恒河猴外周血及肾组织SV40病毒基因分析

SV40即猿猴病毒40(simian virus 40),是DNA肿瘤病毒的原型代表,其基因结构为共价闭合环状双股DNA分子,标准参考株SV40-776含5243个核甘酸,不同分离株bp数略有差异.     

PURIFICATION AND CHARACTERIZATION OF A HOMODIMERIC ENOLASE FROM SYNECHOCOCCUS PCC 6301 (CYANOPHYCEAE)1

Enolase from Synechococcus PCC 6301 was purified 1450‐fold to electrophoretic homogeneity and a final specific activity of 68 μmol of phosphoenolpyruvate produced·min^?1·mg protein^?1. Analytical gel filtration and nondenaturing and SDS‐gel electrophoresis demonstrated that this enolase exists as a 118‐kDa homodimer composed of 56‐kDa subunits. The purified enzyme displayed 1) a broad pH‐activity profile with maximal activity occurring at pH 8.0 and 7.5 for the forward and reverse reactions, respectively, 2) a forward‐to‐reverse maximal activity ratio of about 1.6, 3) a K_m (2‐phosphoglycerate) of 0.28 mM, and 4) an absolute requirement for a divalent metal cation cofactor that was best satisfied by Mg²⁺ (K_m=0.62 mM). Enolase activity increased by about 200% after the first purification step (60° C heat treatment), whereas addition of increasing amounts of a clarified extract led to a progressive 70% inhibition in the activity of the purified enzyme. This was reflected by a reduction in enolase's V_max from 73 to 22 U·mg^?1 and forward‐to‐reverse activity ratio from 1.6 to 1.3. This inhibition was negated when the clarified extract was either preincubated with trypsin or warmed to approximately 40° for 5 min. Results are indicative of a heat‐labile enolase inhibitor protein in Synechococcus PCC 6301. By contrast, the purified enolase lost no activity when incubated at 70° C for up to 5 min. This study represents the first purification of enolase from the Cyanophyceae. Characterization of the purified enzyme's physical and kinetic features has provided insights into the structural and functional properties of cyanobacterial enolase.     

EFFECTS OF INCREASED TEMPERATURE AND CO2 ON PHOTOSYNTHESIS,GROWTH, AND ELEMENTAL RATIOS IN MARINE SYNECHOCOCCUS AND PROCHLOROCOCCUS (CYANOBACTERIA)1

Little is known about the combined impacts of future CO₂ and temperature increases on the growth and physiology of marine picocyanobacteria. We incubated Synechococcus and Prochlorococcus under present‐day (380 ppm) or predicted year‐2100 CO₂ levels (750 ppm), and under normal versus elevated temperatures (+4°C) in semicontinuous cultures. Increased temperature stimulated the cell division rates of Synechococcus but not Prochlorococcus. Doubled CO₂ combined with elevated temperature increased maximum chl a–normalized photosynthetic rates of Synechococcus four times relative to controls. Temperature also altered other photosynthetic parameters (α, Φ_max, E_k, and ) in Synechococcus, but these changes were not observed for Prochlorococcus. Both increased CO₂ and temperature raised the phycobilin and chl a content of Synechococcus, while only elevated temperature increased divinyl chl a in Prochlorococcus. Cellular carbon (C) and nitrogen (N) quotas, but not phosphorus (P) quotas, increased with elevated CO₂ in Synechococcus, leading to ～20% higher C:P and N:P ratios. In contrast, Prochlorococcus elemental composition remained unaffected by CO₂, but cell volume and elemental quotas doubled with increasing temperature while maintaining constant stoichiometry. Synechococcus showed a much greater response to CO₂ and temperature increases for most parameters measured, compared with Prochlorococcus. Our results suggest that global change could influence the dominance of Synechococcus and Prochlorococcus ecotypes, with likely effects on oligotrophic food‐web structure. However, individual picocyanobacteria strains may respond quite differently to future CO₂ and temperature increases, and caution is needed when generalizing their responses to global change in the ocean.     

大豆蚜嗅觉在选择寄主植物中的作用

大豆蚜 Aphis hlycines 有翅和无翅孤雌生殖蚜为其寄主植物大豆叶和鼠李叶气味所引诱,而非寄主植物棉花叶和黄瓜叶气味处于中性,丝瓜叶和南瓜叶气味具有明显的排斥作用。非寄主植物气味可以遮蔽寄主植物气味的引诱作用。大豆蚜触角感受器对植物气味具有嗅觉生理反应,对一些化合物的最小感觉阈值达10-5至10-6体积比浓度,表明大豆蚜触角上存在识别植物气味的嗅觉受体细胞。由此证明,嗅觉在大豆蚜选择寄主植物过程中起重要作用。     

一步法扩增克隆IBDV上海超强毒VP2-4-3基因

分离、纯化了鸡传染性法氏囊病病毒超强毒 (vvIBDV) 上海株SH95的病毒核酸dsRNA,应用随机引物将RNA反转录成cDNA,以此为模板一步扩增出A片段前体融合蛋白基因即VP2-4-3基因,将其克隆入pGEM-T载体,并进行序列分析,其与超强毒株HK46的核苷酸序列的同源性达98%,整个基因有5个氨基酸差异,同源性达99.51%(1007/1012).     

Effect of Tooth Removal on Recaptures of Raccoons

Abstract: Researchers have extensively used mark—recapture techniques to obtain information on demographic parameters of wildlife populations. However, researchers have recognized that a number of factors can influence capture probabilities of wildlife species, which in turn can bias mark—recapture estimates of demographic parameters. Tooth extraction, which is a commonly used technique in studies of mesopredator species to obtain precise age estimates and to monitor the use of vaccine baits, is an aspect of animal handling that clearly might affect the recapture probability of individuals. However, the effect that tooth removal has on the individual recapture probabilities of wildlife species is unknown. During 2005, we trapped and marked 91 raccoons (Procyon lotor) in northern Indiana, USA, as part of a mark—recapture study designed specifically to determine if tooth extractions have an effect on recapture probabilities of individuals. We performed tooth extractions on 50% of the raccoons at the time of capture, and we attempted to balance tooth extractions with respect to sex and age of raccoons. We used logistic regression to model the effects of sex, age, and tooth removal on recapture probabilities, and we used Mann—Whitney U-tests to examine the effect of tooth removal on the number of times we recaptured individuals. The probability of recapture differed between sexes but did not differ as a function of tooth removal or among age classes. In addition, we failed to detect any difference in the mean number of times that we recaptured raccoons between the tooth removed and non—tooth-removed groups. Our results suggest that managers can use tooth extractions as an effective management tool without biasing population estimates or compromising other management objectives.     

The first world swimming championships of roseobacters—Phylogenomic insights into an exceptional motility phenotype

Many marine Alphaproteobacteria of the Roseobacter group show a characteristic swim-or-stick lifestyle, for which motility is a crucial trait. Three phylogenetically distinct flagellar gene clusters (FGCs) have been identified in Rhodobacteraceae that have been named fla1, fla2 and fla3 according to their relative abundance. In addition to the flagellar-dependent swimming and swarming motility, pilus-dependent twitching mediates bacterial locomotion. Furthermore, filament independent modes of motility, namely gliding and sliding, have been described for various microorganisms. However, no mode of motility other than swimming has so far been described for roseobacters. In the present study, we investigated motility, distribution of flagellar systems and the phylogeny of 120 genome-sequenced Rhodobacteraceae. The phylogenetically broad taxon sampling that included 114 type strains revealed the presence of at least ten distinct clades that were statistically well supported. The investigation of the actual physiological capacity for swimming motility on soft agar plates showed that only about half of the 120 tested strains were motile under the tested conditions. Seven strains developed a conspicuous dendritic motility phenotype that was reminiscent of the swarming motility in Pseudomonas aeruginosa. The observed dendritic motility in two strains (i.e. Sulfitobacter pseudonitzschiae DSM 26842 and Roseovarius pacificus DSM 29589) was particularly surprising because they did not harbor any genes of the FGC. Accordingly, it was concluded that this form of dendritic motility was independent of a flagellum. A comparative genomics approach allowed a remarkable number of pilus-related candidate genes to be identified for this novel type of motility in Rhodobacteraceae.