Santosh Kodgire scite author profile

Efficacy of five plant molecules against thirty three clinical isolates and two standard strains of C. albicans, differentially susceptible to fluconazole (FLC) is tested in this study. Effect on biofilm (adhesion, development and maturation) formation, morphogenesis and synergy with fluconazole (FLC) against a FLC resistant strain of Candida albicans ATCC 10231 is also evaluated. All the plant molecules tested were equally effective against isolates and strains of C. albicans (N = 35) tested in this study. Cinnamaldehyde was found most effective against planktonic growth followed by ocimene. Both the molecules exhibited fungicidal activity and killed 99.9% of inoculum within 80 and 20 min of exposure respectively at 0.62 mM and 176.8 mM concentrations. Curcumin (5 -20 mM), camphene (8 -32 mM) and farnesene (25 -100 mM), although inhibited planktonic growth, were fungistatic. All the five plant molecules tested in this study inhibited morphogenesis significantly and exhibited considerable activity against biofilm formation. Inhibition of biofilm was found to be stage specific i.e. efficacy was more against adhesion followed by developing and mature biofilm. Plant molecules tested exhibited excellent synergy with fluconazole. However FIC index values 0.155, 0.062 and 0.046 indicate that ocimene was the most effective synergistic molecule inhibited planktonic growth, developing biofilm and mature biofilm growth respectively at very low concentrations. This is the first report of anti-Candida activity of three terpenoids viz. ocimene, farnesene and camphene against planktonic & biofilm growth, morphogenesis as well as synergy with FLC. Plant molecules tested in this study may find use in antifungal chemotherapy individually and or in a combination with FLC.

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Limonene inhibits Candida albicans growth by inducing apoptosis

Thakre

Zore

Kodgire

et al. 2017

mmy

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Serum responsive proteome reveals correlation between oxidative phosphorylation and morphogenesis in Candida albicans ATCC10231

Ahmed

Kodgire

Santhakumari

et al. 2018

Journal of Proteomics

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Chlamydospore Specific Proteins of Candida albicans

Ingle

Kodgire

Shiradhone

et al. 2017

Data

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Polymorphic yeast, Candida albicans, forms thick-walled structures called chlamydospores in order to survive under adverse conditions. We present proteomic profile changes occurring during chlamydospore formation. Chlamydospores were induced by inoculating C. albicans cells (grown for 48 h) on rice extract and semisolid agar containing tween 80 (1%), and were overlaid by a polyethene sheet to induce microaerophilic conditions at 30 • C. Proteins extracted from chlamydospores and hyphae (producing chlamydospores) were identified by LC-MS/MS analysis. Present datasets include proteomic data (Swath spectral libraries) of chlamydospores and yeast phase cells, as well as methodologies and tools used for the data generation. Further analysis is expected to provide an opportunity to understand modulations in metabolic processes, molecular architecture (i.e., cell wall, membrane, and cytoskeleton) and stress response pathways leading to chlamydospore formation and thus facilitating survival of C. albicans under adverse conditions. Data Set: http://www.peptideatlas.org/PASS/PASS01061 (Username: PASS01061, Password: PF8546i) Data Set License: There is no specific license.

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Santosh Kodgire

Effects of Cinnamaldehyde, Ocimene, Camphene, Curcumin and Farnesene on <i>Candida albicans</i>

Limonene inhibits Candida albicans growth by inducing apoptosis

Serum responsive proteome reveals correlation between oxidative phosphorylation and morphogenesis in Candida albicans ATCC10231

Chlamydospore Specific Proteins of Candida albicans

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Santosh Kodgire

Effects of Cinnamaldehyde, Ocimene, Camphene, Curcumin and Farnesene on &lt;i&gt;Candida albicans&lt;/i&gt;

Limonene inhibits Candida albicans growth by inducing apoptosis

Serum responsive proteome reveals correlation between oxidative phosphorylation and morphogenesis in Candida albicans ATCC10231

Chlamydospore Specific Proteins of Candida albicans

Contact Info

Product

Resources

About

Effects of Cinnamaldehyde, Ocimene, Camphene, Curcumin and Farnesene on <i>Candida albicans</i>