par Vourekas, Anastassios;Vryzaki, Eleftheria;Toumpeki, Chrisavgi;Stamatopoulou, Vasiliki 
;Monastirli, Alexandra;Tsambaos, Dionysios;Drainas, Denis
Référence Experimental dermatology, 18, 2, page (130-133)
Publication Publié, 2009-02
;Monastirli, Alexandra;Tsambaos, Dionysios;Drainas, DenisRéférence Experimental dermatology, 18, 2, page (130-133)
Publication Publié, 2009-02
Article révisé par les pairs
| Résumé : | Ribonuclease P (RNase P) is ubiquitous and essential Mg(2+)-dependent endoribonuclease that catalyzes the 5'-maturation of transfer RNAs. RNase P and the ribosome are so far the only ribozymes known to be conserved in all kingdoms of life. Eukaryotic RNase P activity has been detected in nuclei, mitochondria and chloroplasts and demonstrates great variability in sequence and subunit composition. In the last few years we have developed methodologies and pursued projects addressing the occurrence, distribution and the potential physiological role of RNase P in human epidermal keratinocytes. In view of the vital importance of lymphocytes for an effective immune system and their successful application after transfection with RNase P-associated external guide sequences in gene therapy, we concerned ourselves with the isolation and characterization of RNase P of peripheral human lymphocytes. We developed a method described herein, that will enable the study of the possible involvement of this ribozyme in the pathogenetic mechanisms of diverse autoimmune, inflammatory and neoplastic cutaneous disorders and may facilitate the further development of RNase P-based technology for gene therapy of infectious and neoplastic dermatoses. |
