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Ugur Azizoglu

Safiye Cikrikcioglu Vocational College · Kayseri University

https://researchid.co/azizogluugur
@kayseri.edu.tr
44Scopus Publications
942Google Scholar Citations
16Google Scholar h-index
24Google Scholar i10-index

Research Interests

Microbial biotechnology; Biological Control; Molecular cloning; Microbial control and Entomopathogenic bacteria (Bacillus thuringiensis.)

Biography

Dr. Ugur Azizoglu is a lecturer at Crop and Animal Production Department, Kayseri University, Kayseri,Turkey. He graduated from Erciyes University, Faculty of Science, and Department of Biology in July 2007 and from Masters of Science degree in Biology in June 2009. He completed his PhD at Erciyes University in July 2014. Also he graduated from Erciyes University, Seyrani Faculty of Agriculture, and Department of Agricultural Biotechnology in February 2020. He has focused on Entomopathogenic bacteria (Bacillus thuringiensis), especially genes cloning, expression, and Cry protein interaction. Microbial biotechnology is his current study system. He has collaborated actively with researchers in several other disciplines of Microbial Control (Biological control) system. Azizoglu has joined on roughly fourty conference and workshop program and has served as reviewer several international journals.

Education

Erciyes University, Seyrani Faculty of Agriculture: Kayseri, TR 2013-09-01 to 2020-02-17 | B.Sc. (Agricultural Biotechnology)Education Erciyes University: Kayseri, TR 2009-09-11 to 2014-08-14 | Ph.D (Biology) Erciyes University: Kayseri, TR 2007-09-09 to 2009-08-13 | M.Sc. (Biology) Erciyes University: Kayseri, TR 2003-09-12 to 2007-07-12 | B.Sc. (Biology)

Recent Scopus Publications

  1. A preface of the special issue “Plant growth promoting microorganisms: harnessing unparalleled eco-friendly benefits for sustainable agricultural outputs”
    Plant Growth Regulation, 2026
  2. Bacillus subtilis species complex: Secondary metabolites, genomic insights, and metabolite-driven strategies for sustainable agriculture
    Journal of Environmental Chemical Engineering, 2026
  3. Engineering Plant Immunity: Genetic Strategies for Pest Resistance in Crops
    Advancements in Entomology Bridging Forensic Science and Sustainable Agriculture, 2026
  4. Carbon Nanoparticles Enhance Drought Tolerance Through the Improvement of Morphological and Physiological Traits in Maize Hybrids
    Plants, 2026
  5. Native Plant Growth-Promoting Microorganisms (PGPMs) Inoculation Improves Phenological Stability and Productivity in Maize Hybrids
    Journal of Plant Growth Regulation, 2026

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