Abcam, ab178641, C-Peptide ELISA Kit

Size: 1 x 96Tests
C-Peptide ELISA Kit is a Sandwich (quantitative) ELISA for the measurement of C-Peptide in Human in Biofluids samples.
Key facts
Detection method:Colorimetric,
Sample types:Citrate plasma, Heparin Plasma, Serum,
Reacts with:Human,
Assay type:Sandwich (quantitative),
Sensitivity:= 0.01 ng/mL,
Range:0.7 - 1.9 ng/mL,
Assay Platform:Microplate

Product details:
C-peptide ELISA kit (ab178641) is designed for the accurate quantitative measurement of C-peptide in Human serum and plasma.
A 96-well plate has been precoated with Streptavidin. Samples, standards and the C-peptide HRP and Biotin conjugate are added to the wells. Biotinylated monoclonal and horseradish peroxidase (HRP) labelled antibodies are added and the reactants are mixed. The different types of antibodies used have high affinity and specificity and are directed against distinct and different epitopes of C-Peptide. Reaction between the various C-Peptide antibodies and native C-Peptide occurs in the microwells without competition or steric hindrance forming a soluble sandwich complex. After incubation, the wells are washed to remove unbound material and TMB substrate is then added which is catalyzed by HRP to produce blue coloration. The reaction is terminated by addition of Stop Solution which stops the color development and produces a color change from blue to yellow. The intensity of signal is directly proportional to the amount of C-peptide in the sample and the intensity is measured at 450 nm.
C-peptide is the abbreviation for connecting peptide; it is a 31-amminoacid peptide. C-peptide of insulin is the C-terminal cleavage product produced during processing of the insulin pro-hormone to the mature insulin molecule. Proinsulin is cleaved when it is released from the pancreas into the blood - one C-peptide for each insulin molecule. C-Peptide is devoid of any biological activity but appears to be necessary to maintain the structural integrity of Insulin.

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

Supplementary Information:
This supplementary information is collated from multiple sources and compiled automatically.
C-peptide also known as connecting peptide is a short polypeptide chain consisting of 31 amino acids with a molecular weight of about 3 kDa. It results from enzymatic cleavage during the conversion of proinsulin to insulin and is co-secreted equimolarly with insulin by beta cells of the pancreas. C-peptide does not undergo significant liver metabolism making its levels a meaningful indicator of endogenous insulin production. This peptide is important due to its ability to serve as a biomarker for beta cell function giving insights into the body's insulin production capacity. Commercially available assays for its measurement include C-peptide ELISA and C-peptide ELISA kit important in both clinical and research settings.
Biological function summary
C-peptide plays a role beyond being a mere byproduct of insulin synthesis. Experiments have shown it binds to cell membranes indicating it functions independently and is more than part of the insulin processing complex. Studies suggest C-peptide may have physiological effects such as improving blood flow and possessing anti-inflammatory properties. Its ability to bind likely involves specific interactions that suggest possible receptors a subject of ongoing research. Detection methods like peptide ELISA and peptide test kit further facilitate studying its biological activity and potential therapeutic implications.
Pathways
C-peptide is closely linked to the metabolic insulin signaling pathway. This pathway is integral in glucose homeostasis and involves proteins such as insulin receptor and glucose transporter. Although not directly involved in the receptor-mediated actions of insulin C-peptide's presence alongside insulin shortly after release places it within this critical pathway. Another related pathway includes peptide hormone responses where C-peptide might influence vasodilation or cellular signaling revealing potential avenues for regulating metabolic conditions.
C-peptide is most notably associated with diabetes mellitus specifically type 1 and type 2. Its measurement helps to distinguish between the types of diabetes as it reflects the pancreas's ability to produce insulin. Lower levels often correlate with type 1 diabetes due to autoimmune destruction of beta cells whereas type 2 diabetes may still show normal C-peptide levels as the disease progresses. C-peptide also contributes to diabetic complications through associations with proteins involved in vascular function suggesting its possible role in conditions like diabetic nephropathy and retinopathy.