Genome-wide characterization and sequence polymorphism analyses of cysteine-rich poly comb-like protein in Glycine max

Cysteine-rich poly comb-like protein ( CPP ) is a member of cysteine-rich transcription factors that regulates plant growth and development. In the present work, we characterized twelve CPP transcription factors encoding genes in soybean ( Glycine max ). Phylogenetic analyses classified CPP genes in...

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Published in:Frontiers in plant science 2022-09, Vol.13, p.996265-996265
Main Authors: Nisar, Tayyaba, Tahir, Muhammad Hammad Nadeem, Iqbal, Shahid, Sajjad, Muhammad, Nadeem, Muhammad Azhar, Qanmber, Ghulam, Baig, Ayesha, Khan, Zulqurnain, Zhao, Zhengyun, Geng, Zhide, Ur Rehman, Shoaib
Format: Article
Language:English
Subjects:
association analyses
drought
GmCPP
kompetitive allele specific PCR
phylogenetic analyses
Plant Science
soybean
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Summary:Cysteine-rich poly comb-like protein ( CPP ) is a member of cysteine-rich transcription factors that regulates plant growth and development. In the present work, we characterized twelve CPP transcription factors encoding genes in soybean ( Glycine max ). Phylogenetic analyses classified CPP genes into six clades. Sequence logos analyses between G. max and G. soja amino acid residues exhibited high conservation. The presence of growth and stress-related cis -acting elements in the upstream regions of GmCPPs highlight their role in plant development and tolerance against abiotic stress. Ka/Ks levels showed that GmCPPs experienced limited selection pressure with limited functional divergence arising from segmental or whole genome duplication events. By using the PAN-genome of soybean, a single nucleotide polymorphism was identified in GmCPP-6 . To perform high throughput genotyping, a kompetitive allele-specific PCR (KASP) marker was developed. Association analyses indicated that GmCPP-6-T allele of GmCPP-6 (in exon region) was associated with higher thousand seed weight under both water regimes (well-water and water-limited). Taken together, these results provide vital information to further decipher the biological functions of CPP genes in soybean molecular breeding.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2022.996265