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PUBMED FOR HANDHELDS

Journal Abstract Search


144 related items for PubMed ID: 3395111

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  • 4. Phenol degradation and heavy metal tolerance of Antarctic yeasts.
    Fernández PM, Martorell MM, Blaser MG, Ruberto LAM, de Figueroa LIC, Mac Cormack WP.
    Extremophiles; 2017 May; 21(3):445-457. PubMed ID: 28271165
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  • 6. Low-temperature biodegradation of high amounts of phenol by Rhodococcus spp. and basidiomycetous yeasts.
    Margesin R, Fonteyne PA, Redl B.
    Res Microbiol; 2005 May; 156(1):68-75. PubMed ID: 15636749
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  • 8. Biodegradation of phenol and phenol-related compounds by psychrophilic and cold-tolerant alpine yeasts.
    Bergauer P, Fonteyne PA, Nolard N, Schinner F, Margesin R.
    Chemosphere; 2005 May; 59(7):909-18. PubMed ID: 15823324
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  • 9. Hydrocarbon degradation and enzyme activities of cold-adapted bacteria and yeasts.
    Margesin R, Gander S, Zacke G, Gounot AM, Schinner F.
    Extremophiles; 2003 Dec; 7(6):451-8. PubMed ID: 12942349
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  • 14. Habitat-specificity and diversity of culturable cold-adapted yeasts of a cold-based glacier in the Tianshan Mountains, northwestern China.
    Luo B, Sun H, Zhang Y, Gu Y, Yan W, Zhang R, Ni Y.
    Appl Microbiol Biotechnol; 2019 Mar; 103(5):2311-2327. PubMed ID: 30483846
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  • 15. [Sorption of phenol by cellular macromolecules of yeast. Extraction of nucleic substances].
    MASSIN M, LINDENBERG AB.
    J Physiol (Paris); 1961 Mar; 53():419-21. PubMed ID: 13767935
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  • 19. Isolation and test of novel yeast strains with lignin usage capability and phenolic compound resistance.
    Bautista-Guerrero A, Lara-Diaz RA, Pihen V, Bandala ER, Sanchez-Sala JL.
    Microbiologyopen; 2022 Oct; 11(5):e1326. PubMed ID: 36314751
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  • 20. Bioprospection of cold-adapted yeasts with biotechnological potential from Antarctica.
    Martorell MM, Ruberto LAM, Fernández PM, Castellanos de Figueroa LI, Mac Cormack WP.
    J Basic Microbiol; 2017 Jun; 57(6):504-516. PubMed ID: 28272809
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