Quantitative Human CLCA1 (Glycosylated) Sandwich ELISA Kit (CAT#: GLJF-0525-HX5)

Name: Quantitative Human CLCA1 (Glycosylated) Sandwich ELISA Kit
SKU: GLJF-0525-HX5
Rating: 5 (1 reviews)

Datasheet

Size	Qty	Add To Basket
1×48 T
1×96 T

Product Description	The quantitative human CLCA1 (glycosylated) sandwich ELISA kit is designed to detect human chloride channel accessory 1 (CLCA1) levels. CLCA1 is a protein encoded by the CLCA1 gene, and it belongs to the calcium-sensitive chloride conductance protein family. The kit is suitable for various biological samples such as tissue homogenates, cell lysates. Its sensitivity is 0.125 ng/mL, which can accurately detect low concentrations of CLCA1 in the sample.
Target	CLCA1
N-Glycosylation Site	503, 585, 770, 804, 810, 831, 836, 890
Sample Types	Tissue homogenates, cell lysates
Sample Volume	100 μL
Sensitivity	0.125 ng/mL
Detection Principle	Quantitative sandwich ELISA
Detection Range	1 ng/mL-10 ng/mL
Detection Time	1 h-5 h
Detection Wavelength	450 nm
Storage	Store at 2-8°C for long term storage.

Species	Human
Full Name	Chloride channel accessory 1
Alternate Names	CLCA1; Chloride channel accessory 1; CLCRG1; Calcium-activated chloride channel protein 1
Uniprot No.	A8K7I4

Application	The quantitative human CLCA1 (glycosylated) sandwich ELISA kit is designed for the quantitative determination of glycosylated CLCA1 concentrations in biological fluids. This kit utilizes a sandwich enzyme-linked immunosorbent assay technique, allowing researchers to measure CLCA1 levels for various research applications, including studies on inflammation, mucus production, and respiratory diseases.
Kit Components	Pre-coated ELISA plate; Lyophilized standard; Biotin-labeled antibody; HRP-avidin; Various diluents; Wash buffer; TMB chromogenic substrate; Stop solution
Precision	Intra-Assay: n=20, CV <8%; Inter-Assay: n=20, CV <10%;
Recovery	Serum sample: n=5, 85-100%; Plasma sample: n=4, 85-100%;
Standard Curve	The standard curve is for reference only, and a new standard curve should be generated for each set of samples tested.

For Research Use Only.

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