00822nas a2200253 4500008004100000022001400041245012400055210006900179490000700248653000700255653000700262100002400269700002700293700002000320700002000340700001700360700002600377700001700403700002700420700001900447700001800466700001600484856006800500 2023 eng d a1664-302X00aAspergillus niger as a cell factory for the production of pyomelanin, a molecule with UV-C radiation shielding activity0 aAspergillus niger as a cell factory for the production of pyomel0 v1410aBF10aMF1 aKoch, Stella, Marie1 aFreidank-Pohl, Carsten1 aSiontas, Oliver1 aCortesao, Marta1 aMota, Afonso1 aRunzheimer, Katharina1 aJung, Sascha1 aRebrošová, Katarína1 aŠiler, Martin1 aMoeller, Ralf1 aMeyer, Vera uhttps://www.frontiersin.org/articles/10.3389/fmicb.2023.123374000777nas a2200241 4500008004100000245011000041210006900151490000700220653000700227653000700234100002100241700002600262700002700288700001800315700002200333700001500355700002300370700001900393700001500412700002200427700001800449856006800467 2023 eng d00aIdentification of staphyloxanthin and derivates in yellow-pigmented Staphylococcus capitis subsp. capitis0 aIdentification of staphyloxanthin and derivates in yellowpigment0 v1410aBF10aMF1 aSiems, Katharina1 aRunzheimer, Katharina1 aRebrošová, Katarína1 aEtzbach, Lara1 aAuerhammer, Alina1 aRehm, Anna1 aSchwengers, Oliver1 aŠiler, Martin1 aSamek, Ota1 aRůžička, Filip1 aMoeller, Ralf uhttps://www.frontiersin.org/articles/10.3389/fmicb.2023.127273400821nas a2200265 4500008004100000022001400041245013400055210006900189300000800258490000700266653000700273653000700280100002500287700002300312700001600335700002100351700001600372700001900388700001500407700002200422700002700444700002000471700002000491856004400511 2023 eng d a2079-637400aSERS-Tags: Selective Immobilization and Detection of Bacteria by Strain-Specific Antibodies and Surface-Enhanced Raman Scattering0 aSERSTags Selective Immobilization and Detection of Bacteria by S a1820 v1310aBF10aMF1 aBenešová, Markéta1 aBernatová, Silvie1 aMika, Filip1 aPokorná, Zuzana1 aJežek, Jan1 aŠiler, Martin1 aSamek, Ota1 aRůžička, Filip1 aRebrošová, Katarína1 aZemánek, Pavel1 aPilát, Zdeněk uhttps://www.mdpi.com/2079-6374/13/2/18200773nas a2200217 4500008004100000022001400041245013400055210006900189260001100258300001100269490000700280653000700287653000700294100002700301700001500328700002200343700002300365700002000388700002200408856012500430 2022 eng d a2235-298800aRaman Spectroscopy-A Novel Method for Identification and Characterization of Microbes on a Single-Cell Level in Clinical Settings0 aRaman SpectroscopyA Novel Method for Identification and Characte cAPR 22 a8664630 v1210aBF10aMF1 aRebrošová, Katarína1 aSamek, Ota1 aKizovský, Martin1 aBernatová, Silvie1 aHolá, Veronika1 aRůžička, Filip uhttps://www.isibrno.cz/cs/raman-spectroscopy-novel-method-identification-and-characterization-microbes-single-cell-level01576nas a2200241 4500008004100000245012300041210006900164300001200233490000700245520085700252653000701109653000701116653000701123100002701130700001901157700001501176700002201191700002301213700001601236700002001252700002001272856004201292 2019 eng d00aIdentification of ability to form biofilm in Candida parapsilosis and Staphylococcus epidermidis by Raman spectroscopy0 aIdentification of ability to form biofilm in Candida parapsilosi a509-5170 v143 a
Aim: Finding rapid, reliable diagnostic methods is a big challenge in clinical microbiology. Raman spectroscopy is an optical method used for multiple applications in scientific fields including microbiology. This work reports its potential in identifying biofilm positive strains of Candida parapsilosis and Staphylococcus epidermidis. Materials & methods: We tested 54 S. epidermidis strains (23 biofilm positive, 31 negative) and 51 C. parapsilosis strains (27 biofilm positive, 24 negative) from colonies on Mueller-Hinton agar plates, using Raman spectroscopy. Results: The accuracy was 98.9% for C. parapsilosis and 96.1% for S. epidermidis. Conclusion: The method showed great potential for identifying biofilm positive bacterial and yeast strains. We suggest that Raman spectroscopy might become a useful aid in clinical diagnostics.
10aBF10aKF10aMF1 aRebrošová, Katarína1 aŠiler, Martin1 aSamek, Ota1 aRůžička, Filip1 aBernatová, Silvie1 aJežek, Jan1 aZemánek, Pavel1 aHolá, Veronika uhttps://doi.org/10.2217/fmb-2018-0297