Multifaceted Dinoflagellates and the Marine Model Prorocentrum cordatum.

Pub Date : 2024-01-01 Epub Date: 2024-07-24 DOI:10.1159/000540520
Jana Kalvelage, Ralf Rabus
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Abstract

Background: Dinoflagellates are a monophyletic group within the taxon Alveolata, which comprises unicellular eukaryotes. Dinoflagellates have long been studied for their organismic and morphologic diversity as well as striking cellular features. They have a main size range of 10-100 µm, a complex "cell covering", exceptionally large genomes (∼1-250 Gbp with a mean of 50,000 protein-encoding genes) spread over a variable number of highly condensed chromosomes, and perform a closed mitosis with extranuclear spindles (dinomitosis). Photosynthetic, marine, and free-living Prorocentrum cordatum is a ubiquitously occurring, bloom-forming dinoflagellate, and an emerging model system, particularly with respect to systems biology.

Summary: Focused ion beam/scanning electron microscopy (FIB/SEM) analysis of P. cordatum recently revealed (i) a flattened nucleus with unusual structural features and a total of 62 tightly packed chromosomes, (ii) a single, barrel-shaped chloroplast devoid of grana and harboring multiple starch granules, (iii) a single, highly reticular mitochondrion, and (iv) multiple phosphate and lipid storage bodies. Comprehensive proteomics of subcellular fractions suggested (i) major basic nuclear proteins to participate in chromosome condensation, (ii) composition of nuclear pores to differ from standard knowledge, (iii) photosystems I and II, chloroplast complex I, and chlorophyll a-b binding light-harvesting complex to form a large megacomplex (>1.5 MDa), and (iv) an extraordinary richness in pigment-binding proteins. Systems biology-level investigation of heat stress response demonstrated a concerted down-regulation of CO2-concentrating mechanisms, CO2-fixation, central metabolism, and monomer biosynthesis, which agrees with reduced growth yields.

Key messages: FIB/SEM analysis revealed new insights into the remarkable subcellular architecture of P. cordatum, complemented by proteogenomic unraveling of novel nuclear structures and a photosynthetic megacomplex. These recent findings are put in the wider context of current understanding of dinoflagellates.

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多面甲藻和海洋模式 Prorocentrum cordatum。
背景:甲壳纲是由单细胞真核生物组成的类群,甲壳纲中的甲壳纲是一个单系类群。长期以来,人们一直在研究双鞭毛藻的有机体和形态多样性以及显著的细胞特征。它们的主要尺寸范围为 10-100 µm,具有复杂的 "细胞覆盖层",基因组特别大(约 1-250 Gbp,平均有 50,000 个编码蛋白质的基因),分布在数量不等的高度浓缩的染色体上,并进行带有核外纺锤体的封闭式有丝分裂(dinomitosis)。光合、海洋和自由生活的 Prorocentrum cordatum 是一种普遍存在的、能形成藻华的甲藻,也是一种新兴的模式系统,特别是在系统生物学方面:最近对P. cordatum的聚焦离子束/扫描电子显微镜(FIB/SEM)分析表明:(i) 具有不寻常结构特征的扁平细胞核和总共62条紧密排列的染色体;(ii) 没有颗粒的单个桶状叶绿体,内含多个淀粉颗粒;(iii) 单个高度网状的线粒体;(iv) 多个磷酸盐和脂质贮存体。亚细胞组分的综合蛋白质组学表明:(i) 主要的基本核蛋白参与染色体的凝结;(ii) 核孔的组成与标准知识不同;(iii) 光系统 I 和 II、叶绿体复合体 I 以及叶绿素 a-b 结合采光复合体形成一个大型巨复合体(1.5 MDa);(iv) 色素结合蛋白异常丰富。热胁迫响应的系统生物学水平研究表明,CO2 浓度机制、CO2 固定、中心代谢和单体生物合成的协同下调与生长产量降低一致:FIB/SEM分析揭示了P. cordatum非凡的亚细胞结构的新见解,并通过蛋白质基因组学揭示了新型核结构和光合巨复合体。这些最新发现与当前对甲藻的认识相辅相成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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