Jundishapur Journal of Microbiology
Ahvaz Jundishapur University of Medical Sciences
Scopus by Title (Ref)
1. Exploring tannase and phytase enzymes from lactic acid bacteria: Applications, challenges and future perspectives
- Shimali , et al.
2. In vitro and in vivo comparison of phytic acid dephosphorylation mechanisms by 3- and 6-phytases in broiler diets
- Tomé-Rodríguez S. , et al.
3. Enhanced Nutritional Efficiency in Poultry Feed: Optimized Production and Immobilization of Thermostable Phytase from Mucor indicus Using Agricultural By-Products
- Venkataraman S. , et al.
4. Screening, Expression, and Characterization of Recombinant Phytase from Bacillus subtilis KM-BS for Bio-hydrolysis of Phytic Acid in Animal Feeds
- Ho H.H. , et al.
5. Selection of yeasts and lactic acid bacteria to improve the nutritional quality, volatile profile, and biofunctional properties of chickpea flour
- Amadei S. , et al.
6. Improving qualities of Kocho fermentation using Mandillo [Crassocephalum macropappum (Sch.Bip. ex. A.Rich.) S.Moore] as a starter culture ingredient
- Robi A.G. , et al.
7. A feasible probiotic solution through Polish fermented foods to compensate for phytate-linked nutritional deficiency
- Priyodip P. , et al.
8. Enhancing the Quality and Nutrient Content of Soybean Milk Waste as Poultry Feed Through Fermentation with Bacillus subtilis
- Ciptaan G. , et al.
9. Characterization of a putative metal-dependent PTP-like phosphatase from Lactobacillus helveticus 2126
- Priyodip P. , et al.
10. Review on Desirable Microbial Phytases as a Poultry Feed Additive: Their Sources, Production, Enzymatic Evaluation, Market Size, and Regulation
- Urgessa O.E. , et al.
11. Identification of Phytate Degrading Probiotic Bacillus Sp. – potent Source of Phytase for Phosphate Bioavailability
- Singarapu R.K. , et al.
12. Identification and characterization of potential probiotic lactic acid bacteria isolated from pig feces at various production stages
- Uezen J.D. , et al.
13. Isolation, characterization and optimization of Cystobasidium minutum for phytase production
- Gowthami G.A. , et al.
14. Siccibacter colletis as a member of the plant growth-promoting rhizobacteria consortium to improve faba-bean growth and alleviate phosphorus deficiency stress
- Chamkhi I. , et al.
15. ABIOTIC FACTORS INFLUENCE ON BACILLUS SUBTILIS IMV B-7023 PHYTASE ACTIVITY
- Chuiko N.V. , et al.
16. Microbial engineering for the production and application of phytases to the treatment of the toxic pollutants: A review
- Zhou Y. , et al.
17. Characterisation of a soil MINPP phytase with remarkable long-term stability and activity from Acinetobacter sp.
- Rix G.D. , et al.
18. Phosphorus mobilization and improvement of crop agronomic performances by a new white-rot fungus Ceriporia lacerata HG2011
- Sui Z. , et al.
19. THE STUDY OF Agrobacterium radiobacter 10 AND Pseudomonas fluorescens PG7 PHOSPHATE-MOBILIZING ABILITIES in vitro
- Zheleznyakov S.V. , et al.
20. Diversity of Bacterial Endophytes of Maize (Zea mays) and Their Functional Potential for Micronutrient Biofortification
- Verma S. , et al.
21. GROWTH AND PHYTASE ACTIVITIES OF BACILLUS SUBTILIS IMV B-7023 DURING CULTIVATION WITH SODIUM PHYTATE
- Chuiko N.V. , et al.
22. Enhanced Phytase Production by Bacillus subtilis subsp. subtilis in Solid State Fermentation and its Utility in Improving Food Nutrition
- Singh B. , et al.
23. An Actinobacterium Strain From Soil of Cerrado Promotes Phosphorus Solubilization and Plant Growth in Soybean Plants
- Vargas Hoyos H.A. , et al.