Literature DB >> 27663737

Integrated analysis of phenome, genome, and transcriptome of hybrid rice uncovered multiple heterosis-related loci for yield increase.

Dayong Li1, Zhiyuan Huang2, Shuhui Song3, Yeyun Xin4, Donghai Mao5, Qiming Lv6, Ming Zhou1, Dongmei Tian7, Mingfeng Tang5, Qi Wu1, Xue Liu8, Tingting Chen7, Xianwei Song1, Xiqin Fu2, Bingran Zhao2, Chengzhi Liang1, Aihong Li9, Guozhen Liu10, Shigui Li11, Songnian Hu8, Xiaofeng Cao1, Jun Yu8, Longping Yuan4, Caiyan Chen12, Lihuang Zhu13.   

Abstract

Hybrid rice is the dominant form of rice planted in China, and its use has extended worldwide since the 1970s. It offers great yield advantages and has contributed greatly to the world's food security. However, the molecular mechanisms underlying heterosis have remained a mystery. In this study we integrated genetics and omics analyses to determine the candidate genes for yield heterosis in a model two-line rice hybrid system, Liang-you-pei 9 (LYP9) and its parents. Phenomics study revealed that the better parent heterosis (BPH) of yield in hybrid is not ascribed to BPH of all the yield components but is specific to the BPH of spikelet number per panicle (SPP) and paternal parent heterosis (PPH) of effective panicle number (EPN). Genetic analyses then identified multiple quantitative trait loci (QTLs) for these two components. Moreover, a number of differentially expressed genes and alleles in the hybrid were mapped by transcriptome profiling to the QTL regions as possible candidate genes. In parallel, a major QTL for yield heterosis, rice heterosis 8 (RH8), was found to be the DTH8/Ghd8/LHD1 gene. Based on the shared allelic heterozygosity of RH8 in many hybrid rice cultivars, a common mechanism for yield heterosis in the present commercial hybrid rice is proposed.

Entities:  

Keywords:  QTL; RH8; heterosis; hybrid rice; yield

Mesh:

Year:  2016        PMID: 27663737      PMCID: PMC5068331          DOI: 10.1073/pnas.1610115113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  41 in total

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Authors:  D F Jones
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Journal:  Proc Natl Acad Sci U S A       Date:  2012-09-10       Impact factor: 11.205

4.  Natural variation in Ghd7 is an important regulator of heading date and yield potential in rice.

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Authors:  Uri Krieger; Zachary B Lippman; Dani Zamir
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Review 7.  Molecular mechanisms of polyploidy and hybrid vigor.

Authors:  Z Jeffrey Chen
Journal:  Trends Plant Sci       Date:  2010-01-18       Impact factor: 18.313

8.  Genomic analysis of hybrid rice varieties reveals numerous superior alleles that contribute to heterosis.

Authors:  Xuehui Huang; Shihua Yang; Junyi Gong; Yan Zhao; Qi Feng; Hao Gong; Wenjun Li; Qilin Zhan; Benyi Cheng; Junhui Xia; Neng Chen; Zhongna Hao; Kunyan Liu; Chuanrang Zhu; Tao Huang; Qiang Zhao; Lei Zhang; Danlin Fan; Congcong Zhou; Yiqi Lu; Qijun Weng; Zi-Xuan Wang; Jiayang Li; Bin Han
Journal:  Nat Commun       Date:  2015-02-05       Impact factor: 14.919

9.  The Rice Genome Knowledgebase (RGKbase): an annotation database for rice comparative genomics and evolutionary biology.

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Authors:  Zhiwu Dan; Ping Liu; Wenchao Huang; Wei Zhou; Guoxin Yao; Jun Hu; Renshan Zhu; Baorong Lu; Yingguo Zhu
Journal:  PLoS One       Date:  2014-03-25       Impact factor: 3.240
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3.  Divergent selection and genetic introgression shape the genome landscape of heterosis in hybrid rice.

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4.  Improved photosynthetic characteristics correlated with enhanced biomass in a heterotic F1 hybrid of maize (Zea mays L.).

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5.  Integrated Analysis of Transcriptomic, miRNA and Proteomic Changes of a Novel Hybrid Yellow Catfish Uncovers Key Roles for miRNAs in Heterosis.

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6.  Genetic dissection of heterotic loci associated with plant weight by Graded pool-seq in heading Chinese cabbage (Brassica rapa).

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10.  Dissecting the genetic basis of heavy panicle hybrid rice uncovered Gn1a and GS3 as key genes.

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