Genome-wide identification and expression analysis of the PP2C gene family in Apocynum venetum and Apocynum hendersonii

Chen, Jiayi; Wang, Yue; Wu, Yongmei; Huang, Xiaoyu; Qiu, Xiaojun; Chen, Jikang; Lin, Qian; Zhao, Haohan; Chen, Fengming; Gao, Gang

doi:10.1186/s12870-024-05328-6

BMC Plant Biol

2024

DOI: 10.1186/s12870-024-05328-6

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Genome-wide identification and expression analysis of the PP2C gene family in Apocynum venetum and Apocynum hendersonii

Jiayi Chen,

Yue Wang,

Yongmei Wu

et al.

Abstract: Background Protein phosphatase class 2 C (PP2C) is the largest protein phosphatase family in plants. Members of the PP2C gene family are involved in a variety of physiological pathways in plants, including the abscisic acid signalling pathway, the regulation of plant growth and development, etc., and are capable of responding to a wide range of biotic and abiotic stresses, and play an important role in plant growth, development, and response to stress. Apocynum is a perennial persistent herb, d… Show more

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2024

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Association Analysis of Maize Stem Vascular Bundle Micro-characteristics with Yield Components Based on Micro-CT and Identification of Related Genes

Wang,

Zhang,

Huang

et al. 2024

Preprint

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Background The distribution pattern of vascular bundles and microstructure characteristics significantly impact crop yield. Previous studies have primarily focused on investigating the micro-phenotypic characteristics and genetic regulation of individual internode, neglecting the exploration of the relationship between different internodes. Results This study, for the first time, comprehensively analyzed multi-scale phenotypic information of stem cross-sections, zones, and vascular bundles in three different internodes (basal third internode, BTI; ear internode, EI; highest internode, HI) of 268 inbred maize lines using Micro-CT scanning. Key findings revealed that BTI and EI exhibited more stable microscopic characteristics than HI. Cross-section and inner zone traits correlated with kernel number per row (RW_N). Inbred lines with thicker BTI and EI stems, larger inner zones, and sparsely distributed but larger vascular bundles demonstrated better yield components, including higher RW_N, kernel weight per ear (ER_KW), and grain weight per ear (ER_GW). Genome-wide association analysis identified 51, 37, and 12 candidate genes in BTI, EI, and HI, respectively, encoding metabolic enzymes, structural proteins, and components involved in plant signal transduction and stress response. Notably, the candidate gene Zm00001d035089, identified in both BTI and EI, is hypothesized to regulate radial growth of maize stalks and influence the anatomical structure of stalk tissues and vascular bundles. Conclusions This study provides an important theoretical basis and genetic resources for accurately identifying different internode phenotypes of maize stalks, potentially advancing the selection of high-yielding, high-quality maize varieties.

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Association Analysis of Maize Stem Vascular Bundle Micro-characteristics with Yield Components Based on Micro-CT and Identification of Related Genes

Wang,

Zhang,

Huang

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Genome-wide identification and expression analysis of the PP2C gene family in Apocynum venetum and Apocynum hendersonii

Cited by 1 publication

References 62 publications

Association Analysis of Maize Stem Vascular Bundle Micro-characteristics with Yield Components Based on Micro-CT and Identification of Related Genes

Association Analysis of Maize Stem Vascular Bundle Micro-characteristics with Yield Components Based on Micro-CT and Identification of Related Genes

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