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1  its parent strain and unexpectedly produced alkaline protease.
2 he activities of elastase A, elastase B, and alkaline protease.
3  elastase, phospholipase C, exoenzyme S, and alkaline protease.
4 lergen, Asp f13, which is a serine protease, alkaline protease 1 (Alp 1), promotes airway hyper-respo
5  cells recognize and respond to aeroallergen alkaline protease 1 (Alp1) of Aspergillus sp., because p
6 by commercial trypsin (2.2 kDa) and visceral alkaline-proteases (1.75 kDa).
7 C 27853) producing exotoxin A, elastase, and alkaline protease; a parent strain (PA103) producing onl
8 acid protease (ACP), neutral protease (NEP), alkaline protease (ALP), and keratinase (KEA) in corn-so
9 ifically deficient in this activity produced alkaline protease and had reduced corneal virulence.
10  and the activities of exotoxin A, elastase, alkaline protease, and an uncharacterized protease, prot
11 istinguished protease IV from elastase B and alkaline protease, and gelatin zymography differentiated
12 own antigens, such as flagellin C, elastase, alkaline protease, and others.
13 ys for protease IV, a new assay specific for alkaline protease, and showed that protease IV has a dis
14 ith a strain known to express high levels of alkaline protease (AP) resulted in an increase in basal
15  Two fractions (AP-F2 and AP-F3) produced by alkaline protease (AP) showed the strongest activity.
16                        The calcium-regulated alkaline protease (AP), a member of the repeats in toxin
17         Recent work on the virulence factors alkaline protease (AprA) and CF transmembrane conductanc
18                                          The alkaline protease (AprA) of Pseudomonas aeruginosa has b
19             Unlike the only other metzincin (alkaline protease; AprA) in P. aeruginosa, Mep72 is secr
20 at pH 7.4, and 2 mU for Streptomyces griseus alkaline protease at pH 11.
21             CIT1 produced both hemolysin and alkaline protease but was defective in pyocyanin product
22                                              Alkaline protease could be specifically assayed by poly-
23                      The 3D structure of the alkaline protease enzyme with the determined ligands was
24 h His 135, Leu 283 in the active site of the alkaline protease enzyme, thus leading to the discovery
25 Fish skin gelatin was hydrolysed by visceral alkaline-proteases from Giant catfish, commercial trypsi
26                                   Papain and alkaline protease hydrolysates of aerobic yeast had high
27 tatin, leupeptin, elastatinal, and microbial alkaline protease inhibitor, which have been widely used
28                                          The alkaline protease method exhibited the highest degumming
29 ty and stability of Brevibacillus agri SAR25 alkaline protease over a wide range of temperatures and
30 eased expression of the genes encoding TonB, alkaline protease,PrpL protease, exotoxin A, as well as
31                   Hydrolysis with papain and alkaline protease released more amino acids (AA) than si
32 sates obtained with Izyme AL(R) and visceral alkaline-proteases showed the highest and lowest radical
33 l characterized (elastase A, elastase B, and alkaline protease), the activity of protease IV in multi
34 rk aims to evaluate the ability of different alkaline proteases to prepare active gelatin hydrolysate
35                                          The alkaline protease was isolated using three-phase partiti