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Sinteza reagentov za tvorbo površinskih biocidnih prevlek na steklu
ID Borovnik, Laura (Author), ID Hrast Rambaher, Martina (Mentor) More about this mentor... This link opens in a new window, ID Pajk, Stane (Comentor)

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Abstract
Prekomerna in nepravilna uporaba protimikrobnih učinkovin vodi v vedno večjo bakterijsko rezistenco na antibiotike. Glavni razlog za to so bakterijski biofilmi, ki bakterijam nudijo fizično zaščito in olajšan razvoj različnih mehanizmov rezistence. Namesto razkužil in antiseptikov, ki so mnogokrat neučinkoviti, bi lahko razvili površinske biocidne prevleke, ki bi na različne načine preprečevale nastanek biofilmov oziroma pospešile njihovo razpršitev, poleg tega pa bi imele še uničujoče delovanje na bakterije. S takšnim dvojnim delovanjem bi bilo protimikrobno delovanje veliko bolj učinkovito, razvoj bakterijske rezistence pa upočasnjen. V ta namen smo v magistrski nalogi razvili postopke sinteze različnih reagentov za tvorbo površinskih biocidnih prevlek. En del te prevleke bi predstavljal sililni reagent, ki bi bil vezan na steklo, drugi del prevleke pa bi bil biociden del spojine. Biocidne molekule bi predstavljali kationski biocidi in novi zaviralci bakterijske topoizomeraze (NBTI). Reagenti bi vsebovali tudi azidno oziroma alkinsko skupino za potrebe tvorbe prevlek. Kationski biocidi bi razprševali bakterijski biofilm preko interakcij z negativnimi molekulami biofilma in citoplazemske membrane bakterij. Ob stiku z bakterijami bi prišlo do izgube integritete citoplazemske membrane, večje prepustnosti, uhajanja pomembnih citoplazemskih sestavin v okolje in posledične bakterijske smrti. NBTI na drugi strani zavirajo glavno nalogo bakterijskih topoizomeraz tipa II, ki je zmanjšati topološko obremenitev DNA. S tem je onemogočeno pravilno podvajanje in prepisovanje DNA, kar vodi v smrt bakterije. Uspešno smo sintetizirali tri sililne reagente, en kationski biocid in dve spojini z azidnima skupinama, ki sta pripravljeni na pripenjanje različnih biocidnih molekul. Sinteza NBTI je imela prenizek izkoristek, da bi bilo nadaljevanje s to spojino smiselno, sinteza dveh spojin z azidnima skupinama pa je bila neuspešna zaradi nastanka stranskih produktov. Sintetizirane reagente bi v prihodnje kombinirali s klik reakcijami. Gre za hitre in pogojno nezahtevne reakcije, ki imajo velike izkoristke, izolacija produktov pa je preprosta, zato bi lahko v relativno kratkem času tvorili različne kombinacije med alkini in azidi ter testirali biocidno aktivnost prevlek z biološkimi testi.

Language:Slovenian
Keywords:bakterijski biofilm, površinske biocidne prevleke, kationski biocidi, NBTI, klik reakcija
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2024
PID:20.500.12556/RUL-163027 This link opens in a new window
Publication date in RUL:01.10.2024
Views:97
Downloads:996
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Secondary language

Language:English
Title:Synthesis of reagents for the formation of glass surface biocidal coatings
Abstract:
Excessive and incorrect use of antimicrobial agents leads to increasing bacterial resistance to antibiotics. The main reason for this are bacterial biofilms, which provide bacteria with physical protection and facilitate the development of various resistance mechanisms. Instead of disinfectants and antiseptics, which are often ineffective, we could develop surface biocidal coatings that would prevent the formation of biofilms or accelerate their dispersal, and would also have a destructive effect on bacteria. With such a dual action, the antimicrobial action would be much more effective, and the development of bacterial resistance would be slower. For this purpose, we developed the synthesis procedures of various reagents for the formation of surface biocidal coatings. One part of this coating would be a silylating reagent that would be bound to glass, and the other part of the coating would be the biocidal part of the compound. Biocidal molecules would be cationic biocides and new bacterial topoisomerase inhibitors (NBTIs). The reagents would also contain an azide or alkyne group for the purpose of coating formation. Cationic biocides would disperse the bacterial biofilm through interactions with the negative molecules of the biofilm and the cytoplasmic membrane of the bacteria. Upon contact with bacteria, there would be a loss of integrity of the cytoplasmic membrane, increased permeability, leakage of important cytoplasmic components into the environment and consequent bacterial death. NBTIs, on the other hand, inhibit the main task of bacterial topoisomerases type II, which is to reduce topological stress on DNA. This prevents the proper replication and transcription of the DNA, which leads to the death of the bacterium. We have successfully synthesized three silylating reagents, one cationic biocide and two compounds with azide groups, which are ready for attachment of different biocidal molecules. The synthesis of NBTI was in too low a yield to make it worthwhile to proceed with this compound, and the synthesis of two compounds with azide groups was unsuccessful due to the formation of side products. In the future, the synthesized reagents would be combined with click reactions. These are fast and conditionally undemanding reactions that have high yields, and the isolation of the products is simple, so it would be possible to form different combinations between alkynes and azides in a relatively short time and test the biocidal activity of the coatings with biological tests.

Keywords:bacterial biofilm, surface biocidal coatings, cationic biocides, NBTI, click reaction

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