Aime Christian Kayath | Microbial Cell Biology | Best Researcher Award

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Prof. Aime Christian Kayath | Microbial Cell Biology | Best Researcher Award

Prof. Aime Christian Kayath, Marien NGOUABI University, Republic of the Congo

Dr. Christian Aimé Kayath is a Congolese biotechnologist, academic, and scientific leader with over two decades of experience in teaching, research, and science policy. Currently serving as the Director of Cooperation at the Ministry of Higher Education, Scientific Research and Technological Innovation (MESRSIT) in the Republic of Congo, he is also a CAMES-accredited Research Professor at Marien Ngouabi University. With a strong foundation in microbiology, molecular biology, and biotechnology, Dr. Kayath has authored over 70 peer-reviewed publications and supervised more than 100 dissertations. His research spans bioremediation, biosurfactants, and fermented food technology. A multilingual scholar fluent in French and English, he has also held research and teaching roles in Belgium, significantly shaping Congo’s scientific infrastructure. He is known for his dedication to academic excellence and public science engagement, as reflected in his creation of educational movements and leadership in cultural organizations.

Publication Profile: 

Orcid

Strengths for the Award:

  1. 🔬 Robust Research Output

    • 71 peer-reviewed journal articles, 1 book, and 10+ supervised theses.

    • h-index of 9, with 311 citations and a Research Interest Score of 526.8 on ResearchGate.

    • Published consistently in reputable journals like International Journal of Microbiology and Journal of Pathogens.

  2. 👨‍🏫 Academic & Mentorship Leadership

    • Over 100 dissertations supervised since 2015, showing commitment to academic mentorship.

    • Active as a CAMES Lecturer, Research Professor, and Head of a Research Laboratory.

  3. 🌍 International & Policy Experience

    • Held senior roles in government ministries (MRSIT, MESRSIT) as Director of Cooperation and Scientific Activities.

    • Experience across Congo and Belgium, including universities and research institutes.

    • Served as National Liaison Officer (NLO) with the IAEA (2014–2023), indicating global collaboration in science and technology.

  4. 📚 Multidisciplinary Expertise

    • Specialized in biotechnology, molecular biology, microbiology, and biosurfactants.

    • Also skilled in e-management, IT tools, and web design, showcasing adaptability and cross-functional capabilities.

  5. 🫂 Community & Social Engagement

    • Founder of the social education movement “L’école ke bien, l’école ke futa” to fight school dropouts.

    • President of a historic choir with 200+ members, highlighting leadership in civil society.

⚠️ Areas for Improvement:

  • 🌐 Global Collaboration Expansion

    • Although strong in Africa and Europe, expanding collaborations to North America or Asia could enhance his global academic influence.

  • 📱 Digital Visibility

    • A dedicated academic website, active LinkedIn profile, or Google Scholar page would improve public and institutional access to his achievements.

  • 🎯 Citation and Impact

    • While his h-index (9) and citation count (311) are respectable, targeting high-impact journals could elevate his academic footprint further.

🎓 Education:

Dr. Kayath’s academic journey began at Marien Ngouabi University (Congo) with a Bachelor’s degree in Cell Biology and Physiology (1999–2000), followed by a Master’s in Cellular and Molecular Biology (2000–2001). He later pursued a DES in Biotechnology with Distinction at the University of Liège, Belgium (2003–2005), before completing a PhD in Biotechnology–Biochemistry–Molecular Biology (2005–2010), where he graduated with honors. His education is enhanced by complementary training in e-management and business administration (2008–2009, Brussels), which supports his administrative expertise. Dr. Kayath has consistently merged academic rigor with applied science and policy, reflecting a versatile and forward-thinking scholar. His multidisciplinary background underpins his work in biosciences, research governance, and international cooperation.

💼 Professional Experience:

Dr. Kayath’s career includes significant roles in academia, research, and science governance. He has served as Research Professor and Head of Laboratory of Applied Microbiology and Molecular Biology at IRSEN/MESRSIT since 2014. He was previously Scientific Attaché (2015–2016), Director of Scientific Activities (2019–2021), and currently serves as Director of Cooperation at MESRSIT. Internationally, he worked in Belgium as a Senior Scientist at Ovogenics (2011–2012), Project Developer at CERP Haren (2010–2011), and Assistant Professor at the University of Brussels (2008–2011). Earlier, he taught biology at Lycée Ecole Actuel and the International University of Brazzaville. He also acted as NLO for the IAEA (2014–2023), enhancing nuclear science cooperation. His professional path showcases a strong alignment between scientific leadership and practical impact.

🔬 Research Focus:

Dr. Kayath’s research specializes in microbial biotechnology, with a focus on biosurfactant production, bioremediation, microbial fermentation, and pathogen control. His investigations explore the role of indigenous Bacillus strains in soil cleanup and food preservation, alongside the biomedical enhancement of fermented products. He has studied Shigella flexneri’s biosurfactant mechanisms, polyphenol enhancement in ginger fermentation, and biosurfactants in plantain wine. His research directly addresses health, food security, and environmental issues in Sub-Saharan Africa and beyond. Dr. Kayath integrates molecular biology, biochemistry, and microbial ecology, often applying meta-analytical techniques and PCR methods. His ability to blend applied research with policy has made him a bridge between science and governance, reinforcing national research strategies in Congo. His work is widely cited, and he continues to contribute to sustainable innovation in African biotechnology.

📚 Publications Top Notes: 

  1. 🧫 High Efficacy of Rose Bengal in Reducing the Pathogenicity of Escherichia coli – Int. J. of Microbiology (2025)

  2. 🍛 Evolution of Fermented Food Products in the Republic of Congo: A Meta-analytic Review – J. of Advances in Microbiology (2024)

  3. 🌱 Bacillus Species Consortium as a New Starter in Cassava Retting – Int. J. of Microbiology & Biotechnology (2024)

  4. 🧪 Involvement of Bacillus SecYEG Pathway in Biosurfactant Production and Biofilm Formation – Int. J. of Microbiology (2024)

  5. 🛢 Profiling of Indigenous Biosurfactant-Producing Bacillus Isolates in Bioremediation – Int. J. of Microbiology (2021)

  6. 🔬 Prime Enzymatic Exocellular Background of Lysinibacillus louembei – Advances in Microbiology (2020)

  7. 🍹 Synergic Involvements of Microorganisms in Fermented Ginger Juice – Int. J. of Microbiology (2020)

  8. 🧫 Invasion of Epithelial Cells via T3SS of Shigella flexneri – J. of Pathogens (2020)

  9. 🧬 Invasion of Epithelial Cells via T3SS of Shigella flexneri (Preprint) – bioRxiv (2020)

  10. 🍷 Benefits of Biosurfactants from Lactic Acid Bacteria in Plantain Wine – Advances in Microbiology (2019)

🧾 Conclusion:

Dr. Christian Aimé Kayath is an exceptionally qualified and well-rounded researcher, merging high-level academic output with administrative leadership and societal engagement. His prolific publication record, contribution to education policy, international collaborations, and mentorship excellence make him highly suitable for the Best Researcher Award.

Liquan Huang | Signal Transduction Mechanisms | Best Researcher Award

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Prof. Dr. Liquan Huang | Signal Transduction Mechanisms | Best Researcher Award

Prof. Dr. Liquan Huang , Zhejiang University – Zijingang Campus , China

Liquan Huang is a distinguished molecular biologist specializing in taste transduction and chemosensory research. He completed his Ph.D. in Molecular Biology from Yale University in 1996 under Dr. Michael Lerner and pursued postdoctoral training at Mount Sinai School of Medicine, New York University. With extensive experience in molecular physiology, Dr. Huang has made significant contributions to sensory perception and signaling pathways. Currently, he serves at Zhejiang University, China, where he leads groundbreaking research on G-protein signaling and taste receptor mechanisms. His work has been widely published in top-tier journals, influencing the fields of neuroscience and molecular biology. Dr. Huang has mentored several postdoctoral researchers and contributed to organizing international scientific conferences. His research on sensory transduction has broad applications, including food sciences and human health. His dedication to advancing scientific knowledge makes him a strong candidate for the Best Researcher Award.

Publication Profile:

Orcid

Strengths for the Award:

  1. Extensive Research Contributions – Dr. Liquan Huang has an impressive publication record in high-impact journals such as Nature Neuroscience, Journal of Neuroscience, eLife, and PLoS Genetics. His work spans molecular biology, neurophysiology, taste receptor studies, and virology, showing a broad impact in multiple scientific disciplines.

  2. Significant Scientific Impact – His research on taste receptors, G-protein signaling, and environmental viromes has contributed significantly to the understanding of molecular signaling pathways, sensory biology, and viral ecology. His discoveries, such as the pseudogenization of sweet receptors in cats and the role of Gγ13 in inflammation resolution, have broad implications.

  3. Funding and Recognitions – Dr. Huang has received multiple fellowships and research grants, including the Morley R. Kare Fellowship and Small Research Grant Program Award, demonstrating sustained recognition and funding for his work.

  4. Mentorship and Training – Having trained multiple postdoctoral fellows and graduate students, he has contributed to the scientific community by fostering new talent in molecular biology and neuroscience.

  5. International Collaborations and Professional Affiliations – As a member of esteemed organizations like the New York Academy of Sciences, Association for Chemoreception Sciences, and Society for Neuroscience, and as an organizer of major scientific meetings, he has actively contributed to the global research community.

  6. Recent Cutting-Edge Research – His recent work on environmental viromes, the evolution of human pathogenic RNA viruses, and G-protein-mediated inflammation resolution shows his ability to evolve with emerging research trends.

Areas for Improvement:

  1. Diversity of Funding Sources – While Dr. Huang has received multiple research grants, expanding his funding from diverse international sources and large-scale collaborative grants could further support high-impact research.

  2. Broader Public Engagement – Increased engagement in public science communication, industry collaborations, and policy-making could enhance his influence beyond academia.

  3. Interdisciplinary Expansion – While his research is already multidisciplinary, extending collaborations into areas such as AI-driven bioinformatics, synthetic biology, or applied therapeutics could amplify the translational impact of his work.

Education:

Dr. Liquan Huang has a strong academic background in biology and molecular sciences. He obtained his Ph.D. in Molecular Biology from Yale University in 1996, where he was mentored by Dr. Michael Lerner. Prior to this, he earned an M.Ph. in Biology from Yale University in 1993. His foundational training in cell biology and anatomy began at New York Medical College in 1991. These rigorous academic pursuits equipped him with expertise in molecular and cellular mechanisms, particularly in sensory and chemosensory research. His education laid the groundwork for his later advancements in taste receptor studies and G-protein signaling pathways. His tenure at these prestigious institutions provided him with a strong theoretical and experimental foundation, allowing him to excel in interdisciplinary research. His academic excellence was further recognized through fellowships at Yale University and New York Medical College, highlighting his commitment to scientific innovation.

Experience:

Dr. Liquan Huang has an extensive research and academic career spanning over three decades. He began his career as an Assistant Researcher at the Institute of Genetics, Academia Sinica, China (1987–1990). Following his doctoral studies, he pursued postdoctoral research at Mount Sinai School of Medicine, New York University (1996–2000) under Dr. Robert F. Margolskee. He later became an Instructor in the Department of Physiology and Biophysics at Mount Sinai School of Medicine (2000–2002). Currently, he is a researcher and faculty member at Zhejiang University, leading studies in molecular physiology and taste transduction. Dr. Huang has also trained multiple postdoctoral fellows and collaborated on high-impact research. His expertise in sensory biology has led to numerous publications and organizing roles in international conferences. His contributions to neuroscience, molecular biology, and sensory perception establish him as a leading figure in the field.

Awards and Honors:

🏅 Morley R. Kare Fellowship (2004–2006) – Recognized for excellence in chemosensory research.
🎖 Small Research Grant Program Award (R03 DC05154) (2002–2005) – Supported research on molecular taste mechanisms.
🏆 Individual National Research Service Award (F32DC00310) (1998–2000) – Awarded for outstanding postdoctoral research contributions.
🥇 Institutional National Research Service Award (T32DA07135) (1997–1998) – Recognized for research excellence in molecular biology.
🎓 Yale University Fellowship (1991–1996) – Prestigious scholarship for Ph.D. studies in Molecular Biology.
🎖 New York Medical College Fellowship (1991) – Awarded for academic excellence in cell biology training.

Research Focus:

🔬 Taste Transduction & Chemosensory Signaling – Investigating molecular mechanisms of taste receptor activation.
🧬 G-Protein Signaling Pathways – Studying Gγ13 subunit’s role in sensory processing and inflammation resolution.
🦠 Virology & Environmental Microbiology – Exploring deep-sea RNA viromes and their evolutionary significance.
🩺 Biomedical Applications – Examining taste receptor implications in human health and disease.
🍽 Food Science & Peptidomics – Identifying bioactive peptides with taste-modulating properties.

Publications Top Notes📚:

1️⃣ Gγ13 colocalizes with gustducin in taste receptor cells – Nature Neuroscience 🧠
2️⃣ Tas1r3 encodes a new taste receptor – Nature Genetics 🧬
3️⃣ Transient receptor potential channel in taste receptor cells – Nature Neuroscience ⚡
4️⃣ G protein subunit G13 in retinal ON bipolar cells – Journal of Comparative Neurology 👁
5️⃣ Polymorphisms in Tas1r3 gene affect saccharin preference – Journal of Neuroscience 🧪
6️⃣ Cats’ indifference toward sugar due to receptor pseudogenization – PLoS Genetics 🐱
7️⃣ Voltage-gated chloride channel in taste bud cells – Journal of Biological Chemistry 🌊
8️⃣ Human taste: peripheral anatomy & transduction – Advances in Otorhinolaryngology 👅
9️⃣ Interferon pathways activated in taste bud cells – Journal of Neuroscience 🦠
🔟 Bitter peptides activate human bitter receptors – Biochemical and Biophysical Research Communications 🍵

Conclusion:

Dr. Liquan Huang’s extensive contributions to molecular biology, neuroscience, and virology, combined with his mentorship, international collaborations, and leadership in scientific meetings, make him a strong candidate for the Best Researcher Award. While there is always room for growth in funding diversification and interdisciplinary expansion, his body of work demonstrates excellence and innovation in his field.

Alma Burlingame | Molecular Mechanisms Signaling | Best Researcher Award

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Prof. Alma Burlingame | Molecular Mechanisms Signaling | Best Researcher Award

Prof. Alma Burlingame , UCSF , United States

Alma L. Burlingame is a distinguished Professor of Chemistry and Pharmaceutical Chemistry at the University of California, San Francisco. She has over five decades of experience in the fields of mass spectrometry, proteomics, and systems biology. With expertise in the identification and study of unknown proteins and post-translational modifications like phosphorylation, acetylation, and glycosylation, her work has contributed significantly to understanding protein dynamics. Dr. Burlingame has been a pioneer in proximity-biotin labeling for protein complex discovery and has earned widespread recognition for her interdisciplinary contributions to molecular biology and chemistry. Her long-standing collaboration with various international research institutions has fostered advancements in protein interaction and cellular signaling pathways, marking her as a leader in her field.

Publication Profile:

Scopus

Strengths for the Award:

  1. Innovative Contributions: Dr. Burlingame has made significant contributions to mass spectrometry, proteomics, and systems biology, especially in the development of new methodologies for protein analysis and post-translational modifications. Her work in identifying and studying unknown proteins and their modifications has broadened the scope of proteomics.

  2. Multidisciplinary Expertise: Her expertise spans across various fields including chemistry, physics, biological sciences, and medicine, demonstrating her versatility and depth of knowledge in complex scientific issues.

  3. Impact on the Scientific Community: Through her extensive publication record and influential research, Dr. Burlingame has advanced our understanding of protein dynamics, cell signaling, and the role of glycosylation and phosphorylation in health and disease.

  4. Leadership and Mentorship: Dr. Burlingame’s leadership roles, particularly as a co-chair of major international symposia, reflect her stature in the scientific community. Additionally, her mentorship of students and postdocs has helped shape the next generation of scientists in proteomics and systems biology.

Areas for Improvement:

  1. Broader Collaboration with Clinical Applications: While Dr. Burlingame’s research is foundational in proteomics, further expansion of collaborative work with clinical researchers could enhance the practical application of her discoveries, particularly in disease diagnosis and therapeutics.

  2. Public Outreach: Given the complexity of her research, efforts to communicate her findings to broader audiences could help bridge the gap between academic research and public understanding of the significance of proteomics in health.

Education:

Dr. Burlingame earned her Bachelor of Science degree from the University of Rhode Island in 1959. She went on to complete her PhD in Chemistry and Physics at the Massachusetts Institute of Technology (MIT) in 1962. She further honed her scientific expertise as a Guggenheim Fellow at the Karolinska Institute in Stockholm, Sweden, in 1972, specializing in Physiological Chemistry. Over the years, Dr. Burlingame has continued to advance her education, conducting cutting-edge research in the realms of mass spectrometry, proteomics, and the study of post-translational modifications. Her rigorous academic background, combined with her groundbreaking work, has made her a respected figure in biochemistry and molecular biology.

Experience:

Dr. Burlingame has held several prominent positions throughout her distinguished career. She currently serves as a Professor of Chemistry and Pharmaceutical Chemistry at the University of California, San Francisco. She has also held significant roles such as a University Fellow at Hong Kong Baptist University and Professor of Biochemistry at University College London. Dr. Burlingame has been recognized by the American Association for the Advancement of Science and has been an elected Fellow since 1990. Her professional journey includes visiting professorships at leading institutions such as the Ludwig Institute for Cancer Research. Additionally, she has co-chaired major international symposia on mass spectrometry, enhancing her reputation in the global scientific community. Her leadership and influence in research have made her a pivotal figure in mass spectrometry and proteomics.

Awards and Honors:

Dr. Burlingame has earned numerous prestigious honors throughout her career. In 2018, she was awarded the Albert Nelson Marquis Lifetime Achievement Award for her long-standing contributions to scientific research. She was named a Fellow of the American Society of Biochemistry and Molecular Biology in 2022. Her significant achievements were further recognized when she received the MCP Lectureship Plenary Award at the Society for Glycobiology in 2013. Additionally, she was honored with the Achievement Award from the International Forum of Proteomics in 2012 for her impactful work in proteomics. Her longstanding contributions to the field of mass spectrometry have made her an internationally respected leader, and she continues to inspire future generations of scientists.

Research Focus:

Dr. Burlingame’s research focuses on mass spectrometry, proteomics, and systems biology, with a specific emphasis on protein sequencing, identification, and the dynamics of post-translational modifications (PTMs). She has made significant contributions to understanding the site-specific dynamics of PTMs like phosphorylation, acetylation, and glycosylation, and their roles in cell signaling and differentiation. Her group is particularly known for its work in proximity-biotin labeling, a technique used for protein complex discovery and interactomics. She has also studied the dynamic nature of proteins involved in cellular processes such as protein synthesis, cell signaling, and differentiation. By studying how PTMs influence cellular functions, Dr. Burlingame’s work helps to uncover mechanisms underlying diseases like cancer and neurological disorders. Her innovative approaches in mass spectrometry and proteomics continue to influence the understanding of complex biological systems.

Publications Top Notes:

  1. Revealing nascent proteomics in signaling pathways and cell differentiation 🧬🔬

  2. Locally translated mTOR controls axonal local translation in nerve injury 🧠💥

  3. Mapping axon initial segment structure and function by multiplexed proximity biotinylation 🧬⚡

  4. Capture, release, and identification of newly synthesized proteins for improved profiling of functional translatomes 🔍🔬

  5. Endothelial-secreted Endocan activates PDGFRA and regulates vascularity and spatial phenotype in glioblastoma 💉🧠

  6. Functional screen identifies RBM42 as a mediator of oncogenic mRNA translation specificity 🧬🔍

  7. Phosphorylation-driven epichaperome assembly is a regulator of cellular adaptability and proliferation 🔑🧬

  8. TRIM46 Is Required for Microtubule Fasciculation In Vivo But Not Axon Specification or Axon Initial Segment Formation 🧠⚙️

  9. RAPIDASH: Tag-free enrichment of ribosome-associated proteins reveals composition dynamics in embryonic tissue, cancer cells, and macrophages 🧬📊

  10. Remodelling of the translatome controls diet and its impact on tumorigenesis 🥗🎯

Conclusion:

Dr. Alma Burlingame is undoubtedly a leading figure in the fields of mass spectrometry and proteomics. Her innovative research, mentorship, and contributions to the understanding of protein modifications and their implications for health make her a highly deserving candidate for the Best Researcher Award. Her work has had a profound and lasting impact on molecular biology, and she continues to be a driving force in scientific discovery.