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Lactobacillus plantarum (Orla-Jensen) Bergey et al. (ATCC® 8014-MINI-PACK)

Strain Designations: 17-5 [BUCSAV 217, BUCSAV 449, Glaxo 664, ICPB 2080, NCDO 82, NCIB 6376, NCIB 8014, NCIB 8030]  /  Type Strain: no  /  Biosafety Level: 1

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Deposited As Lactobacillus arabinosus Fred et al.
Strain Designations 17-5 [BUCSAV 217, BUCSAV 449, Glaxo 664, ICPB 2080, NCDO 82, NCIB 6376, NCIB 8014, NCIB 8030]
Application ATCC® 8014-MINI-PACK™ consists of 6 ready-to-use vials of ATCC® 8014™ frozen in 200 µL of glycerol stock, eliminating the need to rehydrate and culture the strain prior to use. Each vial is provided with a 2-D barcode for easy storage and tracking, as well as peel-off labels for fast and reliable recordkeeping.  Learn more about ATCC® MinisDeveloped by the leaders in microbial cultivation and preservation, ATCC® Minis provide a convenient, ready-to-use solution for handling quality control strains. ATCC® Minis are authenticated and backed by ATCC polyphasic testing – ensuring the same consistent and reliable reference materials you’ve come to trust for ATCC Genuine Cultures®. It is easy to ensure the quality of your products with ATCC® Minis – just open, plate, and go! .

Assay of amino acids
Assay of biotin
Assay of calcium pantothenate
Assay of niacinamide nicotinamide
Assay of nicotinic acid niacin
Assay of pantothenic acid
Assay of tryptophan L-tryptophan
Metabolizes mevalonic acid
Produces lactic acid lactate
Quality control strain
Produces lactic acid from coconut water
Food testing
Pharmaceutical and Personal Care
Bacteriophage host
Synthesis of ribitol teichoic acids
Energy-producing pathways
Biosafety Level 1

Biosafety classification is based on U.S. Public Health Service Guidelines, it is the responsibility of the customer to ensure that their facilities comply with biosafety regulations for their own country.

Product Format frozen
6 ready-to-use vials of ATCC® 8014™ in glycerol stock
Storage Conditions -70°C or colder, store upright. Storage at -20°C is acceptable for up to 1 year.
Preceptrol® no
Type Strain no
Comments Each NCIB culture from a different depositor
Accumulation of biotin
D-biotin conversion and metabolism
Biotin transport and accumulation
Formation of acetylmethylcarbinol
Effect of pantothenate derivatives on growth and coenzyme-A synthesis
Sulfur nutrition
Nitrate reduction
Effect of oleic acid on free biotin uptake
Ribitol-5-phosphate dehydrogenase
DNA base composition (45.1 moles % GC)
Medium ATCC® Medium 416: Lactobacilli MRS Agar/Broth
Growth Conditions
Temperature: 37°C
Atmosphere: 5% CO2
Name of Depositor E McCoy
Special Collection ATCC® Minis
References

AACC Niacin--microbiological method. St. Paul, MN, 1999

Arch. Biochem. 16: 357-360, 1948.

Costilow RN, Humphreys TW. Nitrate reduction by certain strains of Lactobacillus plantarum. Science 121: 168, 1955. PubMed: 13225760

Lichstein HC, Waller JR. Factors affecting the accumulation of biotin by Lactobacillus arabinosus. J. Bacteriol. 81: 65-69, 1961. PubMed: 13761907

AOAC International Amino acids in vitamin preparations. Gaithersburg, MD:AOAC International;AOAC "Official Methods of Analysis of the AOAC International" 960.47.

Pierpoint WS, et al. The effect of some pantothenate derivatives on growth and coenzyme-A synthesis in bacteria. Biochem. J. 61: 190-197, 1955. PubMed: 13260197

. . Biochim. Biophys. Acta 67: 525-530, 1963.

Moat AG, Lichstein HC. Factors affecting the formation of acetylmethylcarbinol by lactobacillus arabinosus. J. Bacteriol. 66: 324-327, 1953. PubMed: 13096481

Shiota T, Clark FM. Studies on the sulfur nutrition of Lactobacillus arabinosus. J. Bacteriol. 70: 339-344, 1955. PubMed: 13263295

Durr IF, Shwayri AN. Metabolism of mevalonic acid by Lactobacillus plantarum . J. Bacteriol. 88: 361-366, 1964. PubMed: 14203352

Oxenburgh MS, Snoswell AM. Use of molar growth yields for the evaluation of energy-producing pathways in Lactobacillus plantarum. J. Bacteriol. 89: 913-914, 1965. PubMed: 14273684

Waller JR, Lichstein HC. Cell permeability: a factor in the biotin-oleate relationship in Lactobacillus arabinosus. II. Effect of oleic acid and other surfactants on free biotin uptake. J. Bacteriol. 93: 151-155, 1967. PubMed: 6020402

Miller A, et al. Deoxyribonucleic acid base composition of lactobacilli determined by thermal denaturation. J. Bacteriol. 102: 278-280, 1970. PubMed: 5437728

Birnbaum J, Lichstein HC. Conversion of D-biotin to biotin vitamers by Lactobacillus arabinosus. J. Bacteriol. 89: 1035-1040, 1965. PubMed: 14276092

Strittmatter CF. Electron transport to oxygen in lactobacilli. J. Biol. Chem. 234: 2789-2793, 1959. PubMed: 13856390

Glaser L. The synthesis of teichoic acids. II. Polyribitol phosphate. J. Biol. Chem. 239: 3178-3186, 1964. PubMed: 14245358

Waller JR, Lichstein HC. Biotin transport and accumulation by cells of Lactobacillus plantarum. I. General properties of the system. J. Bacteriol. 90: 843-852, 1965. PubMed: 5847805

AOAC International Vitamin assays, microbiological method. Gaithersburg, MD:AOAC International;AOAC "Official Methods of Analysis of the AOAC International" 960.46.

Bringel F, et al. Arginine biosynthesis and regulation in Lactobacillus plantarum: the carA gene and the argCJBDF cluster are divergently transcribed. J. Bacteriol. 179: 2697-2706, 1997. PubMed: 9098069

Mayo B, et al. Cloning and characterization of cspL and cspP, two cold-inducible genes from Lactobacillus plantarum. J. Bacteriol. 179: 3039-3042, 1997. PubMed: 9139925

Birnbaum J, Lichstein HC. Metabolism of biotin and analogues of biotin by microorganisms. 3. Degradation of oxybiotin and desthiobiotin by Lactobacillus plantarum. J. Bacteriol. 92: 921-924, 1966. PubMed: 5926759

Waller JR, Lichstein HC. Biotin transport and accumulation by cells of Lactobacillus plantarum. II. Kinetics of the system. J. Bacteriol. 90: 853-856, 1965. PubMed: 5847806

Bartido SM, et al. Lactic acid fermentation of concentrated coconut water. Proc. Asia-Pacific Biotechnol. Congr. 1986: 93-99, 1986.

Birnbaum J, Lichstein HC. Metabolism of biotin and analogues of biotin by microorganisms. II. Further studies on the conversion of D-biotin to biotin vitamers by Lactobacillus plantarum. J. Bacteriol. 92: 913-920, 1966. PubMed: 5926758

Dietary Supplements: Oil-and Water-Soluble Vitamins with Minerals Tablets. Rockville, MD: U.S. Pharmacopeia; USP USP34-NF29, 2011

Applied Biosystems, MicroSeq Food Panel.

Cross References

Nucleotide (GenBank) : X62346 L.plantarum plasmid 8014-2 DNA (from Bc1I to HincII site).

Nucleotide (GenBank) : AF189765 Lactobacillus plantarum alpha-galactosidase (melA) gene, complete cds.

Nucleotide (GenBank) : U97139 Lactobacillus plantarum 16S/23S ribosomal RNA large intergenic spacer region, tRNA-Ile and tRNA-Ala genes, complete sequence.

Nucleotide (GenBank) : X99978 Lactobacillus plantarum citrulline biosynthetic gene cluster (carAB operon and argC, J, B, D, F-ccl operon) and usg and dsg partial sequences.

Notice: Necessary PermitsPermits

These permits may be required for shipping this product:

  • Customers located in the state of Hawaii will need to contact the Hawaii Department of Agriculture to determine if an Import Permit is required. A copy of the permit or documentation that a permit is not required must be sent to ATCC in advance of shipment.
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