Nanoparticle self-assembly by a highly stable recombinant spider wrapping silk protein subunit

Artificial spider silk proteins may form fibers with exceptional strength and elasticity. Wrapping silk, or aciniform silk, is the toughest of the spider silks, and has a very different protein composition than other spider silks. Here, we present the characterization of an aciniform protein (AcSp1) subunit named W₁, consisting of one AcSp1 199 residue repeat unit from Argiope trifasciata. The structural integrity of recombinant W₁ is demonstrated in a variety of buffer conditions and time points. Furthermore, we show that W₁ has a high thermal stability with reversible denaturation at ∼71 °C and forms self-assembled nanoparticle in near-physiological conditions. W₁ therefore represents a highly stable and structurally robust module for protein-based nanoparticle formation.     

克雷伯氏菌产1,3-丙二醇ldhA基因缺失菌株的构建

克雷伯氏菌(Klebsiella pneumonia)甘油歧化发酵生产1,3-丙二醇(1,3-PD)的过程中,乳酸是氧化途径最主要的副产物,乳酸的产生和积累,不仅限制了菌体本身的生长,而且严重影响了1,3-丙二醇的转化率。利用λRed重组技术对Klebsiella pneumonia中的酶乳酸脱氢酶基因(ldhA)进行改造。在λRed重组系统作用下,将带有300 bp的线性同源片段ldhA1-Cm-ldh A2与基因组DNA的同源重组,经过抗性筛选和PCR鉴定最终获得了ldhA基因缺失菌株K.pneumonia2-1ΔldhA。经过24 h发酵可知,乳酸最大产出浓度由原来的10.16 g/L降为0.49 g/L,1,3-PD由原来的78.83 g/L增长为85.76 g/L,甘油转化率由60.64%增长到65.97%,提高了5.33%。     

吸附剂及培养基组成对香荚兰细胞悬浮培养产生香兰素的影响

本文报道了培养基的组成及添加吸附剂对香荚兰细胞悬浮培养产生香兰素的影响。结果表明,添加吸附剂活性炭及XAD-2后,香荚兰细胞产生的香兰素含量明显增加,而且活性炭的效果优于XAD-2;香荚兰细胞在全组成的MS培养基中香兰素含量均低于由矿物质盐组成培养基中的含量。可以考虑采用二步培养法来培养香荚兰细胞及产生香兰素。     

双Intein介导3片段vWF的反式剪接

von Willebrand因子(vWF)基因突变导致血管性血友病(VWD),由于其基因过大在基因治疗研究中难以为多数病毒载体携带.利用双内含肽(intein)的蛋白质反式剪接功能研究断裂成3段的vWF基因分别表达后在蛋白水平的连接,旨在为vWF基因的3载体联合转移应用于VWD基因治疗研究提供依据.将vWF cDNA于满足剪接所需的保守性氨基酸Cys1099、Ser2004的密码子前断裂为3段(N、M和C),分别与splitSspDnaE intein的N端(En)、C端(Ec)和splitSspDnaB intein的N端(Bn)、C端(Bc)编码序列融合,构建到原核表达载体pET-28a(+)中的His-Tag的下游,得到3种表达载体pET-NEn、pET-EcMBn和pET-BcC.分别转化感受态大肠杆菌BL21(DE3)细胞,经IPTG诱导表达后,以SDS-PAGE分析融合蛋白的表达,并进一步用His-Tag的特异性抗体进行分析;亲和层析纯化分别表达的带His-Tag标签的3段蛋白,复性后体外混合进行剪接实验以观察3片段vWF的连接.结果显示,3段预期大小的融合intein的vWF蛋白均有表达,用His-Tag抗体进行的Western印迹得到进一步证实;3段纯化的蛋白混合后可见明显的剪接条带形成,与vWF的预期分子量大小一致,表明双intein通过蛋白质反式剪接可有效连接3个片段的vWF,为进一步应用蛋白质剪接技术的3重载体真核细胞转vWF基因奠定了基础.     

P. falciparum RH5‐Basigin interaction induces changes in the cytoskeleton of the host RBC

The successful invasion of Plasmodium is an essential step in their life cycle. The parasite reticulocyte‐binding protein homologues (RHs) and erythrocyte‐binding like proteins are two families involved in the invasion leading to merozoite‐red blood cell (RBC) junction formation. Ca²⁺ signaling has been shown to play a critical role in the invasion. RHs have been linked to Ca²⁺ signaling, which triggers the erythrocyte‐binding like proteins release ahead of junction formation, consistent with RHs performing an initial sensing function in identifying suitable RBCs. RH5, the only essential RHs, is a highly promising vaccine candidate. RH5‐basigin interaction is essential for merozoite invasion and also important in determining host tropism. Here, we show that RH5 has a distinct function from the other RHs. We show that RH5‐Basigin interaction on its own triggers a Ca²⁺ signal in the RBC resulting in changes in RBC cytoskeletal proteins phosphorylation and overall alterations in RBC cytoskeleton architecture. Antibodies targeting RH5 that block the signal prevent invasion before junction formation consistent with the Ca²⁺ signal in the RBC leading to rearrangement of the cytoskeleton required for invasion. This work provides the first time a functional context for the essential role of RH5 and will now open up new avenues to target merozoite invasion.     

丛枝菌根真菌应用技术研究进展

丛枝菌根(AM)共生体系能够改善植物营养状况,增强植物对各种逆境胁迫的耐受性,其在农业和生态环境方面的应用得到广泛关注.近年来,在AM真菌(AMF)应用技术和田间试验方面取得了许多重要成果.本文在介绍AMF种质资源库、商业化菌剂生产及相关专利申报情况的基础上,结合实例从菌剂生产、接种技术、接种效应影响因素等方面综述了AMF应用技术的理论与实践,包括国内外近年来菌根技术在农业、园艺、生态修复等方面的应用,最后提出尚待系统深入研究的 AMF应用领域中的关键科学和技术问题,旨在为菌根技术的发展和推广应用提供参考.     

Production of 3-hydroxypropionate homopolymer and poly(3-hydroxypropionate-co-4-hydroxybutyrate) copolymer by recombinant Escherichia coli

Conversion of 3-hydroxypropionate (3HP) from 1,3-propanediol (PDO) was improved by expressing dehydratase gene (dhaT) and aldehyde dehydrogenase gene (aldD) of Pseudomonas putida KT2442 under the promoter of phaCAB operon from Ralstonia eutropha H16. Expression of these genes in Aeromonas hydrophila 4AK4 produced up to 21 g/L 3HP in a fermentation process. To synthesize homopolymer poly(3-hydroxypropionate) (P3HP), and copolymer poly(3-hydroxypropionate-co-3-hydroxybutyrate) (P3HP4HB), dhaT and aldD were expressed in E. coli together with the phaC1 gene encoding polyhydroxyalkanoate (PHA) synthase gene of Ralstonia eutropha, and pcs' gene encoding the ACS domain of the tri-functional propionyl-CoA ligase (PCS) of Chloroflexus aurantiacus. Up to 92 wt% P3HP and 42 wt% P3HP4HB were produced by the recombinant Escherichia coli grown on PDO and a mixture of PDO+1,4-butanediol (BD), respectively.     

鸡肉源沙门氏菌对喹诺酮和氟喹诺酮类抗生素耐药状况及相关基因

【目的】研究分离于陕西、河南、四川和北京四省(市)鸡肉源沙门氏菌对喹诺酮和部分氟喹诺酮类抗生素的药敏性及相关耐药基因,更好地了解耐药性的产生和传播途径,确保食品安全。【方法】用琼脂稀释法测定沙门氏菌的药敏性,用PCR和基因序列测定法确定耐药沙门氏菌中与(氟)喹诺酮类抗生素耐药相关的喹诺酮类抗性决定区基因突变及质粒携带的耐药基因。【结果】390株沙门氏菌中,63.59%的菌株对萘啶酮酸产生抗性,21.28%、16.67%和14.62%的菌株分别对环丙沙星、左氧氟沙星和加替沙星产生抗性。248株萘啶酮酸抗性菌中,aac(6’)-Ib-cr、qnrA、qnrB和qnrS基因的检出率分别为20.16%、10.89%、10.08%和1.61%。83株耐环丙沙星的菌株中,gyrA和parC基因的点突变共199个;其中gyrA基因中以Ser83Phe和Asp87Gly双突变最为常见,其次分别为Ser83Phe和Asp87Asn双突变、Ser83Tyr、Ser83Phe、Asp87Gly;parC基因的65个点突变均为Ser80Arg突变。【结论】四省市中鸡肉源沙门氏菌耐药状况严重,其解旋酶和拓扑异构酶基因突变及质粒携带的耐药基因是导致沙门氏菌耐药的重要机制。