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Transcriptome analysis of a novel maize bsd C4 mutant using RNA-seq

The C4 plants like maize are at an advantage because they exhibit higher carbon conversion efficiency than C3 during photosynthesis. Using the evaluation of photosynthetic phenotypes and subcellular structure, and high-quality transcriptome analysis for four types of leaves from a bundle sheath defe...

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Published in:	Plant signaling & behavior 2020-08, Vol.15 (8), p.1777374-1777374
Main Authors:	Fan, Ziyang, Kong, Mengsi, Ma, Liangliang, Duan, Shiming, Gao, Nan, Xuqing, Chen, Yongsheng, Tao
Format:	Article
Language:	English
Subjects:	bundle sheath cell C4 photosynthetic efficiency chloroplast defective Maize Research Paper RNA-seq
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creator	Fan, Ziyang Kong, Mengsi Ma, Liangliang Duan, Shiming Gao, Nan Xuqing, Chen Yongsheng, Tao
description	The C4 plants like maize are at an advantage because they exhibit higher carbon conversion efficiency than C3 during photosynthesis. Using the evaluation of photosynthetic phenotypes and subcellular structure, and high-quality transcriptome analysis for four types of leaves from a bundle sheath defective maize mutant (bsd) and 501 wild line, the key target genes, important transcription factors, and specific pathways were obtained, which may regulate the C-concentrating mechanisms and antioxidant protection of the photosynthetic system, gibberellin signaling, ribosome editing, glycolysis, and chlorophyll biosynthesis. Based on these target genes, a novel network with photosynthetic transformation efficiency with oxidative decarboxylation and ribosome regulation was filtered innovatively by Cytoscape, which adds to our understanding for high-efficiency C-fixation and its genetic improvement in C3 and C4 plants.
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subjects	bundle sheath cell C4 photosynthetic efficiency chloroplast defective Maize Research Paper RNA-seq
title	Transcriptome analysis of a novel maize bsd C4 mutant using RNA-seq
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