Collaborative Research, RedToL - Phylogenetic and Genomic Approaches to Reconstructing the Red Algal (Rhodophyta) Tree of Life

合作研究，RedToL - 重建红藻（红藻）生命树的系统发育和基因组方法

• 批准号: 0937978
• 负责人: Juan Lopez-Bautista
• 金额: $ 48.08万
• 依托单位: University of Alabama Tuscaloosa
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-09-01 至 2015-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0937978&HistoricalAwards=false
• 关键词: Collaborative; Research; RedToL; Phylogenetic; Genomic

Last Modified Date: 06/23/09 Last Modified By: rmccourt Abstract Red algae (Rhodophyta) are important aquatic primary producers that are one of the most anciently diverged eukaryotic phyla with fossil remains dating back to 1.2 billion years ago. The red algal plastid is widespread in the tree of life as an engine of photosynthesis in microorganisms such as diatoms and red-tide forming dinoflagellates. Red algae are also sources of important human foods such as dulse and sushi wrap and have a multitude of pharmaceutical and industrial applications (e.g., agarose and carrageenans). In spite of their obvious importance, the evolutionary tree of life for red algae is poorly known. The aim of this research is to sample broadly across the major groups of red algae and reconstruct their phylogenetic history. To accomplish the aims of RedToL, the project will: 1) reconstruct a robust phylogeny of 471 red algal species using a combined dataset of 2 nuclear, 4 plastid, and 2 mitochondrial genes, 2) obtain complete sequences for a series of 16 plastid genomes that represent the taxonomic breadth of red algae, 3) make freely available red algal multi-gene and genome data via release to GenBank and a project-specific web site. The RedToL team, which consists of prominent red algal specialists from several generations and who use different methods (from morphology to phylogenomics), will address fundamental questions of red algal evolution and their place in the tree of life. This grant will support training of undergraduates, graduates, and post-doctoral fellows from underrepresented groups, including three international graduate students. The project results will be published in scientific papers and they will be discussed in two grant-supported summer workshops and two advisory board meetings. The workshops will focus on training students to become the next-generation of red algal taxonomists. The project team will also contribute to outreach efforts through various lectures and a dedicated RedToL website.

最后修改日期：06/23/09最后修改人：rmccourt 摘要红藻是重要的水生初级生产者，是最古老的真核生物门之一，其化石可追溯到12亿年前。红藻质体广泛存在于生命之树中，作为微生物（如硅藻和赤潮形成甲藻）光合作用的引擎。红藻也是重要的人类食物（如甜奶油和寿司卷）的来源，并且具有多种制药和工业应用（例如，琼脂糖和角叉菜胶）。尽管它们的重要性显而易见，但红藻的进化树却鲜为人知。这项研究的目的是广泛的红藻的主要群体和重建它们的系统发育史。为了实现RedToL的目标，该项目将：1）使用2个核基因、4个质体基因和2个线粒体基因的组合数据集重建471个红藻物种的稳健的系统发育，2）获得代表红藻分类宽度的一系列16个质体基因组的完整序列，3）通过向GenBank和特定项目网站发布红藻多基因和基因组数据，免费提供红藻多基因和基因组数据。RedToL团队由几代杰出的红藻专家组成，他们使用不同的方法（从形态学到生物基因组学），将解决红藻进化的基本问题及其在生命树中的地位。这笔赠款将支持来自代表性不足群体的本科生，研究生和博士后研究员的培训，其中包括三名国际研究生。项目成果将发表在科学论文中，并将在两个赠款支持的夏季讲习班和两个咨询委员会会议上进行讨论。这些讲习班将侧重于培训学生成为下一代红藻分类学家。项目小组还将通过各种讲座和专门的RedToL网站为外联工作做出贡献。

项目成果

New insights into the phylogeny of Spyridia (Ceramiales, Rhodophyta) species with uncinate spines, focusing on the structure of determinate branches

对具有钩刺的 Spyridia（Ceramiales、Rhodophyta）物种系统发育的新见解，重点关注确定分支的结构

• DOI: 10.1080/09670262.2020.1840634
• 发表时间: 2021
• 期刊: European Journal of Phycology
• 影响因子: 2.4
• 作者: Won, Boo Yeon;Fredericq, Suzanne;Cho, Tae Oh
• 通讯作者: Cho, Tae Oh