Deciphering the Histone Code by Mass Spectrometry and High Dimensional Statistics
通过质谱和高维统计破译组蛋白密码
基本信息
- 批准号:8244953
- 负责人:
- 金额:$ 4.68万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2010
- 资助国家:美国
- 起止时间:2010-05-16 至 2013-05-15
- 项目状态:已结题
- 来源:
- 关键词:AcetylationBindingBiologicalBiological ModelsChromatinComputational TechniqueDNADataFutureGene ExpressionGene Expression RegulationGene-ModifiedGenesGenetic TranscriptionGenomicsGoalsHistone CodeHistone H4HistonesHumanIndividualKnock-outLanguageLiteratureLocationLysineManuscriptsMapsMass Spectrum AnalysisMeasurementMeasuresMemoryMethodsModelingModificationMolecularNucleosomesPathway interactionsPatternPlayPost-Translational Protein ProcessingPreparationPrimary Cell CulturesProteinsRNARelative (related person)ResearchResolutionRoleSaccharomyces cerevisiaeTailTechniquesTestingTissue SampleUrsidae FamilyWorkaddictionbasechromatin remodelingcombinatorialgenome-widehistone acetyltransferasein vivomutantpublic health relevancescaffoldstatisticstandem mass spectrometry
项目摘要
DESCRIPTION (provided by applicant): The project aims to determine the precise relationship between combinations of post- translational modifications (PTMs) on chromatin and gene expression. It is known that PTMs on chromatin play a major role in memory formation and addiction. Individual histones may bear various combinations of PTMs, and the histone code hypothesis proposes that combinations of PTMs may have specific effects on gene regulation. By determining what changes in gene expression occur simultaneously with which combinations, it will be possible to better understand the molecular mechanisms underlying addiction, and suggest therapies to ameliorate them. To this end, Top Down mass spectrometry will be used to simultaneously measure combinations of marks in S. cerevisiae under conditions and strains that perturb them, and ultra-high-throughput sequencing will be used to measure gene expression. Statistical techniques based on regularization and variable selection will then be used to select groups of genes whose expression is most tightly correlated with changes in the relative abundance of particular subsets of marks. ChIP-seq will then be used to determine the location and mobility of nucleosomes bearing these particular combinations of marks. It will be determined if the relative abundances of mark combinations as measured by mass spectrometry are equal to the relative abundances of nucleosomes with those combinations as measured by ChIP-seq; this will determine whether the nucleosomes bearing these marks are bound or free. To support these aims, computational techniques will be developed to enable high-throughput data gathering and statistical analysis. Preliminary work suggests that methods developed using this model system are straightforwardly transferrable to work in human cell culture and primary tissue samples, providing a direct pathway for applying the results of these studies to future work on the chromatin remodeling mechanisms underlying addiction.
PUBLIC HEALTH RELEVANCE: Addiction and memory formation are now known to involve changes in molecular marks on proteins called histones, which act as a scaffold for DNA. This project aims to determine the precise meaning of combinations of these marks, and their effects on gene regulation.
描述(由申请人提供):该项目旨在确定染色质上的翻译后修饰(PTM)组合与基因表达之间的精确关系。已知染色质上的PTM在记忆形成和成瘾中起主要作用。单个组蛋白可能具有不同的PTM组合,组蛋白密码假说提出PTM的组合可能对基因调控有特定的影响。通过确定基因表达的哪些变化与哪些组合同时发生,将有可能更好地了解成瘾的分子机制,并提出改善这些机制的疗法。为此,将使用自顶向下质谱法同时测量S中标记的组合。将在干扰它们的条件和菌株下对酿酒酵母进行测序,并且超高通量测序将用于测量基因表达。然后,基于正则化和变量选择的统计技术将用于选择基因组,其表达与特定标记子集的相对丰度的变化最紧密相关。然后,ChIP-seq将用于确定带有这些特定标记组合的核小体的位置和迁移率。将确定通过质谱法测量的标记组合的相对丰度是否等于通过ChIP-seq测量的具有那些组合的核小体的相对丰度;这将确定携带这些标记的核小体是结合的还是游离的。为了支持这些目标,将开发计算技术,以实现高通量数据收集和统计分析。初步工作表明,使用该模型系统开发的方法可直接转移到人类细胞培养和原代组织样本中,为将这些研究结果应用于未来成瘾相关染色质重塑机制的工作提供了直接途径。
公共卫生相关性:成瘾和记忆的形成现在已知涉及称为组蛋白的蛋白质上的分子标记的变化,组蛋白充当DNA的支架。该项目旨在确定这些标记组合的确切含义及其对基因调控的影响。
项目成果
期刊论文数量(0)
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Leonid Zamdborg其他文献
Leonid Zamdborg的其他文献
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{{ truncateString('Leonid Zamdborg', 18)}}的其他基金
Deciphering the Histone Code by Mass Spectrometry and High Dimensional Statistics
通过质谱和高维统计破译组蛋白密码
- 批准号:
7912731 - 财政年份:2010
- 资助金额:
$ 4.68万 - 项目类别:
Deciphering the Histone Code by Mass Spectrometry and High Dimensional Statistics
通过质谱和高维统计破译组蛋白密码
- 批准号:
8281647 - 财政年份:2010
- 资助金额:
$ 4.68万 - 项目类别:
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