The reference genome and abiotic stress responses of the model perennial grass Brachypodium sylvaticum

Abstract Perennial grasses are important forage crops and emerging biomass crops and have the potential to be more sustainable grain crops. However, most perennial grass crops are difficult experimental subjects due to their large size, difficult genetics, and/or their recalcitrance to transformatio...

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Veröffentlicht in:	G3 : genes - genomes - genetics 2023-12, Vol.14 (1)
Hauptverfasser:	Lei, Li, Gordon, Sean P, Liu, Lifeng, Sade, Nir, Lovell, John T, Rubio Wilhelmi, Maria Del Mar, Singan, Vasanth, Sreedasyam, Avinash, Hestrin, Rachel, Phillips, Jeremy, Hernandez, Bryan T, Barry, Kerrie, Shu, Shengqiang, Jenkins, Jerry, Schmutz, Jeremy, Goodstein, David M, Thilmony, Roger, Blumwald, Eduardo, Vogel, John P
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Biomass Brachypodium - genetics Genes Genome, Plant Genomes Genomics Humans Plant genetics Stress, Physiological - genetics Transcriptome Transposons
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creator	Lei, Li Gordon, Sean P Liu, Lifeng Sade, Nir Lovell, John T Rubio Wilhelmi, Maria Del Mar Singan, Vasanth Sreedasyam, Avinash Hestrin, Rachel Phillips, Jeremy Hernandez, Bryan T Barry, Kerrie Shu, Shengqiang Jenkins, Jerry Schmutz, Jeremy Goodstein, David M Thilmony, Roger Blumwald, Eduardo Vogel, John P
description	Abstract Perennial grasses are important forage crops and emerging biomass crops and have the potential to be more sustainable grain crops. However, most perennial grass crops are difficult experimental subjects due to their large size, difficult genetics, and/or their recalcitrance to transformation. Thus, a tractable model perennial grass could be used to rapidly make discoveries that can be translated to perennial grass crops. Brachypodium sylvaticum has the potential to serve as such a model because of its small size, rapid generation time, simple genetics, and transformability. Here, we provide a high-quality genome assembly and annotation for B. sylvaticum, an essential resource for a modern model system. In addition, we conducted transcriptomic studies under 4 abiotic stresses (water, heat, salt, and freezing). Our results indicate that crowns are more responsive to freezing than leaves which may help them overwinter. We observed extensive transcriptional responses with varying temporal dynamics to all abiotic stresses, including classic heat-responsive genes. These results can be used to form testable hypotheses about how perennial grasses respond to these stresses. Taken together, these results will allow B. sylvaticum to serve as a truly tractable perennial model system.
doi_str_mv	10.1093/g3journal/jkad245
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However, most perennial grass crops are difficult experimental subjects due to their large size, difficult genetics, and/or their recalcitrance to transformation. Thus, a tractable model perennial grass could be used to rapidly make discoveries that can be translated to perennial grass crops. Brachypodium sylvaticum has the potential to serve as such a model because of its small size, rapid generation time, simple genetics, and transformability. Here, we provide a high-quality genome assembly and annotation for B. sylvaticum, an essential resource for a modern model system. In addition, we conducted transcriptomic studies under 4 abiotic stresses (water, heat, salt, and freezing). Our results indicate that crowns are more responsive to freezing than leaves which may help them overwinter. We observed extensive transcriptional responses with varying temporal dynamics to all abiotic stresses, including classic heat-responsive genes. 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subjects	Analysis Biomass Brachypodium - genetics Genes Genome, Plant Genomes Genomics Humans Plant genetics Stress, Physiological - genetics Transcriptome Transposons
title	The reference genome and abiotic stress responses of the model perennial grass Brachypodium sylvaticum
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