Dr. Mikhajlo K. Zubko, Manchester Metropolitan University, United Kingdom
Dr. Mikhajlo K. Zubko is a distinguished researcher in the field of genetics, specializing in the genetic mechanisms of biodiversity, genomic integrity, and telomere maintenance. He has made significant contributions to the understanding of checkpoint control under DNA damage, the interactions between nuclear and cytoplasmic genomes, and the impact of these interactions on genome stability and adaptation to stress factors. Dr. Zubko’s research has provided valuable insights into the role of telomere length in drug discovery and antifungal resistance. His work on yeast cells and mitochondrial DNA recombination has advanced the field of genetic variation and inheritance. Dr. Zubko’s academic journey spans prestigious institutions, with a Ph.D. in Genetics and a rich history of teaching and research. His ambitious idea to establish inter-compartmental genetics has further enriched our understanding of genetic variation. 🌿🧬🔬
Professional Profile
Suitability for Award
Dr. Mikhajlo K. Zubko is an ideal candidate for the Research for Best Researcher Award due to his groundbreaking contributions to the fields of genetics and molecular biology. His pioneering research on telomere maintenance, mitochondrial DNA recombination, and the genetic mechanisms of stress adaptation has provided valuable insights into genome stability. Dr. Zubko’s innovative work on antifungal resistance in yeast and his development of advanced protocols for telomere length analysis have had a profound impact on genetic research. His ambitious concept of inter-compartmental genetics further highlights his visionary approach to understanding genetic variation and inheritance. His academic achievements, including numerous publications and invited lectures, demonstrate his leadership in advancing genetic research. Dr. Zubko’s dedication to exploring the intersections of genetics, evolution, and development makes him a highly deserving candidate for this prestigious award. 🏅🔬🌍
Education
Dr. Mikhajlo K. Zubko holds a Ph.D. in Genetics from the Institute of Molecular Biology and Genetics, Kiev, awarded in 1987. He completed his undergraduate studies at Kiev State University, earning an MSci Hons. in Genetics and a BA Hons. in Biology, with a focus on genetics, biochemistry, molecular biology, and microbiology. His academic journey also includes a Diploma in Public Faculty (Journalism) from Kiev State University in 1976. Dr. Zubko further enhanced his academic expertise with a Postgraduate Certificate in Academic Practice from Bridgewater Hall, Manchester, in 2010. This diverse educational background, combining both scientific and communication disciplines, has equipped Dr. Zubko with a unique perspective on genetic research and teaching. His qualifications have supported his extensive research career, where he has developed novel protocols and methodologies for studying genetic mechanisms and genome stability. 🎓🧬📚
Experience
Dr. Mikhajlo K. Zubko has a wealth of experience in both research and teaching. He has held academic positions at various universities, where he has taught undergraduate and postgraduate courses in genetics, molecular biology, and biochemistry. Dr. Zubko has also led international training courses on cell and genetic engineering in higher plants, sharing his expertise with the next generation of scientists. His research experience spans several decades, with notable contributions to the study of genetic mechanisms of biodiversity, genomic integrity, and the role of telomere maintenance in drug discovery. Dr. Zubko has supervised numerous undergraduate and postgraduate students, guiding them in their research projects and fostering academic growth. He has also been an invited speaker at universities and research institutes, delivering talks at international and national conferences. His extensive teaching and research experience make him a highly respected figure in the field of genetics. 🏫🔬🌍
Awards and Honors
Dr. Mikhajlo K. Zubko’s career has been marked by numerous awards and honors, recognizing his outstanding contributions to the field of genetics. He has been recognized for his work in the development of novel protocols for studying telomere length and antifungal resistance. Dr. Zubko’s research on the integration of genetic information and metabolic activities during growth and development has also garnered significant attention in the scientific community. His work on mitochondrial DNA recombination and the resilience of yeast cells to antifungals has provided important tools for genetic research. Dr. Zubko’s dedication to advancing the field of genetics has been acknowledged through invitations to speak at prestigious international conferences and universities. His ability to bridge the gap between basic research and practical applications has made him a highly respected figure in his field. 🏆🔬🌍
Research Focus
Dr. Mikhajlo K. Zubko’s research focuses on the genetic mechanisms of biodiversity, genomic integrity, and telomere maintenance. He has developed advanced methods for studying the impact of DNA damage and checkpoint control in yeast and other organisms. His work on mitochondrial DNA recombination has provided insights into the basic genetic mechanisms of recombination and inheritance. Dr. Zubko’s research also explores the interactions between nuclear and cytoplasmic genomes, examining how these interactions influence genome stability, development, and stress adaptation. He has pioneered the use of telomere length analysis as a tool for drug discovery, offering new opportunities for therapeutic interventions. Additionally, Dr. Zubko’s research delves into the links between evolution and development, shedding light on how genetic variation contributes to adaptation and resilience. His work on antimicrobial resistance from natural resources further emphasizes his commitment to understanding and solving critical biological challenges. 🌱🧬🔬
Publication Top Notes
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Title: Enhanced Tolerance to Antifungals as a General Feature of Rho− Mutants in Yeast Species: Implications to Positive Selection of Respiratory Deficiency
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Title: Short mre11Δ Telomeres of Saccharomyces Cerevisiae Do Not Shorten Further Under Thermal Stress, in Contrast to Long pif1Δ Telomeres: A Few Aspects of Implications
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Title: Antimicrobial Potential of Pomegranate and Lemon Extracts Alone or in Combination with Antibiotics Against Pathogens
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Title: Towards Sustainable Antimicrobials from Plants: Some Ways to Abridge Current Methodological Approaches
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Title: Phloroglucinol-Enhanced Whey Protein Isolate Hydrogels with Antimicrobial Activity for Tissue Engineering