Total and Mitochondrial Transcriptomic and Proteomic Insights into Regulation of Bioenergetic Processes for Shoot Fast-Growth Initiation in Moso Bamboo

As a fast-growing, woody grass plant, Moso bamboo ( ) can supply edible shoots, building materials, fibrous raw material, raw materials for crafts and furniture and so on within a relatively short time. Rapid growth of Moso bamboo occurs after the young bamboo shoots are covered with a shell and eme...

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Bibliographic Details
Published in:Cells (Basel, Switzerland) Switzerland), 2022-04, Vol.11 (7), p.1240
Main Authors: Wang, Xiaojing, Geng, Xin, Yang, Lilin, Chen, Yuzhen, Zhao, Zhiheng, Shi, Weijia, Kang, Lan, Wu, Ruihua, Lu, Cunfu, Gao, Jian
Format: Article
Language:English
Subjects:
Arabidopsis - genetics
Bioenergetics
Cell division
Cold tolerance
Energy
Energy Metabolism
Enzymes
fast growth
Gene expression
Gene Expression Regulation, Plant
Genomes
Glycolysis
Low temperature
Metabolism
Mitochondria
Mitochondria - metabolism
mitochondrial fission
Oxidative phosphorylation
Pentose phosphate pathway
Phosphorylation
Phyllostachys edulis
Physiology
Poaceae
Protein turnover
Proteins
Proteomes
Proteomics
Respiration
Seedlings
Shoots
Starch - metabolism
Sucrose
Transcriptome - genetics
Transcriptomes
Transcriptomics
Tricarboxylic acid cycle
Winter
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Summary:As a fast-growing, woody grass plant, Moso bamboo ( ) can supply edible shoots, building materials, fibrous raw material, raw materials for crafts and furniture and so on within a relatively short time. Rapid growth of Moso bamboo occurs after the young bamboo shoots are covered with a shell and emerge from the ground. However, the molecular reactions of bioenergetic processes essential for fast growth remain undefined. Herein, total and mitochondrial transcriptomes and proteomes were compared between spring and winter shoots. Numerous key genes and proteins responsible for energy metabolism were significantly upregulated in spring shoots, including those involved in starch and sucrose catabolism, glycolysis, the pentose phosphate pathway, the tricarboxylic acid cycle and oxidative phosphorylation. Accordingly, significant decreases in starch and soluble sugar, higher ATP content and higher rates of respiration and glycolysis were identified in spring shoots. Further, the upregulated genes and proteins related to mitochondrial fission significantly increased the number of mitochondria, indirectly promoting intracellular energy metabolism. Moreover, enhanced alternate-oxidase and uncoupled-protein pathways in winter shoots showed that an efficient energy-dissipating system was important for winter shoots to adapt to the low-temperature environment. Heterologous expression of in Arabidopsis significantly affected seedling growth and enhanced cold-stress tolerance. Overall, this study highlights the power of comparing total and mitochondrial omics and integrating physiochemical data to understand how bamboo initiates fast growth through modulating bioenergetic processes.
ISSN:2073-4409
2073-4409
DOI:10.3390/cells11071240