Synthetic Strigolactone Regulates Some Stress Related Genes and Transcription Factors on Tomato (Lycopersium esculentum L.)

Kaan Hürkan
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Abstract

Türkiye meets about 7% of the world tomato production. The most severe effects of climate change are seen in agriculture. The increase of salinity in agricultural lands reduces the usable area and affects the growth, development and yield of the products grown. The salinity problem in the Iğdır Plain, which has a microclimate feature, causes the region to not be used at full capacity and to obtain sufficient yield from the products grown. The aim of this study is to determine the effects of synthetic strigolactone GR24-rac against salinity at the gene level in H-2274 tomato cultivar grown under saline conditions for the first time. In the experiments carried out for this purpose, the effects GR24-rac applied at 10 nM and 100 nM doses to H-2274 tomatoes grown at 150 mM salt concentration were determined at the gene level. The mRNA levels of the genes encoding the stress enzymes catalase, superoxide dismutase and glutathione reductase and the transcription factors SlWRKY31, ERF84, LeNHX1, HKT1;2 were determined by Real-Time Quantitative Polymerase Chain Reaction. Results showed that GR24-rac application controlled the regulation of genes and transcription factors and helps the plant to cope with high concentration salt. We concluded that the data obtained as a result of the study will open a new avenue for researchers to increase the tolerance to salinity in tomatoes.
合成独角麦内酯调控番茄逆境相关基因和转录因子
t rkiye约占世界番茄产量的7%。气候变化对农业的影响最为严重。农田盐分的增加减少了可利用面积,影响了作物的生长发育和产量。Iğdır平原具有小气候特征,其盐度问题导致该地区不能充分利用,也不能从种植的产品中获得足够的产量。本研究旨在首次在盐碱化条件下对H-2274番茄品种进行基因水平上的抗盐作用研究。为此,在基因水平上测定了GR24-rac在10 nM和100 nM剂量下对150 mM盐浓度下生长的H-2274番茄的影响。采用Real-Time定量聚合酶链式反应(Real-Time Quantitative Polymerase Chain Reaction)检测胁迫酶过氧化氢酶、超氧化物歧化酶和谷胱甘肽还原酶编码基因的mRNA水平以及转录因子SlWRKY31、ERF84、LeNHX1、HKT1;2的表达水平。结果表明,施用GR24-rac控制了基因和转录因子的调控,有助于植物应对高浓度盐。我们的结论是,这项研究获得的数据将为研究人员提高番茄的耐盐性开辟一条新的途径。
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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