Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs

Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs

Abstract NAC proteins comprise of a plant-specific transcription factor (TF) family and play important roles in plant development and stress responses. Switchgrass (Panicum virgatum) is the prime candidate and model bioenergy grass across the world. Excavating agronomically valuable genes is importa...

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Main Authors: Haidong Yan, Ailing Zhang, Yuntian Ye, Bin Xu, Jing Chen, Xiaoyan He, Chengran Wang, Sifan Zhou, Xinquan Zhang, Yan Peng, Xiao Ma, Yanhong Yan, Linkai Huang
Format: Article
Language:English
Published: Nature Publishing Group 2017-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-03435-z
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spelling doaj-16e858797d944b059fe693d6067072372020-12-08T02:45:11ZengNature Publishing GroupScientific Reports2045-23222017-06-017111510.1038/s41598-017-03435-zGenome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACsHaidong Yan0Ailing Zhang1Yuntian Ye2Bin Xu3Jing Chen4Xiaoyan He5Chengran Wang6Sifan Zhou7Xinquan Zhang8Yan Peng9Xiao Ma10Yanhong Yan11Linkai Huang12Department of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Horticulture, College of Horticulture, Sichuan Agricultural UniversityCollege of Grassland Science, Nanjing Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityDepartment of Grassland Science, Animal Science and Technology College, Sichuan Agricultural UniversityAbstract NAC proteins comprise of a plant-specific transcription factor (TF) family and play important roles in plant development and stress responses. Switchgrass (Panicum virgatum) is the prime candidate and model bioenergy grass across the world. Excavating agronomically valuable genes is important for switchgrass molecular breeding. In this study, a total of 251 switchgrass NAC (PvNACs) family genes clustered into 19 subgroups were analyzed, and those potentially involved in stress response or tissue-specific expression patterns were pinpointed. Specifically, 27 PvNACs were considered as abiotic stress-related including four membrane-associated ones. Among 40 tissue-specific PvNACs expression patterns eight factors were identified that might be relevant for lignin biosynthesis and/or secondary cell wall formation. Conserved functional domains and motifs were also identified among the PvNACs and potential association between these motifs and their predicted functions were proposed, that might encourage experimental studies to use PvNACs as possible targets to improve biomass production and abiotic stress tolerance.https://doi.org/10.1038/s41598-017-03435-z
collection DOAJ
language English
format Article
sources DOAJ
author Haidong Yan
Ailing Zhang
Yuntian Ye
Bin Xu
Jing Chen
Xiaoyan He
Chengran Wang
Sifan Zhou
Xinquan Zhang
Yan Peng
Xiao Ma
Yanhong Yan
Linkai Huang
spellingShingle Haidong Yan
Ailing Zhang
Yuntian Ye
Bin Xu
Jing Chen
Xiaoyan He
Chengran Wang
Sifan Zhou
Xinquan Zhang
Yan Peng
Xiao Ma
Yanhong Yan
Linkai Huang
Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs
Scientific Reports
author_facet Haidong Yan
Ailing Zhang
Yuntian Ye
Bin Xu
Jing Chen
Xiaoyan He
Chengran Wang
Sifan Zhou
Xinquan Zhang
Yan Peng
Xiao Ma
Yanhong Yan
Linkai Huang
author_sort Haidong Yan
title Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs
title_short Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs
title_full Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs
title_fullStr Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs
title_full_unstemmed Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs
title_sort genome-wide survey of switchgrass nacs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific nacs
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-06-01
description Abstract NAC proteins comprise of a plant-specific transcription factor (TF) family and play important roles in plant development and stress responses. Switchgrass (Panicum virgatum) is the prime candidate and model bioenergy grass across the world. Excavating agronomically valuable genes is important for switchgrass molecular breeding. In this study, a total of 251 switchgrass NAC (PvNACs) family genes clustered into 19 subgroups were analyzed, and those potentially involved in stress response or tissue-specific expression patterns were pinpointed. Specifically, 27 PvNACs were considered as abiotic stress-related including four membrane-associated ones. Among 40 tissue-specific PvNACs expression patterns eight factors were identified that might be relevant for lignin biosynthesis and/or secondary cell wall formation. Conserved functional domains and motifs were also identified among the PvNACs and potential association between these motifs and their predicted functions were proposed, that might encourage experimental studies to use PvNACs as possible targets to improve biomass production and abiotic stress tolerance.
url https://doi.org/10.1038/s41598-017-03435-z
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