Location, characterization and expression of lytic enzyme-encoding gene, lytA, of Lactococcus lactis bacteriophage φ US3 † (original) (raw)
Purification and characterization of the lytic activity induced by the prolate-headed bacteriophage P001 in Lactococcus lactis
michael teuber
Journal of Applied Microbiology, 1997
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Lytr, a phage-derived amidase is most effective in induced lysis of Lactococcus lactis compared with other lactococcal amidases and glucosaminidases
Girbe Buist
International dairy …, 2007
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Gene Cloning and Expression and Secretion of Listeria monocytogenes Bacteriophage-Lytic Enzymes in Lactococcus lactis
Siegfried Scherer
Applied and Environmental Microbiology, 2000
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Analysis of the catalytic domain of the lysin of the lactococcal bacteriophage Tuc2009 by chimeric gene assembling
pedro garcia
Fems Microbiology Letters, 1996
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Genome analysis of the obligately lytic bacteriophage 4268 of Lactococcus lactis provides insight into its adaptable nature
Aidan Coffey
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Identification, characterisation and specificity of a cell wall lytic enzyme from Lactobacillus fermentum BR11
M. Turner
FEMS Microbiology Letters, 2004
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Autolysis of Lactococcus lactis Is Influenced by Proteolysis
Girbe Buist
Journal of Bacteriology, 1998
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Characterisation of the lytic-lysogenic switch of the lactococcal bacteriophage Tuc2009.
John Kenny
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Gene organization and transcription of a late-expressed region of a Lactococcus lactis phage
Ricardo Parreira
Journal of bacteriology, 1996
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Leenhouts KJ, Gietema J, Kok J, Venema G.. Chromosomal stabilization of the proteinase genes in Lactococcus lactis. Appl Environ Microbiol 57: 2568-2575
Kees Leenhouts
Applied and Environmental Microbiology
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Characterization of the lytic–lysogenic switch of the lactococcal bacteriophage Tuc2009
Douwe Van Sinderen
Virology, 2006
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Autolysis of lactococci: Detection of lytic enzymes by polyacrylamide gel electrophoresis and characterization in buffer systems
Hilde Ostlie, Gerd Vegarud
Applied and Environmental Microbiology
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Molecular cloning and nucleotid sequence of the gene encoding major peptidoglycan hydrolase of Lactococcus lactis, a muramidase needed for cell separation
Kees Leenhouts
Journal of Bacteriology
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Characterization of transcription initiation and termination signals of the proteinase genes of Lactococcus lactis Wg2 and enhancement of proteolysis in L. lactis
Jos van der Vossen, Jan Kodde
1992
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Identification of a gene required for maturation of an extracellular lactococcal serine proteinase
Soemitro Soemitro
Journal of Bacteriology, 1989
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Autolysis of Lactococcus lactis is influenced by proteolysis
Girbe Buist
Journal of bacteriology, 1998
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A maturation protein is essential for production of active forms of Lactococcus lactis SK11 serine proteinase located in or secreted from the cell envelope
Guus Simons
1989
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A Nine-Residue Synthetic Propeptide Enhances Secretion Efficiency of Heterologous Proteins in Lactococcus lactis
Qiang Tang
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Integration andGeneReplacement intheLactococcus lactis lac Operon: Induction ofaCryptic Phospho-3Glucosidase inLacG-Deficient Strains
Guus Simons
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Isolation of Lactococcus lactis Mutants Simultaneously Resistant to the Cell Wall-Active Bacteriocin Lcn972, Lysozyme, Nisin, and Bacteriophage c2
Saulius Kulakauskas
Applied and Environmental Microbiology, 2012
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Controlled Production of Stable Heterologous Proteins in Lactococcus lactis
I. Poquet
Applied and Environmental Microbiology, 2002
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Purification and characterization of the free form of the lactococcal extracellular proteinase and its autoproteolytic cleavage products
Knut Sletten
Journal of general microbiology, 1991
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Molecular cloning and nucleotide sequence of the gene encoding the major peptidoglycan hydrolase of Lactococcus lactis, a muramidase needed for cell separation
Girbe Buist
Journal of Bacteriology
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Autolysis of Lactococcus lactis Is Increased upon D-Alanine Depletion of Peptidoglycan and Lipoteichoic Acids
Pascal Hols
Journal of Bacteriology, 2005
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Autolysis of Lactococcus lactis Is Increased upon d -Alanine Depletion of Peptidoglycan and Lipoteichoic Acids
Girbe Buist
Journal of Bacteriology, 2005
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Bacteriophage receptors of Lactococcus lactis subsp. âdiacetylactisâ F7/2 and Lactococcus lactis subsp. cremoris Wg2â1
michael teuber
FEMS Microbiology Letters, 1991
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Characterization of the prolate-headed lactococcal bacteriophage ØvML3: location of the lysin gene and its DNA homology with other prolate-headed phages
Michael Teuber
1991
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Engineering Signal Peptide for Enhanced Protein Secretion in Lactococcus
AMra Woon
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Expression of prophage-encoded endolysins contributes to autolysis of Lactococcus lactis
Girbe Buist
Applied Microbiology and Biotechnology, 2016
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Lactobacillli expressing llama VHH fragments neutralise Lactococcusphages
Lennart Hammarström
BMC Biotechnology, 2007
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Transcriptional Pattern of Genes Coding for the Proteolytic System of Lactococcus lactis and Evidence for Coordinated Regulation of Key Enzymes by Peptide Supply
Christine Delorme
Journal of Bacteriology, 2001
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Construction ofa Bacteriophage-Resistant Derivative of Lactococcus lactis subsp. lactis 425AbyUsingthe Conjugal Plasmid pNP40
Aidan Harrington
1991
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Lactococcus lactis M4, a potential host for the expression of heterologous proteins
Ali Baradaran
Microbial cell …, 2011
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