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Comparative Study
. 2025 Aug 16;25(1):1332.
doi: 10.1186/s12903-025-06675-y.

A novel selective medium Sucrose-Bacitracin agar 10 for accurate isolation and identification of Streptococcus mutans

Yuwen Fang #  1   2 Qizhao Ma #  1   2 Wei Zhao  1 Nian Liu  1 Lei Cheng  1   3 Jing Chen  4   5 Jing Zou  6   7
Affiliations
Comparative Study

A novel selective medium Sucrose-Bacitracin agar 10 for accurate isolation and identification of Streptococcus mutans

Yuwen Fang et al. BMC Oral Health. .

Abstract

Background: To develop and evaluate Sucrose-Bacitracin agar with 10% sucrose (SB-10), a novel selective medium designed to enhance the isolation and identification of Streptococcus mutans, a key cariogenic pathogen in dental caries.

Methods: SB-10 was compared to Mitis Salivarius Bacitracin agar with 20% sucrose (MSB-20) for its ability to support S. mutans growth, promote distinctive colony morphology, and differentiate it from other oral bacteria. Sugar particle formation was assessed using wild-type and mutant strains of S. mutans lacking glucosyltransferases B and C (GtfB and GtfC). Liquid chromatography was performed to characterize the sugar particles around colonies. The specificity and clinical utility of SB-10 were further assessed by culturing clinical saliva samples and confirming S. mutans colonies via 16S rRNA sequencing.

Results: SB-10 supported robust S. mutans growth with larger colonies and distinctive sugar particle formation compared to MSB-20. GtfB and GtfC were essential for sugar particle deposition around colonies. SB-10 demonstrated high specificity by suppressing the growth of non-target oral bacteria and accurately isolating S. mutans from clinical saliva samples, with all colonies confirmed as S. mutans via 16S rRNA sequencing.

Conclusions: SB-10 is a novel selective medium that enhances the isolation and identification of S. mutans, characterized by unique sugar particles deposition and colony morphology.

Keywords: Streptococcus mutans; Dental caries; Glucosyltransferases; Selective medium; Sucrose-Bacitracin agar.

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Conflict of interest statement

Declarations. Ethics approval and consent to participate: The present study was approved by the Institutional Review Board of West China Hospital of Stomatology (WCHSIRB-D-2024–221) and was conducted in accordance with the Declaration of Helsinki. Written informed consent was obtained from the participants prior to their participation in the study. Consent for publication: Not applicable. Competing interests: The authors declare no competing interests.

Figures

Fig. 1
Fig. 1
CFU counts of S. mutans on BHIA under aerobic and anaerobic conditions. The colony-forming units (CFU) of S. mutans were quantified after incubation on BHI plates under aerobic and anaerobic conditions. “ND” indicates not detected
Fig. 2
Fig. 2
Effects of sucrose concentration on CFU counts and colony morphology of S. mutans. a CFU of S. mutans on BHIA, SB and MSB media with varying sucrose concentrations. Colony diameters of S. mutans on BHIA, SB and MSB media with varying sucrose concentrations. Data are presented as mean ± standard deviation from three independent biological replicates, with 10 colonies per replicate. Representative microscopic image (20 × magnification) showing colony morphology of S. mutans grown on SB-10 medium. Contrast was modified to highlight morphological features. The red dashed circle indicates the typical sugar particle deposition surrounding bacterial colonies. Statistical significance is indicated as ***P < 0.001, and ****P < 0.0001, and “NS” indicates not significant
Fig. 3
Fig. 3
Effects of glucosyltransferases on CFU counts and colony morphology of S. mutans. a CFU of S. mutans UA159, UA159 ΔgtfB, and UA159 ΔgtfB/C grown on SB-10, and MSB-20 media. b Colony diameters of S. mutans UA159, UA159 ΔgtfB, and UA159 ΔgtfB/C on SB-10, and MSB-20 media. Data are presented as mean ± standard deviation from three independent biological replicates, with 10 colonies per replicate. c Morphological characteristics of UA159 ΔgtfB on SB-10. d Morphological characteristics of UA159 ΔgtfB/C colonies on SB-10. Contrast was modified to highlight morphological features. Statistical significance is indicated as ****P < 0.0001 and “NS” indicates not significant
Fig. 4
Fig. 4
Growth and morphological characteristics of common oral bacteria. CFU of S. mutans, S. epidermidis, E. faecalis, S. sobrinus, S. oralis, S. salivarius, S. gordonii, and S. sanguinis on BHI, SB-10, and MSB-20 media.  Colony diameters of S. mutans, S. epidermidis, E. faecalis, S. sobrinus, S. oralis, S. salivarius, S. gordonii, and S. sanguinis on BHI, SB-10, and MSB-20 media. Data are presented as mean ± standard deviation from three independent biological replicates, with 10 colonies per replicate. Morphological characteristics of S. mutans on SB-10 media under oblique light. Morphological characteristics of S. sobrinus colony on SB-10 media under oblique light. The contrast was modified to highlight morphological features. Statistical significance is indicated as ****P < 0.0001, “NS” indicates not significant, and “ND” indicates not detected
Fig. 5
Fig. 5
Morphological comparison of S. mutans colonies from clinical saliva samples incubated on SB-10 and MSB-20 agar media. Representative image of S. mutans colonies from clinical saliva samples incubated on SB-10 agar medium for 72 h under anaerobic conditions. The inset shows a microscopic image at 20 × magnification, with the red dashed circle indicating the characteristic sugar particle deposition around the colony edges. Representative image of S. mutans colonies from clinical saliva samples incubated on MSB-20 agar medium for 72 h under anaerobic conditions. The inset shows a microscopic image at 20 × magnification, with no noticeable sugar particle deposition observed
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