磁小体膜蛋白Mms6功能与应用研究进展

磁小体是趋磁细菌的内膜内陷形成的一种特殊生物矿化产物。磁小体在细胞内呈现为链状,外部有一层生物膜包裹,内部是四氧化三铁纳米晶体。这些磁性纳米晶体有着高度均一的尺寸和形貌。目前大量研究结果表明磁小体膜上的蛋白与铁离子的富集、氧化还原反应以及晶体成核、生长有着重要的关系。综述了趋磁细菌从吸收铁离子到矿化形成磁性纳米颗粒过程中,磁小体膜蛋白的功能,重点介绍了六号特殊膜蛋白Mms6的结构特性与功能。同时总结了Mms6作为一种仿生的添加剂在新型磁性纳米材料中的应用,并且讨论了Mms6在磁小体形成中可能的分子调节机制,旨为进一步了解生物矿化机制提供思路。     

Genetic and functional interactions between Mus81–Mms4 and Rad27

The two endonucleases, Rad27 (yeast Fen1) and Dna2, jointly participate in the processing of Okazaki fragments in yeasts. Mus81–Mms4 is a structure-specific endonuclease that can resolve stalled replication forks as well as toxic recombination intermediates. In this study, we show that Mus81–Mms4 can suppress dna2 mutational defects by virtue of its functional and physical interaction with Rad27. Mus81–Mms4 stimulated Rad27 activity significantly, accounting for its ability to restore the growth defects caused by the dna2 mutation. Interestingly, Rad27 stimulated the rate of Mus81–Mms4 catalyzed cleavage of various substrates, including regressed replication fork substrates. The ability of Rad27 to stimulate Mus81–Mms4 did not depend on the catalytic activity of Rad27, but required the C-terminal 64 amino acid fragment of Rad27. This indicates that the stimulation was mediated by a specific protein–protein interaction between the two proteins. Our in vitro data indicate that Mus81–Mms4 and Rad27 act together during DNA replication and resolve various structures that can impede normal DNA replication. This conclusion was further strengthened by the fact that rad27 mus81 or rad27 mms4 double mutants were synergistically lethal. We discuss the significance of the interactions between Rad27, Dna2 and Mus81–Mms4 in context of DNA replication.     

Srs2 promotes Mus81–Mms4-mediated resolution of recombination intermediates

A variety of DNA lesions, secondary DNA structures or topological stress within the DNA template may lead to stalling of the replication fork. Recovery of such forks is essential for the maintenance of genomic stability. The structure-specific endonuclease Mus81–Mms4 has been implicated in processing DNA intermediates that arise from collapsed forks and homologous recombination. According to previous genetic studies, the Srs2 helicase may play a role in the repair of double-strand breaks and ssDNA gaps together with Mus81–Mms4. In this study, we show that the Srs2 and Mus81–Mms4 proteins physically interact in vitro and in vivo and we map the interaction domains within the Srs2 and Mus81 proteins. Further, we show that Srs2 plays a dual role in the stimulation of the Mus81–Mms4 nuclease activity on a variety of DNA substrates. First, Srs2 directly stimulates Mus81–Mms4 nuclease activity independent of its helicase activity. Second, Srs2 removes Rad51 from DNA to allow access of Mus81–Mms4 to cleave DNA. Concomitantly, Mus81–Mms4 inhibits the helicase activity of Srs2. Taken together, our data point to a coordinated role of Mus81–Mms4 and Srs2 in processing of recombination as well as replication intermediates.     

趋磁细菌AMB-1生物矿化相关蛋白Mms6参与磁小体的合成

【目的】研究趋磁细菌AMB-1生物矿化相关蛋白Mms6与磁小体合成的关系。【方法】在液体静置培养条件和好氧条件下对AMB-1进行培养,分析基因mms6在不同培养条件下转录水平的变化;对基因mms6进行基因敲除,分析突变株的生长和产磁变化。【结果】基因mms6的转录水平随着磁小体的合成逐渐升高;mms6的突变导致菌株在液体静置培养条件下趋磁性降低约50%,但不会影响菌株的生长水平。【结论】基因mms6参与了趋磁细菌AMB-1胞内磁小体的合成。