De novo transcriptome assembly of Zanthoxylum bungeanum using Illumina sequencing for evolutionary analysis and simple sequence repeat marker development

Zanthoxylum , an ancient economic crop in Asia, has a satisfying aromatic taste and immense medicinal values. A lack of genomic information and genetic markers has limited the evolutionary analysis and genetic improvement of Zanthoxylum species and their close relatives. To better understand the evo...

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Veröffentlicht in:	Scientific reports 2017-12, Vol.7 (1), p.16754-11, Article 16754
Hauptverfasser:	Feng, Shijing, Zhao, Lili, Liu, Zhenshan, Liu, Yulin, Yang, Tuxi, Wei, Anzhi
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Sprache:	eng
Schlagworte:	45 45/77 631/181/757 631/449/2492 631/449/2669 Agricultural production Classification Computational Biology - methods Cultivars Divergence Domestication Evolution Evolution, Molecular Gene expression Gene Expression Profiling Gene Ontology Genetic improvement Genetic Markers Genomes High-Throughput Nucleotide Sequencing Humanities and Social Sciences Microsatellite Repeats Molecular Sequence Annotation multidisciplinary Open Reading Frames Phylogeny Plant breeding Polymorphism, Single Nucleotide Positive selection Proteins Science Science (multidisciplinary) Signal transduction Transcriptome Zanthoxylum Zanthoxylum - classification Zanthoxylum - genetics
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description	Zanthoxylum , an ancient economic crop in Asia, has a satisfying aromatic taste and immense medicinal values. A lack of genomic information and genetic markers has limited the evolutionary analysis and genetic improvement of Zanthoxylum species and their close relatives. To better understand the evolution, domestication, and divergence of Zanthoxylum , we present a de novo transcriptome analysis of an elite cultivar of Z. bungeanum using Illumina sequencing; we then developed simple sequence repeat markers for identification of Zanthoxylum . In total, we predicted 45,057 unigenes and 22,212 protein coding sequences, approximately 90% of which showed significant similarities to known proteins in databases. Phylogenetic analysis indicated that Zanthoxylum is relatively recent and estimated to have diverged from Citrus ca . 36.5–37.7 million years ago. We also detected a whole-genome duplication event in Zanthoxylum that occurred 14 million years ago. We found no protein coding sequences that were significantly under positive selection by Ka / Ks . Simple sequence repeat analysis divided 31 Zanthoxylum cultivars and landraces into three major groups. This Zanthoxylum reference transcriptome provides crucial information for the evolutionary study of the Zanthoxylum genus and the Rutaceae family, and facilitates the establishment of more effective Zanthoxylum breeding programs.
doi_str_mv	10.1038/s41598-017-15911-7
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A lack of genomic information and genetic markers has limited the evolutionary analysis and genetic improvement of Zanthoxylum species and their close relatives. To better understand the evolution, domestication, and divergence of Zanthoxylum , we present a de novo transcriptome analysis of an elite cultivar of Z. bungeanum using Illumina sequencing; we then developed simple sequence repeat markers for identification of Zanthoxylum . In total, we predicted 45,057 unigenes and 22,212 protein coding sequences, approximately 90% of which showed significant similarities to known proteins in databases. Phylogenetic analysis indicated that Zanthoxylum is relatively recent and estimated to have diverged from Citrus ca . 36.5–37.7 million years ago. We also detected a whole-genome duplication event in Zanthoxylum that occurred 14 million years ago. We found no protein coding sequences that were significantly under positive selection by Ka / Ks . Simple sequence repeat analysis divided 31 Zanthoxylum cultivars and landraces into three major groups. 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A lack of genomic information and genetic markers has limited the evolutionary analysis and genetic improvement of Zanthoxylum species and their close relatives. To better understand the evolution, domestication, and divergence of Zanthoxylum , we present a de novo transcriptome analysis of an elite cultivar of Z. bungeanum using Illumina sequencing; we then developed simple sequence repeat markers for identification of Zanthoxylum . In total, we predicted 45,057 unigenes and 22,212 protein coding sequences, approximately 90% of which showed significant similarities to known proteins in databases. Phylogenetic analysis indicated that Zanthoxylum is relatively recent and estimated to have diverged from Citrus ca . 36.5–37.7 million years ago. We also detected a whole-genome duplication event in Zanthoxylum that occurred 14 million years ago. We found no protein coding sequences that were significantly under positive selection by Ka / Ks . 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subjects	45 45/77 631/181/757 631/449/2492 631/449/2669 Agricultural production Classification Computational Biology - methods Cultivars Divergence Domestication Evolution Evolution, Molecular Gene expression Gene Expression Profiling Gene Ontology Genetic improvement Genetic Markers Genomes High-Throughput Nucleotide Sequencing Humanities and Social Sciences Microsatellite Repeats Molecular Sequence Annotation multidisciplinary Open Reading Frames Phylogeny Plant breeding Polymorphism, Single Nucleotide Positive selection Proteins Science Science (multidisciplinary) Signal transduction Transcriptome Zanthoxylum Zanthoxylum - classification Zanthoxylum - genetics
title	De novo transcriptome assembly of Zanthoxylum bungeanum using Illumina sequencing for evolutionary analysis and simple sequence repeat marker development
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