Dr. Alexander Galushko
Department of Microbial Ecology
Faculty Center of Ecology
Faculty of Life Sciences
University of Vienna
Althanstr. 14
A-1090 Wien
Austria
 
phone: +43 1 4277 57315
fax: +43 1 4277 54389
email:
 
Publications in peer reviewed journals
  1. Gittel A, Seidel M, Kuever J, Galushko AS, Cypionka H, Könneke M.. 2010. Desulfopila inferna sp. nov., a sulfate-reducing bacterium isolated from the subsurface of a tidal sand-flat. Int J Syst Evol Microbiol 60: 1626-1630.
  2. Musat F, Galushko AS, Jacob J, Widdel F, Kube M, Reinhardt R, Wilkes H, Schink S, Rabus R. 2009. Anaerobic degradation of naphthalene and 2-methylnaphthalene by strains of marine sulfate-reducing bacteria. Environ. Microbiol. 11: 209-219.
     Full text    PUBMED
  3. Hattori S, Galushko AS, Kamagata Y, Schink B. 2005. Operation of the CO dehydrogenase/acetyl-CoA pathway both in acetate oxidation and acetate formation by the syntrophically acetate-oxidizing bacterium Thermoacetogenium phaeum. J. Bacteriol. 187: 3471-3476.
     PUBMED
  4. Galushko AS, Kiesele-Lang U, Kappler A. 2003. Degradation of 2-methylnaphthalene by a sulfate-reducing enrichment culture of mesophilic freshwater bacteria. Polycyclic Aromatic Compounds 23: 207-218.
  5. Kaden J, Galushko AS, Schink B. 2002. Cysteine-mediated electron transfer in syntrophic acetate oxidation by cocultures of Geobacter sulfurreducens and Wolinella succinogenes. Arch. Microbiol. 178: 53-58.
     Full text    PUBMED
  6. Kuever J, Könneke M, Galushko AS, Drzyzga O. 2001. Reclassification of Desulfobacterium phenolicum as Desulfobacula phenolica comb. nov and description of strain Sax(T) as Desulfotignum balticum gen. nov., sp nov. Int. J. Syst. Evol. Microbiol. 51: 171-177.
     PUBMED
  7. Muller JA, Galushko AS, Kappler A, Schink B. 2001. Initiation of anaerobic degradation of p-cresol by formation of 4-hydroxybenzylsuccinate in Desulfobacterium cetonicum J. Bacteriol. 183: 752-757.
     PUBMED
  8. Galushko AS, Schink B. 2000. Oxidation of acetate through reactions of the citric acid cycle by Geobacter sulfurreducens in pure culture and in syntrophic coculture Arch. Microbiol. 174: 314-321.
     Full text    PUBMED
  9. Galushko AS, Minz D, Schink B, Widdel F. 1999. Anaerobic degradation of naphthalene by a pure culture of a novel type of marine sulphate-reducing bacterium. Environ. Microbiol. : 415-420.
     Full text    PUBMED
  10. Muller JA, Galushko AS, Kappler A, Schink B. 1999. Anaerobic degradation of m-cresol by Desulfobacterium cetonicum is initiated by formation of 3-hydroxybenzylsuccinate. Arch. Microbiol. 172: 287-294.
     Full text    PUBMED
  11. Vainshtein MB, Gogotova GI, Galushko AS. 1996. Grouping of sulfate-reducing bacteria by spectral properties of cytochrome c. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 65: 140-143.
  12. Galushko AS, Rozanova EP. 1996. Sulfidogenic oxidation of acetate by a syntrophic association of anaerobic mesophilic bacteria. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 65: 134-139.
  13. Galushko AS, Mikulinskaya OV, Laurinavichyus KS, Obraztsova Aya, Akimenko VK. 1996. Periplasmic location of methacrylate reductase in cells of the strictly anaerobic bacterial strain AM-1. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 65: 432-435.
  14. Shtarkman NB, Obraztsova AYa, Laurinavichyus KS, Galushko AS, Akimenko VK. 1995. Conversion of (meth)acrylic acids to methane granular sludge: initiation by specific anaerobic microflora. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 64: 225-228.
  15. Galushko AS, Obraztsova Aya, Shtarkman NB, Laurinavichyus KS, Akimenko VK. 1994. An anaerobic acetate-oxidizing bacterium capable of transforming metacrylic acid. Dokl. Ross. Acad. Sci. (in Russian) 335: 382-384.
  16. Galushko AS, Ivanova AE, Rozanova EP. 1993. Sulfate reduction in waters injected in oil strata. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 62: 653-656.
  17. Rozanova EP, Galushko AS, Ivanova AE. 1991. Distribution of sulfate-reducing bacteria utilizing lactate and fatty acids in anaerobic ecotopes of flooded petroleum reservoirs. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 60: 251-256.
  18. Galushko AS, Rozanova EP. 1991. Desulfobacterium cetonicum sp. nov. - a sulfate-reducing bacterium which oxidizes fatty acids and ketones. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 60: 742-746.
  19. Galushko AS, Ivanova AE. 1989. Methane oxidation in the near-bottom zone of an injection well of the Apsheron oil-bearing stratum. Microbiology (Mikrobiologiya (USSR) in Russian) 58: 348-349.
  20. Rozanova EP, Galushko AS. 1989. Microflora of water of bacterial filters in the bottom-hole zone of injection wells in an oil reservoir under stagnant conditions. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 58: 533-537.
  21. Rozanova EP, Nazina TN, Galushko AS. 1988. Isolation of a new genus of sulfate-reducing bacteria and description of a new species of this genus, Desulfomicrobium apsheronum gen. nov., sp. nov. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 57: 514-520.
  22. Galushko AS. 1987. Hydrogen sulfide production by Desulfovibrio desulfuricans in an association with methane-oxidizing bacteria. Microbiology (Engl. Transl. Mikrobiologiya (Russia)) 56: 549-551.
  23. Rozanova EP, Galushko AS. 1987. Formate production by Methylosinus trichosporium and its utilization by Desulfovibrio desulfuricans. Microbiology (Mikrobiologiya (USSR) in Russian) 56: 886-887.

Book chapters and other publications
  1. Widdel F, Knittel K, Galushko AS. 2010. Anaerobic hydrocarbon-degrading microorganisms: an overview. In Handbook of hydrocarbon and lipid microbiology. Part 19., pp. 1997-2021. (Timmis, K.N., ed.). Springer, Berlin, Heidelberg.
  2. Widdel F, Musat F, Knittel K, Galushko AS. 2007. Anaerobic degradation of hydrocarbons with sulphate as electron acceptor. In Sulphate-Reducing Bacteria: Environmental and Engineered Systems, pp. 265-303. (L.L. Barton, W.A. Hamilton, ed.). Cambridge University Press.

 Back