Molecular targets of biofabricated silver nanoparticles in Candida albicans

Halbandge Shivkrupa D.; Jadhav Ashwini K.; Jangid Priyanka M.; Shelar Amruta V; Patil Rajendra H.; Karuppayil Sankunny Mohan

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Molecular targets of biofabricated silver nanoparticles in Candida albicans

机译：念珠菌念珠菌的生物亚铁银纳米粒子的分子靶标

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We have analyzed the expressions of genes which regulate Ras-cAMP-EFGJ and CEK1-MAPK pathways involved in yeast to hyphal form morphogenesis in Candida albicans. The expression profile of genes associated with serum-induced morphogenesis showed reduced expressions of genes involved in these pathways by the treatment with biofabricated silver nanoparticles. Cell elongation gene, ECE1, was downregulated by 5.1 fold by the treatment of silver nanoparticles. Expression of hyphal inducer gene, TEC1 was downregulated by 6.28 fold. Negative regulators of yeast to hyphal transition, TUP1 and RFG1 were downregulated by 2.45 and 5.43 fold, respectively. Current study suggests that silver nanoparticles affect gene expression and may subsequently reduce virulence in C. albicans. Targeting genes involved in virulence may be an acceptable novel treatment strategy for pathogenic fungal infections.

机译：我们分析了调节RAS-CAMP-EFGJ和CEK1-MAPK途径的基因表达，涉及酵母在Candida醛糖醛植物中的亚酚形式的形态发生。与血清诱导的形态发生相关的基因的表达谱表现出通过用生物羧酸银纳米颗粒的处理而参与这些途径的基因表达。通过处理银纳米粒子将细胞伸长基因ECE1下调5.1倍。悬垂诱导物基因的表达，TEC1下调6.28倍。酵母对亚酚型过渡的负调节剂，Tup1和RFG1分别下调2.45和5.43倍。目前的研究表明，银纳米粒子会影响基因表达，随后可以在C.醛型人中减少毒力。毒力所涉及的靶向基因可能是致病性真菌感染的可接受的新型治疗策略。

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《The Journal of Antibiotics: An International Journal》 |2019年第8期|共5页
作者
Halbandge Shivkrupa D.; Jadhav Ashwini K.; Jangid Priyanka M.; Shelar Amruta V; Patil Rajendra H.; Karuppayil Sankunny Mohan;
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SRTM Univ Sch Life Sci Nanded 431606 Maharashtra India;

DY Patil Educ Soc Dept Stem Cell &

Regenerat Med Ctr Interdisciplinary Res Kolhapur 416006;

SRTM Univ Sch Life Sci Nanded 431606 Maharashtra India;

Savitribai Phule Pune Univ Dept Biotechnol Pune 411007 Maharashtra India;

Savitribai Phule Pune Univ Dept Biotechnol Pune 411007 Maharashtra India;

SRTM Univ Sch Life Sci Nanded 431606 Maharashtra India;

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正文语种 eng
中图分类药学;
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1. Molecular targets of biofabricated silver nanoparticles in Candida albicans [J] . Halbandge Shivkrupa D., Jadhav Ashwini K., Jangid Priyanka M., The Journal of Antibiotics: An International Journal . 2019,第8期

机译：念珠菌念珠菌的生物亚铁银纳米粒子的分子靶标
2. Biofabricated Silver Nanoparticles Synergistically Activate Amphotericin B Against Mature Biofilm Forms of Candida Albicans [J] . Halbandge Shivkrupa D., Mortale Supriya P., Karuppayil Sankunny Mohan The Open Nanomedicine Journal . 2017,第1期

机译：生物制造的银纳米颗粒协同激活两性霉素B对抗白色念珠菌的成熟生物膜形式。
3. Silver nanoparticles induced alterations in multiple cellular targets, which are critical for drug susceptibilities and pathogenicity in fungal pathogen (Candida albicans) [J] . Venkatraman Srinivasan Radhakrishnan, Mohana Krishna Reddy Mudiam, Manish Kumar, International Journal of Nanomedicine . 2018,第1期

机译：银纳米颗粒诱导多个细胞靶标的改变，这对于真菌病原体（ Candida albicans ）的药敏性和致病性至关重要

4. An Invitro Antifungal Efficacy of Silver Nanoparticles Activated by Diode Laser to Candida albicans [C] . S.D. Astuti, D.H. Kharisma, S. Kholimatussadiah, International Conference and Workshops on Basic and Applied Sciences . 2017

机译：二极管激光器激活的银纳米粒子的invitro抗真菌效果与念珠菌念珠菌

5. Properties of silver and copper nanoparticle-containing aqueous solutions and evaluation of their in vitro activity against Candida albicans and Staphylococcus aureus biofilms [D] . Montes Aguirre, Melissa Mariluz 2015

机译：含银和铜纳米粒子的水溶液的性质及其对白色念珠菌和金黄色葡萄球菌生物膜的体外活性评估

6. Silver nanoparticles induced alterations in multiple cellular targets which are critical for drug susceptibilities and pathogenicity in fungal pathogen (Candida albicans) [O] . Venkatraman Srinivasan Radhakrishnan, Mohana Krishna Reddy Mudiam, Manish Kumar, 2018

机译：银纳米颗粒诱导多个细胞靶标的改变这对于真菌病原体（白色念珠菌）的药敏性和致病性至关重要

7. Susceptibility of Candida albicans and Candida glabrata biofilms to silver nanoparticles in intermediate and mature development phases [O] . Monteiro D. R., Takamiya A. S., Feresin L. P., 2015

机译：白色念珠菌和光滑念珠菌生物膜对银和纳米粒子在中期和成熟阶段的敏感性。

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4. 抗菌肽MAF-1A衍生物体外抗白念珠菌生物膜活性及机制研究 [J] . 邓思波 ,黄敏慧 ,张迎春 . 中国人兽共患病学报 . 2021,第006期

5. 抗真菌肽MAF-1A体外对近平滑念珠菌生物膜形成能力的影响、与生物膜结合及抑菌情况观察 [J] . 成荣 ,李红凌 ,胡方芳 . 山东医药 . 2020,第018期

6. 念珠菌生物膜形成与ALS3基因表达的相关性初探 [C] . 李新 ,邓可可 ,邓琦 . 中华中医药学会血液病分会第三次学术年会、中国民族医药学会血液病分会2017年学术年会 . 2017

7. 白念珠菌耐药基因CDR1、CDR2与白念珠菌--金黄色葡萄球菌混合生物膜耐药性的相关性研究 [A] . 郑渊 . 2014

1. 咖啡醇或其衍生物在制备抗白色念珠菌药物或抗白色念珠菌日用品中的应用 [P] . 中国专利： CN113648303A . 2021-11-16

2. 醉椒素衍生物在制备抗白色念珠菌药物中的应用 [P] . 中国专利： CN108653277B . 2021.04.23

3. High-molecular fraction of coelomic fluid from Dendrobaena veneta earthworm for treatment of mycosis caused by the Candida albicans anascogenic yeasts [P] . 外国专利： PL234801B1 . 2020-04-30

机译：来自Dendrobaena veneta worm的结肠液的高分子级分，用于治疗由白色念珠菌致病性酵母引起的真菌病

4. High-molecular fraction of coelomic fluid from Dendrobaena veneta earthworm for treatment of mycosis caused by the Candida albicans anascogenic yeasts [P] . 外国专利： PL423697A1 . 2019-06-17

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5. Recombinant vector series efficient for molecular research in Candida albicans [P] . 外国专利： KR100453719B1 . 2004-10-20

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Molecular targets of biofabricated silver nanoparticles in Candida albicans

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