Small RNA: Difference between revisions

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== Discovery ==
== Discovery ==
The first sRNA discovered was in 1984 where [[MicF RNA|MicF]] was found to regulate the outer cell membrane in ''[[Escherichia coli|E. Coli]]'' by inhibiting the production of the protein ompF and ompC.<ref>{{Cite journal |last1=Mizuno |first1=T |last2=Chou |first2=M Y |last3=Inouye |first3=M |date=April 1984 |title=A unique mechanism regulating gene expression: translational inhibition by a complementary RNA transcript (micRNA). |journal=Proceedings of the National Academy of Sciences |volume=81 |issue=7 |pages=1966–1970 |doi=10.1073/pnas.81.7.1966 |doi-access=free |pmc=345417 |pmid=6201848|bibcode=1984PNAS...81.1966M }}</ref> The use of sRNA in regulation of gene expression was found alongside it's discovery. It was later discovered to be present across all eukaryotic organisms. In 1998 it was discovered that the sRNA can be transferred between organisms. It was later discovered in 2011 that sRNA are transferred from cell to cell inside an organism as well.<ref>{{Cite journal |last1=Zeng |first1=Jun |last2=Gupta |first2=Vijai Kumar |last3=Jiang |first3=Yueming |last4=Yang |first4=Bao |last5=Gong |first5=Liang |last6=Zhu |first6=Hong |date=2019-04-23 |title=Cross-Kingdom Small RNAs Among Animals, Plants and Microbes |journal=Cells |volume=8 |issue=4 |pages=371 |doi=10.3390/cells8040371 |doi-access=free |issn=2073-4409 |pmc=6523504 |pmid=31018602}}</ref>
The first sRNA discovered was in 1984 where [[MicF RNA|MicF]] was found to regulate the outer cell membrane in ''[[Escherichia coli|E. Coli]]'' by inhibiting the production of the protein ompF and ompC.<ref>{{Cite journal |last1=Mizuno |first1=T |last2=Chou |first2=M Y |last3=Inouye |first3=M |date=April 1984 |title=A unique mechanism regulating gene expression: translational inhibition by a complementary RNA transcript (micRNA). |journal=Proceedings of the National Academy of Sciences |volume=81 |issue=7 |pages=1966–1970 |doi=10.1073/pnas.81.7.1966 |doi-access=free |pmc=345417 |pmid=6201848|bibcode=1984PNAS...81.1966M }}</ref> The use of sRNA in regulation of gene expression was found alongside its discovery. It was later discovered to be present across all eukaryotic organisms. In 1998 it was discovered that the sRNA can be transferred between organisms. It was later discovered in 2011 that sRNA are transferred from cell to cell inside an organism as well.<ref>{{Cite journal |last1=Zeng |first1=Jun |last2=Gupta |first2=Vijai Kumar |last3=Jiang |first3=Yueming |last4=Yang |first4=Bao |last5=Gong |first5=Liang |last6=Zhu |first6=Hong |date=2019-04-23 |title=Cross-Kingdom Small RNAs Among Animals, Plants and Microbes |journal=Cells |volume=8 |issue=4 |pages=371 |doi=10.3390/cells8040371 |doi-access=free |issn=2073-4409 |pmc=6523504 |pmid=31018602}}</ref>


== Types of Small RNA ==
== Types of small RNA ==
* [[microRNA]] (miRNA) - an [[RNA]] involved in [[RNA interference|RNAi]] through gene regulation as well as [[Messenger RNA|mRNA]] degradation<ref>{{Cite journal |last1=Lim |first1=Lee P. |last2=Lau |first2=Nelson C. |last3=Garrett-Engele |first3=Philip |last4=Grimson |first4=Andrew |last5=Schelter |first5=Janell M. |last6=Castle |first6=John |last7=Bartel |first7=David P. |last8=Linsley |first8=Peter S. |last9=Johnson |first9=Jason M. |date=2005-02-17 |title=Microarray analysis shows that some microRNAs downregulate large numbers of target mRNAs |url=https://pubmed.ncbi.nlm.nih.gov/15685193 |journal=Nature |volume=433 |issue=7027 |pages=769–773 |doi=10.1038/nature03315 |issn=1476-4687 |pmid=15685193|bibcode=2005Natur.433..769L }}</ref><ref>{{cite journal |last1=Green |first1=D |last2=Dalmay |first2=T |last3=Chapman |first3=T |title=Microguards and micromessengers of the genome |journal=Heredity |date=February 2016 |volume=116 |issue=2 |pages=125–134 |doi=10.1038/hdy.2015.84|pmid=26419338 |pmc=4806885 |doi-access=free |bibcode=2016Hered.116..125G }}</ref><ref>{{Cite journal |last1=Iwakawa |first1=Hiro-oki |last2=Tomari |first2=Yukihide |date=2022-01-06 |title=Life of RISC: Formation, action, and degradation of RNA-induced silencing complex |url=https://www.sciencedirect.com/science/article/pii/S1097276521010285 |journal=Molecular Cell |volume=82 |issue=1 |pages=30–43 |doi=10.1016/j.molcel.2021.11.026 |pmid=34942118 |issn=1097-2765}}</ref>
* [[microRNA]] (miRNA) - an [[RNA]] involved in [[RNA interference|RNAi]] through gene regulation as well as [[Messenger RNA|mRNA]] degradation<ref>{{Cite journal |last1=Lim |first1=Lee P. |last2=Lau |first2=Nelson C. |last3=Garrett-Engele |first3=Philip |last4=Grimson |first4=Andrew |last5=Schelter |first5=Janell M. |last6=Castle |first6=John |last7=Bartel |first7=David P. |last8=Linsley |first8=Peter S. |last9=Johnson |first9=Jason M. |date=2005-02-17 |title=Microarray analysis shows that some microRNAs downregulate large numbers of target mRNAs |url=https://pubmed.ncbi.nlm.nih.gov/15685193 |journal=Nature |volume=433 |issue=7027 |pages=769–773 |doi=10.1038/nature03315 |issn=1476-4687 |pmid=15685193|bibcode=2005Natur.433..769L }}</ref><ref>{{cite journal |last1=Green |first1=D |last2=Dalmay |first2=T |last3=Chapman |first3=T |title=Microguards and micromessengers of the genome |journal=Heredity |date=February 2016 |volume=116 |issue=2 |pages=125–134 |doi=10.1038/hdy.2015.84|pmid=26419338 |pmc=4806885 |doi-access=free |bibcode=2016Hered.116..125G }}</ref><ref>{{Cite journal |last1=Iwakawa |first1=Hiro-oki |last2=Tomari |first2=Yukihide |date=2022-01-06 |title=Life of RISC: Formation, action, and degradation of RNA-induced silencing complex |url=https://www.sciencedirect.com/science/article/pii/S1097276521010285 |journal=Molecular Cell |volume=82 |issue=1 |pages=30–43 |doi=10.1016/j.molcel.2021.11.026 |pmid=34942118 |issn=1097-2765|doi-access=free }}</ref>
* [[File:Functions of Small RNAs.jpg|thumb|Lists the multiple functions of the types of small RNA]][[Piwi-interacting RNA]] (piRNA) - an [[RNA]] that regulates the germ line, [[Transposable element|transposons]], as well as [[Histone|histones]]. It also participates in the argonaute complex.<ref>{{Cite journal |last1=Wu |first1=Xi |last2=Pan |first2=Yutian |last3=Fang |first3=Yuan |last4=Zhang |first4=Jingxin |last5=Xie |first5=Mengyan |last6=Yang |first6=Fengming |last7=Yu |first7=Tao |last8=Ma |first8=Pei |last9=Li |first9=Wei |last10=Shu |first10=Yongqian |date=2020-09-04 |title=The Biogenesis and Functions of piRNAs in Human Diseases |journal=Molecular Therapy - Nucleic Acids |volume=21 |pages=108–120 |doi=10.1016/j.omtn.2020.05.023 |pmid=32516734 |pmc=7283962 |issn=2162-2531}}</ref>
* [[File:Functions of Small RNAs.jpg|thumb|Lists the multiple functions of the types of small RNA]][[Piwi-interacting RNA]] (piRNA) - an [[RNA]] that regulates the germ line, [[Transposable element|transposons]], as well as [[Histone|histones]]. It also participates in the argonaute complex.<ref>{{Cite journal |last1=Wu |first1=Xi |last2=Pan |first2=Yutian |last3=Fang |first3=Yuan |last4=Zhang |first4=Jingxin |last5=Xie |first5=Mengyan |last6=Yang |first6=Fengming |last7=Yu |first7=Tao |last8=Ma |first8=Pei |last9=Li |first9=Wei |last10=Shu |first10=Yongqian |date=2020-09-04 |title=The Biogenesis and Functions of piRNAs in Human Diseases |journal=Molecular Therapy - Nucleic Acids |volume=21 |pages=108–120 |doi=10.1016/j.omtn.2020.05.023 |pmid=32516734 |pmc=7283962 |issn=2162-2531}}</ref>
* QDE-2 interfering RNA (qiRNA) - an [[RNA]] that regulates gene expression after [[DNA]] damage<ref>{{Cite journal |last1=Lee |first1=Heng-Chi |last2=Chang |first2=Shwu-Shin |last3=Choudhary |first3=Swati |last4=Aalto |first4=Antti P. |last5=Maiti |first5=Mekhala |last6=Bamford |first6=Dennis H. |last7=Liu |first7=Yi |date=2009-05-14 |title=qiRNA is a new type of small interfering RNA induced by DNA damage |journal=Nature |volume=459 |issue=7244 |pages=274–277 |doi=10.1038/nature08041 |issn=1476-4687 |pmc=2859615 |pmid=19444217|bibcode=2009Natur.459..274L }}</ref>
* QDE-2 interfering RNA (qiRNA) - an [[RNA]] that regulates gene expression after [[DNA]] damage<ref>{{Cite journal |last1=Lee |first1=Heng-Chi |last2=Chang |first2=Shwu-Shin |last3=Choudhary |first3=Swati |last4=Aalto |first4=Antti P. |last5=Maiti |first5=Mekhala |last6=Bamford |first6=Dennis H. |last7=Liu |first7=Yi |date=2009-05-14 |title=qiRNA is a new type of small interfering RNA induced by DNA damage |journal=Nature |volume=459 |issue=7244 |pages=274–277 |doi=10.1038/nature08041 |issn=1476-4687 |pmc=2859615 |pmid=19444217|bibcode=2009Natur.459..274L }}</ref>
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[[Category:Non-coding RNA]]
[[Category:Non-coding RNA]]
{{microbiology-stub}}


[[de:Kleine RNA]]
[[de:Kleine RNA]]
[[hr:Mala RNK]]
[[hr:Mala RNK]]

Latest revision as of 12:37, 3 June 2025

Template:Short descriptionScript error: No such module "For".Script error: No such module "Labelled list hatnote". Small RNA (sRNA) are polymeric RNA molecules that are less than 200 nucleotides in length, and are usually non-coding.[1] RNA silencing is often a function of these molecules, with the most common and well-studied example being RNA interference (RNAi), in which endogenously (from within the organism) expressed microRNA (miRNA) or endogenously/exogenously (from outside the organism) derived small interfering RNA (siRNA) induces the degradation of complementary messenger RNA.[2] Other classes of small RNA have been identified, including piwi-interacting RNA (piRNA) and its subspecies repeat associated small interfering RNA (rasiRNA).[3] Small RNA "is unable to induce RNAi alone, and to accomplish the task it must form the core of the RNA–protein complex termed the RNA-induced silencing complex (RISC), specifically with Argonaute protein".[4]Template:Rp

File:Rna interference plos.svg
A simplified overview of RNAi.

Small RNA have been detected or sequenced using a range of techniques, including directly by MicroRNA sequencing on several sequencing platforms,[5][6][7] or indirectly through genome sequencing and analysis.[8] Identification of miRNAs has been evaluated in detecting human disease, such as breast cancer.[6] Peripheral blood mononuclear cell (PBMC) miRNA expression has been studied as potential biomarker for different neurological disorders such as Parkinson's disease,[9] Multiple sclerosis.[10] Evaluating small RNA is useful for certain kinds of study because its molecules "do not need to be fragmented prior to library preparation".[4]Template:Rp

Discovery

The first sRNA discovered was in 1984 where MicF was found to regulate the outer cell membrane in E. Coli by inhibiting the production of the protein ompF and ompC.[11] The use of sRNA in regulation of gene expression was found alongside its discovery. It was later discovered to be present across all eukaryotic organisms. In 1998 it was discovered that the sRNA can be transferred between organisms. It was later discovered in 2011 that sRNA are transferred from cell to cell inside an organism as well.[12]

Types of small RNA

In plants

The first known function in plants was discovered in mutants of Arabidopsis. Specifically with decline in function mutations for RNA-dependent RNA polymerase and DICER-like production. This impairment actually enhanced Arabidopsis resistance against Heterodera schachtii and Meloidogyne javanica. Similarly, mutants with reduced Argonaute function - ago1-25, ago1-27, ago2-1, and combined mutants with ago1-27 and ago2-1 - had greater resistance to Meloidogyne incognita. Altogether this demonstrates great dependence of nematode parasitism on plants' own small RNAs.[28]

References

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de:Kleine RNA hr:Mala RNK

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