Asia1型口蹄疫病毒受体结合位点多样性

摘要：【目的】产甘油假丝酵母作为一株优良高产甘油菌株,已成功应用于工业生产15年。近年来由于产甘油假丝酵母染色体倍性尚不明确,限制了对其进行遗传改造的研究进展,因而我们对产甘油假丝酵母染色体倍性研究,分析确定其染色体倍性。【方法】选用酿酒酵母细胞进行生孢,制备酿酒酵母单倍体细胞作对照,并选用热带假丝酵母作为二倍体酵母细胞对照,利用血球计数板得到热带假丝酵母、产甘油假丝酵母、单倍体及二倍体酿酒酵母细胞数,提取染色体,通过二苯胺检测法测定DNA含量。由于在相同紫外照射条件下单倍体细胞比二倍体细胞更容易死亡,因     

产甘油假丝酵母(Candida glycerinogenes)染色体倍性分析

摘要：【目的】产甘油假丝酵母作为一株优良高产甘油菌株,已成功应用于工业生产15年。近年来由于产甘油假丝酵母染色体倍性尚不明确,限制了对其进行遗传改造的研究进展,因而我们对产甘油假丝酵母染色体倍性研究,分析确定其染色体倍性。【方法】选用酿酒酵母细胞进行生孢,制备酿酒酵母单倍体细胞作对照,并选用热带假丝酵母作为二倍体酵母细胞对照,利用血球计数板得到热带假丝酵母、产甘油假丝酵母、单倍体及二倍体酿酒酵母细胞数,提取染色体,通过二苯胺检测法测定DNA含量。由于在相同紫外照射条件下单倍体细胞比二倍体细胞更容易死亡,因     

Production of new-to-nature sophorolipids by cultivating the yeast Candida bombicola on unconventional hydrophobic substrates

The naturally occurring sophorolipids synthesized by Candida bombicola possess--despite their overall heterogeneity--little variation in the length of the lipid tail. The range is limited to C16-C18 fatty acids and is governed by the specificity of a cytochrome P450 monooxygenase. However, incorporation of fatty acids differing from the conventional C16-C18 range could broaden up the application potential of sophorolipids. The incorporation of medium-chain fatty acids should render the molecules more hydrophilic and consequently improve their water solubility. Two strategies to circumvent this C16-C18 preference are described in this paper. The first one skips the controlling action of the cytochrome P450 enzyme by supplying the yeast with already hydroxylated substrates, while the other method is based on the deception of the enzyme by presenting it substrates structurally resembling stearic acid. This later strategy can be applied to create very specific tailor-made sophorolipids when combined with post-fermentive modification.     

Enantioselectivity of Candida rugosa lipases (Lip1, Lip3, and Lip4) towards 2-bromo phenylacetic acid octyl esters controlled by a single amino acid

Enantiomer discrimination by enzymes is a very accurate mechanism, which often involves few amino acids located at the active site. Lipase isoforms from Candida rugosa are very good enzymatic models to study this phenomenon as they display high sequence homology (>80%) and their enantioselectivity is often pointed out. In the present work, we investigated three lipases from C. rugosa (Lip1, Lip3, and Lip4, respectively) towards the resolution of 2-bromo-arylacetic acid esters, an important class of chemical intermediates in the pharmaceutical industry. All exhibited a high enantioselectivity, with Lip4 preferring the R-enantiomer (E-value = 15), while Lip1 and Lip3 showed an S-enantioselectivity >200. A combination of sequence and structure analysis of the three C. rugosa lipases suggested that position 296 could play a role in S- or R-enantiomer preference of C. rugosa lipases. This led to the construction by site-directed mutagenesis of Lip1 and Lip4 variants in which position 296 was, respectively, exchanged by a Gly, Ala, Leu, or Phe amino acid. Screening of these variants for their enantioselectivity toward 2-bromo phenyl acetic acid octyl esters revealed that steric hindrance of the amino acid residue introduced at position 296 controls both the enantiopreference and the enantioselectivity value of the lipase: bulkier is the amino acid at position 296, larger is the selectivity towards the S-enantiomer. To investigate further these observations at an atomic level, we carried out a preliminary modeling study of the tetrahedral intermediates formed by Lip1 and Lip4 with the (R, S)-2-bromo-phenylacetic acid octyl ester enantiomers that provides some insight regarding the determinants responsible for lipase enantiodiscrimination.     

Histatin 5 uptake by Candida albicans utilizes polyamine transporters Dur3 and Dur31 proteins

Histatin 5 (Hst 5) is a salivary gland-secreted cationic peptide with potent fungicidal activity against Candida albicans. Hst 5 kills fungal cells following intracellular translocation, although its selective transport mechanism is unknown. C. albicans cells grown in the presence of polyamines were resistant to Hst 5 due to reduced intracellular uptake, suggesting that this cationic peptide may enter candidal cells through native yeast polyamine transporters. Based upon homology to known Saccharomyces cerevisiae polyamine permeases, we identified six C. albicans Dur polyamine transporter family members and propose a new nomenclature. Gene deletion mutants were constructed for C. albicans polyamine transporters Dur3, Dur31, Dur33, Dur34, and were tested for Hst 5 sensitivity and uptake of spermidine. We found spermidine uptake and Hst 5 mediated killing were decreased significantly in Δdur3, Δdur31, and Δdur3/Δdur31 strains; whereas a DUR3 overexpression strain increased Hst 5 sensitivity and higher spermidine uptake. Treatment of cells with a spermidine synthase inhibitor increased spermidine uptake and Hst 5 killing, whereas protonophores and cold treatment reduced spermidine uptake. Inhibition assays showed that Hst 5 is a competitive analog of spermidine for uptake into C. albicans cells, and that Hst 5 Ki values were increased by 80-fold in Δdur3/Δdur31 cells. Thus, Dur3p and Dur31p are preferential spermidine transporters used by Hst 5 for its entry into candidal cells. Understanding of polyamine transporter-mediated internalization of Hst 5 provides new insights into the uptake mechanism for C. albicans toxicity, and further suggests design for targeted fungal therapeutic agents.     

ATP binding to hemoglobin response gene 1 protein is necessary for regulation of the mating type locus in Candida albicans

HBR1 (hemoglobin response gene 1) is an essential gene in Candida albicans that positively regulates mating type locus MTLα gene expression and thereby regulates cell type-specific developmental genes. Hbr1p contains a phosphate-binding loop (P-loop), a highly conserved motif characteristic of ATP- and GTP-binding proteins. Recombinant Hbr1p was isolated in an oligomeric state that specifically bound ATP with K(d) ～2 μM. ATP but not ADP, AMP, GTP, or dATP specifically protected Hbr1p from proteolysis by trypsin. Site-directed mutagenesis of the highly conserved P-loop lysine (K22Q) and the less conserved glycine (G19S) decreased the binding affinity for soluble ATP and ATP immobilized through its γ-phosphate. ATP bound somewhat more avidly than ATPγS to wild type and mutant Hbr1p. Although Hbr1p exhibits sequence motifs characteristic of adenylate kinases, and adenylate kinase and ATPase activities have been reported for the apparent human ortholog of Hbr1p, assays for adenylate kinase activity, autophosphorylation, and ATPase activity proved negative. Overexpression of wild type but not the mutant forms of Hbr1p restored MTlα2 expression in an HBR1/hbr1 mutant, indicating that ATP binding to the P-loop is necessary for this function of Hbr1p.     

Studies on the relationship between pulsed UV light irradiation and the simultaneous occurrence of molecular and cellular damage in clinically-relevant Candida albicans

This constitutes the first study to report on the relationship between pulsed UV light (PL) irradiation and the simultaneous occurrence of molecular and cellular damage in clinical strains of Candida albicans. Microbial protein leakage and propidium iodide (PI) uptake assays demonstrated significant increases in cell membrane permeability in PL-treated yeast that depended on the amount of UV pulses applied. This finding correlated well with the measurement of increased levels of lipid hydroperoxidation in the cell membrane of PL-treated yeast. PL-treated yeast cells also displayed a specific pattern of intracellular reactive oxygen species (ROS) generation, where ROS were initially localised in the mitochondria after low levels of pulsing (UV dose 0.82 μJ/cm²) before more wide-spread cytosolic ROS production occurred with enhanced pulsing. Intracellular ROS levels were measured using the specific mitochondrial peroxide stain dihydrorhodamine 123 and the cytosolic oxidation stain dichloroflurescin diacetate. Use of the dihydroethidium stain also revealed increased levels of intracellular superoxide as a consequence of augmented pulsing. The ROS bursts observed during the initial phases of PL treatment was consistent with the occurrence of apoptotic cells as confirmed by detection of specific apoptotic markers, abnormal chromatin condensation and externalisation of cell membrane lipid phosphatidylserine. Increased amount of PL-irradiation (ca. UV does 1.24-1.65 μJ/cm²) also resulted in the occurrence of late apoptotic and necrotic yeast phenotypes, which coincided with the transition from mitochondrial to cytosolic localisation of ROS and with irreversible cell membrane leakage. Use of the comet assay also revealed significant nuclear damage in similarly treated PL samples. Although some level of cellular repair was observed in all test strains during sub-lethal exposure to PL-treatments (≤ 20 pulses or UV dose 0.55 μJ/cm²), this was absent in similar samples exposed to increased amounts of pulsing. This study showed that PL-irradiation inactivates C. albicans test strains through a multi-targeted process with no evidence of microbial ability to support cell growth after ≤ 20 pulses. Implications of our findings in terms of application of PL for contact-surface disinfection are discussed.     

Vasculitis and anaphylactoid shock in mice induced by the polysaccharide fraction secreted into culture supernatants by the fungus Candida metapsilosis

The biological effects of Candida metapsilosis water-soluble fraction (CMWS), prepared using a completely synthesized medium, were examined to determine whether CMWS induces vasculitis similar to that seen in Kawasaki disease, and anaphylactoid shock, in mice. It was found that intraperitoneal injection of CMWS induces coronary arteritis and i.v. injection induces acute anaphylactoid shock in mice, similar to Candida albicans water-soluble fraction (CAWS)-induced arteritis and anaphylactoid shock. The mannan structure of the polysaccharide fraction was then analyzed by performing antiserum reactivity tests and nuclear magnetic resonance spectroscopy. The mannan structure was investigated because the present authors have recently found that the mannan moiety within the polysaccharide fraction might be responsible for these pathogenic activities. The structural analysis showed that the mannan structure within CMWS expresses α-mannan residues, but not β-mannan. In addition, the mannan structure of CMWS is quite similar to that of CAWS. The present findings indicate that the polysaccharide fraction from C. metapsilosis, which is mainly composed of mannan, contributes to coronary arteritis and acute shock, and that the mannan structure could be responsible for this pathogenicity.     

碱性pH条件下白念珠菌钙离子通道CCH1和MID1基因对钙内流的影响及Crz1p转录因子对其的调控作用

白念珠菌Candida albicans对环境pH的适应能力与其致病性有密切关系,钙信号转导途径介导许多环境压力的应答并伴随胞内钙离子浓度的瞬间变化。通过构建钙通道基因CCH1和MID1的缺失突变株,在碱性pH条件下,研究其对胞内钙内流的影响以及转录因子Crz1p对CCH1和MID1基因的调控作用。使用二步法PCR介导的基因敲除技术构建cch1Δ/Δ和mid1Δ/Δ突变菌株,利用流式细胞术比较野生型和突变型菌株在碱性pH条件刺激下胞内钙的瞬间变化,进一步构建pPHO89-LacZ重组质粒并利用β-半乳糖苷     

白念珠菌DNA损伤与修复

内外环境中各种因素如电离辐射、紫外辐射、氧化剂、烷化剂等都可以造成白念珠菌DNA的损伤。如果DNA的损伤得不到有效的修复,便会造成突变。白念珠菌的突变率很高,但并不是所有DNA受损伤的细胞都会表现出突变型性状,这跟其自身的修复系统有很大关系,主要包括切除修复、错配修复及双链断裂修复等途径,使得绝大多数损伤能够及时修复,从而维持DNA的完整性与稳定性。白念珠菌DNA的损伤修复可能影响其适应性、药物敏感性等表型,从而给临床感染患者的治疗增加难度。本文主要从白念珠菌DNA损伤的产生,损伤信号的传导识别及损伤修复三方面综述目前的研究进展。