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l paracasei alc1  (ATCC)


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    Structured Review

    ATCC l paracasei alc1
    Growth curve of ethanol-tolerant LAB in 0, 2%, 5%, 8%, 10%, 12% (v/v) of ethanol-added MRS broth. ( A ) L. <t>paracasei</t> <t>Alc1,</t> ( B ) L. rhamnosus AA, ( C ) P. acidilactici <t>Alc3,</t> ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5
    L Paracasei Alc1, supplied by ATCC, used in various techniques. Bioz Stars score: 93/100, based on 14 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/l+paracasei+alc1/pmc11040769-129-8-42?v=ATCC
    Average 93 stars, based on 14 article reviews
    l paracasei alc1 - by Bioz Stars, 2026-07
    93/100 stars

    Images

    1) Product Images from "Investigating human-derived lactic acid bacteria for alcohol resistance"

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    Journal: Microbial Cell Factories

    doi: 10.1186/s12934-024-02375-4

    Growth curve of ethanol-tolerant LAB in 0, 2%, 5%, 8%, 10%, 12% (v/v) of ethanol-added MRS broth. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5
    Figure Legend Snippet: Growth curve of ethanol-tolerant LAB in 0, 2%, 5%, 8%, 10%, 12% (v/v) of ethanol-added MRS broth. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5

    Techniques Used:

    Growth curves ( A ) and survival rates ( B ) of ethanol-tolerant LAB in Makgeolli ( A , B ) and Baekseju ( C , D ). Alc1, L. paracasei Alc1; LAA, L. rhamnosus AA; Alc3, P. acidilactici Alc3; Alc4, L. paracasei Alc4; Alc5, P. acidilactici Alc5. Treatments with different letters are significantly different at p < 0.05
    Figure Legend Snippet: Growth curves ( A ) and survival rates ( B ) of ethanol-tolerant LAB in Makgeolli ( A , B ) and Baekseju ( C , D ). Alc1, L. paracasei Alc1; LAA, L. rhamnosus AA; Alc3, P. acidilactici Alc3; Alc4, L. paracasei Alc4; Alc5, P. acidilactici Alc5. Treatments with different letters are significantly different at p < 0.05

    Techniques Used:

    Bacterial ammonia production
    Figure Legend Snippet: Bacterial ammonia production

    Techniques Used:

    Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control)
    Figure Legend Snippet: Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control)

    Techniques Used: Activity Assay, Positive Control

    Antimicrobial susceptibility of the LAB isolates
    Figure Legend Snippet: Antimicrobial susceptibility of the LAB isolates

    Techniques Used:

    Growth curve of ethanol-tolerant LAB with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose
    Figure Legend Snippet: Growth curve of ethanol-tolerant LAB with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose

    Techniques Used:

    Adhesion ability of the selected LAB strains to Caco-2 cells monolayer with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Con, control; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05
    Figure Legend Snippet: Adhesion ability of the selected LAB strains to Caco-2 cells monolayer with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Con, control; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Techniques Used: Control

    IL-8 production in lipopolysaccharide (LPS)-stimulated Caco-2 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05
    Figure Legend Snippet: IL-8 production in lipopolysaccharide (LPS)-stimulated Caco-2 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Techniques Used: Cell Culture, Control

    IL-8 production in lipopolysaccharide (LPS)-stimulated HT-29 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05
    Figure Legend Snippet: IL-8 production in lipopolysaccharide (LPS)-stimulated HT-29 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Techniques Used: Cell Culture, Control



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    ATCC l paracasei alc1
    Growth curve of ethanol-tolerant LAB in 0, 2%, 5%, 8%, 10%, 12% (v/v) of ethanol-added MRS broth. ( A ) L. <t>paracasei</t> <t>Alc1,</t> ( B ) L. rhamnosus AA, ( C ) P. acidilactici <t>Alc3,</t> ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5
    L Paracasei Alc1, supplied by ATCC, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/l+paracasei+alc1/pmc11040769-129-8-42?v=ATCC
    Average 93 stars, based on 1 article reviews
    l paracasei alc1 - by Bioz Stars, 2026-07
    93/100 stars
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    Growth curve of ethanol-tolerant LAB in 0, 2%, 5%, 8%, 10%, 12% (v/v) of ethanol-added MRS broth. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: Growth curve of ethanol-tolerant LAB in 0, 2%, 5%, 8%, 10%, 12% (v/v) of ethanol-added MRS broth. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques:

    Growth curves ( A ) and survival rates ( B ) of ethanol-tolerant LAB in Makgeolli ( A , B ) and Baekseju ( C , D ). Alc1, L. paracasei Alc1; LAA, L. rhamnosus AA; Alc3, P. acidilactici Alc3; Alc4, L. paracasei Alc4; Alc5, P. acidilactici Alc5. Treatments with different letters are significantly different at p < 0.05

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: Growth curves ( A ) and survival rates ( B ) of ethanol-tolerant LAB in Makgeolli ( A , B ) and Baekseju ( C , D ). Alc1, L. paracasei Alc1; LAA, L. rhamnosus AA; Alc3, P. acidilactici Alc3; Alc4, L. paracasei Alc4; Alc5, P. acidilactici Alc5. Treatments with different letters are significantly different at p < 0.05

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques:

    Bacterial ammonia production

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: Bacterial ammonia production

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques:

    Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control)

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control)

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques: Activity Assay, Positive Control

    Antimicrobial susceptibility of the LAB isolates

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: Antimicrobial susceptibility of the LAB isolates

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques:

    Growth curve of ethanol-tolerant LAB with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: Growth curve of ethanol-tolerant LAB with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques:

    Adhesion ability of the selected LAB strains to Caco-2 cells monolayer with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Con, control; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: Adhesion ability of the selected LAB strains to Caco-2 cells monolayer with different carbon sources. ( A ) L. paracasei Alc1, ( B ) L. rhamnosus AA, ( C ) P. acidilactici Alc3, ( D ) L. paracasei Alc4, ( E ) P. acidilactici Alc5. Con, control; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques: Control

    IL-8 production in lipopolysaccharide (LPS)-stimulated Caco-2 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: IL-8 production in lipopolysaccharide (LPS)-stimulated Caco-2 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques: Cell Culture, Control

    IL-8 production in lipopolysaccharide (LPS)-stimulated HT-29 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Journal: Microbial Cell Factories

    Article Title: Investigating human-derived lactic acid bacteria for alcohol resistance

    doi: 10.1186/s12934-024-02375-4

    Figure Lengend Snippet: IL-8 production in lipopolysaccharide (LPS)-stimulated HT-29 cells when co-cultured with L. paracasei Alc1 ( A ), L. rhamnosus AA ( B ), P. acidilactici Alc3 ( C ), P. acidilactici Alc5 ( D ) using different carbon sources. Con, control; LPS, LPS-treated cells; Glu, glucose; Fru, fructose; Gal, galactose; FOS, fructooligosaccharides; B-FOS, butyl-fructooligosaccharides; 2-FL, 2-fucosyllactose; Suc, sucrose; Lac, lactose. Treatments with different letters are significantly different at p < 0.05

    Article Snippet: Fig. 3 Hemolytic activity test. ( A ) L. paracasei Alc1 ( B ) L. rhamnosus AA ( C ) P. acidilactici Alc3 ( D ) L. paracasei Alc4 ( E ) P. acidilactici Alc5 ( F ) Listeria ivanovii subsp. ivanovii ATCC 19,119 (positive control) Antibiotic resistance genes in a probiotic genome can be transferred to pathogenic bacteria to generate antibiotic-resistant pathogens [ , ].

    Techniques: Cell Culture, Control