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Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants
Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants
by Yao, Mingyao , Guan, Chunyun , Guan, Mei , Ji, Hongfei , Hong, Bo
in Amino acids / Antioxidants / Bioinformatics / Biosynthesis / BnaPDX1.3 / Brassica / Brassica napus / Chromosomes / Enzymatic activity / Enzyme activity / Enzymes / Evolutionary genetics / Genes / Genotype & phenotype / Localization / Metabolism / overexpression / Pdx gene / Phenotypes / Phylogenetics / Plant growth / Plant Science / Radiation / Rape plants / Scavenging / Sequence analysis / Software / Transgenic plants / Vitamin B6 / Waterlogging / waterlogging stress
2025
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Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants
by Yao, Mingyao , Guan, Chunyun , Guan, Mei , Ji, Hongfei , Hong, Bo
in Amino acids / Antioxidants / Bioinformatics / Biosynthesis / BnaPDX1.3 / Brassica / Brassica napus / Chromosomes / Enzymatic activity / Enzyme activity / Enzymes / Evolutionary genetics / Genes / Genotype & phenotype / Localization / Metabolism / overexpression / Pdx gene / Phenotypes / Phylogenetics / Plant growth / Plant Science / Radiation / Rape plants / Scavenging / Sequence analysis / Software / Transgenic plants / Vitamin B6 / Waterlogging / waterlogging stress
2025
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Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants
Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants
by Yao, Mingyao , Guan, Chunyun , Guan, Mei , Ji, Hongfei , Hong, Bo
in Amino acids / Antioxidants / Bioinformatics / Biosynthesis / BnaPDX1.3 / Brassica / Brassica napus / Chromosomes / Enzymatic activity / Enzyme activity / Enzymes / Evolutionary genetics / Genes / Genotype & phenotype / Localization / Metabolism / overexpression / Pdx gene / Phenotypes / Phylogenetics / Plant growth / Plant Science / Radiation / Rape plants / Scavenging / Sequence analysis / Software / Transgenic plants / Vitamin B6 / Waterlogging / waterlogging stress
2025

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Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants
Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants
Journal Article

Genome-wide identification of PDX and expression analysis under waterlogging stress exhibit stronger waterlogging tolerance in transgenic Brassica napus plants overexpressing the BnaPDX1.3 gene compared to wild-type plants

Yao, Mingyao,
Guan, Chunyun,
Guan, Mei,
Ji, Hongfei,
Hong, Bo
2025
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Overview
The gene is a key gene in the vitamin B6 synthesis pathway, playing a crucial role in plant growth, development, and stress tolerance. To explore the family characteristics of the gene in ( ) and its regulatory function under waterlogging stress, this study used five genes from Arabidopsis thaliana as the basis for sequence analysis. Thirteen, eight, and six genes were identified in , ( ), and ( ), respectively. Bioinformatics study reveals high conservation of subfamily genes during evolution, and genes in respond to waterlogging stress.In order to further investigate the effect of the gene on waterlogging tolerance in , expression analysis was conducted on gene overexpressing plants and wild-type plants. The study showed that overexpressing plants could synthesize more VB6 under waterlogging stress, exhibit stronger antioxidant enzyme activity, and have a more effective and stable ROS scavenging system, thus exhibiting a healthier phenotype. These findings suggested that the gene can enhance the waterlogging tolerance of , which is of great significance for its response to waterlogging stress. Our study provides a basic reference for further research on the regulation mechanism of the gene and waterlogging tolerance in .
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Publisher
Frontiers Media SA,Frontiers Media S.A
Subject

Amino acids

/ Antioxidants

/ Bioinformatics

/ Biosynthesis

/ BnaPDX1.3

/ Brassica

/ Brassica napus

/ Chromosomes

/ Enzymatic activity

/ Enzyme activity

/ Enzymes

/ Evolutionary genetics

/ Genes

/ Genotype & phenotype

/ Localization

/ Metabolism

/ overexpression

/ Pdx gene

/ Phenotypes

/ Phylogenetics

/ Plant growth

/ Plant Science

/ Radiation

/ Rape plants

/ Scavenging

/ Sequence analysis

/ Software

/ Transgenic plants

/ Vitamin B6

/ Waterlogging

/ waterlogging stress

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