柬埔寨白蝶兰，中国兰科一新记录种

报道中国兰科白蝶兰属一新记录种——柬埔寨白蝶兰Pecteilis cambodiana (Gagnep.) Aver.,描述其特征并提供了彩色图片。凭证标本保存于福建农林大学林学院树木标本室(FJFC)。     

厌氧氨氧化菌驱动脱氮途径的研究进展

厌氧氨氧化菌(anaerobic ammonia-oxidizing bacteria, AnAOB)的代谢多样性,使得该菌群能够在海洋、湿地和陆地等不同的自然生态系统中广泛分布,甚至在一些极热和极寒环境中也检测到了该菌群的存在。本文回顾并总结了厌氧氨氧化菌在不同生态系统中的发现、分布及脱氮贡献等方面的研究,分析了厌氧氨氧化菌分布的主要环境影响因素。该综述将帮助我们更好地理解全球氮循环中厌氧氨氧化菌的实际角色和功能,并基于厌氧氨氧化(anaerobicammoniaoxidation,anammox)过程,探究能与其进行协作的新型生物脱氮工艺,以期为这些工艺的研发和推广提供生态学基础和新的思考,从而实现脱氮工艺的技术变革。     

一株耐盐碱乳酪短杆菌G20响应盐碱胁迫的差异代谢物分析

【目的】探究耐盐碱乳酪短杆菌G20响应盐碱胁迫的代谢物组成以及代谢物合成潜力,为潜在功能分子和盐碱诱导的快速稳定响应逻辑门基因线路的挖掘提供参考。【方法】利用液相色谱-质谱联用技术(LC-MS)检测乳酪短杆菌G20盐碱环境与正常环境下4个生长时期的代谢产物。着重对富含高差异变化倍数代谢物的适应期与指数期进行分析。【结果】乳酪短杆菌G20可以在pH 10.0、9%NaCl环境中正常生长,同时环境pH值会随菌株生长逐步下降。综合正负离子2种模式,乳酪短杆菌G20在盐碱环境下各生长时期间差异代谢物数量分别为正常环境的0.69、0.75和0.81倍。盐碱胁迫诱导下适应期与指数期差异代谢物主要为苯环型化合物、有机酸及其衍生物与有机杂环类化合物。其中上调的有机酸化合物吲哚-3-乙酸、犬尿酸和葡萄糖酸指数期质谱信号强度低于适应期。菌株中可能存在的渗透保护剂有L-瓜氨酸、L-脯氨酸、N-乙酰鸟氨酸和左旋肉碱等。适应期变化倍数较大或质谱信号强度较高的差异化合物有毛果芸香碱、植物鞘氨醇和柠檬酸等,指数期有组胺、L-脯氨酸和硫胺素等。菌株差异代谢通路集中在氨基酸代谢与碳水化合物代谢。菌株代谢物中存在甜菜碱和...     

内生真菌印度梨形孢诱导小麦抗根腐病作用研究

【目的】明确印度梨形孢(Piriformospora indica)诱导小麦对根腐病产生抗性的作用机制。【方法】用印度梨形孢悬液浸种,以无菌培养液为对照,用病原菌禾谷镰孢菌(Fusarium graminearum)侵染小麦,对其相关生理生化指标及转录组变化进行分析。【结果】禾谷镰孢菌能诱导小麦产生过氧化氢,降低细胞内水含量,破坏细胞膜的稳定性;根部定殖印度梨形孢的小麦细胞内抗氧化酶活性增强,活性氧自由基含量降低,胞内水含量提高,细胞膜稳定性增强;印度梨形孢定殖能改变由于病原菌引起的mRNA转录组变化,抗性相关基因的表达增强。综合表明印度梨形孢定殖能有效地提高小麦对禾谷镰孢菌的抗性。【结论】研究结果为深入理解植物与微生物互作、开发新型高效环保抗根腐病生物制剂提供理论和实验依据。     

Effect of stress,adrenalectomy and changes in glutathione metabolism on rat kidney metallothionein content: comparison with liver metallothionein

Eighteen hours of immobilization stress, accompanied by food and water deprivation, increased liver metallothionein (MT) but decreased kidney MT levels. Food and water deprivation alone had a significant effect only on liver MT levels. In contrast, stress and food and water deprivation increased both liver and kidney lipid peroxidation levels, indicating that the relationship between MT and lipid peroxidation levels (an index of free radical production) is unclear. Adrenalectomy increased both liver and kidney MT levels in basal conditions, whereas the administration of corticosterone in the drinking water completely reversed the effect of adrenalectomy, indicating an inhibitory role of glucocorticoids on MT regulation in both tissues. Changes in glutathione (GSH) metabolism produced significant effects on kidney MT levels. Thus, the administration of buthionine sulfoximine, an inhibitor of GSH synthesis, decreased kidney GSH and increased kidney MT content, suggesting that increased cysteine pools because of decreased GSH synthesis might increase kidney MT levels through an undetermined mechanism as it appears to be the case in the liver. However, attempts to increase kidney MT levels by the administration of cysteine or GSH were unsuccesful, in contrast to what is known for the liver. The present results suggest that there are similarities but also substantial differences between liver and kidney MT regulation in these experimental conditions.     

构建全细胞生物传感器测定农田土壤中有机磷农药甲基对硫磷含量

土壤中污染物的生物有效性评估对于准确评价环境污染风险至关重要,而全细胞生物传感器是此类评估的重要工具之一。本研究旨在使用新型全细胞生物传感器建立土壤中甲基对硫磷(methyl parathion,MP)的检测方法。首先,使用筛选出的甲基对硫磷水解酶基因(methyl parathion degrading gene,mpd)和pUC19质粒骨架以及已有的特异性诱导元件pobR为材料,构建全细胞生物传感器。然后,以96孔的酶标板为载体和以5种全细胞生物传感器为指示细胞,建立了土壤提取液样品中甲基对硫磷的分析方法,并应用于实际测试和田间土壤样品中甲基对硫磷的检测。以检测性能的最佳大肠杆菌(Escherichia coli)DH5α/pMP-AmilCP为例,其检测限为6.21−6.66μg/L,线性范围为10−10000μg/L。E.coli DH5α/pMP-RFP和E.coli DH5α/pMP-AmilCP的方法用于分析土壤提取液样品中甲基对硫磷的浓度,具有较好的检测性能。这种全细胞生物传感器方法有助于快速评估土壤中甲基对硫磷的生物有效性强弱,从而有效判断有机磷农药甲基对硫磷对土壤的污染风险。     

Molecular analysis of a microaerobically induced operon required for hydrogenase synthesis in Rhizobium leguminosarum biovar viciae

The nucleotide sequence (6138 bp) of a microaerobically inducible region (hupV/VI) from the Rhizobium leguminosarum bv. viciae hydrogenase gene cluster has been determined. Six genes, arranged as a single operon, were identified, and designated hypA, B, F, C, D and E based on the sequence similarities of all of them, except hypF, to genes from the hydrogenase pleiotropic operon (hyp) from Escherichia coli. The gene products from hypBFCDE were identified by in vivo expression analysis in E. coli, and their molecular sizes were consistent with those predicted from the nucleotide sequence. Transposon Tn5 insertions into hypB, hypF, hypD and hypE resulted in R. leguminosarum mutants that lacked any hydrogenase activity in symbiosis with peas, but still were able to synthesize the polypeptide for the hydrogenase large subunit. The gene products HypA, HypB, HypF and HypD contained CX₂C motifs characteristic of metal-binding proteins. In addition, HypB bore a long histidine-rich stretch of amino acids near the N-terminus, suggesting a possible role in nickel binding for this protein. The gene product HypF, which was translationally coupled to HypB, presented two cysteine motifs (CX₂CX₈₁CX₂C) with a capacity to form zinc finger-like structures in the N-terminal third of the protein. A role in nickel metabolism in relation to hydrogenase synthesis is postulated for proteins HypB and HypF.