Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome

Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome

Sugarcane contributes 80% of global sugar production and to bioethanol generation for the bioenergy industry. Its productivity is threatened by drought that can cause up to 60% yield loss. This study used RNA-Seq to gain a better understanding of the underlying mechanism by which drought-tolerant su...

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Main Authors: Wanapinun Nawae, Jeremy R. Shearman, Sithichoke Tangphatsornruang, Prapat Punpee, Thippawan Yoocha, Duangjai Sangsrakru, Chaiwat Naktang, Chutima Sonthirod, Warodom Wirojsirasak, Kittipat Ukoskit, Klanarong Sriroth, Peeraya Klomsa-ard, Wirulda Pootakham
Format: Article
Language:English
Published: PeerJ Inc. 2020-07-01
Series:PeerJ
Subjects:
Sugarcane
Drought
Drought tolerance
Early response
Transcriptome
RNA-Seq
Online Access:https://peerj.com/articles/9608.pdf
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spelling doaj-3d42ed0abc5f4858b0225a8bb80d78f32020-11-25T01:28:41ZengPeerJ Inc.PeerJ2167-83592020-07-018e960810.7717/peerj.9608Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptomeWanapinun Nawae0Jeremy R. Shearman1Sithichoke Tangphatsornruang2Prapat Punpee3Thippawan Yoocha4Duangjai Sangsrakru5Chaiwat Naktang6Chutima Sonthirod7Warodom Wirojsirasak8Kittipat Ukoskit9Klanarong Sriroth10Peeraya Klomsa-ard11Wirulda Pootakham12National Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandNational Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandNational Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandMitr Phol Sugarcane Research Center Co., Ltd., Phu Khiao, Chaiyaphum, ThailandNational Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandNational Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandNational Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandNational Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandMitr Phol Sugarcane Research Center Co., Ltd., Phu Khiao, Chaiyaphum, ThailandDepartment of Biotechnology, Faculty of Science and Technology, Thammasat University (Rangsit Campus), Pathum Thani, ThailandMitr Phol Sugarcane Research Center Co., Ltd., Phu Khiao, Chaiyaphum, ThailandMitr Phol Sugarcane Research Center Co., Ltd., Phu Khiao, Chaiyaphum, ThailandNational Omics Center (NOC), National Science and Technology Development Agency (NSTDA), Thailand Science Park, Pathum Thani, ThailandSugarcane contributes 80% of global sugar production and to bioethanol generation for the bioenergy industry. Its productivity is threatened by drought that can cause up to 60% yield loss. This study used RNA-Seq to gain a better understanding of the underlying mechanism by which drought-tolerant sugarcane copes with water stress. We compared gene expression in KPS01-12 (drought-tolerant genotype) and UT12 (drought-sensitive genotype) that have significantly different yield loss rates under drought conditions. We treated KPS01-12 and UT12 with mild and moderate water stress and found differentially expressed genes in various biological processes. KPS01-12 had higher expression of genes that were involved in water retention, antioxidant secondary metabolite biosynthesis, and oxidative and osmotic stress response than UT12. In contrast, the sensitive genotype had more down-regulated genes that were involved in photosynthesis, carbon fixation and Calvin cycle than the tolerant genotype. Our obtained expression profiles suggest that the tolerant sugarcane has a more effective genetic response than the sensitive genotype at the initiation of drought stress. The knowledge gained from this study may be applied in breeding programs to improve sugarcane production in drought conditions.https://peerj.com/articles/9608.pdfSugarcaneDroughtDrought toleranceEarly responseTranscriptomeRNA-Seq
collection DOAJ
language English
format Article
sources DOAJ
author Wanapinun Nawae
Jeremy R. Shearman
Sithichoke Tangphatsornruang
Prapat Punpee
Thippawan Yoocha
Duangjai Sangsrakru
Chaiwat Naktang
Chutima Sonthirod
Warodom Wirojsirasak
Kittipat Ukoskit
Klanarong Sriroth
Peeraya Klomsa-ard
Wirulda Pootakham
spellingShingle Wanapinun Nawae
Jeremy R. Shearman
Sithichoke Tangphatsornruang
Prapat Punpee
Thippawan Yoocha
Duangjai Sangsrakru
Chaiwat Naktang
Chutima Sonthirod
Warodom Wirojsirasak
Kittipat Ukoskit
Klanarong Sriroth
Peeraya Klomsa-ard
Wirulda Pootakham
Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome
PeerJ
Sugarcane
Drought
Drought tolerance
Early response
Transcriptome
RNA-Seq
author_facet Wanapinun Nawae
Jeremy R. Shearman
Sithichoke Tangphatsornruang
Prapat Punpee
Thippawan Yoocha
Duangjai Sangsrakru
Chaiwat Naktang
Chutima Sonthirod
Warodom Wirojsirasak
Kittipat Ukoskit
Klanarong Sriroth
Peeraya Klomsa-ard
Wirulda Pootakham
author_sort Wanapinun Nawae
title Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome
title_short Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome
title_full Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome
title_fullStr Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome
title_full_unstemmed Differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome
title_sort differential expression between drought-tolerant and drought-sensitive sugarcane under mild and moderate water stress as revealed by a comparative analysis of leaf transcriptome
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-07-01
description Sugarcane contributes 80% of global sugar production and to bioethanol generation for the bioenergy industry. Its productivity is threatened by drought that can cause up to 60% yield loss. This study used RNA-Seq to gain a better understanding of the underlying mechanism by which drought-tolerant sugarcane copes with water stress. We compared gene expression in KPS01-12 (drought-tolerant genotype) and UT12 (drought-sensitive genotype) that have significantly different yield loss rates under drought conditions. We treated KPS01-12 and UT12 with mild and moderate water stress and found differentially expressed genes in various biological processes. KPS01-12 had higher expression of genes that were involved in water retention, antioxidant secondary metabolite biosynthesis, and oxidative and osmotic stress response than UT12. In contrast, the sensitive genotype had more down-regulated genes that were involved in photosynthesis, carbon fixation and Calvin cycle than the tolerant genotype. Our obtained expression profiles suggest that the tolerant sugarcane has a more effective genetic response than the sensitive genotype at the initiation of drought stress. The knowledge gained from this study may be applied in breeding programs to improve sugarcane production in drought conditions.
topic Sugarcane
Drought
Drought tolerance
Early response
Transcriptome
RNA-Seq
url https://peerj.com/articles/9608.pdf
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