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Artificial Cells, Nanomedicine, and Biotechnology
An International Journal
Volume 46, 2018 - Issue 3
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Articles

Inhibition of secreted aspartyl proteinase activity in biofilms of Candida species by mycogenic silver nanoparticles

Sabahat HamidDepartment of Microbiology, Quaid-i-Azam University, Islamabad, PakistanView further author information
,
Shama ZainabDepartment of Microbiology, Quaid-i-Azam University, Islamabad, PakistanView further author information
,
Rani FaryalDepartment of Microbiology, Quaid-i-Azam University, Islamabad, PakistanView further author information
,
Naeem AliDepartment of Microbiology, Quaid-i-Azam University, Islamabad, PakistanCorrespondence[email protected]
View further author information
&
Iqra SharafatDepartment of Microbiology, Quaid-i-Azam University, Islamabad, PakistanView further author information
Pages 551-557 | Received 10 Mar 2017, Accepted 03 May 2017, Published online: 25 May 2017

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Mohammad Jalal, Mohammad Azam Ansari, Mohammad A Alzohairy, Syed Ghazanfar Ali, Haris M Khan, Ahmad Almatroudi & Mohammad Imran Siddiqui. (2019) Anticandidal activity of biosynthesized silver nanoparticles: effect on growth, cell morphology, and key virulence attributes of Candida species. International Journal of Nanomedicine 14, pages 4667-4679.
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Mohammed Saleh Al Aboody. (2019) Silver/silver chloride (Ag/AgCl) nanoparticles synthesized from Azadirachta indica lalex and its antibiofilm activity against fluconazole resistant Candida tropicalis. Artificial Cells, Nanomedicine, and Biotechnology 47:1, pages 2107-2113.
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Yuri N. Shkryl, Galina N. Veremeichik, Dmitriy G. Kamenev, Tatiana Y. Gorpenchenko, Yulia A. Yugay, Dmitriy V. Mashtalyar, Aleksander V. Nepomnyaschiy, Tatiana V. Avramenko, Aleksandr A. Karabtsov, Vladimir V. Ivanov, Victor P. Bulgakov, Sergey V. Gnedenkov, Yury N. Kulchin & Yury N. Zhuravlev. (2018) Green synthesis of silver nanoparticles using transgenic Nicotiana tabacum callus culture expressing silicatein gene from marine sponge Latrunculia oparinae. Artificial Cells, Nanomedicine, and Biotechnology 46:8, pages 1646-1658.
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Mohammad Jalal, Mohammad Azam Ansari, Syed Ghazanfar Ali, Haris M Khan & Suriya Rehman. (2018) Anticandidal activity of bioinspired ZnO NPs: effect on growth, cell morphology and key virulence attributes of Candida species. Artificial Cells, Nanomedicine, and Biotechnology 46:sup1, pages 912-925.
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Articles from other publishers (15)

Shumaila Rafaqat, Bushra Perveen, Raqba, Warda Imran, Arshad Hussain & Naeem Ali. (2024) Development of manganese peroxidase based voltammetric biosensor for detection of textile Azo dyes RR 195 & RB 221. Materials Chemistry and Physics 312, pages 128647.
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Fátima Tornero-Gutiérrez, Jorge A Ortiz-Ramírez, Everardo López-Romero & Mayra Cuéllar-Cruz. (2023) Materials used to prevent adhesion, growth, and biofilm formation of Candida species . Medical Mycology 61:7.
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Anmol Kulshrestha & Pratima Gupta. (2023) Secreted aspartyl proteases family: a perspective review on the regulation of fungal pathogenesis. Future Microbiology 18:5, pages 295-309.
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Basem M. Abdallah & Enas M. Ali. (2022) Therapeutic Effect of Green Synthesized Silver Nanoparticles Using Erodium glaucophyllum Extract against Oral Candidiasis: In Vitro and In Vivo Study. Molecules 27:13, pages 4221.
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Shama Zainab, Sabahat Hamid, Shafaq Sahar & Naeem Ali. (2022) Fluconazole and biogenic silver nanoparticles-based nano-fungicidal system for highly efficient elimination of multi-drug resistant Candida biofilms. Materials Chemistry and Physics 276, pages 125451.
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Majid Rasool Kamli, Maqsood Ahmad Malik, Shabir Ahmad Lone, Jamal S. M. Sabir, Ehab H. Mattar & Aijaz Ahmad. (2021) Beta vulgaris Assisted Fabrication of Novel Ag-Cu Bimetallic Nanoparticles for Growth Inhibition and Virulence in Candida albicans. Pharmaceutics 13:11, pages 1957.
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H.‐R. Kim & Y.‐B. Eom. (2020) Antifungal and anti‐biofilm effects of 6‐shogaol against Candida auris . Journal of Applied Microbiology 130:4, pages 1142-1153.
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Suttiwan Wunnoo, Supakit Paosen, Sakkarin Lethongkam, Rattanavadee Sukkurd, Tassanai Waen‐ngoen, Taiyeebah Nuidate, Manthana Phengmak & Supayang P. Voravuthikunchai. (2021) Biologically rapid synthesized silver nanoparticles from aqueous Eucalyptus camaldulensis leaf extract: Effects on hyphal growth, hydrolytic enzymes, and biofilm formation in Candida albicans . Biotechnology and Bioengineering 118:4, pages 1578-1592.
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Payal Gupta, Apoorva Goel, Khushboo Rani Singh, Mukesh Kumar Meher, Khushboo Gulati & Krishna Mohan Poluri. (2021) Dissecting the anti-biofilm potency of kappa-carrageenan capped silver nanoparticles against Candida species. International Journal of Biological Macromolecules 172, pages 30-40.
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Parinaz Ghadam, Parisa Mohammadi & Ahya Abdi Ali. 2021. Silver Nanomaterials for Agri-Food Applications. Silver Nanomaterials for Agri-Food Applications 67 99 .
Ifeanyi Elibe Mba & Emeka Innocent Nweze. (2020) The use of nanoparticles as alternative therapeutic agents against Candida infections: an up-to-date overview and future perspectives. World Journal of Microbiology and Biotechnology 36:11.
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D. V. Kryazhev. (2020) Opportunistic mold fungi in urban air environment (analytical review). MediAl:2, pages 35-44.
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Fanzhi Kong, Jiaying Wang, Rui Han, Shuaiqi Ji, Jin Yue, Yongliang Wang & Lei Ma. (2020) Antifungal Activity of Magnesium Oxide Nanoparticles: Effect on the Growth and Key Virulence Factors of Candida albicans. Mycopathologia 185:3, pages 485-494.
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Subramanian Muthamil, Krishnan Ganesh Prasath, Arumugam Priya, Pitchai Precilla & Shunmugiah Karutha Pandian. (2020) Global proteomic analysis deciphers the mechanism of action of plant derived oleic acid against Candida albicans virulence and biofilm formation. Scientific Reports 10:1.
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Francisco Xavier Nobre, Ivanildes Santos Bastos, Raquel Oliveira dos Santos Fontenelle, Edgar Alves Araújo Júnior, Mitsuo Lopes Takeno, Lizandro Manzato, José Milton Elias de Matos, Patrícia Puccinelli Orlandi, Josilayne de Fátima Souza Mendes, Walter Ricardo Brito & Paulo Rogério da Costa Couceiro. (2019) Antimicrobial properties of α-Ag2WO4 rod-like microcrystals synthesized by sonochemistry and sonochemistry followed by hydrothermal conventional method. Ultrasonics Sonochemistry 58, pages 104620.
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