Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed

Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed

Abstract Background Nitrogen (N), referred to as a “life element”, is a macronutrient essential for optimal plant growth and yield production. Amino acid (AA) permease (AAP) genes play pivotal roles in root import, long-distance translocation, remobilization of organic amide-N from source organs to...

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Main Authors: Ting Zhou, Cai-peng Yue, Jin-yong Huang, Jia-qian Cui, Ying Liu, Wen-ming Wang, Chuang Tian, Ying-peng Hua
Format: Article
Language:English
Published: BMC 2020-04-01
Series:BMC Plant Biology
Subjects:
Allotetraploid
Amino acid permease
Brassica napus
Genome-wide identification
Nutrient stresses
Online Access:http://link.springer.com/article/10.1186/s12870-020-02367-7
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spelling doaj-32292744d9964bdca4dbf3d5645aa4232020-11-25T03:09:12ZengBMCBMC Plant Biology1471-22292020-04-0120112210.1186/s12870-020-02367-7Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseedTing Zhou0Cai-peng Yue1Jin-yong Huang2Jia-qian Cui3Ying Liu4Wen-ming Wang5Chuang Tian6Ying-peng Hua7School of Agricultural Sciences, Zhengzhou UniversitySchool of Agricultural Sciences, Zhengzhou UniversitySchool of Agricultural Sciences, Zhengzhou UniversitySchool of Agricultural Sciences, Zhengzhou UniversitySchool of Agricultural Sciences, Zhengzhou UniversitySchool of Agricultural Sciences, Zhengzhou UniversitySinochem Modern Agricultural PlatformSchool of Agricultural Sciences, Zhengzhou UniversityAbstract Background Nitrogen (N), referred to as a “life element”, is a macronutrient essential for optimal plant growth and yield production. Amino acid (AA) permease (AAP) genes play pivotal roles in root import, long-distance translocation, remobilization of organic amide-N from source organs to sinks, and other environmental stress responses. However, few systematic analyses of AAPs have been reported in Brassica napus so far. Results In this study, we identified a total of 34 full-length AAP genes representing eight subgroups (AAP1–8) from the allotetraploid rapeseed genome (AnAnCnCn, 2n = 4x = 38). Great differences in the homolog number among the BnaAAP subgroups might indicate their significant differential roles in the growth and development of rapeseed plants. The BnaAAPs were phylogenetically divided into three evolutionary clades, and the members in the same subgroups had similar physiochemical characteristics, gene/protein structures, and conserved AA transport motifs. Darwin’s evolutionary analysis suggested that BnaAAPs were subjected to strong purifying selection pressure. Cis-element analysis showed potential differential transcriptional regulation of AAPs between the model Arabidopsis and B. napus. Differential expression of BnaAAPs under nitrate limitation, ammonium excess, phosphate shortage, boron deficiency, cadmium toxicity, and salt stress conditions indicated their potential involvement in diverse nutrient stress responses. Conclusions The genome-wide identification of BnaAAPs will provide a comprehensive insight into their family evolution and AAP-mediated AA transport under diverse abiotic stresses. The molecular characterization of core AAPs can provide elite gene resources and contribute to the genetic improvement of crop stress resistance through the modulation of AA transport.http://link.springer.com/article/10.1186/s12870-020-02367-7AllotetraploidAmino acid permeaseBrassica napusGenome-wide identificationNutrient stresses
collection DOAJ
language English
format Article
sources DOAJ
author Ting Zhou
Cai-peng Yue
Jin-yong Huang
Jia-qian Cui
Ying Liu
Wen-ming Wang
Chuang Tian
Ying-peng Hua
spellingShingle Ting Zhou
Cai-peng Yue
Jin-yong Huang
Jia-qian Cui
Ying Liu
Wen-ming Wang
Chuang Tian
Ying-peng Hua
Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed
BMC Plant Biology
Allotetraploid
Amino acid permease
Brassica napus
Genome-wide identification
Nutrient stresses
author_facet Ting Zhou
Cai-peng Yue
Jin-yong Huang
Jia-qian Cui
Ying Liu
Wen-ming Wang
Chuang Tian
Ying-peng Hua
author_sort Ting Zhou
title Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed
title_short Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed
title_full Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed
title_fullStr Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed
title_full_unstemmed Genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed
title_sort genome-wide identification of the amino acid permease genes and molecular characterization of their transcriptional responses to various nutrient stresses in allotetraploid rapeseed
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2020-04-01
description Abstract Background Nitrogen (N), referred to as a “life element”, is a macronutrient essential for optimal plant growth and yield production. Amino acid (AA) permease (AAP) genes play pivotal roles in root import, long-distance translocation, remobilization of organic amide-N from source organs to sinks, and other environmental stress responses. However, few systematic analyses of AAPs have been reported in Brassica napus so far. Results In this study, we identified a total of 34 full-length AAP genes representing eight subgroups (AAP1–8) from the allotetraploid rapeseed genome (AnAnCnCn, 2n = 4x = 38). Great differences in the homolog number among the BnaAAP subgroups might indicate their significant differential roles in the growth and development of rapeseed plants. The BnaAAPs were phylogenetically divided into three evolutionary clades, and the members in the same subgroups had similar physiochemical characteristics, gene/protein structures, and conserved AA transport motifs. Darwin’s evolutionary analysis suggested that BnaAAPs were subjected to strong purifying selection pressure. Cis-element analysis showed potential differential transcriptional regulation of AAPs between the model Arabidopsis and B. napus. Differential expression of BnaAAPs under nitrate limitation, ammonium excess, phosphate shortage, boron deficiency, cadmium toxicity, and salt stress conditions indicated their potential involvement in diverse nutrient stress responses. Conclusions The genome-wide identification of BnaAAPs will provide a comprehensive insight into their family evolution and AAP-mediated AA transport under diverse abiotic stresses. The molecular characterization of core AAPs can provide elite gene resources and contribute to the genetic improvement of crop stress resistance through the modulation of AA transport.
topic Allotetraploid
Amino acid permease
Brassica napus
Genome-wide identification
Nutrient stresses
url http://link.springer.com/article/10.1186/s12870-020-02367-7
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