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AB100695

Mouse IGF1 ELISA Kit

4

(1 Review)

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(40 Publications)

Mouse IGF1 ELISA Kit is a sandwich ELISA designed to quantify Mouse IGF1 with a sensitivity of 4 pg/mL.

- Colorimetric sandwich ELISA - 450 nm readout - works on any plate reader
- Wide dynamic range - quantifies 2.74 - 2000 pg/mL
- Cited in over 30 publications

View Alternative Names

Igf-1, Igf1, Insulin-like growth factor 1, Insulin-like growth factor I, Somatomedin, IGF-I

4 Images
Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)
  • sELISA

Lab

Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)

Mouse IGF1 standard curve : mean of duplicates (+/- SD), performed in Diluent A

Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)
  • sELISA

Lab

Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)

Mouse IGF1 measured in biological fluids showing quantity (pg) per mL of tested sample. Samples diluted 500-4500 fold.

Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)
  • sELISA

Supplier Data

Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)

Representative Standard Curve using ab100695

Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)
  • sELISA

Supplier Data

Sandwich ELISA - Mouse IGF1 ELISA Kit (AB100695)

Representative Standard Curve using ab100695

Key facts

Detection method

Colorimetric

Sample types

Tissue Lysate, Plasma, Cell culture supernatant, Serum

Reacts with

Mouse

Assay type

Sandwich

Results type

Quantitative

Sensitivity

< 4 pg/mL

Range

2.74 - 2000 pg/mL

Assay Platform

Microplate

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Reactivity", "Dilution Info", "Notes"] }, "values": { "sELISA": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" } } }
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Product details

Mouse IGF1 ELISA Kit ab100695 is a sandwich ELISA to measure Mouse IGF1 in serum, plasma, cell culture supernatant, tissue lysate with a sensitivity of 4 pg/ml.

How the assay works

This assay employs an antibody specific for mouse IGF1 coated on a 96- well plate. Standards and samples are pipetted into the wells and IGF1 present in a sample is bound to the wells by the immobilized antibody. The wells are washed and biotinylated anti-mouse IGF1 antibody is added. After washing away unbound biotinylated antibody, HRP-conjugated streptavidin is pipetted to the wells. The wells are again washed, a TMB substrate solution is added to the wells and color develops in proportion to the amount of IGF1 bound. The Stop Solution changes the color from blue to yellow, and the intensity of the color is measured at 450 nm.

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 IGF1 ELISA Kit ab100695 protocol summary

1. Add standard or sample to each well used. Incubate at room temperature
2. Wash and add prepared biotinylated antibody to each well. Incubate at room temperature.
3. Wash and add prepared streptavidin solution. Incubate at room temperature.
4. Add TMB Development Solution to each well. Incubate at room temperature.
5. Add Stop Solution to each well. Read at 450nm immediately.
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Recovery

[ { "sample": "Cell culture supernatant", "range": "72 - 99 %", "average": "= 86.4" }, { "sample": "Serum", "range": "85 - 117 %", "average": "= 101.2" }, { "sample": "Plasma", "range": "85 - 114 %", "average": "= 106.6" } ]
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What's included?

{ "values": { "1x96Tests": { "sellingSize": "1 x 96 Tests", "publicAssetCode":"ab100695-1x96Tests", "assetComponentDetails": [ { "size":"1 x 25 mL", "name":"20X Wash Buffer", "number":"AB100695-CMP01", "productcode":"" }, { "size":"1 x 8 mL", "name":"Stop Solution", "number":"AB100695-CMP05", "productcode":"" }, { "size":"1 x 15 mL", "name":"5X Assay Diluent B", "number":"AB100695-CMP04", "productcode":"" }, { "size":"1 x 12 mL", "name":"TMB One-Step Substrate Reagent", "number":"AB100695-CMP08", "productcode":"" }, { "size":"2 x 1 Vial", "name":"Recombinant Mouse IGF1 Standard (lyophilized)", "number":"AB100695-CMP07", "productcode":"" }, { "size":"2 x 1 Vial", "name":"Biotinylated anti-Mouse IGF1", "number":"AB100695-CMP09", "productcode":"" }, { "size":"1 x 30 mL", "name":"Assay Diluent A", "number":"AB100695-CMP03", "productcode":"" }, { "size":"1 x 200 µL", "name":"200X HRP-Streptavidin Concentrate", "number":"AB100695-CMP02", "productcode":"" }, { "size":"1 x 1 Unit", "name":"IGF1 Microplate (12 x 8 wells)", "number":"AB100695-CMP06", "productcode":"" } ] } } }
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Properties and storage information

Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
-20°C
Appropriate long-term storage conditions
-20°C
Storage information
-20°C
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Supplementary information

This supplementary information is collated from multiple sources and compiled automatically.

The insulin-like growth factor 1 or IGF1 is a protein hormone that plays an important mechanical role in growth and development. Alternative names for IGF1 include somatomedin C. This protein has a mass of approximately 7.6 kDa and is mainly produced by the liver. IGF1 is expressed in a range of tissues including muscle bone and cartilage reflecting its importance in various physiological processes. Its production is stimulated by growth hormone and it acts in an autocrine and paracrine manner to exert its effects.
Biological function summary

IGF1 stimulates growth and proliferation of cells most notably impacting the development of the skeletal system and the regulation of apoptosis. It is not part of a larger protein complex but it interacts closely with IGF1 receptor to execute its functions. By binding to this receptor IGF1 activates intracellular signaling cascades that promote anabolic effects which include increased uptake of glucose and amino acids contributing to muscle and tissue growth.

Pathways

IGF1 operates within the PI3K-Akt and MAPK signaling pathways which are significant for cell survival and proliferation. Its interaction with proteins like IGF binding protein 3 (IGFBP3) modulates its availability and activity in the bloodstream. These pathways are critical for mediating the effects of growth hormone highlighting the role of IGF1 in systemic growth and metabolism regulation.

Alterations in IGF1 levels associate with growth abnormalities such as Laron syndrome and acromegaly. Laron syndrome results from the body's inability to use IGF1 properly due to receptor defects while acromegaly occurs from excessive IGF1 production often due to pituitary tumors. Furthermore aberrant IGF1 signaling connects to cancer development where it can drive tumor growth and metastasis. Drugs targeting IGF1 and its pathway components continue to be researched for therapeutic potential in these conditions.
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Product protocols

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Target data

The insulin-like growth factors, isolated from plasma, are structurally and functionally related to insulin but have a much higher growth-promoting activity. May be a physiological regulator of [1-14C]-2-deoxy-D-glucose (2DG) transport and glycogen synthesis in osteoblasts. Stimulates glucose transport in bone-derived osteoblastic (PyMS) cells and is effective at much lower concentrations than insulin, not only regarding glycogen and DNA synthesis but also with regard to enhancing glucose uptake. May play a role in synapse maturation (By similarity). Ca(2+)-dependent exocytosis of IGF1 is required for sensory perception of smell in the olfactory bulb (PubMed : 21496647). Acts as a ligand for IGF1R. Binds to the alpha subunit of IGF1R, leading to the activation of the intrinsic tyrosine kinase activity which autophosphorylates tyrosine residues in the beta subunit thus initiating a cascade of down-stream signaling events leading to activation of the PI3K-AKT/PKB and the Ras-MAPK pathways. Binds to integrins ITGAV : ITGB3 and ITGA6 : ITGB4. Its binding to integrins and subsequent ternary complex formation with integrins and IGFR1 are essential for IGF1 signaling. Induces the phosphorylation and activation of IGFR1, MAPK3/ERK1, MAPK1/ERK2 and AKT1 (By similarity). As part of the MAPK/ERK signaling pathway, acts as a negative regulator of apoptosis in cardiomyocytes via promotion of STUB1/CHIP-mediated ubiquitination and degradation of ICER-type isoforms of CREM (By similarity).
See full target information Igf1
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Publications (40)

Recent publications for all applications. Explore the full list and refine your search

Theranostics 15:6516-6533 PubMed40521210

2025

Loss of in Pancreatic Adenocarcinoma Reversed the Tumor-Promoting Effects of a High-Fat Diet.

Applications

Unspecified application

Species

Unspecified reactive species

Sang Myung Woo,Ho Lee,Joon Hee Kang,Mingyu Kang,Wonyoung Choi,Sung Hoon Sim,Jung Won Chun,Nayoung Han,Kyung-Hee Kim,Woojin Ham,Woosol Hong,Chaeyoung Kim,Jeong Hwan Park,Dawool Han,Jong In Yook,Woo Jin Lee,Soo-Youl Kim

Life science alliance 7: PubMed39043420

2024

Late-life dietary folate restriction reduces biosynthesis without compromising healthspan in mice.

Applications

Unspecified application

Species

Unspecified reactive species

Heidi M Blank,Staci E Hammer,Laurel Boatright,Courtney Roberts,Katarina E Heyden,Aravindh Nagarajan,Mitsuhiro Tsuchiya,Marcel Brun,Charles D Johnson,Patrick J Stover,Raquel Sitcheran,Brian K Kennedy,L Garry Adams,Matt Kaeberlein,Martha S Field,David W Threadgill,Helene L Andrews-Polymenis,Michael Polymenis

iScience 27:110137 PubMed39006481

2024

Excess endocrine growth hormone in acromegaly promotes the aggressiveness and metastasis of triple-negative breast cancer.

Applications

Unspecified application

Species

Unspecified reactive species

Chan Woo Kang,Ju Hun Oh,Eun Kyung Wang,Yaru Bao,Ye Bin Kim,Min-Ho Lee,Yang Jong Lee,Young Seok Jo,Cheol Ryong Ku,Eun Jig Lee

Frontiers in cell and developmental biology 11:1269860 PubMed37908640

2023

Regulation of the somatotropic axis by MYC-mediated miRNA repression.

Applications

Unspecified application

Species

Unspecified reactive species

Anna P Petrashen,Andrew D Verdesca,Jill A Kreiling,John M Sedivy

JCI insight 8: PubMed37338990

2023

Osteoclast-derived IGF1 induces RANKL production in osteocytes and contributes to pagetic lesion formation.

Applications

Unspecified application

Species

Unspecified reactive species

Kazuaki Miyagawa,Hirofumi Tenshin,Patrick L Mulcrone,Jesus Delgado-Calle,Mark A Subler,Jolene J Windle,John M Chirgwin,G David Roodman,Noriyoshi Kurihara

Brain, behavior, and immunity 110:348-364 PubMed36940752

2023

Schwann cell insulin-like growth factor receptor type-1 mediates metastatic bone cancer pain in mice.

Applications

Unspecified application

Species

Unspecified reactive species

Lorenzo Landini,Matilde Marini,Daniel Souza Monteiro de Araujo,Antonia Romitelli,Marco Montini,Valentina Albanese,Mustafa Titiz,Alessandro Innocenti,Francesca Bianchini,Pierangelo Geppetti,Romina Nassini,Francesco De Logu

Biomedicines 11: PubMed36979670

2023

Insulin-like Growth Factor-1 Prevents Hypoxia/Reoxygenation-Induced White Matter Injury in Sickle Cell Mice.

Applications

Unspecified application

Species

Unspecified reactive species

Rimi Hazra,Holland Hubert,Lynda Little-Ihrig,Samit Ghosh,Solomon Ofori-Acquah,Xiaoming Hu,Enrico M Novelli

Nature communications 13:1897 PubMed35393401

2022

FGF21 is required for protein restriction to extend lifespan and improve metabolic health in male mice.

Applications

Unspecified application

Species

Unspecified reactive species

Cristal M Hill,Diana C Albarado,Lucia G Coco,Redin A Spann,Md Shahjalal Khan,Emily Qualls-Creekmore,David H Burk,Susan J Burke,J Jason Collier,Sangho Yu,David H McDougal,Hans-Rudolf Berthoud,Heike Münzberg,Andrzej Bartke,Christopher D Morrison

Scientific reports 12:5073 PubMed35332198

2022

Metabolic benefits of methionine restriction in adult mice do not require functional methionine sulfoxide reductase A (MsrA).

Applications

Unspecified application

Species

Unspecified reactive species

Kevin M Thyne,Adam B Salmon

Cell research 32:670-686 PubMed35296796

2022

Lepr mesenchymal cells sense diet to modulate intestinal stem/progenitor cells via Leptin-Igf1 axis.

Applications

Unspecified application

Species

Unspecified reactive species

Min Deng,Christian F Guerrero-Juarez,Xiaole Sheng,Jiuzhi Xu,Xi Wu,Kai Yao,Mengzhen Li,Xu Yang,Guilin Li,Jintao Xiao,Xiaowei Liu,Kaichun Wu,Fazheng Ren,Qing Nie,Maksim V Plikus,Zhengquan Yu,Cong Lv
View all publications
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