Transcriptomic Analysis of the Carbon Fixation Pathway in Photosynthetic Organisms of Pugionium cornutum (L.) under Drought Stress-Reference-Cited by-同舟云学术

Transcriptomic Analysis of the Carbon Fixation Pathway in Photosynthetic Organisms of Pugionium cornutum (L.) under Drought Stress

Published:2023-10-03 Issue:19 Volume:15 Page:14438
ISSN:2071-1050
Container-title:Sustainability
language:en
Short-container-title:Sustainability

Author:

Zhao Hongyu¹,Ning Kezhen¹,Zhang Xiaoyan¹,Yang Zhongren¹²,Huang Xiumei³,Hao Lizhen¹,Zhang Fenglan¹

Affiliation:

1. Inner Mongolia Key Laboratory of Wild Peculiar Vegetable Germplasm Resource and Germplasm Enhancement, College of Horticultural and Plant Protection, Inner Mongolia Agricultural University, Huhhot 010011, China

2. Inner Mongolia Autonomous Region Key Laboratory of Big Data Research and Application for Agriculture and Animal Husbandry, Hohhot 010011, China

3. Vocational and Technical College, Inner Mongolia Agricultural University, Baotou 014109, China

Abstract

In recent years, the problem of crop yield reduction caused by drought has become increasingly serious in countries around the world. China, in particular, is facing a pressing issue of water resource scarcity that is limiting agricultural production and food security. To address this, studying the drought resistance of plants is crucial to understanding the limitations of cultivated plants in dealing with drought. It can also contribute to an improvement in plant drought resistance theory and provide a theoretical foundation for sustainable agricultural development. In this study, we used Pugionium corntum (L.) Gaertn. as the experimental material and analyzed the transcriptome data of P. corntum under drought stress using high-throughput Illumina sequencing technology. Under the simulated drought environment, we compared P. corntum with the control and observed that the number of differentially expressed genes involved in the carbon fixation pathway in photosynthetic organisms was 14 and 30 under moderate and severe drought stress, respectively. Our findings revealed the presence of genes related to the C4 cycle pathway in P. corntum, which effectively explains its adaptation mechanism to arid desert environments. This adaptation mechanism alleviates the negative impact of drought on photosynthesis in seedlings.

Funder

Inner Mongolia Autonomous Region Applied Technology Research and Development Project

National Natural Science Foundation of China

Regional key projects of the Chinese Academy of Sciences Science and Technology Service Network Plan

Special Fund Project for the Transformation of Scientific and Technological Achievements in Inner Mongolia Autonomous Region

Inner Mongolia Autonomous Region Science and Technology Program

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction

Link

https://www.mdpi.com/2071-1050/15/19/14438/pdf

Reference39 articles.

1. Kamran, M., Ahmad, S., Ahmad, I., Hussain, I., Meng, X., Zhang, X., Javed, T., Ullah, M., Ding, R., and Xu, P. (2020). Paclobutrazol application favors yield improvement of maize under semiarid regions by delaying leaf senescence and regulating photosynthetic capacity and antioxidant system during grain-filling stage. Agronomy, 10.

2. Root growth maintenance during water deficits: Physiology to functional genomics;Sharp;J. Exp. Bot.,2004

3. Analyses of the causes of severe drought occurring in Southwest China from the fall of 2009 to the spring of 2010;Huang;Chin. J. Atmos. Sci.,2012

4. Transcriptomic studies reveal a key metabolic pathway contributing to a well-maintained photosynthetic system under drought stress in foxtail millet (Setaria italica L.);Shi;PeerJ,2018

5. Drought-induced reduction in global terrestrial net primary production from 2000 through 2009;Zhao;Science,2010