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srta antibody (Cusabio)

Name: srta antibody
Brand: Cusabio
Rating: 93 (2 reviews)

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Cusabio srta antibody

Hyperin reduces biofilm formation, adhesion and cytotoxicity. ( a ) The absorbance at 600 nm of S. aureus USA300 when it was cocultured with various concentrations of hyperin. ( b ) Biofilm formation of S. aureus USA300 after treatment with different concentrations of hyperin. S. aureus USA300 was cultured with different concentrations of hyperin for 24 h, the samples were stained with 0.2% crystal violet, and the absorbance at 570 nm was measured after treatment with 35% glacial acetic acid. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. ( c ) Adhesion of S. aureus USA300 to lung epithelial cells when different concentrations of hyperin were added. A549 cells were treated with S. aureus USA300 and different concentrations of hyperin for 1.5 h, after which the cells were washed, harvested, plated onto LB agar medium and cultured. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. ( d ) Survival rate of A549 cells treated with hyperin. The data are shown as the mean and SD. ( e ) LDH levels in A549 cells and the survival of cells determined by live/dead staining ( f ). A549 cells were treated with S. aureus USA300 and different concentrations of hyperin for 6 h. The LDH levels in the supernatant were measured with an LDH kit, and the cells were stained with live/dead reagents. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. The bar represents 50 μm. ( g ) The expression levels of <t>SrtA</t> <t>and</t> <t>ClfA</t> in S. aureus USA300 treated with different concentrations of hyperin. S. aureus USA300 was cocultured with different concentrations of hyperin, after which the bacteria were harvested by centrifugation and treated with SDS-PAGE loading buffer. The proteins were separated on a 10% gel and identified by specific antibodies. ( h ) Quantitative analysis of the expression levels of SrtA and ClfA ( i ). The analysis was performed with Image J 1.54 g. The data are shown as the mean and SD.** indicates p ≤ 0.01.

Srta Antibody, supplied by Cusabio, used in various techniques. Bioz Stars score: 93/100, based on 2 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 93 stars, based on 2 article reviews

srta antibody - by Bioz Stars, 2026-02

93/100 stars

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1) Product Images from "inhibitory effect of hyperin on Staphylococcus aureus pathogenicity though interactions with sortase A and sortase B"

Article Title: inhibitory effect of hyperin on Staphylococcus aureus pathogenicity though interactions with sortase A and sortase B

Journal: Scientific Reports

doi: 10.1038/s41598-025-23458-1

Figure Legend Snippet: Hyperin reduces biofilm formation, adhesion and cytotoxicity. ( a ) The absorbance at 600 nm of S. aureus USA300 when it was cocultured with various concentrations of hyperin. ( b ) Biofilm formation of S. aureus USA300 after treatment with different concentrations of hyperin. S. aureus USA300 was cultured with different concentrations of hyperin for 24 h, the samples were stained with 0.2% crystal violet, and the absorbance at 570 nm was measured after treatment with 35% glacial acetic acid. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. ( c ) Adhesion of S. aureus USA300 to lung epithelial cells when different concentrations of hyperin were added. A549 cells were treated with S. aureus USA300 and different concentrations of hyperin for 1.5 h, after which the cells were washed, harvested, plated onto LB agar medium and cultured. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. ( d ) Survival rate of A549 cells treated with hyperin. The data are shown as the mean and SD. ( e ) LDH levels in A549 cells and the survival of cells determined by live/dead staining ( f ). A549 cells were treated with S. aureus USA300 and different concentrations of hyperin for 6 h. The LDH levels in the supernatant were measured with an LDH kit, and the cells were stained with live/dead reagents. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. The bar represents 50 μm. ( g ) The expression levels of SrtA and ClfA in S. aureus USA300 treated with different concentrations of hyperin. S. aureus USA300 was cocultured with different concentrations of hyperin, after which the bacteria were harvested by centrifugation and treated with SDS-PAGE loading buffer. The proteins were separated on a 10% gel and identified by specific antibodies. ( h ) Quantitative analysis of the expression levels of SrtA and ClfA ( i ). The analysis was performed with Image J 1.54 g. The data are shown as the mean and SD.** indicates p ≤ 0.01.

Techniques Used: Cell Culture, Staining, Expressing, Bacteria, Centrifugation, SDS Page

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Journal: Scientific Reports

Article Title: inhibitory effect of hyperin on Staphylococcus aureus pathogenicity though interactions with sortase A and sortase B

doi: 10.1038/s41598-025-23458-1

Figure Lengend Snippet: Hyperin reduces biofilm formation, adhesion and cytotoxicity. ( a ) The absorbance at 600 nm of S. aureus USA300 when it was cocultured with various concentrations of hyperin. ( b ) Biofilm formation of S. aureus USA300 after treatment with different concentrations of hyperin. S. aureus USA300 was cultured with different concentrations of hyperin for 24 h, the samples were stained with 0.2% crystal violet, and the absorbance at 570 nm was measured after treatment with 35% glacial acetic acid. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. ( c ) Adhesion of S. aureus USA300 to lung epithelial cells when different concentrations of hyperin were added. A549 cells were treated with S. aureus USA300 and different concentrations of hyperin for 1.5 h, after which the cells were washed, harvested, plated onto LB agar medium and cultured. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. ( d ) Survival rate of A549 cells treated with hyperin. The data are shown as the mean and SD. ( e ) LDH levels in A549 cells and the survival of cells determined by live/dead staining ( f ). A549 cells were treated with S. aureus USA300 and different concentrations of hyperin for 6 h. The LDH levels in the supernatant were measured with an LDH kit, and the cells were stained with live/dead reagents. Data are shown as the mean with the SD, ** indicates p ≤ 0.01. The bar represents 50 μm. ( g ) The expression levels of SrtA and ClfA in S. aureus USA300 treated with different concentrations of hyperin. S. aureus USA300 was cocultured with different concentrations of hyperin, after which the bacteria were harvested by centrifugation and treated with SDS-PAGE loading buffer. The proteins were separated on a 10% gel and identified by specific antibodies. ( h ) Quantitative analysis of the expression levels of SrtA and ClfA ( i ). The analysis was performed with Image J 1.54 g. The data are shown as the mean and SD.** indicates p ≤ 0.01.

Article Snippet: ClfA antibody (Cusabio, CSB-PA692021ZA01FLB, 1:1000), and SrtA antibody (cusabio, CSB-EP3093FLF, 1:3000).

Techniques: Cell Culture, Staining, Expressing, Bacteria, Centrifugation, SDS Page

Journal: Scientific Reports

Article Title: inhibitory effect of hyperin on Staphylococcus aureus pathogenicity though interactions with sortase A and sortase B

doi: 10.1038/s41598-025-23458-1

Article Snippet: ClfA antibody (Cusabio, CSB-PA692021ZA01FLB, 1:1000), and SrtA antibody (cusabio, CSB-EP3093FLF, 1:3000).

Techniques: Cell Culture, Staining, Expressing, Bacteria, Centrifugation, SDS Page

(A) Western blot image showing that the polyclonal antibody directed against E. coli SecA recognizes a band of approximately 90 kDa in both GAS M18 and GBS NEM316 strains. (B) Conventional immunofluorescence microscopy showing the differential distribution of SecA at the surface of GBS NEM316 versus GAS strain M18 collected in exponential and stationary phase of growth. Heterogeneity of SecA distribution was quantified by eye following analysis of randomly selected fields.

Journal: PLoS ONE

Article Title: SecA Localization and SecA-Dependent Secretion Occurs at New Division Septa in Group B Streptococcus

doi: 10.1371/journal.pone.0065832

Figure Lengend Snippet: (A) Western blot image showing that the polyclonal antibody directed against E. coli SecA recognizes a band of approximately 90 kDa in both GAS M18 and GBS NEM316 strains. (B) Conventional immunofluorescence microscopy showing the differential distribution of SecA at the surface of GBS NEM316 versus GAS strain M18 collected in exponential and stationary phase of growth. Heterogeneity of SecA distribution was quantified by eye following analysis of randomly selected fields.

Article Snippet: Guinea pig polyclonal antibodies against SrtA were from Eurogentec ( www.eurogentec.com ).

Techniques: Western Blot, Immunofluorescence, Microscopy

Multiple sequence alignments of SrtA sequences of four strains of S. lugdunensis (N920143, HKU09-01, M23590, and VCU139) and S. aureus Newman using CLUSTAL 2.1. The highly conserved amino acids glutamate (E) and aspartate (D) involved in binding of calcium ions are highlighted in yellow. Stars denote highly conserved amino acids.

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Multiple sequence alignments of SrtA sequences of four strains of S. lugdunensis (N920143, HKU09-01, M23590, and VCU139) and S. aureus Newman using CLUSTAL 2.1. The highly conserved amino acids glutamate (E) and aspartate (D) involved in binding of calcium ions are highlighted in yellow. Stars denote highly conserved amino acids.

Article Snippet: Polyclonal antibodies against the recombinant SrtA were raised commercially (Genosphere Biotechnologies, Paris, France) in two rabbits by applying standard procedures of 70 days with 4 immunizations.

Techniques: Sequencing, Binding Assay

Genetic map of srtA and primer positions for PCRs, and results of PCR confirming the gene depletion of srtA in S. lugdunensis . ( A ) The gene loci of srtA in S. lugdunensis are shown before and after the recombination processes. In addition, the gene loci of srtA in S. lugdunensis are shown before and after the recombination processes and the positions of primer binding during the PCR experiments. The primer sequences are given in . ( B ) PCR products from genomic DNA of S. lugdunensis wild-type strain (Sl48), Δ srtA mutant strain (Mut47) and plasmid DNA of pBT srtA (A23) were separated by 1% agarose gels. Higher molecular bands (PCR with primer pair srtlA1F and srtlA2R) and the occurrence of corresponding bands to PCR experiments with primer pairs Ery-EF/Ery-ER, Ery-EF/srtlA2R and srtlA1F/Ery-ER confirming the deletion of srtA and following substitution by the ermB gene in the genome S. lugdunensis Δ srtA mutant strain Mut47.

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Genetic map of srtA and primer positions for PCRs, and results of PCR confirming the gene depletion of srtA in S. lugdunensis . ( A ) The gene loci of srtA in S. lugdunensis are shown before and after the recombination processes. In addition, the gene loci of srtA in S. lugdunensis are shown before and after the recombination processes and the positions of primer binding during the PCR experiments. The primer sequences are given in . ( B ) PCR products from genomic DNA of S. lugdunensis wild-type strain (Sl48), Δ srtA mutant strain (Mut47) and plasmid DNA of pBT srtA (A23) were separated by 1% agarose gels. Higher molecular bands (PCR with primer pair srtlA1F and srtlA2R) and the occurrence of corresponding bands to PCR experiments with primer pairs Ery-EF/Ery-ER, Ery-EF/srtlA2R and srtlA1F/Ery-ER confirming the deletion of srtA and following substitution by the ermB gene in the genome S. lugdunensis Δ srtA mutant strain Mut47.

Techniques: Binding Assay, Mutagenesis, Plasmid Preparation

$Western blot and SDS page experiments of S. lugdunensis wild type, Δ srtA mutant and complemented mutant strains showing the presence and localization of SrtA and consequences of a srtA deletion for the surface proteome pattern. ( A ) Western blots showing the absence of SrtA in the mutant strains but specific signals in wild types and complemented mutants. Whole cell extracts of wild type, mutant and complemented mutant strains were separated via SDS page and blotted. The Western blots were probed with specific polyclonal antibodies rose in rabbits against recombinant SrtA (anti-SrtA). Asterisk mark the specific SrtA band. ( B ) Localization of SrtA within S. lugdunensis cells. For this purpose, S. lugdunensis were grown in BHI broth medium. Cells were fractionated into the extracellular fraction (EC), cell wall fraction (CW), cytosol fraction (CY), and membrane digest fraction (MD). Proteins were separated by SDS page. After blotting, SrtA was detected in the different fractions with anti-SrtA antibodies. Asterisk mark the specific SrtA band. ( C ) Analyses of cell surface proteins of the wild-type strains and the mutant strains. The cell surface proteins were extracted in 0.1 M hydroxylamine hydrochloride. The protein extracts were separated on SDS-Page and stained with Coomassie Blue. ( D ) Cell surface protein fractions of wild type and mutant strains were separated via SDS page. After blotting, the Western blots were probed with a mixture of antibodies raised in rabbits against formaldehyde fixed whole cells of S. lugdunensis . Asterisk mark the specific SrtA band. M—page ruler, Sl44 and Sl48—wild type strains, Mut7 and Mut47—Δ srtA mutant strains, Mut7C and Mut47C—complemented Δ srtA mutant strains.$

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Western blot and SDS page experiments of S. lugdunensis wild type, Δ srtA mutant and complemented mutant strains showing the presence and localization of SrtA and consequences of a srtA deletion for the surface proteome pattern. ( A ) Western blots showing the absence of SrtA in the mutant strains but specific signals in wild types and complemented mutants. Whole cell extracts of wild type, mutant and complemented mutant strains were separated via SDS page and blotted. The Western blots were probed with specific polyclonal antibodies rose in rabbits against recombinant SrtA (anti-SrtA). Asterisk mark the specific SrtA band. ( B ) Localization of SrtA within S. lugdunensis cells. For this purpose, S. lugdunensis were grown in BHI broth medium. Cells were fractionated into the extracellular fraction (EC), cell wall fraction (CW), cytosol fraction (CY), and membrane digest fraction (MD). Proteins were separated by SDS page. After blotting, SrtA was detected in the different fractions with anti-SrtA antibodies. Asterisk mark the specific SrtA band. ( C ) Analyses of cell surface proteins of the wild-type strains and the mutant strains. The cell surface proteins were extracted in 0.1 M hydroxylamine hydrochloride. The protein extracts were separated on SDS-Page and stained with Coomassie Blue. ( D ) Cell surface protein fractions of wild type and mutant strains were separated via SDS page. After blotting, the Western blots were probed with a mixture of antibodies raised in rabbits against formaldehyde fixed whole cells of S. lugdunensis . Asterisk mark the specific SrtA band. M—page ruler, Sl44 and Sl48—wild type strains, Mut7 and Mut47—Δ srtA mutant strains, Mut7C and Mut47C—complemented Δ srtA mutant strains.

Techniques: Western Blot, SDS Page, Mutagenesis, Recombinant, Membrane, Staining

Growth and biofilm formation of S. lugdunensis wild-type strains (Sl44, Sl48) and Δ srtA mutant strains (Mut7, Mut47). ( A ) Bacterial growth was monitored for 24 h. Bacteria were cultivated in 100 mL BHI in 500 mL flask at 37 °C under permanent agitation. The experiment was done on triplicates. One representative experiment is shown. ( B ) Biofilm-forming capacities of the S. lugdunensis wild type (Sl44 and Sl48), Δ srtA mutant (Mut7 and Mut47) and complemented mutant (Mut7C and Mut47C) strains were assessed by a quantitative biofilm assay performed in microtiter plates applying crystal violet and determination of the OD 595nm . Results are shown as the mean of five independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest (** p < 0.01; *** p < 0.001). ns—not significant.

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Growth and biofilm formation of S. lugdunensis wild-type strains (Sl44, Sl48) and Δ srtA mutant strains (Mut7, Mut47). ( A ) Bacterial growth was monitored for 24 h. Bacteria were cultivated in 100 mL BHI in 500 mL flask at 37 °C under permanent agitation. The experiment was done on triplicates. One representative experiment is shown. ( B ) Biofilm-forming capacities of the S. lugdunensis wild type (Sl44 and Sl48), Δ srtA mutant (Mut7 and Mut47) and complemented mutant (Mut7C and Mut47C) strains were assessed by a quantitative biofilm assay performed in microtiter plates applying crystal violet and determination of the OD 595nm . Results are shown as the mean of five independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest (** p < 0.01; *** p < 0.001). ns—not significant.

Techniques: Mutagenesis, Bacteria, Biofilm Production Assay, Standard Deviation

Hydroxylaminolysis of LPXTG peptide by recombinant SrtA ( A ) and whole S. lugdunensis cells ( B ). ( A ) Recombinant SrtA was incubated with the sorting substrate Dabcyl-QALPETGEE-Edans (LPXTG), and peptide cleavage was monitored as an increase in fluorescence. The reactions were influenced by the addition of pHMB (inhibitor of sortase activity) and by DTT. Presence and absence of the respective substance is shown as “+” or “-“, respectively. ( B ) Same assay using the LPXTG substrate, recombinant SrtA, S. lugdunensis cell extracts from the wild-type strain Sl48, Δ srtA mutant Mut47 and complemented Mut47C. All results are shown as the mean of three independent experiments with the standard deviation (SD).

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Hydroxylaminolysis of LPXTG peptide by recombinant SrtA ( A ) and whole S. lugdunensis cells ( B ). ( A ) Recombinant SrtA was incubated with the sorting substrate Dabcyl-QALPETGEE-Edans (LPXTG), and peptide cleavage was monitored as an increase in fluorescence. The reactions were influenced by the addition of pHMB (inhibitor of sortase activity) and by DTT. Presence and absence of the respective substance is shown as “+” or “-“, respectively. ( B ) Same assay using the LPXTG substrate, recombinant SrtA, S. lugdunensis cell extracts from the wild-type strain Sl48, Δ srtA mutant Mut47 and complemented Mut47C. All results are shown as the mean of three independent experiments with the standard deviation (SD).

Techniques: Recombinant, Incubation, Fluorescence, Activity Assay, Mutagenesis, Standard Deviation

Pastorex staph plus agglutination test and binding of S. lugdunensis strains to ECM proteins. ( A ): Pastorex staph plus test of S. lugdunensis wild-type strains (Sl44, Sl48) and Δ srtA mutant strains (Mut7, Mut47) grown overnight on blood agar plates. Material was mixed in one drop of Pastorex reagent on a Pastorex disposable card. Results were recorded as positive on visual agglutination of wild-type strains and as negative for both mutants showing no agglutination. ( B ): Binding of S. lugdunensis wild-type strains (Sl44 and Sl48), Δ srtA mutants (Mut7 and Mut47), and complemented mutant strains (Mut7C and Mut47C) to immobilized fibrinogen (Fg), fibronectin (Fn), and vitronectin (Vn) assessed by ELISA adherence assays. Results are shown as the mean of four independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest (** p < 0.01; *** p < 0.001). ns—not significant.

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Pastorex staph plus agglutination test and binding of S. lugdunensis strains to ECM proteins. ( A ): Pastorex staph plus test of S. lugdunensis wild-type strains (Sl44, Sl48) and Δ srtA mutant strains (Mut7, Mut47) grown overnight on blood agar plates. Material was mixed in one drop of Pastorex reagent on a Pastorex disposable card. Results were recorded as positive on visual agglutination of wild-type strains and as negative for both mutants showing no agglutination. ( B ): Binding of S. lugdunensis wild-type strains (Sl44 and Sl48), Δ srtA mutants (Mut7 and Mut47), and complemented mutant strains (Mut7C and Mut47C) to immobilized fibrinogen (Fg), fibronectin (Fn), and vitronectin (Vn) assessed by ELISA adherence assays. Results are shown as the mean of four independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest (** p < 0.01; *** p < 0.001). ns—not significant.

Techniques: Agglutination, Binding Assay, Mutagenesis, Enzyme-linked Immunosorbent Assay, Standard Deviation

Effect of the sortase A inhibitor phenyl vinyl sulfone (PVS) on biofilm formation. The minimum inhibitory concentrations (MIC) of the sortase inhibitor PVS of S. lugdunensis wild type (SL44 and Sl48), Δ srtA mutant (Mut7 and Mut47) were found about 12 mM. Data are presented as mean adsorptions of triplicate determinations. Single representative experiments out of three are presented. Error bars show standard deviations (SD).

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Effect of the sortase A inhibitor phenyl vinyl sulfone (PVS) on biofilm formation. The minimum inhibitory concentrations (MIC) of the sortase inhibitor PVS of S. lugdunensis wild type (SL44 and Sl48), Δ srtA mutant (Mut7 and Mut47) were found about 12 mM. Data are presented as mean adsorptions of triplicate determinations. Single representative experiments out of three are presented. Error bars show standard deviations (SD).

Techniques: Mutagenesis

Adherence of S. lugdunensis wild-type (Sl44 and Sl48), Δ srtA mutant (Mut7 and Mut47) and complemented mutant (Mut7C and Mut47C) strains to immobilized human host cells (( A ): endothelial cell line EA.hy926, ( B ): fetal lung A549 fibroblasts and ( C ): urinary bladder carcinoma cell line 5637 (ATCC HTB-9™)) assessed by ELISA adherence assays. Results are shown as the mean of at three independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest, but the differences were not significant.

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Adherence of S. lugdunensis wild-type (Sl44 and Sl48), Δ srtA mutant (Mut7 and Mut47) and complemented mutant (Mut7C and Mut47C) strains to immobilized human host cells (( A ): endothelial cell line EA.hy926, ( B ): fetal lung A549 fibroblasts and ( C ): urinary bladder carcinoma cell line 5637 (ATCC HTB-9™)) assessed by ELISA adherence assays. Results are shown as the mean of at three independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest, but the differences were not significant.

Techniques: Mutagenesis, Enzyme-linked Immunosorbent Assay, Standard Deviation

Internalization of FITC-labelled S. lugdunensis wild-type (Sl44 and Sl48), Δ srtA mutant (Mut7 and Mut47) and complemented mutant (Mut7C and Mut47C) strains by human host cells (( A ): endothelial cell line EA.hy926, ( B ): fetal lung A549 fibroblasts and ( C ): urinary bladder carcinoma cell line 5637 (ATCC HTB-9™)) assessed by flow cytometry and computed in relation to S. aureus Cowan 1. Results are shown as the mean of three independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest (** p < 0.01; *** p < 0.001). ns—not significant.

Journal: Microorganisms

Article Title: Role of SrtA in Pathogenicity of Staphylococcus lugdunensis

doi: 10.3390/microorganisms8121975

Figure Lengend Snippet: Internalization of FITC-labelled S. lugdunensis wild-type (Sl44 and Sl48), Δ srtA mutant (Mut7 and Mut47) and complemented mutant (Mut7C and Mut47C) strains by human host cells (( A ): endothelial cell line EA.hy926, ( B ): fetal lung A549 fibroblasts and ( C ): urinary bladder carcinoma cell line 5637 (ATCC HTB-9™)) assessed by flow cytometry and computed in relation to S. aureus Cowan 1. Results are shown as the mean of three independent experiments with the standard deviation (SD). Statistical analyses were performed using one-way ANOVA with Bonferroni multiple comparisons posttest (** p < 0.01; *** p < 0.001). ns—not significant.

Techniques: Mutagenesis, Flow Cytometry, Standard Deviation

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1) Product Images from "inhibitory effect of hyperin on Staphylococcus aureus pathogenicity though interactions with sortase A and sortase B"

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