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Molecular Interactions and Imaging Core

分子相互作用和成像核心

基本信息

批准号：
10460274
负责人：
HENRY N HIGGS
金额：
$ 44.63万
依托单位：
DARTMOUTH COLLEGE
依托单位国家：
美国
项目类别：
财政年份：
2016
资助国家：
美国
起止时间：
2016-05-15 至 2026-05-31
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10460274
关键词：
Actins Adopted Area Award Awareness Back Binding Biochemical Biological Assay Biology Calorimetry Cells Centers of Research Excellence Charge Collaborations Collection Communities Consultations Core Facility Cryoelectron Microscopy Custom DNA Repair Data Data Analyses Development Drosophila genus Electron Microscopy Electron Microscopy Facility Embryo Endocytosis Ensure Environment Equipment Experimental Designs Extramural Activities Faculty Fluorescence Microscopy Funding Goals Grant Histone H3 Human Image Image Analysis Imaging technology In Situ In Vitro Individual Influenza Hemagglutinin Infrastructure Institutes Institution Laboratories Lead Location Mammalian Cell Mass Spectrum Analysis Measures Melanoma Cell Methods Microscopy Mission Modeling Molecular Molecular Structure Monitor Monoclonal Antibodies Norris Cotton Cancer Center Nuclear Organelles Participant Phase Pilot Projects Play Population Positioning Attribute Process Production Program Reviews Protein Dynamics Protein Isoforms Proteins Proteomics Recovery Research Research Infrastructure Research Personnel Research Project Grants Resolution Resources Role Scientist Services Specialist Spectrum Analysis Strategic Planning Structure Surface Plasmon Resonance Surveys T-Lymphocyte Talents Techniques Technology Time Titrations Training Validation Virus Water Work Workload base biophysical properties biophysical techniques cell motility cellular imaging cost cost effective design experimental study flexibility fluorescence microscope imaging study improved instrument instrumentation interest intravital imaging light microscopy member method development molecular imaging operation polymerization pressure recruit success tool tumor

项目摘要

The Molecular Interactions and Imaging Core (MIIC) increases the rigor and sophistication of bioMT research projects by facilitating the use of molecular binding assays and imaging technologies. One goal of the MIIC is to eliminate barriers to these technologies and provide advice in the optimal collection and analysis of the data. In phase I of this grant, MIIC has centralized oversight of existing resources and participated in the acquisition of new equipment, both within the bioMT facility and in conjunction with two existing microscopy cores at Dartmouth. We have hired staff to provide training, guidance, and experimental support in the characterization of molecular interactions. We have also hired two imaging navigators to help investigators with experimental design, image acquisition, and image analysis. These activities significantly enhanced the ability of our phase I research project leaders (RPLs) and all bioMT investigators to conduct quantitative binding and imaging studies at Dartmouth, and thus contributed to their extramural and academic success. Our plans for the next funding period have been guided by an inclusive and intensive program review process. In phase II, MIIC has four specific aims. Specific Aim 1 is to provide customized support to help the four RPLs attain their research goals and achieve independence. As active participants in the development of the four research projects, the director and research navigators engaged with the RPLs to comprehensively assess the methods required by each. From this survey we identified key technologies to quantify binding interactions, to visualize molecular locations and dynamics of proteins and organelles in cells, and to assess distribution of cells within tumors in situ. Specific Aim 2 is to expand our services to three key areas: mass spectrometry/proteomics, higher resolution cellular imaging by super-resolution microscopy and electron microscopy, and cryo-electron microscopy analysis of macromolecular structure. In all three areas, MIIC will continue the cost-effective practice of leveraging existing equipment at Dartmouth and elsewhere to accomplish these goals. Specific Aim 3 is to extend support for image analysis, which is an increasingly pressing need for many investigators. Specific Aim 4 prepares for sustainability of the Core in phase 3. The MIIC works closely with the Molecular Tools Core, which is housed in the same, newly renovated bioMT Core Facilities Suite. In addition, the MIIC has established strong working relationships with existing cores at Dartmouth (including several supported by other COBRE awards) as well as at other IDeA partner institutions. Within all four aims, the MIIC has been designed to adapt flexibly to technological needs that emerge as bioMT investigators make scientific progress. The MIIC will also share best practices and ensure up-to-date training for all bioMT investigators interested in monitoring, and in most cases quantifying, binding interactions of their biomolecules, whether as purified components or within cells. It will thus directly support all four bioMT Research Projects as well as affiliated bioMT faculty, and will enhance the research infrastructure available at Dartmouth and among our regional IDeA partners.

分子相互作用和成像核心（MIIC）增加了生物医学研究的严谨性和复杂性