Shanshan Liang, Shichen Zhou, Zhiben Yi, Yanbao Tian, Mao Qin, Jiahan Wang, Youchuan Hu, Dan Liang, Siju Zhang, Xuan Ma, Yunhai Li, Weijiang Luan
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Two F<sub>2</sub> mapping populations derived from the cross between Jin5 and <i>Dgs</i>, and BTx622B and <i>Dgs</i>, were constructed, respectively. The genetic analysis showed that <i>Dgs</i> trait was controlled by a single dominant gene. Through bulk segregation analysis with whole-genome sequencing (BSA-seq) and linkage analysis, <i>Dgs</i> locus was delimited into a region of around 210-kb on chromosome 6, between the markers <i>SSR24</i> and <i>SSR47</i>, which contained 32 putative genes. Further analysis indicated that <i>Sobic.006G249000</i> or <i>Sobic.006G249100</i> may be responsible for the twin-seeded phenotype. This result will be useful for map-based cloning of the <i>Dgs</i> gene and for marker-assisted breeding for increased grain number per panicle in sorghum.</p><p><strong>Supplementary information: </strong>The online version contains supplementary material available at 10.1007/s11032-024-01511-7.</p>","PeriodicalId":18769,"journal":{"name":"Molecular Breeding","volume":"44 11","pages":"73"},"PeriodicalIF":2.6000,"publicationDate":"2024-10-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11496449/pdf/","citationCount":"0","resultStr":"{\"title\":\"Characterization and fine mapping of <i>Double-grain</i> (<i>Dgs</i>) mutant in sorghum [<i>Sorghum bicolor</i> (L.) 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Two F<sub>2</sub> mapping populations derived from the cross between Jin5 and <i>Dgs</i>, and BTx622B and <i>Dgs</i>, were constructed, respectively. The genetic analysis showed that <i>Dgs</i> trait was controlled by a single dominant gene. Through bulk segregation analysis with whole-genome sequencing (BSA-seq) and linkage analysis, <i>Dgs</i> locus was delimited into a region of around 210-kb on chromosome 6, between the markers <i>SSR24</i> and <i>SSR47</i>, which contained 32 putative genes. Further analysis indicated that <i>Sobic.006G249000</i> or <i>Sobic.006G249100</i> may be responsible for the twin-seeded phenotype. 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Characterization and fine mapping of Double-grain (Dgs) mutant in sorghum [Sorghum bicolor (L.) Moench].
The sorghum inflorescence is consisted of sessile (SS) and pedicellate spikelets (PS). Commonly, only SS could produce seeds and each spikelet produces one single seed. Here, we identified a sorghum mutant, named Double-grain (Dgs), which can produce twin seeds in each pair of glumes. We characterized the developmental process of inflorescence in Dgs and Jinliang 5 (Jin5, a single-seeded variety) using scanning electron microscope (SEM). The results showed that at the stamen and pistil differentiation stage, Dgs could develop two sets of stamens and carpels in one sessile floret, which resulted in twin-seeded phenotype in Dgs. Two F2 mapping populations derived from the cross between Jin5 and Dgs, and BTx622B and Dgs, were constructed, respectively. The genetic analysis showed that Dgs trait was controlled by a single dominant gene. Through bulk segregation analysis with whole-genome sequencing (BSA-seq) and linkage analysis, Dgs locus was delimited into a region of around 210-kb on chromosome 6, between the markers SSR24 and SSR47, which contained 32 putative genes. Further analysis indicated that Sobic.006G249000 or Sobic.006G249100 may be responsible for the twin-seeded phenotype. This result will be useful for map-based cloning of the Dgs gene and for marker-assisted breeding for increased grain number per panicle in sorghum.
Supplementary information: The online version contains supplementary material available at 10.1007/s11032-024-01511-7.
期刊介绍:
Molecular Breeding is an international journal publishing papers on applications of plant molecular biology, i.e., research most likely leading to practical applications. The practical applications might relate to the Developing as well as the industrialised World and have demonstrable benefits for the seed industry, farmers, processing industry, the environment and the consumer.
All papers published should contribute to the understanding and progress of modern plant breeding, encompassing the scientific disciplines of molecular biology, biochemistry, genetics, physiology, pathology, plant breeding, and ecology among others.
Molecular Breeding welcomes the following categories of papers: full papers, short communications, papers describing novel methods and review papers. All submission will be subject to peer review ensuring the highest possible scientific quality standards.
Molecular Breeding core areas:
Molecular Breeding will consider manuscripts describing contemporary methods of molecular genetics and genomic analysis, structural and functional genomics in crops, proteomics and metabolic profiling, abiotic stress and field evaluation of transgenic crops containing particular traits. Manuscripts on marker assisted breeding are also of major interest, in particular novel approaches and new results of marker assisted breeding, QTL cloning, integration of conventional and marker assisted breeding, and QTL studies in crop plants.
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