Patrice X. Petit | Signal Transduction | Best Researcher Award

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Dr. Patrice X. Petit | signal transduction | Best Researcher Award

 Research director | Centre National de la Recherche Scientifique | France

Dr. Patrice X. Petit, Doctor ès Sciences and PhD in Biology, is a Research Director at the French National Centre for Scientific Research (CNRS), where he has served since 1979 and established an internationally recognized career in cell biology. Trained at the Université Pierre et Marie Curie and the Université Denis Diderot (Paris), his work has focused on the molecular mechanisms governing cell death, mitochondrial dynamics, oxidative stress, and their implications in cancer biology, immunology, and toxicology. Over more than four decades, he has developed a broad international scientific presence through extensive teaching and research collaborations across Europe, North America, and Asia, including academic engagements with institutions such as the Chinese Academy of Sciences, Caltech, UT Southwestern, the Beatson Cancer Research Center in Glasgow, the University of Madrid, and multiple leading universities throughout Scandinavia, Germany, and France. His scientific leadership is further reflected in his service as an elected member (2016–2020) of the Scientific Council of the CNRS Institute of Biological Sciences (INSB). Dr. Petit has authored 134 scientific publications, accumulating approximately 12,500 citations and an h-index of 44, demonstrating sustained research influence across several biomedical domains, including contributions to plant biology. He is an active peer reviewer for major journals such as Cancer Research, Journal of Cell Biology, PNAS, Oncogene, and Cell Death and Differentiation, and he has served as a grant reviewer for major funding bodies, including the Austrian Academy of Sciences, the French National Research Agency (ANR), EMBO, the Swiss National Science Foundation, and the Fondation pour la Recherche Médicale. His interdisciplinary background—ranging from a formal qualification in history (Université Paris Diderot, 1979) to a DIU in rare diseases (Université de Strasbourg, 2017)—underscores both scientific depth and broader intellectual engagement. Through his sustained research output, international collaborations, and service to the scientific community, Patrice X. Petit has contributed significantly to advancing fundamental and translational knowledge in cell biology, with measurable societal impact across biomedical research and education.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

Zamzami, N., Marchetti, P., Castedo, M., Decaudin, D., Macho, A., Hirsch, T., … Petit, P. X. (1995). Sequential reduction of mitochondrial transmembrane potential and generation of reactive oxygen species in early programmed cell death. The Journal of Experimental Medicine, 182(2), 367–377.

Zamzami, N., Marchetti, P., Castedo, M., Zanin, C., Vayssière, J. L., Petit, P. X., … Kroemer, G. (1995). Reduction in mitochondrial potential constitutes an early irreversible step of programmed lymphocyte death in vivo. The Journal of Experimental Medicine, 181(5), 1661–1672.

Kroemer, G., Petit, P., Zamzami, N., Vayssière, J. L., & Mignotte, B. (1995). The biochemistry of programmed cell death. The FASEB Journal, 9(13), 1277–1287.

Petit, P. X., Lecoeur, H., Zorn, E., Dauguet, C., Mignotte, B., & Gougeon, M. L. (1995). Alterations in mitochondrial structure and function are early events of dexamethasone-induced thymocyte apoptosis. The Journal of Cell Biology, 130(1), 157–167.

Petit, P. X., Susin, S. A., Zamzami, N., Mignotte, B., & Kroemer, G. (1996). Mitochondria and programmed cell death: Back to the future. FEBS Letters, 396(1), 7–13.

Dr. Petit’s work has fundamentally advanced our understanding of mitochondrial biology and programmed cell death, shaping modern concepts of apoptosis, autophagy, and cellular stress responses. His discoveries enabled new biomedical approaches to cancer, immunology, and rare diseases

Srikumar Ghorui |Physics and Astronomy | Leading Innovations in Science Award

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Prof. Srikumar Ghorui | Physics and Astronomy | Leading Innovations in Science Award

Scientific officer H at BARC, India

Dr. Srikumar Ghorui is a distinguished physicist with over 25 years of experience in thermal plasma research. He obtained his M.Sc. in Physics with a specialization in Radio Physics and Electronics from the University of Burdwan and completed the 40th batch of the BARC Training School before earning his Ph.D. from the University of Mumbai. He further advanced his research through postdoctoral studies at the University of Minnesota, USA. Currently, he is a Senior Professor at the Homi Bhabha National Institute and heads the Thermal Plasma Technologies Section at BARC’s Laser and Plasma Technology Division. Dr. Ghorui has significantly contributed to plasma-based technologies, notably developing an atmospheric pressure portable catalytic air plasma system for synthesizing aqueous nitrate and nitrite fertilizers. His research focuses on innovative plasma applications in environmental and industrial sectors, demonstrating his expertise in advancing scientific and technological frontiers in plasma physics.

Professional Profile 

Education

Prof. Srikumar Ghorui has an extensive academic background in physics and plasma research. He earned his Master of Science (M.Sc.) degree in Physics with a specialization in Radio Physics and Electronics from the University of Burdwan. Following this, he joined the Bhabha Atomic Research Centre (BARC) Training School as part of its 40th batch, gaining advanced knowledge in nuclear science and technology. He later pursued and successfully completed his Ph.D. from the University of Mumbai, focusing on thermal plasma applications. To further enrich his expertise, he undertook postdoctoral research at the University of Minnesota, USA, where he engaged in cutting-edge plasma technology research. His strong academic foundation and specialized training have equipped him with deep insights into plasma physics, enabling him to make significant contributions to the field. His educational journey reflects a commitment to scientific excellence and innovation in plasma-based technologies.

Professional Experience

Prof. Srikumar Ghorui has extensive professional experience in the field of plasma physics and thermal plasma applications. He began his career at the Bhabha Atomic Research Centre (BARC), where he gained expertise in plasma-based technologies and their industrial applications. Over the years, he has worked on various research projects involving plasma-assisted material processing, nanomaterials synthesis, and waste treatment using thermal plasma. His contributions extend to academia, where he has served as a professor and researcher, mentoring students and leading innovative research initiatives. He has collaborated with international institutions, including a postdoctoral tenure at the University of Minnesota, USA, where he worked on advanced plasma processing techniques. Throughout his career, Prof. Ghorui has published numerous research papers in reputed journals and participated in key conferences worldwide. His professional journey highlights his significant contributions to plasma science, technological advancements, and the development of sustainable solutions using plasma-based systems.

Research Interest

Prof. Srikumar Ghorui’s research interests primarily focus on plasma physics, thermal plasma applications, and their industrial and environmental implications. He is deeply involved in studying plasma-assisted material processing, including plasma arc welding, cutting, and coating techniques. His work also extends to the synthesis of nanomaterials using thermal plasma, exploring their applications in energy storage, catalysis, and advanced coatings. Additionally, he has conducted extensive research on plasma-based waste treatment technologies, aiming to develop sustainable methods for hazardous waste disposal and energy recovery. His interest in plasma diagnostics and modeling has led to significant contributions in understanding plasma behavior and optimizing industrial processes. Prof. Ghorui also explores interdisciplinary applications of plasma in biomedical engineering and environmental remediation. His research is driven by the goal of advancing plasma technologies for real-world applications, contributing to cleaner energy solutions, efficient manufacturing processes, and sustainable environmental management.

Award and Honor

Professor Srikumar Ghorui has made significant contributions to the field of thermal plasma technology over a career spanning more than 25 years. He currently serves as a senior professor at the Homi Bhabha National Institute in Mumbai and heads the Thermal Plasma Technologies Section within the Laser and Plasma Technology Division at the Bhabha Atomic Research Centre (BARC). His research has led to advancements in plasma science, including the development of an atmospheric pressure portable catalytic air plasma system for synthesizing aqueous nitrogen dioxide and nitrate fertilizers, for which he filed a patent in March 2024. In recognition of his expertise, Professor Ghorui has been invited to speak at various conferences, such as the TIMP 2021, where he addressed key challenges in thermal plasma technology. Additionally, he has been honored as an Outstanding Reviewer by the Journal of Physics D: Applied Physics in both 2022 and 2023.

Research Skill

Professor Srikumar Ghorui possesses extensive research skills in the field of thermal plasma technology, with a strong focus on plasma-assisted material synthesis, environmental applications, and industrial process enhancement. His expertise spans experimental and computational studies of high-temperature plasmas, including diagnostics, modeling, and applications in waste treatment, energy generation, and advanced material processing. He has successfully developed innovative plasma systems, such as an atmospheric pressure portable catalytic air plasma system for sustainable fertilizer production. His ability to integrate fundamental plasma physics with applied engineering solutions has led to numerous technological advancements and patents. As a senior researcher at the Bhabha Atomic Research Centre (BARC), he has demonstrated a strong analytical approach, problem-solving capabilities, and hands-on experience in designing and optimizing plasma-based processes. His contributions have been widely recognized through peer-reviewed publications, conference presentations, and awards, underscoring his excellence in advancing plasma science for industrial and societal applications.

Conclusion

Prof. Srikumar Ghorui is highly suitable for the Leading Innovations in Science Award. His pioneering contributions to plasma science, industrial applications, and technology transfer make him a strong candidate. Addressing minor areas like global collaboration and commercialization could further solidify his position as a world leader in plasma technology innovation.

Publications Top Noted

  • Thermodynamic and transport properties of two-temperature nitrogen-oxygen plasma

    • Authors: S. Ghorui, J.V.R. Heberlein, E. Pfender
    • Journal: Plasma Chemistry and Plasma Processing
    • Year: 2008
    • Citations: 95

  • Non-equilibrium modelling of an oxygen-plasma cutting torch

    • Authors: S. Ghorui, J.V.R. Heberlein, E. Pfender
    • Journal: Journal of Physics D: Applied Physics
    • Year: 2007
    • Citations: 86

  • Synthesis and characterization of Nd₂O₃ nanoparticles in a radiofrequency thermal plasma reactor

    • Authors: G.D. Dhamale, V.L. Mathe, S.V. Bhoraskar, S.N. Sahasrabudhe, S.D. Dhole, S. Ghorui
    • Journal: Nanotechnology
    • Year: 2016
    • Citations: 55

  • Thermodynamic and transport properties of two-temperature oxygen plasmas

    • Authors: S. Ghorui, J.V.R. Heberlein, E. Pfender
    • Journal: Plasma Chemistry and Plasma Processing
    • Year: 2007
    • Citations: 52

  • Experimental evidence of chaotic behavior in atmospheric pressure arc discharge

    • Authors: S. Ghorui, S.H. Sahasrabudhe, P.S.S. Murthy, A.K. Das, N. Venkatramani
    • Journal: IEEE Transactions on Plasma Science
    • Year: 2000
    • Citations: 48

  • Origin of fluctuations in atmospheric pressure arc plasma devices

    • Authors: S. Ghorui, A.K. Das
    • Journal: Physical Review E
    • Year: 2004
    • Citations: 44

  • Probing instabilities in arc plasma devices using binary gas mixtures

    • Authors: S. Ghorui, M. Vysohlid, J.V.R. Heberlein, E. Pfender
    • Journal: Physical Review E—Statistical, Nonlinear, and Soft Matter Physics
    • Year: 2007
    • Citations: 35

  • Strongly adherent Al₂O₃ coating on SS 316L: Optimization of plasma spray parameters and investigation of unique wear resistance behavior under air and nitrogen environment

    • Authors: V.C. Misra, Y. Chakravarthy, N. Khare, K. Singh, S. Ghorui
    • Journal: Ceramics International
    • Year: 2020
    • Citations: 33

  • Direct probing of anode arc root dynamics and voltage instability in a DC non-transferred arc plasma jet

    • Authors: S. Ghorui, N. Tiwari, K.C. Meher, A. Jan, A. Bhat, S.N. Sahasrabudhe
    • Journal: Plasma Sources Science and Technology
    • Year: 2015
    • Citations: 28

  • Stability and structures in atmospheric pressure DC non-transferred arc plasma jets of argon, nitrogen, and air

    • Authors: N. Tiwari, S. Bhandari, S. Ghorui
    • Journal: Physics of Plasmas
    • Year: 2018
    • Citations: 26

  • Theory of dynamic behavior in atmospheric pressure arc plasma devices. I. Theory and system behavior

    • Authors: S. Ghorui, A.K. Das
    • Journal: IEEE Transactions on Plasma Science
    • Year: 2004
    • Citations: 26

  • Thermodynamic and transport properties of nitrogen plasma under thermal equilibrium and non-equilibrium conditions

    • Authors: K.C. Meher, N. Tiwari, S. Ghorui
    • Journal: Plasma Chemistry and Plasma Processing
    • Year: 2015
    • Citations: 24

  • Unique erosion features of hafnium cathode in atmospheric pressure arcs of air, nitrogen, and oxygen

    • Authors: S. Ghorui, K.C. Meher, R. Kar, N. Tiwari, S.N. Sahasrabudhe
    • Journal: Journal of Physics D: Applied Physics
    • Year: 2016
    • Citations: 23

  • Collision integrals for charged-charged interaction in two-temperature non-equilibrium plasma

    • Authors: S. Ghorui, A.K. Das
    • Journal: Physics of Plasmas
    • Year: 2013
    • Citations: 23

Sucheta Tripathy | Agricultural and Biological Sciences | Women Researcher Award

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Prof. Dr. Sucheta Tripathy | Agricultural and Biological Sciences | Women Researcher Award

Scientist of IICB, India

Prof. Dr. Sucheta Tripathy 🌟 is a Senior Principal Scientist at CSIR-Indian Institute of Chemical Biology and a Professor of Biological Sciences at The Academy of Scientific and Innovative Research (AcSIR) in Kolkata, India. With a distinguished career in microbial genomics and metabolic re-engineering, she has made significant contributions to understanding Oomycetes pathogens and discovering innovative solutions for environmental and agricultural challenges. Her pioneering work includes uncovering novel Cyanobacterium for pH remediation and extremophiles with adaptive gene advantages. Prof. Tripathy’s expertise in AI/ML applications and bioinformatics supports her research, which is pivotal in developing software tools for advanced sequencing data analysis. She leads a lab focused on integrating genomic resources and computational tools to push the boundaries of biological research and technological applications. 🌱🔬💻

Professional Profile:

Education🎓 

Prof. Dr. Sucheta Tripathy 📚 has an impressive educational background in plant molecular biology and genetics. She earned her Ph.D. in Plant Molecular Biology from the Center for Plant Molecular Biology, Hyderabad, in 1997 🌿. Before that, she completed her Master of Science in Botany and Genetics at Utkal University, Vani Vihar, Bhubaneswar, in 1992 🎓. Her academic journey began with a Bachelor of Science in Botany, Chemistry, and Zoology from BJB College, Bhubaneswar, in 1990 🌸. Her diverse educational experiences laid a strong foundation for her pioneering research in microbial genomics and metabolic engineering. 🌱🔬

Professional Experience 💼

Prof. Dr. Sucheta Tripathy has an extensive and distinguished career in the field of scientific research and bioinformatics. Since October 2018, she has been serving as a Senior Principal Scientist and Professor at the CSIR-Indian Institute of Chemical Biology and The Academy of Scientific and Innovative Research (AcSIR) in Kolkata, where she leads groundbreaking research in microbial genomics and metabolic re-engineering 🔬. In her role, she also oversees the IT division, ensuring the smooth operation of the institute’s technological infrastructure 💻. Prior to this, she was a Principal Scientist and Ramalingaswamy Fellow at CSIR-IICB from 2012 to 2018, focusing on genomic science and computational tools for understanding microbial genomes 🔍. Her earlier career includes notable positions as a Senior Research Scientist at Virginia Polytechnic and State University, where she led bioinformatics research, and roles in industry at Avesthagengrain Ltd. and DSQ Biotech Limited, managing various industry projects 🌟.

Research interest🔍

Prof. Dr. Sucheta Tripathy specializes in cutting-edge research in microbial genomics and metabolic engineering 🔬. Her research delves into the mechanisms of pathogenesis involving Oomycetes pathogens and the discovery of critical RXLR motifs that facilitate host cell entry 🦠. She has made significant advancements in developing genomic resources widely used by researchers and identified novel cyanobacteria and contaminants with unique properties for pH and heavy metal remediation 🌿. Prof. Tripathy’s work also explores the effects of exogenous nitrogen on nitrogen-fixing organisms and the adaptive advantages of extremophiles 🚜. Additionally, her lab leverages AI/ML techniques for sequence classification and develops software tools for analyzing next-generation sequencing data 💡.

Award and Honor🏅

Prof. Dr. Sucheta Tripathy has received numerous accolades for her groundbreaking contributions to science and research 🏆. She has been recognized for her pivotal work in microbial genomics and metabolic engineering 🔬. Her achievements include leading significant discoveries in pathogen mechanisms and environmental remediation 🌍. As a distinguished Senior Principal Scientist and Professor at CSIR-Indian Institute of Chemical Biology and The Academy of Scientific and Innovative Research (AcSIR), her leadership and research have earned her high praise and respect within the scientific community 🌟. Her role in advancing bioinformatics and AI/ML methods for genomic analysis further underscores her commitment to innovation and excellence 👩‍🔬.

 

Research Skill🔍

Prof. Dr. Sucheta Tripathy is renowned for her exceptional research skills in several advanced scientific domains 🔬. Her expertise spans genomics, transcriptomics, and bioinformatics, particularly in the analysis of microbial genomes and metagenomes 🌱. She excels in metabolic engineering and disease biology, applying machine learning techniques to unravel complex biological processes 🤖. Her proficiency in programming and bioinformatics tools—such as Python, R, PHP, and Linux—enables her to build sophisticated software and resources for sequencing data analysis 🖥️. Prof. Tripathy’s innovative approach in using AI/ML for sequence classification and her leadership in microbial genomics highlight her significant impact on modern biological research 🌟.

 

Achievements🏆

  • Discovery of RXLR Motifs: Unraveled the pathogenesis mechanism of Oomycetes pathogens, instrumental for host cell entry 🔬🦠.
  • Innovative Cyanobacterium: Identified Leptolyngbya iicbica with instant pH remediation properties 🌿.
  • Heavy Metal Remediation: Discovered Arthrinium sp. as a contaminant with heavy metal remediation capabilities ♻️.
  • Agricultural Impact: Analyzed reduced fitness in nitrogen-fixing organisms with exogenous nitrogen, affecting long-term agriculture 🌾🔍.
  • Extremophiles Research: Isolated extremophiles revealing genes from unknown sources that confer adaptive advantages 🌋🧬.
  • AI/ML Integration: Applied AI/ML methods for sequence classification and developed software tools for analyzing second and third-generation sequencing data 🤖💻.
  • Leadership in Bioinformatics: Led a lab in microbial genomics and metabolic re-engineering, overseeing IT infrastructure as Head of IT Division 🧪👩‍💻.

Projects📊

  • Pathogenesis of Oomycetes: Investigated the mechanisms behind Oomycetes pathogens and their RXLR motifs for host cell entry 🔬🦠.
  • Cyanobacterium for pH Remediation: Discovered Leptolyngbya iicbica with effective pH remediation properties 🌿💧.
  • Heavy Metal Remediation: Identified Arthrinium sp. as a contaminant with capabilities for heavy metal remediation ♻️⚙️.
  • Impact on Agriculture: Studied the long-term effects of exogenous nitrogen on nitrogen-fixing organisms and agriculture 🌾🔍.
  • Extremophiles Research: Isolated extremophiles with unique genes contributing to adaptive advantages 🌋🧬.
  • AI/ML in Sequencing: Used AI/ML methods for sequence classification and developed software tools for sequencing data analysis 🤖📊.
  • Bioinformatics Tools: Created and utilized bioinformatics tools and resources for analyzing genome, metagenome, and transcriptome sequences 🧬💻.

Publications📜

  • Distinct genome trichotomy in members of Hapalosiphonaceae is guided by habitat adaptation with Mastigocladus laminosus UU774 as a case study
    Authors: Geeta, A., Mukherjee, M., Das, B., Sarkar, M.P., Tripathy, S.
    Journal: Algal Research
    Year: 2024
    Citation: 0
    Emoji: 🌿🧬
  • Novel oceanic cyanobacterium isolated from Bangaram island with profound acid neutralizing ability is proposed as Leptolyngbya iicbica sp. nov. strain LK
    Authors: Dutta, S., Kothari, S., Singh, D., Prusty, A., Tripathy, S.
    Journal: Molecular Phylogenetics and Evolution
    Year: 2024
    Citation: 1
    Emoji: 🌊🔬
  • Thermally stable bioactive borosilicate glasses: Composition–structure–property correlations
    Authors: Chakraborty, A., Prasad, S., Kant, S., Bodhak, S., Biswas, K.
    Journal: Journal of Materials Research
    Year: 2023
    Citation: 0
    Emoji: 🔥🧪
  • Comparative Genomic Analysis of 31 Phytophthora Genomes Reveals Genome Plasticity and Horizontal Gene Transfer
    Authors: Kronmiller, B.A., Feau, N., Shen, D., Hamelin, R.C., Grünwald, N.J.
    Journal: Molecular Plant-Microbe Interactions
    Year: 2023
    Citation: 8
    Emoji: 🧬📊
  • Incipient Sympatric Speciation and Evolution of Soil Bacteria Revealed by Metagenomic and Structured Non-Coding RNAs Analysis
    Authors: Mukherjee, S., Kuang, Z., Ghosh, S., Nevo, E., Li, K.
    Journal: Biology
    Year: 2022
    Citation: 3
    Emoji: 🌱🔍
  • Genome Analysis Coupled With Transcriptomics Reveals the Reduced Fitness of a Hot Spring Cyanobacterium Mastigocladus laminosus UU774 Under Exogenous Nitrogen Supplement
    Authors: Mukherjee, M., Geeta, A., Ghosh, S., Adhikary, S.P., Tripathy, S.
    Journal: Frontiers in Microbiology
    Year: 2022
    Citation: 4
    Emoji: 🌡️🔬
  • Comparative Genome Analysis Across 128 Phytophthora Isolates Reveal Species-Specific Microsatellite Distribution and Localized Evolution of Compartmentalized Genomes
    Authors: Mandal, K., Dutta, S., Upadhyay, A., Panda, A., Tripathy, S.
    Journal: Frontiers in Microbiology
    Year: 2022
    Citation: 3
    Emoji: 🌿🧬
  • Factors governing the sinterability, In vitro dissolution, apatite formation and antibacterial properties in B2O3 incorporated S53P4 based glass powders
    Authors: Prasad, S., Fábián, M., Tarafder, A., Allu, A.R., Biswas, K.
    Journal: Ceramics International
    Year: 2022
    Citation: 3
    Emoji: 🧪🧱
  • Erratum to “Elucidating the effect of CaF2 on structure, biocompatibility and antibacterial properties of S53P4 glass” [J. Alloy. Compd. 831 (2020) 154704]
    Authors: Prasad, S., Ganisetti, S., Jana, A., Allu, A.R., Biswas, K.
    Journal: Journal of Alloys and Compounds
    Year: 2021
    Citation: 0
    Emoji: ⚠️🧪
  • Erratum: Structure and Stability of High CaO- And P2O5-Containing Silicate and Borosilicate Bioactive Glasses (The Journal of Physical Chemistry B (2019) 123:35 (7558-7569) DOI: 10.1021/acs.jpcb.9b02455)
    Authors: Prasad, S., Gaddam, A., Jana, A., Allu, A.R., Biswas, K.
    Journal: Journal of Physical Chemistry B
    Year: 2021
    Citation: 0
    Emoji: ⚠️📘