3.2.1.17	(GlcNAc)6 + H2O	-	Rhea americana	(GlcNAc)3	and smaller amounts of (GlcNAc)2 and (GlcNAc)4 endo-splitting, hydrolyzes preferentially the third glycosidic linkage from the nonreducing end	?	380807	
3.2.1.17	4-methylumbelliferyl tetra N-acetyl-beta-chitotetraoside + H2O	a synthetic fluorogenic substrate	Hirudo medicinalis	4-methylumbelliferol + tetra N-acetyl-beta-chitotetraose	-	?	429767	
3.2.1.17	4-methylumbelliferyl tetra N-acetyl-beta-chitotetraoside + H2O	a synthetic fluorogenic substrate	Hirudo verbana	4-methylumbelliferol + tetra N-acetyl-beta-chitotetraose	-	?	429767	
3.2.1.17	4-methylumbelliferyl tetra N-acetyl-beta-chitotetraoside + H2O	a synthetic fluorogenic substrate	Hirudo orientalis	4-methylumbelliferol + tetra N-acetyl-beta-chitotetraose	-	?	429767	
3.2.1.17	4-methylumbelliferyl-beta-D-N,N',N''-triacetylchitotrioside + H2O	-	Gallus gallus	?	-	?	372031	
3.2.1.17	4-methylumbelliferyl-beta-D-N,N',N''-triacetylchitotrioside + H2O	-	Musca domestica	?	-	?	372031	
3.2.1.17	cell wall of Bacillus subtilis + H2O	-	Hirudo medicinalis	?	-	?	447274	
3.2.1.17	cell wall of Escherichia coli + H2O	-	Penaeus penicillatus	?	-	?	447275	
3.2.1.17	cell wall of Escherichia coli + H2O	-	Hirudo medicinalis	?	-	?	447275	
3.2.1.17	cell wall of Micrococcus luteus + H2O	-	Penaeus penicillatus	?	-	?	447276	
3.2.1.17	cell wall of Micrococcus luteus + H2O	-	Gallus gallus	?	-	?	447276	
3.2.1.17	cell wall of Micrococcus luteus + H2O	-	Homo sapiens	?	-	?	447276	
3.2.1.17	cell wall of Micrococcus luteus + H2O	-	Cristaria plicata	?	-	?	447276	
3.2.1.17	cell wall of Micrococcus luteus + H2O	substrate for muramidase activity of isoform cLys3	Harmonia axyridis	?	-	?	447276	
3.2.1.17	cell wall of Micrococcus lysodeikticus + H2O	-	Gallus gallus	?	-	?	446204	
3.2.1.17	cell wall of Micrococcus lysodeikticus + H2O	-	Homo sapiens	?	-	?	446204	
3.2.1.17	cell wall of Micrococcus lysodeikticus + H2O	-	Schistocerca gregaria	?	-	?	446204	
3.2.1.17	cell wall of Micrococcus lysodeikticus + H2O	-	Apostichopus japonicus	?	-	?	446204	
3.2.1.17	cell wall of Micrococcus lysodeikticus + H2O	-	Hippoglossus hippoglossus	?	-	?	446204	
3.2.1.17	cell wall of Micrococcus lysodeikticus + H2O	-	Bemisia tabaci	?	-	?	446204	
3.2.1.17	cell wall of Streptococcus agalactiae + H2O	-	Penaeus penicillatus	?	-	?	447277	
3.2.1.17	cell wall of Vibrio alginolyticus + H2O	-	Penaeus penicillatus	?	-	?	447278	
3.2.1.17	chitin + H2O	-	Oncorhynchus mykiss	sugars	-	?	115499	
3.2.1.17	chitin + H2O	-	Triticum aestivum	sugars	reducing	?	115499	
3.2.1.17	chito-oligosaccharide + H2O	oligosaccharides with a degree of polymerization between three and six units, product analysis by mass and NMR spectrometry	Gallus gallus	?	-	?	449757	
3.2.1.17	chitohexaose + H2O	-	Meretrix lusoria	?	-	?	381646	
3.2.1.17	chitohexaose + H2O	-	Hirudo medicinalis	chitobiose + chitotetraose	mass spectrometry analysis	?	430034	
3.2.1.17	chitohexaose + H2O	-	Hirudo verbana	chitobiose + chitotetraose	mass spectrometry analysis	?	430034	
3.2.1.17	chitohexaose + H2O	-	Hirudo orientalis	chitobiose + chitotetraose	mass spectrometry analysis	?	430034	
3.2.1.17	chitopentaose + H2O	-	Nephtys hombergii	?	-	?	115501	
3.2.1.17	chitopentaose + H2O	-	Meretrix lusoria	?	-	?	115501	
3.2.1.17	chitopentaose + H2O	-	Alopochen aegyptiaca	N-acetyl-D-glucosamine + chitobiose + chitotetraose + chitotriose	amount in descending order, binding kinetics with chitotriose, overview	?	430041	
3.2.1.17	chitopentaose + H2O	-	Aix sponsa	N-acetyl-D-glucosamine + chitobiose + chitotriose + chitotetraose	amount in descending order, binding kinetics with chitotriose, overview	?	430042	
3.2.1.17	chitosan + H2O	DA48	Gallus gallus	N-acetyl-D-glucosamine + ?	-	?	448503	
3.2.1.17	chitotetraose + H2O	-	Ruminantia	chitotriose + N-acetylglucosamine	-	?	115498	
3.2.1.17	chitotetraose + H2O	-	Bos taurus	chitotriose + N-acetylglucosamine	-	?	115498	
3.2.1.17	chitotetraose + H2O	-	Ovis aries	chitotriose + N-acetylglucosamine	-	?	115498	
3.2.1.17	chitotetraose + H2O	-	Anas platyrhynchos	chitotriose + N-acetylglucosamine	-	?	115498	
3.2.1.17	chitotetraose + H2O	-	Cervidae	chitotriose + N-acetylglucosamine	-	?	115498	
3.2.1.17	colloidal chitin	-	Pseudomonas aeruginosa	sugars	-	?	115505	
3.2.1.17	colloidal chitin	-	Medicago sativa	sugars	-	?	115505	
3.2.1.17	colloidal chitin + H2O	-	Schistocerca gregaria	?	-	?	361247	
3.2.1.17	ethylene glycol chitin + H2O	-	Gallus gallus	sugars	-	?	115504	
3.2.1.17	ethylene glycol chitin + H2O	-	Meleagris gallopavo	sugars	-	?	115504	
3.2.1.17	ethylene glycol chitin + H2O	-	Homo sapiens	sugars	-	?	115504	
3.2.1.17	ethylene glycol chitin + H2O	-	Pseudomonas aeruginosa	sugars	-	?	115504	
3.2.1.17	ethylene glycol chitin + H2O	-	Brassica sp.	sugars	-	?	115504	
3.2.1.17	ethylene glycol chitin + H2O	-	Streptomyces globisporus	sugars	-	?	115504	
3.2.1.17	ethylene glycol chitin + H2O	-	Triticum aestivum	sugars	reducing	?	115504	
3.2.1.17	ethylene glycol chitin + H2O	-	Gallus gallus	?	-	?	259788	
3.2.1.17	ethylene glycol chitin + H2O	-	Homo sapiens	?	-	?	259788	
3.2.1.17	GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta + H2O	-	Struthio camelus	GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta + (GlcNAc)2	main products	?	405272	
3.2.1.17	GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta + H2O	-	Gallus gallus	GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta + ?	-	?	405273	
3.2.1.17	GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta + H2O	-	Anser anser	GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta	-	?	405275	
3.2.1.17	glycol chitin + H2O	-	Gallus gallus	chitin oligosaccharides	-	?	115502	
3.2.1.17	glycol chitin + H2O	-	Homo sapiens	chitin oligosaccharides	-	?	115502	
3.2.1.17	glycol chitin + H2O	-	Musca domestica	chitin oligosaccharides	-	?	115502	
3.2.1.17	glycol chitin + H2O	-	Bos taurus	chitin oligosaccharides	-	?	115502	
3.2.1.17	glycol chitin + H2O	-	Ovis aries	chitin oligosaccharides	-	?	115502	
3.2.1.17	glycol chitin + H2O	-	Triticum aestivum	chitin oligosaccharides	reducing	?	115502	
3.2.1.17	glycol chitin + H2O	-	Gallus gallus	?	-	?	361246	
3.2.1.17	L-gamma-glutamine-4-nitroanilide + H2O	substrate for isopeptidase activity of isoform cLys3	Harmonia axyridis	L-glutamate + 4-nitroaniline	-	?	447663	
3.2.1.17	lyophilized cell wall of Micrococcus luteus + H2O	-	Salmo salar	?	-	?	430361	
3.2.1.17	lyophilized cell wall of Micrococcus luteus + H2O	-	Meretrix lusoria	?	-	?	430361	
3.2.1.17	lyophilized cell wall of Micrococcus luteus + H2O	-	Alopochen aegyptiaca	?	-	?	430361	
3.2.1.17	lyophilized cell wall of Micrococcus luteus + H2O	-	Aix sponsa	?	-	?	430361	
3.2.1.17	lyophilized cell walls of Micrococcus lysodiekticus + H2O	-	Brassica oleracea	?	-	?	447707	
3.2.1.17	Micrococcus lysodeikticus cell wall + H2O	-	Gallus gallus	?	-	?	430421	
3.2.1.17	Micrococcus lysodeikticus cell wall + H2O	-	Ruditapes philippinarum	?	-	?	430421	
3.2.1.17	Micrococcus lysodeikticus cell wall + H2O	-	Hirudo medicinalis	?	-	?	430421	
3.2.1.17	Micrococcus lysodeikticus cell wall + H2O	-	Hirudo verbana	?	-	?	430421	
3.2.1.17	Micrococcus lysodeikticus cell wall + H2O	-	Hirudo orientalis	?	-	?	430421	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Meleagris gallopavo	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Homo sapiens	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Bos taurus	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Oryctolagus cuniculus	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Canis lupus familiaris	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Medicago sativa	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Brassica sp.	?	-	?	89	
3.2.1.17	additional information	Micrococcus lysodeikticus cells	Streptomyces globisporus	?	-	?	89	
3.2.1.17	additional information	cell walls of Clostridium acetobulyticum, not: Micrococcus cells, beta-N-acetyl chitotetraoside	Clostridium acetobutylicum	?	-	?	89	
3.2.1.17	additional information	not: p-nitrophenyl-N-acetylglucosaminide	Oncorhynchus mykiss	?	-	?	89	
3.2.1.17	additional information	not: Micrococcus luteus cells	Musca domestica	?	-	?	89	
3.2.1.17	additional information	Micrococcus luteus	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	Micrococcus luteus	Homo sapiens	?	-	?	89	
3.2.1.17	additional information	Micrococcus luteus	Equus caballus	?	-	?	89	
3.2.1.17	additional information	Micrococcus luteus	Ornithodoros moubata	?	-	?	89	
3.2.1.17	additional information	high chitinase activity	Carica papaya	?	-	?	89	
3.2.1.17	additional information	pyocinogenic: no activity towards intact cells of gram-negative and gram-positive bacteria, lysis of chloroform-killed gram-negative and gram-positive bacteria	Pseudomonas aeruginosa	?	-	?	89	
3.2.1.17	additional information	gram-negative bacteria better substrate than gram-positive bacteria	Lederbergvirus P22	?	-	?	89	
3.2.1.17	additional information	phage T4: e lysozyme more specific than hen egg-white lysozyme, e lysozyme: hydrolysis of murein chains in which N-acetylmuraminic acid is substituted by peptide side chains L-Ala-D-Glu-meso-diaminopimelic acid-D-Ala	Tequatrovirus T4	?	-	?	89	
3.2.1.17	additional information	often acts as chitinase: EC 3.2.1.14	Bos taurus	?	-	?	89	
3.2.1.17	additional information	often acts as chitinase: EC 3.2.1.14	Triticum aestivum	?	-	?	89	
3.2.1.17	additional information	AcmB expression is modulated during cell growth, AcmB is not involved in cell separation but contributes to cellular autolysis	Lactococcus lactis	?	-	?	89	
3.2.1.17	additional information	LycGL may be involved in antibacterial immune response activated by bacterial vaccine as an accute-phase molecule	Larimichthys crocea	?	-	?	89	
3.2.1.17	additional information	Glu18 and Asp30 are the catalytic residues of TJL. The catalytic mechanism of TJL is a retaining mechanism that proceeds through a covalent sugar-enzyme intermediate	Ruditapes philippinarum	?	-	?	89	
3.2.1.17	additional information	lysozyme has inhibitory effects on the proliferation of vascular endothelial cell in vitro	Bacillus sp. (in: Bacteria)	?	-	?	89	
3.2.1.17	additional information	lysozyme inhibits Clostridium perfringens type A and its alpha-toxin production	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	lysozyme is able to kill Entamoeba histolytica trophozoites	Homo sapiens	?	-	?	89	
3.2.1.17	additional information	lysozyme is able to kill Entamoeba histolytica trophozoites	Bos taurus	?	-	?	89	
3.2.1.17	additional information	the enzyme shows lytic activity towards Micrococcus lysodeikticus	Musca domestica	?	-	?	89	
3.2.1.17	additional information	enzyme exhibits potent lytic activities against fish pathogens	Penaeus monodon	?	-	?	89	
3.2.1.17	additional information	enzyme lyses specifically Thermus aquaticus cells, with 79% activity on Thermus fhermophilus HB8 and 76% activity on Thermus filífformis	Thermus virus IN93	?	-	?	89	
3.2.1.17	additional information	lysozyme and its derived peptides are able to bind biotin-labeled pUC19 plasmid DNA. The nonpeptide RAWVAWRNR, amino acids 107-115 of lysozyme, binds DNA with a KD value comparable to histones. Binding results in conformational changes. Lysozyme may represent part of the innate immune system with a very broad protective spectrum	Homo sapiens	?	-	?	89	
3.2.1.17	additional information	recombinant enzyme displays inhibitory activity against Gram-negative and Gram-positive bacteria	Musca domestica	?	-	?	89	
3.2.1.17	additional information	measurement of activity by lytic activity against Micrococcus luteus	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	antimicrobial activities of lysozyme derivatives are tested against Staphylococcus aureus ATCC 121002 and Escherichia coli ATCC 29998, as gram-positive and gram-negative representatives, respectively. The enzyme is activa against Staphylococcus aureus, but only poorly against Escherichia coli, overview	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	a suspension of Micrococcus lysodeikticus is used as a substrate	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	a suspension of Micrococcus lysodeikticus is used as a substrate for HLysG2	Homo sapiens	?	-	?	89	
3.2.1.17	additional information	cell walls of Micrococcus lysodeikticus, are a substrate, while those of Xanthomonas campestris pv. malvacearum and Xanthomonas oryzae pv. oryzae are no substrates	Tequatrovirus T4	?	-	?	89	
3.2.1.17	additional information	interaction between gold nanorods and lysozyme as moddel protein, the enzyme retains a high fraction of its native structure with a slight increase in the helical content at the expense of beta-turns. Comparison of the gold nanorod treated lysozyme with free enzyme reveals higher thermodynamic stability under denaturing condition. The enzyme's integrity gains more conformational stability in the vicinity of gold nanorods while its lytic activity does not show any undesirable change	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	lysis of Micrococcus luteus bacteria, the double mutant lyses bacteria effectively at alginate, mucin and DNA concentrations that inactivate wild-type enzyme	Homo sapiens	?	-	?	89	
3.2.1.17	additional information	Micrococcus luteus cells in the exponential growth phase are used as substrate	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	comparison of the lytic activities of three recombinant g-type lysozyme isozymes, OHLysG1, OHLysG2 and OHLysG3 against Aeromonas hydrophila, Aeromonas sobria, Vibrio fluvialis, Micrococcus lysodeikticus and Escherichia coli, overview	Oncomelania hupensis	?	-	?	89	
3.2.1.17	additional information	dry-heated lysozyme has increased activity against Escherichia coli membranes compared to native lysozyme, overview. The latter only delays bacterial growth, while dry-heated lysozyme causes an early-stage population decrease. Escherichia coli K-12 strain MG1655 Ivy::Cm, which lacks the periplasmic lysozyme inhibitor Ivy, is utilized	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	recombinant CC-Lys-g produced in Escherichia coli expression system exhibits significant lytic activity against Gram-positive Micrococcus lysodeikticus and Gram-negative Aeromonas hydrophila	Ictalurus punctatus	?	-	?	89	
3.2.1.17	additional information	the destabilase-lysozyme is a bifunctional enzyme, which combines isopeptidase and lysozyme activities	Hirudo medicinalis	?	-	?	89	
3.2.1.17	additional information	the destabilase-lysozyme is a bifunctional enzyme, which combines isopeptidase and lysozyme activities	Hirudo verbana	?	-	?	89	
3.2.1.17	additional information	the destabilase-lysozyme is a bifunctional enzyme, which combines isopeptidase and lysozyme activities	Hirudo orientalis	?	-	?	89	
3.2.1.17	additional information	the enzyme shows antibacterial activity by growth inhibition of a target organism Planococcus citreus	Ginglymostoma cirratum	?	-	?	89	
3.2.1.17	additional information	the recombinant enzyme displays the lytic activity of g-type lysozyme with other organisms against Micrococcus lysodikicus	Physella acuta	?	-	?	89	
3.2.1.17	additional information	a commercial cell suspension of Oenococcus oeni, an oenological strain involved in the winemaking process, is utilized as enzyme substrate	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	enzyme substrate is lyophilized Micrococcus lysodeikticus	Ictalurus punctatus	?	-	?	89	
3.2.1.17	additional information	lysis of Micrococcus lysodeikticus	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	recombinantly expressed enzyme shows strong lytic activity against Micrococcus lysodeikticus, isopeptidase activity, and antibacterial activity against several Gram-positive and Gram-negative bacteria	Haliotis discus discus	?	-	?	89	
3.2.1.17	additional information	substrate are lyophilized Micrococcus lysodeikticus cell walls on lysoplates	Ginglymostoma cirratum	?	-	?	89	
3.2.1.17	additional information	the enzyme is lytically active on Micrococcus luteus suspension	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	the enzyme shows also chitinase activity on glycol chitin as substrate, but no transglycosylation activity, and a higher number of subsites compared to hen egg-white enzyme	Meretrix lusoria	?	-	?	89	
3.2.1.17	additional information	the enzyme shows lytic activity against freeze-dried Micrococcus luteus cells	Homo sapiens	?	-	?	89	
3.2.1.17	additional information	the enzyme shows lytic activity against Micrococcus lysodeikticus, the recombinant enzyme shows antibacterial activity against both Gram-positive and Gram-negative bacteria, including Vibrio alginolyticus, Vibrio harveyi, Vibrio anguillarum, Escherichia coli, Bacillus subtilis, and Micrococcus lysodeikticus	Ruditapes philippinarum	?	-	?	89	
3.2.1.17	additional information	the purified recombinant enzyme shows antibacterial activity against several different strains, e.g. Aspergillus oryzae, Bacillus subtilis 168, Bacillus cereus, Clostridium sporogenes, Micrococcus luteus, Micrococcus lysodeikticus, Pseudomonas aeruginosa, Salmonella typhimurium, Saccharomyces cerevisiae, Staphyloccocus aureus, and Streptococcus pneumoniae	Bacillus licheniformis	?	-	?	89	
3.2.1.17	additional information	the enzyme exhibits bacteriolytic activity against Escherichia coli, Aeromonas hydrophila, Staphyloccocus aureus, Bacillus subtilis, Streptococcus sp. and Staphylococcus epidermidis	Cristaria plicata	?	-	?	89	
3.2.1.17	additional information	i-type lysozyme isoform iLys2 does not exhibit muramidase, isopeptidase or serine hydrolase activities	Harmonia axyridis	?	-	?	89	
3.2.1.17	additional information	the enzyme also has isopeptidase activity with 4-nitroanilide-L-gamma-glutamic acid	Apostichopus japonicus	?	-	?	89	
3.2.1.17	additional information	comparison of activities on chitosan by cellobiohydrolases, chitosanases, and lysozyme, oligomer pattern, overview. The different enzymes produce chito-oligosaccharides (COSs) with varying acetylation, NMR spectrometric analysis	Gallus gallus	?	-	?	89	
3.2.1.17	additional information	the purified recombinant enzyme shows antibacterial activity against several different strains, e.g. Aspergillus oryzae, Bacillus subtilis 168, Bacillus cereus, Clostridium sporogenes, Micrococcus luteus, Micrococcus lysodeikticus, Pseudomonas aeruginosa, Salmonella typhimurium, Saccharomyces cerevisiae, Staphyloccocus aureus, and Streptococcus pneumoniae	Bacillus licheniformis TIB320	?	-	?	89	
3.2.1.17	additional information	enzyme lyses specifically Thermus aquaticus cells, with 79% activity on Thermus fhermophilus HB8 and 76% activity on Thermus filífformis	Thermus virus IN93 phiIN93	?	-	?	89	
3.2.1.17	additional information	cleaves the glycosidic linkage between N-acetylmuramoyl and N-acetylglucosaminyl residues	Phikzvirus phiKZ	additional information	formation of a 1,6-anhydromuramoyl product	?	1440	
3.2.1.17	N,N',N'',N''',N'''',N'''''-hexaacetylchitohexaose + H2O	eight amino acid residues interact with the N,N',N'',N''',N'''',N'''''-hexaacetylchitohexaose oligomer: Arg73, Gly102, Asn103, Leu56, Ala107, Val109, Ala110, and Lys33	Gallus gallus	?	-	?	95102	
3.2.1.17	N,N',N'',N''',N''''-pentaacetylchitopentaose + H2O	-	Rhea americana	?	-	?	95094	
3.2.1.17	N,N',N'',N''',N''''-pentaacetylchitopentaose + H2O	-	Chelonia mydas	?	-	?	95094	
3.2.1.17	N,N',N'',N''',N''''-pentaacetylchitopentaose + H2O	wild-type protein hydrolyzes N,N',N'',N''',N''''-pentaacetylchitopentaose almost completely on 140 min reaction. N,N',N'',N'''-tetraacetylchitotetraose is is hydrolyzed mainly to N,N'-diacetylchitobiose + p-nitrophenyl beta-D-N',N'',N'''-triacetylchitotriose with much less cleavage into GlcNAc + N,N',N'',N'''-tetraacetylchitotetraose	Struthio camelus	N,N'-diacetylchitobiose + p-nitrophenyl beta-D-N',N'',N'''-triacetylchitotriose	-	?	392692	
3.2.1.17	NodRm-IV + H2O	-	Medicago sativa	NodRm-II + NodRm-III	-	?	115508	
3.2.1.17	NodRm-IV(Ac,S) + H2O	-	Medicago sativa	NodRm-II + NodRm-III	-	?	115509	
3.2.1.17	NodRm-IV(S) + H2O	-	Medicago sativa	NodRm-II + NodRm-III	-	?	115507	
3.2.1.17	NodRm-V(S) + H2O	-	Medicago sativa	NodRm-II + NodRm-III	-	?	115506	
3.2.1.17	p-nitrophenyl-GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta(1-4)GlcNAcbeta + H2O	-	Homo sapiens	?	-	?	406311	
3.2.1.17	p-nitrophenyl-N,N',N'',N''',N''''-pentaacetylchitopentaose + H2O	-	Liolophura japonica	?	-	?	393134	
3.2.1.17	p-nitrophenyl-N,N',N'',N''',N''''-pentaacetylchitopentaose + H2O	-	Omphalius pfeifferi	?	-	?	393134	
3.2.1.17	p-nitrophenyl-N,N',N'',N''',N''''-pentaacetylchitopentaose + H2O	-	Saxidomus purpurata	?	-	?	393134	
3.2.1.17	p-nitrophenyl-N,N',N'',N''',N''''-pentaacetylchitopentaose + H2O	-	Monodonta labio	?	-	?	393134	
3.2.1.17	peptidoglycan + H2O	-	Gallus gallus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Homo sapiens	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Ovis aries	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Schistocerca gregaria	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Suncus murinus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Penaeus penicillatus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Cervidae	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Harmonia axyridis	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Cristaria plicata	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Anas platyrhynchos	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	Micrococcus lysodeikticus cells	Gallus gallus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	Micrococcus lysodeikticus cells	Homo sapiens	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	Micrococcus lysodeikticus cells	Bacillus sp. (in: Bacteria)	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	Micrococcus lysodeikticus cells	Liolophura japonica	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	Micrococcus lysodeikticus cells	Omphalius pfeifferi	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	Micrococcus lysodeikticus cells	Saxidomus purpurata	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	Micrococcus lysodeikticus cells	Monodonta labio	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	anti-tumor activity	Homo sapiens	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	involvement in host defence	Homo sapiens	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	anti-metastatic activity	Homo sapiens	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	cell lysis from within, at the end of latent period, cell lysis from without, at the beginning of infection	Tequatrovirus T4	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	digestive enzyme	Ruminantia	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	AcmB is an N-acetylglucosaminidase autolysin, three-domain modular structure, hydrolyzes peptidoglycans of several Gram-positive bacteria including Lactococcus lactis, AcmB hydrolyzes the peptidoglycan bonds in Bacillus subtilis HR vegetative cells between N-acetylglucosamine and N-acetylmuramic acid thus being an N-acetylglucosaminidase	Lactococcus lactis	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	murein hydrolase, highly specific towards cell walls of Clostridium perfringens strains, endolysin Ply3626 has an N-terminal N-acetylmuramoyl-L-alanine amidase domain and a unique C-terminal portion, which might be responsible for the specific lytic range of enzyme	Clostridium phage phi3626	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme displays lytic activity against Lactococcus garvieae, Enterococcus sp., Vibrio vulnificus and Escherichia coli. The growth of Aeromonas hydrophila is inhibited only at a high concentration of 0.4 mg/ml. No growth inhibition of Streptococcus iniae and Aeromonas hydrophila	Crassostrea virginica	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme displays lytic activity against Micrococcus lysodeikticus, Staphylococcus aureus and Escherichia coli	Bufo gargarizans andrewsi	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme is active on extraction of the following bacteria (in order of decreasing activity): Micrococcus lysodeikticus, Salmonella typhimurium, Yersinia enterolitica, Pseudomonas aeruginosa and Escherichia coli	Gallus gallus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme is active on extraction of the following bacteria (in order of decreasing activity): Yersinia enterolitica, Escherichia coli, Micrococcus lysodeikticus, Salmonella typhimurium and Pseudomonas aeruginosa	Brassica oleracea	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme is active on extraction of the following bacteria (in order of decreasing activity): Yersinia enterolitica, Escherichia coli, Pseudomonas aeruginosa, Salmonella typhimurium, Micrococcus lysodeikticus	Streptomyces globisporus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme is active on extraction of the following bacteria (in order of decreasing activity): Yersinia enterolitica, Pseudomonas aeruginosa, Escherichia coli, Salmonella typhimurium and Micrococcus lysodeikticus	Anser sp.	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme is active on extraction of the following bacteria (in order of decreasing activity): Yersinia enterolitica, Salmonella typhimurium, Micrococcus lysodeikticus, Pseudomonas aeruginosa and Escherichia coli	Tequatrovirus T4	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	enzyme is active on extraction of the following bacteria (in order of decreasing activity): Yersinia enterolitica, Salmonella typhimurium, Pseudomonas aeruginosa, Escherichia coli and Micrococcus lysodeikticus	Lambdavirus lambda	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lyophilized cell wall of Micrococcus luteus	Anser sp.	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lyophilized cell wall of Micrococcus luteus	Struthio camelus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lyophilized cell wall of Micrococcus luteus	Salmo salar	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lyophilized cell wall of Micrococcus luteus	Rhea americana	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lyophilized cell wall of Micrococcus luteus	Casuarius casuarius	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lysis of Micrococcus lysodeikticus cells	Gallus gallus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	cell wall of Micrococcus luteus. Tyr34, Tyr45, Pro47, Pro102, and Asn114 are the amino acids contributing to the substrate binding	Chelonia mydas	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	LysgaY lysed over 20 heated Gram-positive bacterial species as the substrates, including lactobacilli, lactococci, enterococci, micrococci, and staphylococci	Lactobacillus phage phigaY	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity against Micrococcus lysodeikticus	Homo sapiens	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity against Micrococcus lysodeikticus	Struthio camelus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity against Micrococcus lysodeiktikus cells	Gallus gallus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity against Micrococcus lysodeiktikus cells	Homo sapiens	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity with cells of Gram-positive bacteria: Enterococcus faecalis, Bacillus subtilis, Listeria innocua, Staphylococcus aureus and Micrococcus lysodeikticus cells. No activity on Gram-negative bacteria. Pseudomonas aeruginosa, Escherichia coli 0157:H7 and Yersinia enterolytica become sensitive to lysozyme under high pressure. Salmonella typhimurium remains completely insensitive to lysozyme	Gallus gallus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity with cells of Gram-positive bacteria: Enterococcus faecalis, Bacillus subtilis, Listeria innocua, Staphylococcus aureus and Micrococcus lysodeikticus cells. No activity on Gram-negative bacteria. Pseudomonas aeruginosa, Yersinia enterolytica and Escherichia coli 0157:H7 become sensitive to lysozyme under high pressure. Salmonella typhimurium and Shigella flexneri remain completely insensitive to lysozyme	Brassica oleracea	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity with cells of Gram-positive bacteria: Enterococcus faecalis, Bacillus subtilis, Listeria innocua, Staphylococcus aureus and Micrococcus lysodeikticus cells. No activity on Gram-negative bacteria. Pseudomonas aeruginosa, Yersinia enterolytica and Escherichia coli become sensitive to lysozyme under high pressure. Salmonella typhimurium and Shigella flexneri remain completely insensitive to lysozyme	Streptomyces globisporus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity with cells of Gram-positive bacteria: Enterococcus faecalis, Bacillus subtilis, Listeria innocua, Staphylococcus aureus and Micrococcus lysodeikticus cells. No activity on Gram-negative bacteria. Pseudomonas aeruginosa, Yersinia enterolytica and Escherichia coli become sensitive to lysozyme under high pressure. Salmonella typhimurium remains completely insensitive to lysozyme	Tequatrovirus T4	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity with cells of Gram-positive bacteria: Enterococcus faecalis, Bacillus subtilis, Listeria innocua, Staphylococcus aureus and Micrococcus lysodeikticus cells. No activity on Gram-negative bacteria. Pseudomonas aeruginosa, Yersinia enterolytica and Shigella flexneri become sensitive to lysozyme under high pressure, Salmonella typhimurium and E. coli 0157:H7 remain completely insensitive to lysozyme	Anser sp.	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	lytic activity with cells of Gram-positive bacteria: Enterococcus faecalis, Bacillus subtilis, Listeria innocua, Staphylococcus aureus and Micrococcus lysodeikticus cells. No activity on Gram-negative bacteria. Pseudomonas aeruginosa, Yersinia enterolytica, Shigella flexneri and Escherichia coli become sensitive to lysozyme under high pressure. Salmonella typhimurium remains completely insensitive to lysozyme	Lambdavirus lambda	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	the enzyme form SSTL A shows lytic activity against several species of bacteria, such as Micrococcus luteus and Vibrio cholerae, but shows only weak activity to Pseudomonas aeruginosa and lacks activity towards Aeromonas hydrophila	Pelodiscus sinensis	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	the enzyme form SSTL B shows lytic activity against several species of bacteria, such as Micrococcus luteus and Vibrio cholerae, but shows only weak activity to Pseudomonas aeruginosa and lacks activity towards Aeromonas hydrophila	Pelodiscus sinensis	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	the enzyme is active against both Xanthomonas and Stenotrophomonas maltophilia. Only a minor portion of the Escherichia coli cells is lysed. Cells of Micococcus lysodeikticus, Bacillus subtilis, Agrobacterium tumefaciens, and Psuedomonas fluorescens exhibit no signifiant lysis	Xanthomonas phage Xo411	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	the enzyme shows lytic activity against several species of bacteria, such as Micrococcus luteus and Vibrio cholerae, but shows only weak activity to Pseudomonas aeruginosa and lacks activity towards Aeromonas hydrophila	Chelonia mydas	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	the enzyme shows lytic activity against several species of bacteria, such as Micrococcus luteus and Vibrio cholerae, but shows only weak activity to Pseudomonas aeruginosa and lacks activity towards Aeromonas hydrophila	Amyda cartilaginea	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	the Streptococcus agalactiae bacteriophage B30 endolysin contains three domains: cysteine, histidine-dependent amidohydrolase/peptidase (CHAP), Acm glycosidase, and the SH3b cell wall binding domain. The Acm domain requires the SH3b domain for activity, while the CHAP domain is responsible for nearly all the cell lysis activity	Streptococcus phage B30	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	the enzyme cleaves the beta-(1,4)-glycosidic bond between N-acetylmuramic acid and N-acetylglucosamine of bacterial cell wall peptidoglycans	Gallus gallus	?	-	?	36840	
3.2.1.17	peptidoglycan + H2O	-	Staphylococcus aureus	N-acetylaminosaccharides	-	?	115503	
3.2.1.17	peptidoglycan + H2O	-	Triticum aestivum	N-acetylaminosaccharides	-	?	115503	
3.2.1.17	peptidoglycan + H2O	-	Oncorhynchus mykiss	N-acetylaminosaccharides	-	?	115503	
3.2.1.17	peptidoglycan + H2O	-	Tequatrovirus T4	N-acetylaminosaccharides	C3 and C6 muropeptides	?	115503