Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice

Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice

Abstract Background In Asian rice production, an increasing number of countries now choose the direct seeding mode because of rising costs, labour shortages and water shortages. The ability of rice seeds to undergo anaerobic germination (AG) plays an important role in the success of direct seeding....

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Main Authors: Ling Su, Jing Yang, Dandan Li, Ziai Peng, Aoyun Xia, Meng Yang, Lixin Luo, Cuihong Huang, Jiafeng Wang, Hui Wang, Zhiqiang Chen, Tao Guo
Format: Article
Language:English
Published: SpringerOpen 2021-01-01
Series:Rice
Subjects:
Rice
Anaerobic germination tolerance
Coleoptile
Dynamic GWAS
RNA-seq
Candidate gene
Online Access:https://doi.org/10.1186/s12284-020-00444-x
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spelling doaj-0d3919707d06461090c264a08edb00cd2021-01-10T12:54:17ZengSpringerOpenRice1939-84251939-84332021-01-0114112210.1186/s12284-020-00444-xDynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in riceLing Su0Jing Yang1Dandan Li2Ziai Peng3Aoyun Xia4Meng Yang5Lixin Luo6Cuihong Huang7Jiafeng Wang8Hui Wang9Zhiqiang Chen10Tao Guo11National Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityNational Engineering Research Center of Plant Space Breeding, South China Agricultural UniversityAbstract Background In Asian rice production, an increasing number of countries now choose the direct seeding mode because of rising costs, labour shortages and water shortages. The ability of rice seeds to undergo anaerobic germination (AG) plays an important role in the success of direct seeding. Results In this study, we used 2,123,725 single nucleotide polymorphism (SNP) markers based on resequencing to conduct a dynamic genome-wide association study (GWAS) of coleoptile length (CL) and coleoptile diameter (CD) in 209 natural rice populations. A total of 26 SNP loci were detected in these two phenotypes, of which 5 overlapped with previously reported loci (S1_ 39674301, S6_ 20797781, S7_ 18722403, S8_ 9946213, S11_ 19165397), and two sites were detected repeatedly at different time points (S3_ 24689629 and S5_ 27918754). We suggest that these 7 loci (−log10 (P) value > 7.3271) are the key sites that affect AG tolerance. To screen the candidate genes more effectively, we sequenced the transcriptome of the flooding-tolerant variety R151 in six key stages, including anaerobic (AN) and the oxygen conversion point (AN-A), and obtained high-quality differential expression profiles. Four reliable candidate genes were identified: Os01g0911700 (OsVP1), Os05g0560900 (OsGA2ox8), Os05g0562200 (OsDi19–1) and Os06g0548200. Then qRT-PCR and LC-MS/ MS targeting metabolite detection technology were used to further verify that the up-regulated expression of these four candidate genes was closely related to AG. Conclusion The four novel candidate genes were associated with gibberellin (GA) and abscisic acid (ABA) regulation and cell wall metabolism under oxygen-deficiency conditions and promoted coleoptile elongation while avoiding adverse effects, allowing the coleoptile to obtain oxygen, escape the low-oxygen environment and germinate rapidly. The results of this study improve our understanding of the genetic basis of AG in rice seeds, which is conducive to the selection of flooding-tolerant varieties suitable for direct seeding.https://doi.org/10.1186/s12284-020-00444-xRiceAnaerobic germination toleranceColeoptileDynamic GWASRNA-seqCandidate gene
collection DOAJ
language English
format Article
sources DOAJ
author Ling Su
Jing Yang
Dandan Li
Ziai Peng
Aoyun Xia
Meng Yang
Lixin Luo
Cuihong Huang
Jiafeng Wang
Hui Wang
Zhiqiang Chen
Tao Guo
spellingShingle Ling Su
Jing Yang
Dandan Li
Ziai Peng
Aoyun Xia
Meng Yang
Lixin Luo
Cuihong Huang
Jiafeng Wang
Hui Wang
Zhiqiang Chen
Tao Guo
Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice
Rice
Rice
Anaerobic germination tolerance
Coleoptile
Dynamic GWAS
RNA-seq
Candidate gene
author_facet Ling Su
Jing Yang
Dandan Li
Ziai Peng
Aoyun Xia
Meng Yang
Lixin Luo
Cuihong Huang
Jiafeng Wang
Hui Wang
Zhiqiang Chen
Tao Guo
author_sort Ling Su
title Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice
title_short Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice
title_full Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice
title_fullStr Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice
title_full_unstemmed Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice
title_sort dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice
publisher SpringerOpen
series Rice
issn 1939-8425
1939-8433
publishDate 2021-01-01
description Abstract Background In Asian rice production, an increasing number of countries now choose the direct seeding mode because of rising costs, labour shortages and water shortages. The ability of rice seeds to undergo anaerobic germination (AG) plays an important role in the success of direct seeding. Results In this study, we used 2,123,725 single nucleotide polymorphism (SNP) markers based on resequencing to conduct a dynamic genome-wide association study (GWAS) of coleoptile length (CL) and coleoptile diameter (CD) in 209 natural rice populations. A total of 26 SNP loci were detected in these two phenotypes, of which 5 overlapped with previously reported loci (S1_ 39674301, S6_ 20797781, S7_ 18722403, S8_ 9946213, S11_ 19165397), and two sites were detected repeatedly at different time points (S3_ 24689629 and S5_ 27918754). We suggest that these 7 loci (−log10 (P) value > 7.3271) are the key sites that affect AG tolerance. To screen the candidate genes more effectively, we sequenced the transcriptome of the flooding-tolerant variety R151 in six key stages, including anaerobic (AN) and the oxygen conversion point (AN-A), and obtained high-quality differential expression profiles. Four reliable candidate genes were identified: Os01g0911700 (OsVP1), Os05g0560900 (OsGA2ox8), Os05g0562200 (OsDi19–1) and Os06g0548200. Then qRT-PCR and LC-MS/ MS targeting metabolite detection technology were used to further verify that the up-regulated expression of these four candidate genes was closely related to AG. Conclusion The four novel candidate genes were associated with gibberellin (GA) and abscisic acid (ABA) regulation and cell wall metabolism under oxygen-deficiency conditions and promoted coleoptile elongation while avoiding adverse effects, allowing the coleoptile to obtain oxygen, escape the low-oxygen environment and germinate rapidly. The results of this study improve our understanding of the genetic basis of AG in rice seeds, which is conducive to the selection of flooding-tolerant varieties suitable for direct seeding.
topic Rice
Anaerobic germination tolerance
Coleoptile
Dynamic GWAS
RNA-seq
Candidate gene
url https://doi.org/10.1186/s12284-020-00444-x
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