Fialová, S.B., Kello, M., Čoma, M., ...Zachar, V., Lukáč, M.

Molecules, 2019, 24(6), 1078

Drobna, E., Gazdag, Z., Culakova, H., ...Pesti, M., Subik, J.

FEMS Yeast Research, 2012, 12(8), pp. 958–968

Drobná, E., Rauová, D., Májeková, H., Greif, G., Mikuš, P.

Journal of Food and Nutrition Research, 2017, 56(3), pp. 255–264

Sidorova, M., Drobna, E., Dzugasova, V., Hikkel, I., Subik, J.

Drobná, E., Bialková, A., Šubík, J.

Folia Microbiologica, 2008, 53(4), pp. 275–287

Fialová, S.B., Kello, M., Čoma, M., ...Zachar, V., Lukáč, M.

Molecules, 2019, 24(6), 1078

Kiňová Sepová, H., Florová, B., Bilková, A., Drobná, E., Březina, V.

Monatshefte fur Chemie, 2018, 149(5), pp. 893–899

Drobná, E., Rauová, D., Májeková, H., Greif, G., Mikuš, P.

Journal of Food and Nutrition Research, 2017, 56(3), pp. 255–264

Praktické cvičenia z mikrobiológie pre farmaceutov Eva Drobná, Martina Hrčka Dubničková, Gabriela Greifová

Vykazovacie obdobie CREPČ2021Kategória EPCBCI Skriptá a učebné textyVyd. údajeBratislava : Farmaceutická fakulta UK , 2021Vydanie1. vyd.Rozsah174 s. [8,08 AH] [online]ISBN978-80-223-5123-2

Drobná, E., Rauová, D., Májeková, H., Greif, G., Mikuš, P.

Journal of Food and Nutrition Research, 2017, 56(3), pp. 255–264

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2) Royan, M., Seighalani, R., Mortezaei, F., Pourebrahim, M. In vitro assessment of safety and functional probiotic properties of Lactobacillus mucosae strains isolated from Iranian native ruminants intestine (2021) Italian Journal of Animal Science, 20 (1), pp. 1187-1200. DOI: 10.1080/1828051X.2021.1947908

3)Emadi, A., Eslami, M., Yousefi, B., Abdolshahi, A. In vitro strain specific reducing of aflatoxin B1 by probiotic bacteria: a systematic review and meta-analysis (2021) Toxin Reviews, . DOI: 10.1080/15569543.2021.1929323

4) Wang, J.P., Lin, L., Jiang, Q.R., Huang, W.L., Liu, N. Probiotics and clay detoxifier protected growth performance and intestinal barrier of lambs fed diet contaminated with aflatoxin B1, (2019) Indian Journal of Animal Sciences, 89 (6), pp. 658-662. Cited 5 times.

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Overexpression of the YAP1, PDE2, and STB3 genes enhances the tolerance of yeast to oxidative stress induced by 7-chlorotetrazolo[5,1-c]benzo[1,2,4]triazineDrobna E., Gazdag Z., Culakova H., Dzugasova V., Gbelska Y., Pesti M., Subik J.

(2012) FEMS Yeast Research, 12 (8) , pp. 958-968.

1)Xiao, Y., Wang, Z., Sun, W., Luan, Y., Piao, M., Deng, Y. Characterization and formation mechanisms of viable, but putatively non-culturable brewer's yeast induced by isomerized hop extract (2022) LWT, 155, art. no. 112974, DOI: 10.1016/j.lwt.2021.112974

2) Li, C., Chen, Y., Zhang, M., Chen, Y., Tian, Y., Wang, Y. Heterologous Expression, Purification and Enzymatic Analysis of Candida albicans Cyclic Nucleotide Phosphodiesterase 2 [Article@白假丝酵母环核苷酸磷酸二酯酶2的异源表达, 纯化与酶学特性分析] (2020) Shipin Kexue/Food Science, 41 (22), pp. 82-87. DOI: 10.7506/spkx1002-6630-20191012-092

3) Vamvakas, S.-S., Kapolos, J. Factors affecting yeast ethanol tolerance and fermentation efficiency (2020) World Journal of Microbiology and Biotechnology, 36 (8), art. no. 114, . Cited 6 times DOI: 10.1007/s11274-020-02881-8

4) Das, S., Vörös-Horváth, B., Bencsik, T., Micalizzi, G., Mondello, L., Horváth, G., Koszegi, T., Széchenyi, A. Antimicrobial activity of different artemisia essential oil formulations (2020) Molecules, 25 (10), art. no. 2390, . Cited 2 times. DOI: 10.3390/molecules25102390

5) Yi, D.G., Kim, M.J., Choi, J.E., Lee, J., Jung, J., Huh, W.-K., Chung, W.-H. Yap1 and Skn7 genetically interact with Rad51 in response to oxidative stress and DNA double-strand break in Saccharomyces cerevisiae (2016) Free Radical Biology and Medicine, 101, pp. 424-433. Cited 13 times, DOI: 10.1016/j.freeradbiomed.2016.11.005 

6)Abu-Jamous, B., Fa, R., David Roberts, J., Nandi, K.A.Comprehensive analysis of forty yeast microarray datasets reveals a novel subset of genes (APha-RiB) consistently negatively associated with ribosome biogenesis (2014) BMC Bioinformatics, 15 (1), art. no. 322, . Cited 7 times.DOI: 10.1186/1471-2105-15-322

6)Tian, Y., Cui, W., Huang, M., Robinson, H., Wan, Y., Wang, Y., Ke, H. Dual specificity and novel structural folding of yeast phosphodiesterase-1 for hydrolysis of second messengers cyclic adenosine and guanosine 3'5'-monophosphate (2014) Biochemistry, 53 (30), pp. 4938-4945. Cited 14 times. DOI: 10.1021/bi500406h

7)Skerker, J.M., Leon, D., Price, M.N., Mar, J.S., Tarjan, D.R., Wetmore, K.M., Deutschbauer, A.M., Baumohl, J.K., Bauer, S., Ibáñez, A.B., Mitchell, V.D., Wu, C.H., Hu, P., Hazen, T., Arkin, A.P. Dissecting a complex chemical stress: Chemogenomic profiling of plant hydrolysates (2013) Molecular Systems Biology, 9, art. no. 201330, . Cited 70 times.DOI: 10.1038/msb.2013.30

Transcriptional regulators of Seven yeast species: Comparative genome analysis - reviewDrobna E., Bialkova A., Subik J.

(2008) Folia Microbiologica, 53 (4) , pp. 275-287.

1) Yang, G., Liu, G.-L., Wang, S.-J., Chi, Z.-M., Chi, Z. Pullulan biosynthesis in yeast-like fungal cells is regulated by the transcriptional activator Msn2 and cAMP-PKA signaling pathway (2020) International Journal of Biological Macromolecules, 157, pp. 591-603. Cited 7 times. DOI: 10.1016/j.ijbiomac.2020.04.174

2) Hahn, S., Young, E.T. Transcriptional regulation in saccharomyces cerevisiae: Transcription factor regulation and function, mechanisms of initiation, and roles of activators and coactivators (2011) Genetics, 189 (3), pp. 705-736. Cited 195 times.

3) Siegal-Gaskins, D., Mejia-Guerra, M.K., Smith, G.D., Grotewold, E. Emergence of switch-like behavior in a large family of simple biochemical networks (2011) PLoS Computational Biology, 7 (5), art. no. e1002039, . Cited 36 times. DOI: 10.1371/journal.pcbi.1002039

4) Hodurova, Z., Ferreira, L., Sánchez-Juanes, F., Dominguez, A., Gbelska, Y. Cytosolic proteome of Kluyveromyces lactis affected by the multidrug resistance regulating transcription factor KlPdr1p (2012) Journal of Proteomics, 75 (17), pp. 5316-5326. Cited 3 times, DOI: 10.1016/j.jprot.2012.06.036

FEMS Yeast Research, 2007, 7(2), pp. 254–264

1) Transcription factors and ABC transporters: from pleiotropic drug resistance to cellular signaling in yeast (2020) FEBS Letters, 594 (23), pp. 3943-3964. Cited 5 times. DOI: 10.1002/1873-3468.13964 

2)Prasad, R., Devaux, F., Dhamgaye, S., Banerjee, D. Response of pathogenic and non-pathogenic yeasts to steroids (2012) Journal of Steroid Biochemistry and Molecular Biology, 129 (1-2), pp. 61-69. Cited 9 times. DOI: 10.1016/j.jsbmb.2010.11.011

3)Schwarzmüller, T., Klein, C., Valachovic, M., Glaser, W., Kuchler, K. Membrane Transporters in Pleiotropic Drug Resistance and Stress Response in Yeast and Fungal Pathogens (2009) Transporters as Drug Carriers: Structure, Function, Substrates, 44, pp. 159-193.DOI: 10.1002/9783527627424.ch6

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1)Kikowska, M., Kruszka, D., Derda, M., Hadas, E., Thiem, B. Phytochemical screening and acanthamoebic activity of shoots from in vitro cultures and in vivo plants of eryngium alpinum L.—The endangered and protected species (2020) Molecules, 25 (6), art. no. 1416, . Cited 5 times. 

2)Elansary, H.O., Szopa, A., Kubica, P., Ekiert, H., Klimek-Szczykutowicz, M., El-Ansary, D.O., Mahmoud, E.A. Polyphenol profile and antimicrobial and cytotoxic activities of natural Mentha x piperita and Mentha longifolia populations in Northern Saudi Arabia (2020) Processes, 8 (4), art. no. 479, . Cited 10 times.DOI: 10.3390/PR8040479

3)Terekhova, N.V., Tatarinov, D.A., Shaihutdinova, Z.M., Pashirova, T.N., Lyubina, A.P., Voloshina, A.D., Sapunova, A.S., Zakharova, L.Y., Mironov, V.F. Design and synthesis of amphiphilic 2-hydroxybenzylphosphonium salts with antimicrobial and antitumor dual action (2020) Bioorganic and Medicinal Chemistry Letters, 30 (13), art. no. 127234, . Cited 6 times.DOI: 10.1016/j.bmcl.2020.127234

4)Rokitskaya, T.I., Kotova, E.A., Luzhkov, V.B., Kirsanov, R.S., Aleksandrova, E.V., Korshunova, G.A., Tashlitsky, V.N., Antonenko, Y.N. Lipophilic ion aromaticity is not important for permeability across lipid membranes (2021) Biochimica et Biophysica Acta - Biomembranes, 1863 (1), art. no. 183483, . Cited 1 time.DOI: 10.1016/j.bbamem.2020.183483

5)Hou, Z., Liang, Z., Li, Y., Su, F., Chen, J., Zhang, X., Yang, D. Quantitative determination and validation of four phenolic acids in salvia miltiorrhiza bunge using1H-NMR spectroscopy (2021) Current Pharmaceutical Analysis, 17 (4), pp. 509-519. Cited 1 timeDOI: 10.2174/1573412916666191231104909

6)Fiorani, G., Perosa, A., Selva, M. Phosphonium salts and P-ylides (2021) Organophosphorus Chemistry, 50, pp. 179-242 DOI: 10.2174/1573412916666191231104909 

064UK-4/2018

Inovácia náplne praktických cvičení z predmetov Imunológia a Mikrobiológia a vypracovanie učebných textov - conducting

VEGA 1/0527/21

Charakterizácia a využitie mikroorganizmov degradujúcich biogénne amíny ako možné riešenie pre zabezpečenie zdravotne bezpečných fermentovaných potravín. - conducting