Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.17 (lysozyme)
 21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. A cationic protease has been purified from the granule fraction of blood-donor leukocytes by a preparative method including precipitation by acetone and chromatography on Bio-Gel A 1.5 m, CM-Sephadex C-50 and Sephadex G-G-75. 2. The pH optimum against denatured bovine hemoglobin is 7.4. Gel chromatography indicated a molecular weight close to 23 000. 3. This neutral protease (EC 3.4.-.-) is able to split the synthetic esters Z-Ala-NPh and AcAla3OMe, its activity on the former substrate being 2.2 times greater than that of pancreatic elastase, on the latter the same. It differs crucially from pancreatic elastase in having small elastinolytic activity. 4. In cationic disk electrophoresis, neutral protease resolves into three protein bands with lower mobility than lysozyme: all bands exhibit esterolytic activity against 2-acetoxy-3-naphthoic acid o-toluidide, strongly suggesting that they represent isoenzymes. 5. The enzyme is completely inhibited by iPr2P-F, partially so by soybean trypsin inhibitor and Trasylol. Cysteine, EDTA and TosLysCH2Cl have no effect. 6. During chromatography on CM-Sephadex C-50 a more positively charged enzyme(s) was identified. This had hemoglobinolytic activity at pH 7.4 but only a small esterolytic effect on Z-Ala-NPh; it showed only traces of activity against AcAla3OMe.
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PMID:Purification and some properties of a neutral protease from human leukocyte granules and its comparison with pancreatic elastase. 0 9

At present there is considerable interest in labeling peptides with Tc-99m for the development of target specific radiopharmaceuticals for imaging purposes. In the present study the conjugation of the bifunctional coupling agent succinimidyl-hydrazinonicotinamide (S-HYNIC) was studied and optimized in a series of peptides [molecular weight (MW) 6.5-14.3 kDa]. Aprotinin (MW 6.5 kDa), cytochrome C (MW 12.4 kDa), alpha-lactalbumin (MW 14.2 kDa), and lysozyme (MW 14.3 kDa) were conjugated with S-HYNIC via the epsilon amino groups of their lysine residues. The effects of molar conjugation ratio, reaction temperature, pH, and protein concentration were studied. Reaction products were analyzed both with respect to the HYNIC-substitution ratio (spectrophotometrically) as well as to the labeling efficiency silica gel-instant thin layer chromatography (SG-ITLC) and molecular size fast performance liquid chromatography (FPLC). The effects of conjugation on biological activity were studied in three proteins binding to receptors on leukocytes: interleukin-8 (MW 8.5 kDa), interleukin-1alpha (MW 17 kDa), and interleukin-1 receptor antagonist (MW 17 kDa). The labeling efficiency of aprotinin, cytochrome c, alpha-lactalbumin, and lysozyme conjugated under optimal conjugation conditions exceeded 90%. Specific activities obtained were up to 7.5 MBq/microg. Conjugation was most efficient at 0 degrees C (as compared to 20 and 40 degrees C), at pH 8.2 (as compared to 6.0, 7.2, and 9.5), and at protein concentrations > or = 2. 5 mg/mL. In general, efficiency increased with increasing molar conjugation ratio (protein-HYNIC-ratio 1:3 < 1:6 < 1:15<1:30). For the receptor binding proteins, biological activity was preserved only under the mildest conjugation conditions. For each of these proteins an inverse relation between labeling efficiency and receptor binding capacity was found. Labeling proteins with (99m)Tc using S-HYNIC is easy, rapid, and efficient, and preparations with high specific activity can be obtained. However, biological activity of proteins may be lost at high HYNIC-substitution ratios. With the proteins tested here a careful balancing of reaction conditions resulted in acceptable, although suboptimal, labeling efficiencies and preservation of biological activity.
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PMID:Labeling proteins with Tc-99m via hydrazinonicotinamide (HYNIC): optimization of the conjugation reaction. 1105 76