Ubiquitin‐specific protease‐like 1 (USPL1) is a SUMO isopeptidase with essential,non‐catalytic functions

Isopeptidases are essential regulators of protein ubiquitination and sumoylation. However, only two families of SUMO isopeptidases are at present known. Here, we report an activity‐based search with the suicide inhibitor haemagglutinin (HA)‐SUMO‐vinylmethylester that led to the identification of a surprising new SUMO protease, ubiquitin‐specific protease‐like 1 (USPL1). Indeed, USPL1 neither binds nor cleaves ubiquitin, but is a potent SUMO isopeptidase both in vitro and in cells. C13orf22l—an essential but distant zebrafish homologue of USPL1—also acts on SUMO, indicating functional conservation. We have identified invariant USPL1 residues required for SUMO binding and cleavage. USPL1 is a low‐abundance protein that colocalizes with coilin in Cajal bodies. Its depletion does not affect global sumoylation, but causes striking coilin mislocalization and impairs cell proliferation, functions that are not dependent on USPL1 catalytic activity. Thus, USPL1 represents a third type of SUMO protease, with essential functions in Cajal body biology.     

Biological soil crusts in ecological restoration: emerging research and perspectives

Drylands encompass over 40% of terrestrial ecosystems and face significant anthropogenic degradation causing a loss of ecosystem integrity, services, and deterioration of social‐ecological systems. To combat this degradation, some dryland restoration efforts have focused on the use of biological soil crusts (biocrusts): complex communities of cyanobacteria, algae, lichens, bryophytes, and other organisms living in association with the top millimeters of soil. Biocrusts are common in many ecosystems and especially drylands. They perform a suite of ecosystem functions: stabilizing soil surfaces to prevent erosion, contributing carbon through photosynthesis, fixing nitrogen, and mediating the hydrological cycle in drylands. Biocrusts have emerged as a potential tool in restoration; developing methods to implement effective biocrust restoration has the potential to return many ecosystem functions and services. Although culture‐based approaches have allowed researchers to learn about the biology, physiology, and cultivation of biocrusts, transferring this knowledge to field implementation has been more challenging. A large amount of research has amassed to improve our understanding of biocrust restoration, leaving us at an opportune time to learn from one another and to join approaches for maximum efficacy. The articles in this special issue improve the state of our current knowledge in biocrust restoration, highlighting efforts to effectively restore biocrusts through a variety of different ecosystems, across scales and utilizing a variety of lab and field methods. This collective work provides a useful resource for the scientific community as well as land managers.     

Differential effect of three-repeat and four-repeat tau on mitochondrial axonal transport

Tau protein is present in six different splice forms in the human brain and interacts with microtubules via either 3 or 4 microtubule binding repeats. An increased ratio of 3 repeat to 4 repeat isoforms is associated with neurodegeneration in inherited forms of frontotemporal dementia. Tau over-expression diminishes axonal transport in several systems, but differential effects of 3 repeat and 4 repeat isoforms have not been studied. We examined the effects of tau on mitochondrial transport and found that both 3 repeat and 4 repeat tau change normal mitochondrial distribution within the cell body and reduce mitochondrial localization to axons; 4 repeat tau has a greater effect than 3 repeat tau. Further, we observed that the 3 repeat and 4 repeat tau cause different alterations in retrograde and anterograde transport dynamics with 3 repeat tau having a slightly stronger effect on axon transport dynamics. Our results indicate that tau-induced changes in axonal transport may be an underlying theme in neurodegenerative diseases associated with isoform specific changes in tau's interaction with microtubules.     

ArlR反应调节蛋白在表皮葡萄球菌不同生长期表达的检测

表皮葡萄球菌(Staphylococcus epidermidis,SE)是寄居在人体和黏膜表面的条件致病菌,因可在医疗植入材料表面形成生物膜(biofilm)而具有致病性。细菌双组分信号转导系统可调控生物膜形成,但其调控机制在SE中研究甚少。本课题对arlRS双组分信号转导系统的反应蛋白ArlR在细菌不同生长期的表达情况进行初步研究。首先构建ArlR原核表达质粒,用纯化重组ArlR免疫小鼠,获得多克隆抗-ArlR抗体,免疫Dot方法检测结果显示小鼠抗-ArlR血清效价>1∶100000。进一步采用蛋白免疫印迹法检测ArlR在SE1457野生株不同生长期中的表达水平,结果显示,ArlR在2h表达量较低,到4h达高峰,6～10h表达量较4h降低。利用反转录实时荧光定量聚合酶链反应检测arlR基因在不同生长期的转录水平,结果显示相应时间点ArlR蛋白表达水平与arlR基因转录水平一致。本研究结果为后期研究双组分信号转导系统arlRS对SE生物膜形成的影响奠定基础。     

NMR studies on novel antitumor drug candidates, deoxoartemisinin and carboxypropyldeoxoartemisinin

Artemisinin and its derivatives, which have been known as antimalarial drugs, have also demonstrated their cytotoxicity against tumor cells. It has been proposed that antitumor activity depends on the lipophilicity of functional group on artemisinin derivatives. Solution structures of two artemisinin derivatives as antitumor drug candidates, deoxoartemisinin and carboxypropyldeoxoartemisinin, were determined by NMR spectroscopy to elucidate structure-activity relationship. According to biological assay, antitumor efficiencies are not dependent upon lipophilicity. Instead, these compounds demonstrated their distinctive structural features of boat/chair conformation and capability to interact with receptors, as they have different efficiencies on antitumor activity. Especially, carboxypropyl moiety or carbonyl moiety in artemisinin derivatives influences the conformation and stability of ring structure. Although the detailed mechanism of antitumor activity by artemisinin derivatives has not been addressed, we suggest that antitumor activity is not determined only with lipophilicity and that artemisinin derivatives have specific target proteins in each type of cancer.     

我国人轮状病毒不同基因型NSP4的致病性研究

对我国轮状病毒流行株NSP4基因变异特点的分析表明,NSP4基因主要可分为Wa组和Kun组,在Wa组内可形成三个亚组,形成了4种NSP4基因型.为了进一步阐明人轮状病毒流行株NSP4基因变异与其致病性变化是否存在联系,我们首先利用杆状病毒载体对NSP4蛋白进行表达,获得了对应4种不同NSP4基因型的重组杆状病毒rvBac97B6,rvBac97S34,rvBac97S36和rvBac97SZ8.用这些病毒感染Sf-9细胞后,检测细胞内Ca2+浓度的变化,发现与野生型杆状病毒感染细胞相比,重组病毒感染细胞内的Ca2+浓度显著升高,但各个重组病毒之间无显著性差异.在此基础上,我们进一步在E.coli中分别表达纯化了代表Wa和Kun基因分组的97S34和97SZ8流行株的NSP4.分别用纯化的重组NSP4蛋白攻击乳鼠后,发现不同基因型的NSP4蛋白的致腹泻活性没有明显差异,这种作用可被NSP4抗体拮抗,但这种拮抗作用存在基因型特异性.上述结果表明人轮状病毒流行株NSP4氨基酸序列间的变异并没有使其钙调节及致腹泻能力产生改变,在致腹泻作用中发挥关键作用(或决定性作用)的氨基酸位点在不同NSP4基因型间可能是相对保守的.针对NSP4抗体的有效性也为新型轮状病毒疫苗和药物研究提供了线索.     

副产物途径的缺失对大肠杆菌合成D-1,2,4-丁三醇的影响

【目的】敲除副产物途径,提高重组大肠杆菌D-1,2,4-丁三醇(D-1,2,4-Butanetriol,BT)产量。【方法】利用Red重组技术敲除木糖途径xyl AB基因及2-酮-3-脱氧木糖酸代谢途径的yag E及yjh H基因,考察其对重组菌生长、BT生产及副产物积累的影响。【结果】敲除xyl AB基因后,重组菌生物量降低57%,BT产量降低20%,单位菌体产量提高84%,木糖酸积累量提高52%。yag E或yjh H基因单独缺失重组菌生物量分别提高10%和5%,BT产量提高36%和14%。基因共同缺失后重组菌生物量降低了21%,BT产量提高184%,达到2.44 g/L,单位菌体产量提高258%。而共同敲除两途径,生物量降低了72%,虽然单位菌体产量提高了约4倍,但BT产量仅提高43%。p H调控下,重组菌木糖酸积累量下降,BT产量进一步提高,最高达3.11 g/L。【结论】xyl AB基因缺失后,虽有利于提高BT途径的效率,但由于木糖无法进入PPP途径及木糖酸积累,造成生物量降低,不利于BT合成。单独敲除yag E或yjh H后BT产量略有提高,而共同敲除这两基因更为有效地调整碳流向BT合成偏转。两途径共同敲除利于BT的合成,但由于菌体量的减少,无法大量获得BT。