What does BRD4 mean in LABORATORY
BRD4, or Bromodomain-containing Protein 4, is an important protein involved in the regulation of gene expression and transcription. Its functions are complex and provide insight into a variety of biological processes.
BRD4 meaning in Laboratory in Medical
BRD4 mostly used in an acronym Laboratory in Category Medical that means BRomoDomain-containing Protein 4
Shorthand: BRD4,
Full Form: BRomoDomain-containing Protein 4
For more information of "BRomoDomain-containing Protein 4", see the section below.
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Essential Questions and Answers on BRomoDomain-containing Protein 4 in "MEDICAL»LABORATORY"
What is BRD4?
BRD4 is an abbreviation for Bromodomain-containing Protein 4, which is a key regulator of gene expression and transcription.
What type of protein is BRD4?
BRD4 belongs to the family of bromodomain-containing proteins, which are characterized by their ability to bind acetylated lysines on histone proteins.
Where does BRD4 function?
BRD4 functions mainly in cellular processes related to gene expression such as transcriptional activation and chromatin remodeling.
How important is BRD4 to biology?
The precise roles that BRD4 plays in modulating gene expression have been difficult to unravel due to its complexity. However, research indicates that it plays an important role in a variety of biological processes including stem cell differentiation, cancer development, and embryonic development.
Who discovered BRD4?
The first description of the bromodomain was published in 1999 by researchers from Harvard Medical School who described how it binds specific genes sites called promoters. Since then, research has focused on understanding the exact function of this domain and its potential implications for human health.
Final Words:
In conclusion, BRD4 or Bromodomain-containing Protein 4 is an important regulatory protein involved in multiple cellular processes related to gene expression and transcription. As such, it provides valuable insight into a range of biological processes including stem cell differentiation, cancer development, and embryonic development.