Dissecting the phenotypic components and genetic architecture of maize stem vascular bundles using high-throughput phenotypic analysis
文献类型: 外文期刊
第一作者: Zhang, Ying
作者: Zhang, Ying;Wang, Jinglu;Du, Jianjun;Lu, Xianju;Wen, Weiliang;Gu, Shenghao;Fan, Jiangchuan;Wang, Chuanyu;Wu, Sheng;Wang, Yongjian;Liao, Shengjin;Zhao, Chunjiang;Guo, Xinyu;Zhao, Yanxin
作者机构:
关键词: maize stem; vascular bundle; micro-CT; micro-phenotype; genome-wide association studies; MaizeSPD
期刊名称:PLANT BIOTECHNOLOGY JOURNAL ( 影响因子:9.803; 五年影响因子:9.555 )
ISSN: 1467-7644
年卷期:
页码:
收录情况: SCI
摘要: High-throughput phenotyping is increasingly becoming an important tool for rapid advancement of genetic gain in breeding programmes. Manual phenotyping of vascular bundles is tedious and time-consuming, which lags behind the rapid development of functional genomics in maize. More robust and automated techniques of phenotyping vascular bundles traits at high-throughput are urgently needed for large crop populations. In this study, we developed a standard process for stem micro-CT data acquisition and an automatic CT image process pipeline to obtain vascular bundle traits of stems including geometry-related, morphology-related and distribution-related traits. Next, we analysed the phenotypic variation of stem vascular bundles between natural population subgroup (480 inbred lines) based on 48 comprehensively phenotypic information. Also, the first database for stem micro-phenotypes, MaizeSPD, was established, storing 554 pieces of basic information of maize inbred lines, 523 pieces of experimental information, 1008 pieces of CT scanning images and processed images, and 24 192 pieces of phenotypic data. Combined with genome-wide association studies (GWASs), a total of 1562 significant single nucleotide polymorphism (SNPs) were identified for 30 stem micro-phenotypic traits, and 84 unique genes of 20 traits such as VBNum, VBAvArea and PZVBDensity were detected. Candidate genes identified by GWAS mainly encode enzymes involved in cell wall metabolism, transcription factors, protein kinase and protein related to plant signal transduction and stress response. The results presented here will advance our knowledge about phenotypic trait components of stem vascular bundles and provide useful information for understanding the genetic controls of vascular bundle formation and development.
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