A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice

A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice

Abstract Background Calvin cycle plays a crucial role in carbon fixation which provides the precursors of organic macromolecules for plant growth and development. Currently, no gene involved in Calvin cycle has been identified in monocotyledonous plants through mutant or/and map-based cloning approa...

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Main Authors: Chun Li, Na Li, Rui Huang, Congping Chen, Jia Guo, Xiaorong Yang, Xiangyu Zhang, Changhui Sun, Xiaojian Deng, Pingrong Wang
Format: Article
Language:English
Published: BMC 2020-07-01
Series:BMC Plant Biology
Subjects:
Rice (Oryza sativa)
SBPase
Calvin cycle
Growth and development
Yield
Online Access:http://link.springer.com/article/10.1186/s12870-020-02541-x
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spelling doaj-ff5898e2ba9f41119b681ea2a8f675872020-11-25T03:22:49ZengBMCBMC Plant Biology1471-22292020-07-0120111410.1186/s12870-020-02541-xA single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in riceChun Li0Na Li1Rui Huang2Congping Chen3Jia Guo4Xiaorong Yang5Xiangyu Zhang6Changhui Sun7Xiaojian Deng8Pingrong Wang9State Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityState Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, Rice Research Institute, Sichuan Agricultural UniversityAbstract Background Calvin cycle plays a crucial role in carbon fixation which provides the precursors of organic macromolecules for plant growth and development. Currently, no gene involved in Calvin cycle has been identified in monocotyledonous plants through mutant or/and map-based cloning approach. Results Here, we isolated a low-tillering mutant, c6635, in rice (Oryza sativa). The mutant displayed light green leaves and intensely declined pigment contents and photosynthetic capacity at early growth stage. Moreover, its individual plant showed a much smaller size, and most individuals produced only two tillers. At mature stage, its productive panicles, grain number and seed setting rate were significantly decreased, which lead to a sharp reduction of the grain yield. We confirmed that a single nucleotide mutation in LOC_Os04g16680 gene encoding sedoheptulose 1,7-bisphosphatase (SBPase) involved in Calvin cycle was responsible for the mutant phenotype of c6635 through map-based cloning, MutMap analysis and complementation experiments. Sequence analysis suggested that the point mutation caused an amino acid change from Gly-364 to Asp at the C-terminal of SBPase. In addition, OsSBPase gene was mainly expressed in leaf, and the encoded protein was located in chloroplast. The mutation of OsSBPase could significantly affect expression levels of some key genes involved in Calvin cycle. Conclusions We successfully identified a SBPase gene in monocotyledonous plants. Meanwhile, we demonstrated that a single nucleotide substitution at the 3′-end of this gene severely affects plant growth and grain yield, implying that the Gly-364 at the C-terminal of SBPase could play an important role in SBPase function in rice.http://link.springer.com/article/10.1186/s12870-020-02541-xRice (Oryza sativa)SBPaseCalvin cycleGrowth and developmentYield
collection DOAJ
language English
format Article
sources DOAJ
author Chun Li
Na Li
Rui Huang
Congping Chen
Jia Guo
Xiaorong Yang
Xiangyu Zhang
Changhui Sun
Xiaojian Deng
Pingrong Wang
spellingShingle Chun Li
Na Li
Rui Huang
Congping Chen
Jia Guo
Xiaorong Yang
Xiangyu Zhang
Changhui Sun
Xiaojian Deng
Pingrong Wang
A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice
BMC Plant Biology
Rice (Oryza sativa)
SBPase
Calvin cycle
Growth and development
Yield
author_facet Chun Li
Na Li
Rui Huang
Congping Chen
Jia Guo
Xiaorong Yang
Xiangyu Zhang
Changhui Sun
Xiaojian Deng
Pingrong Wang
author_sort Chun Li
title A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice
title_short A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice
title_full A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice
title_fullStr A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice
title_full_unstemmed A single nucleotide substitution at the 3′-end of SBPase gene involved in Calvin cycle severely affects plant growth and grain yield in rice
title_sort single nucleotide substitution at the 3′-end of sbpase gene involved in calvin cycle severely affects plant growth and grain yield in rice
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2020-07-01
description Abstract Background Calvin cycle plays a crucial role in carbon fixation which provides the precursors of organic macromolecules for plant growth and development. Currently, no gene involved in Calvin cycle has been identified in monocotyledonous plants through mutant or/and map-based cloning approach. Results Here, we isolated a low-tillering mutant, c6635, in rice (Oryza sativa). The mutant displayed light green leaves and intensely declined pigment contents and photosynthetic capacity at early growth stage. Moreover, its individual plant showed a much smaller size, and most individuals produced only two tillers. At mature stage, its productive panicles, grain number and seed setting rate were significantly decreased, which lead to a sharp reduction of the grain yield. We confirmed that a single nucleotide mutation in LOC_Os04g16680 gene encoding sedoheptulose 1,7-bisphosphatase (SBPase) involved in Calvin cycle was responsible for the mutant phenotype of c6635 through map-based cloning, MutMap analysis and complementation experiments. Sequence analysis suggested that the point mutation caused an amino acid change from Gly-364 to Asp at the C-terminal of SBPase. In addition, OsSBPase gene was mainly expressed in leaf, and the encoded protein was located in chloroplast. The mutation of OsSBPase could significantly affect expression levels of some key genes involved in Calvin cycle. Conclusions We successfully identified a SBPase gene in monocotyledonous plants. Meanwhile, we demonstrated that a single nucleotide substitution at the 3′-end of this gene severely affects plant growth and grain yield, implying that the Gly-364 at the C-terminal of SBPase could play an important role in SBPase function in rice.
topic Rice (Oryza sativa)
SBPase
Calvin cycle
Growth and development
Yield
url http://link.springer.com/article/10.1186/s12870-020-02541-x
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