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Comprehensive genomic characterization of NAC transcription factor family and their response to salt and drought stress in peanut
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Comprehensive genomic characterization of NAC transcription factor family and their response to salt and drought stress in peanut
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Journal Article
Comprehensive genomic characterization of NAC transcription factor family and their response to salt and drought stress in peanut
2020
Overview
Background
Peanut is one of the most important oil crop species worldwide. NAC transcription factor (TF) genes play important roles in the salt and drought stress responses of plants by activating or repressing target gene expression. However, little is known about NAC genes in peanut.
Results
We performed a genome-wide characterization of NAC genes from the diploid wild peanut species
Arachis duranensis
and
Arachis ipaensis
, which included analyses of chromosomal locations, gene structures, conserved motifs, expression patterns, and
cis
-acting elements within their promoter regions. In total, 81 and 79 NAC genes were identified from
A. duranensis
and
A. ipaensis
genomes. Phylogenetic analysis of peanut NACs along with their
Arabidopsis
and rice counterparts categorized these proteins into 18 distinct subgroups. Fifty-one orthologous gene pairs were identified, and 46 orthologues were found to be highly syntenic on the chromosomes of both
A. duranensis
and
A. ipaensis
. Comparative RNA sequencing (RNA-seq)-based analysis revealed that the expression of 43 NAC genes was up- or downregulated under salt stress and under drought stress. Among these genes, the expression of 17 genes in cultivated peanut (
Arachis hypogaea
) was up- or downregulated under both stresses. Moreover, quantitative reverse transcription PCR (RT-qPCR)-based analysis revealed that the expression of most of the randomly selected NAC genes tended to be consistent with the comparative RNA-seq results.
Conclusion
Our results facilitated the functional characterization of peanut NAC genes, and the genes involved in salt and drought stress responses identified in this study could be potential genes for peanut improvement.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Biomedical and Life Sciences
/ Diploids
/ diploidy
/ Drought
/ Droughts
/ Genes
/ Genome-wide characterization
/ Genomes
/ Genomics
/ Legumes
/ Oilseeds
/ Peanut
/ Peanuts
/ Proteins
/ reverse transcriptase polymerase chain reaction
/ Rice
/ RNA
/ RNA-seq
/ RT-qPCR
/ Salt
/ Salts
/ Synteny
/ Transcription Factors - genetics
