2019
DOI: 10.1089/dna.2018.4584
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Cytosine Methylation of Isoflavone Synthase Gene in the Genic Region Positively Regulates Its Expression and Isoflavone Biosynthesis in Soybean Seeds

Abstract: Plants, being sessile organisms, have evolved several dynamic mechanisms of gene regulation. Epigenetic modification especially cytosine methylation and demethylation actively regulates the expression of genes. To understand the role of cytosine methylation during isoflavonoid biosynthesis and accumulation, we performed cytosine methylation analysis in the coding region of two isoforms IFS1 and IFS2 gene, in two contrasting soybean genotypes differing in total isoflavone content (NRC37: high isoflavone; and NR… Show more

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Cited by 7 publications
(5 citation statements)
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“…Legumes possess a unique enzyme, isoflavone synthase (IFS), which is a cytochrome P450 monooxygenase that catalyzes the 2, 3 migration of the B-ring of naringenin or liquiritigenin, resulting in the production of various biologically active isoflavonoids [ 27 ]. The genes encoding enzymes in this pathway are tissue specific and are regulated both spatially and temporally in legumes [ 28 ]. Such catalytic enzymes are induced by various stress factors influencing plant condition, including climate, temperature, soil moisture availability, nutrient deficiency, and herbivory [ 29 ].…”
Section: Introductionmentioning
confidence: 99%
“…Legumes possess a unique enzyme, isoflavone synthase (IFS), which is a cytochrome P450 monooxygenase that catalyzes the 2, 3 migration of the B-ring of naringenin or liquiritigenin, resulting in the production of various biologically active isoflavonoids [ 27 ]. The genes encoding enzymes in this pathway are tissue specific and are regulated both spatially and temporally in legumes [ 28 ]. Such catalytic enzymes are induced by various stress factors influencing plant condition, including climate, temperature, soil moisture availability, nutrient deficiency, and herbivory [ 29 ].…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, epigenetic regulation, including DNA methylation and histone modifications, has been implicated in the control of isoflavonoid accumulation ( Baulcombe and Dean, 2014 ; Chang et al., 2020 ). A comprehensive comparative analysis across various soybean genotypes exhibiting distinct isoflavone contents revealed a positive correlation between the expression of the IFS gene and the cytosine methylation level within its coding region ( Gupta et al., 2019a ). This finding underscores the potential positive regulatory impact of epigenetic modifications on the intricate process of isoflavonoid biosynthesis.…”
Section: Regulation Of Isoflavonoid Biosynthesismentioning
confidence: 99%
“…V štúdii vykonanej Guptom a spol. bola preukázaná nezanedbateľná úloha metylácie DNA pri regulácii biosyntézy a akumulácie izoflavonoidov 57 . Izoflavonoidy v sóji sa považujú za veľmi hodnotné molekuly s niekoľkými liečivými vlastnosťami, ich obsah v semenách je však zanedbateľný.…”
Section: Epigenetický Výskum Sekundárneho Metabolizmu Rastlínunclassified
“…Štúdia naznačuje spôsob, akým by pestovatelia mohli v budúcnosti kultivovať sóju obohatenú o izoflavonoidy. Výsledky demonštrovali pozitívnu úlohu 5-mC v kódujúcej oblasti génu, čo viedlo k jeho zvýšenej expresii a následnej syntéze izoflavonoidov 57 . Výsledky tejto štúdie nepochybne zvyšujú pochopenie epigenetickej regulácie biosyntetickej dráhy izofavonoidov prostredníctvom metylácie cytozínu a môžu pomôcť získať genotypy sóje so zlepšeným výťažkom účinných metabolitov.…”
Section: Epigenetický Výskum Sekundárneho Metabolizmu Rastlínunclassified