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p53, also known as Tumor protein P53, cellular tumor antigen p53 (UniProt name), or transformation-related protein 53 (TRP53) is a regulatory protein that is often mutated in human cancers. The p53 proteins (originally thought to be, and often spoken of as, a single protein) are crucial in vertebrates , where they prevent cancer formation. [ 5 ]
For example ESCs have been differentiated into insulin-producing cells, [26] and researchers at Harvard University were able to produce large quantities of pancreatic beta cells from ESCs. [ 27 ] An article published in the European Heart Journal describes a translational process of generating human embryonic stem cell-derived cardiac ...
The cell surface antigens most commonly used to identify hES cells are the glycolipids stage specific embryonic antigen 3 and 4, and the keratan sulfate antigens Tra-1-60 and Tra-1-81. The molecular definition of a stem cell includes many more proteins and continues to be a topic of research.
The p53 p63 p73 family is a family of tumor suppressor genes. [1] [2] This gene family codes the proteins: p53; TP73L (also known as "p63") p73; They are sometimes considered part of a "p53 family." When overexpressed, these proteins are known to be involved in tumor pathogenesis. [3]
Low efficiency: in general, the conversion to iPS cells has been incredibly low. For example, the rate at which somatic cells were reprogrammed into iPS cells in Yamanaka's original mouse study was 0.01–0.1%. [1] The low efficiency rate may reflect the need for precise timing, balance, and absolute levels of expression of the reprogramming genes.
The p53 upregulated modulator of apoptosis (PUMA) also known as Bcl-2-binding component 3 (BBC3), is a pro-apoptotic protein, member of the Bcl-2 protein family. [5] [6] In humans, the Bcl-2-binding component 3 protein is encoded by the BBC3 gene. [5] [6] The expression of PUMA is regulated by the tumor suppressor p53.
P53, a transcription factor, can bind two sites within the human TIGAR gene to activate expression. [9] [13] One site is found within the first intron, and binds p53 with high affinity. [9] [13] The second is found just prior to the first exon, binds p53 with low affinity, [9] [13] and is conserved between mice and humans. [9]
The result is a polyubiquitin chain that is bound by the proteasome, allowing it to degrade the tagged protein. [1] The degradation process yields peptides of about seven to eight amino acids long, which can then be further degraded into shorter amino acid sequences and used in synthesizing new proteins. [1]