SNORA2C: A Non-coding RNA Molecule Involved in Gene Expression and Cell Regulation

SNORA2C: A Non-coding RNA Molecule Involved in Gene Expression and Cell Regulation

SNORA2C, also known as small nucleolar RNA (snRNA), is a non-coding RNA molecule that plays a critical role in the regulation of gene expression in the nucleus. It is a H/ACA box RNA, which means it has a specific binding site for the H/ACA RNA-protein complex, which is responsible for the degradation of non-coding RNAs.

SNORA2C is a small molecule that has been shown to play a role in the regulation of various cellular processes, including cell growth, apoptosis, and transcriptional regulation. It is expressed in various tissues and cells and is involved in the regulation of gene expression.

One of the key functions of SNORA2C is its role in the regulation of apoptosis. Apoptosis is a natural process that helps remove damaged or dysfunctional cells from the body. SNORA2C has been shown to play a role in the regulation of apoptosis by promoting the expression of genes that are involved in the execution of apoptotic processes.

SNORA2C has also been shown to play a role in the regulation of cell growth. It has been shown to inhibit the growth of cancer cells, which may be a potential therapeutic approach for cancer treatment.

In addition to its role in apoptosis and cell growth, SNORA2C is also involved in the regulation of transcriptional regulation. It has been shown to interact with various transcription factors, including histone deethylenediaminelases (HATs) and RNA polymerase ( RNA- polymerase, RNA-P)2.

SNORA2C is also a potential biomarker for various diseases, including cancer. Its expression has been shown to be altered in various types of cancer, which may make it a useful target for cancer therapies.

In conclusion, SNORA2C is a non-coding RNA molecule that plays a critical role in the regulation of gene expression in the nucleus. It is a H/ACA box RNA and has been shown to play a role in the regulation of apoptosis, cell growth , and transcriptional regulation. Its potential as a drug target or biomarker makes it an attractive target for further research.

Protein Name: Small Nucleolar RNA, H/ACA Box 2C

More Common Targets

SNORA30 | SNORA31 | SNORA32 | SNORA33 | SNORA35 | SNORA36A | SNORA36B | SNORA37 | SNORA38 | SNORA38B | SNORA3A | SNORA3B | SNORA4 | SNORA40 | SNORA40B | SNORA41 | SNORA44 | SNORA46 | SNORA47 | SNORA48 | SNORA50A | SNORA50C | SNORA51 | SNORA52 | SNORA53 | SNORA54 | SNORA55 | SNORA56 | SNORA57 | SNORA58 | SNORA59A | SNORA59B | SNORA5A | SNORA5B | SNORA5C | SNORA6 | SNORA60 | SNORA61 | SNORA62 | SNORA63 | SNORA64 | SNORA65 | SNORA66 | SNORA67 | SNORA68 | SNORA69 | SNORA70 | SNORA70B | SNORA70C | SNORA70E | SNORA70F | SNORA70G | SNORA71A | SNORA71B | SNORA71C | SNORA71D | SNORA71E | SNORA72 | SNORA73A | SNORA73B | SNORA74A | SNORA74B | SNORA74D | SNORA75 | SNORA77 | SNORA78 | SNORA79 | SNORA79B | SNORA7A | SNORA7B | SNORA8 | SNORA80A | SNORA80B | SNORA80E | SNORA81 | SNORA84 | SNORA86 | SNORA9 | SNORC | SNORD10 | SNORD100 | SNORD101 | SNORD102 | SNORD103A | SNORD103B | SNORD103C | SNORD104 | SNORD105 | SNORD107 | SNORD108 | SNORD109A | SNORD109B | SNORD11 | SNORD110 | SNORD111B | SNORD112 | SNORD113-1 | SNORD113-2 | SNORD113-3 | SNORD113-4