黑豆种子CHS8、CHI1A、IFS2和CHR基因的表达谱分析[j]。F4代的]

Q4 Environmental Science

Indonesian Journal of Biotechnology Pub Date : 2020-01-03 DOI:10.22146/ijbiotech.51888

D. Sumardi, Aulia Marwah Mumtaza, R. Maulani, A. Pancoro, H. Nugrahapraja, S. Suhandono, T. S. Syamsudin, A. Kurniawan

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引用次数: 0

摘要

黑豆（Glycine max（L.）Merr.]产生异黄酮作为次生代谢产物，对人体健康和植物防御系统有许多益处。表达谱可以指导异黄酮生物合成途径功能基因组学的潜在工作。先前的研究表明CHS8、CHI1A和IFS2基因在异黄酮生物合成中起着至关重要的作用。然而，这些基因在当地黑豆品种中的表达谱仍然有限。本研究研究了CHS8、CHI1A、IFS2和CHR基因在当地品种UP106（高异黄酮）和UP122（低异黄酮）及其后代UP106xUP122和UP122xUP106中的表达水平。以ACT2/7为管家基因，基于逆转录聚合酶链式反应（RT‐PCR）进行相对基因表达谱分析。结果，CHS8在UP122中的表达水平低于在UP106中的表达。在所有样品中没有观察到CHI1A的表达水平的显著差异。CHS8和CHI1A在两个后代中的表达水平均高于亲代，而IFS2在两个世代中的表达程度均低于亲代。来自UP106xUP122的CHS8和IFS2的表达高于来自UP122xUP106的表达，而来自UP122x UP106的CHI1A的表达则高于来自UP106x UP122的表达。CHR在倒交中高表达；然而，该表达没有超过UP106。总之，亲本系之间的杂交不会影响异黄酮生物合成途径中的基因表达水平。

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Expression profiling of the CHS8, CHI1A, IFS2, and CHR genes in black soybean seed [Glycine max (L). Merr.] of F4 generation

Black soybean [ Glycine max (L.) Merr.] produces isoflavones as secondary metabolites, which have many benefits for human health and plant defense system. Expression profiling can guide potential work in functional genomics of the isoflavone biosynthesis pathway. Previous studies showed the vital role of the CHS8, CHI1A, and IFS 2 genes in isoflavone biosynthesis. However, expression profiling of these genes in the local black soybean varieties is still limited. This study investigated the gene expression levels of the CHS8, CHI1A, IFS2, and CHR genes in local varieties, namely, UP106 (high isoflavone) and UP122 (low isoflavone) and its progenies, i.e., UP106xUP122 and UP122xUP106. Relative gene expression profiling was conducted on the basis of Reverse Transcriptase Polymerase Chain Reaction (RT‐PCR) with ACT2/7 as a housekeeping gene. As a result, the expression level of CHS8 in UP122 is lower than that in UP106. No significant difference in the expression level of CHI1A was observed in all samples. The expression levels of CHS8 and CHI1A in both progenies were higher than that in the parental line, whereas the expression levels of IFS2 in both progenies were lower than that in the parental line. CHS8 and IFS2 expression from UP106xUP122 was higher than that from UP122xUP106, whereas CHI1A expression from UP122xUP106 was higher than that from UP106xUP122. CHR showed a high expression in the reciprocal cross; however, this expression did not exceed from UP106. In conclusion, the crossing between parental lines did not affect the gene expression level in the isoflavone biosynthesis pathway.

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来源期刊

Indonesian Journal of Biotechnology Environmental Science-Environmental Science (miscellaneous)

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

12 weeks