GeneBio Systems
IGF1 ELISA kit (Rat)
IGF1 ELISA kit (Rat)
SKU:SEA050Ra
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Size: 96Tests
# of Times Cited in literature: 26
Prepare Time: 1-3 days(please inquire for mutiple units)
Target Name: IGF1
Target Full Name: Insulin Like Growth Factor 1
Alternative Names: IGFI; IGF1A; IBP1; MGF; Somatomedin C; Mechano Growth Gactor
Target Species: Rat
Uniprot: P08025
Gene ID: 24482
Featured Series: SE kit
Featured Series Function: Detects protein (regular version)
Specificity: Reactive with Rat IGF1 / Insulin Like Growth Factor 1
Method: Colormetric
Detection principle: Double-antibody Sandwich
Detection range: 0.156-10ng/mL
Sensitivity: 0.065ng/mL
Assay Time: 3h
Sample Size: 100uL
Recommended/Predicted Sample Types: Serum, Plasma, Tissue Homogenates, Cell Lysates, Cell Culture Supernates and other Biological Fluids
Assay Precision: Intra-Assay: CV<10%, Inter-Assay: CV<12%
Reproducibility test menthod: Intra-assay Precision (Precision within an assay): 3 samples with low, middle and high level Insulin Like Growth Factor 1 (IGF1) were tested 20 times on one plate, respectively. Inter-assay Precision (Precision between assays): 3 samples with low, middle and high level Insulin Like Growth Factor 1 (IGF1) were tested on 3 different plates, 8 replicates in each plate. CV(%) = SD/meanX100
Storage: 4°C for 1 month/ -20°C for long-term(One year within shelf life)
Shelf-life: 12 months
Specificity: This assay has high sensitivity and excellent specificity for detection of Insulin Like Growth Factor 1 (IGF1). No significant cross-reactivity or interference between Insulin Like Growth Factor 1 (IGF1) and analogues was observed.
Stability: The stability of kit is determined by the loss rate of activity. The loss rate of this kit is less than 5% within the expiration date under appropriate storage condition. To minimize extra influence on the performance, operation procedures and lab conditions, especially room temperature, air humidity, incubator temperature should be strictly controlled. It is also strongly suggested that the whole assay is performed by the same operator from the beginning to the end.
Assay procedure summary: 1. Prepare all reagents, samples and standards; 2. Add 100µL standard or sample to each well. Incubate 1 hours at 37°C; 3. Aspirate and add 100µL prepared Detection Reagent A. Incubate 1 hour at 37°C; 4. Aspirate and wash 3 times; 5. Add 100µL prepared Detection Reagent B. Incubate 30 minutes at 37°C; 6. Aspirate and wash 5 times; 7. Add 90µL Substrate Solution. Incubate 10-20 minutes at 37°C; 8. Add 50µL Stop Solution. Read at 450nm immediately.
Test principle: The test principle applied in this kit is Sandwich enzyme immunoassay. The microtiter plate provided in this kit has been pre-coated with an antibody specific to Insulin Like Growth Factor 1 (IGF1). Standards or samples are then added to the appropriate microtiter plate wells with a biotin-conjugated antibody specific to Insulin Like Growth Factor 1 (IGF1). Next, Avidin conjugated to Horseradish Peroxidase (HRP) is added to each microplate well and incubated. After TMB substrate solution is added, only those wells that contain Insulin Like Growth Factor 1 (IGF1), biotin-conjugated antibody and enzyme-conjugated Avidin will exhibit a change in color. The enzyme-substrate reaction is terminated by the addition of sulphuric acid solution and the color change is measured spectrophotometrically at a wavelength of 450nm ± 10nm. The concentration of Insulin Like Growth Factor 1 (IGF1) in the samples is then determined by comparing the O.D. of the samples to the standard curve.
Research Area: Tumor immunity;Endocrinology;
References Citing This Product: A microarray gene analysis of peripheral whole blood in normal adult male rats after long-term GH gene therapy
Characterization of the specific and sustained GH1 expression induced by rAAV2/1 in normal adult male rats
The vagus nerve as a regulator of growth hormone secretion
Insulin-Like Growth Factor-1 (IGF-1) Reduces Ischemic Changes and Increases Circulating Angiogenic Factors in Experimentally - Induced Myocardial Infarction in Rats
Physical activity attenuates intermittent hypoxia-induced spatial learning deficits and oxidative stress.
The influence of nutrients, biliary-pancreatic secretions, and systemic trophic hormones on intestinal adaptation in a Roux-en-Y bypass model
Insulin Like Growth Factor-1 (IGF-1) Causes Overproduction of IL-8, an Angiogenic Cytokine and Stimulates Neovascularization in Isoproterenol-Induced Myocardial Infarction in Rats
Protective Effect of Amlodipine on Rat Bone Tissue after Orchidectomy
BMSCs reduce rat granulosa cell apoptosis induced by cisplatin and perimenopause
The effects of long-term exposure to a 2450 MHz electromagnetic field on growth and pubertal development in female Wistar rats
Negative Energy Balance Induced by Paradoxical Sleep Deprivation Causes Multicompartmental Changes in Adipose Tissue and Skeletal Muscle
The effect of topiramate and lamotrigine on rat bone mass, structure and metabolism.
Effects of Resveratrol on Ovarian Morphology, Plasma Anti-Mullerian Hormone, IGF-1 Levels, and Oxidative Stress Parameters in a Rat Model of Polycystic Ovary Syndrome
Effects of sericin on the testicular growth hormone/insulin-like growth factor-1 axis in a rat model of type 2 diabetes
The Protective Effects of Exclusive Enteral Nutrition Formulas on Growth Factor Expression and the Proximal Tibial Epiphyseal Growth Plate in a TNBS-Induced IBD Rat Model
Protective effect of vitamin D against hyperoxia‐induced lung injury in newborn rats
A single bout of resistance exercise improves memory consolidation and increases the expression of synaptic proteins in the hippocampus
Paradoxical Sleep Deprivation Causes Cardiac Dysfunction and the Impairment Is Attenuated by Resistance Training.
Chronic intermittent hypoxia disturbs insulin secretion and causes pancreatic injury via theMAPK signaling pathway.
Resistance Exercise Reduces Seizure Occurrence, Attenuates Memory Deficits and Restores BDNF Signaling in Rats with Chronic Epilepsy
Resistance Exercise Reduces Seizure Occurrence, Attenuates Memory Deficits and Restores BDNF Signaling in Rats with Chronic Epilepsy
