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Myc is a family of regulator genes and proto-oncogenes that code for transcription factors. The Myc family consists of three related human genes: c-myc , l-myc , and n-myc . c-myc (also sometimes referred to as MYC) was the first gene to be discovered in this family, due to homology with the viral gene v-myc.
It is able to form homodimers with other MAX proteins and heterodimers with other transcription factors, including Mad, Mxl1 and Myc. The homodimers and heterodimers compete for a common DNA target site (the E-box) in a gene promoter zone. Rearrangement of dimers (e.g., Mad:Max, Max:Myc) provides a system of transcriptional regulation with ...
In molecular biology and genetics, transcriptional regulation is the means by which a cell regulates the conversion of DNA to RNA (transcription), thereby orchestrating gene activity. A single gene can be regulated in a range of ways, from altering the number of copies of RNA that are transcribed, to the temporal control of when the gene is ...
One particular gene region, the c-myc pathway, plays an integral role in the regulation of a protein product, c-Myc. With this product, the c-Myc protein functions in the processes of apoptosis and cell growth or development and as a transcriptional control on human telomerase reverse transcriptase. [67]
The histone tails insert themselves in the minor grooves of the DNA and extend through the double helix, [1] which leaves them open for modifications involved in transcriptional activation. [3] Acetylation has been closely associated with increases in transcriptional activation while deacetylation has been linked with transcriptional deactivation.
The MYCN gene is a member of the MYC family of transcription factors and encodes a protein with a basic helix-loop-helix domain. This protein is located in the cell nucleus and must dimerize with another bHLH protein in order to bind DNA. [5] N-Myc is highly expressed in the fetal brain and is critical for normal brain development. [6]
Furthermore, DNA motifs have been shown to be predictive of epigenomic modifications, suggesting that transcription factors play a role in regulating the epigenome. [2] In RNA, regulation may occur at the level of protein biosynthesis (translation), RNA cleavage, RNA splicing, or transcriptional termination.
Regulation of gene expression by a hormone receptor Diagram showing at which stages in the DNA-mRNA-protein pathway expression can be controlled. Regulation of gene expression, or gene regulation, [1] includes a wide range of mechanisms that are used by cells to increase or decrease the production of specific gene products (protein or RNA).