Cold Spring Harbor Laboratory Course on Proteomics

冷泉港蛋白质组学实验室课程

基本信息

批准号：
9755461
负责人：
DAVID J. STEWART
金额：
$ 12.33万
依托单位：
COLD SPRING HARBOR LABORATORY
依托单位国家：
美国
项目类别：
财政年份：
2018
资助国家：
美国
起止时间：
2018-08-03 至 2023-04-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/9755461
关键词：
Animal Model Animals Area Arts Bioinformatics Biological Biological Assay Biological Process Biology Characteristics Complex Coupled Course Content Data Data Analyses Development Dimensions Disease Ensure Equipment Exercise Faculty Fractionation Gel Genetic Genomics Goals Health High Pressure Liquid Chromatography Human Biology Individual Institutes Invertebrates Isotope Labeling Knowledge Label Laboratories Learning Mass Spectrum Analysis Measures Medical Methodology Methods Modeling Molecular Biology Monitor Mus Participant Peptides Physiological Post-Translational Protein Processing Postdoctoral Fellow Process Protein Analysis Proteins Proteome Proteomics Rana Rattus Regulation Research Research Personnel Sampling Scientist Sequence Analysis Series Shotguns Students System Systems Biology Talents Techniques Technology Training Update Zebrafish biological research design experience experimental study fly graduate student grasp high throughput technology human disease improved in vitro Model insight instructor laboratory curriculum laboratory experience lecturer lectures metabolomics peer programs protein complex protein expression protein profiling skills statistics stem cell technology student training tandem mass spectrometry work-study

项目摘要

Abstract CSHL Proteomics Course The proposed Cold Spring Harbor Laboratory Course on Proteomics is to be held each summer from 2018 through 2022. Proteomics is one of the pillar technologies of systems biology by which hundreds or thousands of proteins can be monitored and characterized simultaneously. In combination with genomics and metabolomics approaches, proteomics is an enabling core technology to probe biological activities in parallel, providing unprecedented analytical power into diverse biological processes in mammalian development and disease. Models of many human diseases have been developed in a wide variety of animal systems, in particular vertebrate models such as mouse, zebrafish, rat and frog, and invertebrate models such as worms and flies; and increasingly the use of new stem cell technologies is being harnessed to produce powerful in vitro models to be deployed alongside animal models. There is a growing need for implementation of systems biology approaches to these models, which necessitates an in-depth understanding of the challenges and pitfalls of various “high-throughput” technologies, achieved in part by hands-on and highly focused training. This intensive two week laboratory and lecture course will focus on cutting-edge proteomics approaches and technologies. Students will gain practical experience purifying and identifying protein complexes and enriching/characterizing post-translationally modified peptides using the latest methods. In the protein profiling portion of the course, students will gain hands-on experience in quantitative proteome analysis methods: they will be taught label-free and covalent isotopic-labeling approaches to differentially profile changes in proteomes. Students will be trained in high-sensitivity, microcapillary high pressure liquid chromatography (nanoHPLC) coupled with nanospray-ESI and tandem mass spectrometry. Both single dimension and multidimensional separation methods coupled to mass spectrometry will be taught. In the targeted proteomics section of the course, students will be taught to analyze and process shotgun proteomics data in order to accurately identify and quantify selected proteins: they will be trained to select and design transitions for targeted peptides and to setup and perform SRM/MRM mass spectrometry assays. They will learn to process and interpret the acquired data to measure and validate changing quantities of targeted proteins in a variety of biological samples. For all sections of the course, a strong emphasis will be placed on data analysis. Outside lecturers will discuss proteomics topics and methods not directly covered in the course including de novo sequence analysis; 2D-gel fractionations and detecting/quantifying protein-level changes using DIGE; advanced mass spectrometry methods; statistics; the analysis of intact proteins, and native mass spectrometry; and functional proteomics. The overall aim of the course is to provide each student with the fundamental knowledge and hands-on experience necessary to be able to perform proteomics experiments and properly analyze the resulting data. The long term goal is to train students to identify new opportunities and applications for proteomics approaches in their biological research and to learn how to integrate these into systems biology and model organism approaches to human biology and health.

抽象的 CSHL蛋白质组学课程拟议的冷泉港蛋白质组学实验室课程将于每年举行 2018 年至 2022 年夏季。蛋白质组学是系统生物学的支柱技术之一可以同时监测和表征数百或数千种蛋白质。与基因组学和代谢组学方法相结合，蛋白质组学是一个支持核心并行探测生物活动的技术，为生物活动提供前所未有的分析能力许多人类的哺乳动物发育和疾病模型中的不同生物过程。多种动物系统，特别是脊椎动物模型中都出现了疾病例如小鼠、斑马鱼、大鼠和青蛙，以及蠕虫和苍蝇等无脊椎动物模型；越来越多地利用新的干细胞技术来产生强大的体外与动物模型一起部署的模型越来越需要实施。这些模型的系统生物学方法，这需要深入了解各种“高通量”技术的挑战和陷阱，部分是通过实践和实践来实现的高度集中的培训。这个为期两周的密集实验室和讲座课程将重点关注尖端蛋白质组学方法和技术。学生将获得纯化和鉴定蛋白质的实践经验。使用最新的复合物和富集/表征翻译后修饰的肽在课程的蛋白质分析部分，学生将获得以下方面的实践经验。定量蛋白质组分析方法：将教授无标记和共价同位素标记学生将接受高灵敏度、差异分析蛋白质组变化的方法。微毛细管高压液相色谱 (nanoHPLC) 与 Nanospray-ESI 联用串联质谱法。单维和多维分离方法耦合。在课程的目标蛋白质组学部分，学生将学习质谱分析。教授如何分析和处理鸟枪法蛋白质组学数据，以便准确识别和量化选定的蛋白质：他们将接受培训以选择和设计目标肽的转变并设置并执行 SRM/MRM 质谱分析。他们将学习处理和解释数据。获取数据来测量和验证各种目标蛋白质的变化量生物样本。课程的所有部分都将重点放在数据分析上。外部讲师将讨论课程中未直接涵盖的蛋白质组学主题和方法包括从头序列分析；2D 凝胶分级分离和检测/定量蛋白质水平使用先进的质谱分析方法进行变化；蛋白质和天然质谱；和功能蛋白质组学。课程的总体目标是为每个学生提供基础知识和能够进行蛋白质组学实验和正确分析所需的实践经验由此产生的数据的长期目标是培训学生发现新的机会和蛋白质组学方法在生物学研究中的应用，并学习如何整合这些方法进入人类生物学和健康的系统生物学和模式生物方法。