Molecular Cloning and Comparative Analysis of a PR-1-RK Hybrid Gene from Triticum urartu, the A-Genome Progenitor of Hexaploid Wheat

Wheat genomes encode pathogenesis-related protein 1 (PR-1)/receptor-like kinase (RK) hybrid proteins as first reported for hexaploid wheat. To date, no PR-1-RK-like proteins have been identified in the diploid wild wheat Triticum urartu , the A-genome progenitor of hexaploid wheat. Here, we report t...

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Published in	Plant molecular biology reporter Vol. 36; no. 3; pp. 469 - 483
Main Authors	Lu, Shunwen, Faris, Justin D., Edwards, Michael C.
Format	Journal Article
Language	English
Published	New York Springer US 01.06.2018 Springer Nature B.V
Subjects	Alternative splicing Bioinformatics Biomedical and Life Sciences Cellular stress response Cloning Commonality Comparative analysis Deoxyribonucleic acid diploidy DNA Gene expression Genes genetic variation Genomes hexaploidy hybrids Isoforms Life Sciences messenger RNA Metabolomics Molecular chains molecular cloning Natural populations Nucleotide sequence Original Paper Pathogenesis pathogenesis-related proteins pathogens Plant Breeding/Biotechnology Plant Sciences Proteins Proteomics pseudogenes Recombination salt stress sequence analysis Splicing Transcription transcription (genetics) Triticum aestivum Triticum urartu Wheat Repetitive DNA Plant stress response pathways Pathogenesis-related proteins Diploid wheat Receptor-like protein kinase Pre-mRNA processing
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Abstract	Wheat genomes encode pathogenesis-related protein 1 (PR-1)/receptor-like kinase (RK) hybrid proteins as first reported for hexaploid wheat. To date, no PR-1-RK-like proteins have been identified in the diploid wild wheat Triticum urartu , the A-genome progenitor of hexaploid wheat. Here, we report the cloning and characterization of a PR-1-RK hybrid gene ( TuPr-1-rk) and a related pseudogene ( TuPr-1-rkP ) from T. urartu and comparative analysis of the wheat Pr-1-rk genes. TuPr-1-rk and TuPr-1-rkP were found to distribute independently among the natural populations of T. urartu , and the accession G1812 (the source of the published genome) was found to contain TuPr-1-rkP only. Sequence analysis revealed that TuPr-1-rkP originated from TuPr-1-rk through repetitive DNA-associated recombination. Transcriptional analysis confirmed that TuPr-1-rk is expressed in response to salinity stress and pathogen attack and is subject to alternative splicing (AS) as are the Pr-1-rk genes in hexaploid wheat, whereas TuPr-1-rkP is completely silenced. Thirteen AS-derived TuPr-1-rk mRNA isoforms were identified, and a comparable abundance was found between one encoding the full-length protein and those encoding C-terminally truncated proteins. Comparative analysis revealed that the wheat PR-1-RK proteins are highly conserved despite the substantial genomic variations of the coding genes. The identification of the TuPr-1-rk gene adds an important ancestral member to the wheat PR-1-RK gene family, and the observed commonality in expression patterns and the conservation of the PR-1-RK proteins support the notion that the Pr-1-rk gene may play important roles in stress response-related pathways in wheat.
AbstractList	Wheat genomes encode pathogenesis-related protein 1 (PR-1)/receptor-like kinase (RK) hybrid proteins as first reported for hexaploid wheat. To date, no PR-1-RK-like proteins have been identified in the diploid wild wheat Triticum urartu, the A-genome progenitor of hexaploid wheat. Here, we report the cloning and characterization of a PR-1-RK hybrid gene (TuPr-1-rk) and a related pseudogene (TuPr-1-rkP) from T. urartu and comparative analysis of the wheat Pr-1-rk genes. TuPr-1-rk and TuPr-1-rkP were found to distribute independently among the natural populations of T. urartu, and the accession G1812 (the source of the published genome) was found to contain TuPr-1-rkP only. Sequence analysis revealed that TuPr-1-rkP originated from TuPr-1-rk through repetitive DNA-associated recombination. Transcriptional analysis confirmed that TuPr-1-rk is expressed in response to salinity stress and pathogen attack and is subject to alternative splicing (AS) as are the Pr-1-rk genes in hexaploid wheat, whereas TuPr-1-rkP is completely silenced. Thirteen AS-derived TuPr-1-rk mRNA isoforms were identified, and a comparable abundance was found between one encoding the full-length protein and those encoding C-terminally truncated proteins. Comparative analysis revealed that the wheat PR-1-RK proteins are highly conserved despite the substantial genomic variations of the coding genes. The identification of the TuPr-1-rk gene adds an important ancestral member to the wheat PR-1-RK gene family, and the observed commonality in expression patterns and the conservation of the PR-1-RK proteins support the notion that the Pr-1-rk gene may play important roles in stress response-related pathways in wheat. Wheat genomes encode pathogenesis-related protein 1 (PR-1)/receptor-like kinase (RK) hybrid proteins as first reported for hexaploid wheat. To date, no PR-1-RK-like proteins have been identified in the diploid wild wheat Triticum urartu , the A-genome progenitor of hexaploid wheat. Here, we report the cloning and characterization of a PR-1-RK hybrid gene ( TuPr-1-rk) and a related pseudogene ( TuPr-1-rkP ) from T. urartu and comparative analysis of the wheat Pr-1-rk genes. TuPr-1-rk and TuPr-1-rkP were found to distribute independently among the natural populations of T. urartu , and the accession G1812 (the source of the published genome) was found to contain TuPr-1-rkP only. Sequence analysis revealed that TuPr-1-rkP originated from TuPr-1-rk through repetitive DNA-associated recombination. Transcriptional analysis confirmed that TuPr-1-rk is expressed in response to salinity stress and pathogen attack and is subject to alternative splicing (AS) as are the Pr-1-rk genes in hexaploid wheat, whereas TuPr-1-rkP is completely silenced. Thirteen AS-derived TuPr-1-rk mRNA isoforms were identified, and a comparable abundance was found between one encoding the full-length protein and those encoding C-terminally truncated proteins. Comparative analysis revealed that the wheat PR-1-RK proteins are highly conserved despite the substantial genomic variations of the coding genes. The identification of the TuPr-1-rk gene adds an important ancestral member to the wheat PR-1-RK gene family, and the observed commonality in expression patterns and the conservation of the PR-1-RK proteins support the notion that the Pr-1-rk gene may play important roles in stress response-related pathways in wheat.
Author	Faris, Justin D. Lu, Shunwen Edwards, Michael C.
Author_xml	– sequence: 1 givenname: Shunwen orcidid: 0000-0003-1347-4646 surname: Lu fullname: Lu, Shunwen email: Shunwen.Lu@ars.usda.gov organization: Cereal Crops Research Unit, USDA-ARS – sequence: 2 givenname: Justin D. surname: Faris fullname: Faris, Justin D. organization: Cereal Crops Research Unit, USDA-ARS – sequence: 3 givenname: Michael C. surname: Edwards fullname: Edwards, Michael C. organization: Cereal Crops Research Unit, USDA-ARS
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Snippet	Wheat genomes encode pathogenesis-related protein 1 (PR-1)/receptor-like kinase (RK) hybrid proteins as first reported for hexaploid wheat. To date, no...
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SubjectTerms	Alternative splicing Bioinformatics Biomedical and Life Sciences Cellular stress response Cloning Commonality Comparative analysis Deoxyribonucleic acid diploidy DNA Gene expression Genes genetic variation Genomes hexaploidy hybrids Isoforms Life Sciences messenger RNA Metabolomics Molecular chains molecular cloning Natural populations Nucleotide sequence Original Paper Pathogenesis pathogenesis-related proteins pathogens Plant Breeding/Biotechnology Plant Sciences Proteins Proteomics pseudogenes Recombination salt stress sequence analysis Splicing Transcription transcription (genetics) Triticum aestivum Triticum urartu Wheat
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Title	Molecular Cloning and Comparative Analysis of a PR-1-RK Hybrid Gene from Triticum urartu, the A-Genome Progenitor of Hexaploid Wheat
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