М. Пащак scite author profile

М. Пащак

2Publications

0Citation Statements Received

17Citation Statements Given

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Ludwik Hirszfeld Institute of Immunology and Experimental Therapy, Polish Academy of Sciences, Institute of Immunology

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Polar Lipids of Ruania Albidiflava, a Novel Member of the Suborder Micrococcineae

Пащак

Каспров

Хуанг

et al. 2009

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Polar liPids of RUANIA ALBIDIFLAVA, a novEl MEMBEr of thE suBordEr MICROCOCCINEAE Ruania albidiflava represents a novel species and new genus within the suborder Micrococcineae in Actinobacteria classis. The aim of the studies was to establish a polar lipid profile of Ruania and to compare it with other representatives of actinobacteria. Additionally, isolation, purification and chemical characteristics of major lipid compounds were elaborated. Major lipids were isolated using column adsorption chromatography and purified by TLC and high performance liquid chromatography. The polar lipids of Ruania were phosphatidylglycerol, diphosphatidylglycerol and two unknown lipids containing sugar and phosphorus. GLC-Ms and methylation analysis of sugar part of major glycolipids revealed the presence of glycerol, inositol; and terminal residues of mannose and galactosamine. Fatty acids were mainly iso and anteiso C15:0 branched. Comparative TLC showed its glycolipid profile of Ruania different from previously reported for Rothia, Arthrobacter, Micrococcus and Propionibacterium, but was similar to Oerskovia which belongs to Micrococcineae suborder.

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Chemotaxonomical Identification of Actinobacterial Strains Isolated From Damp-Affected Office Building

Шпонар

Пащак

Фігел

et al. 2009

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ChEMotaxonoMiCal idEntifiCation of aCtinoBaCtErial strains isolatEd froM daMP-affECtEd offiCE Building Four actinobacterial sporulating strains have been isolated from two damp-affected office buildings. They have been identified as streptomyces sp. (three strains) and cell wall type IV actinobacteria (one strain) by the chemotaxonomical approach. K e y w o r d s: Actinobacteria, Streptomyces, chemotaxonomy, cell wall, indoor air. harmful microbes in indoor environments are a cause of public concern. Bacteria and fungi infest house and office buildings affected by dampness and the environmental conditions and microbial communities undergo continual changes resulting in different microbial populations. Microbial growth on moisture-damaged building materials is commonly associated with adverse health effects in the occupants. Microorganisms, their spores and cell wall components are biologically active agents which may cause and trigger allergy and other respiratory diseases, i.e. chronic airways inflammation [1]. Although the microbial diversity in indoor environment is high, the filamentous and sporulating fungi dominate on indoor microbiota screenings [2, 3]. Recently actinobacteria involved in biological infestation of damp buildings attract increasing interest [4]. Actinobacteria are Gram-positive bacteria, with high G+C content, filamentous microorganisms, majority of which are saprophytic soil and other environmental inhabitants. As common soil organisms they easily colonize water-damaged building materials and may emit toxic-metabolites isolated from the indoor environment of a building where the occupants suffered building-related ill-health symptoms [5]. The aim of present studies was identification of sporulating bacterial strains isolated from wall surface of damp-affected office building in Warsaw (Poland), by means of chemotaxonomical approach. Materials and methods Bacterial strains L1, L2, W3, and W4 were isolated from the wall surface of damp-affected office building in Warsaw, Poland. The isolates were cultivated aerobically on medium "79" in 37 °C for 48 hours. Bacterial biomass was collected by centrifugation in 7000 rpm, after repeated washing

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М. Пащак

Polar Lipids of Ruania Albidiflava, a Novel Member of the Suborder Micrococcineae

Chemotaxonomical Identification of Actinobacterial Strains Isolated From Damp-Affected Office Building

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