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Journal Abstract Search

191 related items for PubMed ID: 34908466

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  • 4. Comparative Molecular and Immunoregulatory Analysis of Extracellular Vesicles from Candida albicans and Candida auris.
    Zamith-Miranda D, Heyman HM, Couvillion SP, Cordero RJB, Rodrigues ML, Nimrichter L, Casadevall A, Amatuzzi RF, Alves LR, Nakayasu ES, Nosanchuk JD.
    mSystems; 2021 Aug 31; 6(4):e0082221. PubMed ID: 34427507
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  • 6. Induction of amphotericin B resistance in susceptible Candida auris by extracellular vesicles.
    Chan W, Chow FW, Tsang CC, Liu X, Yao W, Chan TT, Siu GK, Ho AY, Luk KS, Lau SK, Woo PC.
    Emerg Microbes Infect; 2022 Dec 31; 11(1):1900-1909. PubMed ID: 35786393
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  • 8. The Two-Component Response Regulator Ssk1 and the Mitogen-Activated Protein Kinase Hog1 Control Antifungal Drug Resistance and Cell Wall Architecture of Candida auris.
    Shivarathri R, Jenull S, Stoiber A, Chauhan M, Mazumdar R, Singh A, Nogueira F, Kuchler K, Chowdhary A, Chauhan N.
    mSphere; 2020 Oct 14; 5(5):. PubMed ID: 33055262
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  • 9. Review of treatment options for a multidrug-resistant fungus: Candida auris.
    Wang S, Pan J, Gu L, Wang W, Wei B, Zhang H, Chen J, Wang H.
    Med Mycol; 2024 Jan 09; 62(1):. PubMed ID: 38066698
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  • 10. Decoding host cell interaction- and fluconazole-induced metabolic alterations and drug resistance in Candida auris.
    Ismail SHH, Hamdy R, Altaie AM, Fayed B, Dakalbab S, El-Awady R, Soliman SSM.
    Mycologia; 2024 Jan 09; 116(5):673-693. PubMed ID: 39024116
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  • 11. Transcriptional Profiling of the Candida auris Response to Exogenous Farnesol Exposure.
    Jakab Á, Balla N, Ragyák Á, Nagy F, Kovács F, Sajtos Z, Tóth Z, Borman AM, Pócsi I, Baranyai E, Majoros L, Kovács R.
    mSphere; 2021 Oct 27; 6(5):e0071021. PubMed ID: 34643421
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  • 12. Isolation of Extracellular Vesicles from Candida auris.
    Zamith-Miranda D, Alves LR, Rodrigues ML, Nimrichter L, Nosanchuk JD.
    Methods Mol Biol; 2022 Oct 27; 2517():173-178. PubMed ID: 35674953
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  • 13. Comprehensive Overview of Candida auris: An Emerging Multidrug-Resistant Fungal Pathogen.
    Kim JS, Cha H, Bahn YS.
    J Microbiol Biotechnol; 2024 Jul 28; 34(7):1365-1375. PubMed ID: 38881183
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  • 14. Detection and characterisation of a sixth Candida auris clade in Singapore: a genomic and phenotypic study.
    Suphavilai C, Ko KKK, Lim KM, Tan MG, Boonsimma P, Chu JJK, Goh SS, Rajandran P, Lee LC, Tan KY, Shaik Ismail BB, Aung MK, Yang Y, Sim JXY, Venkatachalam I, Cherng BPZ, Spruijtenburg B, Chan KS, Oon LLE, Tan AL, Tan YE, Wijaya L, Tan BH, Ling ML, Koh TH, Meis JF, Tsui CKM, Nagarajan N.
    Lancet Microbe; 2024 Sep 28; 5(9):100878. PubMed ID: 39008997
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  • 16. Adenylyl Cyclase and Protein Kinase A Play Redundant and Distinct Roles in Growth, Differentiation, Antifungal Drug Resistance, and Pathogenicity of Candida auris.
    Kim JS, Lee KT, Lee MH, Cheong E, Bahn YS.
    mBio; 2021 Oct 26; 12(5):e0272921. PubMed ID: 34663094
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  • 19. Adaptation of the emerging pathogenic yeast Candida auris to high caspofungin concentrations correlates with cell wall changes.
    Lara-Aguilar V, Rueda C, García-Barbazán I, Varona S, Monzón S, Jiménez P, Cuesta I, Zaballos Á, Zaragoza Ó.
    Virulence; 2021 Dec 26; 12(1):1400-1417. PubMed ID: 34180774
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