Mutant Resources for the Functional Analysis of the Rice Genome

Wang, Nili; Long, Tuan; Yao, Wen; Xiong, Lizhong; Zhang, Qifa; Wu, Changyin

doi:10.1093/mp/sss142

Cited by 115 publications

(98 citation statements)

References 65 publications

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“…One answer would be to simply screen for high NPQ in a variety of crop germplasm such as mutants and introgression lines 57,58 . But is there genetic variation for qE in important crop species?…”

Section: Discussionmentioning

confidence: 99%

Enhanced thylakoid photoprotection can increase yield and canopy radiation use efficiency in rice

et al. 2018

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High sunlight can raise plant growth rates but can potentially cause cellular damage. The likelihood of deleterious effects is lowered by a sophisticated set of photoprotective mechanisms, one of the most important being the controlled dissipation of energy from chlorophyll within photosystem II (PSII) measured as non-photochemical quenching (NPQ). Although ubiquitous, the role of NPQ in plant productivity remains uncertain because it momentarily reduces the quantum efficiency of photosynthesis. Here we used plants overexpressing the gene encoding a central regulator of NPQ, the protein PsbS, within a major crop species (rice) to assess the effect of photoprotection at the whole canopy scale. We accounted for canopy light interception, to our knowledge for the first time in this context. We show that in comparison to wild-type plants, psbS overexpressors increased canopy radiation use efficiency and grain yield in fluctuating light, demonstrating that photoprotective mechanisms should be altered to improve rice crop productivity.

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Section: Discussionmentioning

confidence: 99%

Enhanced thylakoid photoprotection can increase yield and canopy radiation use efficiency in rice

et al. 2018

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“…Compared with diploids, polyploid species usually pose problems for identifying desirable phenotypes in mutant populations, owing to the gene redundancy (Chen et al, 2012). For this reason, only a few mutant libraries have been developed in soybean to date, using fast neutron or ethyl methanesulfonate methods (Bolon et al, 2011; Tsuda et al, 2015; Li et al, 2017), far fewer than mutant resources of Arabidopsis and rice (Wang et al, 2013). Although NGS-based BSA approaches have been shown to be efficient in isolating a gene controlling a given mutant phenotype by backcrossing the mutant to the non-mutagenized parental genotype, it is difficult to unequivocally identify the causal mutation due to limited polymorphic markers between mutant and wild-type (Abe et al, 2012; Hartwig et al, 2012; James et al, 2013; Schneeberger, 2014; Huo et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

Next-Generation Sequencing from Bulked-Segregant Analysis Accelerates the Simultaneous Identification of Two Qualitative Genes in Soybean

et al. 2017

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Next-generation sequencing (NGS)-based bulked-segregant analysis (BSA) approaches have been proven successful for rapidly mapping genes in plant species. However, most such methods are based on mutants and usually only one gene controlling the mutant phenotype is identified. In this study, NGS-based BSA was employed to map simultaneously two qualitative genes controlling cotyledon color of seed in soybean. Yellow-cotyledon (YC) and green-cotyledon (GC) bulks from progenies of a biparental population (Zhonghuang 30 × Jiyu 102) were sequenced. The SNP-index of each SNP locus in YC and GC bulks was calculated and two genomic regions on chromosomes 1 and 11 harboring, respectively, loci qCC1 and qCC2 were identified by (SNP-index) analysis. These two BSA-seq-derived loci were further validated with SSR markers and fine-mapped. qCC1 was mapped to a 30.7-kb region containing four annotated genes and qCC2 was mapped to a 67.7-kb region with nine genes. These two regions contained, respectively, genes D1 and D2, which had previously been identified by homology-based cloning as being associated with cotyledon color. Sequence analysis of the NGS data also identified a frameshift deletion in the coding region of D1. These results suggested that BSA-seq could accelerate the mapping of loci controlling qualitative traits, even if a trait is controlled by more than one locus.

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“…The determination of function of individual plant genes and gene families, such as the CAX genes, as well as interacting gene networks, has been clearly enhanced through the use of functional genomics techniques such as genome-scale transcriptomics (Maathuis et al 2003 ;Bock et al 2006 ;Narsai et al 2010 ;Patel et al 2012 ) and the systematic analysis of whole gene family function such as by gene knockout (O'Malley and Ecker 2010 ;Wang et al 2013 ), cell-specifi c expression (Toufi ghi et al 2005 ), subcellular localisation (Li et al 2006 ;Winter et al 2007 ) and protein interaction (Geisler-Lee et al 2007 ;Lalonde et al 2010 ;Ho et al 2012 ). Furthermore, methods such as ionomics, to determine the genome-wide variation in element concentration upon changes in expression or knockout of each gene (Salt et al 2008 ), are particularly useful for the study of ion transporters.…”

Section: Functional Genomics Analysis Of Plant Cax Genesmentioning

confidence: 99%

Role of Cation/Proton Exchangers in Abiotic Stress Signaling and Stress Tolerance in Plants

Bickerton

Pittman

2015

Elucidation of Abiotic Stress Signaling in Plants

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2+ and other cations, which provide an important mechanism for ion tolerance. Recent genetic studies of CAX transporters from various plant species indicate that these proteins may also play a role in the response to specifi c abiotic stresses. Altered sensitivity of CAX mutant plants to abiotic stresses such as salt stress and cold stress has been observed. The potential role of CAX-type cation transporters in environmental stress response is reviewed here. In particular, we discuss whether these high-capacity, low-affi nity Ca 2+ transporters play a central role in modulating Ca 2+ signals in response to abiotic stresses.

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Mutant Resources for the Functional Analysis of the Rice Genome

Cited by 115 publications

References 65 publications

Enhanced thylakoid photoprotection can increase yield and canopy radiation use efficiency in rice

Enhanced thylakoid photoprotection can increase yield and canopy radiation use efficiency in rice

Next-Generation Sequencing from Bulked-Segregant Analysis Accelerates the Simultaneous Identification of Two Qualitative Genes in Soybean

Role of Cation/Proton Exchangers in Abiotic Stress Signaling and Stress Tolerance in Plants

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