" } ]
Recovery
[ { "sample": "Cell culture supernatant", "range": "124 - 141 %", "average": null }, { "sample": "Serum", "range": "92 - 103 %", "average": null } ]
What's included?
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Properties and storage information
Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
+4°C
Appropriate long-term storage conditions
+4°C
Storage information
+4°C
Product protocols
- Visit the General protocols
- Visit the Troubleshooting
- Download websiteProtocolBooklet|en
Target data
Transforming growth factor beta-1 proprotein : Precursor of the Latency-associated peptide (LAP) and Transforming growth factor beta-1 (TGF-beta-1) chains, which constitute the regulatory and active subunit of TGF-beta-1, respectively.. Latency-associated peptide. Required to maintain the Transforming growth factor beta-1 (TGF-beta-1) chain in a latent state during storage in extracellular matrix (PubMed : 29909984). Associates non-covalently with TGF-beta-1 and regulates its activation via interaction with 'milieu molecules', such as LTBP1, LRRC32/GARP and LRRC33/NRROS, that control activation of TGF-beta-1 (PubMed : 29909984). Interaction with LRRC33/NRROS regulates activation of TGF-beta-1 in macrophages and microglia (PubMed : 29909984). Interaction with LRRC32/GARP controls activation of TGF-beta-1 on the surface of activated regulatory T-cells (Tregs) (By similarity). Interaction with integrins (ITGAV : ITGB6 or ITGAV : ITGB8) results in distortion of the Latency-associated peptide chain and subsequent release of the active TGF-beta-1 (PubMed : 10025398).. Transforming growth factor beta-1. Multifunctional protein that regulates the growth and differentiation of various cell types and is involved in various processes, such as normal development, immune function, microglia function and responses to neurodegeneration (PubMed : 22781750, PubMed : 29909984). Activation into mature form follows different steps : following cleavage of the proprotein in the Golgi apparatus, Latency-associated peptide (LAP) and Transforming growth factor beta-1 (TGF-beta-1) chains remain non-covalently linked rendering TGF-beta-1 inactive during storage in extracellular matrix (By similarity). At the same time, LAP chain interacts with 'milieu molecules', such as LTBP1, LRRC32/GARP and LRRC33/NRROS that control activation of TGF-beta-1 and maintain it in a latent state during storage in extracellular milieus (PubMed : 29909984). TGF-beta-1 is released from LAP by integrins (ITGAV : ITGB6 or ITGAV : ITGB8) : integrin-binding to LAP stabilizes an alternative conformation of the LAP bowtie tail and results in distortion of the LAP chain and subsequent release of the active TGF-beta-1 (By similarity) (PubMed : 10025398). Once activated following release of LAP, TGF-beta-1 acts by binding to TGF-beta receptors (TGFBR1 and TGFBR2), which transduce signal (By similarity). While expressed by many cells types, TGF-beta-1 only has a very localized range of action within cell environment thanks to fine regulation of its activation by Latency-associated peptide chain (LAP) and 'milieu molecules' (PubMed : 29909984). Plays an important role in bone remodeling : acts as a potent stimulator of osteoblastic bone formation, causing chemotaxis, proliferation and differentiation in committed osteoblasts (PubMed : 22781750). Can promote either T-helper 17 cells (Th17) or regulatory T-cells (Treg) lineage differentiation in a concentration-dependent manner (PubMed : 18368049). At high concentrations, leads to FOXP3-mediated suppression of RORC and down-regulation of IL-17 expression, favoring Treg cell development (PubMed : 18368049). At low concentrations in concert with IL-6 and IL-21, leads to expression of the IL-17 and IL-23 receptors, favoring differentiation to Th17 cells (PubMed : 18368049). Stimulates sustained production of collagen through the activation of CREB3L1 by regulated intramembrane proteolysis (RIP) (By similarity). Mediates SMAD2/3 activation by inducing its phosphorylation and subsequent translocation to the nucleus. Positively regulates odontoblastic differentiation in dental papilla cells, via promotion of IPO7-mediated translocation of phosphorylated SMAD2 to the nucleus and subsequent transcription of target genes (PubMed : 33548622). Can induce epithelial-to-mesenchymal transition (EMT) and cell migration in various cell types (By similarity).
Publications (75)
Recent publications for all applications. Explore the full list and refine your search
Chemical biology & drug design 105:e70142 PubMed40556500
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Apelin-13 Protects Against Airway Inflammation, Oxidative Stress, and Epithelial-Mesenchymal Transition in a Chronic Asthma Model.
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Huifeng Sun,Ai Wang,Nan Shi
Genes 16: PubMed40282416
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IL-6 Affects Liver Metabolic Abnormalities Caused by Silicon Exposure by Regulating the PKC/YY1 Signaling Pathway.
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Hui Zhao,Huihui Tao,Jian Gao,Jingjing Wang,Guangliang Hui,Ye Zhu,Jialin Wang,Xuansheng Ding,Yong Dai
Molecular medicine (Cambridge, Mass.) 31:92 PubMed40069590
2025
PKN2 enhances the immunosuppressive activity of polymorphonuclear myeloid-derived suppressor cells in esophageal carcinoma by mediating fatty acid oxidation.
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Xiao Fu,GuoQing Zhang,ZhiChao Hou,TingTing Fu,GuangHui Cui
Nutrients 17: PubMed39861396
2025
Polyphenolic Hispolon Derived from Medicinal Mushrooms of the and Genera Promotes Wound Healing in Hyperglycemia-Induced Impairments.
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Yi-Shan Liu,Mei-Chou Lai,Yu-Cheng Tzeng,I-Min Liu
Cell biology and toxicology 41:33 PubMed39825191
2025
Deciphering SPP1-related macrophage signaling in the pathogenesis of intervertebral disc degeneration.
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Xiao-Jun Yu,Peng Zou,Tian-Qi Li,Xiao-Fan Bai,Shan-Xi Wang,Jian-Bin Guan,Yuan-Ting Zhao,Meng-Wei Li,Xiaodong Wang,Ying-Guang Wang,Ding-Jun Hao
Nature communications 15:10312 PubMed39609412
2024
Human single cell RNA-sequencing reveals a targetable CD8 exhausted T cell population that maintains mouse low-grade glioma growth.
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Rasha Barakat,Jit Chatterjee,Rui Mu,Xuanhe Qi,Xingxing Gu,Igor Smirnov,Olivia Cobb,Karen Gao,Angelica Barnes,Jonathan Kipnis,David H Gutmann
Heliyon 10:e38220 PubMed39498080
2024
Novel mechanisms of intestinal flora regulation in high-altitude hypoxia.
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Fang Yan,Wen-Qiang Yuan,Shi-Min Wu,Yun-Han Yang,De-Jun Cui
Molecular neurodegeneration 19:80 PubMed39456006
2024
Repetitive transcranial magnetic stimulation alleviates motor impairment in Parkinson's disease: association with peripheral inflammatory regulatory T-cells and SYT6.
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Fen Xie,Bibiao Shen,Yuqi Luo,Hang Zhou,Zhenchao Xie,Shuzhen Zhu,Xiaobo Wei,Zihan Chang,Zhaohua Zhu,Changhai Ding,Kunlin Jin,Chengwu Yang,Lucia Batzu,K Ray Chaudhuri,Ling-Ling Chan,Eng-King Tan,Qing Wang
Diabetes, obesity & metabolism 27:40-53 PubMed39344841
2024
Analysing the influence of dapagliflozin on urinary tract infection vulnerability and kidney injury in mice infected with uropathogenic Escherichia coli.
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Kristin Salamon,Sarah Linn-Peirano,Aaron Simoni,Juan de Dios Ruiz-Rosado,Brian Becknell,Preeti John,Laura Schwartz,John David Spencer
Cell and tissue banking 25:805-830 PubMed38844606
2024
Effects of nanographene oxide on adipose-derived stem cell cryopreservation.
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Zifei Li,Jun Qi,Su Fu,Jie Luan,Qian Wang
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