Chlamydospore Specific Proteins of Candida albicans

Ingle, Sujata; Kodgire, Santosh; Shiradhone, Asha; Patil, Rajendra; Zore, Gajanan

doi:10.3390/data2030026

Cited by 5 publications

(4 citation statements)

References 21 publications

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“…2 C and D) are thick-wall cells that arise on elongated suspensor cells, situated on pseudohyphae or hyphae by pathogen Candida albicans [ 29 ] . To efficiently induce chlamydospores, cells were distributed at low cell concentrations on nutrient-poor media supplemented with detergents, such as Tween 80, and incubated at a low temperature (25 to 30 °C) for 48 h. Chlamydospore formation was especially abundant on solid media under glass coverslips, providing microaerophilic conditions (Dalmau inoculation technique) [ 29 , 30 ]. Herein, Corn Meal Agar with Tween 80 to support Candida albicans producing chlamydospores was used as culture medium.…”

Section: Resultsmentioning

confidence: 99%

Prevalence and drug susceptibility of clinical Candida species in nasopharyngeal cancer patients in Vietnam

Nguyen,

et al. 2024

One Health

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Section: Resultsmentioning

confidence: 99%

Prevalence and drug susceptibility of clinical Candida species in nasopharyngeal cancer patients in Vietnam

Nguyen,

et al. 2024

One Health

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“…Candida albicans a polymorphic, opportunistic pathogen of humans resides commensally in healthy humans [32,33]. It exists in the form of yeast, hyphal, pseudohyphal or chlymydospores [34,35]. Signi cance of polymorphic nature is associated with its survival strategy gained through evolution that made C. albicans a most versatile organism able to survive under extreme microenvironments [32][33][34][35].…”

Section: Discussionmentioning

confidence: 99%

“…It exists in the form of yeast, hyphal, pseudohyphal or chlymydospores [34,35]. Signi cance of polymorphic nature is associated with its survival strategy gained through evolution that made C. albicans a most versatile organism able to survive under extreme microenvironments [32][33][34][35]. Therefore it is need of hour to target multifunctional potential molecular candidates to control the treat.…”

Section: Discussionmentioning

confidence: 99%

Insilico Analysis of pathogenic genes as a major rescue of Candida albicans

JADHAV¹

2022

Preprint

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C. albicans a polymorphic, opportunistic pathogen of humans resides commensally in healthy humans. It exists in the form of yeast, hyphal, pseudohyphal or chlymydospores. Significance of polymorphic nature is associated with its survival strategy gained through evolution that made C. albicans a most versatile organism able to survive under extreme microenvironments. In present study an attempt was made to investigate analysis of regulation of yeast to hyphal form transition responsive genes by Insilico methods. Analysis of regulation responsive genes (EFG1, NRG1) was performed. Their identification of true orthologs, characterization of physical and chemical properties, phylogenetics, active site prediction and pharmacomphore designing aiming for docking. These investigations in Understanding its significance in regulation of morphogenesis and virulence in C. albicans for potential target and pharmacophore design. Molecular docking was used to analyze and understand the interaction between the molecules with their respective targets and top compounds were picked on the basis of binding energy computed via virtual screening tool VINA. All the 1586 ligands screened (pharmacophore screened) for EFG1 were docked in the active site. ZINC31165359 was shown to have best interaction with EFG1 with lowest binding energy of -11.3kcal/mol. Whereas, total of 800 screened ligands (structural similarity) were docked with NRG1 in the active site and ZINC20134767 & ZINC20134767 showed best results for NRG1 with binding energy of -7.4kcal/mol .In conclusion various computation tools used in present research study are very useful in finding new hits for targeting different diseases which can help in the development of potential drugs for the same.

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“…The morphological transition of yeast is stimulated by surrounding conditions such as temperature, pH, blood, serum and nutrient abundance (4). They form chlamydospores in specific conditions (5) and reproduce non-sexually by forming buds or sexually through mating (4).…”

Section: Introductionmentioning

confidence: 99%

<i>Candida</i> species: the silent enemy

Al-laaeiby¹,

Ali²,

Al-Saadoon³

2019

Af J Clin Exp Micro

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Candida species are known to cause serious infections in immunocompromised patients but uncommon cases have been reported in immunocompetent individuals regardless of the harmless coexistence of the fungi with the host. Recently, the incidence rate of candidiasis has increased dramatically alongside the emergence of antifungal resistance. Although conventional methods to ensure prompt diagnosis of candidiasis for effective therapy have been established, the scientific world is witnessing progress in the development of more accurate, timely and cost-effective methods that is coinciding with the molecular revolution and advanced DNA analysis. Moreover, the challenges of resistance of Candida to available antifungal agents are being met with the deployment of molecular techniques to investigate the mechanisms of resistance. This review is an attempt to provide up-to-date information on the persistent problems of Candida with highlights on the clinical importance, molecular diagnosis, and resistance to candidate antifungal drugs; azoles and echinocandins.

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Chlamydospore Specific Proteins of Candida albicans

Cited by 5 publications

References 21 publications

Prevalence and drug susceptibility of clinical Candida species in nasopharyngeal cancer patients in Vietnam

Prevalence and drug susceptibility of clinical Candida species in nasopharyngeal cancer patients in Vietnam

Insilico Analysis of pathogenic genes as a major rescue of Candida albicans

<i>Candida</i> species: the silent enemy

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