NMT历史上的今天
2018年8月30日,东北农业大学王金刚、周爱民利用NMT在International Journal ofMolecular Sciences上发表了标题为PsCor413pm2, a Plasma Membrane-Localized, Cold-Regulated Protein from Phlox subulata, Confers Low Temperature Tolerance in Arabidopsis的研究成果。
期刊:International Journal of Molecular Sciences
主题:PsCor413pm2,来自福禄考的等离子膜定位,冷调节蛋白,在拟南芥中具有低温耐受性
标题:PsCor413pm2, a Plasma Membrane-Localized, Cold-Regulated Protein from Phlox subulata, Confers Low Temperature Tolerance in Arabidopsis
影响因子:3.687
检测指标:Ca2+流速
检测部位:拟南芥根部伸长区
Ca2+流实验处理方法:
7日龄拟南芥,低温(4摄氏度)瞬时胁迫
Ca2+流实验测试液成份:
0.1 mM KCl, 0.1 mM CaCl2, 0.1 mM MgCl2, 0.5 mM NaCl, 0.3 mM MES, and 0.2 mM Na2SO4, pH 6
作者:东北农业大学周爱民、王金刚
英文摘要
Low temperature stress adversely affects plant growth
and development. Isolation and characterization of cold response genes
from cold-tolerant plants help to understand the mechanism underlying
low temperature tolerance.
In this study, PsCor413pm2, a
cold-regulated (COR) gene isolated from Phlox subulata, was transferred
to Arabidopsis plants to investigate its function. Real-time
quantitative PCR analysis revealed that PsCor413pm2 expression was
induced by cold. Subcellular localization revealed that the
PsCor413pm2-green fluorescent protein (GFP) fusion protein localized to
the plasma membrane in tobacco and Arabidopsis plants.
Furthermore,
overexpression of PsCor413pm2 in Arabidopsis plants enhanced tolerance
to low temperature stress. Transgenic Arabidopsis roots had more influx
of Ca2+ after a cold shock than wild-type plants, as shown using
non-invasive micro-test technology (NMT). Moreover, the transcription
abundance of five COR and two C-repeat (CRT) binding factor (CBF) genes
in transgenic Arabidopsis plants was higher than that in the wild-type
plants under cold stress.
Taken together, our results suggest
that overexpression of PsCor413pm2 enhances low temperature tolerance in
Arabidopsis plants by affecting Ca2+ flux and the expression of
stress-related COR and CBF genes.
中文摘要(谷歌机翻)
低温胁迫对植物生长和发育产生不利影响。来自耐寒植物的冷响应基因的分离和表征有助于理解低温耐受性的机制。
在这项研究中,从福禄考(Phlox
subulata)分离的冷调节(COR)基因PsCor413pm2被转移到拟南芥植物中以研究其功能。实时定量PCR分析显示PsCor413pm2表达是由冷诱导的。亚细胞定位揭示了PsCor413pm2-绿色荧光蛋白(GFP)融合蛋白定位于烟草和拟南芥植物中的质膜。
此外,拟南芥植物中PsCor413pm2的过表达增强了对低温胁迫的耐受性。如使用非侵入性微测试技术(NMT)所示,转基因拟南芥根在冷休克后比野生型植物具有更多的Ca2+流入。此外,转基因拟南芥植物中5个COR和2个C重复(CRT)结合因子(CBF)基因的转录丰度高于野生型植物在冷胁迫下的转录丰度。
总之,我们的结果表明PsCor413pm2的过表达通过影响Ca2+通量和应激相关的COR和CBF基因的表达来增强拟南芥植物的低温耐受性。
Effect of cold shock on net Ca2+ flux in the root elongation zone of transgenic Arabidopsis and wild type (WT) seedlings. (A) The root zones of Arabidopsis seedlings as measured using non-invasive micro-test technology (NMT). (B) Ca2+ kinetics recorded after a cold (4 °C) solution was added (at red arrow) to the chamber are shown. Prior to the cold shock, Ca2+ fluxes in roots were examined for approximately 5 min at room temperature (22 °C). (C) The mean Ca2+ flux rate in the root elongation zone of transgenic Arabidopsis plants (#10) overexpressing PsCor413pm2, as well as WT plants during the period of cold shock is shown. Error bars show the SE of the values from six replicates.
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