Sažetak | Gljivice roda Aspergillus proizvode jedinstvene metabolite od kojih veliki broj ima obećavajuću
farmakološku aktivnost. Ovaj diplomski rad daje pregled sekundarnih metabolita koji su pokazali
značajno antibakterijsko, antivirusno, antifungalno i antitumorsko djelovanje. Sve skupa ovaj rad
pokriva 99 metabolita koji su otkriveni u razdoblju od 2005. do 2019. godine. Među biološki
aktivnim metabolitima s antimirkobnim djelovanjem ističu se preusin (djeluje na gram-pozitivne
bakterije, MRSA i VRE), 14-norpseurotin, 6β,16β-diacetoksi-25-hidroksi-3,7dioksi-29-nordamara-
1,17(20)-dien-21-oička kiselina (djeluju na gram-negativne i gram-pozitivne bakterije), 24-
hidroksilergosta-4,6,8(14),22-tetraen-3-on, kotanin, 4,4-dimetoksi-5,5-dimetil-7,7-oksidikumarin,
ohraceopon A i izoasteltoksin, a klavatustid A i B, ustusoran E, i aspergiolid A istaknuli su se svojim
antitumorskim djelovanjem. Iz tih podataka može se zaključiti da su sekundarni metaboliti gljivica
iz roda Aspergillus dobri modeli za razvoj novih antimikrobnih i antitumorskih lijekova. |
Sažetak (engleski) | Species of the Aspergillus genus are capable of producing unique metabolites, a considerable
number of which display promising pharmacological activity. This diploma thesis gives an overview
of secondary metabolites which showed some considerable antibacterial, antiviral, antifungal or
citotoxic activity. Overall, 99 metabolites which were discovered in the period from 2005 until 2019
are presented. Among all biologically active products the most important ones with antimicrobial
activities are preussin (shows antibacterial activity towards gram-positive bacteria, MRSA, VRE),
14-norpseurotine, 6β,16β-diacetoxy-25-hidroxy-3,7dioxy-29-nordammara-1,17(20)-dien-21-oic
acid, (shows antibacterial activity towards gram-negative and gram-positive bacteria), kotanin, 24-
hidroxylergosta-4,6,8(14),22-tetraen-3-one, 4,4-dimethoxy-5,5-dimethyl-7,7-oxydicoumarin,
ochraceopone A and isoasteltoxin, while clavatustides A, B, ustusorane E, and aspergiolide A
showed significant anticancer activity. From this data, it can be deduced that secondary metabolites
from Aspergillus species could be used as good models for developement of new antimicrobial and
anticancer drugs. |