作业帮英语翻译BackgroundUnder conditions of salt stress,plants respond
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英语翻译
Background
Under conditions of salt stress,plants respond by activat-
ing phosphorylation cascades.For example,the salt overly
sensitive (SOS) signaling pathway is known to be
involved in stress tolerance in plants [1].Microarray has
long been utilized in transcriptome-based studies to iden-
tify salt-induced genes in plants [2-6].In addition,mass
spectrometry-based proteomic studies have also identi-
fied salt-induced proteins in plants [7-11].Both tools pro-
vide efficient ways to identify genes or proteins responsive
to salt stress.However,the unique protein phosphoryla-
tion sites required for the plant response to salt stress have
not been well characterized.
Mass spectrometry (MS) is widely used to identify protein
phosphorylation sites [12].Although mass spectrometry
coupled with database mining has become a commonly
used tool for protein identification,its application to
analysis of protein phosphorylation site identification is
still far from routine work.Characterization of phosphor-
ylation sites has proven difficult due to both the low
abundance of phosphoproteins in living organisms and
the suppression phenomenon of phosphopeptides that
occurs during MS analysis.Enrichment of phosphopep-
tides that are low in abundance can circumvent the signal
suppression effect caused by nonphosphorylated pep-
tides,allowing for enhanced detection of phosphopep-
tides by MS.Immobilized metal ion affinity
chromatography (IMAC) is a common separation plat-
form used prior to MS analysis for large scale identifica-
tion of protein phosphorylation sites from complex
samples [13].Typically,phosphopeptides are bound by
immobilized metal ions through metal-phosphate affin-
ity interactions,and nonphosphorylated peptides are
removed by washing.The phosphopeptides can then be
released from the solid support by phosphate or alkaline
elution.
Background
Under conditions of salt stress,plants respond by activat-
ing phosphorylation cascades.For example,the salt overly
sensitive (SOS) signaling pathway is known to be
involved in stress tolerance in plants [1].Microarray has
long been utilized in transcriptome-based studies to iden-
tify salt-induced genes in plants [2-6].In addition,mass
spectrometry-based proteomic studies have also identi-
fied salt-induced proteins in plants [7-11].Both tools pro-
vide efficient ways to identify genes or proteins responsive
to salt stress.However,the unique protein phosphoryla-
tion sites required for the plant response to salt stress have
not been well characterized.
Mass spectrometry (MS) is widely used to identify protein
phosphorylation sites [12].Although mass spectrometry
coupled with database mining has become a commonly
used tool for protein identification,its application to
analysis of protein phosphorylation site identification is
still far from routine work.Characterization of phosphor-
ylation sites has proven difficult due to both the low
abundance of phosphoproteins in living organisms and
the suppression phenomenon of phosphopeptides that
occurs during MS analysis.Enrichment of phosphopep-
tides that are low in abundance can circumvent the signal
suppression effect caused by nonphosphorylated pep-
tides,allowing for enhanced detection of phosphopep-
tides by MS.Immobilized metal ion affinity
chromatography (IMAC) is a common separation plat-
form used prior to MS analysis for large scale identifica-
tion of protein phosphorylation sites from complex
samples [13].Typically,phosphopeptides are bound by
immobilized metal ions through metal-phosphate affin-
ity interactions,and nonphosphorylated peptides are
removed by washing.The phosphopeptides can then be
released from the solid support by phosphate or alkaline
elution.
背景
盐胁迫条件下,植物响应的激活
荷兰国际集团磷酸化级联.例如,过度的盐
敏感(SOS)的信号转导通路被称为是
在植物的胁迫耐性相关[1].芯片有
长期以来一直应用在转录为基础的研究,以iDEN的,
tify植物盐诱导基因[2-6].此外,大众
质谱为基础的蛋白质组学研究也鉴定出,
田间盐诱导植物蛋白[7-11].这两种工具亲
韦迪有效的方法来确定基因或蛋白质反应
对盐胁迫的.然而,独特的蛋白磷酸化,
为植物对盐胁迫的反应需要tion遗址
没有得到很好的特点.
质谱(MS)是广泛用于识别蛋白质
磷酸化位点[12].虽然质谱
加上与数据库挖掘,已成为一种常用
蛋白质鉴定使用的工具,其应用
蛋白质磷酸化位点鉴定分析
还远远日常工作.表征荧光粉
ylation地点,已被证明困难,因为无论是低
磷酸化蛋白在生物丰度和
磷酸抑制的现象,
发生在MS分析.富集phosphopep -
潮汐是在低丰度的信号可以绕过
抑制效应及nonphosphorylated项目开发中心
潮汐,允许对phosphopep增强检测,
潮汐的硕士学位.固定化金属离子亲
层析(IMAC部分)是一种常见的分离平台,
形成之前使用MS分析大型identifica -
蛋白质磷酸化位点tion从复杂
样本[13].通常情况下,磷酸都受
通过金属固定化金属离子磷酸盐艾芬-
景军的相互作用,以及nonphosphorylated肽
被洗去.然后可以在磷酸
释放出的磷酸盐或碱性固体支持
洗脱.
盐胁迫条件下,植物响应的激活
荷兰国际集团磷酸化级联.例如,过度的盐
敏感(SOS)的信号转导通路被称为是
在植物的胁迫耐性相关[1].芯片有
长期以来一直应用在转录为基础的研究,以iDEN的,
tify植物盐诱导基因[2-6].此外,大众
质谱为基础的蛋白质组学研究也鉴定出,
田间盐诱导植物蛋白[7-11].这两种工具亲
韦迪有效的方法来确定基因或蛋白质反应
对盐胁迫的.然而,独特的蛋白磷酸化,
为植物对盐胁迫的反应需要tion遗址
没有得到很好的特点.
质谱(MS)是广泛用于识别蛋白质
磷酸化位点[12].虽然质谱
加上与数据库挖掘,已成为一种常用
蛋白质鉴定使用的工具,其应用
蛋白质磷酸化位点鉴定分析
还远远日常工作.表征荧光粉
ylation地点,已被证明困难,因为无论是低
磷酸化蛋白在生物丰度和
磷酸抑制的现象,
发生在MS分析.富集phosphopep -
潮汐是在低丰度的信号可以绕过
抑制效应及nonphosphorylated项目开发中心
潮汐,允许对phosphopep增强检测,
潮汐的硕士学位.固定化金属离子亲
层析(IMAC部分)是一种常见的分离平台,
形成之前使用MS分析大型identifica -
蛋白质磷酸化位点tion从复杂
样本[13].通常情况下,磷酸都受
通过金属固定化金属离子磷酸盐艾芬-
景军的相互作用,以及nonphosphorylated肽
被洗去.然后可以在磷酸
释放出的磷酸盐或碱性固体支持
洗脱.
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