细菌吸附及转运芳香族化合物的研究进展

芳香族化合物是一类具有苯环结构的有机物,它们结构稳定,不易分解,并可通过食物链进行生物富集和生物放大,对生态环境及人类健康造成极大危害。细菌具有超强的分解代谢能力,能降解多环芳烃(polycyclic aromatic hydrocarbons, PAHs)等多种难降解芳香族污染物。吸附和转运是细菌进行芳香族化合物细胞内代谢的前提。虽然芳香族化合物的细菌降解已取得较为显著的研究进展,但吸附和转运机理仍不甚清楚。本文讨论了细菌对芳香族化合物的吸附有积极作用的细胞表面疏水性、生物被膜形成和细菌趋化性等影响因素,总结了FadL家族、TonB依赖性受体蛋白、OmpW家族等外膜转运系统和主要协同转运蛋白超家族(major facilitator superfamily, MFS)转运体、ATP结合盒(ATP-binding cassette, ABC)转运蛋白等内膜转运系统对该类化合物跨膜运输作用,并对跨膜转运机制进行了讨论和阐述,旨在为芳香族污染物的防控和治理提供一定理论参考。     

The role of acid phosphatase activity during enzymic dephosphorylation of phytates byAspergillus niger phytase

Acid phosphatase present in preparations ofAspergillus niger phytase accelerated dephosphorylation of sodium phytate. Its influence on the reaction rate and distribution ofmyo-inositol phosphates was most apparent at low pH value (2.5) and when acid-hydrolysed substrate was de-esterified enzymatically. With partly purified phytase, the predominant inositol form was tetraphosphate but a preparation having acid phosphatase activity caused an even distribution of lower inositol phosphates after a few hours.     

Genistein inhibits calcium release by platelet-derived growth factor but not bradykinin or cadmium in human fibroblasts

Cd²⁺ provokes inositol trisphosphateproduction and releases stored Ca²⁺, apparently by binding to a zinc site in the external domain of an orphan receptor. One pM Cd²⁺ evokes an immediate spike in cytosolic free Ca²⁺, which is similar to that evoked by bradykinin. Platelet-derived growth factor (PDGF) also increases free Ca²⁺ in human dermalfibroblasts, but there is a distinct lag before free Ca²⁺ rises in response to PDGF. Genistein, which selectively inhibits tyrosine kinases, markedly inhibited Ca²⁺ mobilization evoked by PDGF. Calcium mobilization triggered by cadmium or bradykinin was relatively insensitive to genistein. The PDGF receptor is known to be a tyrosine kinase, whichphosphorylates and thereby activatesphospholipase C, whereas a G protein couples the bradykinin receptor to anotherphospholipase C isoform. These findings support the hypothesis that the orphan receptor triggered by cadmium is coupled to phospholipase C via a G protein.Abbreviations BSA bovine serum albumin - BK bradykinin - [Ca²⁺]_i cytosolic free calcium - DME Dulbecco's modified Eagle's medium - FBS fetal bovine serum - HEPES 4-(2-hydroxyethyl)-1-piperazine-ethanesulfonic acid - IC₅₀ concentration that produces 50% inhibition - PDGF platelet-derived growth factor - PSS physiological salts solution - SE standard error of the mean     

马克斯克鲁维酵母GX-UN120糖转运蛋白基因的克隆及表征

【背景】马克斯克鲁维酵母(Kluyveromyces marxianus)具有完整的木糖代谢途径,可以高效利用木质纤维素中的木糖,因此对其糖转运蛋白基因的研究或可有效解决酵母木糖转运的相关问题。【目的】根据马克斯克鲁维酵母DMKU3-1042中KLMA＿70145和KLMA＿80101基因位点的功能预测,获得马克斯克鲁维酵母GX-UN120相应的糖转运蛋白基因序列并探究其功能。【方法】将转运蛋白基因分别克隆表达至酿酒酵母EBY.VW4000中考察重组菌株生长特性,以此间接评价对应转运蛋白的转运能力。【结果】Km＿SUT2基因编码的糖转运蛋白可有效提高宿主细胞转运木糖、阿拉伯糖、山梨糖、核糖、乳糖和葡萄糖的能力,但却不能转运甘露糖、果糖、蔗糖和半乳糖。类似地,Km＿SUT3基因编码的糖转运蛋白可提高细胞转运木糖、阿拉伯糖、山梨糖、半乳糖、核糖、乳糖和葡萄糖的能力,但却不能转运甘露糖和果糖。然而在葡萄糖存在的条件下,重组菌株对各种碳源的利用均受抑制,但Km＿SUT3转运木糖和核糖过程中受葡萄糖的抑制作用较小。【结论】马克斯克鲁维酵母GX-UN120中转运蛋白Km＿SUT2和Km＿SUT3可...     

Engineered nickel bioaccumulation in Escherichia coli by NikABCDE transporter and metallothionein overexpression

Mine wastewater often contains dissolved metals at concentrations too low to be economically extracted by existing technologies, yet too high for environmental discharge. The most common treatment is chemical precipitation of the dissolved metals using limestone and subsequent disposal of the sludge in tailing impoundments. While it is a cost-effective solution to meet regulatory standards, it represents a lost opportunity. In this study, we engineered Escherichia coli to overexpress its native NikABCDE transporter and a heterologous metallothionein to capture nickel at concentrations in local effluent streams. We found the engineered strain had a 7-fold improvement in the bioaccumulation performance for nickel compared to controls, but also observed a drastic decrease in cell viability due to metabolic burden or inducer (IPTG) toxicity. Growth kinetic analysis revealed the IPTG concentrations used based on past studies lead to growth inhibition, thus delineating future avenues for optimization of the engineered strain and its growth conditions to perform in more complex environments.     

外生菌根真菌的共生互作和宿主选择机制研究进展

外生菌根真菌作为树木的共生伙伴,是森林生态系统重要组成部分,在森林天然更新、植物抗逆性形成、协助植物吸收限制性营养等方面扮演重要角色。真菌和植物跨界共生具有复杂的分子互作过程,在共生的不同阶段有不同的分子互作机制,其调控反馈网络还有许多未知。基因组与转录组研究技术和方法的进步,为一些新的信号分子、效应蛋白以及相关通路的发现提供了可能。真菌与宿主植物之间营养转移调控对共生的影响也逐渐受到关注,营养相关的转运蛋白对共生的建立和维持提供了物质基础。真菌的宿主选择机制是值得重点关注的领域,由于外生菌根真菌的多谱系起源和演化史中存在多次宿主转换事件,真菌演化出多样的应对机制用来区分相容性宿主、不相容性宿主和非宿主。通过对不同真菌与宿主植物的组学研究,宿主选择机制研究取得了一定进展。本文对近十年来国内外的研究报道进行梳理与总结,并对未来在该领域的探索方向做出展望。     

Signal transduction and phosphatidylinositol turnover in plants

Transduction of light and hormone signals in plants may utilize a mechanism similar to one widely used in animal systems, that of accelerated phosphatidylinositol (PI) turnover. The elements of this central mechanism and consequences of the acceleration as well as recent evidence for its operation in plants are described.     

Evidence suggesting that the minimal functional unit of a renal cystine transporter is a heterodimer and its implications in cystinuria

Summary Cystinuria, one of the most common genetic disorders, is characterized by excessive excretion of cystine and basic amino acids in urine. The low solubility of cystine results in formation of kidney stones which can eventually lead to renal failure. Three types of cystinurias have been described. All involve defects in a high-affinity transport system for cystine in the brush border membranes of kidney and intestinal epithelial cells. The molecular properties of proteins involved in epithelial cystine transport are incompletely understood. A protein (NBAT, neutral and basic amino acid transporter), initially cloned by us from rat kidney and shown to be localized in the renal and intestinal brush border membranes, has been implicated in this transport, and mutations in human NBAT gene have been found in several cystinurics, making it a prime candidate for a cystinuria gene. However, mutations in NBAT were found only in Type I cystinurics and not in Types II and III suggesting that defects in other, as yet uncharacterized, genes may also be involved. NBAT has an unusual (for an amino acid transporter) membrane topology. We proposed that the protein contains four membrane-spanning domains, a model disputed by other investigators. We subsequently obtained experimental data consistent with a four membrane-spanning domain model. Furthermore, recently we showed that kidney and intestinal NBAT (85kDa) is associated with another brush border membrane protein (about 50kDa) and have proposed that the heterodimer represents the minimal functional unit of the high-affinity cystine transporter in these membranes. These findings raise the tantalizing possibilities that defects in the NBAT-associated protein might account for cystinurias in individuals with normal NBAT gene (such as the Types II and III cystinurics).     

Effects of phosphorylation of P-glycoprotein on multidrug resistance

Cells expressing elevated levels of the membrane phosphoprotein P-glycoprotein exhibit a multidrug resistance phenotype. Studies involving protein kinase activators and inhibitors have implied that covalent modification of P-glycoprotein by phosphorylation may modulate its biological activity as a multidrug transporter. Most of these reagents, however, have additional mechanisms of action and may alter drug accumulation within multidrug resistant cells independent of, or in addition to their effects on the state of phosphorylation of P-glycoprotein. The protein kinase(s) responsible for P-glycoprotein phosphorylation has(ve) not been unambiguously identified, although several possible candidates have been suggested. Recent biochemical analyses demonstrate that the major sites of phosphorylation are clustered within the linker region that connects the two homologous halves of P-glycoprotein. Mutational analyses have been initiated to confirm this finding. Preliminary data obtained from phosphorylation- and dephosphorylation-defective mutants suggest that phosphorylation of P-glycoprotein is not essential to confer multidrug resistance.     

Uptake of l-Glutamate into Rat Brain Synaptic Vesicles: Effect of Inhibitors that Bind Specifically to the Glutamate Transporter

Abstract: In this study we have described a series of new and potent inhibitors of the vesicular uptake of glutamate. The two most efficient inhibitors were the dyes Evans blue and Chicago Skye Blue 6B, which are structurally related to glutamate and were competitive inhibitors in the nanomolar range. The anion channel blocker 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (SITS) and the diuretics furosemide and bumetanide are inhibitors of chloride transport in other organs but were competitive inhibitors of glutamate and noncompetitive with respect to chloride ions. Evans blue, Chicago Skye Blue 6B, SITS, furosemide, and bumetanide are all large organic acids with two centers of negative charge and an electron-donating group at close vicinity of the negative charge at physiological pH. The inhibition of the glutamate uptake with these inhibitors was noncompetitive with respect to Cl⁻. The inhibitors, therefore, probably interact directly with the glutamate carrier. Bafilomycin A₁, which is a specific vacuolar ATPase inhibitor, was used as a control and inhibited the vesicular dopamine, glutamate, and GABA uptake to the same extent. None of the inhibitors had any effect on the plasma membrane carrier, which is therefore clearly different from the vesicular carrier.