TATA box serpin superfamily

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The TATA box (also called Goldberg-Hogness box)[1] is a DNA sequence (cis-regulatory element) found in the promoter region of genes in archaea and eukaryotes;[2] approximately 24% of human genes contain a TATA box within the core promoter.[3]

Human genes

"TATA-containing genes are more often highly regulated, such as by biotic or stress stimuli."[4] Only "∼10% of these TATA-containing promoters have the canonical TATA box (TATAWAWR)."[4]

"SRF-regulated genes of the actin/cytoskeleton/contractile family tend to have a TATA box."[5]

Different "TATA box sequences have different abilities to convey the activating signals of certain enhancers and activators in mammalian cells [...] and in yeast [...]."[5]

"SRF is a well established master regulator of the specific family of genes encoding the actin cytoskeleton and contractile apparatus [...], and we found that ~40% of the core promoters for these genes contain a TATA box, which is a significant enrichment compared to the low overall frequency of TATA-containing promoters in human and mouse genomes (...)."[5] "Global frequencies of core promoter types for human [9010 orthologous mouse-human promoter pairs with 1848 TATA-containing or 7162 TATA-less][6] genes with experimentally validated transcription start sites [are known from 2006]."[5] "The TATA box [...] has a consensus sequence of TATAWAAR [...]."[5] W = A or T and R = A or G. We "estimate that ~17% of promoters contain a TATA box".[6]

Gene ID: 183

"The protein encoded by this gene, pre-angiotensinogen or angiotensinogen precursor, is expressed in the liver and is cleaved by the enzyme renin in response to lowered blood pressure. The resulting product, angiotensin I, is then cleaved by angiotensin converting enzyme (ACE) to generate the physiologically active enzyme angiotensin II. The protein is involved in maintaining blood pressure, body fluid and electrolyte homeostasis, and in the pathogenesis of essential hypertension and preeclampsia. Mutations in this gene are associated with susceptibility to essential hypertension, and can cause renal tubular dysgenesis, a severe disorder of renal tubular development. Defects in this gene have also been associated with non-familial structural atrial fibrillation, and inflammatory bowel disease."[7] It has a TATA box (TATAAAT) from -32 to -25 nts from the TSS.[6] AGT is aka SERPINA8.

Gene ID: 5054

"This gene encodes a member of the serine proteinase inhibitor (serpin) superfamily. This member is the principal inhibitor of tissue plasminogen activator (tPA) and urokinase (uPA), and hence is an inhibitor of fibrinolysis. The protein also functions as a component of innate antiviral immunity. Defects in this gene are the cause of plasminogen activator inhibitor-1 deficiency (PAI-1 deficiency), and high concentrations of the gene product are associated with thrombophilia."[8]

Gene ID: 5055

"Predicted to enable serine-type endopeptidase inhibitor activity. Predicted to be involved in negative regulation of endopeptidase activity. Predicted to be located in extracellular region and plasma membrane. Predicted to be active in extracellular space."[9]

Gene ID: 5275

"The protein encoded by this gene is a member of the serpin family of serine protease inhibitors. The encoded protein inhibits the activity of cathepsin K and is itself transcriptionally repressed by RUNX1. This gene is downregulated in many types of cancer."[10]

Acknowledgements

The content on this page was first contributed by: Henry A. Hoff.

References

  1. R. P. Lifton, M. L. Goldberg, R. W. Karp, and D. S. Hogness (1978). "The organization of the histone genes in Drosophila melanogaster: functional and evolutionary implications". Cold Spring Harbor Symposia on Quantitative Biology. 42: 1047–51. doi:10.1101/SQB.1978.042.01.105. PMID 98262.
  2. Stephen T. Smale and James T. Kadonaga (July 2003). "The RNA Polymerase II Core Promoter" (PDF). Annual Review of Biochemistry. 72 (1): 449–79. doi:10.1146/annurev.biochem.72.121801.161520. PMID 12651739. Retrieved 2012-05-07.
  3. C Yang, E Bolotin, T Jiang, FM Sladek, E Martinez (March 2007). "Prevalence of the initiator over the TATA box in human and yeast genes and identification of DNA motifs enriched in human TATA-less core promoters". Gene. 389 (1): 52–65. doi:10.1016/j.gene.2006.09.029. PMID 17123746.
  4. 4.0 4.1 Chuhu Yang, Eugene Bolotin, Tao Jiang, Frances M. Sladek, and Ernest Martinez (10 October 2006). "Prevalence of the Initiator over the TATA box in human and yeast genes and identification of DNA motifs enriched in human TATA-less core promoters". Gene. 389 (1): 52–65. doi:10.1016/j.gene.2006.09.029. PMID 17123746. Retrieved 2024-06-07.
  5. 5.0 5.1 5.2 5.3 5.4 Muyu Xu, Elsie Gonzalez-Hurtado, and Ernest Martinez (April 2016). "Core promoter-specific gene regulation: TATA box selectivity and Initiator-dependent bi-directionality of serum response factor-activated transcription". Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms. 1859 (4): 553–563. doi:10.1016/j.bbagrm.2016.01.005. Retrieved 2024-06-08.
  6. 6.0 6.1 6.2 Victor X Jin, Gregory AC Singer, Francisco J Agosto-Pérez, Sandya Liyanarachchi, and Ramana V Davuluri (2006). "Genome-wide analysis of core promoter elements from conserved human and mouse orthologous pairs". BMC Bioinformatics. 7: 114. doi:10.1186/1471-2105-7-114. Retrieved 2024-06-09.
  7. RefSeq (November 2019). "AGT angiotensinogen [ Homo sapiens ]". Bethsda, Maryland, USA: ncbi.nlm.nih. Retrieved 2024-06-09.
  8. RefSeq (August 2020). "SERPINE1 serpin family E member 1 [ Homo sapiens ]". 8600 Rockville Pike, Bethesda MD, 20894 USA: National Center for Biotechnology Information, U.S. National Library of Medicine. Retrieved 2024-07-04.
  9. Alliance of Genome Resources (April 2022). "SERPINB2 serpin family B member 2 [ Homo sapiens ]". 8600 Rockville Pike, Bethesda MD, 20894 USA: National Center for Biotechnology Information, U.S. National Library of Medicine. Retrieved 2024-07-04.
  10. RefSeq (January 2017). "SERPINB13 serpin family B member 13 [ Homo sapiens ]". Bethsda, Maryland, USA: ncbi.nlm.nih. Retrieved 2024-07-04.

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