Meeting: The Developmental Biology of the Sea Urchin XXIV, The Marine Biological Laboratory, Woods Hole, MA, April 5-9, 2017

会议：海胆发育生物学 XXIV，海洋生物实验室，马萨诸塞州伍兹霍尔，2017 年 4 月 5 日至 9 日

• 批准号: 1727158
• 负责人: Athula Wikramanayake
• 金额: $ 1万
• 依托单位: University of Miami
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-03-01 至 2018-02-28
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1727158&HistoricalAwards=false
• 关键词: Meeting; Developmental; Biology; Sea; Urchin

The 24th Developmental Biology of the Sea Urchin (DBSU) Meeting will be held at the Marine Biological Laboratory (MBL) from April 5-9, 2017 in Woods Hole, MA. Since 1980 this conference has been held approximately every 18 months to bring together the international community of developmental and cell biologists who use sea urchins as a model system for research. The recent deliberate inclusion of investigators working on other non-canonical model systems has made it a unique and important meeting for a broader community of developmental biologists. The DBSU meeting now includes participation of researchers working on the cell and developmental biology of other marine invertebrate models (e.g. other echinoderms, tunicates, hemichordates, cephalochordates, mollusks, cnidarians, ctenophores and sponges). There is no other meeting that focuses on the comparative development of marine invertebrates and the 24th 'Sea Urchin Meeting' will continue to serve as an important venue for promoting collaborations between scientists working on non-canonical marine invertebrate model systems. The meeting sessions, which are divided into plenary sessions, concurrent sessions and poster sessions, will highlight experimental findings that contribute to our understanding of how a fertilized egg becomes an embryo with many distinct cell types. Moreover, there will be sessions that address questions such as how stem cells arise, how animals regenerate lost body parts, and how changes in the marine environment are negatively impacting marine invertebrates. These questions are of great interest to the public and relevant to human health. The meeting will promote the participation of junior scientists and the participation of scientists from groups typically underrepresented in the sciences. In addition, this meeting will have an education session that will promote the use of marine invertebrate embryos in undergraduate teaching of developmental biology and in community outreach. Marine invertebrate model systems have made major contributions to our current knowledge of many aspects of biology, including developmental biology. The diversity of marine invertebrate model systems that will be featured at this meeting will provide opportunities to continue the systems level comparisons of development and evolution in phylogenetically informative bilaterian and non-bilaterian taxa. This meeting will also highlight recent advances in our understanding of the molecular mechanisms that specify embryonic polarity in oocytes and embryos, mechanisms regulating mitotic patterns, novel ideas on the evolution of nervous systems, gene regulatory network level analyses on morphogenesis, insights into the evolution of stem cells and regeneration, and the ecological and environmental influences on embryonic and larval development. In addition, there will be a session on application of relevant recently developed techniques (e.g. genome editing) to manipulate development in non-canonical marine invertebrates.

第 24 届海胆发育生物学 (DBSU) 会议将于 2017 年 4 月 5 日至 9 日在马萨诸塞州伍兹霍尔的海洋生物实验室 (MBL) 举行。 自 1980 年以来，该会议大约每 18 个月举行一次，汇集了国际社会的发育生物学家和细胞生物学家，他们使用海胆作为研究模型系统。 最近有意将研究其他非规范模型系统的研究人员纳入其中，这使得这次会议对于更广泛的发育生物学家群体来说是一次独特而重要的会议。 DBSU 会议现在包括研究其他海洋无脊椎动物模型（例如其他棘皮动物、被囊动物、半索动物、头索动物、软体动物、刺胞动物、栉水母动物和海绵）的细胞和发育生物学的研究人员。 没有其他会议专注于海洋无脊椎动物的比较发展，第24届“海胆会议”将继续作为促进非规范海洋无脊椎动物模型系统科学家之间合作的重要场所。 会议分为全体会议、同期会议和海报会议，将重点介绍有助于我们理解受精卵如何成为具有多种不同细胞类型的胚胎的实验结果。 此外，还将有一些会议讨论诸如干细胞如何产生、动物如何再生失去的身体部位以及海洋环境的变化如何对海洋无脊椎动物产生负面影响等问题。 这些问题是公众非常关心的，也关系到人类健康。 该会议将促进初级科学家和来自科学界通常代表性不足的群体的科学家的参与。 此外，本次会议还将举办教育会议，促进海洋无脊椎动物胚胎在发育生物学本科教学和社区外展中的使用。 海洋无脊椎动物模型系统对我们当前对生物学许多方面（包括发育生物学）的了解做出了重大贡献。本次会议将重点介绍的海洋无脊椎动物模型系统的多样性将为继续在系统发育信息丰富的两侧对称动物和非两侧对称动物类群的发育和进化的系统水平上进行比较提供机会。 这次会议还将重点介绍我们在理解卵母细胞和胚胎中胚胎极性的分子机制、调节有丝分裂模式的机制、神经系统进化的新想法、形态发生的基因调控网络水平分析、对胚胎进化的见解方面的最新进展。干细胞和再生，以及生态和环境对胚胎和幼虫发育的影响。 此外，还将举办一场关于应用最近开发的相关技术（例如基因组编辑）来操纵非典型海洋无脊椎动物发育的会议。