Your search keyword '"Zhenyuan PAN"' showing total 2 results

1. EMPTY PERICARP11 serves as a factor for splicing of mitochondrial nad1 intron and is required to ensure proper seed development in maize

Author

Zhenyuan Pan, Zuxin Zhang, Jiang Li, Junli Zhao, Hailiang Zhao, Manjun Cai, Fazhan Qiu, and Xuemei Ren

Subjects

0106 biological sciences, 0301 basic medicine, Mitochondrial DNA, Alternative oxidase, Physiology, RNA Splicing, embryo, Plant Science, Biology, 01 natural sciences, Zea mays, Endosperm, endosperm, Mitochondrial Proteins, 03 medical and health sciences, alternative oxidase, Gene Expression Regulation, Plant, Gene, Plant Proteins, Genetics, Intron, food and beverages, NADH Dehydrogenase, Group II intron, Plants, Genetically Modified, Research Papers, ultrastructure, Introns, Mitochondria, Complex I assembly, 030104 developmental biology, RNA splicing, Mutation, Seeds, Pentatricopeptide repeat, Growth and Development, Oxidoreductases, 010606 plant biology & botany

Abstract

A new pentatricopeptide repeat (PPR) gene in maize differs from previously reported genes, as it is required for splicing of all four introns of nad1., Group II introns are common in the mitochondrial genome of higher plant species. The splicing of these introns is a complex process involving the synergistic action of multiple factors. However, few of these factors have been characterized in maize. In this study, we found that the Empty pericarp11 (Emp11) gene, which encodes a P-type pentatricopeptide repeat (PPR) protein, is required for the development of maize seeds. The loss of Emp11 function seriously impairs embryo and endosperm development, resulting in empty pericarp seeds in maize, and alteration in Emp11 expression leads to quantitative variation in kernel size and weight. We found that the emp11 mutants showed a failure in nad1 intron splicing, exhibited a severe reduction in complex I assembly and activity, mitochondrial structure disturbances, and an increase in alternative oxidase AOX2 and AOX3 levels. Interestingly, the emp11 phenotype was very severe in the W22 inbred line but could be partially recovered in B73 BC2F2 segregating ears. These results suggest that EMP11 serves as a factor for the splicing of mitochondrial nad1 introns and is required for mitochondrial function to ensure proper seed development in maize.

Published

2017

2. EMPTY PERICARP11 serves as a factor for splicing of mitochondrial nad1 intron and is required to ensure proper seed development in maize.

Author

Xuemei Ren, Zhenyuan Pan, Hailiang Zhao, Junli Zhao, Manjun Cai, Jiang Li, Zuxin Zhang, and Fazhan Qiu

Subjects

*RNA splicing, *SEED development, *PERICARP, *ENDOSPERM, *INTRONS

Abstract

Group II introns are common in the mitochondrial genome of higher plant species. The splicing of these introns is a complex process involving the synergistic action of multiple factors. However, few of these factors have been characterized in maize. In this study, we found that the Empty pericarp11 (Emp11) gene, which encodes a P-type pentatricopeptide repeat (PPR) protein, is required for the development of maize seeds. The loss of Emp11 function seriously impairs embryo and endosperm development, resulting in empty pericarp seeds in maize, and alteration in Emp11 expression leads to quantitative variation in kernel size and weight. We found that the emp11 mutants showed a failure in nad1 intron splicing, exhibited a severe reduction in complex I assembly and activity, mitochondrial structure disturbances, and an increase in alternative oxidase AOX2 and AOX3 levels. Interestingly, the emp11 phenotype was very severe in the W22 inbred line but could be partially recovered in B73 BC2F2 segregating ears. These results suggest that EMP11 serves as a factor for the splicing of mitochondrial nad1 introns and is required for mitochondrial function to ensure proper seed development in maize. [ABSTRACT FROM AUTHOR]

Published

2017