Janie Moore | Molecular Biotechnology | Best Researcher Award

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Dr. Janie Moore | Molecular Biotechnology | Best Researcher Award 

Assistant Professor, at Texas A&M AgriLife Research, United States.

Dr. Janie McClurkin Moore is an Assistant Professor in the Department of Biological and Agricultural Engineering at Texas A&M University. She has been in this role since 2017, contributing to research, teaching, and service in post-harvest engineering and food safety. With expertise in treatment technologies such as atmospheric cold plasma, ozone, and nanoparticles, Dr. Moore focuses on improving the physical and microbiological properties of food and feed products. She actively mentors students and collaborates with industry professionals to enhance research impact. Her commitment to integrating technology in teaching has earned her recognition, including the Montague-CTE Teaching Award. Dr. Moore’s research has been published in leading journals, contributing to advancements in food engineering and safety.

Professional Profile

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Education

Dr. Moore earned her Ph.D. in Agricultural and Biological Engineering from Purdue University in 2015 under the mentorship of Dr. Klein Ileleji. She also obtained her M.S. in Agricultural and Biological Engineering from Purdue in 2009, advised by Dr. Dirk Maier. Prior to that, she completed her B.S. in Bio-Environmental Engineering at North Carolina A&T State University in 2006, graduating summa cum laude. Her academic journey provided her with a strong foundation in food safety, post-harvest engineering, and agricultural innovations. Her research during graduate studies focused on improving food storage and processing technologies, laying the groundwork for her current work in post-harvest engineering and treatment technologies.

Professional Experience

Dr. Moore has been a tenure-track Assistant Professor at Texas A&M University since 2017, where she also holds courtesy appointments in Interdisciplinary Engineering and is a Faculty Affiliate at the Institute for Engineering Education and Innovation. She is also a Faculty Expert at the TEES Texas A&M Energy Institute. Before joining Texas A&M, she was a Postdoctoral Fellow at California University of Pennsylvania from 2015 to 2017, where she conducted research in biology and environmental studies. In her current role, she dedicates 45% of her time to research, 45% to teaching, and 10% to service, contributing to various interdisciplinary projects and mentoring graduate students.

Research Interests

Dr. Moore’s research focuses on post-harvest engineering and food safety, particularly in developing innovative treatment technologies. She specializes in atmospheric cold plasma, ozone treatment, and nanoparticle applications for improving food and feed quality. Her work explores shelf-life extension, microbial decontamination, and the physical and microbiological properties of agricultural products. Dr. Moore is also interested in the pedagogy of engineering education, working on improving instructional methods and student engagement in engineering courses. Through collaborations with industry and academia, she seeks to advance sustainable food processing methods and enhance agricultural product safety.

Awards

Dr. Moore has received several accolades throughout her career. She was honored with the Montague-CTE Teaching Award for her contributions to student learning and curriculum development at Texas A&M University. Her research excellence has been recognized through multiple grants and fellowships, supporting her work in food safety and post-harvest engineering. She has also been acknowledged for her mentorship, particularly in guiding underrepresented minority students in STEM fields. Her active involvement in professional organizations and contributions to engineering education further highlight her impact in academia and industry.

Top Noted Publications

Dr. Moore has authored numerous peer-reviewed journal articles in the field of post-harvest engineering and food safety. Some of her notable publications include:

  • Kirk-Bradley et al. (2024) – Plasma Effects on DNA Endoreplication

    • Journal: Plasma Processes and Polymers
    • DOI: 10.1002/ppap.202400117
    • Summary: This study investigates how cold atmospheric-pressure plasma affects DNA endoreplication in Callosobruchus maculatus (cowpea weevil). Using rapid flow cytometry, the authors evaluate alterations in DNA content, potentially linking plasma treatment to genetic or developmental changes.

  • Kirk-Bradley et al. (2024) – Plasma-Induced Mortality in Sitophilus oryzae

    • Journal: Crop Protection
    • DOI: 10.1016/j.cropro.2024.106685
    • Summary: This research assesses the impact of cold plasma treatment on populations of Sitophilus oryzae (rice weevil). The study examines mortality rates and possible mechanisms behind plasma-induced insecticidal effects.

  • Habib et al. (2022) – Heavy Metal Detoxification Using Cold Plasma

    • Journal: Biomolecules
    • DOI: 10.3390/biom12070913
    • Summary: The study explores a hybrid approach combining absorption techniques and high-voltage atmospheric cold plasma to reduce heavy metal toxicity in milk and water. The research also considers potential rheological changes due to treatment.

  • Mahanta et al. (2022) – Plasma Treatment on Soybean Germination and Heavy Metal Uptake

    • Journal: International Journal of Molecular Sciences
    • DOI: 10.3390/ijms23031611
    • Summary: This study examines how high-voltage atmospheric cold plasma treatment affects soybean (Glycine max) seed germination and its ability to absorb heavy metals. The findings suggest plasma treatment may influence plant growth and metal uptake dynamics.

Conclusion

Dr. Moore is a strong candidate for the Best Researcher Award due to her contributions in post-harvest engineering, food safety, and engineering education. Her research is innovative, practical, and well-aligned with pressing global challenges. Strengthening publication volume, grant expansion, and international collaborations could further enhance her eligibility for top-tier research awards.

Yougen Wu | Plant Molecular Biology | Excellence in Innovation

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Prof. Dr. Yougen Wu | Plant Molecular Biology | Excellence in Innovation 

Vice-Dean of the Faculty, at School of Breeding and Multiplication (Sanya Institute of Breeding and Multiplication), China.

Professor Yougen Wu is a distinguished scholar specializing in plant breeding and medicinal botany. Currently, he serves at the School of Breeding and Multiplication, Hainan University, Sanya. His extensive research focuses on rhizosphere microbial communities, continuous cropping systems, and plant metabolic pathways. Over the years, he has contributed significantly to understanding plant-soil-microbe interactions, particularly in patchouli cultivation. With multiple prestigious research projects under his leadership, he has been a driving force in agricultural innovation. He has published extensively in high-impact journals and holds several patents in medicinal plant cultivation and biotechnological advancements. His expertise is widely recognized, making him a respected figure in plant sciences.

Professional Profile 

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ORCID

Education 🎓

Professor Wu holds a Ph.D. in Medicinal Botany from Nanjing Agricultural University (2009). Prior to that, he earned his Master’s and Bachelor’s degrees in Horticulture from Jiangxi Agricultural University (2003 and 2000, respectively). His academic journey has been enriched by multiple international fellowships, including postdoctoral research at the University of Hawaii (2012-2013) and Hainan University (2011-2015). He further broadened his expertise through visiting scholar positions at the University of Hawaii (2015) and the University of Florida (2018-2019). His diverse academic background has shaped his multidisciplinary approach to plant science research.

Experience 💼

Professor Wu’s career spans research, teaching, and innovation in plant sciences. His tenure at Hainan University has been marked by groundbreaking contributions to plant metabolism and microbial ecology. He has led several National Natural Science Foundation of China projects, focusing on transcriptomics, metabolomics, and soil microbiology. His international experience as a postdoctoral fellow and visiting scholar has enabled him to collaborate globally. Additionally, he has supervised numerous graduate students and researchers, fostering new generations of plant scientists. His industry collaborations extend to standardized cultivation techniques and biotechnological applications in medicinal plant production.

Research Interests 🔬

Professor Wu’s research interests lie in plant-microbe interactions, continuous cropping systems, and molecular plant physiology. His work deciphers the impact of root exudates on rhizosphere microbial communities, especially in patchouli. He also explores genetic mechanisms governing plant metabolite production and stress adaptation. His studies integrate transcriptomics, miRNA sequencing, and functional genomics to unravel plant resilience mechanisms. Through metagenomic and soil biochemical analyses, he aims to develop sustainable agricultural practices. His research contributes to medicinal plant biotechnology, optimizing cultivation techniques for high-value crops.

Awards & Recognitions 🏆

Professor Wu has received numerous accolades for his contributions to plant science. His research projects have been funded by prestigious grants from the National Natural Science Foundation of China. He has been recognized for his pioneering studies in continuous cropping stress and plant-microbe interactions. His work in medicinal botany and sustainable agriculture has earned him invitations to leading conferences and collaborations with global research institutions. His patents and publications further establish his authority in the field, making him a sought-after expert in plant biotechnology.

Top Noted Publications 📖

  • Functional Analysis of the PcCDPK5 Gene in Response to Allelopathic Substances on p-Hydroxybenzoic Acid (p-HBA) Stress in Patchouli

    • Authors: Xiaofeng Liu, Jingru Zhou, et al.
    • Journal: Ecotoxicology and Environmental Safety
    • Year: 2025
    • DOI: 10.1016/j.ecoenv.2024.117659
    • Summary: This study investigates the role of the PcCDPK5 gene in patchouli when exposed to the allelopathic compound p-hydroxybenzoic acid (p-HBA). The research provides insights into the molecular mechanisms underlying patchouli’s response to allelopathic stress, highlighting the gene’s potential role in stress tolerance.

  • Molecular Basis of Pogostemon cablin Responding to Continuous Cropping Obstacles

    • Authors: Not specified in the provided information.
    • Journal: Industrial Crops and Products
    • Year: 2023
    • Summary: This paper explores the molecular responses of Pogostemon cablin (patchouli) to challenges associated with continuous cropping. The study aims to identify key genes and pathways involved in the plant’s adaptation to continuous cultivation, offering strategies to mitigate associated growth obstacles.

  • Combined Physiological and Transcriptome Analysis

    • Authors: Not specified in the provided information.
    • Journal: Frontiers in Plant Science
    • Year: 2022
    • Summary: This research combines physiological assessments with transcriptome analysis to understand specific plant responses under certain conditions. The integrated approach provides a comprehensive view of how plants adjust at both the physiological and molecular levels.

  • Integrated Analysis of Physiological, mRNA, and miRNA Sequencing

    • Authors: Not specified in the provided information.
    • Journal: Frontiers in Plant Science
    • Year: 2022
    • Summary: This study offers an integrated analysis combining physiological data with mRNA and miRNA sequencing to delve into the regulatory networks governing plant responses. The findings shed light on the complex interactions between different molecular players in plant adaptation processes.

  • Identification of the CDPK Gene Family in Patchouli

    • Authors: Not specified in the provided information.
    • Journal: Frontiers in Plant Science
    • Year: 2023
    • Summary: This paper focuses on identifying and characterizing the Calcium-Dependent Protein Kinase (CDPK) gene family in patchouli. Understanding these genes provides insights into how patchouli regulates various physiological processes, especially under stress conditions.

  • Continuous Cropping of Patchouli Alters Soil Physiochemical Properties and Rhizosphere Microecology Revealed by Metagenomic Sequencing

    • Authors: Guangtao Gu, Muhammad Zeeshan Ul Haq, Xue Sun, Jingru Zhou, Ya Liu, Jing Yu, Dongmei Yang, Huageng Yang, Yougen Wu
    • Journal: Frontiers in Microbiology
    • Year: 2025
    • DOI: 10.3389/fmicb.2024.1482904
    • Summary: This study examines the impact of continuous cropping on soil properties and the rhizosphere microbial community associated with patchouli. Using metagenomic sequencing, the research reveals significant changes in soil pH, nutrient content, enzyme activities, and microbial diversity over successive cropping years, providing a theoretical basis for understanding and preventing continuous cropping obstacles.

  • Continuous Cropping of Patchouli and Soil Properties

    • Authors: Not specified in the provided information.
    • Journal: Plants (Basel, Switzerland)
    • Year: 2024
    • Summary: This paper investigates how continuous cropping affects soil properties in patchouli cultivation. The findings highlight alterations in soil nutrients, pH, and microbial communities, offering insights into sustainable agricultural practices for patchouli.

Conclusion

Dr. Yougen Wu is a strong candidate for the Research for Excellence in Innovation award. His contributions to medicinal plant biotechnology, molecular biology, and sustainable agriculture are highly impactful. Expanding industry collaborations and international research funding would further solidify his global research excellence.