CD299 Polyclonal Antibody from MyBioSource.com

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CD299 Polyclonal Antibody

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The CD299 Polyclonal Antibody from MyBioSource.com is a Rabbit Polyclonal antibody to CLEC4M. This antibody recognizes Human, Mouse, and Rat antigen. The CD299 Polyclonal Antibody has been shown to work in the following applications: EIA, Immunoassay, ELISA, Immunohistochemistry, Immunohistochemistry - fixed, and Western Blot.

Description

CLEC4M (C-Type Lectin Domain Family 4 Member M) is a Protein Coding gene. Diseases associated with CLEC4M include Severe Acute Respiratory Syndrome and Japanese Encephalitis. Among its related pathways are Tuberculosis and Influenza A. GO annotations related to this gene include receptor activity and calcium-dependent protein binding. An important paralog of this gene is CD209.This gene encodes a transmembrane receptor and is often referred to as L-SIGN because of its expression in the endothelial cells of the lymph nodes and liver. The encoded protein is involved in the innate immune system and recognizes numerous evolutionarily divergent pathogens ranging from parasites to viruses, with a large impact on public health. The protein is organized into three distinct domains: an N-terminal transmembrane domain, a tandem-repeat neck domain and C-type lectin carbohydrate recognition domain. The extracellular region consisting of the C-type lectin and neck domains has a dual function as a pathogen recognition receptor and a cell adhesion receptor by binding carbohydrate ligands on the surface of microbes and endogenous cells. The neck region is important for homo-oligomerization which allows the receptor to bind multivalent ligands with high avidity. Variations in the number of 23 amino acid repeats in the neck domain of this protein are common and have a significant impact on ligand binding ability. This gene is closely related in terms of both sequence and function to a neighboring gene (GeneID 30835; often referred to as DC-SIGN or CD209). DC-SIGN and L-SIGN differ in their ligand-binding properties and distribution. Alternative splicing results in multiple variants