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鉴定和功能分析调控菜用大豆荚色的 GmPasL。

Identification and functional analysis of GmPasL regulating pod color in vegetable soybean.

机构信息

Institute of Industrial Crops, Jiangsu Academy of Agricultural Sciences, Nanjing, 210014, China.

出版信息

BMC Plant Biol. 2024 Oct 4;24(1):925. doi: 10.1186/s12870-024-05643-y.

Abstract

BACKGROUND

Vegetable soybean is rich in nutrients and has a unique flavor. It is highly preferred by people because of its pharmacological activities, including those that regulate the intestines and lower blood pressure. The pod color of vegetable soybeans is an important quality that indicates their freshness and has a significant impact on their commercialization.

RESULTS

In this study, pod color was evaluated in 301 vegetable soybean accessions collected from various regions. Genome-wide association analysis was carried out using the Mixed linear model (MLM), a total of 18 quantitative trait loci including 117 SNPs were detected. Two significant QTLs located on chromosomes 6 (qGPCL4 /qGPCa1/qGPCb2) and 18 (qGPCL10/qGPCb3) were consistently detected across different variables. Based on gene functional annotation, 30 candidate genes were identified in these two candidate intervals. Combined with transcriptome analysis, Glyma.18g241700 has been identified as a candidate gene for regulating pod color in vegetable soybeans. Glyma.18g241700 encodes a chlorophyll photosystem I subunit XI. which localizes to the chloroplast named GmPsaL, qRT-PCR analysis showed that GmPsaL was specifically highly expressed in developing pods. Furthermore, overexpression of GmPsaL in transgenetic Arabidopsis plants produced dark green pods.

CONCLUSIONS

These findings may be useful for clarifying the genetic basis of the pod color of vegetable soybeans. The identified candidate genes may be useful for the genetic improvement of the appearance quality of vegetable soybeans.

摘要

背景

菜用大豆营养丰富,风味独特,具有调节肠道、降血压等药理活性,深受人们喜爱。菜用大豆的荚色是其品质的重要指标,荚色的新鲜度对其商品价值有重要影响。

结果

本研究对 301 份来自不同地区的菜用大豆资源进行荚色评价,采用混合线性模型(MLM)进行全基因组关联分析,共检测到 117 个 SNP 标记的 18 个数量性状位点(QTLs)。在不同变量下,两个位于第 6 号染色体(qGPCL4/qGPCa1/qGPCb2)和第 18 号染色体(qGPCL10/qGPCb3)上的显著 QTL 被一致检测到。根据基因功能注释,在这两个候选区间共鉴定到 30 个候选基因。结合转录组分析,发现 Glyma.18g241700 可能是调控菜用大豆荚色的候选基因。Glyma.18g241700 编码叶绿素 a/b 结合蛋白大亚基 XI,该基因定位于叶绿体,命名为 GmPsaL。qRT-PCR 分析显示,GmPsaL 在发育中的豆荚中特异性高表达。此外,在转基因拟南芥植株中过表达 GmPsaL 会导致荚色变深。

结论

这些结果可能有助于阐明菜用大豆荚色的遗传基础。鉴定出的候选基因可能有助于改善菜用大豆的外观品质。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eb04/11451118/7c104db5abe8/12870_2024_5643_Fig1_HTML.jpg

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