solanum_lycopersicum_qpcr

Turkey supplies 7% of world tomato production. The most severe effect of climate change occurs on agriculture. Increasing salinity on agricultural fields reduces yield, total available space, and plays a negative role in vegetative development. The salinity issue of Iğdır Plateau, which has microclimate conditions, conduce to loss of yield. The aim of this project is to gene-level determine the effects of synthetic Strigolactone GR24 on the H-2274 type tomato under saline conditions. Ten and 100 nM GR24 doses were applied to H-2274 type tomato plants cultivated on 150 mM NaCl. The expression levels of the abiotic stress-related enzymes; catalase, superoxide dismutase and glutathione reductase, and transcription factors; SlWRKY31, ERF84, NHX1, HKT1;2 were determined by Real-Time Quantitative Polymerase Chain Reaction. We think the data evaluated on the result of this project will open an avenue to the researchers who study salinity stress on tomato production. This is the raw qPCR dataset of the study exported from Rotor Gene Q 2.3.5 software.

土耳其贡献了全球番茄生产的7%。气候变化对农业的影响尤为严重，农田的盐分增加降低了产量、可用空间，并对植被生长发育产生负面影响。伊尔德尔高原的盐分问题，因其微气候条件，导致了产量的损失。本项目的目标是基因水平上确定合成Strigolactone GR24对在盐碱条件下培养的H-2274型番茄的影响。在150 mM NaCl条件下，对H-2274型番茄植物施加了10和100 nM的GR24剂量。通过实时定量聚合酶链反应（Real-Time Quantitative Polymerase Chain Reaction）测定了与生物非应力相关的酶（如过氧化氢酶、超氧化物歧化酶和谷胱甘肽还原酶）以及转录因子（如SlWRKY31、ERF84、NHX1、HKT1;2）的表达水平。我们认为，本项目评估的结果将为研究番茄生产中盐碱胁迫的学者们开辟一条新的研究途径。这是从Rotor Gene Q 2.3.5软件导出的原始qPCR数据集。