SILVER(I)-BASED METAL-ORGANIC FRAMEWORKS WITH POTENTIAL ANTIMICROBIAL PROPERTIES
METAL-ORGANSKE UMREŽENE STRUKTURE SREBRA(I) SA POTENCIJALNIM ANTIMIKROBNIM SVOJSTVIMA
Апстракт
Jedan od glavnih svetskih problema u javnom zdravlju predstavlja pojava novih otpornih
sojeva mikroba. Stoga je potreba za novim antimikrobnim agesima pravi izazov. Metalorganske
umrežene strukture (engl. metal-organic frameworks, MOFs) se mogu smatrati
obećavajućim antimikrobnim agensima stoga što njihove neorganske i organske
komponente mogu da obezbede platformu za visoku antimikrobnu aktivnost. Tokom
proteklih godina, nova jedinjenja srebra, uključujući i nove materijale, su se pokazala
kao snažni antimikrobni agensi [1]. Uzimajući ovo u obzir, sintetisana su četiri nova
MOF-a srebra(I) sa derivatima
tiomorfolina i piperazina (Shema
1) koji su okarakterisani
rendgenskom strukturnom
analizom. Antimikrobna aktivnost
je određena na osam bakterijskih
sojeva i tri soja gljivica. Kompleks
4 je pokazao dobru antimikrobnu
aktivnost na svim testiranim
sojevima mikroorganizama.
Resistant microbial strains are continuously emerging which is one of the major
worldwide public health concerns. The need for new antimicrobial agents is a real
challenge. Metal-organic frameworks (MOFs) can be considered as promising
antimicrobial materials because their inorganic and organic components can provide
platforms to generate high potent antimicrobial activity. Over recent years, new silver
compounds, including new materials, have been proposed as potent antimicrobial agents
[1]. Taking this into account, four
new silver-based MOFs were
synthesized (Scheme 1), using
thiomorpholine and piperazine
derivatives as ligands, and
characterized by X-ray diffraction
analysis. The antimicrobial
activity was evaluated on eight
bacterial and three fungi strains.
Complex 4 has good antimicrobial
activity on all studied
microorganisms.
Кључне речи:
MOF, antimicrobial, silverИзвор:
24th CONFERENCE OF THE SERBIAN CRYSTALLOGRAPHIC SOCIETY, Vršac, Serbia., 2017, 16-17Издавач:
- Serbian Crystallographic Society
Институција/група
Institut za multidisciplinarna istraživanjaTY - CONF AU - Klisuric, Olivera AU - Filipović, Nenad AU - Malešević, Aleksandar AU - Todorović, Tamara PY - 2017 UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/2292 AB - Jedan od glavnih svetskih problema u javnom zdravlju predstavlja pojava novih otpornih sojeva mikroba. Stoga je potreba za novim antimikrobnim agesima pravi izazov. Metalorganske umrežene strukture (engl. metal-organic frameworks, MOFs) se mogu smatrati obećavajućim antimikrobnim agensima stoga što njihove neorganske i organske komponente mogu da obezbede platformu za visoku antimikrobnu aktivnost. Tokom proteklih godina, nova jedinjenja srebra, uključujući i nove materijale, su se pokazala kao snažni antimikrobni agensi [1]. Uzimajući ovo u obzir, sintetisana su četiri nova MOF-a srebra(I) sa derivatima tiomorfolina i piperazina (Shema 1) koji su okarakterisani rendgenskom strukturnom analizom. Antimikrobna aktivnost je određena na osam bakterijskih sojeva i tri soja gljivica. Kompleks 4 je pokazao dobru antimikrobnu aktivnost na svim testiranim sojevima mikroorganizama. AB - Resistant microbial strains are continuously emerging which is one of the major worldwide public health concerns. The need for new antimicrobial agents is a real challenge. Metal-organic frameworks (MOFs) can be considered as promising antimicrobial materials because their inorganic and organic components can provide platforms to generate high potent antimicrobial activity. Over recent years, new silver compounds, including new materials, have been proposed as potent antimicrobial agents [1]. Taking this into account, four new silver-based MOFs were synthesized (Scheme 1), using thiomorpholine and piperazine derivatives as ligands, and characterized by X-ray diffraction analysis. The antimicrobial activity was evaluated on eight bacterial and three fungi strains. Complex 4 has good antimicrobial activity on all studied microorganisms. PB - Serbian Crystallographic Society C3 - 24th CONFERENCE OF THE SERBIAN CRYSTALLOGRAPHIC SOCIETY, Vršac, Serbia. T1 - SILVER(I)-BASED METAL-ORGANIC FRAMEWORKS WITH POTENTIAL ANTIMICROBIAL PROPERTIES T1 - METAL-ORGANSKE UMREŽENE STRUKTURE SREBRA(I) SA POTENCIJALNIM ANTIMIKROBNIM SVOJSTVIMA EP - 17 SP - 16 UR - https://hdl.handle.net/21.15107/rcub_rimsi_2292 ER -
@conference{ author = "Klisuric, Olivera and Filipović, Nenad and Malešević, Aleksandar and Todorović, Tamara", year = "2017", abstract = "Jedan od glavnih svetskih problema u javnom zdravlju predstavlja pojava novih otpornih sojeva mikroba. Stoga je potreba za novim antimikrobnim agesima pravi izazov. Metalorganske umrežene strukture (engl. metal-organic frameworks, MOFs) se mogu smatrati obećavajućim antimikrobnim agensima stoga što njihove neorganske i organske komponente mogu da obezbede platformu za visoku antimikrobnu aktivnost. Tokom proteklih godina, nova jedinjenja srebra, uključujući i nove materijale, su se pokazala kao snažni antimikrobni agensi [1]. Uzimajući ovo u obzir, sintetisana su četiri nova MOF-a srebra(I) sa derivatima tiomorfolina i piperazina (Shema 1) koji su okarakterisani rendgenskom strukturnom analizom. Antimikrobna aktivnost je određena na osam bakterijskih sojeva i tri soja gljivica. Kompleks 4 je pokazao dobru antimikrobnu aktivnost na svim testiranim sojevima mikroorganizama., Resistant microbial strains are continuously emerging which is one of the major worldwide public health concerns. The need for new antimicrobial agents is a real challenge. Metal-organic frameworks (MOFs) can be considered as promising antimicrobial materials because their inorganic and organic components can provide platforms to generate high potent antimicrobial activity. Over recent years, new silver compounds, including new materials, have been proposed as potent antimicrobial agents [1]. Taking this into account, four new silver-based MOFs were synthesized (Scheme 1), using thiomorpholine and piperazine derivatives as ligands, and characterized by X-ray diffraction analysis. The antimicrobial activity was evaluated on eight bacterial and three fungi strains. Complex 4 has good antimicrobial activity on all studied microorganisms.", publisher = "Serbian Crystallographic Society", journal = "24th CONFERENCE OF THE SERBIAN CRYSTALLOGRAPHIC SOCIETY, Vršac, Serbia.", title = "SILVER(I)-BASED METAL-ORGANIC FRAMEWORKS WITH POTENTIAL ANTIMICROBIAL PROPERTIES, METAL-ORGANSKE UMREŽENE STRUKTURE SREBRA(I) SA POTENCIJALNIM ANTIMIKROBNIM SVOJSTVIMA", pages = "17-16", url = "https://hdl.handle.net/21.15107/rcub_rimsi_2292" }
Klisuric, O., Filipović, N., Malešević, A.,& Todorović, T.. (2017). SILVER(I)-BASED METAL-ORGANIC FRAMEWORKS WITH POTENTIAL ANTIMICROBIAL PROPERTIES. in 24th CONFERENCE OF THE SERBIAN CRYSTALLOGRAPHIC SOCIETY, Vršac, Serbia. Serbian Crystallographic Society., 16-17. https://hdl.handle.net/21.15107/rcub_rimsi_2292
Klisuric O, Filipović N, Malešević A, Todorović T. SILVER(I)-BASED METAL-ORGANIC FRAMEWORKS WITH POTENTIAL ANTIMICROBIAL PROPERTIES. in 24th CONFERENCE OF THE SERBIAN CRYSTALLOGRAPHIC SOCIETY, Vršac, Serbia.. 2017;:16-17. https://hdl.handle.net/21.15107/rcub_rimsi_2292 .
Klisuric, Olivera, Filipović, Nenad, Malešević, Aleksandar, Todorović, Tamara, "SILVER(I)-BASED METAL-ORGANIC FRAMEWORKS WITH POTENTIAL ANTIMICROBIAL PROPERTIES" in 24th CONFERENCE OF THE SERBIAN CRYSTALLOGRAPHIC SOCIETY, Vršac, Serbia. (2017):16-17, https://hdl.handle.net/21.15107/rcub_rimsi_2292 .