The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation
| Main Author: | |
|---|---|
| Publication Date: | 2012 |
| Other Authors: | , , , , |
| Format: | Article |
| Language: | eng |
| Source: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Download full: | http://hdl.handle.net/10400.21/2083 |
Summary: | Abstract - Recently, long noncoding RNAs have emerged as pivotal molecules for the regulation of coding genes' expression. These molecules might result from antisense transcription of functional genes originating natural antisense transcripts (NATs) or from transcriptional active pseudogenes. TBCA interacts with β-tubulin and is involved in the folding and dimerization of new tubulin heterodimers, the building blocks of microtubules. Methodology/Principal findings: We found that the mouse genome contains two structurally distinct Tbca genes located in chromosomes 13 (Tbca13) and 16 (Tbca16). Interestingly, the two Tbca genes albeit ubiquitously expressed, present differential expression during mouse testis maturation. In fact, as testis maturation progresses Tbca13 mRNA levels increase progressively, while Tbca16 mRNA levels decrease. This suggests a regulatory mechanism between the two genes and prompted us to investigate the presence of the two proteins. However, using tandem mass spectrometry we were unable to identify the TBCA16 protein in testis extracts even in those corresponding to the maturation step with the highest levels of Tbca16 transcripts. These puzzling results led us to re-analyze the expression of Tbca16. We then detected that Tbca16 transcription produces sense and natural antisense transcripts. Strikingly, the specific depletion by RNAi of these transcripts leads to an increase of Tbca13 transcript levels in a mouse spermatocyte cell line. Conclusions/Significance: Our results demonstrate that Tbca13 mRNA levels are post-transcriptionally regulated by the sense and natural antisense Tbca16 mRNA levels. We propose that this regulatory mechanism operates during spermatogenesis, a process that involves microtubule rearrangements, the assembly of specific microtubule structures and requires critical TBCA levels. |
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The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturationAmino acid sequenceAnimalsBase sequenceCell lineChromosomes, mammalian/geneticsGene expression regulation, developmentalGene knockdown techniquesGenome/geneticsMaleMiceMicrotubule-associated proteins/chemistryMicrotubule-associated proteins/geneticsMicrotubule-associated proteins/metabolismModels, molecularMolecular chaperones/chemistryMolecular chaperones/geneticsMolecular chaperones/metabolismMolecular sequence dataRNA, Antisense/geneticsRNA, Antisense/metabolismRNA, Messenger/geneticsRNA, Messenger/metabolismRNA, Untranslated/geneticsRNA, Untranslated/metabolismSpermatocytes/metabolismSpermatogenesis/geneticsTestis/growth & developmentTestis/metabolismTranscription, GeneticAbstract - Recently, long noncoding RNAs have emerged as pivotal molecules for the regulation of coding genes' expression. These molecules might result from antisense transcription of functional genes originating natural antisense transcripts (NATs) or from transcriptional active pseudogenes. TBCA interacts with β-tubulin and is involved in the folding and dimerization of new tubulin heterodimers, the building blocks of microtubules. Methodology/Principal findings: We found that the mouse genome contains two structurally distinct Tbca genes located in chromosomes 13 (Tbca13) and 16 (Tbca16). Interestingly, the two Tbca genes albeit ubiquitously expressed, present differential expression during mouse testis maturation. In fact, as testis maturation progresses Tbca13 mRNA levels increase progressively, while Tbca16 mRNA levels decrease. This suggests a regulatory mechanism between the two genes and prompted us to investigate the presence of the two proteins. However, using tandem mass spectrometry we were unable to identify the TBCA16 protein in testis extracts even in those corresponding to the maturation step with the highest levels of Tbca16 transcripts. These puzzling results led us to re-analyze the expression of Tbca16. We then detected that Tbca16 transcription produces sense and natural antisense transcripts. Strikingly, the specific depletion by RNAi of these transcripts leads to an increase of Tbca13 transcript levels in a mouse spermatocyte cell line. Conclusions/Significance: Our results demonstrate that Tbca13 mRNA levels are post-transcriptionally regulated by the sense and natural antisense Tbca16 mRNA levels. We propose that this regulatory mechanism operates during spermatogenesis, a process that involves microtubule rearrangements, the assembly of specific microtubule structures and requires critical TBCA levels.PLoSRCIPLNolasco, SofiaBellido, JavierGonçalves, JoãoZabala, Juan CarlosSoares, HelenaTavares, Alexandra2013-01-29T15:23:29Z2012-082012-08-01T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleapplication/pdfhttp://hdl.handle.net/10400.21/2083eng1932-6203info:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-02-12T08:47:11Zoai:repositorio.ipl.pt:10400.21/2083Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T19:57:18.592448Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation |
| title |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation |
| spellingShingle |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation Nolasco, Sofia Amino acid sequence Animals Base sequence Cell line Chromosomes, mammalian/genetics Gene expression regulation, developmental Gene knockdown techniques Genome/genetics Male Mice Microtubule-associated proteins/chemistry Microtubule-associated proteins/genetics Microtubule-associated proteins/metabolism Models, molecular Molecular chaperones/chemistry Molecular chaperones/genetics Molecular chaperones/metabolism Molecular sequence data RNA, Antisense/genetics RNA, Antisense/metabolism RNA, Messenger/genetics RNA, Messenger/metabolism RNA, Untranslated/genetics RNA, Untranslated/metabolism Spermatocytes/metabolism Spermatogenesis/genetics Testis/growth & development Testis/metabolism Transcription, Genetic |
| title_short |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation |
| title_full |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation |
| title_fullStr |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation |
| title_full_unstemmed |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation |
| title_sort |
The expression of tubulin cofactor A (TBCA) is regulated by a noncoding antisense Tbca RNA during testis maturation |
| author |
Nolasco, Sofia |
| author_facet |
Nolasco, Sofia Bellido, Javier Gonçalves, João Zabala, Juan Carlos Soares, Helena Tavares, Alexandra |
| author_role |
author |
| author2 |
Bellido, Javier Gonçalves, João Zabala, Juan Carlos Soares, Helena Tavares, Alexandra |
| author2_role |
author author author author author |
| dc.contributor.none.fl_str_mv |
RCIPL |
| dc.contributor.author.fl_str_mv |
Nolasco, Sofia Bellido, Javier Gonçalves, João Zabala, Juan Carlos Soares, Helena Tavares, Alexandra |
| dc.subject.por.fl_str_mv |
Amino acid sequence Animals Base sequence Cell line Chromosomes, mammalian/genetics Gene expression regulation, developmental Gene knockdown techniques Genome/genetics Male Mice Microtubule-associated proteins/chemistry Microtubule-associated proteins/genetics Microtubule-associated proteins/metabolism Models, molecular Molecular chaperones/chemistry Molecular chaperones/genetics Molecular chaperones/metabolism Molecular sequence data RNA, Antisense/genetics RNA, Antisense/metabolism RNA, Messenger/genetics RNA, Messenger/metabolism RNA, Untranslated/genetics RNA, Untranslated/metabolism Spermatocytes/metabolism Spermatogenesis/genetics Testis/growth & development Testis/metabolism Transcription, Genetic |
| topic |
Amino acid sequence Animals Base sequence Cell line Chromosomes, mammalian/genetics Gene expression regulation, developmental Gene knockdown techniques Genome/genetics Male Mice Microtubule-associated proteins/chemistry Microtubule-associated proteins/genetics Microtubule-associated proteins/metabolism Models, molecular Molecular chaperones/chemistry Molecular chaperones/genetics Molecular chaperones/metabolism Molecular sequence data RNA, Antisense/genetics RNA, Antisense/metabolism RNA, Messenger/genetics RNA, Messenger/metabolism RNA, Untranslated/genetics RNA, Untranslated/metabolism Spermatocytes/metabolism Spermatogenesis/genetics Testis/growth & development Testis/metabolism Transcription, Genetic |
| description |
Abstract - Recently, long noncoding RNAs have emerged as pivotal molecules for the regulation of coding genes' expression. These molecules might result from antisense transcription of functional genes originating natural antisense transcripts (NATs) or from transcriptional active pseudogenes. TBCA interacts with β-tubulin and is involved in the folding and dimerization of new tubulin heterodimers, the building blocks of microtubules. Methodology/Principal findings: We found that the mouse genome contains two structurally distinct Tbca genes located in chromosomes 13 (Tbca13) and 16 (Tbca16). Interestingly, the two Tbca genes albeit ubiquitously expressed, present differential expression during mouse testis maturation. In fact, as testis maturation progresses Tbca13 mRNA levels increase progressively, while Tbca16 mRNA levels decrease. This suggests a regulatory mechanism between the two genes and prompted us to investigate the presence of the two proteins. However, using tandem mass spectrometry we were unable to identify the TBCA16 protein in testis extracts even in those corresponding to the maturation step with the highest levels of Tbca16 transcripts. These puzzling results led us to re-analyze the expression of Tbca16. We then detected that Tbca16 transcription produces sense and natural antisense transcripts. Strikingly, the specific depletion by RNAi of these transcripts leads to an increase of Tbca13 transcript levels in a mouse spermatocyte cell line. Conclusions/Significance: Our results demonstrate that Tbca13 mRNA levels are post-transcriptionally regulated by the sense and natural antisense Tbca16 mRNA levels. We propose that this regulatory mechanism operates during spermatogenesis, a process that involves microtubule rearrangements, the assembly of specific microtubule structures and requires critical TBCA levels. |
| publishDate |
2012 |
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2012-08 2012-08-01T00:00:00Z 2013-01-29T15:23:29Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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article |
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http://hdl.handle.net/10400.21/2083 |
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eng |
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eng |
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1932-6203 |
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PLoS |
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PLoS |
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