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- Table of Contents
Facts about Actin, cytoplasmic 2.
Human | |
---|---|
Gene Name: | ACTG1 |
Uniprot: | P63261 |
Entrez: | 71 |
Belongs to: |
---|
actin family |
ACT; ACTB; ACTG; actin, cytoplasmic 2; actin, gamma 1; cytoskeletal gamma-actin; deafness, autosomal dominant 20; deafness, autosomal dominant 26; DFNA20; DFNA26; Gamma-actin
Mass (kDA):
41.793 kDA
Human | |
---|---|
Location: | 17q25.3 |
Sequence: | 17; NC_000017.11 (81509971..81512799, complement) |
Cytoplasm, cytoskeleton.
If you're searching for an accurate biomarker to study the role of a particular protein or find a new way to use the ACTG1 marker, Boster is here to help. Through its free biomarker services, scientists can submit their results for a variety of species or applications, and get credits for their work. This service is available to all scientists across the globe.
The ACTG1 marker is expressed on a wide variety of glial cells within the brain, including those that are located in the organ of Corti. These cells are more susceptible to mechanical injury than other cells that express ACTG1. They are mechanical transducers for sound and need to be able to control their shape accurately. This guide will help you understand the most popular uses for the ACTG1 marker.
The ACTG1 gene is a major expression factor in cancerous cells such as lung cancer or ovarian cancer, is highly expressed. The ACTG1 gene is crucial to the health of numerous cancer lines. Its functions aren't completely understood. The best uses of this gene will likely involve finding out which cancer cells have this gene. Thus, the ACTG1 gene is essential to the pathogenesis of uterine cancer.
The ACTG1 marker is a genetic locus that is highly expressed in humans. Its significance in cell and gene biology is crucial for many applications. Molecular biology is the study of genetic material, employing various methods to manipulate DNA. Boster offers a wealth of resources, such as guides and blogs that will help researchers to improve their experiments. In addition to ACTG1 markers, Boster provides a variety of digital tools such as lysis buffers. The lysis buffers that Boster provides are of the best quality which ensures good results and reduced cross-linking intensity.
The gcm -actg1 marker is also linked to the ACTG1 gene. The ACTG1 gene is found in various tissues, including the brain and lungs. Its presence in a patient's blood allows doctors to determine which diseases and tissues require treatment. Boster Bio: The Most Effective uses of the ACTG1 marker
This PicoKine ELSA human TIMP3 PicoKine kit analyzes Human TIMP3 levels in serum, supernatants of cell culture, plasma and cells. The kit contains the recombinant Human TIMP3 and is analytically validated. It takes less than 1.5 hours to perform. It also detects tissue specificity in TIMP1.
The kit detects the activity of both active enzymes and zymogen. The ELISA kit can perform the test in 1.5 hours. Human TIMP-1 is the standard test, with a molecular weight of 22kDa. The kit also detects MMP-2 that is recombinant. This kit can be used for routine and standardized testing. For testing of samples and standard tests an assay with a duplicate well can be obtained.
The TIMP3 test examines human TIMP-3 levels in serum, plasma supernatant and urine. This assay can detect both TIMP3 from natural human cells and TIMP3 from recombinant cells. TIMP3 inhibits the function of matrix metaloproteinases. They are enzymes that degrade extracellular matrix. It is present in various tissues with the highest concentration in the placenta. Additionally, it is associated with a variety of ailments, including Sorsby fundus dystrophy. It is located at 22q12.1 to q13.2. The gene is autosomal dominant.
Tissue inhibitor of metalloproteinase 3 was significantly higher in NS CHL, compared to lymphadenitis. The protein is expressed in both HRS cells and paraimmunoblasts. These findings have important implications for understanding the mechanism behind TIMP3 expression in human illnesses. These results demonstrate that TIMP3 is a crucial component of the immune system, and a key factor in the process of reprogramming smooth muscle cells.
The TIMP3 protein is expressed in the skin of a large number of cancer patients. TIMP3 is present in HRS cells and fibroblasts which are responsible for stimulating collagen and elastin formation. The survival of fibroblasts within NS cHL is also affected by the protein. In addition to cancer cells, human TIMP3 expression is also decreased in tumors.
PMID: 3737401 by Erba H.P., et al. Nucleotide sequence of the human gamma cytoskeletal actin mRNA: anomalous evolution of vertebrate non-muscle actin genes.
PMID: 2837653 by Erba H.P., et al. Structure, chromosome location, and expression of the human gamma- actin gene: differential evolution, location, and expression of the cytoskeletal beta- and gamma-actin genes.