2013 Microbial Adhesion & Signal Transduction Gordon Research Conference

2013 微生物粘附

• 批准号: 8524412
• 负责人: Craig R. Roy
• 金额: $ 0.8万
• 依托单位: GORDON RESEARCH CONFERENCES
• 依托单位国家: 美国
• 财政年份: 2013
• 资助国家: 美国
• 起止时间: 2013-07-15 至 2013-11-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8524412
• 关键词: Address; Adherence; Adhesions; Age; Animals; Bacteria; Biochemical; Biology; Environment; Gender; Goals; Influentials; Institutes; Intention; International; Lead; Microbe; Molecular Genetics; Ointments; Oral; Organism; Participant; Postdoctoral Fellow; Recruitment Activity; Research; Research Personnel; Rhode Island; Scientist; Seminal; Signal Transduction; Time; Underrepresented Minority; Universities; Washington; abstracting; design; disability; graduate student; innovation; interdisciplinary approach; interest; meetings; microbial; postdoctoral investigator; programs; public health relevance; symposium; unpublished works; Address; Adherence; Adhesions; Age; Animals; Bacteria; Biochemical; Biology; Environment; Gender; Goals; Influentials; Institutes; Intention; International; Lead; Microbe; Molecular Genetics; Ointments; Oral; Organism; Participant; Postdoctoral Fellow; Recruitment Activity; Research; Research Personnel; Rhode Island; Scientist; Seminal; Signal Transduction; Time; Underrepresented Minority; Universities; Washington; abstracting; design; disability; graduate student; innovation; interdisciplinary approach; interest; meetings; microbial; postdoctoral investigator; programs; public health relevance; symposium; unpublished works

DESCRIPTION (provided by applicant): The Gordon Research Conference on Microbial Adherence and Signal Transduction is a premier international meeting that brings together a group of researchers with a shared interest in understanding the diverse mechanisms bacteria have evolved to interact with each other and animal hosts. The meeting is held biennially at Salve Regina University in Newport, Rhode Island. The 2013 meeting will be held July 21-26. The meeting will focus on the diverse approaches used to address questions on how microbes sense, respond, colonize, and eventually spread in both the environment and in host organisms. Attendees will include an equal distribution of independent investigators, postdoctoral scholars, and graduate students. Molecular, genetic, biochemical, immunological and structural approaches will all be represented. There will be nine seminar sessions with session leaders that will provide an overview of the topic and stimulate discussion from the attendees. The 2013 meeting will be chaired by Craig R. Roy (Yale University), with the assistance of Jean-Marc Ghigo (Institute Pasteur), and the elected vice-chairs Matthew Parsek (University of Washington, Seattle) and Jorg Vogel (University of Wurtzburg). This meeting provides a forum where cutting-edge research will be presented on the mechanisms of bacterial adherence and signal transduction. There are slots reserved in thematic seminar sessions to be populated by postdoctoral fellows and graduate students, giving them an opportunity to share their discoveries and gain exposure at a high-impact international conference. This meeting provides an environment that enables networking among investigators, and gives postdoctoral researchers and graduate students access to influential leaders in the field of microbial adherence and signal transduction. The program includes many new investigators that have not previously presented their research at this meeting, and includes new sessions that reflect the multidisciplinary approaches being used to address questions of seminal importance in the field.

描述（由申请人提供）：关于微生物依从性和信号转导的戈登研究会议是一场主要的国际会议，汇集了一群对了解细菌相互互动和动物宿主的多种机制的共同兴趣的研究人员。该会议在罗德岛纽波特的萨尔维·里贾纳大学两年一举行。 2013年会议将于7月21日至26日举行。该会议将重点关注用于解决微生物感知，反应，殖民并最终在环境和寄主生物中传播的各种方法。与会者将包括独立研究人员，博士后学者和研究生的平等分发。分子，遗传，生化，免疫学和结构方法将均代表。会议领导人将有九次研讨会会议，将概述该主题并刺激与会者的讨论。 2013年的会议将由克雷格·罗伊（Craig R.这次会议提供了一个论坛，其中将介绍有关细菌依从性和信号转导机制的尖端研究。主题研讨会会议中保留了一些老虎机，由博士后研究员和研究生组成，使他们有机会在高影响力的国际会议上分享他们的发现并获得曝光率。这次会议提供了一个使研究人员之间建立网络的环境，并为博士后研究人员和研究生提供了在微生物依从性和信号转导领域的有影响力的领导者的机会。该计划包括许多以前没有在本次会议上介绍其研究的新调查人员，并包括反映多学科方法的新会议，用于解决该领域的精神分子问题。