Molecular Biology of the Transfer RNA Revisited

Transfer RNAs (tRNAs) are one of the classical non-coding RNAs whose lengths are approximately 70–100 bases. The secondary structure of tRNAs can be represented as the cloverleaf with 4 stems, and the three dimensional structure as an “L” shape. Historically, the basic function of tRNA as an essenti...

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Autores:
Tipo de recurso:
Book
Fecha de publicación:
2014
Institución:
Universidad de Bogotá Jorge Tadeo Lozano
Repositorio:
Expeditio: repositorio UTadeo
Idioma:
eng
OAI Identifier:
oai:expeditiorepositorio.utadeo.edu.co:20.500.12010/14273
Acceso en línea:
https://www.frontiersin.org/research-topics/1729/molecular-biology-of-the-transfer-rna-revisited
http://hdl.handle.net/20.500.12010/14273
Palabra clave:
Genetics
Science (General)
Molecular biology
Transfer RNA
Human diseases
Rights
License
Abierto (Texto Completo)
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dc.title.spa.fl_str_mv Molecular Biology of the Transfer RNA Revisited
title Molecular Biology of the Transfer RNA Revisited
spellingShingle Molecular Biology of the Transfer RNA Revisited
Genetics
Science (General)
Molecular biology
Transfer RNA
Human diseases
title_short Molecular Biology of the Transfer RNA Revisited
title_full Molecular Biology of the Transfer RNA Revisited
title_fullStr Molecular Biology of the Transfer RNA Revisited
title_full_unstemmed Molecular Biology of the Transfer RNA Revisited
title_sort Molecular Biology of the Transfer RNA Revisited
dc.subject.spa.fl_str_mv Genetics
Science (General)
Molecular biology
topic Genetics
Science (General)
Molecular biology
Transfer RNA
Human diseases
dc.subject.lemb.spa.fl_str_mv Transfer RNA
dc.subject.keyword.spa.fl_str_mv Human diseases
description Transfer RNAs (tRNAs) are one of the classical non-coding RNAs whose lengths are approximately 70–100 bases. The secondary structure of tRNAs can be represented as the cloverleaf with 4 stems, and the three dimensional structure as an “L” shape. Historically, the basic function of tRNA as an essential component of translation was established in 1960s, i.e., each tRNA is charged with a target amino acid and these are delivered to the ribosome during protein synthesis. However, recent data suggests that the role of tRNA in cellular regulation goes beyond this paradigm. In most Archaea and Eukarya, precursor tRNAs are often interrupted by a short intron inserted strictly between the first and second nucleotide downstream of the anticodon, known as canonical nucleotide position (37/38). Recently, a number of reports describe novel aspects of tRNAs in terms of gene diversity, for example, several types of disrupted tRNA genes have been reported in the Archaea and primitive Eukarya, including multiple-intron-containing tRNA genes, split tRNA genes, and permuted tRNA genes. Our understanding of the enzymes involved in tRNA functions (e.g., aminoacyl-tRNA synthetase, tRNA splicing endonuclease, tRNA ligase) has deepened. Moreover, it is well known that tRNA possesses many types of base modifications whose enzymatic regulations remain to be fully elucidated. It was reported that impaired tRNA nuclear-cytoplasmic export links DNA damage and cell-cycle checkpoint. Furthermore, a variety of additional functions of tRNA, beyond its translation of the genetic code, have emerged rapidly. For instance, tRNA cleavage is a conserved part of the responses to a variety of stresses in eukaryotic cells. Age-associated or tissue-specific tRNA fragmentation has also been observed. Several papers suggested that some of these tRNA fragments might be involve in the cellular RNA interference (RNAi) system. These exciting data, have lead to this call for a Research Topic, that plans to revisit and summarize the molecular biology of tRNA. Beyond the topics outlined above, we have highlighted recent developments in bioinformatics tools and databases for tRNA analyses.
publishDate 2014
dc.date.created.none.fl_str_mv 2014
dc.date.accessioned.none.fl_str_mv 2020-10-06T19:57:51Z
dc.date.available.none.fl_str_mv 2020-10-06T19:57:51Z
dc.type.coar.spa.fl_str_mv http://purl.org/coar/resource_type/c_2f33
format http://purl.org/coar/resource_type/c_2f33
dc.identifier.isbn.none.fl_str_mv 978-2-889193-66-0
dc.identifier.issn.none.fl_str_mv 1664-8714
dc.identifier.other.none.fl_str_mv https://www.frontiersin.org/research-topics/1729/molecular-biology-of-the-transfer-rna-revisited
dc.identifier.uri.none.fl_str_mv http://hdl.handle.net/20.500.12010/14273
dc.identifier.doi.none.fl_str_mv 10.3389/978-2-88919-366-0
identifier_str_mv 978-2-889193-66-0
1664-8714
10.3389/978-2-88919-366-0
url https://www.frontiersin.org/research-topics/1729/molecular-biology-of-the-transfer-rna-revisited
http://hdl.handle.net/20.500.12010/14273
dc.language.iso.spa.fl_str_mv eng
language eng
dc.relation.references.none.fl_str_mv Kanai A (2014) Welcome to the new tRNA world! Front. Genet. 5:336. doi: 10.3389/fgene.2014.00336
dc.rights.coar.fl_str_mv http://purl.org/coar/access_right/c_abf2
dc.rights.local.spa.fl_str_mv Abierto (Texto Completo)
dc.rights.creativecommons.none.fl_str_mv https://creativecommons.org/licenses/by/4.0/
rights_invalid_str_mv Abierto (Texto Completo)
https://creativecommons.org/licenses/by/4.0/
http://purl.org/coar/access_right/c_abf2
dc.format.extent.spa.fl_str_mv 165 páginas
dc.format.mimetype.spa.fl_str_mv application/pdf
dc.publisher.spa.fl_str_mv Frontiers Media SA
institution Universidad de Bogotá Jorge Tadeo Lozano
bitstream.url.fl_str_mv https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/14273/1/Molecular%20Biology%20of%20the%20Transfer%20RNA%20Revisited%20%281%29.PDF
https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/14273/2/license.txt
https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/14273/3/Molecular%20Biology%20of%20the%20Transfer%20RNA%20Revisited%20%281%29.PDF.jpg
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repository.name.fl_str_mv Repositorio Institucional - Universidad Jorge Tadeo Lozano
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spelling 2020-10-06T19:57:51Z2020-10-06T19:57:51Z2014978-2-889193-66-01664-8714https://www.frontiersin.org/research-topics/1729/molecular-biology-of-the-transfer-rna-revisitedhttp://hdl.handle.net/20.500.12010/1427310.3389/978-2-88919-366-0165 páginasapplication/pdfengFrontiers Media SAGeneticsScience (General)Molecular biologyTransfer RNAHuman diseasesMolecular Biology of the Transfer RNA RevisitedAbierto (Texto Completo)https://creativecommons.org/licenses/by/4.0/http://purl.org/coar/access_right/c_abf2Kanai A (2014) Welcome to the new tRNA world! Front. Genet. 5:336. doi: 10.3389/fgene.2014.00336Transfer RNAs (tRNAs) are one of the classical non-coding RNAs whose lengths are approximately 70–100 bases. The secondary structure of tRNAs can be represented as the cloverleaf with 4 stems, and the three dimensional structure as an “L” shape. Historically, the basic function of tRNA as an essential component of translation was established in 1960s, i.e., each tRNA is charged with a target amino acid and these are delivered to the ribosome during protein synthesis. However, recent data suggests that the role of tRNA in cellular regulation goes beyond this paradigm. In most Archaea and Eukarya, precursor tRNAs are often interrupted by a short intron inserted strictly between the first and second nucleotide downstream of the anticodon, known as canonical nucleotide position (37/38). Recently, a number of reports describe novel aspects of tRNAs in terms of gene diversity, for example, several types of disrupted tRNA genes have been reported in the Archaea and primitive Eukarya, including multiple-intron-containing tRNA genes, split tRNA genes, and permuted tRNA genes. Our understanding of the enzymes involved in tRNA functions (e.g., aminoacyl-tRNA synthetase, tRNA splicing endonuclease, tRNA ligase) has deepened. Moreover, it is well known that tRNA possesses many types of base modifications whose enzymatic regulations remain to be fully elucidated. It was reported that impaired tRNA nuclear-cytoplasmic export links DNA damage and cell-cycle checkpoint. Furthermore, a variety of additional functions of tRNA, beyond its translation of the genetic code, have emerged rapidly. For instance, tRNA cleavage is a conserved part of the responses to a variety of stresses in eukaryotic cells. Age-associated or tissue-specific tRNA fragmentation has also been observed. Several papers suggested that some of these tRNA fragments might be involve in the cellular RNA interference (RNAi) system. These exciting data, have lead to this call for a Research Topic, that plans to revisit and summarize the molecular biology of tRNA. Beyond the topics outlined above, we have highlighted recent developments in bioinformatics tools and databases for tRNA analyses.http://purl.org/coar/resource_type/c_2f33GeneticsScience (General)ORIGINALMolecular Biology of the Transfer RNA Revisited (1).PDFMolecular Biology of the Transfer RNA Revisited (1).PDFVer documentoapplication/pdf30176220https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/14273/1/Molecular%20Biology%20of%20the%20Transfer%20RNA%20Revisited%20%281%29.PDFdcbe426f1236e0562a755e950343b5c2MD51open accessLICENSElicense.txtlicense.txttext/plain; charset=utf-82938https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/14273/2/license.txtabceeb1c943c50d3343516f9dbfc110fMD52open accessTHUMBNAILMolecular Biology of the Transfer RNA Revisited (1).PDF.jpgMolecular Biology of the Transfer RNA Revisited (1).PDF.jpgIM Thumbnailimage/jpeg20300https://expeditiorepositorio.utadeo.edu.co/bitstream/20.500.12010/14273/3/Molecular%20Biology%20of%20the%20Transfer%20RNA%20Revisited%20%281%29.PDF.jpg9d0da51bbbca24947dd396d0f8547b3fMD53open access20.500.12010/14273oai:expeditiorepositorio.utadeo.edu.co:20.500.12010/142732021-02-22 19:18:58.942open accessRepositorio Institucional - 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