Min Li | DNA Sequencing | Best Researcher Award

Posted on by Pencis

Dr. Min Li | DNA Sequencing | Best Researcher Award

Guangxi University | China

Author Profile

Scopus

Orcid ID

🏫 EARLY ACADEMIC PURSUITS

Min Li embarked on her academic journey with a Bachelor’s degree in Biotechnology from Southwest Forestry University (2008–2009). Demonstrating an early interest in plant biology, she pursued her Ph.D. in Crop Genetics and Breeding at Guangxi University (2015–2020), where she developed expertise in cotton genetics and CMS mechanisms. Her doctoral research laid the foundation for her impactful career in plant genomics.

💼 PROFESSIONAL ENDEAVORS

Min Li is currently a Postdoctoral Fellow at Guangxi University. During her postdoctoral fellowship, she has delved deeper into the molecular biology of CMS, focusing on its application in cotton breeding. Her collaborative work and independent projects have solidified her role as a key contributor in the field of plant genetics.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS ON DNA SEQUENCING

Min Li’s research is centered on:

  1. Molecular Mechanisms of Cytoplasmic Male Sterility (CMS):
    She explores the genetic basis of CMS in cotton (Gossypium hirsutum L.), identifying and characterizing CMS-associated genes critical for hybrid seed production.
  2. Functional Validation of Genes:
    Her work extends to validating the roles of CMS genes in male sterility and fertility restoration, offering practical insights for breeding programs.
  3. Hybrid Cotton Breeding:
    Min Li’s contributions aim to enhance the efficiency and sustainability of hybrid seed production, addressing challenges in global agriculture.

🌍 IMPACT AND INFLUENCE

Min Li’s research is instrumental in understanding CMS at a molecular level, contributing to breakthroughs in hybrid breeding technologies. Her work supports the development of high-yielding, stress-resistant cotton varieties, significantly impacting agricultural productivity and sustainability.

📚 ACADEMIC CITES

Min Li has authored several influential publications in the field of plant genetics. Her works are widely cited, reflecting her contributions to advancing CMS research. She has also collaborated on major projects funded by prominent organizations, adding to her academic footprint.

🏆 RESEARCH GRANTS AND FUNDING

Min Li has successfully secured and participated in various prestigious research projects, including:

  • Principal Investigator:
    • Guangxi Natural Science Foundation of China, 2022GXNSFBA035451 (2022–2025).
    • China Postdoctoral Science Foundation, 2021MD703812 (2021–2023).
  • Collaborator:
    • National Natural Science Foundation of China, Regional Science Fund Project (2021–2024).
    • Guangxi Natural Science Foundation of China, 2017GXNSFA198023 (2017–2020).

🧬 LEGACY AND FUTURE CONTRIBUTIONS

Min Li envisions leveraging her expertise to further explore genetic mechanisms in plants, with a focus on translating molecular insights into practical breeding applications. Her research has the potential to revolutionize hybrid seed technologies, making agriculture more efficient and resilient to environmental challenges. Her legacy lies in her dedication to understanding and addressing complex genetic challenges, and she continues to inspire the next generation of researchers in plant genetics and genomics.

🌟 A VISIONARY IN COTTON GENETICS

Min Li’s career exemplifies the profound impact of innovative research in genetics and genomics. Through her work, she has positioned herself as a trailblazer in unraveling the complexities of plant molecular biology, paving the way for transformative advancements in global agriculture.

📑 NOTABLE PUBLICATIONS 

"Impact of lignin on the starch accumulation, composition, and pasting properties of cassava

  • Authors: Cai, Z. , Li, M. , Zhang, F. , Ye, W.-T. , Fan, X.-W.
  • Journal: LWT
  • Year: 2023

"LC–MS/MS-based metabolomics approach revealed novel phytocompounds from sugarcane rind with promising pharmacological value

  • Authors: Rao, M.J. , Duan, M. , Wei, X. , Hu, L. , Wang, L.
  • Journal: Journal of the Science of Food and Agriculture
  • Year: 2022

"Sugarcane Rind Secondary Metabolites and Their Antioxidant Activities in Eleven Cultivated Sugarcane Varieties

  • Authors: Rao, M.J. , Duan, M. , Yang, M. , Li, M. , Wang, L.
  • Journal: Sugar Tech
  • Year: 2022

"Genome-Wide Transcriptomic Analysis Reveals the Gene Regulatory Network Controlled by SRL1 in Regulating Rice Leaf Rolling

  • Authors: Li, M. , Li, X. , Zhu, L. , Jin, J. , Wang, J.
  • Journal: Journal of Plant Growth Regulation
  • Year: 2022

"Transcriptomic and Widely Targeted Metabolomic Approach Identified Diverse Group of Bioactive Compounds, Antiradical Activities, and Their Associated Genes in Six Sugarcane Varieties

  • Authors: Rao, M.J. , Duan, M. , Wang, J. , Hu, L. , Wang, L.
  • Journal: Antioxidants
  • Year: 2022

Chunsik Shim | Genetics and Genomics of Disease | Best Researcher Award

Posted on by Pencis

Prof Chunsik Shim | Genetics and Genomics of Disease | Best Researcher Award

Mokpo National University | South Korea

Author Profile

Scopus

EARLY ACADEMIC PURSUITS

Shim Chun-Sik embarked on his academic journey by obtaining a Bachelor of Science in Naval Architecture and Ocean Engineering from Inha University, Korea, in 1995. This laid the foundation for his subsequent academic and professional achievements.

PROFESSIONAL ENDEAVORS

Shim's career trajectory included significant roles in academia and industry. Notably, he served as a Chief Engineer at Daewoo Shipbuilding and Marine Engineering Co., LTD. from 2003 to 2006, contributing to the practical aspects of shipbuilding and marine engineering. His tenure as a Research Scholar at Washington State University Vancouver from 2011 to 2013 broadened his international exposure and collaboration.

CONTRIBUTIONS AND RESEARCH FOCUS ON GENETICS AND GENOMICS OF DISEASE

Shim Chun-Sik's contributions spanned a wide array of research domains, primarily focusing on fatigue testing, material evaluation, and structural analysis. Noteworthy projects include the assessment of low-temperature strength for 3.5% Nickel Steel and the study of structural characteristics of tower flange connections in offshore wind turbine systems. His research endeavors significantly advanced the understanding and practical applications of materials and structures in marine and offshore environments.

IMPACT AND INFLUENCE

Shim's work has had a substantial impact on the field of naval architecture and marine engineering, particularly in the areas of fatigue testing, material characterization, and structural analysis. His research outcomes have informed industry practices, contributing to the development of safer and more efficient marine and offshore structures.

ACADEMIC CITATIONS

Shim Chun-Sik's scholarly contributions have garnered recognition and citations within the academic community. His publications in reputable journals and presentations at international conferences have enriched the body of knowledge in naval architecture and marine engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As a Director at the SURF R&D Center of Mokpo National University and a Professor in the Department of Naval Architecture & Marine Engineering, Shim continues to inspire and mentor the next generation of researchers and engineers. His legacy lies in his dedication to advancing the field through rigorous research, industry collaboration, and academic leadership. In the future, Shim's contributions are expected to further propel innovation and excellence in naval architecture and marine engineering.

HIGHLIGHTS

  • Diverse expertise in fatigue testing, material evaluation, and structural analysis.
  • Extensive professional experience in both academia and industry.
  • Significant contributions to advancing knowledge and practice in naval architecture and marine engineering.
  • Ongoing commitment to mentoring and fostering academic and industrial collaboration.

Notable Publications

Bearing strength of interference-fit pin joined glass fiber reinforced plastic composites 2020

Structural Safety Assessment of Lift Apparatus on Jack-Up Barge for Eco-Friendly Offshore Installation 2021

Bearing strength of interference-fit pin joined glass fiber reinforced plastic composites 2020(16)

Integrated simulation framework for offshore installation operations considering various ocean environment 2018(3)

Dynamic analysis of offshore structure installation operation using dual floating cranes based on multibody system dynamics 2016(3)