Ajou University, South Korea

Profile

Early Academic Pursuits 📚

Rameez Hassan Pirzada’s academic journey began with a Bachelor of Science in Bioinformatics from Capital University of Science and Technology in Islamabad, Pakistan, where he developed a keen interest in the molecular and computational aspects of biological sciences. His early research focused on the development of genome annotation software, a fundamental tool in bioinformatics that would later serve as a springboard for his future research endeavors.

Building on his passion for medical biology, Rameez went on to pursue a Master of Science in Medical Biology and Genetics from Yakın Doğu Üniversitesi in Mersin, Turkey. His thesis on telomere length dynamics in patients with recurrent pregnancy loss was a significant milestone in his academic career, leading to a publication in the International Journal of Biological Macromolecules. This early work honed his skills in molecular biology and bioinformatics, laying a strong foundation for his future academic and professional pursuits.

Professional Endeavors 🧑‍🔬

Since March 2019, Rameez has been serving as a Research Fellow at Ajou University in Suwon, South Korea, where he is involved in cutting-edge research in computational biology. He has developed advanced QSAR models to identify IL1R1 and IL-1β inhibitors, which are currently being tested in vitro and in preclinical studies. His innovative use of transfer learning in drug discovery has opened up new pathways for targeting critical molecular interactions in inflammatory and viral diseases. His work on designing VEGF peptide agonists using LSTM-based deep learning algorithms has achieved promising in vitro results, with animal testing planned and potential for patent filing.

Rameez’s dedication to finding novel solutions for pressing health issues is also reflected in his antiviral drug repurposing research, which identified FDA-approved drugs with potential to inhibit SARS-CoV-2 replication. This groundbreaking work was published in Cells, further solidifying his standing as an emerging leader in the field of computational drug discovery.

Contributions and Research Focus 🔬

Rameez’s research has made significant contributions to various therapeutic areas, including viral infections, inflammation, and cancer. His focus on structure-activity relationships (SAR) for COVID-19 therapeutics targeting GSK3 was a pivotal moment in his career, published in Frontiers in Endocrinology. His research on protein-protein interactions and molecular dynamics simulations has paved the way for the development of effective therapeutic agents by understanding the underlying mechanisms of diseases.

In addition to his work on drug discovery, Rameez’s deep expertise in molecular dynamics simulations and machine learning has led to the development of sophisticated computational models that predict the efficacy of novel drug candidates. By combining AI with traditional pharmacological methods, Rameez is at the forefront of a new wave of precision medicine and targeted therapies.

Accolades and Recognition 🏆

Rameez Hassan Pirzada’s academic and professional achievements have garnered significant recognition. His publications in high-impact journals such as the International Journal of Biological Macromolecules, Frontiers in Endocrinology, and Cells showcase the quality and impact of his work in the global scientific community. His research on IL1R1 and IL-1β inhibitors is currently under revision with the International Journal of Biological Macromolecules, further emphasizing the credibility and potential of his contributions.

Beyond his research, Rameez’s role as a lecturer in Bioinformatics at the University of Lahore, Pakistan, speaks to his ability to communicate complex scientific concepts to students, contributing to the development of future professionals in bioinformatics and computational biology.

Impact and Influence 🌍

Rameez’s work has had a profound impact on the scientific community, particularly in the field of computational drug discovery. His research on SARS-CoV-2 has not only contributed to the global response to the pandemic but also highlighted the potential of repurposing existing drugs to combat emerging infectious diseases. Furthermore, his development of AI-driven drug discovery models has the potential to accelerate the development of new therapies for a range of diseases, from cancer to autoimmune disorders.

Through his work, Rameez has also made significant contributions to systems biology, using computational tools to uncover the intricate cellular processes that drive disease. His deep understanding of protein interactions and his ability to model these interactions computationally has positioned him as a leading figure in drug design and molecular pharmacology.

Legacy and Future Contributions 🌱

As Rameez continues to push the boundaries of computational biology, his future contributions are poised to reshape the landscape of drug discovery. His dedication to innovation, coupled with his passion for mentorship, ensures that his legacy will extend beyond his own research. By training the next generation of bioinformatics professionals and continuing to develop novel therapeutic strategies, Rameez is paving the way for a new era of precision medicine.

Looking ahead, Rameez is committed to advancing his research in AI-driven drug discovery, particularly in the fields of inflammation, cancer, and infectious diseases. His ability to integrate machine learning with molecular biology offers exciting possibilities for developing targeted therapies that will revolutionize how we approach drug development and disease treatment.

Rameez Hassan Pirzada’s journey is one of relentless curiosity, groundbreaking contributions, and a commitment to transforming healthcare through the power of computational biology. With his expertise and forward-thinking approach, he is well on his way to making an indelible mark on the scientific community and improving global health outcomes for generations to come.

📝Notable Publications

Wnt signaling in the regulation of immune cell and cancer therapeutics

Authors: M. Haseeb, R.H. Pirzada, Q.U. Ain, S. Choi

Journal: Cells

Year: 2019

The roles of the NLRP3 inflammasome in neurodegenerative and metabolic diseases and in relevant advanced therapeutic interventions

Authors: R.H. Pirzada, N. Javaid, S. Choi

Journal: Genes

Year: 2020

Remdesivir and ledipasvir among the FDA-approved antiviral drugs have potential to inhibit SARS-CoV-2 replication

Authors: R.H. Pirzada, M. Haseeb, M. Batool, M.S. Kim, S. Choi

Journal: Cells

Year: 2021

Role of TRF2 and TPP1 regulation in idiopathic recurrent pregnancy loss

Authors: R.H. Pirzada, O. Orun, C. Erzik, H. Cagsin, N. Serakinci

Journal: International Journal of Biological Macromolecules

Year: 2019

Modeling structure–activity relationships with machine learning to identify GSK3-targeted small molecules as potential COVID-19 therapeutics

Authors: R.H. Pirzada, B. Ahmad, N. Qayyum, S. Choi

Journal: Frontiers in Endocrinology

Year: 2023

Assoc Prof Dr. khalid Khan | Organic Chemistry | Best Researcher Award

Posted on 09/10/202409/10/2024 by ScienceFather

Assoc Prof Dr. khalid Khan | Organic Chemistry | Best Researcher Award

Islamia College University, Peshawar, Pakistan

Profile

Orcid

Early Academic Pursuits 🎓

The academic journey of this accomplished chemistry professional began with a Bachelor of Science (BSc) degree in Biological Sciences, Chemistry, Zoology, and Botany from Government College Peshawar (2000-2002). This laid the foundation for a more focused engagement in organic chemistry during a Master of Science (MSc) at the University of Peshawar (2002-2004), where the individual distinguished themselves as a top performer in the class. This early period was marked by a passion for the intricacies of chemical science, ultimately guiding them towards advanced studies.

In 2008, the pursuit of academic excellence took them to Huazhong University of Science and Technology in China, where they embarked on a Ph.D. in Chemistry. The focus of their doctoral research was on the design, synthesis, and loading potential of a new family of nonionic amphiphilic Dendro-Calix[4]arene, under the supervision of Dr. Yan-Song Zhong. During this period, they not only demonstrated technical prowess in synthesis and characterization techniques such as NMR, IR, and HR MS but also acquired deep expertise in examining nanoparticles using methods like Transmission Electron Microscopy (TEM) and Dynamic Light Scattering (DLS). Their dissertation work significantly contributed to the field of nanomaterials and advanced drug delivery systems.

Professional Endeavors and Contributions 🧪

The professional trajectory of this individual at Islamia College University, Peshawar, reflects over 15 years of dedication to teaching, research, and mentoring. They first took on the role of Lecturer (2005-2008) before advancing to Assistant Professor (2013-2020) and later Associate Professor (2020-present) in the Department of Chemistry.

Throughout this period, their research remained focused on cutting-edge topics in chemistry, particularly in synthetic organic chemistry, nanomaterials, and medicinal chemistry. Their work involved supervising numerous graduate and undergraduate research projects, many of which explored structure-activity relationships (SAR) for drug discovery. A notable project involved the design of new derivatives of the antiviral drug Favipiravir for inhibiting the SARS-CoV-II virus, tested using in silico models alongside advanced computational methods like ADDMET, DFT, and MD simulations. This work highlights their versatility in both experimental and computational chemistry, a skill set that has enabled them to collaborate with various national and international research organizations.

In addition to academic mentorship, this professional has contributed significantly to the academic community at Islamia College University through administrative roles, such as being a Warden of two student hostels and serving on several university committees. They have reviewed and examined multiple Ph.D., MPhil, and BS theses, adding to their already robust academic profile.

Research Focus 🔬

A significant portion of this professor’s research revolves around the development and synthesis of complex organic molecules and nanomaterials. Their Ph.D. work on nonionic amphiphilic Dendro-Calix[4]arenes has implications for drug delivery systems, a topic that remains at the forefront of pharmaceutical research today.

Moreover, their ongoing research has made substantial contributions to the understanding of antiviral drug design, particularly against viral infections such as COVID-19. By synthesizing and testing new derivatives of favipiravir, the researcher explored the interaction of these compounds with viral RNA-dependent RNA polymerase, one of the critical proteins in viral replication. Their work blends both theoretical modeling and practical synthesis, emphasizing the synthesis of compounds that not only inhibit viral replication but also show desirable absorption, distribution, metabolism, and toxicity profiles.

Their research contributions extend beyond organic chemistry into the realm of nanotechnology, where their understanding of nanoparticle behavior, size determination, and drug-loading capacity is crucial. The use of advanced techniques such as TEM and DLS in characterizing these particles showcases their expertise in materials chemistry, particularly in developing nanoscale drug delivery systems.

Accolades and Recognition 🏅

The career of this chemist has been marked by a series of awards and accolades that reflect their excellence at every stage of their academic and professional life. They were awarded the Pakistan and Chinese Government Cultural Exchange Scholarship to pursue their Ph.D. in China, a testament to their academic promise and potential.

In addition, they have consistently achieved recognition for their teaching and research. From being a topper during their Master’s degree to securing grants and collaborations with international organizations, they have built a reputation for academic rigor and innovative research. Membership in prestigious organizations like the American Chemical Society and the Royal Chemical Society further attests to their standing in the global scientific community.

Impact and Influence 🌍

Their influence on both students and the broader academic community is profound. Having supervised and mentored numerous Ph.D., MPhil, and BS students, this individual has nurtured the next generation of chemists. Their administrative roles, such as being part of the Tenure Track System Affairs Committee and the Grievances/Conflicts Resolution and Redressal Committee, demonstrate their commitment to improving academic governance.

Furthermore, their research on antiviral drug design has direct implications for global health, particularly in the context of the COVID-19 pandemic. Their work on favipiravir derivatives represents a meaningful contribution to the fight against viral diseases, highlighting the real-world impact of their research.

Legacy and Future Contributions 🌟

Looking forward, this chemist’s future contributions are poised to build upon their extensive background in organic synthesis, nanotechnology, and medicinal chemistry. With ongoing collaborations and an established track record in cutting-edge research, they are well-positioned to make further contributions to antiviral drug development and nanomaterials science. Their leadership in academic mentoring ensures that their legacy will not only be in their own research but also in the students and professionals they have trained, who will continue to advance the frontiers of chemistry.

📝Notable Publications

**Metabolic and pharmacological profiling of Penicillium claviforme by a combination of experimental and bioinformatic approaches**

Authors: Khalid Khan

Journal: Annals of Medicine

Year: 2022-12-31

**Insights into metabolic and pharmacological profiling of Aspergillus ficuum through bioinformatics and experimental techniques**

Authors: Khalid Khan

Journal: BMC Microbiology

Year: 2022-12-09

Molecular docking and dynamic simulations of Cefixime, Etoposide, and Nebrodenside A against the pathogenic proteins of SARS-CoV-2

Authors: Khalid Khan

Journal: Journal of Molecular Structure

Year: 2022-01

Structural insights into the Zika virus NS1 protein inhibition using a computational approach

Authors: Khalid Khan

Journal: Journal of Biomolecular Structure and Dynamics

Year: 2021-05-24

**Antifungal activity of compounds isolated from Aspergillus niger and their molecular docking studies with tomatinase**

Authors: Khalid Khan

Journal: Natural Product Research

Year: 2020-09-16

Prof Dr. Juan Li | Best Researcher Award | Best Researcher Award

Posted on 13/06/2024 by ScienceFather

Prof Dr. Juan Li-Best Researcher Award-Best Researcher Award

Prof Dr. Juan Li, Nanfang Hospital, Southern Medical University, Guangzhou, China

🔗 Professional Profiles

🏅 Academic and Professional Background

Dr. Li Juan is a chief physician, doctoral/postdoctoral tutor, and the esteemed director of Rheumatology and Immunology at Nanfang Hospital, Southern Medical University. Recognized as an instructor for inheriting the academic experience of senior Chinese medicine experts, she is a renowned practitioner in Guangdong Province and one of the province’s first top ten medical leading talents.

🔬 Research and Innovations

Dr. Li Juan has led and completed twenty-two significant research projects, making substantial contributions to the fields of rheumatology and traditional Chinese medicine.

📚 Recent Publications

Fusobacterium nucleatum and Rheumatoid Arthritis – Cell Host Microbe, 2023 (IF 30.3)
Neutrophils Extracellular Traps in Rheumatoid Arthritis – RMD Open, 2024 (IF 6.2)
DKK-1’s Role in Bone Destruction – Inflammation, 2023 (IF 5.1)
Natural Killer Cells and Collagen-Induced Arthritis – Front Immunol, 2022 (IF 8.786)
Resveratrol and Gouty Arthritis – J Inflamm Res, 2021 (IF 6.924)
Paclitaxel’s Effect on Synoviocytes – Front Pharmacol, 2021 (IF 5.811)
Monocytic MDSCs and Bone Erosion – Rheumatology (Oxford), 2021 (IF 7.583)
Oridonin and Liver Injury – Oxid Med Cell Longev, 2021 (IF 6.543)
IDO1 and Acute Liver Failure – Free Radic Biol Med, 2021 (IF 7.372)
Machine Learning in Polymyositis and Dermatomyositis – Clin Exp Rheumatol, 2022 (IF 3.7)

🚀 Patents

Dr. Li has one patent published/under process.

🤝 Collaborations

She is actively involved in several high-profile collaborations, including the Overseas Cooperation Project of the National Natural Science Foundation of China and projects on traditional Chinese medicine at the national level.

🌐 Professional Memberships

Dr. Li holds several key positions in national and regional professional organizations, such as:

Chairman of the National Regional Diagnosis and Treatment Center for Rheumatology of Integrated Traditional Chinese and Western Medicine
Member of the Rheumatology Branch of the Chinese Medical Association
Vice Chairman of the Chinese Medicine Immunity Committee of the World Federation of Chinese Medical Societies

🌱 Areas of Research

Pathogenesis of rheumatoid arthritis and intervention mechanisms of Traditional Chinese Medicine
Basic and clinical research on gout
Research and development of anti-osteoporosis traditional Chinese medicine

🎖️ Contributions

Dr. Li has presided over 8 national natural science funds and more than 20 other major projects. She has led and participated in over 30 clinical studies and published more than 30 SCI papers. Her groundbreaking work has earned her prestigious awards, including the first prize of science and technology from the China Association of Integrated Traditional Chinese and Western Medicine and the second prize of Guangdong Science and Technology Progress.

🌐 Dr. Li Juan’s dedication to integrating traditional Chinese medicine with modern rheumatology continues to advance the field, making significant strides in both scientific understanding and clinical practice.

Publication Top Noted

Internalisation of Neutrophils Extracellular Traps by Macrophages Aggravate Rheumatoid Arthritis via Rab5a

- Authors: Ye, H., Yang, Q., Guo, H., …, Zheng, S., Li, J.
- Journal: RMD Open
- Year: 2024

DKK-1 and Its Influences on Bone Destruction: A Comparative Study in Collagen-Induced Arthritis Mice and Rheumatoid Arthritis Patients

- Authors: Zhao, D., Wu, L., Hong, M., …, Zhu, J., Li, J.
- Journal: Inflammation
- Year: 2024

2023 International Consensus Guidance for the Use of Tripterygium Wilfordii Hook F in the Treatment of Active Rheumatoid Arthritis

- Authors: Zhang, X., Xia, J., Jiang, Y., …, Zhao, Z., Lipsky, P.E.
- Journal: Journal of Autoimmunity
- Year: 2024

Real-World Study of Effectiveness and Safety of Tongluo Kaibi Tablet in Treatment of Arthritis (Rheumatoid Arthritis, Knee Osteoarthritis) | 通络开痹片治疗关节炎（类风湿关节炎、膝骨关节炎）疗效及安全性的真实世界研究

- Authors: He, X.-H., Shi, Y.-Y., Zhou, X.-L., …, Zhang, Z.-K., Huang, Q.-C.
- Journal: Chinese Traditional and Herbal Drugs
- Year: 2023

Fusobacterium Nucleatum Aggravates Rheumatoid Arthritis through FadA-Containing Outer Membrane Vesicles

- Authors: Hong, M., Li, Z., Liu, H., …, Zhou, H., Li, J.
- Journal: Cell Host and Microbe
- Year: 2023

Wu Linhui-Innovative Leadership-Best Researcher Award-2627

Posted on 14/05/202414/05/2024 by ScienceFather

Assoc Prof Dr. Wu Linhui-Innovative Leadership-Best Researcher Award

School of Ecology and Environment, Inner Mongolia University-China

Author Profile

Scopus

Early Academic Pursuits

Linhui Wu embarked on her academic journey with a Bachelor's degree in Environmental Sciences from Inner Mongolia University. Her early interest in environmental issues led her to pursue a Master's degree in the same field from East China Normal University, where she delved into advanced studies on Environmental Sciences. This academic foundation laid the groundwork for her Ph.D. in Environmental Sciences from Inner Mongolia University's College of Life Science, which she successfully completed in 2014.

Professional Endeavors

Following her academic achievements, Wu ventured into the professional realm, starting as a teaching assistant at Inner Mongolia University in 2007. Over the years, she ascended through the ranks, becoming a Lecturer in the Faculty of Environmental Science and later an Associate Professor in the School of Ecology and Environment, where she currently serves. This journey reflects her dedication to academia and her expertise in environmental microbiology, particularly in the context of wetlands and microbial ecosystems.

Contributions and Research Focus

Wu's contributions to the field of environmental microbiology are notable, with a focus on areas such as microbiological water purification and microbial diversity in soil. Her research endeavors have received support from prestigious organizations like the National Natural Science Foundation of China (NSFC) and the Ministry of Science and Technology of China. Noteworthy projects include studying the community structure and function of anaerobic ammonia oxidation and anaerobic methane oxidation in Wuliangsuhai wetlands and investigating the response mechanisms of microorganisms to nitrogen deposition in lake sediments.

Accolades and Recognition

Wu's work has been recognized through numerous publications in esteemed journals like Frontiers in Environmental Science, Bioresource Technology, and the Journal of Hydroecology. Her research on nitrogen removal by novel bacterial strains and the ecological niche of phytoplankton in lakes has garnered attention within the scientific community. Additionally, her involvement in key technology research and restoration projects in wetland ecosystems reflects her commitment to practical environmental solutions.

Impact and Influence on Innovative Leadership

Wu's contributions have had a significant impact on the understanding of microbial processes in environmental systems, especially in wetlands and lake sediments. Her findings on nitrogen removal, microbial community dynamics, and the ecological roles of microorganisms have practical implications for water management, ecosystem restoration, and environmental sustainability.

Wu's innovative leadership extends beyond the laboratory. She actively engages with industry partners, policymakers, and community stakeholders to translate research findings into actionable strategies. By bridging the gap between academia and practical applications, Wu demonstrates a holistic approach to leadership that drives positive change in environmental practices and policies. Her vision for a greener and more resilient future inspires others to embrace innovation and collaboration in addressing global environmental issues

Legacy and Future Contributions

Looking ahead, Wu's legacy lies in her comprehensive approach to environmental microbiology, bridging fundamental research with real-world applications. Her work sets a precedent for future scholars and practitioners in understanding and mitigating environmental challenges through microbial interventions. With ongoing projects and a commitment to excellence, Wu's future contributions are poised to further advance our understanding of microbial ecosystems and their role in environmental sustainability.

Linhui Wu embodies innovative leadership through her multidisciplinary approach to environmental microbiology. As an Associate Professor at Inner Mongolia University, she not only conducts groundbreaking research but also fosters a collaborative and forward-thinking environment among her peers and students. Wu's leadership style is characterized by her ability to integrate diverse perspectives and methodologies, leading to novel insights into complex environmental challenges. She encourages creativity and critical thinking, empowering her team to explore new avenues in microbial ecology and environmental sustainability.