| scholarly article | Q13442814 |
| review article | Q7318358 |
| P2093 | author name string | Kleinberg I | |
| P2860 | cites work | X-ray diffraction examination of calcium phosphate in dental plaque | Q46283048 |
| Effect of urea concentration on human plaque pH levels in situ | Q51689029 | ||
| Fractionation of human dental plaque and the characterization of its cellular and acellular components | Q51689032 | ||
| THE PH OF DENTAL PLAQUES IN THE DIFFERENT AREAS OF THE MOUTH BEFORE AND AFTER MEALS AND THEIR RELATIONSHIP TO THE PH AND RATE OF FLOW OF RESTING SALIVA. | Q51691956 | ||
| An analysis of factors influencing diffusion from dental plaque into a moving film of saliva and the implications for caries. | Q52517249 | ||
| Saliva in health and disease: an appraisal and update | Q34020531 | ||
| Alkali production by oral bacteria and protection against dental caries | Q34091344 | ||
| Salivary and metabolic factors involved in oral malodor formation | Q35639515 | ||
| Development and outlook for a caries vaccine | Q37804014 | ||
| Adherent interactions which may affect microbial ecology in the mouth | Q38353947 | ||
| Bacterial adhesion to oral tissues: a model for infectious diseases | Q38626544 | ||
| Effect of pH and counter ions on the zeta-potential of oral streptococci | Q39181152 | ||
| Short-chain carboxylic-acid-stimulated, PMN-mediated gingival inflammation | Q39304081 | ||
| Effect of orthodontic band placement on the chemical composition of human incisor tooth plaque | Q39309149 | ||
| Root Surface Caries: Review of the Literature and Significance of the Problem | Q39923170 | ||
| Formation and accumulation of acid on the tooth surface | Q39994568 | ||
| The antimony pH electrode and its role in the assessment and interpretation of dental plaque pH. | Q40243339 | ||
| The relationship between dietary sugar experience and the quantity and biochemical composition of dental plaque in man | Q40513705 | ||
| Role of micro-organisms in caries etiology | Q40743365 | ||
| Human oral microbial ecology and dental caries and periodontal diseases | Q41169942 | ||
| Incidence of selected ureolytic bacteria in human dental plaque from sites with differing salivary access | Q41285740 | ||
| Caries resistance in children with chronic renal failure: plaque pH, salivary pH, and salivary composition | Q41486737 | ||
| Effect of Orthodontic Banding on Localized Oral Lactobacilli | Q43863669 | ||
| Contribution of lactic and other acids to the pH of a human salivary sediment system during glucose catabolism | Q44247024 | ||
| 1. The effect of a dextranase mouthwash on dental plaque in young adults and children | Q44650836 | ||
| Effect of urea concentration on its utilization, on the pH and the formation of ammonia and carbon dioxide in a human salivary sediment system | Q44775901 | ||
| Ultrastructure of the approximal dental plaque and the underlying normal and carious enamel | Q45090547 | ||
| Arginolytic and ureolytic activities of pure cultures of human oral bacteria and their effects on the pH response of salivary sediment and dental plaque in vitro | Q45094444 | ||
| Synthesis of insoluble dextran and its significance in the formation of gelatinous deposits by plaque-forming streptococci | Q45133967 | ||
| Calcium and phosphorus levels in human dental plaque-variations according to site of collection | Q45243783 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | bacteria | Q10876 |
| Streptococcus mutans | Q131452 | ||
| dental caries | Q133772 | ||
| P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
| P304 | page(s) | 108-125 | |
| P577 | publication date | 2002-01-01 | |
| P1433 | published in | Journal of Dental Research | Q6295082 |
| P1476 | title | A mixed-bacteria ecological approach to understanding the role of the oral bacteria in dental caries causation: an alternative to Streptococcus mutans and the specific-plaque hypothesis | |
| P478 | volume | 13 |
| Q31041222 | A Highly Arginolytic Streptococcus Species That Potently Antagonizes Streptococcus mutans. |
| Q92282233 | A Novel Small Molecule, ZY354, Inhibits Dental Caries-Associated Oral Biofilms |
| Q59481209 | A link between copper and dental caries in human teeth identified by X-ray fluorescence elemental mapping |
| Q35950206 | A microfluidic platform with pH imaging for chemical and hydrodynamic stimulation of intact oral biofilms |
| Q38739886 | A new arginine-based dental adhesive system: formulation, mechanical and anti-caries properties |
| Q37587635 | Achieving probiotic effects via modulating oral microbial ecology |
| Q30826789 | Acidogenicity and acid tolerance of Streptococcus oralis and Streptococcus mitis isolated from plaque of healthy and incipient caries teeth |
| Q27022745 | Advancements toward a systems level understanding of the human oral microbiome |
| Q35018118 | Alkali production in the mouth and its relationship with certain patient's characteristics |
| Q37677369 | An in vitro biofilm model system maintaining a highly reproducible species and metabolic diversity approaching that of the human oral microbiome |
| Q35189545 | An in vitro study on the effect of free amino acids alone or in combination with nisin on biofilms as well as on planktonic bacteria of Streptococcus mutans |
| Q93017997 | Anti-Oral Pathogens of Tecoma stans (L.) and Cassia javanica (L.) Flower Volatile Oils in Comparison with Chlorhexidine in Accordance with Their Folk Medicinal Uses |
| Q38363826 | Antimicrobial Activity of Few Medicinal Plants against Clinically Isolated Human Cariogenic Pathogens-An In Vitro Study |
| Q93018980 | Approaches to Modulate Biofilm Ecology |
| Q64992600 | Are the mutans streptococci still considered relevant to understanding the microbial etiology of dental caries? |
| Q46008000 | Arginine Improves pH Homeostasis via Metabolism and Microbiome Modulation. |
| Q91642174 | Arginine Metabolism in Supragingival Oral Biofilms as a Potential Predictor of Caries Risk |
| Q43947344 | Bacterial biofilm composition in caries and caries-free subjects |
| Q31154846 | Bacterial profile of dentine caries and the impact of pH on bacterial population diversity |
| Q87083143 | Bactericidal effect of extracts and metabolites of Robinia pseudoacacia L. on Streptococcus mutans and Porphyromonas gingivalis causing dental plaque and periodontal inflammatory diseases |
| Q49958222 | Beyond Streptococcus mutans: clinical implications of the evolving dental caries aetiological paradigms and its associated microbiome |
| Q34455357 | Beyond Streptococcus mutans: dental caries onset linked to multiple species by 16S rRNA community analysis |
| Q46035120 | Biocultural implications of oral pathology in an ancient Central California population. |
| Q37370541 | Caries arresting effect of silver diamine fluoride on dentine carious lesion with S. mutans and L. acidophilus dual-species cariogenic biofilm. |
| Q40045465 | Characterisation of a sucrose-independent in vitro biofilm model of supragingival plaque |
| Q35908564 | Codon-optimized fluorescent mTFP and mCherry for microscopic visualization and genetic counterselection of streptococci and enterococci |
| Q35627674 | Combinatorial effects of arginine and fluoride on oral bacteria |
| Q33744992 | Could Alkali Production Be Considered an Approach for Caries Control? |
| Q27013918 | Dental caries from a molecular microbiological perspective |
| Q27008799 | Dental caries pathogenicity: a genomic and metagenomic perspective |
| Q91939118 | Development and Formulation of the Experimental Dentifrice Based on Passiflora mollissima (Tumbo) with and without Fluoride Anion: Antibacterial Activity on Seven Antimicrobial Strains |
| Q33692518 | Diversity of Lactobacillus species in deep carious lesions of primary molars |
| Q50103048 | Ecological Approaches to Dental Caries Prevention: Paradigm Shift or Shibboleth? |
| Q41242756 | Ecological Effect of Arginine on Oral Microbiota |
| Q51330248 | Effect of L-arginine dietary supplementation on salivary urea concentration and pH in physically active individuals. |
| Q51028269 | Effects of rinsing with arginine bicarbonate and urea solutions on initial enamel lesions in situ. |
| Q92358840 | Evaluating the relationship between acidogenicity and acid tolerance for oral streptococci from children with or without a history of caries |
| Q36266562 | Evaluation of bacteria-induced enamel demineralization using optical profilometry. |
| Q50108143 | Evaluation of biofilm formation on novel copper-catalyzed azide-alkyne cycloaddition (CuAAC)-based resins for dental restoratives |
| Q34421390 | Factors associated with alkali production from arginine in dental biofilms |
| Q55223927 | Fighting biofilms with lantibiotics and other groups of bacteriocins. |
| Q30366322 | Functional expression of dental plaque microbiota. |
| Q40081123 | Identification of a discriminative metabolomic fingerprint of potential clinical relevance in saliva of patients with periodontitis using 1H nuclear magnetic resonance (NMR) spectroscopy. |
| Q34189389 | Identifying low pH active and lactate-utilizing taxa within oral microbiome communities from healthy children using stable isotope probing techniques |
| Q90582215 | Influence of Medicinal Plant Extracts on the Growth of Oral Pathogens Streptococcus Mutans and Lactobacillus Acidophilus: An In-Vitro Study |
| Q36314732 | Interspecies interactions within oral microbial communities |
| Q35646018 | Meta-omics uncover temporal regulation of pathways across oral microbiome genera during in vitro sugar metabolism |
| Q49679738 | Metabolic Interactions between Bacteria and Fungi in Commensal Oral Biofilms |
| Q35839103 | Microbial community succession on developing lesions on human enamel |
| Q58762372 | Middle Holocene plant cultivation on the Atlantic Forest coast of Brazil? |
| Q30431253 | Minimum intervention dentistry principles and objectives |
| Q35552587 | Molecular Genetic Analysis of the Virulence of Oral Bacterial Pathogens: An Historical Perspective |
| Q39193468 | Molecular detection of bacteria associated to caries activity in dentinal lesions. |
| Q35835048 | Non-culturable bacteria in complex commensal populations |
| Q35108884 | Nutrition and dental caries |
| Q42291192 | Oral Bacterial Acid-Base Metabolism in Caries Screening: A Proof-Of-Concept Study |
| Q35777873 | Oral Microbiome Metabolism: From "Who Are They?" to "What Are They Doing?". |
| Q37633863 | Oral biofilms: emerging concepts in microbial ecology |
| Q91787955 | Oral microbiome and health |
| Q100533639 | Oral microbiota and dental caries data from monozygotic and dizygotic twin children |
| Q27313809 | PCR-Based Identification of Oral Streptococcal Species |
| Q34684303 | Phenotypic heterogeneity of genomically-diverse isolates of Streptococcus mutans |
| Q33978446 | Photodynamic therapy disinfection of carious tissue mediated by aluminum-chloride-phthalocyanine entrapped in cationic liposomes: an in vitro and clinical study |
| Q46364497 | Phytochemical composition and in vitro screening of the antimicrobial activity of essential oils on oral pathogenic bacteria |
| Q37831234 | Point-of-care salivary microbial tests for detection of cariogenic species--clinical relevance thereof--review |
| Q49911626 | Polyphosphate-accumulating Bacteria: Potential Contributors to Mineral Dissolution in the Oral Cavity. |
| Q40751611 | Potentials of mouthwashes in disinfecting cariogenic bacteria and biofilms leading to inhibition of caries |
| Q99549524 | Regulating Oral Biofilm from Cariogenic State to Non-Cariogenic State via Novel Combination of Bioactive Therapeutic Composite and Gene-Knockout |
| Q89880045 | Risk Factors Associated with Carious Lesions in Permanent First Molars in Children: A Seven-Year Retrospective Cohort Study |
| Q46268508 | Scardovia wiggsiae and its potential role as a caries pathogen |
| Q33789072 | Streptococcus mutans and oral streptococci in dental plaque |
| Q89791118 | Sucrose promotes caries progression by disrupting the microecological balance in oral biofilms: an in vitro study |
| Q59807733 | Supragingival Plaque Microbiome Ecology and Functional Potential in the Context of Health and Disease |
| Q39725767 | Susceptibility to dental caries and the salivary proline-rich proteins |
| Q38065987 | The Stephan Curve revisited |
| Q46823320 | The antibacterial and antifungal activity of essential oils extracted from Guatemalan medicinal plants |
| Q35830064 | The anticaries effect of a food extract (shiitake) in a short-term clinical study. |
| Q33373281 | The ecological proportion of indigenous bacterial populations in saliva is correlated with oral health status |
| Q35056750 | The effect of arginine on oral biofilm communities. |
| Q47297017 | The implication of probiotics in the prevention of dental caries |
| Q35634641 | The oral metagenome in health and disease |
| Q35229608 | The oral microbiome diversity and its relation to human diseases |
| Q37798105 | The role of bacteria in the caries process: ecological perspectives |
| Q26825297 | The role of hydrogen peroxide in environmental adaptation of oral microbial communities |
| Q49886045 | Therapeutic Strategies Targeting Cariogenic Biofilm Microenvironment. |
| Q36318708 | Transcriptional profile of glucose-shocked and acid-adapted strains of Streptococcus mutans. |
| Q54677548 | Two-dimensional gel-based proteomic of the caries causative bacterium Streptococcus mutans UA159 and insight into the inhibitory effect of carolacton. |
| Q40057553 | Type 2 diabetes as a risk indicator for dental caries in Korean adults: the 2011-2012 Korea national health and nutrition examination survey |
| Q35566611 | Urease activity as a risk factor for caries development in children during a three-year study period: a survival analysis approach. |
| Q35238115 | Urease activity in dental plaque and saliva of children during a three-year study period and its relationship with other caries risk factors |
| Q35791716 | Urease and Dental Plaque Microbial Profiles in Children |
| Q42958422 | Use of chewing gum containing 15% of xylitol and reduction in mutans streptococci salivary levels |
| Q33255351 | Virulence properties of cariogenic bacteria |
| Q34234676 | Zoocin A and lauricidin in combination reduce Streptococcus mutans growth in a multispecies biofilm |
| Q57217290 | [Effect of arginine dentifrice on remineralization of initial enamel carious lesions] |
| Q51143957 | [Recent achievements in the microbiological etiology of dental caries]. |
| Q50047035 | pH-sensitive Compounds for Selective Inhibition of Acid-producing Bacteria. |
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