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Isolation and Characterization of Highly Active Uricase from Alcaligenes spp. Strain UR1

Atheer Alshareef

Atheer Alshareef

  • Departmet of Biology, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
  • Research Laboratories Unit, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
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Alshareef, Atheer
, 
Mahmoud Z. El-Readi

Mahmoud Z. El-Readi

  • Department of Clinical Biochemistry, Faculty of Medicine, Umm Al-Qura UniversityMakkah, Saudi Arabia
  • Department of Biochemistry, Faculty of Pharmacy, Al-Azhar UniversityAssiut, Egypt
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El-Readi, Mahmoud Z.
, 
Leena A. Neyaz

Leena A. Neyaz

  • Departmet of Biology, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
  • Research Laboratories Unit, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
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Neyaz, Leena A.
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Hussein H. Abulreesh

Hussein H. Abulreesh

  • Departmet of Biology, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
  • Research Laboratories Unit, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
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Abulreesh, Hussein H.
, 
Ahmad A. Alsaigh

Ahmad A. Alsaigh

  • Departmet of Biology, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
  • Research Laboratories Unit, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
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Alsaigh, Ahmad A.
, 
Ashjan F. Khalel

Ashjan F. Khalel

Department of Biology, University College of Aldarb, Jazan UniversityJazan, Saudi Arabia
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Khalel, Ashjan F.
, 
Wafaa A. Alshehri

Wafaa A. Alshehri

Department of Biological Science, College of Science, University of JeddahJeddah, Saudi Arabia
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Alshehri, Wafaa A.
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Khaled Elbanna

Khaled Elbanna

  • Departmet of Biology, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
  • Research Laboratories Unit, Faculty of Science, Umm Al-Qura UniversityMakkah, Saudi Arabia
  • Department of Agricultural Microbiology, Faculty of Agriculture, Fayoum UniversityFayoum, Egypt
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Elbanna, Khaled
  
26 mar 2025
Isolation and Characterization of Highly Active Uricase from Alcaligenes spp. Strain UR1's Cover Image
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Kategoria artykułu: ORIGINAL PAPER
Data publikacji: 26 mar 2025
Zakres stron: 106 - 129
Otrzymano: 25 gru 2024
Przyjęty: 10 lut 2025
DOI: https://doi.org/10.33073/pjm-2025-009
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© 2025 Atheer Alshareef et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Fig. 1.

Uricase activity of the selected strains based on the clear zone formation around colonies on the uric acid-supplemented (0.3%) BT agar.
Uricase activity of the selected strains based on the clear zone formation around colonies on the uric acid-supplemented (0.3%) BT agar.

Fig. 2.

Phylogenetic tree of uricase-producing isolates (shown in blue) and closely related strains of genus Alcaligenes. Bootstrap values out of 100 are mentioned at the nodes. Escherichia coli strain ATCC® 35218™ (J01859.1) and Bacillus subtilis strain: ATCC® 21331™ (AB018487.1) served as the out-group.
Phylogenetic tree of uricase-producing isolates (shown in blue) and closely related strains of genus Alcaligenes. Bootstrap values out of 100 are mentioned at the nodes. Escherichia coli strain ATCC® 35218™ (J01859.1) and Bacillus subtilis strain: ATCC® 21331™ (AB018487.1) served as the out-group.

Fig. 3.

Effect of incubation period on the growth (OD) and uricase secretion of strain UR1
Effect of incubation period on the growth (OD) and uricase secretion of strain UR1

Fig. 4.

Effect of temperature on the growth (OD) and uricase activity (U/ml) of strain UR1.
Effect of temperature on the growth (OD) and uricase activity (U/ml) of strain UR1.

Fig. 5.

Effect of pH on the growth (OD) and uricase activity (U/ml) of strain UR1.
Effect of pH on the growth (OD) and uricase activity (U/ml) of strain UR1.

Fig. 6.

Impact of carbon and nitrogen sources on strain UR1 growth and uricase activity (U/ml).
Impact of carbon and nitrogen sources on strain UR1 growth and uricase activity (U/ml).

Fig. 7.

Impact of different NaCl (%) concentrations on strain UR1 growth (OD) and uricase activity (U/ml).
Impact of different NaCl (%) concentrations on strain UR1 growth (OD) and uricase activity (U/ml).

Fig. 8.

Uricase purification from strain UR1 by gel filtration. Uricase activity exhibiting fractions (F7-F12).
Uricase purification from strain UR1 by gel filtration. Uricase activity exhibiting fractions (F7-F12).

Fig. 9.

SDS-PAGE of the purified uricase from strain UR1. SDS-denatured samples (20–40 μl) were separated in an SDS-polyacrylamide gel (12%) and stained with Serva blue R. Lane 1: molecular mass standard, Lane 2: protein (10 μg) of purified enzyme.
SDS-PAGE of the purified uricase from strain UR1. SDS-denatured samples (20–40 μl) were separated in an SDS-polyacrylamide gel (12%) and stained with Serva blue R. Lane 1: molecular mass standard, Lane 2: protein (10 μg) of purified enzyme.

Fig. 10.

Effect of temperature on a) uricase activity, and b) stability.
Effect of temperature on a) uricase activity, and b) stability.

Fig. 11.

Effect of pH on the uricase activity of strain UR1.
Effect of pH on the uricase activity of strain UR1.

Fig. 12.

Effect of substrate concentration on uricase activity of strain UR1.
Effect of substrate concentration on uricase activity of strain UR1.

Fig. 13.

Effect of the metal ions and inhibitors on uricase activity of strain UR1.
Effect of the metal ions and inhibitors on uricase activity of strain UR1.

API-20E profile of sugar fermentation and enzyme activity of uricase-producing isolates_

Biochemical test Uricase-producing isolates Reference strain
UR1 UR2 UR5 UR6 UR10 Alcaligenes faecalis DSM13644
1 O-nitrophenyl-b D-galactopyranoside (ONPG)
2 Arginine dihydrolase (ADH)
3 Lysine decarboxylase (LDC)
4 Ornithine decarboxylase (ODC)
5 Citrate (CIT) + + + + + +
6 Hydrogen sulfide (H2S) +
7 Urease (URA) + + + + +
8 Tryptophan deaminase (TDA) +
9 Indole (IND) +
10 Voges-Proskauer test (VP) + + + + +
11 Gelatinase (GEL)
Sugar fermentation:
12 Glucose (GLU) + + + + + +
13 Mannose (MAN)
14 Inositol (INO)
15 Sorbitol (SOR)
16 Rhamnose (RHA)
17 Sucrose (SAC) + + + + + +
18 Melibiose (MEL)
19 Amygdalin (AMY)
20 Arabinose (ARA)

16S rRNA gene sequence-based molecular identification of uricase-producing promising strains_

Isolate code Blast match Gene Bank Accession No. 16S rRNA Identity (%)
Strain UR1 (PP563675) Alcaligenes faecalis strain NBRC 13111 – NR_113606.1 96.96
Alcaligenes ammonioxydans strain HO-1 – NR_180910.1 96.86
Alcaligenes aquatilis strain LMG 22996 – NR_104977.1 96.54
Alcaligenes endophyticus strain AER10 – NR_156855.1 95.91
Alcaligenes pakistanensis strain NCCP-650 – NR_145932.1 95.58
Strain UR2 (PP563676) Alcaligenes faecalis strain NBRC 13111 – NR_113606.1 95.40
Alcaligenes ammonioxydans strain HO-1 – NR_180910.1 95.19
Alcaligenes aquatilis strain LMG 22996 – NR_156855.1 94.97
Alcaligenes endophyticus strain AER10 – NR_156855.1 95.15
Alcaligenes pakistanensis strain NCCP-650 – NR_145932.1 93.79
Strain UR5 (PP563677) Alcaligenes ammonioxydans strain HO-1 – NR_180910.1 97.28
Alcaligenes faecalis strain NBRC 13111 – NR_113606.1 97.20
Alcaligenes aquatilis strain LMG 22996 – NR_104977.1 96.89
Alcaligenes pakistanensis strain NCCP-650 – NR_145932.1 96.11
Alcaligenes endophyticus strain AER10 – NR_156855. 95.96
Strain UR6 (PP563678) Alcaligenes ammonioxydans strain HO-1 16S – NR_180910.1 98.77
Alcaligenes faecalis strain NBRC 13111 16S – NR_113606.1 98.56
Alcaligenes aquatilis strain LMG 22996 – NR_104977.1 98.15
Alcaligenes endophyticus strain AER10 – NR_156855.1 98.15
Alcaligenes pakistanensis strain NCCP-650 – NR_145932.1 98.15
Strain UR10 (PP563679) Alcaligenes ammonioxydans strain HO-1 – NR_180910.1 98.84
Alcaligenes faecalis strain NBRC 13111 – NR_113606.1 98.02
Alcaligenes aquatilis strain LMG 22996 – NR_104977.1 97.73
Alcaligenes pakistanensis strain NCCP-650 – NR_145932.1 96.98
Alcaligenes faecalis subsp. phenolicus – NR_042830.1 95.87

Morphological and partial characterization of uricase-producing isolates_

Characteristics Most promising uricase-producing isolates
UR1 UR2 UR5 UR6 UR10
Colony morphology:
Form Irregular Irregular Irregular Irregular Irregular
Color on NA whitish Whitish Whitish Whitish Whitish
Pigment
Elevation Flat Flat Flat Flat Flat
Opacity Opaque Opaque Opaque Opaque Opaque
Consistency Dry Dry Dry Dry Dry
Cell morphology:
Shape Rods shaped Rods shaped Rods shaped Rods shaped Rods shaped
Gram stain
Catalase + + + + +
Oxidase + + + + +
Sporulation + + + + +
Motility + + + + +
Carbon source utilization:
Maltose +\– + + + +
Dextrose + + + + +
Fructose + + + + +
D-Glucose + + + + +
Sucrose + + + + +
Nitrogen source utilization:
Casein + + + + +
Yeast extract + + + + +
Urea + + + + +
Growth on NaCl (%):
0 + + + + +
1% + + + + +
2% +\– +\– +\– +\– +\–
5% +\– +\– +\– +\–
10%
pH optimum:
5 + +\– +\– +\– +\–
6 + +\– +\– +\– +\–
7 + + + + +
8 + + + + +
9 +\– +\– +\– +\– +\–
Temperature optimum:
20°C +\– +\– +\– +\–
30°C + + + + +
37°C + + + + +
40°C + + + + +
50°C
MacConkey agar:
Blood agar hemolysis α-hemolytic α-hemolytic α-hemolytic α-hemolytic α-hemolytic
Enzyme secretion:
Uricase + + + + +
Urease + + + + +
Protease
Amylase
Lipase
Cellulose + + + + +

Antibiotic susceptibility of uricase-producing promising isolates_

Antibiotics Antibiotics/Disc potency Uricase-producing isolates
UR1 UR2 UR5 UR6 UR10
Amikacin 30 μg (AK) R R S R S
Gentamicin 10 μg (GM) S S S S R
Tetracycline 30 μg (T) S S S S S
Aztreonam 30 μg (ATM) R R R R R
Ciprofloxacin 5 μg (CIP) S S R S S
Cefotaxime 30 μg (Cf) S S R R R
Ceftazidime 30 μg (CAZ) S R S R S
Cefepime 30 μg (CPM) R R S R R
Imipenem 10 μg (IMI) S S S S S
Piperacillin 100 μg (PRL) S S R R S
Trimethoprim/sulfamethoxazole 25 μg (TS) S S R S R
Chloramphenicol 30 μg (C) S S S S S

Screening and partial characterization of uricase-producing isolates_

Isolate code Source of strains Motility Sporulation Gram test Uricase activity (mm)
Gram stain KOH test
UR1 Soil + + 75
UR2 Soil + + 74
UR3 Poultry wastes + + 73
UR4 Poultry wastes + + 70
UR5 Poultry wastes + + 70
UR6 Soil + + 70
UR7 Soil + + 70
UR8 Poultry wastes + + 70
UR9 Poultry wastes + + 70
UR10 Poultry wastes + + 70
UR11 Poultry wastes + + 70
UR12 Poultry wastes + + 70
UR13 Poultry wastes + + 68
UR14 Poultry wastes + + 68
UR15 Soil + + 67
UR16 Poultry wastes + + 66
UR17 Poultry wastes + + 65
UR18 Poultry wastes + + 65
UR19 Poultry wastes + + 65
UR20 Poultry wastes + + 65
UR21 Poultry wastes + + 65
UR22 Poultry wastes + + 65
UR23 Poultry wastes + + 65
UR24 Soil + + 62
UR25 Poultry wastes + + 60
UR26 Poultry wastes + + 60
UR27 Poultry wastes + + 60
UR28 Soil + + 60
UR29 Poultry wastes + + 60
UR30 Poultry wastes + + 60
UR31 Poultry wastes + + 60
UR32 Poultry wastes + + 60
UR33 Poultry wastes + + 60
UR34 Poultry wastes + + 60
UR35 Poultry wastes + + 60
UR36 Poultry wastes + + 60
UR37 Poultry wastes + + 60
UR38 Poultry wastes + + 55
UR39 Poultry wastes + + 55
UR40 Poultry wastes + + 55
UR41 Poultry wastes + + 55
UR42 Poultry wastes + + 55
UR43 Poultry wastes + + 50
UR44 Poultry wastes + + 50
UR45 Poultry wastes + + 50
UR46 Poultry wastes + + 50
UR47 Poultry wastes + + 50
UR48 Poultry wastes + + 45
UR49 Soil + + 45
UR50 Poultry wastes + + 45
UR51 Soil + + 40
UR52 Soil + + 40

bioMérieux VITEK®-based biochemical tests of uricase-producing isolates_

Carbon source utilization, enzymatic activities and resistance Conc. (mg) Uricase isolates/identification results
UR1 UR2 UR5 UR6 UR10
1 Ala-Phe-Pro-arylamidase (APPA) 0.0384
2 Adonitol (ADO) 0.1875
3 L-Pyrrolydonyl-arylamidase (PyrA) 0.018
4 L-Arabitol (lARL) 0.3
5 D-Cellobiose (dCEL) 0.3
6 β-Galactosidase (BGAL) 0.036
7 Production (H2S) 0.0024
8 β-N-acetyl-glucosaminidase (BNAG) 0.0408
9 Glutamyl arylamidase pNA (AGLTp) 0.0324
10 D-Glucose (dGLU) 0.3 + + + + +
11 γ-Glutamyl-transferase (GGT) 0.0228
12 Fermentation/glucose (OFF) 0.45 + + + + +
13 β-Glucosidase (BGLU) 0.036
14 D-Maltose (dMAL) 0.3
15 D-Mannitol (dMAN) 0.1875
16 D-Mannose (dMNE) 0.3
17 β-Xylosidase (BXYL) 0.0324
18 β-Alanine arylamidase pNA (BAlap) 0.0174
19 L-Proline arylamidase (ProA) 0.0234 + + + + +
20 Lipase (LIP) 0.0192
21 Palationse (PLE) 0.3
22 Tyrosine arylamidase (TyrA) 0.0276 + + + + +
23 Urease (URE) 0.15 + + + +
24 D-Sorbitol (dSOR) 0.1875
25 Saccharose/sucrose (SAC) 0.3
26 D-Tagatose (dTAG) 0.3
27 D-Trehalose (dTRE) 0.3
28 Citrate (sodium) (CIT) 0.054 +
29 Malonate (MNT) 0.15 +
30 5-Keto-D-gluconate (5KG) 0.3
31 L-Lactate alkalinisation (ILATk) 0.15 + + + + +
32 α-Glucosidase (AGLU) 0.036
33 Succinate alkalinisation (SUCT) 0.15 + +
34 β-N-acetyl-galactosaminidase (NAGA) 0.0306
35 α-Galactosidase (AGAL) 0.036
36 Phosphatase (PHOS) 0.0504
37 Glycine arylamidase (GlyA) 0.012
38 Ornithine decarboxylase (ODC) 0.3
39 Lysine decarboxylase (LDC) 0.15
40 L-Histidine assimilation (IHISa) 0.087 -\+ + +\-
41 Coumarate (CMT) 0.126 +
42 β-Glucoronidase (BGUR) 0.0378
43 O/129 Resistance (comp.vibrio.) (O129R) 0.0105
44 Glu-Gly-Arg-arylamidase (GGAA) 0.0576
45 L-malate assimilation (IMLTa) 0.042 -\+ +\- +
46 Ellman (ELLM) 0.03 -\+ -\+ +
Identification and similarity according to VITEK® data base Pseudomonas oleovorans (95%) Pseudomonas oleovorans (95%) Alcaligenes faecalis (97%) Acinetobacter lwoffii (92%) Acinetobacter lwoffii (96%)

Gel-filtration-based uricase purification steps from strain UR1_

Purification steps Volume (ml) Uricase activity (U/ml) Total uricase activity (U) Protein concentration (mg/ml) Specific activity (U/mg) Purification (fold) Yield (%)
Crude enzyme (10 fold concentration) 100 75 7,500 5.4 13.8 1 100
Dialysis after ammonium sulfate precipitation 5 112 560 3.8 29.74 2.13 7.40
Gel filtration (Sephadex) 5 275 1,375 0.3 916 66.73 18.33
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Nauki biologiczne, Mikrobiologia i wirusologia
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