生物基分子介导纳米金属材料的制备及其应用

纳米金属材料具有纳米晶强化效应、光吸收率大、较高的表面能和单磁畴性能等优点,因其在医药、化学催化、抗菌抑毒等方面发挥着越来越重要的作用而受到人们广泛关注。近年来,随着全球石化资源消耗与日俱增,环境污染加剧,基于可再生资源的生物基分子介导纳米材料的制备研究方兴未艾。生物基分子是指直接或间接来源于生物质的小分子或大分子物质,它们多数具有生物相容性好、低毒、可降解、来源广泛、价格低廉等优点。且由于生物基分子多数具有独特的理化性质,如具有生理活性的旋光性、酸碱两性、亲水亲油性以及易与金属离子络合等,其介导合成的纳米材料还兼具其独特功能性,比如消炎、抗癌、抗氧化、抗病毒以及降血糖血脂等,进一步拓宽了纳米金属材料的应用领域。文中对近年来基于生物基分子介导纳米金属材料的制备及应用进行全面综述,为开展相关研究提供参考。     

光免疫治疗的抗肿瘤研究进展

光免疫治疗是一种新兴的肿瘤靶向光疗手段,它将单克隆抗体的肿瘤特异性与光吸收剂的光毒性相结合,可以快速且极具免疫原选择性地诱导靶肿瘤细胞的死亡。由于靶向性强,光免疫治疗的副作用小。而且因为该疗法诱导的免疫原性死亡会引起垂死肿瘤细胞周围未成熟树突状细胞的快速成熟,继而将肿瘤抗原提呈给CD8+T细胞,导致治疗后CD8+T细胞的激活和增殖,增强宿主抗肿瘤免疫反应。不仅如此,光免疫治疗还能通过增强纳米药物的肿瘤组织穿透性而提高疗效。鉴于光免疫治疗的优良应用前景,文中从其免疫激活机制、超级高渗透长滞留效应、新进展与联合治疗等方面进行综述,旨在为其深入研究和临床转化提供参考。     

帝萝花‘璀璨明珠'的植株高效再生

为解决木本切花植物帝萝花‘璀璨明珠’繁殖效率低的问题,该文以帝萝花‘璀璨明珠’的幼嫩枝芽为外植体,研究了不同基本培养基对其长势的影响、不同激素种类和浓度对其增殖和生根的效果,分析了其离体繁殖的生长特点,并建立了高效的帝萝花‘璀璨明珠’组培快繁技术体系。结果表明:帝萝花‘璀璨明珠’幼嫩枝芽的消毒方法为0.1%的升汞溶液浸泡12 min,污染率为21.5%;外植体在WPM+ZT 1 mg·L~(-1)+NAA 0.1 mg·L~(-1)培养基上,侧芽萌发率为73%;增殖的最佳培养基为MS+BA 0.4 mg·L~(-1)+NAA 0.05 mg·L~(-1),增殖系数为6.63,增殖方式为侧芽增殖和植株基部丛生芽增殖;生根的适宜培养基为MS+IBA 0.75mg·L~(-1)+NAA 1 mg·L~(-1),生根率为70%;生根瓶苗移栽于珍珠岩和细草炭(体积比为0.5∶1)的基质中,光照强度为10 000～12 000 lx,空气湿度为70%～80%下培养,60 d后成活率可达72%。该研究结果为帝萝花组培种苗的商业化生产提供了技术支撑,同时促进了该高档木本切花的推广和种植及产业化。     

Marinifaba aquimaris gen. nov., sp. nov., a novel chitin‐degrading gammaproteobacterium in the family Alteromonadaceae isolated from seawater of the Mariana Trench

Antonie van Leeuwenhoek - A novel Gram-negative, rod-shaped, aerobic, oxidase-positive and catalase-negative bacterium, designated strain SM1970T, was isolated from a seawater sample collected from...     

RTKN-1/Rhotekin shields endosome-associated F-actin from disassembly to ensure endocytic recycling

Cargo sorting and the subsequent membrane carrier formation require a properly organized endosomal actin network. To better understand the actin dynamics during endocytic recycling, we performed a genetic screen in C. elegans and identified RTKN-1/Rhotekin as a requisite to sustain endosome-associated actin integrity. Loss of RTKN-1 led to a prominent decrease in actin structures and basolateral recycling defects. Furthermore, we showed that the presence of RTKN-1 thwarts the actin disassembly competence of UNC-60A/cofilin. Consistently, in RTKN-1–deficient cells, UNC-60A knockdown replenished actin structures and alleviated the recycling defects. Notably, an intramolecular interaction within RTKN-1 could mediate the formation of oligomers. Overexpression of an RTKN-1 mutant form that lacks self-binding capacity failed to restore actin structures and recycling flow in rtkn-1 mutants. Finally, we demonstrated that SDPN-1/Syndapin acts to direct the recycling endosomal dwelling of RTKN-1 and promotes actin integrity there. Taken together, these findings consolidated the role of SDPN-1 in organizing the endosomal actin network architecture and introduced RTKN-1 as a novel regulatory protein involved in this process.     

FGF21 impedes peripheral myelin development by stimulating p38 MAPK/c‐Jun axis

Fibroblast growth factor 21 (FGF21) as a metabolic stress hormone, is mainly secreted by the liver. In addition to its well‐defined roles in energy homeostasis, FGF21 has been shown to promote remyelination after injury in the central nervous system. In the current study, we sought to examine the potential roles of FGF21 in the peripheral nervous system (PNS) myelination. In the PNS myelin development, Fgf21 expression was reversely correlated with myelin gene expression. In cultured primary Schwann cells (SCs), the application of recombinant FGF21 greatly attenuates myelination‐associated gene expression, including Oct6, Krox20, Mbp, Mpz, and Pmp22. Accordingly, the injection of FGF21 into neonatal rats markedly mitigates the myelination in sciatic nerves. On the contrary, the infusion of the anti‐FGF21 antibody accelerates the myelination. Mechanistically, both extracellular signal‐regulated kinase (ERK) and p38 mitogen‐activated protein kinase (MAPK) were stimulated by FGF21 in SCs and sciatic nerves. Following experiments including pharmaceutical intervention and gene manipulation revealed that the p38 MAPK/c‐Jun axis, rather than ERK, is targeted by FGF21 for mediating its repression on myelination in SCs. Taken together, our data provide a new aspect of FGF21 by acting as a negative regulator for the myelin development process in the PNS via activation of p38 MAPK/c‐Jun.     

Mycorrhizal suppression and phosphorus addition influence the stability of plant community composition and function in a temperate steppe

Nutrient enrichment can reduce ecosystem stability, typically measured as temporal stability of a single function, e.g. plant productivity. Moreover, nutrient enrichment can alter plant–soil interactions (e.g. mycorrhizal symbiosis) that determine plant community composition and productivity. Thus, it is likely that nutrient enrichment and interactions between plants and their soil communities co-determine the stability in plant community composition and productivity. Yet our understanding as to how nutrient enrichment affects multiple facets of ecosystem stability, such as functional and compositional stability, and the role of above–belowground interactions are still lacking. We tested how mycorrhizal suppression and phosphorus (P) addition influenced multiple facets of ecosystem stability in a three-year field study in a temperate steppe. Here we focused on the functional and compositional stability of plant community; functional stability is the temporal community variance in primary productivity; compositional stability is represented by compositional resistance, turnover, species extinction and invasion. Community variance was partitioned into population variance defined as community productivity weighted average of the species temporal variance in performance, and species synchrony defined as the degree of temporal positive covariation among species. Compared to treatments with mycorrhizal suppression, the intact AM fungal communities reduced community variance in primary productivity by reducing species synchrony at high levels of P addition. Species synchrony and population variance were linearly associated with community variance with the intact AM fungal communities, while these relationships were decoupled or weakened by mycorrhizal suppression. The intact AM fungal communities promoted the compositional resistance of plant communities by reducing compositional turnover, but this effect was suppressed by P addition. P addition increased the number of species extinctions and thus promoted compositional turnover. Our study shows P addition and AM fungal communities can jointly and independently modify the various components of ecosystem stability in terms of plant community productivity and composition.     

GII.26型诺如病毒的组织血型抗原结合特征

诺如病毒(Noroviruses,NoVs)是引起全球急性胃肠炎的常见病原.组织血型抗原(Histo-blood groups antigens,HBGAs)是NoVs黏附因子(受体),能促进病毒感染宿主细胞.NoVs主要衣壳蛋白突出(Protruding,P)区是与HBGAs结合的关键结构域.本研究构建了非流行毒株GII.26型NoVsP区的原核表达重组质粒,以谷胱甘肽巯基转移酶(Glutathione s-transferase,GST)亲和层析纯化P蛋白,人鼻病毒的3C蛋白酶去掉GST标签,通过酶联免疫吸附实验探索P蛋白与HBGAs相互作用的特点,借助同源结构模拟以及结构重叠分析其与相应糖分子之间可能存在的对接位点.结果 表明,P蛋白可与包括A型、B型、AB型、O型和非分泌型的215种唾液中的大部分发生结合,但只与19种寡糖中的H双糖结合;模拟的GII.26P单体的空间构象与GII.17类似,可通过糖结合位点的5个氨基酸与H双糖特异性结合.本研究阐明了GII.26 P蛋白与HBGAs的结合特征及潜在分子机制,为进一步揭示GII.26 NoVs可能的流行趋势及研发潜在抗病毒药物奠定一定的基础.     

喀什边境口岸陆运卡车及集装箱污染的新冠病毒基因特征分析

新疆维吾尔自治区喀什地区作为我国与中亚和欧洲的重要陆路货运口岸,来往货物运输频繁,引入新型冠状病毒(SARS-CoV-2)风险大,对我国新型冠状病毒肺炎(COVID-19)疫情防控造成压力.2020年11月我国新疆维吾尔自治区喀什地区发生输入SARS-CoV-2导致的本土聚集性COVID-19疫情.为明确货物运输载体携带SARS-CoV-2的基因特征以及边境快速物流系统作为SARS-CoV-2传播载体的可能性,本研究对2020年11月6日-2020年11月10日期间在喀什边境口岸货运卡车及运输的集装箱采集的35份SARS-CoV-2核酸阳性样本进行SARS-CoV-2全基因组序列测定和比对分析.结果 显示,35份样本ORFlab基因Ct值的中位数(最小值～最大值)为37.64(28.91～39.81),N基因Ct值的中位数(最小值～最大值)为36.50(26.35～39.30),Reads数匹配率的中位数(最小值～最大值)为51.95％(0.86％～99.31％),病毒载量较低;35份样本中基因组覆盖度达到70％以上的共计18份.基于Pango命名法,18条SARS-CoV-2基因组序列分别属于B.1、B.1.1、B.1.9、B.1.1.220、B.1.153和B.1.465共6个不同的基因型,其中3个基因型(B.1、B.1.1和B.1.153)在喀什边境接壤或邻近的四个国家同期采集的病例样本中也有发现.核苷酸突变位点和系统进化树分析显示,同一个地点采集的样本病毒基因组相似程度高;18条序列中的4条与喀什COVID-19疫情毒株代表序列处在同一个进化分支;其中1条序列与喀什COVID-19疫情毒株基因组存在1个或2个核苷酸突变位点差异,高度同源.本研究证实喀什COVID-19疫情期间边境货运卡车和集装箱存在境外多种基因型病毒的污染,其中存在喀什COVID-19疫情毒株的祖父代病毒,高度提示边境快速物流系统卡车及集装箱作为载体携带SARS-CoV-2病毒入境造成了本土疫情,这些数据为我国边境口岸地区的新冠防控策略制定及后续疫情溯源提供了关键的参考依据.