Ling Zheng scite author profile

Ling Zheng

3Publications

60Citation Statements Received

199Citation Statements Given

How they've been cited

106

How they cite others

155

194

Affiliations

Southwest University, Sichuan Agricultural University, Rice Research Institute

Publications

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Disruption of OsEXO70A1 Causes Irregular Vascular Bundles and Perturbs Mineral Nutrient Assimilation in Rice

Chen

et al. 2015

Sci Rep

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Normal uptake, transportation, and assimilation of primary nutrients are essential to plant growth. Tracheary elements (TEs) are tissues responsible for the transport of water and minerals and characterized by patterned secondary cell wall (SCW) thickening. Exocysts are involved in the regulation of SCW deposition by mediating the targeted transport of materials and enzymes to specific membrane areas. EXO70s are highly duplicated in plants and provide exocysts with functional specificity. In this study, we report the isolation of a rice mutant rapid leaf senescence2 (rls2) that exhibits dwarfism, ferruginous spotted necrotic leaves, decreased hydraulic transport, and disordered primary nutrient assimilation. Histological analysis of rls2-1 mutants has indicated impaired cell expansion, collapsed vascular tissues, and irregular SCW deposition. Map-based cloning has revealed that RLS2 encodes OsEXO70A1, which is one of the 47 members of EXO70s in rice. RLS2 was widely expressed and spatially restricted in vascular bundles. Subcellular localization analysis demonstrated that RLS2 was present on both membrane and nuclear regions. Expression analysis revealed that mutations in rls2 triggers transcriptional fluctuation of orthologous EXO70 genes and affects genes involved in primary nutrient absorption and transport. In brief, our study revealed that RLS2 is required for normal vascular bundle differentiation and primary nutrient assimilation.

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Loss of Gn1a/OsCKX2 confers heavy‐panicle rice with excellent lodging resistance

Zhang

Wang

et al. 2022

JIPB

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Significant achievements have been made in breeding programs for the heavy‐panicle‐type (HPT) rice (Oryza sativa) in Southwest China. The HPT varieties now exhibit excellent lodging resistance, allowing them to overcome the greater pressures caused by heavy panicles. However, the genetic mechanism of this lodging resistance remains elusive. Here, we isolated a major quantitative trait locus, Panicle Neck Diameter 1 (PND1), and identified the causal gene as GRAIN NUMBER 1A/CYTOKININ OXIDASE 2 (Gn1A/OsCKX2). The null gn1a allele from rice line R498 (gn1aR498) improved lodging resistance through increasing the culm diameter and promoting crown root development. Loss‐of‐function of Gn1a/OsCKX2 led to cytokinin accumulation in the crown root tip and accelerated the development of adventitious roots. Gene pyramiding between the null gn1aR498 allele with two gain‐of‐function alleles, STRONG CULM 2 (SCM2) and SCM3, further improved lodging resistance. Moreover, Gn1a/OsCKX2 had minimal influence on overall rice quality. Our research thus highlights the distinct genetic components of lodging resistance of HPT varieties and provides a strategy for tailor‐made crop improvement of both yield and lodging resistance in rice.

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Mitochondria-Associated Pyruvate Kinase Complexes Regulate Grain Filling in Rice

Yang

et al. 2020

Plant Physiol.

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Ling Zheng

Disruption of OsEXO70A1 Causes Irregular Vascular Bundles and Perturbs Mineral Nutrient Assimilation in Rice

Loss of Gn1a/OsCKX2 confers heavy‐panicle rice with excellent lodging resistance

Mitochondria-Associated Pyruvate Kinase Complexes Regulate Grain Filling in Rice

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