Sun Shixian, Guan Binbin, xing Yue, Li Xiang, Liu Lanlan, Li Yanmei, Jia Lu, Ye Shili, Dossa Komivi, Zheng Li, Luan Yunpeng. 2024. Genomewide association analysis and transgenic characterization for amylose content regulating gene in tuber of Dioscorea zingiberensis. BMC Plant Biology, 24:524, 15 p.
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Url - jeu de données - Entrepôt autre : https://www.ncbi.nlm.nih.gov/bioproject/716093
Résumé : Background: Amylose, a prebiotic found in yams is known to be beneficial for the gut microflora and is particularly advantageous for diabetic patients' diet. However, the genetic machinery underlying amylose production remains elusive. A comprehensive characterization of the genetic basis of amylose content in yam tubers is a prerequisite for accelerating the genetic engineering of yams with respect to amylose content variation. Results: To uncover the genetic variants underlying variation in amylose content, we evaluated amylose content in freshly harvested tubers from 150 accessions of Dioscorea zingibensis. With 30,000 high-quality single nucleotide polymorphisms (SNP), we performed a genome-wide association analysis (GWAS). The population structure analysis classified the D. zingiberensis accessions into three groups. A total of 115 significant loci were detected on four chromosomes. Of these, 112 significant SNPs (log10(p) = 5, q-value < 0.004) were clustered in a narrow window on the chromosome 6 (chr6). The peak SNP at the position 75,609,202 on chr6 could explain 63.15% of amylose variation in the population and fell into the first exon of the ADP-glucose pyrophosphorylase (AGPase) small subunit gene, causing a non-synonymous modification of the resulting protein sequence. Allele segregation analysis showed that accessions with the rare G allele had a higher amylose content than those harboring the common A allele. However, AGPase, a key enzyme precursor of amylose biosynthesis, was not expressed differentially between accessions with A and G alleles. Overexpression of the two variants of AGPase in Arabidopsis thaliana resulted in a significantly higher amylose content in lines transformed with the AGPase-G allele. Conclusions: Overall, this study showed that a major genetic variant in AGPase probably enhances the enzyme activity leading to high amylose content in D. zingiberensis tuber. The results provide valuable insights for the development of amylose-enriched genotypes.
Mots-clés Agrovoc : amylose, génie génétique, génotype, Dioscorea, prébiotique, tubercule, qualité des aliments, amidon, variation génétique, Arabidopsis thaliana, igname, génome, expression des gènes, phytogénétique
Mots-clés géographiques Agrovoc : Chine
Mots-clés libres : Starch biosynthesis, Genome wide association study, Food quality, Yams, Food Security
Agences de financement hors UE : National Natural Science Foundation of China
Auteurs et affiliations
- Sun Shixian, Southwest Forestry University (CHN)
- Guan Binbin, Southwest Forestry University (CHN)
- xing Yue, Southwest Forestry University (CHN)
- Li Xiang, YNUTCM (CHN)
- Liu Lanlan, Southwest Forestry University (CHN)
- Li Yanmei, Southwest Forestry University (CHN)
- Jia Lu, Southwest Forestry University (CHN)
- Ye Shili, Southwest Forestry University (CHN)
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Dossa Komivi, CIRAD-BIOS-UMR AGAP (GLP)
ORCID: 0000-0003-4894-6279
- Zheng Li, Southwest Forestry University (CHN) - auteur correspondant
- Luan Yunpeng, Southwest Forestry University (CHN) - auteur correspondant
Source : Cirad-Agritrop (https://agritrop.cirad.fr/612295/)
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