Increase of xylitol production rate by controlling redox potential in Candida parapsilosis

The effect of redox potential on xylitol production by Candida parapsilosis was investigated. The redox potential was found to be useful for monitoring the dissolved oxygen (DO) level in culture media, especially when the DO level was low. An increase in the agitation speed in a 5 L fermentor resulted in an increased culture redox potential as well as enhanced cell growth. Production of xylitol was maximized at a redox potential of 100 mV. As the initial cell concentration increased from 8 g/L to 30 g/L, the volumetric productivity of xylitol increased from 1.38 g/L. h to 4.62 g/L. h. A two-stage xylitol production strategy was devised, with stage 1 involving rapid production of cells under well-aerated conditions, and stage 2 involving cultivation with reduced aeration such that the culture redox potential was 100 mV. Using this technique, a final xylitol concentration of 180 g/L was obtained from a culture medium totally containing 254.5 g/L xylose in a 3,000 L pilot scale fermentor after 77 h fermentation. The volumetric productivity of xylitol during the fermentation was 2.34 g/L. h.     

Fungemia by Candida pelliculosa (Pichia anomala) in a Neonatal Intensive Care Unit: A Possible Clonal Origin

Neonatal candidemia can occur, however, infections caused by Candida pelliculosa are rare. Here, we describe an outbreak of candidemia caused by C. pelliculosa among babies hospitalized in a neonatal intensive care unit.     

Candida parapsilosis: A versatile biocatalyst for organic oxidation-reduction reactions

This review highlights the importance of the biocatalyst, Candida parapsilosis for oxidation and reduction reactions of organic compounds and establishes its versatility to generate a variety of chiral synthons. Appropriately designed reactions using C. parapsilosis effect efficient catalysis of organic transformations such as deracemization, enantioselective reduction of prochiral ketones, imines, and kinetic resolution of racemic alcohols via selective oxidation. This review includes the details of these biotransformations, catalyzed by whole cells (wild type and recombinant strains), purified enzymes (oxidoreductases) and immobilized whole cells of C. parapsilosis. The review presents a bioorganic perspective as it discusses the chemo, regio and stereoselectivity of the biocatalyst along with the structure of the substrates and optical purity of the products. Fermentation scale biocatalysis using whole cells of C. parapsilosis for several biotransformations to synthesize important chiral synthons/industrial chemicals is included. A comparison of C. parapsilosis with other whole cell biocatalysts for biocatalytic deracemization and asymmetric reduction of carbonyl and imine groups in the synthesis of a variety of enantiopure products is presented which will provide a basis for the choice of a biocatalyst for a desired organic transformation. Thus, a wholesome perspective on the present status of C. parapsilosis mediated organic transformations and design of new reactions which can be considered for large scale operations is provided. Taken together, C. parapsilosis can now be considered a ‘reagent’ for the organic transformations discussed here.     

A case of recurrent episodes of Candida parapsilosis fungemia

Candida species is the fourth most commonly isolated organism in blood stream infections in the hospital setting. Patients with candidemia frequently succumb to this infection. For those that survive an initial candidemia, an increasing number of cases of breakthrough or recurrent candidemias have been reported in the literature. We report three episodes of C. parapsilosis fungemia in a cancer patient. Molecular testing was performed and confirmed that all these episodes occurring within an eight-month period were caused by the same organism. The incidence of recurrent candidemia is likely to increase in the near future. Studies and therapeutic interventions for patients at risk for recurrent candidemias are warranted.     

Survival of Candida parapsilosis yeast in olive oil

Candida parapsilosis is a human opportunistic pathogen yeast isolated from different habitats like animals, man, pickled cucumber, fruit juices, and water. Recent studies have demonstrated that C. parapsilosis can survive in olive oil for very long periods even exceeding 24 months. The survival of two strains of C. parapsilosis named DAPES 1890 and 1892, previously isolated from extra virgin olive oil, was influenced by the state of hydration of the cells and the polyphenols concentration of olive oil. When the cells of the two strains of C. parapsilosis were inoculated under a liophilized form into olive oil containing 45–312 mg/kg of total polyphenols, their survival in some olive oil samples reached approximately 18 months. However, if the above-mentioned inoculum was rehydrated with 1 % of distilled water, then the survival of both yeast strains in some samples of oil exceeded 24 months. The two yeast strains, recovered from the olive oil samples after 24 months of storage, showed, under SEM, spherical shapes with and without buds according to whether the inoculum was made up of rehydrated or lyophilized cells. The survival of all the C. parapsilosis strains was also negatively influenced by the polyphenols concentration of the olive oil samples inoculated both with lyophilized and rehydrated yeast cells. In the oily habitat, the polyphenols sorption to the C. parapsilosis yeast surface was observed, and during storage the polyphenols reacted with the yeast cell walls according to their concentration in the inoculated olive oil.     

Candida glabrata, Candida parapsilosis and Candida tropicalis: biology, epidemiology, pathogenicity and antifungal resistance

The incidence of infections caused by Candida species (candidosis) has increased considerably over the past three decades, mainly due to the rise of the AIDS epidemic, an increasingly aged population, higher numbers of immunocompromised patients and the more widespread use of indwelling medical devices. Candida albicans is the main cause of candidosis; however, non-C. albicans Candida (NCAC) species such as Candida glabrata, Candida tropicalis and Candida parapsilosis are now frequently identified as human pathogens. The apparent increased emergence of these species as human pathogens can be attributed to improved identification methods and also associated with the degree of diseases of the patients, the interventions that they were subjected and the drugs used. Candida pathogenicity is facilitated by a number of virulence factors, most importantly adherence to host surfaces including medical devices, biofilm formation and secretion of hydrolytic enzymes (e.g. proteases, phospholipases and haemolysins). Furthermore, despite extensive research to identify pathogenic factors in fungi, particularly in C. albicans, relatively little is known about NCAC species. This review provides information on the current state of knowledge on the biology, identification, epidemiology, pathogenicity and antifungal resistance of C. glabrata, C. parapsilosis and C. tropicalis.     

Virulence of Candida parapsilosis, Candida orthopsilosis, and Candida metapsilosis in reconstituted human tissue models

Candida parapsilosis is an increasingly important human pathogen. To study the interactions of C. parapsilosis with human tissues, we evaluated the effects of the CBS 604 type strain and three different clinical isolates on reconstituted human oral epithelial and epidermal tissues. The newly described species Candida orthopsilosis and Candida metapsilosis were also examined in these models. Microscopy of reconstituted tissues infected with yeast cells revealed severe attenuation, morphological changes and cellular damage. C. orthopsilosis caused damage similar to C. parapsilosis isolates, whereas C. metapsilosis was less virulent. To further quantitate tissue damage, we measured lactate dehydrogenase (LDH) in the culture supernatant. The relative LDH measurements correlated with our histopathological observations. We also examined the effect of the lipase inhibitor Ebelactone B and proteinase inhibitor Pepstatin A, to establish the utility of this model for studying factors of C. parapsilosis virulence. Both Ebelactone B and Pepstatin A reduced the destruction of epidermal and epithelial tissues. Our data show that reconstituted human tissues are extremely useful for modeling host interactions with C. parapsilosis and for studying fungal virulence factors.     

Fungemia por Candida lipolytica: a propósito de 2 casos

Candida lipolytica has rarely been reported as a human pathogen. We observed two cases of fungemia caused by C. lipolytica, one of them in a 12-year-old child with cystic pancreatic fibrosis in advanced phase and another in a 86-year-old woman who presented vesical neoformation with peritoneal fibrosis, bilateral hydronephrosis and recurrent urinary tract infections. After antifungal treatment and catheter removal, the fungemia appeared to be finished and blood cultures were negative.     

Systematics of yeast species in the Candida parapsilosis group

Summary The systematics ofCandida species that may or may not ferment carbohydrates and which assimilate trehalose, xylose, and mannitol, but do not assimilate lactose, melibiose, raffinose, inositol, dulcitol, or KNO₃ were examined. Included were:C. albicans, C. albicans var.stellatoidea, C. diddensii, C. bogoriensis, C. claussenii, C. lusilaniae, C. natalensis, C. obtusa, C. oregonensis, C. parapsilosis, C. parapsilosis var.querci, C. polymorpha, C. pulcherrima. C. reukaufii, C. solani, C. tropicalis, C. tropicalis var.lambica andC. viswanathii. The species were delimited and a basis for separation established.Contribution No. 800 from the Institute of Marine Science, University of Miami.This material was developed from a portion of a dissertation submitted in partial fulfillment of the requirements for the Ph. D. degree at the University of Miami, Coral Gables, Florida.Present address: Dept. of Food Science & Technology, University of California at Davis.     

The second respiratory chain of Candida parapsilosis: a comprehensive study

The yeast C. parapsilosis CBS7157 is strictly dependent on oxidative metabolism for growth since it lacks a fermentative pathway. It is nevertheless able to grow on high glucose concentrations and also on a glycerol medium supplemented with antimycin A or drugs acting at the level of mitochondrial protein synthesis. Besides its normal respiratory chain C. parapsilosis develops a second electron transfer chain antimycin A-insensitive which allows the oxidation of cytoplasmic NAD(P)H resulting from glycolytic and hexose monophosphate pathways functioning through a route different from the NADH-coenzyme Q oxidoreductase described in S. cerevisiae or from the alternative pathways described in numerous plants and microorganisms. The second respiratory chain of C. parapsilosis involves 2 dehydrogenases specific for NADH and NADPH respectively, which are amytal and mersalyl sensitive and located on the outer face of the inner membrane. Since this antimycin A-insensitive pathway is fully inhibited by myxothiazol, it was hypothesized that electrons are transferred to a quinone pool that is different from the classical coenzyme Q-cytochrome b cycle. Two inhibitory sites were evidenced with myxothiazol, one related to the classical pathway, the other to the second pathway and thus, the second quinone pool could bind to a Q-binding protein at a specific site. Elimination of this second pool leads to a fully antimycin A-sensitive NADH oxidation, whereas its reincorporation in mitochondria allows recovery of an antimycin A-insensitive, myxothiazol sensitive NADH oxidation. The third step in this second respiratory chain involves a specific pool of cytochrome c which can deliver electrons either to a third phosphorylation site or to an alternative oxidase, cytochrome 590. This cytochrome is inhibited by high cyanide concentrations and salicylhydroxamates.     

Enzymatic differentiation of Candida parapsilosis from other Candida spp. in a membrane filtration test

A previously reported enzyme assay on a membrane filter using 4-methylumbelliferyl (4-MU)-N-acetyl-beta-D-galactosaminide, -phosphate and -pyrophosphate as substrates for the differentiation of four Candida spp. has been extended to Candida parapsilosis. The substrate 4-MU-beta-D-glucoside was hydrolyzed by 28 test strains of this species but to a variable extent by seven other yeasts also. For a full enzymatic differentiation of C. parapsilosis from other medical yeasts, a battery of six reactions was required. Of 71 C. parapsilosis positive clinical samples, 4.2% gave a false negative result due to overgrowth by Candida albicans. The present assay is more rapid than a described spectrofluorometric determination of beta-D-glucosidase in a broth, i.e., 9-11 h versus up to >48 h.     

Body Mass Index and Mortality in Korean Intensive Care Units: A Prospective Multicenter Cohort Study

Background

The level of body mass index (BMI) that is associated with the lowest mortality in critically ill patients in Asian populations is uncertain. We aimed to examine the association of BMI with hospital mortality in critically ill patients in Korea.

Methods

We conducted a prospective multicenter cohort study of 3,655 critically ill patients in 22 intensive care units (ICUs) in Korea. BMI was categorized into five groups: <18.5, 18.5 to 22.9, 23.0 to 24.9 (the reference category), 25.0 to 29.9, and ≥30.0 kg/m².

Results

The median BMI was 22.6 (IQR 20.3 to 25.1). The percentages of patients with BMI<18.5, 18.5 to 22.9, 23.0 to 24.9, 25.0 to 29.9, and ≥30.0 were 12, 42.3, 19.9, 22.4, and 3.3%, respectively. The Cox-proportional hazard ratios with exact partial likelihood to handle tied failures for hospital mortality comparing the BMI categories <18.5, 18.5 to 22.9, 25.0 to 29.9, and ≥30.0 with the reference category were 1.13 (0.88 to 1.44), 1.03 (0.84 to 1.26), 0.96 (0.76 to 1.22), and 0.68 (0.43 to 1.08), respectively, with a highly significant test for trend (p = 0.02).

Conclusions

A graded inverse association between BMI and hospital mortality with a strong significant trend was found in critically ill patients in Korea.     

Efficiency of oxidative phosphorylation in continous cultures of Candida parapsilosis.

By using a gas balance technique, the effective oxidative phosphorylation ratio in glucose-limited continuous cultures of Candida parapsilosis was calculated to be 2.4 +/- 0.2. When this value was used, the molar growth yield with respect to adenosine 5'-triphosphate was found to be 10 g of cells produced per mol of ATP.     

High-level expression of Candida parapsilosis lipase/acyltransferase in Pichia pastoris

Candida parapsilosis has been previously shown to produce a lipase/acyltransferase (EC 3.1.1.3) that preferentially catalyses transfer reactions such as alcoholysis over hydrolysis in the presence of suitable nucleophiles other than water, even in aqueous media (aw > 0.9 ). This enzyme has been shown to belong to a new family of lipases. The present work describes the cloning of the gene coding for this lipase/acyltransferase in the yeast Pichia pastoris and the heterologous high-level expression of the recombinant enzyme. The lipase/acyltransferase gene, in which the sequence encoding the signal peptide was replaced by that of the alpha-factor of Saccharomyces cerevisiae, was placed under the control of the methanol inducible promoter of the alcohol oxidase 1 gene (AOX1). A transformed P. pastoris clone, containing five copies of the lipase/acyltransferase gene, was selected for the production of recombinant enzyme. The fed-batch culture supernatant contained 5.8 gl(-1) (weighted) of almost pure recombinant lipase/acyltransferase displaying the same catalytic behavior as the original enzyme.     

近平滑念珠菌ERG 11基因编码区的克隆及生物信息学分析

目的克隆、测序近平滑念珠菌ERG11基因的编码区序列并进行生物信息学分析。方法运用生物信息学的方法 ,通过与白念珠菌ERG11基因碱基序列同源性比对,在近平滑念珠菌基因组(www.sanger.ac.uk/sequencing/Candida/pa-rapsilosis/)中寻找可能的ERG11基因序列(CpERG11),并据此序列设计引物,经PCR扩增近平滑念珠菌标准株(ATCC22019)的ERG11基因片段,产物经电泳、纯化、克隆到质粒prG-AMAI-NotI中,转染DH10B大肠杆菌细胞,并酶切鉴定筛选阳性克隆测序分析。结果近平滑念珠菌ERG11编码区由1569个碱基组成,编码一段含522个氨基酸的多肽。近平滑念珠菌ERG11的编码区序列与白念珠菌、热带念珠菌、光滑念珠菌、酿酒酵母菌ERG11基因的同源性分别为74%、75%、65%、64%。该近平滑念珠菌ERG11的编码区为唑类药物作用靶酶基因。结论成功克隆、测序、并生物信息学分析近平滑念珠菌ERG11基因的编码区序列,为进一步的功能研究奠定基础。     

The reduction of xylose to xylitol by Candida guilliermondii and Candida parapsilosis: Incidence of oxygen and pH

Summary The ability of C. guilliermondii and C. parapsilosis to ferment xylose to xylitol was evaluated under different oxygen transfer rates in order to enhance the xylitol yield. In C. guilliermondii, a maximal xylitol yield of 0.66 g/g was obtained when oxygen transfer rate was 2.2 mmol/l.h. Optimal conditions to produce xylitol by C. parapsilosis (0.75 g/g) arose from cultures at pH 4.75 with 0.4 mmoles of oxygen/l.h. The response of the yeasts to anaerobic conditions has shown that oxygen was required for xylose metabolism.Nomenclature max maximum specific growth rate (per hour) - qSmax maximum specific rate of xylose consumption (g xylose per g dry biomass per hour) - qpmax maximum specific productivity of xylitol (g xylitol per g dry biomass per hour) - Qp average volumetric productivity of xylitol (g xylitol per liter per hour) - Y_P/S xylitol yield (g xylitol per g substrate utilized) - Y_P'/S glycerol yield (g glycerol per g substrate utilized) - Y_X/S biomass yield (g dry biomass per g substrate utilized)