Sandbox Reserved 1581
From Proteopedia
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== Function == | == Function == | ||
| - | Thiamine pyrophosphate is also known as TPP. TPP is essential in all three domains of life, including: bacteria, fungi, and plants. <ref>PMID:16728979</ref> They use this specific riboswitch to control genes that are in charge of synthesizing thiamine and any phosphorylated derivatives.<ref>PMID:16728979</ref> Thiamine pyrophosphate is the most widely distributed riboswitch of the metabolite-sensing RNA regulatory system. <ref>PMID:16728979</ref> The reason for this is because TPP is a form of vitamin B1, and vitamin B1 takes an essential part in many protein-catalyzed reactions; thus it is used quite often. | + | Riboswitches are body-sensing RNAs, that are usually found within non-coding portions of messenger RNAs. <ref>PMID:16728979</ref> Thiamine pyrophosphate is also known as TPP. TPP is essential in all three domains of life, including: bacteria, fungi, and plants. <ref>PMID:16728979</ref> They use this specific riboswitch to control genes that are in charge of synthesizing thiamine and any phosphorylated derivatives.<ref>PMID:16728979</ref> Thiamine pyrophosphate is the most widely distributed riboswitch of the metabolite-sensing RNA regulatory system. <ref>PMID:16728979</ref> The reason for this is because TPP is a form of vitamin B1, and vitamin B1 takes an essential part in many protein-catalyzed reactions; thus it is used quite often. |
Revision as of 14:13, 19 November 2019
| This Sandbox is Reserved from September 14, 2021, through May 31, 2022, for use in the class Introduction to Biochemistry taught by User:John Means at the University of Rio Grande, Rio Grande, OH, USA. This reservation includes 5 reserved sandboxes (Sandbox Reserved 1590 through Sandbox Reserved 1594). |
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References
- ↑ Hanson, R. M., Prilusky, J., Renjian, Z., Nakane, T. and Sussman, J. L. (2013), JSmol and the Next-Generation Web-Based Representation of 3D Molecular Structure as Applied to Proteopedia. Isr. J. Chem., 53:207-216. doi:http://dx.doi.org/10.1002/ijch.201300024
- ↑ Serganov A, Polonskaia A, Phan AT, Breaker RR, Patel DJ. Structural basis for gene regulation by a thiamine pyrophosphate-sensing riboswitch. Nature. 2006 Jun 29;441(7097):1167-71. Epub 2006 May 21. PMID:16728979 doi:http://dx.doi.org/nature04740
- ↑ Serganov A, Polonskaia A, Phan AT, Breaker RR, Patel DJ. Structural basis for gene regulation by a thiamine pyrophosphate-sensing riboswitch. Nature. 2006 Jun 29;441(7097):1167-71. Epub 2006 May 21. PMID:16728979 doi:http://dx.doi.org/nature04740
- ↑ Serganov A, Polonskaia A, Phan AT, Breaker RR, Patel DJ. Structural basis for gene regulation by a thiamine pyrophosphate-sensing riboswitch. Nature. 2006 Jun 29;441(7097):1167-71. Epub 2006 May 21. PMID:16728979 doi:http://dx.doi.org/nature04740
- ↑ Serganov A, Polonskaia A, Phan AT, Breaker RR, Patel DJ. Structural basis for gene regulation by a thiamine pyrophosphate-sensing riboswitch. Nature. 2006 Jun 29;441(7097):1167-71. Epub 2006 May 21. PMID:16728979 doi:http://dx.doi.org/nature04740
- ↑ Serganov A, Polonskaia A, Phan AT, Breaker RR, Patel DJ. Structural basis for gene regulation by a thiamine pyrophosphate-sensing riboswitch. Nature. 2006 Jun 29;441(7097):1167-71. Epub 2006 May 21. PMID:16728979 doi:http://dx.doi.org/nature04740
- ↑ Serganov A, Polonskaia A, Phan AT, Breaker RR, Patel DJ. Structural basis for gene regulation by a thiamine pyrophosphate-sensing riboswitch. Nature. 2006 Jun 29;441(7097):1167-71. Epub 2006 May 21. PMID:16728979 doi:http://dx.doi.org/nature04740
