Investigating the effect of drought stress and methanol spraying on the influential genes in the Calvin cycle and photorespiration of rapeseed (Brassica napus).

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Parisa Taghvimi, Mohammad Mohsenzadeh Golfazani, Mohammad Mahdi Taghvaei, Habibollah Samizadeh Lahiji
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Abstract

Due to global warming and changes in precipitation patterns, many regions are prone to permanent drought. Rapeseed (Brassica napus ) is one of the main sources of edible oils worldwide, and its production and yield are affected by drought. In this study, gene expression alterations under drought stress are investigated with bioinformatics studies to examine evolutionary relations of conserved motifs structure and interactions among Calvin cycle and photorespiration pathways key genes in drought-tolerant (SLM046) and drought-sensitive (Hayola308) genotypes of rapeseed. Investigating the conservation and evolutionary relationships revealed high conservation in motifs of FBPase, PRK, GlyK and NADP-ME enzymes. The analysis of protein interactions showed the correlation between FTRC, FBPase1, PRKX1, GlyKX2 and NADP-ME4 genes. Furthermore, in rapeseed, for the GlyKX2 and NADP-ME4 genes, four microRNAs of the miR172 family and four members of the miR167 family were identified as post-transcriptional regulators, respectively. The expression of ferredoxin thioredoxin reductase, fructose-1,6-bisphosphatase genes, phosphoribulokinase, glycerate kinase and malic enzyme 4 genes in the two rapeseed genotypes were evaluated by real-time qPCR method under 72h of drought stress and methanol foliar application. As a result, the highest expression levels of FTRC, PRKX1, GlyKX2, NADP-ME4 and FBPase1 were observed in methanol foliar application on the SLM046 genotype at 24h. In contrast, in methanol foliar application on the Hayola308 genotype, the highest expression levels of FTRC, PRKX1, GlyKX2, NADP-ME4 and FBPase1 were observed 8h after the treatment. Our study illustrated that methanol foliar application enhanced plant tolerance under drought stress.

研究干旱胁迫和甲醇喷洒对油菜卡尔文循环和光蒸腾影响基因的影响
由于全球变暖和降水模式的变化,许多地区容易遭受长期干旱。油菜(Brassica napus)是全球食用油的主要来源之一,其产量和产值受到干旱的影响。本研究利用生物信息学方法研究了干旱胁迫下的基因表达变化,探讨了耐旱油菜(SLM046)和对干旱敏感油菜(Hayola308)基因型中卡尔文循环和光呼吸途径关键基因之间的保守基序结构和相互作用的进化关系。研究发现,FBPase、PRK、GlyK和NADP-ME酶的基序具有高度的保守性和进化关系。蛋白质相互作用分析表明,FTRC、FBPase1、PRKX1、GlyKX2 和 NADP-ME4 基因之间存在相关性。此外,在油菜籽中,GlyKX2 和 NADP-ME4 基因的转录后调节因子分别是 miR172 家族的四个微RNA 和 miR167 家族的四个成员。在干旱胁迫和甲醇叶面喷施72小时的条件下,采用实时qPCR方法评估了两种油菜基因型的硫代氧化还原酶、果糖-1,6-二磷酸酶基因、磷酸布洛激酶、甘油酸激酶和苹果酸酶4基因的表达情况。结果表明,甲醇叶面喷施 24h 后,SLM046 基因型的 FTRC、PRKX1、GlyKX2、NADP-ME4 和 FBPase1 的表达水平最高。相比之下,甲醇叶面喷施在 Hayola308 基因型上,处理 8 小时后观察到 FTRC、PRKX1、GlyKX2、NADP-ME4 和 FBPase1 的表达水平最高。我们的研究表明,叶面喷施甲醇可提高植物在干旱胁迫下的耐受性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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