LOEWE Center for Synthetic Microbiology (Synmikro), Marburg, Germany.
Plant Cell Biology, Philipps University Marburg, Marburg, Germany.
Genome Biol Evol. 2018 Aug 1;10(8):2061-2071. doi: 10.1093/gbe/evy156.
Plastids surrounded by four membranes harbor a special compartment between the outer and inner plastid membrane pair, the so-called periplastidal compartment (PPC). This cellular structure is usually presumed to be the reduced cytoplasm of a eukaryotic phototrophic endosymbiont, which was integrated into a host cell and streamlined into a plastid with a complex membrane structure. Up to date, no mitochondrion or mitochondrion-related organelle has been identified in the PPC of any representative. However, two prominent groups, the cryptophytes and the chlorarachniophytes, still harbor a reduced cell nucleus of symbiont origin, the nucleomorph, in their PPCs. Generally, many cytoplasmic and nucleus-located eukaryotic proteins need an iron-sulfur cofactor for their functionality. Beside some exceptions, their synthesis is depending on a so-called iron-sulfur complex (ISC) assembly machinery located in the mitochondrion. This machinery provides the cytoplasm with a still unknown sulfur component, which is then converted into iron-sulfur clusters via a cytosolic iron-sulfur protein assembly (CIA) machinery. Here, we investigated if a CIA machinery is present in mitochondrion-lacking PPCs. By using bioinformatic screens and in vivo-localizations of candidate proteins, we show that the presence of a PPC-specific CIA machinery correlates with the presence of a nucleomorph. Phylogenetic analyses of PPC- and host specific CIA components additionally indicate a complex evolution of the CIA machineries in organisms having plastids surrounded by four membranes.
被四层膜包围的质体在内外质体膜对之间拥有一个特殊的隔室,即所谓的周质腔(PPC)。这个细胞结构通常被认为是真核光合内共生体的简化细胞质,它被整合到宿主细胞中,并通过复杂的膜结构演变成质体。迄今为止,在任何代表生物的 PPC 中都没有发现线粒体或与线粒体相关的细胞器。然而,两个重要的群体,cryptophytes 和 chlorarachniophytes,仍然在它们的 PPC 中保留了共生体起源的简化细胞核,即核质体。通常,许多细胞质和核定位的真核蛋白需要铁硫辅因子才能发挥功能。除了一些例外,它们的合成依赖于位于线粒体中的所谓铁硫复合物(ISC)组装机制。该机制为细胞质提供了一个未知的硫成分,然后通过细胞质铁硫蛋白组装(CIA)机制将其转化为铁硫簇。在这里,我们研究了缺乏线粒体的 PPC 中是否存在 CIA 机制。通过使用生物信息学筛选和候选蛋白的体内定位,我们表明,PPC 特异性 CIA 机制的存在与核质体的存在相关。对 PPC 和宿主特异性 CIA 成分的系统发育分析进一步表明,在被四层膜包围的质体的生物体中,CIA 机制的进化非常复杂。
