Target Name: POU3F1
NCBI ID: G5453
Review Report on POU3F1 Target / Biomarker Content of Review Report on POU3F1 Target / Biomarker
POU3F1
Other Name(s): OCT6 | Octamer-binding transcription factor 6 | OTTHUMP00000000544 | OTF-6 | POU domain, class 3, transcription factor 1 | POU class 3 homeobox 1 | OTF6 | octamer-binding transcription factor 6 | octamer-binding protein 6 | Octamer-binding protein 6 | POU domain transcription factor SCIP | PO3F1_HUMAN | SCIP | Oct-6

POU3F1: A Drug Target / Disease Biomarker

POU3F1, also known as POU3F1-AS1, is a protein that is expressed in many different tissues throughout the body. It is a member of the POU3F1 gene family, which is known for the production of the protein POU3F1. This protein is of interest as a potential drug target or biomarker, due to its unique structure and the functions it is known to play in various cellular processes.

One of the key functions of POU3F1 is its role in the regulation of gene expression. This protein is known to interact with the transcription factors that are responsible for transmitting genetic information from the DNA to the RNA molecules that are used to create proteins. By interacting with these transcription factors, POU3F1 is able to regulate the amount of protein produced from a given gene. This regulation is important for the proper functioning of many different tissues and organs, and is a potential target for drugs that are designed to interfere with its function.

Another function of POU3F1 is its role in the regulation of DNA replication. This protein is known to interact with the DNA replication machinery, which is responsible for copying the genetic information from one DNA molecule to another. By interacting with this machinery, POU3F1 is able to regulate the efficiency of DNA replication, which is important for the growth and development of many different organisms.

In addition to its roles in gene expression and DNA replication, POU3F1 is also known to play a role in the regulation of cellular processes that are involved in the development and maintenance of tissues and organs. This protein is involved in the formation of organelles, such as mitochondria and endoplasmic reticulum, and is also involved in the regulation of the transport of vesicles and other structures within the cell.

Despite its many functions, POU3F1 is not yet well understood, and much more research is needed to fully understand its role in the cell. This is because although it is a protein that is expressed in many different tissues, it is not yet known to interact with any specific molecules or to be involved in any specific cellular processes. This lack of understanding could make it difficult to develop drugs that target POU3F1 specifically.

However, that is not to say that there is not potential for POU3F1 to be a drug target or biomarker. Its unique structure and the functions it is known to play make it an attractive target for researchers to study, and its potential to be involved in the regulation of various cellular processes could make it an important molecule to study in the future. As research continues, it is possible that the functions of POU3F1 will be discovered, and it will be found to be an important player in the regulation of cellular processes and the development and maintenance of tissues and organs.

Protein Name: POU Class 3 Homeobox 1

Functions: Transcription factor that binds to the octamer motif (5'-ATTTGCAT-3') (By similarity). Acts as a transcriptional activator when binding cooperatively with SOX4, SOX11, or SOX12 to gene promoters (By similarity). Acts as a transcriptional repressor of myelin-specific genes (By similarity)

The "POU3F1 Target / Biomarker Review Report" is a customizable review of hundreds up to thousends of related scientific research literature by AI technology, covering specific information about POU3F1 comprehensively, including but not limited to:
•   general information;
•   protein structure and compound binding;
•   protein biological mechanisms;
•   its importance;
•   the target screening and validation;
•   expression level;
•   disease relevance;
•   drug resistance;
•   related combination drugs;
•   pharmacochemistry experiments;
•   related patent analysis;
•   advantages and risks of development, etc.
The report is helpful for project application, drug molecule design, research progress updates, publication of research papers, patent applications, etc. If you are interested to get a full version of this report, please feel free to contact us at BD@silexon.ai

More Common Targets

POU3F2 | POU3F3 | POU3F4 | POU4F1 | POU4F2 | POU4F3 | POU5F1 | POU5F1B | POU5F1P3 | POU5F1P4 | POU5F1P5 | POU5F2 | POU6F1 | POU6F2 | PP12613 | PP2D1 | PP7080 | PPA1 | PPA2 | PPAN | PPAN-P2RY11 | PPARA | PPARD | PPARG | PPARGC1A | PPARGC1B | PPAT | PPATP1 | PPBP | PPBPP2 | PPCDC | PPCS | PPDPF | PPDPFL | PPEF1 | PPEF2 | PPFIA1 | PPFIA2 | PPFIA3 | PPFIA4 | PPFIBP1 | PPFIBP2 | PPHLN1 | PPIA | PPIAL4A | PPIAL4D | PPIAL4E | PPIAL4F | PPIAL4G | PPIAL4H | PPIAP19 | PPIAP21 | PPIAP22 | PPIAP29 | PPIAP30 | PPIAP35 | PPIAP43 | PPIAP45 | PPIAP46 | PPIAP51 | PPIAP54 | PPIAP59 | PPIAP66 | PPIAP7 | PPIAP74 | PPIAP8 | PPIAP80 | PPIAP9 | PPIB | PPIC | PPID | PPIE | PPIEL | PPIF | PPIG | PPIH | PPIL1 | PPIL2 | PPIL3 | PPIL4 | PPIL6 | PPIP5K1 | PPIP5K2 | PPL | PPM1A | PPM1B | PPM1D | PPM1E | PPM1F | PPM1G | PPM1H | PPM1J | PPM1K | PPM1K-DT | PPM1L | PPM1M | PPM1N | PPME1 | PPOX | PPP1CA