1.11.1.13	additional information	-	-	439841, 439844, 439846, 439847, 439850	
1.11.1.13	additional information	-	2 isoenzymes: pI 6.3-7.0	439849	
1.11.1.13	additional information	-	2 isozymes: pI 3.8 and 3.7	439847	
1.11.1.13	additional information	-	4 isoenzymes: pI 5.1, 4.9, 4.5 and 3.7	439846	
1.11.1.13	additional information	-	5 isozymes, pI: 2.9-3.2	394602	
1.11.1.13	additional information	-	BOS1: pI 3.45, BOS2: pI 3.4	439850	
1.11.1.13	additional information	-	isozyme H5: pI 4.2, isoenzyme H4: pI 4.5, isoenzyme H3: pI 4.9	439823	
1.11.1.13	additional information	-	MnP1: pI 3.25, MnP2: pI 3.3	439836	
1.11.1.13	additional information	-	MnP1: pI 4.1, MnP2: pI 3.9	439842	
1.11.1.13	additional information	-	MnP1: pI 6.3-7.1, MnP2: 3.5-3.7, MnP3: 5.1	439849	
1.11.1.13	additional information	-	MnP2: pI 3.7, MnP3: pI 3.5	439840	
1.11.1.13	additional information	-	MnPI: pI 5.3, MnPII: pI 4.2, MnPIII: pI 3.3	439845	
1.11.1.13	additional information	-	pI: 3.2	439830	
1.11.1.13	additional information	-	pI: 3.5	439835, 439841	
1.11.1.13	additional information	-	pI: 3.8	394600, 439844	
1.11.1.13	additional information	-	pI: 4.9	439823, 439824, 439828, 439831	
1.11.1.13	additional information	-	when comparing the oxidative activity of Il-MnP1 between pH 4.0 and pH 7.4, the oxidative activity of Il-MnP1 at pH 4.0 is usually higher than that at pH 7.4. But there are some exceptions	764875	
1.11.1.13	2.5	-	oxidation of 2,6-dimethoxyphenol in absence of Mn2+	439840	
1.11.1.13	3	-	-	439841, 764473	
1.11.1.13	3	-	decolorization of bromophenol blue	658782	
1.11.1.13	3	-	Mn2+-independent peroxidase activity	439841	
1.11.1.13	3	-	optimal pH for the Mn-dependent oxidation of veratryl alcohol	699016	
1.11.1.13	3	-	optimum pH for the Mn2+-dependent oxidation of veratryl alehyde	699016	
1.11.1.13	3	-	oxidation of 2,6-dimethoxyphenol and veratryl alcohol in absence of Mn2+	439844, 439847	
1.11.1.13	3.5	-	-	765837	
1.11.1.13	3.5	-	oxidation of NAD(P)H	439844, 439847	
1.11.1.13	3.5	-	substrate 2,6-dimethoxyphenol	765706	
1.11.1.13	3.5	4.5	decolorization of bromocresol purple	658782	
1.11.1.13	3.5	4.5	pH optimum for Mn2+-independent DMOP oxidation	699016	
1.11.1.13	3.5	5.5	-	439830	
1.11.1.13	4	-	-	439847	
1.11.1.13	4	-	activity assay	700342	
1.11.1.13	4	-	decolorization of bromocresol green, bromophenol red, bromothymol blue, o-cresol red, m-cresol purple, phenol red and thymol blue	658782	
1.11.1.13	4	-	oxidation of 2,6-dimethoxyphenol in presence of Mn2+	439847	
1.11.1.13	4	-	oxidation of Mn2+	439840	
1.11.1.13	4	-	oxidation of NADH	394600	
1.11.1.13	4	-	peak 1	764875	
1.11.1.13	4	-	pH optimum for Mn2+ oxidation, chromatographic MnP form 1, 2 and 3	698032	
1.11.1.13	4	4.5	-	439845	
1.11.1.13	4	4.5	pH optimum for Mn2+-dependent DMOP oxidation	699016	
1.11.1.13	4	7	-	765837	
1.11.1.13	4.5	-	-	439816, 439844, 439854, 660342, 725123, 765837	
1.11.1.13	4.5	-	activity assay	696578	
1.11.1.13	4.5	-	assay at	765234	
1.11.1.13	4.5	-	Mn2+ oxidation	439835	
1.11.1.13	4.5	-	MnP1 in 50 mM malonate	439842	
1.11.1.13	4.5	-	optimum peak 1	763871	
1.11.1.13	4.5	-	oxidation of 2,2-azino-bis-3-ethyl-6-benzothiazolinesulfonate	439814	
1.11.1.13	4.5	-	oxidation of 2,6-dimethoxyphenol in presence of Mn2+	439840, 439844	
1.11.1.13	4.7	-	-	764089	
1.11.1.13	4.8	-	-	394601, 765693	
1.11.1.13	4.8	-	Mn3+-tartrate and Mn3+-malate formation	439826	
1.11.1.13	5	-	-	439838, 439841, 439844, 696794, 725141, 765759, 765837	
1.11.1.13	5	-	assay at	765186	
1.11.1.13	5	-	Mn2+-dependent peroxidase activity	439841	
1.11.1.13	5	-	Mn3+-lactate complex formation	439814	
1.11.1.13	5	-	MnP2 in 50 mM malonate	439842	
1.11.1.13	5	-	oxidation of Mn2+	439844, 439847	
1.11.1.13	5	-	substrate Mn(II)	765706	
1.11.1.13	5.5	-	-	699016	
1.11.1.13	6	-	optimal pH for MnP production in submerged culture	697641	
1.11.1.13	6.8	-	oxidation of 2,6-dimethoxyphenol	686451	
1.11.1.13	7	-	-	764508	
1.11.1.13	7	-	assay at	765877	
1.11.1.13	7	-	optimum peak 2	763871	
1.11.1.13	7.4	-	peak 2	764875