92 Results for: "assay 6-55"

Supplier: Genetex

The basic repeating unit of chromatin is the nucleosome, which is composed of a protein octamer containing two each of the core histones H2A, H2B, H3, and H4, surrounded by approximately 146 base pairs of DNA. Reversible acetylation of highly conserved lysine residues in the N-terminal tail domains of core histones plays an important role in transcriptional regulation, cell cycle progression, and development events. Several histone acetyltransferases (HATs) catalyze this acetylation reaction (e.g. GCN5, PCAF, p300/CBP, TAFII250, P/CAF, SRC-1, BRCA-2). Acetylation of the core histones is generally considered to be associated with gene activation, probably through maintenance of the unfolded structure of transcribing nucleosomes. Histone acetylation is a dynamic process in which levels are determined by the net activities of HATs and the competing enzymes histone deacetylases (HDACs). Both activities are associated with the nuclear matrix. Eleven different mammalian HDACs have been described. HDACs 1-3 & 8 (Class I) are similar to yeast Rpd3 protein, while HDACs 4-7, 9 & 10 (Class II) are similar to yeast Hda1 protein. The activities of the histone deacetylases are often, but not always, associated with transcriptional repression and nucleosome condensation. HDAC1, HDAC2 and several others are the catalytic subunits of different multiprotein regulatory complexes. Other components of such complexes may include: corepressors such as mSin3, N-CoR, SMRT, associated proteins such as SAP18, SAP30, RbAp46, RbAp48, and c-Ski oncogenic protein (involved in DNA methylation). Nucleosome remodeling and deacetylation (NRD) complexes containing HDAC1, HDAC2, Mi-2 (CH3, CH4) dermatomyositis specific autoantigen, and MAT2 (metastasis-associated protein) (related to MAT1) have been described. It is therefore assumed that ATP-dependent nucleosome remodeling activity and histone deacetylation may be interconnected or interdependent. Recruitment of the multiprotein complexes to promoter sites occurs by many sequence specific DNA-binding proteins such as unliganded nuclear hormone receptors, DP1-E2F, YY1, and Rb family of transcription factors, transcriptional repressors, and tumor suppressors (e.g. BRCA1). Aberrant recruitment of HDACs by various oncoproteins may occur in certain neoplastic diseases. It has been found that inhibition ofHDAC2 activity by valporic acid induces proteosomal degradation of HDAC2.

Supplier: Genetex

Myosin is the major component of thick muscle filaments, and is a long asymmetric molecule containing a globular head and a long tail. The molecule consists of two heavy chains each ~200,000 daltons, and four light chains each ~16,000 - 21,000 daltons. Activation of smooth and cardiac muscle primarily involves pathways that increase calcium levels and myosin phosphorylation, resulting in contraction. Myosin light chain phosphatase acts to regulate muscle contraction by dephosphorylating activated myosin light chain. This antibody is specific for the phosphorylated form of myosin light chain. The selected peptide sequence used to generate the polyclonal antibody is located near the amino terminal end of the polypeptide corresponding to the smooth/non-muscle form of myosin regulatory light chain found in cardiac myocytes in addition to smooth and non-muscle cells. This sequence differs from that of the sarcomeric/cardiac form of myosin regulatory light chain that has a different sequence around the phosphorylation site. Human and mouse have almost identical sequences. In human the phosphorylation site is pS19, while in mouse the site maps to pS20.