Mather Khan | Food Security and Nutrition | Best Researcher Award

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Dr. Mather Khan | Food Security and Nutrition | Best Researcher Award

Scientist at University of Missouri | United States

Dr. Mather A Khan is a distinguished Plant Molecular Biologist with over a decade of research expertise focused on metal homeostasis, crop nutrition, and abiotic stress adaptation. His work integrates advanced molecular techniques, yeast systems, and multi-omics approaches to uncover plant-environment interactions. Dr. Khan has led independent research programs and published extensively in high-impact journals, contributing significantly to plant stress biology. He emphasizes sustainable agricultural solutions, aligning his research with global food security goals. As a mentor and innovator, Dr. Khan supports interdisciplinary collaboration to advance scientific understanding and develop practical solutions to agricultural challenges.

Professional Profile

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Education

Dr. Mather A Khan completed his Ph.D. in Biotechnology from Hamdard University, New Delhi, India, where his thesis focused on Fusarium wilt resistance in chickpea using sulfur and microbial consortium. He earned a Master of Science in Biotechnology from Barkatullah University, Bhopal, India, with research on the chemopreventive role of green tea at CNCI, Kolkata. He graduated with a Bachelor of Science in Biosciences from the University of Calcutta, India. Additionally, Dr. Khan completed a specialized Certificate Program in Preparing Tomorrow's Leaders for Science at the University of Missouri, USA.

Professional Experience

Dr. Khan is currently a Scientist at the University of Missouri, where he pioneers integrative molecular and systems biology research to decode iron sensing mechanisms in plants. He previously served as Senior Scientist at Heinrich Heine University in Germany, where he led projects to enhance iron bioavailability in legumes and developed innovative protein interaction pipelines. As a Research Scientist and Postdoctoral Fellow at the University of Missouri, he assembled Arabidopsis transcription factor libraries and advanced single-cell proteomics. His contributions include mentoring over 15 researchers and coordinating high-profile scientific discussions, with a strong focus on precision nutrient uptake and sustainable crop engineering.

Research Interest

Dr. Khan’s research focuses on understanding plant nutrient homeostasis, particularly iron sensing, uptake, and transport mechanisms. He employs multi-omics strategies, high-throughput yeast one-hybrid and yeast two-hybrid platforms, and CRISPR-Cas9 genome editing to uncover molecular interactions regulating plant responses to abiotic stress. His work extends to developing tissue-specific expression systems for trait improvement and engineering advanced metal transporters to enhance nutrient use efficiency in crops. Dr. Khan emphasizes integrating transcriptomic, proteomic, and metabolomic data to reveal complex regulatory networks. His research contributes to sustainable agriculture by improving crop resilience and nutritional quality in the face of global environmental challenges.

Awards and Honor

Dr. Khan has received multiple honors for his contributions to plant molecular biology, including being a panelist for the National Science Foundation’s Division of Biological Infrastructure in 2024 and 2025. He was recognized as a Plantae Fellow by the American Society of Plant Biologists and awarded the Douglas D Randall Young Scientists Development Fund. His scientific impact is further validated by travel awards and participation in international conferences. Dr. Khan’s pioneering work in iron sensing and biofortification has earned him invitations to prestigious scientific meetings and key roles in research panels, reflecting his leadership and expertise in advancing global agricultural science.

Research Skill

Dr. Khan possesses a comprehensive technical skill set in molecular and synthetic biology, including advanced cloning techniques, vector design, and genome engineering with CRISPR-Cas9. His expertise extends to yeast system manipulation for functional gene analysis, protein-protein and protein-DNA interactions using Y1H/Y2H, Co-IP, and BiFC. In plant systems, he conducts genetic crossings, transient expression studies, and elemental analysis. He is proficient in multi-omics techniques such as RNA-seq, proteomics, metabolomics, and ionomics, alongside advanced microscopy and bioinformatics for data analysis. Dr. Khan integrates computational tools (R, Python) for data visualization and analysis, promoting innovative, data-driven solutions in plant molecular research.

Publications

Dr. Khan has an extensive publication record, contributing to high-impact journals in plant biology and molecular sciences. His recent work includes elucidating the role of bHLH35 in plant stress responses and age-dependent iron deficiency responses in Arabidopsis. He has co-authored studies on secondary metabolite biosynthesis, sustainability research comparing mung bean growth conditions, and molecular transport mechanisms in plants. Dr. Khan’s publications extend from mechanistic studies of phloem transporters to innovative methods in proteomics and metabolomics. His research is well cited, contributing substantially to the scientific understanding of plant nutrition, stress adaptation, and molecular biofortification strategies worldwide.

Khan, M. A., Castro-Guerrero, N., & Mendoza-Cozatl, D. G. (2014). Moving toward a precise nutrition: Preferential loading of seeds with essential nutrients over non-essential toxic elements. Frontiers in Plant Science, 5, 51.

Khan, M. A., Castro-Guerrero, N. A., McInturf, S. A., Nguyen, N. T., Dame, A. N., & Mendoza-Cozatl, D. G. (2018). Changes in iron availability in Arabidopsis are rapidly sensed in the leaf vasculature and impaired sensing leads to opposite transcriptional programs in leaves and roots. Plant, Cell & Environment, 41(10), 2263-2276.

Ram, M., Abdin, M. Z., Khan, M. A., & Jha, P. (2011). HPTLC fingerprint analysis: A quality control for authentication of herbal phytochemicals. High-Performance Thin-Layer Chromatography (HPTLC), 105–116.

Ram, M., Khan, M. A., Jha, P., Khan, S., Kiran, U., Ahmad, M. M., & Javed, S. (2010). HMG-CoA reductase limits artemisinin biosynthesis and accumulation in Artemisia annua L. plants. Acta Physiologiae Plantarum, 32(5), 859-866.

Jha, P., Ram, M., Khan, M. A., Kiran, U., & Abdin, M. Z. (2011). Impact of organic manure and chemical fertilizers on artemisinin content and yield in Artemisia annua L. Industrial Crops and Products, 33(2), 296–301.

Conclusion

Dr. Mather A Khan is a visionary researcher dedicated to advancing plant molecular biology for sustainable agriculture. His interdisciplinary approach bridges molecular techniques and systems biology to address critical issues in crop nutrition and abiotic stress resilience. With a passion for scientific discovery and mentorship, Dr. Khan continues to innovate high-throughput methodologies, paving the way for improved plant nutrient sensing and enhanced agricultural productivity. His commitment to global food security is demonstrated through collaborative research, impactful publications, and participation in international panels. Dr. Khan’s work exemplifies the integration of fundamental research with practical solutions for a sustainable future.

Ricardo Luna Murillo | Crop Production | Best Researcher Award

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Mr. Ricardo Luna Murillo | Crop Production | Best Researcher Award

Researcher at Technical University of Cotopaxi | Ecuador

Ricardo Augusto Luna Murillo is an accomplished academic and researcher in the field of agricultural sciences, with a specialization in microbiology and livestock production. Over the course of his career, he has contributed significantly to teaching, research, and consultancy, focusing on sustainable livestock management, organic agriculture, and innovative agronomic practices. His experience spans universities, research institutions, and consultancy roles, where he has worked on multidisciplinary projects, published numerous scientific papers, and participated in international conferences. Through his academic and professional efforts, he has strengthened agricultural knowledge in Ecuador and beyond, promoting scientific innovation and sustainability in rural development.

Professional Profiles

Google Scholar | ORCID | Scopus

Education

Ricardo Augusto Luna Murillo pursued his undergraduate studies in Animal Science, earning a degree as an Agricultural Engineer specializing in Zootechnics. He later advanced his knowledge with a Diploma in Microbiology and subsequently a Master’s degree in Advanced Microbiology with an Industrial focus. Complementing his academic foundation, he received international certification in project formulation, evaluation, and management, which broadened his expertise in planning and implementing research-based projects. His continuous participation in specialized courses on biotechnology, livestock production, and sustainable farming has enriched his scientific background, allowing him to integrate theory with practical innovations in agriculture and microbiology.

Professional Experience

With a professional career spanning decades, Ricardo Augusto Luna Murillo has served in diverse academic, technical, and consultancy roles. He has been a professor and researcher at multiple institutions, including the Universidad Técnica Estatal de Quevedo, Universidad Agraria del Ecuador, and Universidad Técnica de Cotopaxi. His teaching has covered areas such as microbiology, animal nutrition, and pasture management, while his research projects have focused on sustainable livestock production and organic agriculture. Beyond academia, he has worked as a technical consultant, advising on agricultural investment and scientific projects. His leadership in research units and scientific committees reflects his strong commitment to advancing knowledge and innovation.

Research Interests

Ricardo Augusto Luna Murillo’s research interests are centered on sustainable livestock production, animal nutrition, microbiology, and organic agriculture. He has dedicated much of his career to studying the nutritional value of tropical forages, the use of biofertilizers and organic amendments, and the role of rhizobacteria in promoting crop growth. His interests also extend to silvopastoral systems, integrated farming practices, and the application of biotechnology in agriculture. By exploring the intersection of animal science and microbiology, his research aims to improve productivity while maintaining environmental sustainability, contributing to food security and rural development in Ecuador and the wider Latin American region.

Awards and Honors

Throughout his career, Ricardo Augusto Luna Murillo has been recognized for his outstanding academic and research contributions. He has received honors for his role as a dedicated tutor, professor, and researcher in various institutions. His scientific leadership has been acknowledged at national and international congresses, where he has been commended for advancing agricultural innovation and sustainability. He has been accredited by Ecuador’s national higher education authority as a categorized researcher, underscoring his valuable contributions to scientific knowledge. These distinctions reflect his dedication to education, research, and the dissemination of innovative practices that benefit both academia and the agricultural sector.

Research Skills

Ricardo Augusto Luna Murillo possesses a diverse range of research skills developed through years of academic and professional engagement. He is adept at designing, planning, and executing research projects, often leading multidisciplinary teams across agricultural and microbiological studies. His expertise includes animal nutrition analysis, forage evaluation, microbiological techniques, and the application of biofertilizers in crop production. Additionally, he has experience in statistical analysis, technical writing, and scientific publication. His skills extend to organizing scientific events, mentoring young researchers, and contributing as a peer reviewer for academic journals, which highlights his ability to promote high-quality, impactful scientific work.

Publications

A prolific author, Ricardo Augusto Luna Murillo has published numerous articles in indexed journals, conference proceedings, and scientific books. His publications span topics such as animal nutrition, organic fertilization, pasture and forage evaluation, microbiology, and sustainable crop production. His research findings have been disseminated in national and international journals, contributing to advancements in agricultural science. Notably, he has explored the effects of enzymes, biofertilizers, and organic amendments on animal and crop productivity. His academic output demonstrates his commitment to producing practical knowledge that supports sustainable agricultural systems, reinforcing his reputation as a respected researcher and academic leader in his field.

Avellaneda-Cevallos, J. H., Cedeño-Cedeño, T. A., Suárez-Chiquito, A., Montañez-Valdez, O., Cepeda-Cantos, C. D., Luna-Murillo, R., Espinoza-Guerra, I., Quintana, J., & Casanova-Ferrín, L. (2007). Effect of palm kernel meal plus urea on finishing of Brown Swiss young bulls. Journal of Animal Science, 85(Suppl. 1), 96.

Avellaneda-Cevallos, J. H., Quintana-Zamora, G., Espinoza-Torrico, F., Montañez-Valdez, O., Espinoza-Guerra, I., Luna-Murillo, R., González-Muñoz, S., & Tuárez-Cobeña, J. (2007). Effect of an exogenous fibrolytic enzyme on in vivo digestibility of king grass hay. Journal of Animal Science, 85(Suppl. 1), 337.

Avellaneda-Cevallos, J. H., Montanez-Valdez, O. D., Romero-Garaicoa, D., Luna-Murillo, R., Bravo-Loor, J., & Pena-Galeas, M. (2011). Effect of exogenous fibrolytic enzymes on dry matter in situ digestibility of two Brachiaria grasses. Journal of Animal Science, 89(Suppl. E. 1), 387.

Conclusion

In conclusion, Ricardo Augusto Luna Murillo stands as a distinguished figure in the fields of microbiology, zootechnics, and sustainable agriculture. His professional journey reflects a balance between teaching, research, and consultancy, with a strong focus on innovation and sustainability. Through his contributions to scientific literature, leadership in research projects, and participation in international congresses, he has become a reference point for agricultural development in Ecuador. His commitment to fostering young researchers and promoting environmentally responsible practices ensures his work continues to have a meaningful impact on academia, agricultural producers, and broader rural communities across the region.

Mohamed Saleh – Agricultural Biotechnology – Best Researcher Award

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Mohamed Saleh - Agricultural Biotechnology - Best Researcher Award

Prof. Dr Mohamed Saleh - Agricultural Biotechnology - Best Researcher Award

National Research Centre - Egypt

AUTHOR PROFILE

SCOPUS

ORCID

GOOGLE SCHOLAR

SUMMARY

Mohamed Maher Saad Saleh is an Emeritus Research Professor and Former Head of the Pomology Department at the National Research Centre, Egypt. With decades of experience in horticultural science, he has contributed significantly to the propagation, cultivation, and postharvest management of fruit crops. His extensive academic and field-based research has made notable advancements in improving fruit yield, quality, and sustainability under various agricultural conditions. Saleh is highly regarded for his leadership in national projects, scholarly publications, and as a mentor to postgraduate students in horticultural sciences.

EDUCATION

Mohamed Maher Saad Saleh earned his B.Sc., M.Sc., and Ph.D. from the Faculty of Agriculture, Ain Shams University. His master’s thesis focused on the effect of planting distance on bananas, while his doctoral research explored the impact of nitrogen fertilizers on banana growth and productivity. This academic foundation laid the groundwork for his lifelong contributions to pomology, where he applied scientific principles to practical agricultural challenges. His formal education was strongly complemented by his participation in specialized training programs in scientific imaging and research methodology.

PROFESSIONAL EXPERIENCE

Professor Saleh has served the National Research Centre since 1982 in various academic and research roles, including Assistant Researcher, Researcher, and eventually, Head of the Pomology Department (2010–2013). He was appointed Emeritus Professor in 2016, reflecting his distinguished career. Throughout his tenure, he led and contributed to major national and international agricultural projects, particularly in fruit crop development, climate adaptation, and sustainable farming techniques. His expertise extends to teaching, supervising graduate research, and guiding training programs in horticultural practices across Egypt.

RESEARCH INTEREST

His primary research interest revolves around the propagation, production, postharvest handling, and physiological improvement of fruit crops. Special attention is given to bananas, citrus, grapes, olives, mangoes, and date palms. His work integrates traditional practices with modern innovations such as biofertilizers, nanotechnology, and sustainable irrigation to optimize yield and quality. He has also contributed to molecular studies for cultivar identification and genetic improvement. Professor Saleh’s interdisciplinary approach merges field trials with laboratory research to develop practical solutions for Egyptian and regional horticulture.

AWARD AND HONOR

Professor Saleh’s illustrious career is highlighted by several honors, including memberships in prestigious scientific committees such as the Permanent Scientific Committee for Agricultural Sciences and the Basic and Applied Research Ethics Committee. He has been an active contributor and organizer of key national and international conferences. His editorial responsibilities in numerous peer-reviewed journals underscore his authority in the field. His role as a scientific supervisor for international doctoral research also demonstrates his global recognition and academic influence.

RESEARCH SKILL

Professor Saleh’s research skills include expertise in experimental design, soil and plant nutrition, physiological analysis, and the application of biotechnology in fruit crop improvement. He is proficient in advanced agronomic practices, including foliar nutrition, growth regulator usage, irrigation optimization, and plant tissue culture. His analytical capabilities extend to evaluating genetic markers and postharvest treatments. His ability to combine fieldwork with scientific methodology has resulted in numerous actionable outcomes for Egypt’s agricultural sector.

PUBLICATIONS

  • Title: Effect of Nitrogen and Potassium fertilization on Productivity and Fruit Quality of 'Crimson Seedless' Grapes
    Authors: A. El-Razek, D. Treutter, M.M.S. Saleh, M. El-Shammaa,
    Journal/Conference: First Symposium on Horticulture in Europe, 17-20 February 2008, Vienna, Austria.
  • Title: Minimizing the quantity of mineral nitrogen fertilizers on grapevine by using humic acid, organic and biofertilizers
    Authors: A. Eman, A. El-Monem, M. Saleh, E. Mostafa
    Journal: Research Journal of Agriculture and Biological Sciences, Vol. 4 (1), pp. 46-50, 2008.
  • Title: Response of Balady mandarin trees to girdling and potassium sprays under sandy soil conditions
    Authors: E.A.M. Mostafa, M.M.S. Saleh
    Journal: Research Journal of Agriculture and Biological Sciences, Vol. 2 (3), pp. 137-141, 2006
  • Title: Yield and fruit quality of Florida prince peach trees as affected by foliar and soil applications of Humic acid
    Authors: E.A. El-Razek, A.S.E. Abd-Allah, M.M.S. Saleh
  • Title: The beneficial effect of minimizing mineral nitrogen fertilization on Washington navel orange trees by using organic and biofertilizers
    Authors: M.M. Abd El-Migeed, M.M.S. Saleh, E.A. Mostafa
    Journal: World Journal of Agricultural Sciences, Vol. 3 (1), pp. 80-85, 2007.

CONCLUSION

Mohamed Maher Saad Saleh exemplifies the ideal blend of scientific rigor and practical application in agricultural research. His lifelong dedication to pomology, combined with his leadership, prolific publication record, and mentorship, has positioned him as a pillar in Egyptian agricultural development. His influence extends beyond academia into policy-making and sustainable farming practices. As he continues to contribute as an Emeritus Professor, his legacy shapes future research directions and the next generation of agricultural scientists.