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candida albicans laboratory strain sc5314  (ATCC)


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    ATCC candida albicans laboratory strain sc5314
    (A) Effect of prochelators (AH1-S) 2 , (IT1-S) 2 , (244mTC-S) 2 , and (TC1-S) 2 on growth of C. albicans strain <t>SC5314.</t> (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h while (244mTC-S) 2 and (TC1-S) 2 are inactive at the concentrations tested. At 48 h, cells have recovered growth. (B) (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h of C. albicans Y172, a fluconazole-resistant clinical isolate. Cell growth in SD medium was measured by OD 600 . ( n = 2–5 biological replicates each of n = 1–3 technical replicates). Error bars represent Standard Error of Mean (SEM). Welch ANOVA p -value < 0.0001, Dunnett's T3 multiple comparison p -value = 0.032 (*), 0.0021 (**) or < 0.0001 (****).
    Candida Albicans Laboratory Strain Sc5314, supplied by ATCC, used in various techniques. Bioz Stars score: 90/100, based on 2 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/candida albicans laboratory strain sc5314/product/ATCC
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    candida albicans laboratory strain sc5314 - by Bioz Stars, 2026-05
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    Images

    1) Product Images from "Prochelators modulate azole activity against Candida albicans in a metal-dependent manner"

    Article Title: Prochelators modulate azole activity against Candida albicans in a metal-dependent manner

    Journal: RSC Chemical Biology

    doi: 10.1039/d6cb00073h

    (A) Effect of prochelators (AH1-S) 2 , (IT1-S) 2 , (244mTC-S) 2 , and (TC1-S) 2 on growth of C. albicans strain SC5314. (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h while (244mTC-S) 2 and (TC1-S) 2 are inactive at the concentrations tested. At 48 h, cells have recovered growth. (B) (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h of C. albicans Y172, a fluconazole-resistant clinical isolate. Cell growth in SD medium was measured by OD 600 . ( n = 2–5 biological replicates each of n = 1–3 technical replicates). Error bars represent Standard Error of Mean (SEM). Welch ANOVA p -value < 0.0001, Dunnett's T3 multiple comparison p -value = 0.032 (*), 0.0021 (**) or < 0.0001 (****).
    Figure Legend Snippet: (A) Effect of prochelators (AH1-S) 2 , (IT1-S) 2 , (244mTC-S) 2 , and (TC1-S) 2 on growth of C. albicans strain SC5314. (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h while (244mTC-S) 2 and (TC1-S) 2 are inactive at the concentrations tested. At 48 h, cells have recovered growth. (B) (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h of C. albicans Y172, a fluconazole-resistant clinical isolate. Cell growth in SD medium was measured by OD 600 . ( n = 2–5 biological replicates each of n = 1–3 technical replicates). Error bars represent Standard Error of Mean (SEM). Welch ANOVA p -value < 0.0001, Dunnett's T3 multiple comparison p -value = 0.032 (*), 0.0021 (**) or < 0.0001 (****).

    Techniques Used: Comparison

    Left column (A) (AH1-S) 2 and right column (B) (IT1-S) 2 modulate growth inhibitory effect of azoles against C. albicans SC5314 (SD medium, 48 h, n = 2–4 biological replicates of n = 1–3 technical replicates). Experiments with (AH1-S) 2 were performed with at least one biological replicate under minimal light exposure.
    Figure Legend Snippet: Left column (A) (AH1-S) 2 and right column (B) (IT1-S) 2 modulate growth inhibitory effect of azoles against C. albicans SC5314 (SD medium, 48 h, n = 2–4 biological replicates of n = 1–3 technical replicates). Experiments with (AH1-S) 2 were performed with at least one biological replicate under minimal light exposure.

    Techniques Used:

    (A)–(D) Metals were added into SD medium made without the designated metal to give a concentration that ranged from deficient to excess. Under these conditions, C. albicans SC5314 were not treated (NT, black bars, circles) or treated with 8 µM fluconazole (purple bars, squares), 15 µM (AH1-S) 2 (pink bars, triangles), (IT1-S) 2 (light blue, triangles), or combined 15 µM prochelator plus 8 µM fluconazole (green triangles or dark blue rhombus). Growth was measured by OD 600 after 48 h and normalized relative to non-treated cells. (E) Cidality assays on YPD agar plates after 48 h. Non-toxic levels of copper convert (AH1-S) 2 from fungistatic to fungicidal. The images above are representative of at least n = 2 biological replicates of n = 1–3 technical replicates. Error bars represent SEM.
    Figure Legend Snippet: (A)–(D) Metals were added into SD medium made without the designated metal to give a concentration that ranged from deficient to excess. Under these conditions, C. albicans SC5314 were not treated (NT, black bars, circles) or treated with 8 µM fluconazole (purple bars, squares), 15 µM (AH1-S) 2 (pink bars, triangles), (IT1-S) 2 (light blue, triangles), or combined 15 µM prochelator plus 8 µM fluconazole (green triangles or dark blue rhombus). Growth was measured by OD 600 after 48 h and normalized relative to non-treated cells. (E) Cidality assays on YPD agar plates after 48 h. Non-toxic levels of copper convert (AH1-S) 2 from fungistatic to fungicidal. The images above are representative of at least n = 2 biological replicates of n = 1–3 technical replicates. Error bars represent SEM.

    Techniques Used: Concentration Assay

    Levels of (A) iron, (B) manganese, (C) zinc, and (D) copper in C. albicans SC5314 after 90 min and 6 h of treatment with 15 µM (AH1-S) 2 , 10 µM fluconazole, 10 µM copper, or a combination. Data are plotted as fold change relative to the respective metal concentration for non-treated cells (represented by dashed line). Error bars represent SEM; n = 2–3 biological replicates with multiple technical replicates; at least one biological replicate performed under minimal light conditions. Welch's ANOVA p -value = 0.0001, Dunnett's T3 p -value = 0.0438 (*), 0.0075 (**), and 0.0001 (***).
    Figure Legend Snippet: Levels of (A) iron, (B) manganese, (C) zinc, and (D) copper in C. albicans SC5314 after 90 min and 6 h of treatment with 15 µM (AH1-S) 2 , 10 µM fluconazole, 10 µM copper, or a combination. Data are plotted as fold change relative to the respective metal concentration for non-treated cells (represented by dashed line). Error bars represent SEM; n = 2–3 biological replicates with multiple technical replicates; at least one biological replicate performed under minimal light conditions. Welch's ANOVA p -value = 0.0001, Dunnett's T3 p -value = 0.0438 (*), 0.0075 (**), and 0.0001 (***).

    Techniques Used: Concentration Assay

    (A) Percent colony forming units (CFUs)/mL of C. albicans SC5314 co-cultured with macrophages relative to the CFU/mL of the non-treated mono-culture. (B) Macrophage cytotoxicity as measured by LDH assay. (C) Images of cells in 96-well plates under co-culture conditions. Left to right: NT, 1.5 µM (AH1-S) 2 , 6.5 µM (AH1-S) 2 , 25 µM (AH1-S) 2 , 2 µM fluconazole, and 2 µM fluconazole + 6.5 µM (AH1-S) 2 . Cells were grown in DMEM under mammalian cell culture conditions. Red arrow – macrophage; blue arrow – C. albicans hyphae.
    Figure Legend Snippet: (A) Percent colony forming units (CFUs)/mL of C. albicans SC5314 co-cultured with macrophages relative to the CFU/mL of the non-treated mono-culture. (B) Macrophage cytotoxicity as measured by LDH assay. (C) Images of cells in 96-well plates under co-culture conditions. Left to right: NT, 1.5 µM (AH1-S) 2 , 6.5 µM (AH1-S) 2 , 25 µM (AH1-S) 2 , 2 µM fluconazole, and 2 µM fluconazole + 6.5 µM (AH1-S) 2 . Cells were grown in DMEM under mammalian cell culture conditions. Red arrow – macrophage; blue arrow – C. albicans hyphae.

    Techniques Used: Cell Culture, Lactate Dehydrogenase Assay, Co-Culture Assay



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    (A) Effect of prochelators (AH1-S) 2 , (IT1-S) 2 , (244mTC-S) 2 , and (TC1-S) 2 on growth of C. albicans strain <t>SC5314.</t> (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h while (244mTC-S) 2 and (TC1-S) 2 are inactive at the concentrations tested. At 48 h, cells have recovered growth. (B) (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h of C. albicans Y172, a fluconazole-resistant clinical isolate. Cell growth in SD medium was measured by OD 600 . ( n = 2–5 biological replicates each of n = 1–3 technical replicates). Error bars represent Standard Error of Mean (SEM). Welch ANOVA p -value < 0.0001, Dunnett's T3 multiple comparison p -value = 0.032 (*), 0.0021 (**) or < 0.0001 (****).
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    Image Search Results


    (A) Effect of prochelators (AH1-S) 2 , (IT1-S) 2 , (244mTC-S) 2 , and (TC1-S) 2 on growth of C. albicans strain SC5314. (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h while (244mTC-S) 2 and (TC1-S) 2 are inactive at the concentrations tested. At 48 h, cells have recovered growth. (B) (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h of C. albicans Y172, a fluconazole-resistant clinical isolate. Cell growth in SD medium was measured by OD 600 . ( n = 2–5 biological replicates each of n = 1–3 technical replicates). Error bars represent Standard Error of Mean (SEM). Welch ANOVA p -value < 0.0001, Dunnett's T3 multiple comparison p -value = 0.032 (*), 0.0021 (**) or < 0.0001 (****).

    Journal: RSC Chemical Biology

    Article Title: Prochelators modulate azole activity against Candida albicans in a metal-dependent manner

    doi: 10.1039/d6cb00073h

    Figure Lengend Snippet: (A) Effect of prochelators (AH1-S) 2 , (IT1-S) 2 , (244mTC-S) 2 , and (TC1-S) 2 on growth of C. albicans strain SC5314. (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h while (244mTC-S) 2 and (TC1-S) 2 are inactive at the concentrations tested. At 48 h, cells have recovered growth. (B) (AH1-S) 2 and (IT1-S) 2 decrease growth at 24 h of C. albicans Y172, a fluconazole-resistant clinical isolate. Cell growth in SD medium was measured by OD 600 . ( n = 2–5 biological replicates each of n = 1–3 technical replicates). Error bars represent Standard Error of Mean (SEM). Welch ANOVA p -value < 0.0001, Dunnett's T3 multiple comparison p -value = 0.032 (*), 0.0021 (**) or < 0.0001 (****).

    Article Snippet: Candida albicans laboratory strain SC5314 (MYA 28776), purchased from ATCC, was used for all experiments unless otherwise noted .

    Techniques: Comparison

    Left column (A) (AH1-S) 2 and right column (B) (IT1-S) 2 modulate growth inhibitory effect of azoles against C. albicans SC5314 (SD medium, 48 h, n = 2–4 biological replicates of n = 1–3 technical replicates). Experiments with (AH1-S) 2 were performed with at least one biological replicate under minimal light exposure.

    Journal: RSC Chemical Biology

    Article Title: Prochelators modulate azole activity against Candida albicans in a metal-dependent manner

    doi: 10.1039/d6cb00073h

    Figure Lengend Snippet: Left column (A) (AH1-S) 2 and right column (B) (IT1-S) 2 modulate growth inhibitory effect of azoles against C. albicans SC5314 (SD medium, 48 h, n = 2–4 biological replicates of n = 1–3 technical replicates). Experiments with (AH1-S) 2 were performed with at least one biological replicate under minimal light exposure.

    Article Snippet: Candida albicans laboratory strain SC5314 (MYA 28776), purchased from ATCC, was used for all experiments unless otherwise noted .

    Techniques:

    (A)–(D) Metals were added into SD medium made without the designated metal to give a concentration that ranged from deficient to excess. Under these conditions, C. albicans SC5314 were not treated (NT, black bars, circles) or treated with 8 µM fluconazole (purple bars, squares), 15 µM (AH1-S) 2 (pink bars, triangles), (IT1-S) 2 (light blue, triangles), or combined 15 µM prochelator plus 8 µM fluconazole (green triangles or dark blue rhombus). Growth was measured by OD 600 after 48 h and normalized relative to non-treated cells. (E) Cidality assays on YPD agar plates after 48 h. Non-toxic levels of copper convert (AH1-S) 2 from fungistatic to fungicidal. The images above are representative of at least n = 2 biological replicates of n = 1–3 technical replicates. Error bars represent SEM.

    Journal: RSC Chemical Biology

    Article Title: Prochelators modulate azole activity against Candida albicans in a metal-dependent manner

    doi: 10.1039/d6cb00073h

    Figure Lengend Snippet: (A)–(D) Metals were added into SD medium made without the designated metal to give a concentration that ranged from deficient to excess. Under these conditions, C. albicans SC5314 were not treated (NT, black bars, circles) or treated with 8 µM fluconazole (purple bars, squares), 15 µM (AH1-S) 2 (pink bars, triangles), (IT1-S) 2 (light blue, triangles), or combined 15 µM prochelator plus 8 µM fluconazole (green triangles or dark blue rhombus). Growth was measured by OD 600 after 48 h and normalized relative to non-treated cells. (E) Cidality assays on YPD agar plates after 48 h. Non-toxic levels of copper convert (AH1-S) 2 from fungistatic to fungicidal. The images above are representative of at least n = 2 biological replicates of n = 1–3 technical replicates. Error bars represent SEM.

    Article Snippet: Candida albicans laboratory strain SC5314 (MYA 28776), purchased from ATCC, was used for all experiments unless otherwise noted .

    Techniques: Concentration Assay

    Levels of (A) iron, (B) manganese, (C) zinc, and (D) copper in C. albicans SC5314 after 90 min and 6 h of treatment with 15 µM (AH1-S) 2 , 10 µM fluconazole, 10 µM copper, or a combination. Data are plotted as fold change relative to the respective metal concentration for non-treated cells (represented by dashed line). Error bars represent SEM; n = 2–3 biological replicates with multiple technical replicates; at least one biological replicate performed under minimal light conditions. Welch's ANOVA p -value = 0.0001, Dunnett's T3 p -value = 0.0438 (*), 0.0075 (**), and 0.0001 (***).

    Journal: RSC Chemical Biology

    Article Title: Prochelators modulate azole activity against Candida albicans in a metal-dependent manner

    doi: 10.1039/d6cb00073h

    Figure Lengend Snippet: Levels of (A) iron, (B) manganese, (C) zinc, and (D) copper in C. albicans SC5314 after 90 min and 6 h of treatment with 15 µM (AH1-S) 2 , 10 µM fluconazole, 10 µM copper, or a combination. Data are plotted as fold change relative to the respective metal concentration for non-treated cells (represented by dashed line). Error bars represent SEM; n = 2–3 biological replicates with multiple technical replicates; at least one biological replicate performed under minimal light conditions. Welch's ANOVA p -value = 0.0001, Dunnett's T3 p -value = 0.0438 (*), 0.0075 (**), and 0.0001 (***).

    Article Snippet: Candida albicans laboratory strain SC5314 (MYA 28776), purchased from ATCC, was used for all experiments unless otherwise noted .

    Techniques: Concentration Assay

    (A) Percent colony forming units (CFUs)/mL of C. albicans SC5314 co-cultured with macrophages relative to the CFU/mL of the non-treated mono-culture. (B) Macrophage cytotoxicity as measured by LDH assay. (C) Images of cells in 96-well plates under co-culture conditions. Left to right: NT, 1.5 µM (AH1-S) 2 , 6.5 µM (AH1-S) 2 , 25 µM (AH1-S) 2 , 2 µM fluconazole, and 2 µM fluconazole + 6.5 µM (AH1-S) 2 . Cells were grown in DMEM under mammalian cell culture conditions. Red arrow – macrophage; blue arrow – C. albicans hyphae.

    Journal: RSC Chemical Biology

    Article Title: Prochelators modulate azole activity against Candida albicans in a metal-dependent manner

    doi: 10.1039/d6cb00073h

    Figure Lengend Snippet: (A) Percent colony forming units (CFUs)/mL of C. albicans SC5314 co-cultured with macrophages relative to the CFU/mL of the non-treated mono-culture. (B) Macrophage cytotoxicity as measured by LDH assay. (C) Images of cells in 96-well plates under co-culture conditions. Left to right: NT, 1.5 µM (AH1-S) 2 , 6.5 µM (AH1-S) 2 , 25 µM (AH1-S) 2 , 2 µM fluconazole, and 2 µM fluconazole + 6.5 µM (AH1-S) 2 . Cells were grown in DMEM under mammalian cell culture conditions. Red arrow – macrophage; blue arrow – C. albicans hyphae.

    Article Snippet: Candida albicans laboratory strain SC5314 (MYA 28776), purchased from ATCC, was used for all experiments unless otherwise noted .

    Techniques: Cell Culture, Lactate Dehydrogenase Assay, Co-Culture Assay

    SNP‐based phylogenetic tree of hospital isolates and the ATCC control reference genome, C. tropicalis MYA‐3404.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: SNP‐based phylogenetic tree of hospital isolates and the ATCC control reference genome, C. tropicalis MYA‐3404.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Heat map analysis of all fourteen hospital C. tropicalis isolates. Each cell represents the ANI value in percentage calculated between two genomes. The colour of each cell ranges from light to dark red, corresponding to lower and higher ANI values, respectively.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Heat map analysis of all fourteen hospital C. tropicalis isolates. Each cell represents the ANI value in percentage calculated between two genomes. The colour of each cell ranges from light to dark red, corresponding to lower and higher ANI values, respectively.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques:

    Quantification of ergosterol content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.4182; Control versus 47: p = 0.0009; Control versus 50: p < 0.0001; Control versus 52: p < 0.0001; Control versus 53: p < 0.0001; Control versus 54: p = 0.9957; Control versus 57: p = 0.0066; Control versus 58: p = 0.0838; Control versus 60: p = 0.0051; Control versus 61: p = 0.9997; Control versus 62: p = 0.0004; Control versus 63: p = 0.0003; Control versus 65: p = 0.0032; Control versus 66: p = 0.2012.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Quantification of ergosterol content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.4182; Control versus 47: p = 0.0009; Control versus 50: p < 0.0001; Control versus 52: p < 0.0001; Control versus 53: p < 0.0001; Control versus 54: p = 0.9957; Control versus 57: p = 0.0066; Control versus 58: p = 0.0838; Control versus 60: p = 0.0051; Control versus 61: p = 0.9997; Control versus 62: p = 0.0004; Control versus 63: p = 0.0003; Control versus 65: p = 0.0032; Control versus 66: p = 0.2012.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Adhesion to human cells. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p = 0.0283; Control versus 50: p = 0.9997; Control versus 52: p = 0.9341; Control versus 53: p = 0.002; Control versus 54: p = 0.9999; Control versus 57: p > 0.9999; Control versus 58: p = 0.1689; Control versus 60: p = 0.0016; Control versus 61: p = 0.8017; Control versus 62: p = 0.0027; Control versus 63: p = 0.0035; Control versus 65: p = 0.9653; Control versus 66: p = 0.6953.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Adhesion to human cells. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p = 0.0283; Control versus 50: p = 0.9997; Control versus 52: p = 0.9341; Control versus 53: p = 0.002; Control versus 54: p = 0.9999; Control versus 57: p > 0.9999; Control versus 58: p = 0.1689; Control versus 60: p = 0.0016; Control versus 61: p = 0.8017; Control versus 62: p = 0.0027; Control versus 63: p = 0.0035; Control versus 65: p = 0.9653; Control versus 66: p = 0.6953.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Biofilm formation. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using one‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p < 0.0001; Control versus 50: p < 0.0001; Control versus 52: p = 0.0588; Control versus 53: p = 0.0221; Control versus 54: p < 0.0001; Control versus 57: p = 0.9993; Control versus 58: p = 0.0644; Control versus 60: p = 0.5937; Control versus 61: p < 0.0001; Control versus 62: p = 0.1254; Control versus 63: p = 0.0971; Control versus 65: p = 0.5359; Control versus 66: p < 0.0001.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Biofilm formation. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using one‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p < 0.0001; Control versus 50: p < 0.0001; Control versus 52: p = 0.0588; Control versus 53: p = 0.0221; Control versus 54: p < 0.0001; Control versus 57: p = 0.9993; Control versus 58: p = 0.0644; Control versus 60: p = 0.5937; Control versus 61: p < 0.0001; Control versus 62: p = 0.1254; Control versus 63: p = 0.0971; Control versus 65: p = 0.5359; Control versus 66: p < 0.0001.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Quantification of chitin content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.1409; Control versus 47: p = 0.9911; Control versus 50: p = 0.9996; Control versus 52: p = 0.0012; Control versus 53: p = 0.408; Control versus 54: p = 0.408; Control versus 57: p = 0.0034; Control versus 58: p = 0.0024; Control versus 60: p < 0.0001; Control versus 61: p = 0.0007; Control versus 62: p = 0.0005; Control versus 63: p < 0.0001; Control versus 65: p = 0.0403; Control versus 66: p < 0.0001.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Quantification of chitin content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.1409; Control versus 47: p = 0.9911; Control versus 50: p = 0.9996; Control versus 52: p = 0.0012; Control versus 53: p = 0.408; Control versus 54: p = 0.408; Control versus 57: p = 0.0034; Control versus 58: p = 0.0024; Control versus 60: p < 0.0001; Control versus 61: p = 0.0007; Control versus 62: p = 0.0005; Control versus 63: p < 0.0001; Control versus 65: p = 0.0403; Control versus 66: p < 0.0001.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    SNP‐based phylogenetic tree of hospital isolates and the ATCC control reference genome, C. tropicalis MYA‐3404.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: SNP‐based phylogenetic tree of hospital isolates and the ATCC control reference genome, C. tropicalis MYA‐3404.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Quantification of ergosterol content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.4182; Control versus 47: p = 0.0009; Control versus 50: p < 0.0001; Control versus 52: p < 0.0001; Control versus 53: p < 0.0001; Control versus 54: p = 0.9957; Control versus 57: p = 0.0066; Control versus 58: p = 0.0838; Control versus 60: p = 0.0051; Control versus 61: p = 0.9997; Control versus 62: p = 0.0004; Control versus 63: p = 0.0003; Control versus 65: p = 0.0032; Control versus 66: p = 0.2012.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Quantification of ergosterol content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.4182; Control versus 47: p = 0.0009; Control versus 50: p < 0.0001; Control versus 52: p < 0.0001; Control versus 53: p < 0.0001; Control versus 54: p = 0.9957; Control versus 57: p = 0.0066; Control versus 58: p = 0.0838; Control versus 60: p = 0.0051; Control versus 61: p = 0.9997; Control versus 62: p = 0.0004; Control versus 63: p = 0.0003; Control versus 65: p = 0.0032; Control versus 66: p = 0.2012.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Adhesion to human cells. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p = 0.0283; Control versus 50: p = 0.9997; Control versus 52: p = 0.9341; Control versus 53: p = 0.002; Control versus 54: p = 0.9999; Control versus 57: p > 0.9999; Control versus 58: p = 0.1689; Control versus 60: p = 0.0016; Control versus 61: p = 0.8017; Control versus 62: p = 0.0027; Control versus 63: p = 0.0035; Control versus 65: p = 0.9653; Control versus 66: p = 0.6953.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Adhesion to human cells. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p = 0.0283; Control versus 50: p = 0.9997; Control versus 52: p = 0.9341; Control versus 53: p = 0.002; Control versus 54: p = 0.9999; Control versus 57: p > 0.9999; Control versus 58: p = 0.1689; Control versus 60: p = 0.0016; Control versus 61: p = 0.8017; Control versus 62: p = 0.0027; Control versus 63: p = 0.0035; Control versus 65: p = 0.9653; Control versus 66: p = 0.6953.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Biofilm formation. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using one‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p < 0.0001; Control versus 50: p < 0.0001; Control versus 52: p = 0.0588; Control versus 53: p = 0.0221; Control versus 54: p < 0.0001; Control versus 57: p = 0.9993; Control versus 58: p = 0.0644; Control versus 60: p = 0.5937; Control versus 61: p < 0.0001; Control versus 62: p = 0.1254; Control versus 63: p = 0.0971; Control versus 65: p = 0.5359; Control versus 66: p < 0.0001.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Biofilm formation. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using one‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.0001; Control versus 47: p < 0.0001; Control versus 50: p < 0.0001; Control versus 52: p = 0.0588; Control versus 53: p = 0.0221; Control versus 54: p < 0.0001; Control versus 57: p = 0.9993; Control versus 58: p = 0.0644; Control versus 60: p = 0.5937; Control versus 61: p < 0.0001; Control versus 62: p = 0.1254; Control versus 63: p = 0.0971; Control versus 65: p = 0.5359; Control versus 66: p < 0.0001.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control

    Quantification of chitin content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.1409; Control versus 47: p = 0.9911; Control versus 50: p = 0.9996; Control versus 52: p = 0.0012; Control versus 53: p = 0.408; Control versus 54: p = 0.408; Control versus 57: p = 0.0034; Control versus 58: p = 0.0024; Control versus 60: p < 0.0001; Control versus 61: p = 0.0007; Control versus 62: p = 0.0005; Control versus 63: p < 0.0001; Control versus 65: p = 0.0403; Control versus 66: p < 0.0001.

    Journal: Mycoses

    Article Title: Integrated Genomic and Phenotypic Analyses Reveal Convergent Resistance Patterns in Clinical Candida tropicalis Isolates

    doi: 10.1111/myc.70181

    Figure Lengend Snippet: Quantification of chitin content. The black bar represents the control strain C. tropicalis MYA‐3404, that is sensitive to antifungal agents. The grey bars represent the hospital isolates. Statistical significance was calculated using One‐way ANOVA ( p < 0.0001) coupled to Dunnett's multiple comparisons test: Control versus 46: p = 0.1409; Control versus 47: p = 0.9911; Control versus 50: p = 0.9996; Control versus 52: p = 0.0012; Control versus 53: p = 0.408; Control versus 54: p = 0.408; Control versus 57: p = 0.0034; Control versus 58: p = 0.0024; Control versus 60: p < 0.0001; Control versus 61: p = 0.0007; Control versus 62: p = 0.0005; Control versus 63: p < 0.0001; Control versus 65: p = 0.0403; Control versus 66: p < 0.0001.

    Article Snippet: SNPs of the ATCC C. tropicalis MYA‐3404 genomes were compared to the SNPs of the isolates by using the snippy multicommand (snippy‐base application v4.5.0) [ ] that generates a core genome multiple alignment against a common reference.

    Techniques: Control