Genome-wide analysis of the BoBZR1 family genes and transcriptome analysis in Brassica oleracea DOI Creative Commons
Muhammad Asad Ullah,

Muhammad Hamza,

Rozia Gull

et al.

Scientific Reports, Journal Year: 2025, Volume and Issue: 15(1)

Published: May 3, 2025

The BRASSINAZOLE-RESISTANT 1 genes play a crucial role as key regulators in Brassinosteroid (BR) signaling, which affects various plant developmental and stress-responsive aspects. Understanding regulatory mechanisms via BZR1 modulating target has become main point research on BR signaling networks. Despite this, the functioning B. oleracea is not elucidated. A complete genome-wide analysis identified 12 oleracea, categorized into three groups based their gene motif structural features. These BoBZR1s were found eight different chromosomes. Synteny between Arabidopsis, potato provided perception evolutionary characteristics. Promoter regions of BoBZR1 family have shown specific cis-elements associated with hormones, stress, development. expression toward cuticular wax biosynthesis revealed that BoBZR1-1, BoBZR1-6, BoBZR1-7, BoBZR1-10 upregulated response to biosynthesis. Differential expressions observed for all seven tested tissues. whole study involved systematic characterization family, patterns, its extensive involvement processes oleracea. Results establish theoretical foundation deeper investigation structure functions specifically regulating stress.

Language: Английский

Genome-wide analysis of the BoBZR1 family genes and transcriptome analysis in Brassica oleracea DOI Creative Commons
Muhammad Asad Ullah,

Muhammad Hamza,

Rozia Gull

et al.

Scientific Reports, Journal Year: 2025, Volume and Issue: 15(1)

Published: May 3, 2025

The BRASSINAZOLE-RESISTANT 1 genes play a crucial role as key regulators in Brassinosteroid (BR) signaling, which affects various plant developmental and stress-responsive aspects. Understanding regulatory mechanisms via BZR1 modulating target has become main point research on BR signaling networks. Despite this, the functioning B. oleracea is not elucidated. A complete genome-wide analysis identified 12 oleracea, categorized into three groups based their gene motif structural features. These BoBZR1s were found eight different chromosomes. Synteny between Arabidopsis, potato provided perception evolutionary characteristics. Promoter regions of BoBZR1 family have shown specific cis-elements associated with hormones, stress, development. expression toward cuticular wax biosynthesis revealed that BoBZR1-1, BoBZR1-6, BoBZR1-7, BoBZR1-10 upregulated response to biosynthesis. Differential expressions observed for all seven tested tissues. whole study involved systematic characterization family, patterns, its extensive involvement processes oleracea. Results establish theoretical foundation deeper investigation structure functions specifically regulating stress.

Language: Английский

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