Mus Musculus
Trp53 - transformation related protein 53
Alias:
bbl
bfy
bhy
p44
p53
Tp53
Basic Information
This gene encodes tumor protein p53, which responds to diverse cellular stresses to regulate target genes that induce cell cycle arrest, apoptosis, senescence, DNA repair, or changes in metabolism. p53 protein is expressed at low level in normal cells and at a high level in a variety of transformed cell lines, where it's believed to contribute to transformation and malignancy. p53 is a DNA-binding protein containing transcription activation, DNA-binding, and oligomerization domains. It is postulated to bind to a p53-binding site and activate expression of downstream genes that inhibit growth and/or invasion, and thus function as a tumor suppressor. Mice deficient for this gene are developmentally normal but are susceptible to spontaneous tumors. Evidence to date shows that this gene contains one promoter, in contrast to alternative promoters of the human gene, and transcribes a few of splice variants which encode different isoforms, although the biological validity or the full-length nature of some variants has not been determined. [provided by RefSeq, Jul 2008]
Basic Information
NCBI
Transcripts
Exons
Length
MW (kDa)
Mutations
Related Diseases
Related Models
Reference
Trp53 Genetics information (Positive Sense)
- Chr
Sequence Homology
Humans, mice, and rats have highly similar genes, making them important for disease research and drug development. By studying their gene relationships, researchers can develop effective treatments for both humans and animals. Gene homology among these organisms allows for the translation of animal experimental results to humans, improving disease treatment and prevention.
Orthologs:
No Orthologs
Transcripts & Proteins
Transcripts are RNA molecules that are created during DNA transcription, and the translation products of these transcripts are proteins that serve numerous roles in the body. Transcripts and proteins are both important in biological research. The research of transcripts can help us uncover the subtle links between genes and illnesses, whereas the study of proteins can help us understand the processes of cellular function and disease etiology, as well as give prospective treatment targets.
Table View
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Transcript
Length(nt)
Exon count
CDS(bp)
Protein
Length(aa)
* This data comes from NCBI.
Gene Expression
The level of gene activity in a particular tissue or cell can be identified by its expression. Understanding the physiological processes and disease causes of organisms depends heavily on the specificity of gene expression levels in various tissues or cells. A thorough examination of the tissue and cell specificity of gene expression will contribute to the understanding of the genetic basis of disease and offer novel approaches to both prevent and cure disease.
Tissue-specific RNA expression
Organ
Expression
Alphabetical
Cell-specific RNA expression
Organ
Expression
Alphabetical
Protein Interaction
Protein-protein interaction is when two or more proteins bind together to perform their functions. It plays a vital role in most biochemical processes, such as signal molecules transmitting signals between cells. Molecular machines within the cells perform important functions through protein-protein interactions.
Acting
Regulation
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References
Within the biological sciences, gene-related research literature is a valuable and essential resource. They meticulously document the composition, operation, and interaction of genes, giving us important hints to solve the enigmas surrounding life.
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PMID
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Comparison
BioGPT