Gene transcriptions/Elements/Downstream cores

The downstream core element (DCE) is a transcription core promoter sequence that is within the transcribed portion of a gene.

Downstream

Def. lower "down, in relation to a river or stream ... [f]ollowing the path of a river or stream"^[1] is called downstream.

By analogy, gene transcription follows a path along the human DNA template strand once the RNA polymerase II holoenzyme locates the transcription start site (TSS).

Cores

Def. the "central part ... heart ... center or inner part ... [t]he most important part of a thing ... [an] inside"^[2] is called a core.

Consensus sequences

The consensus sequence for the DCE is CTTC...CTGT...AGC.^[3] These three consensus elements are referred to as subelements: "S_I is CTTC, S_II is CTGT, and S_III is AGC."^[3]

The number of nucleotides between each subelement can apparently vary down to none.

Core promoters

The core promoter is the minimal portion of the promoter required to properly initiate gene transcription.^[4]

It contains a binding site for RNA polymerase (RNA polymerase I, RNA polymerase II, or RNA polymerase III).

"[T]he core promoter [consists of] the DNA sequences, which encompass the transcription start site (within about -40 and +40 [nucleotides] relative to the +1 start site"^[5].

"Several factors have been identified that bind to core promoters (reviewed in Smale, 1997)"^[6]^[7].

A core promoter that contains all three subelements of the downstream core element may be much less common than one containing only one or two.^[3] "S_I resides approximately from +6 to +11, S_II from +16 to +21, and S_III from +30 to +34."^[3]

Transcription start sites

Notation: let the subscript (+1) indicate the specific nucleobase (nucleotide) along the template strand that is a transcription start site. For example, A₊₁.

The transcription start site (TSS) is the location on the DNA template strand where transcription begins at the 3'-end of a gene.^[8] This location corresponds to the 5'-end of the mRNA which by convention is used to designate DNA locations.^[8]

Nucleotides downstream from the TSS (N₊₁, where N stands for any nucleotide) are numbered increasing from +1.

TSS location

One method to perform a TSS location is to test for portions of the downstream core element (DCE) within the about to be transcribed portion of the gene.

S_I as 3'-CTTC-5' can occur as 3 of 4 (CTT, TTC) or 4 of 4 (CTTC). S_II as 3'-CTGT-5' can also occur as 3 of 4 (CTG, TGT) or 4 of 4 (CTGT). S_III as AGC is not known to vary.

DCE S_III can function independently of SI and SII.^[3]

General transcription factor II Ds

Transcription factor II D (TFIID), a transcription factor that is part of the RNA polymerase II holoenzyme, interacts with promoters containing only S_III of the DCE suggesting a critical spacing parameter between S_III and the TATA box, initiator element, or some combination of the two.^[3] TFIID probably serves as a core promoter recognition complex.^[3]

TAF1 interacts with the DCE in a sequence-dependent manner.^[3]

The differences between core promoters with downstream elements may be explained by

"TATA- and DPE-dependent promoters are specific for particular enhancers"^[3],
"preferences of activators for specific core promoter architectures"^[3], and
"the presence of a DCE or [downstream core promoter element (DPE)] might be indicative of an architecture designed for specific regulatory networks, such as the regulation of housekeeping promoters versus tissue-specific promoters (or other highly regulated promoters) or the regulation of subsets of viral promoters."^[3]

Hypotheses

The downstream core element is not involved in the transcription of A1BG.

References

↑ downstream. San Francisco, California: Wikimedia Foundation, Inc. August 30, 2012. http://en.wiktionary.org/wiki/downstream. Retrieved 2013-06-28.
↑ core. San Francisco, California: Wikimedia Foundation, Inc. June 18, 2013. http://en.wiktionary.org/wiki/core. Retrieved 2013-06-28.
↑ ^3.00 ^3.01 ^3.02 ^3.03 ^3.04 ^3.05 ^3.06 ^3.07 ^3.08 ^3.09 ^3.10 Dong-Hoon Lee, Naum Gershenzon, Malavika Gupta, Ilya P. Ioshikhes, Danny Reinberg and Brian A. Lewis (November 2005). "Functional Characterization of Core Promoter Elements: the Downstream Core Element Is Recognized by TAF1". Molecular and Cellular Biology 25 (21): 9674-86. doi:10.1128/MCB.25.21.9674-9686.2005. PMID 16227614. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1265815/. Retrieved 2010-10-23.
↑ Stephen T. Smale and James T. Kadonaga (July 2003). "The RNA Polymerase II Core Promoter". Annual Review of Biochemistry 72 (1): 449-79. doi:10.1146/annurev.biochem.72.121801.161520. PMID 12651739. http://www.lps.ens.fr/~monasson/Houches/Kadonaga/CorePromoterAnnuRev2003.pdf. Retrieved 2012-05-07.
↑ Thomas W. Burke and James T. Kadonaga (November 15, 1997). "The downstream core promoter element, DPE, is conserved from Drosophila to humans and is recognized by TAF_II60 of Drosophila". Genes & Development 11 (22): 3020–31. doi:10.1101/gad.11.22.3020. PMID 9367984. PMC 316699. http://genesdev.cshlp.org/content/11/22/3020.long.
↑ Gillian E. Chalkley and C. Peter Verrijzer (September 1, 1999). "DNA binding site selection by RNA polymerase II TAFs: a TAF_II250-TAF_II150 complex recognizes the Initiator". The EMBO Journal 18 (17): 4835-45. PMID 10469661. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1171555/pdf/004835.pdf. Retrieved 2012-04-26.
↑ S. T. Smale (1997). "Transcription initiation from TATA-less promoters within eukaryotic protein-coding genes". Biochim. Biophys. Acta. 1351: 73-88.
↑ ^8.0 ^8.1 Marketa J. Zvelebil, Jeremy O. Baum (2008). Dom Holdsworth. ed. Understanding bioinformatics. New York: Garland Science. pp. 772. ISBN 978-0815340249. http://books.google.com/books?id=dGayL_tdnBMC&printsec=frontcover&dq=Understanding+bioinformatics&hl=en.

External links

[DownstreamWikt-1] downstream. San Francisco, California: Wikimedia Foundation, Inc. August 30, 2012. http://en.wiktionary.org/wiki/downstream. Retrieved 2013-06-28.

[CoreWikt-2] core. San Francisco, California: Wikimedia Foundation, Inc. June 18, 2013. http://en.wiktionary.org/wiki/core. Retrieved 2013-06-28.

[Lee-3] 3.00 ^3.01 ^3.02 ^3.03 ^3.04 ^3.05 ^3.06 ^3.07 ^3.08 ^3.09 ^3.10 Dong-Hoon Lee, Naum Gershenzon, Malavika Gupta, Ilya P. Ioshikhes, Danny Reinberg and Brian A. Lewis (November 2005). "Functional Characterization of Core Promoter Elements: the Downstream Core Element Is Recognized by TAF1". Molecular and Cellular Biology 25 (21): 9674-86. doi:10.1128/MCB.25.21.9674-9686.2005. PMID 16227614. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1265815/. Retrieved 2010-10-23.

[Smale03-4] Stephen T. Smale and James T. Kadonaga (July 2003). "The RNA Polymerase II Core Promoter". Annual Review of Biochemistry 72 (1): 449-79. doi:10.1146/annurev.biochem.72.121801.161520. PMID 12651739. http://www.lps.ens.fr/~monasson/Houches/Kadonaga/CorePromoterAnnuRev2003.pdf. Retrieved 2012-05-07.

[Burke1997-5] Thomas W. Burke and James T. Kadonaga (November 15, 1997). "The downstream core promoter element, DPE, is conserved from Drosophila to humans and is recognized by TAF_II60 of Drosophila". Genes & Development 11 (22): 3020–31. doi:10.1101/gad.11.22.3020. PMID 9367984. PMC 316699. http://genesdev.cshlp.org/content/11/22/3020.long.

[Chalkley-6] Gillian E. Chalkley and C. Peter Verrijzer (September 1, 1999). "DNA binding site selection by RNA polymerase II TAFs: a TAF_II250-TAF_II150 complex recognizes the Initiator". The EMBO Journal 18 (17): 4835-45. PMID 10469661. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1171555/pdf/004835.pdf. Retrieved 2012-04-26.

[Smale-7] S. T. Smale (1997). "Transcription initiation from TATA-less promoters within eukaryotic protein-coding genes". Biochim. Biophys. Acta. 1351: 73-88.

[Zvelebil-8] 8.0 ^8.1 Marketa J. Zvelebil, Jeremy O. Baum (2008). Dom Holdsworth. ed. Understanding bioinformatics. New York: Garland Science. pp. 772. ISBN 978-0815340249. http://books.google.com/books?id=dGayL_tdnBMC&printsec=frontcover&dq=Understanding+bioinformatics&hl=en.

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