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s intermedius strain atcc  (ATCC)


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    ATCC s intermedius strain atcc
    Genomic characteristics of the 27 studied S. <t> intermedius </t> strains
    S Intermedius Strain Atcc, supplied by ATCC, used in various techniques. Bioz Stars score: 94/100, based on 157 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/s intermedius strain atcc/product/ATCC
    Average 94 stars, based on 157 article reviews
    s intermedius strain atcc - by Bioz Stars, 2026-05
    94/100 stars

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    1) Product Images from "Pangenome analysis and virulence profiling of Streptococcus intermedius"

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    Journal: BMC Genomics

    doi: 10.1186/s12864-021-07829-2

    Genomic characteristics of the 27 studied S. intermedius strains
    Figure Legend Snippet: Genomic characteristics of the 27 studied S. intermedius strains

    Techniques Used: Plasmid Preparation, Infection

    Genome sequencing details of the 13 S. intermedius strains from our study
    Figure Legend Snippet: Genome sequencing details of the 13 S. intermedius strains from our study

    Techniques Used: Sequencing, Concentration Assay, Extraction

    Circular representation of the 27 studied S. intermedius genomes. Genomic sequences were aligned using strain ATCC 27335 as reference. The alignment gaps tend to coincide with the regions of low G + C contents. The rings, from the inside out, display the size in kbp; GC skew; G + C content; followed by genomes as listed in the left legend
    Figure Legend Snippet: Circular representation of the 27 studied S. intermedius genomes. Genomic sequences were aligned using strain ATCC 27335 as reference. The alignment gaps tend to coincide with the regions of low G + C contents. The rings, from the inside out, display the size in kbp; GC skew; G + C content; followed by genomes as listed in the left legend

    Techniques Used: Genomic Sequencing

    16S rRNA-based phylogenetic relationships of S. intermedius strains using the Maximum Likelihood method with Kimura 2-parameter. The scale bar indicates the evolutionary distance between the sequences determined by a 0.005 substitution per nucleotide position. Numbers at the nodes indicate bootstrap values obtained from 1,000 replicates
    Figure Legend Snippet: 16S rRNA-based phylogenetic relationships of S. intermedius strains using the Maximum Likelihood method with Kimura 2-parameter. The scale bar indicates the evolutionary distance between the sequences determined by a 0.005 substitution per nucleotide position. Numbers at the nodes indicate bootstrap values obtained from 1,000 replicates

    Techniques Used:

    Clustered gene presence/ absence and accessory genome distribution calculated by pangenome analysis among the 27 studied S. intermedius strains. Left: core-genome phylogeny; the three clusters in the dendrogram are delineated by red lines; right: heatmap of core genes
    Figure Legend Snippet: Clustered gene presence/ absence and accessory genome distribution calculated by pangenome analysis among the 27 studied S. intermedius strains. Left: core-genome phylogeny; the three clusters in the dendrogram are delineated by red lines; right: heatmap of core genes

    Techniques Used:

    Phylogenetic tree of S. intermedius strains based upon SNPs extracted from the core genome. Sequences were aligned using ClustalW with default parameters and phylogenetic inferences obtained using the Maximum likelihood method within the MEGA, version 7, software. Nodes indicate bootstrap support from 1000 replicates.
    Figure Legend Snippet: Phylogenetic tree of S. intermedius strains based upon SNPs extracted from the core genome. Sequences were aligned using ClustalW with default parameters and phylogenetic inferences obtained using the Maximum likelihood method within the MEGA, version 7, software. Nodes indicate bootstrap support from 1000 replicates.

    Techniques Used: Software

    Differential distribution of COG functional categories in S. intermedius : a proportion of six classes of functional categories in strain-specific and core genes; b functional categories in strain-specific and core genes; c functional categories in the 27 S. intermedius strains. Category abbreviations are as follows: C, energy production and conversion; E, amino acid transport and metabolism; F, nucleotide transport and metabolism; G, carbohydrate transport and metabolism; H, coenzyme transport and metabolism; I, lipid transport and metabolism; P, inorganic ion transport and metabolism; Q, secondary metabolites biosynthesis, transport and catabolism; X, mobilome: prophages, transposons; A, RNA processing and modification; B, chromatin structure and dynamics; J, translation, ribosomal structure and biogenesis; K, transcription; L, replication, recombination and repair; D, cell cycle control, cell division, chromosomal partitioning; M, cell wall/membrane/envelope biogenesis; N, cell motility; O, posttranslational modification, protein turnover, chaperones; T, signal transduction mechanisms; U, intracellular trafficking, secretion, and vesicular transport; V, defense mechanisms; W, extracellular structures; Z, cytoskeleton; R, general function predicted only; S, function unknown
    Figure Legend Snippet: Differential distribution of COG functional categories in S. intermedius : a proportion of six classes of functional categories in strain-specific and core genes; b functional categories in strain-specific and core genes; c functional categories in the 27 S. intermedius strains. Category abbreviations are as follows: C, energy production and conversion; E, amino acid transport and metabolism; F, nucleotide transport and metabolism; G, carbohydrate transport and metabolism; H, coenzyme transport and metabolism; I, lipid transport and metabolism; P, inorganic ion transport and metabolism; Q, secondary metabolites biosynthesis, transport and catabolism; X, mobilome: prophages, transposons; A, RNA processing and modification; B, chromatin structure and dynamics; J, translation, ribosomal structure and biogenesis; K, transcription; L, replication, recombination and repair; D, cell cycle control, cell division, chromosomal partitioning; M, cell wall/membrane/envelope biogenesis; N, cell motility; O, posttranslational modification, protein turnover, chaperones; T, signal transduction mechanisms; U, intracellular trafficking, secretion, and vesicular transport; V, defense mechanisms; W, extracellular structures; Z, cytoskeleton; R, general function predicted only; S, function unknown

    Techniques Used: Functional Assay, Modification, Control, Membrane, Transduction

    Plot representing the numbers of new and unique genes found as each isolate of S. intermedius is added
    Figure Legend Snippet: Plot representing the numbers of new and unique genes found as each isolate of S. intermedius is added

    Techniques Used:

    Fitted curves indicating the characteristics of core- and pan-genomes from 27 studied S. intermedius strains. a curve showing the relationship between the core genome and the number of genomes, b curve showing the relationship between the pan-genome and the number of genomes. As the number of genomes sequenced increased, the pan-genome size increased, whereas the core-genome size decreased, thus indicating an open pan-genome model. The gradual extension of the pangenome with addition of new genomes describes an open pan-genome model of S. intermedius. The number of genes that each strain contains is documented from comprehensive statistical analysis given earlier in Table
    Figure Legend Snippet: Fitted curves indicating the characteristics of core- and pan-genomes from 27 studied S. intermedius strains. a curve showing the relationship between the core genome and the number of genomes, b curve showing the relationship between the pan-genome and the number of genomes. As the number of genomes sequenced increased, the pan-genome size increased, whereas the core-genome size decreased, thus indicating an open pan-genome model. The gradual extension of the pangenome with addition of new genomes describes an open pan-genome model of S. intermedius. The number of genes that each strain contains is documented from comprehensive statistical analysis given earlier in Table

    Techniques Used:

    Unique Virulence-associated genes detected in the 27 studied S. intermedius genomes
    Figure Legend Snippet: Unique Virulence-associated genes detected in the 27 studied S. intermedius genomes

    Techniques Used:

    Antimicrobial resistance genes of studied S. intermedius strains
    Figure Legend Snippet: Antimicrobial resistance genes of studied S. intermedius strains

    Techniques Used:

    CRISPR elements found in studied S. intermedius strains
    Figure Legend Snippet: CRISPR elements found in studied S. intermedius strains

    Techniques Used: CRISPR



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    Genomic characteristics of the 27 studied S. intermedius strains

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Genomic characteristics of the 27 studied S. intermedius strains

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques: Plasmid Preparation, Infection

    Genome sequencing details of the 13 S. intermedius strains from our study

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Genome sequencing details of the 13 S. intermedius strains from our study

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques: Sequencing, Concentration Assay, Extraction

    Circular representation of the 27 studied S. intermedius genomes. Genomic sequences were aligned using strain ATCC 27335 as reference. The alignment gaps tend to coincide with the regions of low G + C contents. The rings, from the inside out, display the size in kbp; GC skew; G + C content; followed by genomes as listed in the left legend

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Circular representation of the 27 studied S. intermedius genomes. Genomic sequences were aligned using strain ATCC 27335 as reference. The alignment gaps tend to coincide with the regions of low G + C contents. The rings, from the inside out, display the size in kbp; GC skew; G + C content; followed by genomes as listed in the left legend

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques: Genomic Sequencing

    16S rRNA-based phylogenetic relationships of S. intermedius strains using the Maximum Likelihood method with Kimura 2-parameter. The scale bar indicates the evolutionary distance between the sequences determined by a 0.005 substitution per nucleotide position. Numbers at the nodes indicate bootstrap values obtained from 1,000 replicates

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: 16S rRNA-based phylogenetic relationships of S. intermedius strains using the Maximum Likelihood method with Kimura 2-parameter. The scale bar indicates the evolutionary distance between the sequences determined by a 0.005 substitution per nucleotide position. Numbers at the nodes indicate bootstrap values obtained from 1,000 replicates

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques:

    Clustered gene presence/ absence and accessory genome distribution calculated by pangenome analysis among the 27 studied S. intermedius strains. Left: core-genome phylogeny; the three clusters in the dendrogram are delineated by red lines; right: heatmap of core genes

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Clustered gene presence/ absence and accessory genome distribution calculated by pangenome analysis among the 27 studied S. intermedius strains. Left: core-genome phylogeny; the three clusters in the dendrogram are delineated by red lines; right: heatmap of core genes

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques:

    Phylogenetic tree of S. intermedius strains based upon SNPs extracted from the core genome. Sequences were aligned using ClustalW with default parameters and phylogenetic inferences obtained using the Maximum likelihood method within the MEGA, version 7, software. Nodes indicate bootstrap support from 1000 replicates.

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Phylogenetic tree of S. intermedius strains based upon SNPs extracted from the core genome. Sequences were aligned using ClustalW with default parameters and phylogenetic inferences obtained using the Maximum likelihood method within the MEGA, version 7, software. Nodes indicate bootstrap support from 1000 replicates.

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques: Software

    Differential distribution of COG functional categories in S. intermedius : a proportion of six classes of functional categories in strain-specific and core genes; b functional categories in strain-specific and core genes; c functional categories in the 27 S. intermedius strains. Category abbreviations are as follows: C, energy production and conversion; E, amino acid transport and metabolism; F, nucleotide transport and metabolism; G, carbohydrate transport and metabolism; H, coenzyme transport and metabolism; I, lipid transport and metabolism; P, inorganic ion transport and metabolism; Q, secondary metabolites biosynthesis, transport and catabolism; X, mobilome: prophages, transposons; A, RNA processing and modification; B, chromatin structure and dynamics; J, translation, ribosomal structure and biogenesis; K, transcription; L, replication, recombination and repair; D, cell cycle control, cell division, chromosomal partitioning; M, cell wall/membrane/envelope biogenesis; N, cell motility; O, posttranslational modification, protein turnover, chaperones; T, signal transduction mechanisms; U, intracellular trafficking, secretion, and vesicular transport; V, defense mechanisms; W, extracellular structures; Z, cytoskeleton; R, general function predicted only; S, function unknown

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Differential distribution of COG functional categories in S. intermedius : a proportion of six classes of functional categories in strain-specific and core genes; b functional categories in strain-specific and core genes; c functional categories in the 27 S. intermedius strains. Category abbreviations are as follows: C, energy production and conversion; E, amino acid transport and metabolism; F, nucleotide transport and metabolism; G, carbohydrate transport and metabolism; H, coenzyme transport and metabolism; I, lipid transport and metabolism; P, inorganic ion transport and metabolism; Q, secondary metabolites biosynthesis, transport and catabolism; X, mobilome: prophages, transposons; A, RNA processing and modification; B, chromatin structure and dynamics; J, translation, ribosomal structure and biogenesis; K, transcription; L, replication, recombination and repair; D, cell cycle control, cell division, chromosomal partitioning; M, cell wall/membrane/envelope biogenesis; N, cell motility; O, posttranslational modification, protein turnover, chaperones; T, signal transduction mechanisms; U, intracellular trafficking, secretion, and vesicular transport; V, defense mechanisms; W, extracellular structures; Z, cytoskeleton; R, general function predicted only; S, function unknown

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques: Functional Assay, Modification, Control, Membrane, Transduction

    Plot representing the numbers of new and unique genes found as each isolate of S. intermedius is added

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Plot representing the numbers of new and unique genes found as each isolate of S. intermedius is added

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques:

    Fitted curves indicating the characteristics of core- and pan-genomes from 27 studied S. intermedius strains. a curve showing the relationship between the core genome and the number of genomes, b curve showing the relationship between the pan-genome and the number of genomes. As the number of genomes sequenced increased, the pan-genome size increased, whereas the core-genome size decreased, thus indicating an open pan-genome model. The gradual extension of the pangenome with addition of new genomes describes an open pan-genome model of S. intermedius. The number of genes that each strain contains is documented from comprehensive statistical analysis given earlier in Table

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Fitted curves indicating the characteristics of core- and pan-genomes from 27 studied S. intermedius strains. a curve showing the relationship between the core genome and the number of genomes, b curve showing the relationship between the pan-genome and the number of genomes. As the number of genomes sequenced increased, the pan-genome size increased, whereas the core-genome size decreased, thus indicating an open pan-genome model. The gradual extension of the pangenome with addition of new genomes describes an open pan-genome model of S. intermedius. The number of genes that each strain contains is documented from comprehensive statistical analysis given earlier in Table

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques:

    Unique Virulence-associated genes detected in the 27 studied S. intermedius genomes

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Unique Virulence-associated genes detected in the 27 studied S. intermedius genomes

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques:

    Antimicrobial resistance genes of studied S. intermedius strains

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: Antimicrobial resistance genes of studied S. intermedius strains

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques:

    CRISPR elements found in studied S. intermedius strains

    Journal: BMC Genomics

    Article Title: Pangenome analysis and virulence profiling of Streptococcus intermedius

    doi: 10.1186/s12864-021-07829-2

    Figure Lengend Snippet: CRISPR elements found in studied S. intermedius strains

    Article Snippet: A circular comparison of genomes was obtained using the online GView Server ( https://server.gview.ca/ ) with S. intermedius strain ATCC 27,335 as reference genome [ ].

    Techniques: CRISPR