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Auflistung Nach Schlagwort "DNA modification"

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    • Genes and conditions controlling mammalian pre-and post-implantation embryo development 

      Anifandis G., Messini C.I., Dafopoulos K., Messinis I.E. (2015)
      Embryo quality during the in vitro developmental period is of great clinical importance. Experimental genetic studies during this period have demonstrated the association between specific gene expression profiles and the ...

    • Lncrnas as chromatin regulators in cancer: From molecular function to clinical potential 

      Begolli R., Sideris N., Giakountis A. (2019)
      During the last decade, high-throughput sequencing efforts in the fields of transcriptomics and epigenomics have shed light on the noncoding part of the transcriptome and its potential role in human disease. Regulatory ...

    • Loss of heterozygosity in DNA mismatch repair genes in human atherosclerotic plaques 

      Flouris, G. A.; Arvanitis, D. A.; Parissis, J. T.; Arvanitis, D. L.; Spandidos, D. A. (2001)
      To detect the incidence of loss of heterozygosity (LOH) in DNA mismatch repair genes (MMR) occurring in atherosclerosis, fifty human autopsy cases of atherosclerosis were examined for LOH using 19 microsatellite markers, ...

    • Mycobacterial immunomodulation and viral manipulation of neuronal copper efflux in the setting of sporadic Parkinson's disease: A multi – hit, outside – in hypothesis of its pathogenesis 

      Vavougios G.D. (2020)
      Following Braak's hypothesis on the infectious pathogenesis of sporadic Parkinson's disease (sPD), several bacteria and viruses have been investigated as likely culprits. Recent research has focused on neuroinvasive influenza ...

    • Positioning Europe for the EPITRANSCRIPTOMICS challenge 

      Jantsch M.F., Quattrone A., O'Connell M., Helm M., Frye M., Macias-Gonzales M., Ohman M., Ameres S., Willems L., Fuks F., Oulas A., Vanacova S., Nielsen H., Bousquet-Antonelli C., Motorin Y., Roignant J.-Y., Balatsos N., Dinnyes A., Baranov P., Kelly V., Lamm A., Rechavi G., Pelizzola M., Liepins J., Holodnuka Kholodnyuk I., Zammit V., Ayers D., Drablos F., Dahl J.A., Bujnicki J., Jeronimo C., Almeida R., Neagu M., Costache M., Bankovic J., Banovic B., Kyselovic J., Valor L.M., Selbert S., Pir P., Demircan T., Cowling V., Schäfer M., Rossmanith W., Lafontaine D., David A., Carre C., Lyko F., Schaffrath R., Schwartz S., Verdel A., Klungland A., Purta E., Timotijevic G., Cardona F., Davalos A., Ballana E., O'Carroll D., Ule J., Fray R. (2018)
      The genetic alphabet consists of the four letters: C, A, G, and T in DNA and C,A,G, and U in RNA. Triplets of these four letters jointly encode 20 different amino acids out of which proteins of all organisms are built. ...