Identification of CNGCs in Glycine max and Screening of Related Resistance Genes after Fusarium solani Infection-Reference-Cited by-同舟云学术

Identification of CNGCs in Glycine max and Screening of Related Resistance Genes after Fusarium solani Infection

Published:2023-03-12 Issue:3 Volume:12 Page:439
ISSN:2079-7737
Container-title:Biology
language:en
Short-container-title:Biology

Author:

Cui Yuxing¹^ORCID,Wang Jingxuan¹,Bai Yingxue²,Ban Liping³^ORCID,Ren Junda²,Shang Qiaoxia²,Li Weiyu¹

Affiliation:

1. College of Plant Science and Technology, Beijing University of Agriculture/Beijing Key Laboratory of New Agricultural Technology in Agriculture Application/National Demonstration Center for Experimental Plant Production Education, Beijing 102206, China

2. Key Laboratory for Northern Urban Agriculture of Ministry of Agriculture and Rural Affairs, Beijing University of Agriculture, Beijing 102206, China

3. College of Grassland Science and Technology, China Agricultural University, Beijing 100193, China

Abstract

Cyclic nucleotide-gated channels (CNGCs), non-selective cation channels localised on the plasmalemma, are involved in growth, development, and regulatory mechanisms in plants during adverse stress. To date, CNGC gene families in multiple crops have been identified and analysed. However, there have been no systematic studies on the evolution and development of CNGC gene families in legumes. Therefore, in the present study, via transcriptome analysis, we identified 143 CNGC genes in legumes, and thereafter, classified and named them according to the grouping method used for Arabidopsis thaliana. Functional verification for disease stress showed that four GmCNGCs were specifically expressed in the plasmalemma during the stress process. Further, functional enrichment analysis showed that their mode of participation and coordination included inorganic ion concentration regulation inside and outside the membrane via the transmembrane ion channel and participation in stress regulation via signal transduction. The CNGC family genes in G. max involved in disease stress were also identified and physiological stress response and omics analyses were also performed. Our preliminary results revealed the basic laws governing the involvement of CNGCs in disease resistance in G. max, providing important gene resources and a theoretical reference for the breeding of resistant soybean.

Funder

Degree and Graduate Education Reform and Development Project of Beijing Agricultural University

Beijing Innovation Team of the Modern Agro-industry Technology Research System for Crop

Publisher

MDPI AG

Subject

General Agricultural and Biological Sciences,General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology

Link

https://www.mdpi.com/2079-7737/12/3/439/pdf

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