RNA polymerase II: Difference between revisions

Revision as of 11:04, 23 October 2018

RNA polymerase II is found in eukaryotic cells and is structurally similar to RNA polymerase I and III with all three sharing common subunits. It is used to transcribe all protein-encoding genes, and in addition, many of the small nucleolar RNAs (snoRNA) and the majority of the micro RNAs (miRNA)^[1]. RNA polymerase II cannot transcribe DNA on its own: the many elements that make up the pre-initiation complex (PIC) must assemble at the site of the promoter in order for RNA polymerase II to be recruited and begin transcription^[2]. The PIC is made up of Transcription Factors: TFIID, TFIIA, TFIIB, TFIIF, TFIIE, TFIIH^[3]. RNA Pol II is also exploited for use in CRISPR technology for genome editing^[4]

It has a very similar structure to its prokaryotic counterpart but is made up of many more subunits with a total of twelve.

References

↑ Wilhelm E et al (2012)'Probing Endogenous RNA Polymerase II Pre-initiation Complexes by Electrophoretic Mobility Shift Assay', Methods Mol Biol. 809:63-74
↑ Seizl M et al. (2011). A Conserved GA Element in TATA-Less RNA Polymerase II Promoters. PLoS One. 6 (11), e27595
↑ D. B. Nikolov et al. (1997). RNA polymerase II transcription initiation: A structural view. PNAS. 94 (1), 15-22.
↑ https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6023835/

[1] Wilhelm E et al (2012)'Probing Endogenous RNA Polymerase II Pre-initiation Complexes by Electrophoretic Mobility Shift Assay', Methods Mol Biol. 809:63-74

[2] Seizl M et al. (2011). A Conserved GA Element in TATA-Less RNA Polymerase II Promoters. PLoS One. 6 (11), e27595

[3] D. B. Nikolov et al. (1997). RNA polymerase II transcription initiation: A structural view. PNAS. 94 (1), 15-22.

[crispr-4] ttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC6023835/

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	RNA polymerase II is found in [[Eukaryotic cells\|eukaryotic cells]] and is structurally similar to [[RNA polymerase I]] and [[RNA polymerase III\|III]] with all three sharing common subunits. It is used to transcribe all [[Protein\|protein]]-encoding [[Genes\|genes]], and in addition, many of the small nucleolar RNAs ([[SnoRNA\|snoRNA]]) and the majority of the [[Micro RNA\|micro RNAs]] (miRNA)<ref>Wilhelm E et al (2012)'Probing Endogenous RNA Polymerase II Pre-initiation Complexes by Electrophoretic Mobility Shift Assay', Methods Mol Biol. 809:63-74</ref>. RNA polymerase II cannot transcribe [[DNA\|DNA]] on its own: the many elements that make up the [[Pre Initiation Complex\|pre-initiation complex]] (PIC) must assemble at the site of the promoter in order for RNA polymerase II to be recruited and begin [[Transcription\|transcription]]<ref>Seizl M et al. (2011). A Conserved GA Element in TATA-Less RNA Polymerase II Promoters. PLoS One. 6 (11), e27595</ref>. The PIC is made up of [[Transcription factors\|Transcription Factors]]: [[TFIID\|TFIID]], [[TFIIA\|TFIIA]], [[TFIIB\|TFIIB]], [[TFIIF\|TFIIF]], [[TFIIE\|TFIIE]], [[TFIIH\|TFIIH]]<ref>D. B. Nikolov et al. (1997). RNA polymerase II transcription initiation: A structural view. PNAS. 94 (1), 15-22.</ref>.		RNA polymerase II is found in [[Eukaryotic cells\|eukaryotic cells]] and is structurally similar to [[RNA polymerase I]] and [[RNA polymerase III\|III]] with all three sharing common subunits. It is used to transcribe all [[Protein\|protein]]-encoding [[Genes\|genes]], and in addition, many of the small nucleolar RNAs ([[SnoRNA\|snoRNA]]) and the majority of the [[Micro RNA\|micro RNAs]] (miRNA)<ref>Wilhelm E et al (2012)'Probing Endogenous RNA Polymerase II Pre-initiation Complexes by Electrophoretic Mobility Shift Assay', Methods Mol Biol. 809:63-74</ref>. RNA polymerase II cannot transcribe [[DNA\|DNA]] on its own: the many elements that make up the [[Pre Initiation Complex\|pre-initiation complex]] (PIC) must assemble at the site of the promoter in order for RNA polymerase II to be recruited and begin [[Transcription\|transcription]]<ref>Seizl M et al. (2011). A Conserved GA Element in TATA-Less RNA Polymerase II Promoters. PLoS One. 6 (11), e27595</ref>. The PIC is made up of [[Transcription factors\|Transcription Factors]]: [[TFIID\|TFIID]], [[TFIIA\|TFIIA]], [[TFIIB\|TFIIB]], [[TFIIF\|TFIIF]], [[TFIIE\|TFIIE]], [[TFIIH\|TFIIH]]<ref>D. B. Nikolov et al. (1997). RNA polymerase II transcription initiation: A structural view. PNAS. 94 (1), 15-22.</ref>. RNA Pol II is also exploited for use in CRISPR technology for genome editing<ref name="crispr">https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6023835/</ref>

	It has a very similar structure to its prokaryotic counterpart but is made up of many more subunits with a total of twelve.		It has a very similar structure to its prokaryotic counterpart but is made up of many more subunits with a total of twelve.

RNA polymerase II: Difference between revisions

Revision as of 11:04, 23 October 2018

References

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