GENE EXPRESSION ANALYSIS OF ISOFLAVONE SYNTHESIS PATHWAY ON F4 GENERATION FOR STRAIN EVALUATION IN LOCAL BLACK SOYBEAN (Glycine max. (L.) Merr)
Black soybean (Glycine max. (L.) Merr) is an important agricultural commodity in Indonesia for the production of food, drugs, and chemicals.. Black soybeans contains isoflavone 100 times greater compared to other legumes. Isoflavones are secondary metabolites that play a role in plant defense mec...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/40042 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Black soybean (Glycine max. (L.) Merr) is an important agricultural commodity in
Indonesia for the production of food, drugs, and chemicals.. Black soybeans
contains isoflavone 100 times greater compared to other legumes. Isoflavones are
secondary metabolites that play a role in plant defense mechanisms and have many
benefits for human health. The synthesis of isoflavone is controlled by several genes
and environmental factors. Information on the function of these genes controlling
isoflavone synthesis is needed in the use of molecular markers for the development
of black soybean varieties which have characteristics of high and stable isoflavones.
In this study, the expression of genes involved in isoflavone biosynthesis pathway
(CHS8, CHR, CHI1A, F6H3, and IFS2) was profiled on local varieties of UP106
and UP122 black soybeans and F4 generation of UP106xUP122 and UP122xUP106
to evaluate potential strain lines for cultivar selection. Both F1 strains have
relatively stable isoflavone synthesis with significant difference (UP106 high levels
of isoflavone and UP122 low levels of isoflavones) and F4 generation which is the
result of the two F1 reciprocal crosses, namely UP106xUP122 and UP122xUP106.
The research methods includes planting, sampling, isolation of RNA, quantity and
quality analysis of RNA, synthesis of cDNA, reverse transcriptase PCR (RT-PCR)
CHS8, CHR, CHI1A, F6H3, and IFS2 genes. The expression of those genes was
semi-quantified based on band thickness from agarose gel electrophoresis using
ImageJ. Relative expression were quantified against actin (ACT2/7) as reference
gene, The results showed that in the relative expression level of CHS8 and CHR
were highest in the UP106 genotype, expression of CHI1A was not significantly
different between all genotypes based on one-way ANOVA test (p-value>0.05).
IFS2 expression was highest in F4 genotype (UP106xUP122. Expression analysis
of F6H3 gene was not conducted due to the absence of bands from RT-PCR results.
The conclusion of this study is that F4 generation (UP106xUP122) shows highest
IFS2 expression than both F1 strains. IFS2 is one of the key genes in isoflavone
biosynthesis. In addition, the profile of gene expression in both generations of F4
was influenced by crossing UP106xUP122 and UP122xUP106 on CHS8, CHR and
IFS2 genes based on t-test (p-value <0.05) and had no effect on CHI1A and F6H3
genes. |
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