Molecular and developmental approach to understanding diversification in mediophyte diatoms

了解中生硅藻多样化的分子和发育方法

• 批准号: RGPIN-2020-05051
• 负责人: Kaczmarska, Irena
• 金额: $ 2.91万
• 依托单位: Mount Allison University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=716668
• 关键词: Molecular; developmental; approach; understanding; diversification

Diatoms (microscopic marine plants) are ecologically and economically important; indeed, the oxygen in every fifth inhalation originates from diatoms, but some produce neurotoxins harmful to humans. They are also the most species-rich (~200,000) group of microalgae, thus rivaling the diversity of flowering plants on land. Evolutionarily, and like flowering plants, diatoms are relatively new arrivals, suggesting an exceptionally high speciation rate. My long-term research objective is to evaluate the evolutionary significance of the processes and structures associated with diatom reproduction in order to understand what role various types of sexuality might have played in the spectacular diversification of diatoms since their first appearance in the Jurassic Period fossil record. The immediate objectives specific to this proposal are to apply reproductive, developmental and molecular approaches to representatives of two major transitions in diatom evolutionary history to untangle their relationships to each other and to their closest relatives. I propose to investigate two orders of diatoms that currently seem to poorly or uncertainly fit in both traditional and molecular phylogenies (“family trees”). Thalassiosiroids differ dramatically from their closest relatives, and biddulphioids are likely to hold evidence that indicates the closest living relative of the most advanced of the diatoms, the pennates. We will search for developmental indicators of how these ill-fitting or uncertain characters came to be. We will use advanced microscopical techniques (light and epifluorescence microscopy, scanning electron microscopy, X-ray microanalysis, silica-specific stains) to detect and localize opaline silica (the building blocks of diatom cell walls) and describe the fine structure of the cell-wall components during their developmental stages. We will also use a heretofore underutilized molecular tool, ITS2 consensus secondary structure models, in our phylogenetic inferences. Our reconnaissance work has shown that these models are as useful in untangling diatom phylogenetic relationships as they have proven to be in green algae and other plants. Phylogenetic analysis of these diatoms combined with the ontogenetic approach we propose here is novel in diatom evolutionary biology. We pioneered this integrative approach only about a decade ago and are the only laboratory in the world to systematically add reproductive data to the wider body of diatom evolutionary biology. The major obstacle to further advancement is the lack of reproducible sex-induction protocols, which we now have developed for the diatom groups involved. The results of this work will provide a multi-pronged framework to better our understanding of major evolutionary transitions in diatoms. The proposed work includes many new training opportunities, including microbial culturing, advanced microscopy, and molecular and bioinformatics projects for junior collaborators at all levels.

硅藻（微小的海洋植物）在生态和经济上都很重要;事实上，每五次吸入的氧气中就有一次来自硅藻，但有些硅藻会产生对人类有害的神经毒素。它们也是种类最丰富（约200，000）的微藻群，因此可以与陆地上开花植物的多样性相媲美。在进化上，像开花植物一样，硅藻是相对较新的物种，这表明它们的物种形成率非常高。 我的长期研究目标是评估与硅藻繁殖相关的过程和结构的进化意义，以了解自侏罗纪化石记录首次出现以来，各种类型的性行为可能在硅藻的壮观多样化中发挥了什么作用。该提案的直接目标是将生殖，发育和分子方法应用于硅藻进化史上两个主要过渡的代表，以解开它们彼此之间以及与它们最近的亲属之间的关系。我建议调查两个订单的硅藻，目前似乎很差或不确定适合在传统和分子生物学（“家谱”）。海链藻类与它们最近的亲戚有很大的不同，而biddulphioids很可能有证据表明它们是最先进的硅藻-羽状硅藻的最近的亲戚。我们将寻找这些不合适或不确定的角色是如何形成的发展指标。 我们将使用先进的显微镜技术（光和荧光显微镜，扫描电子显微镜，X射线显微分析，二氧化硅特异性染色）来检测和定位乳白色二氧化硅（硅藻细胞壁的构建块），并描述细胞壁组件在其发育阶段的精细结构。我们还将使用迄今未充分利用的分子工具，ITS 2共识二级结构模型，在我们的系统发育推断。我们的调查工作表明，这些模型在解开硅藻系统发育关系方面与在绿色藻类和其他植物中一样有用。 这些硅藻的系统发育分析结合个体发育的方法，我们在这里提出的硅藻进化生物学是新颖的。大约十年前，我们开创了这种综合方法，并且是世界上唯一一个将生殖数据系统地添加到硅藻进化生物学更广泛的主体中的实验室。进一步发展的主要障碍是缺乏可重复的性别诱导方案，我们现在已经为所涉及的硅藻群体开发了该方案。这项工作的结果将提供一个多管齐下的框架，以更好地了解硅藻的主要进化转变。拟议的工作包括许多新的培训机会，包括微生物培养，先进的显微镜，以及各级初级合作者的分子和生物信息学项目。