Identification and characterization of a novel cold-tolerant extracellular protease from Planococcus sp. CGMCC 8088

Extremophiles - A psychrophilic extracellular protease was isolated from the marine bacterium Planococcus sp. M7 found in the deep-sea mud of the Southern Indian Ocean. The mature protease is about...     

一株减毒百日咳鲍特菌的构建及生物学特性分析

百日咳是传染性强、感染率高的急性呼吸道传染病,主要感染婴幼儿,是婴儿死亡的主要原因之一。百日咳鲍特菌（Bordetella pertussis）是引起百日咳的最主要病原菌。近年来世界各地多次出现百日咳暴发,迫切需研制更加有效的新型百日咳疫苗。本研究构建了一株减毒百日咳活疫苗BPTM1,利用同源重组方法敲除编码百日咳鲍特菌主要毒力因子百日咳毒素（pertussis toxin,PTX）和皮肤坏死毒素（dermonecrotic toxin,DNT）的基因,并用大肠埃希菌的同源基因置换了负责气管细胞毒素（tracheal cytotoxin,TCT）转运的基因ampG。通过聚合酶链反应验证了毒素及相关基因的敲除和置换,蛋白免疫印迹法检测表明PTX的S1亚基未表达。体外生长曲线和体内定植曲线均表明,相比于野生型百日咳鲍特菌BPMM,减毒BPTM1的生长和定植能力未受影响,其所致肺部病理效应减轻,而所诱导的百日咳鲍特菌特异性IgG、IgG1、IgG2a抗体保持高水平。本研究表明,减毒百日咳鲍特菌BPTM1有可能成为百日咳疫苗的候选疫苗。     

Limited dispersal and geographic barriers cause population differentiation and structuring in Begonia maxwelliana at both large and small scales

Background: Genetic divergence is one of the key processes in speciation. In the Begoniaceae, genetic divergence caused by limited gene flow may explain its high species diversity and endemicity. This hypothesis has been supported by past genetic work but there is a lack of empirical studies on the causes of limited gene flow.

Aim: To identify the causes of limited gene flow in Begonia.

Methods: We examined the genetic structure among the populations of Begonia maxwelliana at the macro- and micro-spatial scales using microsatellites, measured seed dispersal range and observed flowering phenology.

Results: Population differentiation and structuring were detected at both the macro- and micro-scales. Dispersal range was short, and all populations showed similar reproductive behaviour.

Conclusions: The strong population differentiation and structuring among the populations studied imply that they are evolutionarily significant units and possible candidates for speciation. Geographical barriers and limited seed dispersal restrict gene flow in the populations, and these factors may be responsible for the rapid speciation and large diversity in the family.     

一种测量镇静大鼠气道反应性的非侵入式新方法

将腹腔注射地西泮而镇静的ＳＤ大鼠,置于体积描记器,测定其自主呼吸变化。吸入氯化乙酰甲胆碱和氯化乙酰胆碱气雾对呼吸幅度无明显影响,可深度依赖性地增加呼吸频率,且两药的作用强度相似,但ＭＣｈ作用维持１１ｍｉｎ,Ａｃｈ仅维持３ｍｉｎ。乌拉坦麻醉可抑制呼吸和对ＭＣｈ的反应;硫酸阿托品,硫酸沙丁胺醇和氨茶碱抑制ＭＣｈ引起的频率增快;吸入抗原气雾后６ｈ能增强致敏大鼠对ＭＣｈ的敏感性。     

抗菌肽B基因导入水稻及转基因植株的鉴定

构建了一个适合在水稻中表达的含有抗菌肽B基因的转化载体(pCB1),应用基因枪转化法将其导入水稻未成熟胚,获得了一些转基因水和植株.Basta抗性鉴定,抗菌肽B基因PCR扩增分析,点渍印迹和Southern印迹分析结果表明,选择标记基因(bar)和抗菌肽B基因都已整合入转化水稻基因组中,Northern印迹分析证实了抗菌肽B基因在RNA水平上的表达.转基因水稻植株增强了对水稻白叶枯病和细条病的抗性.     

Crystal structure of a phosphorylated Smad2. Recognition of phosphoserine by the MH2 domain and insights on Smad function in TGF-beta signaling.

Ligand-induced phosphorylation of the receptor-regulated Smads (R-Smads) is essential in the receptor Ser/Thr kinase-mediated TGF-beta signaling. The crystal structure of a phosphorylated Smad2, at 1.8 A resolution, reveals the formation of a homotrimer mediated by the C-terminal phosphoserine (pSer) residues. The pSer binding surface on the MH2 domain, frequently targeted for inactivation in cancers, is highly conserved among the Co- and R-Smads. This finding, together with mutagenesis data, pinpoints a functional interface between Smad2 and Smad4. In addition, the pSer binding surface on the MH2 domain coincides with the surface on R-Smads that is required for docking interactions with the serine-phosphorylated receptor kinases. These observations define a bifunctional role for the MH2 domain as a pSer-X-pSer binding module in receptor Ser/Thr kinase signaling pathways.     

Phenology of the rhodomelarian algae Neorhodomela aculeata and Ceramium kondoi and their survival strategies against herbivorous snails

The seasonal growth and reproductive phenology of Neorhodomela aculeata (Perestenko) Masuda and Ceramium kondoi Yendo, and the food preferences of herbivorous snails were examined to elucidate (i) why snails select the fronds of N. aculeata for their habitat; and (ii) the survival strategies of the two red algae under grazing pressures. The maximal lengths and weights of both algal species were recorded for each season over a 12‐month period beginning with the spring of 2003. C. kondoi grew in length at a faster rate than N. aculeate, whereas the turf alga N. aculeata produced new branches from the tips of broken branches. The reproductive period of C. kondoi was between the spring and summer but the reproductive organs of N. aculeata were observed throughout the year. The algal loss rate of fresh N. aculeata to snails was low but snails had a food preference for N. aculeata when compared to C. kondoi in an artificial food experiment. These results indicate that snails may adapt to chemical compounds characteristic of N. aculeata and that the alga further reduces predation damage by its structural resistance. In conclusion, the survival strategies of C. kondoi appear to be rapid growth, seasonal sexual reproduction, and a delicately branched frond morphology that reduces stable feeding patterns of its predators plus high tissue nitrogen content, whereas the survival strategy of N. aculeata includes regenerative growth responses, structural toughness and chemical defenses while under the grazing pressure of herbivorous snails.     

Glycine origin of the methyl substituent on C7'-N of octodiose for the biosynthesis of apramycin

Apramycin is unique in the aminoglycoside family due to its octodiose moiety. However, either the biosynthesis process or the precursors involved are largely unknown. Addition of glycine, as well as serine or threonine, to the Streptomyces tenebrabrius UD2 fermentation medium substantially increases the production of apramycin with little effect on the growth of mycelia, indicating that glycine and/or serine might be involved in the biosynthesis of apramycin. The 13C-NMR analysis of [2-13C] glycine-fed (25% enrichment) apramycin showed that glycine specifically and efficiently incorporated into the only N-CH3 substituent of apramycin on the C7' of the octodiose moiety. We noticed that the in vivo concentration of S-adenosyl methionine increased in parallel with the addition of glycine, while the addition of methione in the fermentation medium significantly decreased the productivity of apramycin. Therefore, the methyl donor function of glycine is proposed to be involved in the methionine cycle but methionine itself was proposed to inhibit the methylation and methyl transfer processes as previously reported for the case of rapamycin. The 15N NMR spectra of [2-13C,15N]serine labeled apramycin indicated that serine may also act as a limiting precursor contributing to the -NH2 substituents of apramycin.     

GABAB-receptor-mediated suppression of sympathetic outflow from the spinal cord of neonatal rats.

Using a splanchnic nerve-spinal cord preparation in vitro that could spontaneously generate sympathetic nerve discharge (SND), we investigated the roles of intraspinal GABA(B) receptors in the regulation of SND. Despite an age-dependent difference in sensitivity, bath applications of baclofen (Bac; GABA(B)-receptor agonist) consistently reduced SND in a concentration-dependent manner. The drug specificity of Bac in activation of GABA(B) receptors was verified by application of its antagonist saclofen (Sac) or CGP-46381 (CGP). Sac or CGP alone did not change SND. However, in the presence of Sac or CGP, the effects of Bac on SND inhibition were reversibly attenuated. The splanchnic sympathetic preganglionic neuron (SPN) was recorded by blind whole cell, patch-clamp techniques. We examined Bac effects on electrical membrane properties of SPNs. Applications of Bac reduced excitatory synaptic events, induced membrane hyperpolarizations, and inhibited SPN firing. In the presence of 12 mM Mg2+ or 0.5 microM TTX to block Ca2+- or action potential-dependent synaptic transmissions, applications of Bac induced an outward baseline current that reversed at -29 +/- 6 mV. Because the K+ equilibrium potential in our experimental conditions was -100 mV, the Bac-induced currents could not simply be attributed to an alteration of K+ conductance. On the other hand, applications of Bac to Cs+-loaded SPNs reduced Cd2+-sensitive and high-voltage-activated inward currents, indicating an inhibition of voltage-gated Ca2+ currents. Our results suggest that the activation of intraspinal GABA(B) receptors suppresses SND via a mixture of ion events that may link to a change in Ca2+ conductance.