SANKALP MISRA | Microbiology | Best Researcher Award

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Assist. Prof. Dr. SANKALP MISRA | Microbiology | Best Researcher Award

Assist. Prof. Dr. SANKALP MISRA , Shri Ramswaroop Memorial University , India

Dr. Sankalp Misra is a dedicated microbiologist with a Ph.D. in Microbial Technology, currently working as a Research Associate at CSIR-National Botanical Research Institute (NBRI), Lucknow. Born on November 6, 1988, in India, he has cultivated a robust academic and research career focused on plant-microbe interactions and sustainable agriculture. Fluent in both English and Hindi, Dr. Misra has consistently demonstrated a commitment to addressing real-world agricultural challenges through microbiological innovations. His research explores the symbiotic relationships between soil microbes and plants, particularly under stress conditions such as salinity and drought. With a host of fellowships, awards, and scientific publications to his name, Dr. Misra is not only a prolific researcher but also a valued contributor to India’s agricultural biotechnology community. He is a life member of the Association of Microbiologists of India and continues to contribute actively to scientific dialogue and applied research in microbial ecology.

Publication Profile: 

Google Scholar

✅ Strengths for the Award:

  1. Extensive Research Experience
    Over 10 years of continuous research in microbial biotechnology, especially plant-microbe interactions, bioremediation, and stress physiology, primarily under the CSIR-NBRI—a top-tier research institution in India.

  2. Focused Scientific Contributions
    His Ph.D. work on salt-tolerant plant growth-promoting rhizobacteria (PGPR) addresses crucial agricultural challenges, with implications in sustainable farming and climate-resilient agriculture.

  3. Prolific Publication Record
    Co-authored over 15 research papers and book chapters in high-impact journals and internationally reputed publishers (Springer, Wiley, Academic Press).

  4. Nationally Recognized Fellowships & Awards

    • ICMR Research Associate & Senior Research Fellowship

    • Gold Medalist in B.Sc.

    • Multiple Best Poster Awards in national and international conferences

    • Consistent CSIR-UGC NET success (31st and 47th ranks)

  5. Professional Engagement
    Holds a Life Membership in The Association of Microbiologists of India, reflecting his active involvement in the scientific community.

  6. Interdisciplinary Expertise
    Skilled in proteomics, metagenomics, microbial ecology, and plant stress biology, showcasing an ability to tackle complex problems from multiple biological angles.

⚙️ Areas for Improvement:

  1. International Exposure
    While the research is nationally strong, global collaborations or international fellowships could further elevate the impact and visibility of his work.

  2. Grant Leadership & Independent Projects
    Leading funded projects as a Principal Investigator (PI) would demonstrate further maturity in research leadership and scientific management.

  3. Patent/Technology Transfer
    Translating research into patents, bio-formulations, or industry partnerships could bridge the lab-to-land gap, enhancing the practical application of his findings.

🎓 Education:

Dr. Sankalp Misra completed his Ph.D. in Microbial Technology from CSIR-NBRI, focusing on the “Characterization of salt tolerant plant growth promoting rhizobacteria from different agro-climatic zones of Uttar Pradesh.” Guided by Dr. Puneet Singh Chauhan, his doctoral work laid a foundation in microbial stress biology. He qualified the prestigious CSIR-UGC NET in both 2013 (47th rank) and 2014 (31st rank), showcasing strong academic competence. He also cleared the CET-Ph.D in 2012. His undergraduate studies were marked by excellence, earning a Gold Medal in B.Sc., emphasizing his early commitment to academic rigor. These achievements underline his solid foundation in microbiology, plant biology, and biotechnological research. Throughout his educational journey, Dr. Misra has consistently demonstrated a deep curiosity for microbial applications in agriculture and an aptitude for integrating advanced scientific methods to address pressing challenges in crop sustainability and soil health.

💼 Experience:

Dr. Sankalp Misra has over a decade of research experience in plant-microbe interactions. He is currently an ICMR-Research Associate at CSIR-NBRI since October 2019. Prior roles include ICMR-Senior Research Fellow and several project fellowships at CSIR-NBRI from 2013 to 2019. These positions allowed him to work on key projects involving soil microbiomes, salt and drought stress in plants, and bioremediation. His extensive hands-on experience ranges from lab-based experiments to field applications, focusing on sustainable and ecological approaches in agriculture. He has significantly contributed to the development of microbial formulations and transgenic studies aimed at improving crop resilience. His continuous association with CSIR-NBRI reflects a stable and productive research career. Each role has helped him refine his techniques in molecular biology, microbiome analysis, and biotechnological innovation, making him a competent and valuable researcher in environmental microbiology and sustainable agricultural practices.

🏅 Awards and Honors:

Dr. Misra has received multiple accolades recognizing his scientific excellence. He was awarded the prestigious ICMR Research Associateship (Oct 2019) and Senior Research Fellowship (July 2019), reflecting national-level recognition. His scientific presentations have earned him Best Poster Awards in major conferences, including the 3rd National Seminar on Life Sciences (NSCTLS-2021) and the 6th International Conference on Plants and Environmental Pollution (ICPEP-6, 2018). Academically, he secured top ranks in CSIR-UGC NET (31st in 2014 and 47th in 2013) and earned a Gold Medal in B.Sc., demonstrating exceptional merit throughout his academic and research career. His commitment is further underscored by his life membership in The Association of Microbiologists of India (AMI). These achievements highlight his consistent dedication, peer recognition, and leadership potential in the fields of microbiology and agricultural biotechnology.

🔍 Research Focus:

Dr. Sankalp Misra’s research centers on plant-microbe interactions, especially under environmental stress like salinity and drought. He explores rhizobacteria that promote plant growth and mitigate stress through mechanisms such as ACC deaminase production, metabolomic reprogramming, and soil microbial community enhancement. His interests extend to soil metagenomics, microbial proteomics, and bioremediation, all aimed at achieving sustainable agriculture. A key aspect of his work involves isolating and characterizing stress-tolerant microbes from diverse agro-climatic zones, using them to enhance crop resilience and productivity. His work contributes to global efforts in climate-resilient farming, making him a notable figure in applied agricultural microbiology. He has co-authored numerous high-impact publications and book chapters that explore these themes, confirming his deep engagement in cutting-edge microbial biotechnology.

📚 Publications Top Notes:

  1. 🌱 Enhancement of Drought Tolerance in Transgenic Arabidopsis thaliana Plants Overexpressing Chickpea Ca14-3-3 Gene

  2. 🦠 Novel trends in endophytic applications for plant disease management

  3. 🌍 Rhizobacteria‐Mediated Bioremediation: Insights and Future Perspectives

  4. 🌾 Endospheric Microbiome-Assisted Alteration in the Metabolomic Profiling of Host towards Abiotic Stress Mitigation

  5. 🧬 Revealing the complexity of protein abundance in chickpea root under drought-stress using comparative proteomics

  6. 🔬 Characterization of alkalotolerant Alcaligenes and Bacillus strains for mitigating alkaline stress in Zea mays

  7. 🌿 Drought tolerant Ochrobactrum sp. inoculation helps maintain homeostasis in Zea mays under water stress

  8. ⚗️ ACC deaminase-producing Bacillus spp. mitigate salt stress and enhance Zea mays growth

  9. 🧪 Exploration of Soil Resistome Through a Metagenomic Approach

  10. 🍃 Essential Oils: Potential Application in Disease Management

📝 Conclusion:

Dr. Sankalp Misra is an excellent and deserving candidate for the Best Researcher Award. His consistent contributions to microbial biotechnology, evidenced by a strong portfolio of peer-reviewed publications, government fellowships, and research impact, make him stand out in his field. His work is not only academically significant but also socially and environmentally relevant in addressing global issues like soil degradation, crop yield loss due to climate stress, and sustainable agriculture.

Hadji Djebar | Microbial Cell Biology | Best Paper Award

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Prof. Hadji Djebar | Microbial Cell Biology | Best Paper Award

Prof. Hadji Djebar , saida university ,  Algeria

Dr. Djebar Hadji is a professor at Saida University, Algeria, specializing in nonlinear optical (NLO) properties, structural analysis, and theoretical quantum chemistry methods. With a deep passion for material science, his research focuses on the relationship between molecular structure and its photonic and NLO properties. Dr. Hadji has published numerous articles in top-tier scientific journals and is a recognized expert in computational chemistry, particularly within the field of nonlinear optics. His contributions extend to being an editor for BMC Chemistry, Springer, and a referee for several journals in his field. He has demonstrated significant expertise in the theoretical investigation of novel materials, combining both experimental and theoretical approaches. Dr. Hadji is continuously working on advancing the understanding of nonlinear optical properties in various molecular compounds and materials.

Publication Profile: 

Orcid

Strengths for the Award:

Dr. Djebar Hadji’s work is well-regarded in the field of Nonlinear Optical (NLO) properties, with a focus on theoretical quantum chemistry and structure-property relationships. His substantial body of work published in high-impact journals like Journal of Molecular Liquids, Journal of Electronic Materials, and Revue Roumaine de Chimie highlights his expertise in the synthesis, characterization, and theoretical study of NLO materials. Dr. Hadji’s research makes a notable contribution to understanding the photonic behavior and NLO properties of various chemical compounds, from organic to inorganic hybrids. His work on N-acyl glycine derivatives and thiosemicarbazides stands out for their novel approaches and interdisciplinary nature. Theoretical methodologies, alongside experimental validations, provide a well-rounded understanding of the materials under study. Furthermore, his continuous engagement as a reviewer and editor adds to his credibility in the scientific community.

Areas for Improvement:

While Dr. Hadji’s research has covered a broad spectrum of NLO materials, there appears to be room to increase the scope of applications and practical validations of these materials in real-world scenarios. A more applied focus, such as exploring their use in specific devices or industry-related innovations, could be beneficial for the impact and commercial potential of his work. Additionally, expanding collaborative efforts with experimentalists in material fabrication could lead to more direct applications and enhance the relevance of the research.

Education:

Dr. Djebar Hadji completed his academic journey with distinction in the field of chemistry. He earned his Ph.D. in Chemistry from a renowned Algerian institution, focusing on nonlinear optical properties and theoretical quantum chemistry methods. His academic endeavors have led him to explore various facets of computational chemistry, and he has continued to deepen his knowledge and expertise throughout his career. Dr. Hadji’s education has provided him with a robust foundation in both theoretical and experimental aspects of chemistry, which has fueled his research on understanding the complex relationships between molecular structures and their properties. His postgraduate education was complemented by ongoing professional development, where he has continuously engaged with the global scientific community through collaborations, conferences, and publications. This educational background, combined with years of teaching and research experience, has made Dr. Hadji a respected figure in his field.

Experience:

Dr. Djebar Hadji has extensive experience in academia and research. As a professor at Saida University, Dr. Hadji has mentored numerous students, guiding them through the complexities of chemistry and computational modeling. His teaching covers a wide range of topics, including theoretical quantum chemistry and nonlinear optics. Dr. Hadji is actively involved in collaborative research, having contributed to groundbreaking studies published in reputable journals such as Journal of Molecular Liquids, Journal of Electronic Materials, and Physical Chemistry Research. His research spans the theoretical and computational investigation of nonlinear optical properties, focusing on the structure-property relationships in various chemical compounds. Dr. Hadji also holds editorial roles in prominent journals and reviews papers for several renowned scientific publications. His multifaceted experience, including both theoretical and experimental work, positions him as a highly knowledgeable and influential figure in the field of chemistry, particularly in nonlinear optics and material science.

Research Focus:

Dr. Djebar Hadji’s research primarily focuses on nonlinear optical (NLO) properties, the interaction between molecular structures and photonic characteristics, and the application of theoretical quantum chemistry methods. His work investigates how molecular arrangements and electronic properties influence NLO responses, which has vast applications in areas like telecommunications, photonics, and material science. Dr. Hadji’s research explores novel molecular compounds, particularly those with potential for high-performance NLO behavior. He utilizes quantum chemical methods such as DFT (Density Functional Theory) and TD-DFT (Time-Dependent DFT) to predict and analyze molecular properties. Additionally, Dr. Hadji is dedicated to the synthesis and characterization of new materials, including hybrid inorganic-organic systems and azo derivatives. His goal is to design materials with enhanced NLO properties for various technological applications, focusing on optimizing the relationship between structure and function. This research contributes significantly to the development of advanced materials with improved nonlinear optical responses.

Publications Top Notes:

  1. Nonlinear optical and antimicrobial activity of N-acyl glycine derivatives, Journal of Molecular Liquids, 2024 📖🧬
  2. Deeper Insights on the Nonlinear Optical Properties of O-acylated Pyrazoles, Journal of Electronic Materials, 2024 🔬💡
  3. Synthesis And Characterization Of Novel Thiosemicarbazide For Nonlinear Optical Applications: Combined Experimental And Theoretical Study, Revue Roumaine de Chimie, 2024 🔬⚗️
  4. NLO azo compounds with sulfonamide groups: A theoretical investigation, Journal of Indian Chem. Soc., 2023 🧪✨
  5. Synthesis and characterization of novel thiosemicarbazide for nonlinear optical applications, Rev. Roum. Chim., 2023 ⚗️🔍
  6. Efficient NLO Materials Based on Poly(ortho-anisidine) and Polyaniline: A Quantum Chemical Study, Journal of Electronic Materials, 2022 🧬💡
  7. Molecular Structure, Linear, and Nonlinear Optical Properties of Piperazine-1,4-Diium Bis 2,4,6-Trinitrophenolate, Physical Chemistry Research, 2022 ⚗️📚
  8. Theoretical insights into the nonlinear optical properties of cyclotriphosphazene, Journal of Materials Science, 2022 📊🔬
  9. Linear and nonlinear optical properties of anhydride derivatives: A theoretical investigation, December 2021 🧪💡
  10. Synthesis, spectroscopic characterization, crystal structure, and linear/NLO properties of a new hybrid compound, Journal of Molecular Structure, 2021 🧪🔍

Conclusion:

Dr. Djebar Hadji’s extensive contribution to the understanding of nonlinear optical properties of various compounds places him as a strong candidate for the Research for Best Paper Award. His solid foundation in both experimental and theoretical aspects of material science and quantum chemistry, as well as his consistent publication record, are commendable. While his work is theoretically rich, adding practical application studies could further enhance his impact and lead to real-world implementation of his discoveries in the field of optics and photonics.

Romain Villéger | Host-bacteria interactions | Cell Metabolism Award

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Assist. Prof. Dr. Romain Villéger | Host-bacteria interactions | Cell Metabolism Award

Assist. Prof. Dr. Romain Villéger , Université de Poitiers , France

Dr. Romain Villéger is an Assistant Professor at the University of Poitiers, France, in the Ecology & Biology of Interactions (EBI) lab, within the Microorganisms-Hosts-Environments (MHE) team. With a Ph.D. from the University of Limoges, his work explores the intricate interactions between probiotics and host cells. He has held postdoctoral positions at the University of Bordeaux and the University of Texas Medical Branch, USA, focusing on microbiota-host relationships and metabolomics. Dr. Villéger’s research aims to unravel the role of bacterial interactions, particularly in the context of gastrointestinal health, microbiota, and cancer. His research has led to significant advancements in understanding microbial pathogenesis, including the effects of probiotics and endocrine disruptors on host cell metabolism. A dedicated researcher, he has contributed to numerous scientific publications and currently leads several high-impact projects on bacteria-host interactions.

Publication Profile:

Scopus

Strengths for the Award:

  1. Expertise in Metabolomics: Dr. Romain Villéger’s extensive work in metabolomics, especially in the context of host-bacteria interactions, positions him as a strong candidate for the Cell Metabolism Award. His research on bacterial influence on host cellular metabolism and gut microbiota interactions contributes significantly to the field of cellular metabolism.
  2. Innovative Research Contributions: His research, particularly on the metabolic changes during amoeba-Legionella interactions, showcases a novel approach to understanding microbial pathogenesis. By identifying metabolic vulnerabilities in pathogens, his work has the potential for therapeutic applications, thus addressing fundamental questions in cell metabolism.
  3. Multidisciplinary Approach: Dr. Villéger combines microbiology, immunology, and metabolomics, which enriches his contributions to cellular metabolism. His research is collaborative, evidenced by numerous projects across different institutions and fields, indicating a broad and innovative approach to the subject.
  4. Publications and Impact: He has a strong publication record, with numerous articles in peer-reviewed journals (19 publications), with high visibility in top-tier journals such as British Journal of Cancer, Frontiers in Cellular and Infection Microbiology, and Environmental Microbiology Reports. This demonstrates his influence and impact in the scientific community.
  5. Research Leadership: As the principal investigator of multiple projects, including those on the effects of phthalates on gut microbiota and cancer development, Dr. Villéger has demonstrated leadership in advancing scientific knowledge in areas that intersect with cell metabolism, host-microbe interactions, and metabolic changes in disease.

Areas for Improvement:

  1. Broader Clinical Translation: While his research shows deep insights into fundamental mechanisms, further work on translating these findings into practical clinical applications or therapeutic interventions would strengthen his impact in applied cellular metabolism.
  2. Interdisciplinary Team Development: While Dr. Villéger collaborates with many renowned researchers, fostering additional interdisciplinary partnerships could enrich his research by incorporating diverse techniques and perspectives from fields like drug development or personalized medicine.
  3. Expanding Metabolomic Toolkits: His research could benefit from exploring emerging and cutting-edge techniques in metabolomics, like single-cell analysis or multi-omics approaches, to gain deeper insights into cellular metabolism at the individual cell level.

Education:

Dr. Villéger completed his Ph.D. at the University of Limoges, where his thesis focused on the interactions between probiotics and host cells. His postdoctoral work spans institutions in France, the USA, and beyond, each contributing valuable insights into microbial-host dynamics and cellular microbiology. At the University of Bordeaux, he developed metabolomic approaches using GC/MS to study microbiota interactions. Later, at the University of Texas Medical Branch, he delved deeper into the effects of probiotics on intestinal homeostasis. Further postdoctoral experiences at the University of Clermont Auvergne involved examining the relationship between E. coli and colorectal cancer. Through these experiences, Dr. Villéger has gained expertise in microbiota research, cell biology, and metabolic analysis, providing a foundation for his ongoing work in the field. His education has provided a strong interdisciplinary framework, integrating microbiology, molecular biology, and toxicology into his research.

Experience:

Dr. Villéger has accumulated extensive experience in both academic and research settings. After earning his Ph.D. in 2014, he completed several postdoctoral positions, with notable work at the University of Bordeaux, where he pioneered metabolomics techniques for microbiota research. His tenure at the University of Texas Medical Branch expanded his focus to the effects of probiotics on intestinal homeostasis. Additionally, his work at the University of Clermont Auvergne involved exploring the connection between microbial interactions and cancer. Since joining the University of Poitiers in 2020 as an Assistant Professor, Dr. Villéger has led several research projects, including investigating the impact of endocrine disruptors on colorectal cancer development. He is also a leader in metabolomics and microbial pathogenesis, with a particular focus on bacteria-host interactions and microbiota modulation. His research has contributed to numerous publications and collaborations with institutions worldwide, showcasing his ability to manage complex research projects.

Research Focus:

Dr. Villéger’s research primarily focuses on bacteria-host interactions, gut microbiota, and cellular microbiology, with a special interest in how microbial populations affect host metabolism. His work integrates metabolomics, a powerful tool for studying metabolic processes, to better understand microbial influence on host cells. Dr. Villéger’s recent studies explore the role of oxidative stress in microbial infections, including Legionella pneumophila’s subversion of host immune defenses during infection. He has also investigated the impact of endocrine disruptors on microbial virulence, providing insights into the potential links between environmental factors and microbial pathogenesis. His contributions to understanding the microbiota-gut-brain axis, particularly in the context of colorectal cancer, emphasize the metabolic changes induced by bacterial interactions. Dr. Villéger’s research aims to identify biomarkers for disease and therapeutic interventions, with a broader goal of advancing precision medicine through a better understanding of the cellular and metabolic processes that underlie microbial-host dynamics.

Publications Top Notes:

  1. Legionella pneumophila subverts the antioxidant defenses of its amoeba host Acanthamoeba castellanii 💥🦠
  2. Increased Activity of MAPKAPK2 within Mesenchymal Cells as a Target for Inflammation-Associated Fibrosis in Crohn’s Disease 🔬🧬
  3. Exposure to endocrine disruptors promotes biofilm formation and contributes to increased virulence of Pseudomonas aeruginosa 💧🦠
  4. Loss of alcohol dehydrogenase 1B in cancer-associated fibroblasts: contribution to the increase of tumor-promoting IL-6 in colon cancer 🧬🦠
  5. Effect of endocrine disruptors on bacterial virulence 🌿🧪
  6. Proteomic analysis of Acanthamoeba castellanii response to Legionella pneumophila infection 🔬🦠
  7. Disruption of retinol-mediated IL-6 expression in colon cancer-associated fibroblasts: new perspectives on the role of vitamin A metabolism 🧬🍊
  8. Microbiota medicine: towards clinical revolution 🌍💊
  9. Deletion of cystathionine-γ-lyase in bone marrow-derived cells promotes colitis-associated carcinogenesis 🔬🦠
  10. Prebiotic Isomaltooligosaccharide Provides an Advantageous Fitness to the Probiotic Bacillus subtilis CU1 🍞🦠

Conclusion:

Dr. Romain Villéger is a highly qualified candidate for the Cell Metabolism Award. His research contributions in understanding microbial influence on cellular metabolism and gut health, combined with his innovative approach to metabolomics, make him stand out in the field. His work bridges basic science and potential clinical applications, positioning him as a key figure in the ongoing exploration of microbial and metabolic influences on host physiology. With some expansion into clinical applications and further exploration of new metabolomics techniques, his contributions could significantly impact both scientific knowledge and medical practice.

 

 

 

Alaa Almahameed | Microbial Cell Biology | Best Researcher Award

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Dr. Alaa Almahameed | Microbial Cell Biology | Best Researcher Award

Dr. Alaa Almahameed , Damascus University , Syria

Alaa Almahameed is a distinguished Specialist Endodontist from Syria, currently serving at Damascus University. With a profound dedication to advancing endodontic care, Almahameed has built a remarkable academic and professional career. He has contributed significantly to the field through rigorous research, clinical practice, and teaching. His work focuses on innovative techniques and treatments aimed at improving patient outcomes. Almahameed is particularly noted for his research on antimicrobial agents in endodontics, especially evaluating natural alternatives like propolis. His commitment to research and his pursuit of excellence in education have earned him a reputation as an influential figure in the scientific community.

Publication Profile:

Orcid

Strengths for the Award:

Dr. Alaa Almahameed demonstrates significant contributions to the field of Endodontology, particularly in his research on the antibacterial efficacy of propolis as an intercanal medicament against Enterococcus faecalis. His ongoing research represents a pioneering approach that could improve endodontic practices and patient outcomes. His ability to integrate academic knowledge with clinical practice makes him a notable candidate for the Best Researcher Award. Furthermore, his dedication to advancing the field through rigorous scientific inquiry in antimicrobial treatments showcases his commitment to research excellence. His work is aligned with contemporary needs in dental care, ensuring both innovation and practical impact.

Areas for Improvement:

To strengthen his candidacy further, Dr. Almahameed could benefit from expanding his research output in terms of collaborative international projects and increasing the citation index of his publications. Greater involvement in high-impact journals, particularly those focused on clinical endodontics, would also enhance his visibility and recognition in the global research community. Additionally, exploring more multidisciplinary research could diversify his portfolio and open new avenues for impactful contributions.

Education:

Alaa Almahameed holds a degree in Dentistry from Damascus University, followed by a specialization in Endodontics. He has undergone extensive training in advanced dental procedures, particularly in the fields of root canal therapy and endodontic microsurgery. His academic background is complemented by numerous research endeavors focusing on the microbiological aspects of dental treatments. Almahameed is also actively involved in educational and training programs, sharing his expertise with students and young professionals. His ongoing education includes attending national and international conferences, workshops, and seminars, ensuring that he remains at the forefront of endodontic advancements. His continuous pursuit of knowledge and innovation in his field allows him to contribute both academically and practically to dentistry and endodontics.

Experience:

Dr. Alaa Almahameed has over a decade of clinical experience as an Endodontist, with a strong focus on the treatment and management of complex root canal cases. He has treated numerous patients with a variety of endodontic issues and has continuously sought innovative methods for improving clinical outcomes. His work as a faculty member at Damascus University allows him to combine his clinical practice with teaching, mentoring, and research. In addition, Almahameed is involved in national and international professional associations and has collaborated with experts in the field to further research on endodontic materials and treatment modalities. His practical expertise, paired with his commitment to advancing endodontics, ensures he remains a respected and influential figure in his field.

Research Focus:

Dr. Almahameed’s research primarily revolves around advancing the field of Endodontology, focusing on the development and evaluation of novel materials and methods to improve root canal therapy outcomes. His significant research interest is in the antimicrobial efficacy of natural substances, particularly propolis, as an intercanal medicament against pathogens like Enterococcus faecalis. This randomized controlled in vitro study aims to evaluate the potential of natural alternatives to enhance root canal disinfection, a critical factor in endodontic success. His research also explores the mechanisms by which different substances interact with endodontic materials and their role in long-term dental health. Almahameed’s work aims to bridge clinical practice with scientific innovation, focusing on better patient outcomes through both novel treatments and scientifically-backed methods.

Publication Top Notes:

  1. Evaluation of antibacterial efficacy of propolis as an intercanal medicament against Enterococcus faecalis 🦠🧴
  2. Impact of natural substances in endodontic infection control 🌿🔬
  3. In vitro analysis of alternative antimicrobial agents for root canal disinfection 🧫⚙️
  4. Propolis as a potential adjunct to traditional endodontic therapies 🌱🦷

Conclusion:

Dr. Almahameed’s research in Endodontology is highly relevant, particularly in terms of exploring natural substances for improving root canal therapy. His work shows considerable potential for advancing the field, with notable implications for both clinical practice and research. While there is room for growth in terms of international collaboration and increasing his citation index, his contributions so far make him a strong contender for the Best Researcher Award. His dedication, innovation, and practical focus on patient outcomes set him apart as a researcher deserving of this recognition.

 

 

 

Mona Soliman | Microbial Cell Biology | Best Researcher Award

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Prof. Mona Soliman | Microbial Cell Biology | Best Researcher Awards

Prof. Mona Soliman , Taibah University , Saudi Arabia

Dr. Mona Hassan Soliman Hussein is an Associate Professor in the Biology Department, Plant Physiology Division at Taibah University, Yanbu, Saudi Arabia, and holds a permanent position as Associate Professor at Cairo University, Egypt. She was born on October 19, 1968, in Maadi, Cairo, Egypt. Dr. Hussein holds a PhD in Plant Physiology and Biochemistry from Cairo University, where she specializes in natural products and biochemical plant ecology. She has extensive experience in plant stress physiology, especially in the context of allelopathy, stress alleviation, and the use of bio-stimulants and natural compounds to improve plant productivity. Dr. Hussein has published numerous research papers and book chapters and is actively involved in academic committees and research initiatives in both Egypt and Saudi Arabia.

Publication Profile: 

Orcid

Strengths for the Award:

  1. Academic and Professional Background:
    • Dr. Soliman holds advanced degrees in Plant Physiology and Biochemistry, including a Master’s and a Ph.D. from Cairo University, with a focus on biochemical plant ecology and allelopathic potential in plants. This deep scientific expertise in both the theoretical and applied aspects of plant physiology makes her a leader in the field.
    • She has held prominent positions at various institutions, including Associate Professor in both Taibah University (KSA) and Cairo University (Egypt), along with leadership roles such as Dean of Academic Affairs and Head of Exam Committees.
  2. Research Contributions:
    • Dr. Soliman has an impressive research portfolio, with multiple journal articles and book chapters on plant stress tolerance, bio-stimulants, and allelopathy. Her studies focus on innovative methods to enhance crop resilience to abiotic stresses such as drought, salinity, and heavy metals.
    • She has contributed to high-impact journals, with a diverse research output that addresses both theoretical and applied scientific issues, offering practical solutions for crop improvement.
    • Her research also bridges plant physiology with practical agricultural solutions, such as improving soil quality with biochar or enhancing plant tolerance to environmental stresses, which is highly relevant for sustainable agriculture.
  3. Global Recognition:
    • Dr. Soliman has global recognition through her profiles on platforms like Google Scholar, Scopus, ResearchGate, and ORCID, reflecting her international presence and collaboration. Her research has been cited in multiple studies, suggesting that her work is widely acknowledged by peers in the field.
  4. Leadership and Collaboration:
    • As an active collaborator in multiple projects and publications, she has demonstrated strong leadership in managing interdisciplinary research teams, which is crucial for large-scale research initiatives. Her involvement in various academic committees further emphasizes her leadership skills.

Areas for Improvement:

  1. Research Visibility and Outreach:
    • While Dr. Soliman has a strong publication record, increasing the visibility of her research through more frequent presentations at international conferences and public outreach could help in disseminating her findings to a broader audience, particularly in regions that face the environmental challenges her research addresses.
  2. Interdisciplinary Collaborations:
    • Although her research spans across plant physiology, biochemistry, and applied agricultural sciences, fostering collaborations with industries and organizations working on sustainable agricultural technologies could enhance the practical impact of her research.
  3. Innovation in Research Focus:
    • Dr. Soliman could consider expanding her research to include cutting-edge technologies such as genomics, plant-based biotechnology, or climate change mitigation strategies in agriculture, which would enhance the novelty and potential impact of her future studies.

Education:

Dr. Mona Hussein’s educational journey includes a Bachelor’s degree in Botany with Honors from Cairo University in 1990, followed by a Master’s degree in Biochemical Plant Ecology from Cairo University in 1996. Her Master’s thesis focused on “Allelopathic Potential of Lupinus termis Seeds,” exploring the use of secondary metabolites for enhancing plant production. She earned her PhD in Plant Physiology and Biochemistry in 2003, specializing in the allelopathic effects of sunflower residues on wild oat and wheat. Throughout her academic career, Dr. Hussein has excelled in her studies and research, contributing significantly to the fields of plant stress physiology and natural product chemistry.

Experience:

Dr. Mona Hussein has over three decades of experience in plant physiology and biochemistry. She began her career as an Instructor at Cairo University, later progressing to Assistant Lecturer, Lecturer, and Associate Professor. In addition to her work in Egypt, Dr. Hussein has served in leadership roles at Taibah University, Saudi Arabia, including Dean of Academic Affairs, Head of Exam Committees, and Coordinator of the Biology Department. Her administrative and academic leadership has contributed to enhancing educational programs and research. She has also coordinated academic guidance and played a key role in shaping scientific committees. Throughout her career, she has supervised graduate students, collaborated on numerous research projects, and made substantial contributions to improving agricultural practices and plant stress resilience.

Awards and Honors:

Dr. Mona Hussein has received several recognitions for her academic and research contributions. She has been acknowledged for her pioneering work in plant physiology, particularly in understanding the biochemical and physiological responses of plants under abiotic stresses such as drought and salinity. Her research on using natural compounds like allelopathic agents has earned her acclaim in the scientific community. Dr. Hussein has been a recipient of multiple grants and awards for research excellence and innovation. Additionally, her leadership roles in academic committees, including the Faculty of Science and various universities in both Egypt and Saudi Arabia, have earned her recognition for outstanding service in higher education. Her contribution to environmental sustainability and agricultural development has also been celebrated by professional societies in the field of botany and plant physiology.

Research Focus:

Dr. Mona Hussein’s research focus lies at the intersection of plant physiology, biochemistry, and stress biology. Her work investigates the role of natural compounds and secondary metabolites in enhancing plant resilience to environmental stress, such as drought, salinity, and other abiotic factors. She is particularly interested in allelopathy and how plants produce chemicals that can control weeds and enhance crop productivity. Her research involves exploring bio-stimulants and natural products, including alkaloids, phenolics, flavonoids, and terpenoids, to improve plant growth and health. Dr. Hussein’s recent studies have explored the use of biochar and bio-stimulants in mitigating the effects of stress on crops like soybeans, sunflower, and wheat. She also investigates the molecular and biochemical pathways underlying stress tolerance, aiming to develop sustainable agricultural practices that promote higher crop yields in challenging environments.

Publications Top Notes:

  • “Investigating the combined effects of β-sitosterol and biochar on nutritional value and drought tolerance in Phaseolus vulgaris under drought stress” 🌱
  • “Eco-Physiological and Morphological Adaptive Mechanisms Induced by Melatonin and Hydrogen Sulphide Under Abiotic Stresses in Plants” 🌿
  • “Mentha piperita and Stressful Conditions” 🌿
  • “Role of Ascorbic Acid in Alleviating Abiotic Stress in Crop Plants” 🍊
  • “Integrated usage of Trichoderma harzianum and biochar to ameliorate salt stress on spinach plants” 🌱
  • “Exogenous Nitric Oxide Reinforces Photosynthetic Efficiency, Osmolyte, Mineral Uptake, Antioxidant, Expression of Stress-Responsive Genes and Ameliorates the Effects of Salinity Stress in Wheat” 🌾
  • “Alleviation of copper phytotoxicity by acetylsalicylic acid and nitric oxide application in mung bean” 🌿
  • “Exogenous Myo-Inositol Alleviates Salt Stress by Enhancing Antioxidants and Membrane Stability” 🍃

Conclusion:

Dr. Mona Hassan Soliman Hussein is undoubtedly a deserving candidate for the Best Researcher Award. She has demonstrated consistent excellence in research, contributing valuable insights into plant physiology, biochemistry, and their applications in agricultural sciences. Her leadership roles, vast publication record, and international collaborations further strengthen her case for the award. With continued growth in research visibility and engagement in cutting-edge collaborations, Dr. Soliman could make even greater strides in the field of plant science and agricultural sustainability.