Large-scale Identification and Time-courseQuantification of Ubiquitylation Events During Maize Seedl

来源 :基因组蛋白质组与生物信息学报(英文版) | 被引量 : 0次 | 上传用户:wc420178
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
The ubiquitin system is crucial for the development and fitness of higher plants. De-etiolation, during which green plants initiate photomorphogenesis and establish autotrophy, is a dramatic and complicated process that is tightly regulated by a massive number of ubiquitylation/de-ubiquitylation events. Here we present site-specific quantitative proteomic data for theubiquitylomes of de-etiolating seedling leaves of Zea mays L. (exposed to light for 1, 6, or 12 h) achieved through immunoprecipitation-based high-resolution mass spectrometry (MS). Through the integrated analysis of multiple ubiquitylomes, we identified and quantified 1926 unique ubiquity-lation sites corresponding to 1053 proteins. We analyzed these sites and found five potential ubiqui-tylation motifs, KA, AXK, KXG, AK, and TK. Time-course studies revealed that the ubiquitylation levels of 214 sites corresponding to 173 proteins were highly correlated across two replicate MS exper-iments, and significant alterations in the ubiquitylation levels of 78 sites (fold change >1.5) were detected after de-etiolation for 12 h. The majority of the ubiquitylated sites we identified corre-sponded to substrates involved in protein and DNA metabolism, such as ribosomes and histones. Meanwhile, multiple ubiquitylation sites were detected in proteins whose functions reflect the major physiological changes that occur during plant de-etiolation, such as hormone synthesis/signaling pro-teins, key C4 photosynthetic enzymes, and light signaling proteins. This study on the ubiquitylome of the maize seedling leaf is the first attempt ever to study the ubiquitylome of a C4 plant and provides the proteomic basis for elucidating the role of ubiquitylation during plant de-etiolation.
其他文献
本文主要研究纳米金属粉体的制备与摩擦学性能。在查阅文献的基础上,选择了高能球磨的方法,分别选用金属铜粉和金属铋粒为原料,进行了纳米铜粉和纳米铋粉的制备研究。实验选
矿产资源是一项非常重要的自然资源,人们日常生产与生活都离不开它.而露天开采势必会对矿山的环境产生一定的破坏,如各类废渣、尾矿等,直接对土地产生了一定的破坏;矿山开采
沉积物的修复技术中,原位覆盖技术能够降低污染物向水体的释放,降低污染物对底栖生物和水生生物的生物可利用性,以及减少污染物向下游的迁移。在本研究中,我们将活性炭添加到受六
中学英语教学的目的和英语学科素质教育的要求,就是使学生获得运用英语的能力,激发学生的学习兴趣,养成良好的学习习惯,培养学生的自学能力,发展学生的思维能力和创新能力,使学生受
随着社会的发展,各界对于资源的需求也在不断增加,尤其是石油资源,已经成为社会发展的基础保障,但在石油开采的过程中,往往会遇到各种各样的问题,导致一些开采方法受到限制,
本文结合实际,对事业单位会计内部控制建设内容进行研究.首先对当前会计事业内部控制制度的基本构成进行分析,其次详细的论述事业单位会计内部控制体系构建策略,希望论述之后
随着我国经济的不断提升,现阶段我国很多企业在国际市场中都占据着非常重要的地位.所以我国各大企业为了在日后更好的发展就需要注重会计核算规范化管理,在管理中不断提高会
2016轮胎技术博览会于2016年2月16日~18日在汉诺威的德国博览会馆新址举办。轮胎技术博览会已进入第16个年头,它是世界上最重要的轮胎制造技术展览会和学术报告会,主办方称,
近几十年来,中国的经济保持着高速的增长,这也使得中国的生态环境持续的遭受着污染的压力。珠江三角洲(简称珠三角)是中国改革开放以来经济迅猛发展的典型区域,其内部的环境
本实验利用自制的磁控弧光射频等离子体增强化学气相沉积(RF magnetron PECVD)设备,在生物玻璃片上制备类金刚石碳(DLC)膜,利用探针轮廓仪、原子力显微镜(AFM)、拉曼光谱仪(R