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Πλοήγηση ανά Θέμα "Gene Transfer, Horizontal"

Αποτελέσματα 1-4 από 4

    • Characterisation of a ST100 Staphylococcus epidermidis producing an LnuB nucleotidyltransferase: Evidence for interspecies spread of an lnuB-carrying transposon 

      Papagiannitsis C.C., Sarrou S., Tsilipounidaki K., Malli E., Medvecky M., Hrabak J., Fthenakis G.C., Petinaki E. (2018)
      [No abstract available]

    • Insights into the function and horizontal transfer of isoproturon degradation genes (pdmAB) in a biobed system 

      Storck V., Gallego S., Vasileiadis S., Hussain S., Béguet J., Rouard N., Baguelin C., Perruchon C., Devers-Lamrani M., Karpouzas D.G., Martin-Laurent F. (2020)
      Biobeds, designed to minimize pesticide point source contamination, rely mainly on biodegradation processes. We studied the interactions of a biobed microbial community with the herbicide isoproturon (IPU) to explore the ...

    • Partial 3D gene sequences of Coxsackie viruses reveal interspecies exchanges 

      Bolanaki, E.; Kottaridi, C.; Markoulatos, P.; Kyriakopoulou, Z.; Margaritis, L.; Katsorchis, T. (2007)
      The 3D region of 46 clinical Coxsackievirus strains, primarily belonging to the human enterovirus B species (HEV-B), were analyzed using nucleotide distance matrices and phylogeny software. The conclusions from previously ...

    • Recurrent horizontal transfer identifies mitochondrial positive selection in a transmissible cancer 

      Strakova A., Nicholls T.J., Baez-Ortega A., Ní Leathlobhair M., Sampson A.T., Hughes K., Bolton I.A.G., Gori K., Wang J., Airikkala-Otter I., Allen J.L., Allum K.M., Arnold C.L., Bansse-Issa L., Bhutia T.N., Bisson J.L., Blank K., Briceño C., Castillo Domracheva A., Corrigan A.M., Cran H.R., Crawford J.T., Cutter S.M., Davis E., de Castro K.F., De Nardi A.B., de Vos A.P., Delgadillo Keenan L., Donelan E.M., Espinoza Huerta A.R., Faramade I.A., Fazil M., Fotopoulou E., Fruean S.N., Gallardo-Arrieta F., Glebova O., Gouletsou P.G., Häfelin Manrique R.F., Henriques J.J.G.P., Horta R.S., Ignatenko N., Kane Y., King C., Koenig D., Krupa A., Kruzeniski S.J., Lanza-Perea M., Lazyan M., Lopez Quintana A.M., Losfelt T., Marino G., Martínez Castañeda S., Martínez-López M.F., Masuruli B.M., Meyer M., Migneco E.J., Nakanwagi B., Neal K.B., Neunzig W., Nixon S.J., Ortega-Pacheco A., Pedraza-Ordoñez F., Peleteiro M.C., Polak K., Pye R.J., Ramirez-Ante J.C., Reece J.F., Rojas Gutierrez J., Sadia H., Schmeling S.K., Shamanova O., Sherlock A.G., Steenland-Smit A.E., Svitich A., Tapia Martínez L.J., Thoya Ngoka I., Torres C.G., Tudor E.M., van der Wel M.G., Vițălaru B.A., Vural S.A., Walkinton O., Wehrle-Martinez A.S., Widdowson S.A.E., Zvarich I., Chinnery P.F., Falkenberg M., Gustafsson C.M., Murchison E.P. (2020)
      Autonomous replication and segregation of mitochondrial DNA (mtDNA) creates the potential for evolutionary conflict driven by emergence of haplotypes under positive selection for ‘selfish’ traits, such as replicative ...