Monika Staniszewska | Plant Molecular Biology | Best Researcher Award

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Assoc. Prof. Dr. Monika Staniszewska | Plant Molecular Biology | Best Researcher Award

Warsaw University of Technology, Poland

Author Profile

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šŸŒŸĀ Ā Suitable for this Best Researcher Award

Dr. Monika Staniszewska is a distinguished researcher in the field of medical biology, microbiology, and molecular biology, with a strong emphasis on cancer immunotherapy and oncolytic virotherapy. Her extensive academic and professional background, including a PhD and habilitation in medical sciences, positions her as a leading expert in her discipline. Currently serving as an Associate Professor and Department Leader at the Center for Advanced Materials and Technologies (CEZAMAT) at the Warsaw University of Technology, Dr. Staniszewska has demonstrated significant leadership and innovation in her research. In recognition of her scientific excellence, Dr. Staniszewska has received multiple prestigious awards, including the Ludwik Rajchman Prize (IĀ° and IIĀ°) for her contributions to innovative cancer treatments. Her participation in international collaborations, fellowships, and academic engagements, such as at Uppsala University, further underscores her global impact. Additionally, her role in liquid biopsy research and biomarker refinement for monitoring treatment responses highlights her commitment to translational medicine and patient-centered research.

Ā Education

Dr. Staniszewska earned her Master of Science in Biology from the University of Szczecin in 1999. She obtained a Ph.D. in Medical Science, specializing in medical biology, from the Scientific Council of the National Institute of Public Health ā€“ National Institute of Hygiene (NIPH-NIH) in 2010. In 2018, she achieved her habilitation in medical sciences within the same discipline. Additionally, Dr. Staniszewska holds a Level I Specialization in Microbiology (2003) and is a certified laboratory diagnostician (2003).

Ā Ā Professional Experience

Dr. Staniszewska has held various academic positions, including Assistant Professor at NIPH-NIH (2013-2019), Research and Teaching Assistant Professor at WUT’s Faculty of Chemistry (2019-2020), and Research Assistant Professor at CEZAMAT (2020-2021). Since 2021, she has been an Associate Professor and leader of the Department of Microbiology, Molecular Biology, and Bioinformatics at CEZAMAT, WUT. Her roles have encompassed leading research projects, supervising theses, and lecturing on genetics and molecular biology.

Ā Awards and RecognitionĀ 

Dr. Staniszewska’s accolades include the Ludwik Rajchman Prize IIĀ° from NIPH-NIH (2013) and the Team Prize IIIĀ° from the Rector of the Medical University of Warsaw (2011). She has also received fellowships at Uppsala University (2022) and Duke University (2022), where she presented research on cancer immunology and participated in workshops on cancer therapy. Additionally, she has been an invited speaker at various conferences and summer schools, sharing her expertise in immunotherapy and cancer cell biology.

Research skills On Plant Molecular Biology

Dr. Staniszewska’s research encompasses microbiology, molecular biology, immunology, and immunotherapy. Her work includes developing therapeutic solutions for infectious diseases, studying mast cells’ roles in pathogenesis, searching for new antiviral drugs, and creating platforms using non-replicating adenoviruses as vectors for vaccines. She also focuses on oncolytic adenoviruses for cancer treatment and studies the deactivation of betacoronaviruses using UV-C. ā€‹

Publications

Sustainable, cytocompatible and flexible electronics on potato starch-based films

  • Authors: S. Lepak-Kuc, A. Kądziela, M. Staniszewska, K. Piłczyńska, Z. Å»ołek-Tryznowska, et al.

  • Journal: Scientific Reports

  • Year: 2024

Mechanically suitable and osteoinductive 3D-printed composite scaffolds with hydroxyapatite nanoparticles having diverse morphologies for bone tissue engineering

  • Authors: M. Wojasiński, R. PodgĆ³rski, P. Kowalczyk, T. Ciach, P. Sobieszuk, et al.

  • Journal: Journal of Biomedical Materials Research – Part B Applied Biomaterials

  • Year: 2024

Candida albicans ergosterol disorders as a consequence of the new sulfone derivative action mode

  • Authors: M. Staniszewska, M. Kazek, M. Rogalska, L. Kuryk, Z. Ochal, et al.

  • Journal: Medicinal Chemistry Research

  • Year: 2024

A novel approach to enhance mechanical properties of Ti substrates for biomedical applications

  • Authors: D. Kuczyńska-Zemła, M. Rogalska, A. Sotniczuk, M. Staniszewska, H. Garbacz, et al.

  • Journal: Journal of Alloys and Compounds

  • Year: 2024

Induction of an immune response by a nonreplicating adenoviruses-based formulation versus a commercial pseudo-SARS-CoV-2 vaccine

  • Authors: J. Baran, L. Kuryk, M. Garofalo, M. Kazek, M. Staniszewska, et al.

  • Journal: Biotechnologia

  • Year: 2024

 

Timur Turdiyev | Plant Biotechnology | Best Researcher Award

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Assoc. Prof. Dr. Timur Turdiyev | Plant Biotechnology | Best Researcher Award

Institute of Plant Biology and Biotechnology | Kazakhstan

Author Profile

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Orcid ID

TIMUR TURDIYEV: HEAD RESEARCHER AT INSTITUTE OF PLANT BIOLOGY AND BIOTECHNOLOGY šŸŒ±

INTRODUCTION

Timur Turdiyev, a prominent researcher in plant biotechnology and conservation, is the Head Researcher at the Institute of Plant Biology and Biotechnology (IPBB) in Almaty, Kazakhstan. With over two decades of experience in plant science, his research focuses on advancing biotechnological methods for preserving and improving plant genetic resources, particularly in Kazakhstan. His innovative contributions to biotechnology, plant breeding, and biodiversity have had a significant impact on sustainable agriculture in the region.

šŸ“šĀ EARLY ACADEMIC PURSUITS

Timur’s academic journey began at the Kazakh State Agrarian University, where he studied from 1996 to 2001. His passion for biotechnology led him to pursue a thesis in the field, which he successfully defended in 2010. He was awarded the academic title of Associate Professor in Biology in 2021. Throughout his academic career, he has continually expanded his expertise in plant biology, breeding, and biotechnology.

šŸ§ŖĀ PROFESSIONAL ENDEAVORS

Since 2002, Timur has been part of the IPBB, initially starting as an intern researcher and eventually rising to the position of Head Researcher in 2025. As a key figure in plant biotechnology research, he has led numerous research projects aimed at advancing Kazakhstan’s agricultural capabilities, including the preservation and propagation of various plant species using biotechnological methods.

šŸ”¬Ā CONTRIBUTIONS AND RESEARCH FOCUS ON Plant Biotechnology

Timur’s contributions to biotechnology and plant conservation have been transformative. His research focuses on developing techniques for long-term preservation, cryopreservation, and micropropagation of plants like rice, grapevine, raspberries, and poplars. His projects, such as the creation of cryobanks and the development of biotechnological regulations for germplasm preservation, are critical to ensuring sustainable plant breeding and conservation in Kazakhstan.

šŸŒĀ IMPACT AND INFLUENCE

Timur’s work has not only advanced plant biotechnology in Kazakhstan but also contributed significantly to global scientific knowledge. His involvement in international projects has established him as a respected figure in the scientific community. Through his research, he has improved the efficiency of plant breeding, offering potential solutions for combating agricultural challenges, particularly in arid regions.

šŸ“ˆĀ ACADEMIC CITATIONS AND PUBLICATIONS

Timur has published extensively in reputable scientific journals. With an h-index of 6 on Scopus, his research is widely recognized, particularly in the fields of plant genetics and biotechnology. His work, including studies on apple and plum genetic diversity and the preservation of apple germplasm, has been published in journals like In vitro cellular & developmental biology-plant and Tree Genetics & Genomes.

šŸ…Ā HONORS & AWARDS

  • The “AlgysKhat”certificate in 2023 for his contribution to higher education and science in Kazakhstan.
  • Recognition as Associate Professor in Biology in 2021.
  • Multiple international patents for his innovations in plant biotechnology.

šŸŒĀ LEGACY AND FUTURE CONTRIBUTIONS

Timurā€™s research legacy is rooted in the preservation and enhancement of plant biodiversity. His ongoing projects on pistachio and almond biodiversity, as well as his continued focus on cryopreservation and clonal micropropagation, ensure his future contributions will play a pivotal role in sustainable agriculture and plant biotechnology.

šŸŒ Ā FINAL NOTE

Timur Turdiyev’s commitment to advancing plant biotechnology, conservation, and agricultural sustainability continues to shape Kazakhstan’s agricultural landscape. His pioneering work in biotechnological methods for plant preservation and breeding has not only improved agricultural practices but also provided a model for other countries in the region.

šŸ“‘NOTABLE PUBLICATIONS

Micropropagation of berry crops for creation of germplasm cryobanks
  • Journal: Brazilian Journal of Biology
  • Year: 2024
  • Contributors: T. Turdiyev; I. Kovalchuk; Z. Mukhitdinova; O. Hunger; S. Frolov; B. Kabylbekova
In Vitro Approbation of Microbial Preparations to Shield Fruit Crops from Fire Blight: Physio-Biochemical Parameters
  • Journal: Plants
  • Year: 2024 (May)
  • Contributors: Asil A. Nurzhanova; Aigerim Mamirova; Valentina Mursaliyeva; Asiya S. Nurmagambetova; Zhadyra Zhumasheva; Š¢ŠøŠ¼ŃƒŃ€ Š¢ŃƒŃ€Š“ŠøŠµŠ²; Svetlana Kushnarenko; Elvira Ismailova
In vitro germplasm cold storage of fruit and berry plants of Kazakhstan
  • Journal: EurAsian Journal of BioSciences
  • Year: 2020
  • Contributors: Turdiyev, T.T.; Kovalchuk, I.Y.; Kabylbekova, B.Z.; Chukanova, N.I.; Frolov, S.N
Reduced major minerals and increased minor nutrients improve micropropagation in three apple cultivars
  • Journal: In Vitro Cellular and Developmental Biology – Plant
  • Year: 2020
  • Contributors: Kabylbekova, B.; Kovalchuk, I.; Mukhitdinova, Z.; Turdiyev, T.; Kairova, G.; Madiyeva, G.; Reed, B.M.
Nitrogen ions and nitrogen ion proportions impact the growth of apricot (Prunus armeniaca) shoot cultures
  • Journal: Plant Cell, Tissue and Organ Culture
  • Year: 2018
  • Contributors: Kovalchuk, I.Y.; Mukhitdinova, Z.; Turdiyev, T.; Madiyeva, G.; Akin, M.; Eyduran, E.; Reed, B.M.

 

Baowen Huang | Horticultural Science | Best Researcher Award

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Dr. Baowen Huang | Horticultural Science | Best Researcher Award

Chongqing University | China

Author Profile

Scopus

INTRODUCTION

Dr. Baowen Huang is an accomplished Associate Professor and doctoral supervisor at Chongqing University. His expertise lies in plant molecular development, specifically the regulation of fruit development and quality formation. With significant academic contributions in prestigious journals such as Nature Communications, Cell Report, and New Phytologist, his research has had a substantial impact on the field of plant biology.

šŸ“šĀ EARLY ACADEMIC PURSUITS

Dr. Huang began his academic journey at the University of Toulouse III, where he earned his PhD in 2017. During his doctoral studies, he specialized in plant molecular development, laying the foundation for his future research on fruit development and quality.

šŸ§ŖĀ PROFESSIONAL ENDEAVORS

From 2017 to 2021, Dr. Huang further honed his expertise through postdoctoral work at INRAe and CNRS in France, collaborating with international experts in the field. This experience allowed him to deepen his understanding of plant molecular mechanisms, specifically related to fruit growth and quality control.

šŸ”¬Ā CONTRIBUTIONS AND RESEARCH FOCUS ON Horticultural Science

Dr. Huangā€™s research focuses on the intricate molecular processes involved in fruit development. He investigates how various regulatory mechanisms control the formation and quality of fruits, which has far-reaching implications for agriculture, particularly in improving crop yields and enhancing food security.

šŸŒĀ IMPACT AND INFLUENCE

Dr. Huangā€™s research has made a significant impact in plant science. His work is widely cited and has influenced both academic research and agricultural practices. By focusing on fruit development, he has provided valuable insights that could lead to advancements in agriculture, particularly in improving fruit quality and production efficiency.

šŸ“ˆĀ ACADEMIC CITATIONS AND PUBLICATIONS

Dr. Huang has published extensively in renowned journals, including Nature Communications, Cell Report, and New Phytologist. His work on fruit development and quality formation continues to be widely cited, showcasing the relevance and importance of his contributions to the field.

šŸ…Ā HONORS & AWARDS

  • Best Research Paper Award šŸŒŸ
  • Outstanding Young Researcher Award šŸ†
  • International Collaboration Award šŸŒ
  • Excellence in Plant Science Award šŸ…

šŸŒĀ LEGACY AND FUTURE CONTRIBUTIONS

Dr. Huangā€™s legacy will be defined by his role in advancing plant molecular development. His future research promises to further explore the molecular underpinnings of fruit development and quality, with the potential to revolutionize agricultural practices. His contributions will continue to influence both academia and the agricultural industry for years to come.

šŸŒ Ā FINAL NOTE

Dr. Baowen Huang continues to push the boundaries of plant molecular development research. His contributions to fruit development and quality formation have earned him recognition within the scientific community. As a mentor to young scholars, his leadership and vision will undoubtedly shape future research in plant biology.

šŸ“‘NOTABLE PUBLICATIONSĀ 

The BES1/BZR1 transcriptional factor SlBES2 regulates photosynthetic apparatus in tomato fruit
  • Authors: M. Huang, W. Liu, D. Su, B. Huang, Z. Li
    Journal: BMC Plant Biology
    Year: 2025

 

Xiao Guo | Plant Physiology | Best Researcher Award

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Dr. Xiao Guo | Plant Physiology | Best Researcher Award

Sichuan University of Science & Engineering | China

Author Profile

šŸŒ± Dr. Xiao Guo: Pioneering Agronomic Researcher from China

šŸ“šĀ EARLY ACADEMIC PURSUITS

Xiao Guo, hailing from the Peopleā€™s Republic of China, began his academic journey with an unyielding passion for agricultural innovation. His foundational years were marked by a relentless curiosity about plant sciences, leading him to delve into advanced studies on nitrogen utilization and crop growth regulation. These formative experiences laid a solid groundwork for his later contributions to sustainable agricultural practices.

šŸ§ŖĀ PROFESSIONAL ENDEAVORS

Currently serving at the Research Center of Agricultural Economy, Sichuan University of Science & Engineering, Xiao Guo has been a pivotal figure since 2021. He has actively contributed to multiple groundbreaking research initiatives, with a particular focus on enhancing the environmental and economic benefits of agricultural practices.

His career highlights include leading and collaborating on key projects such as:

  • Principal Investigator: Environmental and economic benefits of N-efficient rapeseed (CZ21A02).
  • Co-Principal Investigator: Fertilizer and pesticide reduction for oilseed rape (2018YFD0200907-01).
  • Mechanisms of filling difference in tetraploid Tartary buckwheat and tillage methods’ impact on buckwheat yield formation.

šŸ”¬ CONTRIBUTIONS AND RESEARCH FOCUS ON PLANT PHYSIOLOGY

Dr. Guoā€™s research centers on improving nitrogen efficiency in crops, optimizing agricultural practices, and minimizing environmental impact. His work includes:

  • Unraveling the genetic and physiological mechanisms in nitrogen utilization.
  • Enhancing crop yield through innovative fertilization and cultivation techniques.
  • Developing sustainable methods for pesticide reduction in oilseed rape.

These studies offer practical solutions for global agricultural challenges, fostering environmental and economic sustainability.

šŸŒĀ IMPACT AND INFLUENCE

Dr. Guo’s research has reshaped agronomic practices, particularly in nitrogen utilization and crop sustainability. His groundbreaking findings are referenced internationally, and his projects have inspired advancements in sustainable farming systems.

šŸ“ˆĀ ACADEMIC CITATIONS AND PUBLICATIONS

Xiao Guo has authored numerous influential articles in esteemed journals, including:

  1. “Post-flowering nitrogen source-sink relationship…” (Journal of Plant Growth Regulation, 2024).
  2. “Pollen grain number and viability contribute to variation…” (Euphytica, 2022).
  3. “Nitrogen utilization-efficient oilseed rape genotypes…” (Functional Plant Biology, 2021).
  4. “Post-flowering nitrogen uptake…” (Plant and Soil, 2021).

His works have garnered substantial citations, reflecting their significance in the field of agricultural science.

šŸ…Ā HONORS & AWARDS

Xiao Guoā€™s dedication to excellence has been recognized through numerous awards, including accolades for his contributions to sustainable agricultural practices and crop research.

šŸŒĀ LEGACY AND FUTURE CONTRIBUTIONS

Looking forward, Xiao Guo aims to expand his research into global collaborations, tackling issues such as climate-resilient crops and advanced agricultural technologies. His legacy will inspire future generations of researchers dedicated to sustainable development.

šŸŒ Ā FINAL NOTE

Xiao Guo exemplifies the essence of an academic visionary, merging scientific rigor with practical applications to revolutionize agriculture. His journey underscores the importance of interdisciplinary approaches to solving pressing global challenges.

šŸ“‘Ā NOTABLE PUBLICATIONSĀ 

“Post-flowering Nitrogen Sourceā€“Sink Relationship Underlying Mechanisms Explain the Genotypic Variation in Seed N Accumulation of Rapeseed Genotypes”
  • Authors: Xiao Guo, Xinli Li, Ji Luo, Pengyan Wang, Xiaobo Yi
  • Journal: Journal of Plant Growth Regulation
  • Year: 2024
“Spatial and Temporal Variations in Soil Moisture for a Tamarisk Stand under Groundwater Control in a Hyper-Arid Region”
  • Authors: Xiaobo Yi, Ji Luo, Pengyan Wang, Xiao Guo, Yuanjie Deng, Tao Du, Haijun Wang, Cuicui Jiao, č¢å›½åƌ, Mingan Shao
  • Journal: Water
  • Year: 2023
“Integrated Emergy and Economic Evaluation of 8 Hydropower Plants in Zagunao Basin, Southwest of China”
  • Authors: Xincong Liu, Hengyu Pan, Xiangyu Zheng, Xiaohong Zhang, Yanfeng Lyu, Shihuai Deng, Xiao Guo
  • Journal: Journal of Cleaner Production
  • Year: 2022
“Pollen Grain Number and Viability Contribute to Variation in Effective Ovule Number Among Oilseed Rape Genotypes”
  • Authors: Xiao Guo, Bao-Luo Ma, Neil B. McLaughlin, Yajun Gao, Xiaoming Wu, Biyun Chen
  • Journal: Euphytica
  • Year: 2022
“Genotypic Variation in Nitrogen Utilization Efficiency in Oilseed Rape Is Related to the Coordination of Leaf Senescence and Root N Uptake During Reproductive Stage”
  • Authors: Huiying He, Yuyu Xie, Anyu Zhao, Wencong Hu, Xiao Guo, Anthony J. Miller, Xiaoming Wu, Biyun Chen, Rong Zhang, Hui Tian et al.
  • Journal: Plant and Soil
  • Year: 2021
“Post-flowering Nitrogen Uptake Leads to the Genotypic Variation in Seed Nitrogen Accumulation of Oilseed Rape”
  • Authors: Xiao Guo, Yunyou Nan, Huiying He, Bao-Luo Ma, Neil B. McLaughlin, Xiaoming Wu, Biyun Chen, Zhiyuan Yao
  • Journal: Plant and Soil
  • Year: 2021
“Nitrogen Utilisation-Efficient Oilseed Rape (Brassica napus) Genotypes Exhibit Stronger Growth Attributes from Flowering Stage Onwards”
  • Authors: 肖 郭, Bao-Luo Ma, Neil B. McLaughlin, Xiaoming Wu, Biyun Chen, Yajun Gao
  • Journal: Functional Plant Biology
  • Year: 2021
“Nitrogen Use-Inefficient Oilseed Rape Genotypes Exhibit Stronger Growth Potency During the Vegetative Growth Stage”
  • Authors: Xiao Guo, Huiying He, Rong An, Yuying Zhang, Rui Yang, Lanqin Cao, Xiaoming Wu, Biyun Chen, Hui Tian, Yajun Gao
  • Journal: Acta Physiologiae Plantarum
  • Year: 2019
“Characteristics of the Grain-Filling Process and Starch Accumulation of High-Yield Common Buckwheat ā€˜cv. Fengtian 1ā€™ and Tartary Buckwheat ā€˜cv. Jingqiao 2”
  • Authors: C.G. Liang, Y.X. Song, X. Guo, D. Kong, Y. Wang, Q. Zhao, K.F. Huang
  • Journal: Cereal Research Communications
  • Year: 2016

 

 

Muhammad Zeeshan Bhatti | Plant Biochemistry | Best Researcher Award

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Dr. Muhammad Zeeshan Bhatti | Plant Biochemistry | Best Researcher Award

National University of Medical Sciences | Pakistan

Author Profile

šŸŒŸ THE LIFE AND LEGACY OF DR. MUHAMMAD ZEESHAN BHATTIĀ 

šŸ“šĀ EARLY ACADEMIC PURSUITS

Dr. Muhammad Zeeshan Bhatti’s academic journey reflects a relentless pursuit of excellence in Biochemistry and Molecular Biology. Born with a passion for scientific discovery, he began his undergraduate studies at Gomal University, earning a Bachelor of Science degree in 2007. His thirst for knowledge propelled him to pursue advanced degrees, culminating in a Doctor of Philosophy (PhD) from East China Normal University, Shanghai, China, in 2017. His research during this period laid the groundwork for his profound contributions to medicinal chemistry and biochemistry.

šŸ§ŖĀ PROFESSIONAL ENDEAVORS

As an Assistant Professor at the National University of Medical Sciences, Rawalpindi, Pakistan, Dr. Bhatti has been a beacon of inspiration for students and researchers since August 2018. He specializes in Biochemistry and Molecular Biology, focusing on anti-cancer drug discovery, the pharmacological properties of active compounds, and medicinal plant phytochemistry. His dedication to teaching and research has established him as a leading figure in his field.

šŸ”¬ CONTRIBUTIONS AND RESEARCH FOCUS ON Plant Biochemistry

Dr. Bhatti’s research spans multiple disciplines, including:

  • Anti-cancer drug discovery and molecular mechanisms in cancer cells.
  • Pharmacological studies of compounds for diabetes management.
  • Phytochemical and antioxidant activities of medicinal plants.
  • Combating antimicrobial resistance through innovative solutions.

His extensive publication record, featuring high-impact journals, underscores his commitment to advancing scientific knowledge.

šŸŒĀ IMPACT AND INFLUENCE

Dr. Bhattiā€™s work has had a profound impact on the scientific community, especially in developing therapeutic strategies for diseases like cancer and diabetes. His contributions to understanding bioactive molecules have paved the way for novel treatments. As a corresponding author, he has mentored numerous researchers and collaborated on groundbreaking studies.

šŸ“ˆĀ ACADEMIC CITATIONS AND PUBLICATIONS

Dr. Bhattiā€™s publications are widely cited, reflecting the influence of his work in academic and medical communities. Notable works include:

  • Evaluating biological activity of transgenic plants.
  • Isolation of berberine for neuroprotection.
  • Studies on the effects of medicinal plants against Alzheimerā€™s disease.
  • Contributions to nanotechnology-based cosmeceuticals.

With over 20 publications in reputable journals, his work continues to shape the future of molecular biology and medicinal chemistry.

šŸ…Ā HONORS & AWARDS

Dr. Bhatti’s exemplary work has earned him recognition both nationally and internationally, including awards for innovation in biochemistry and medicinal research.

šŸŒĀ LEGACY AND FUTURE CONTRIBUTIONS

Dr. Bhatti is poised to leave a lasting legacy through his groundbreaking research and dedication to mentoring young scientists. His ongoing projects in anti-cancer drug discovery and the pharmacological study of active compounds promise to revolutionize therapeutic approaches.

šŸŒ Ā FINAL NOTE

Dr. Muhammad Zeeshan Bhatti stands as a luminary in Biochemistry and Molecular Biology. His unwavering dedication to science and education continues to inspire a generation of researchers. The impact of his work will undoubtedly resonate for years to come.

šŸ“‘Ā NOTABLE PUBLICATIONSĀ 

“Effects of a High Trans Fatty Acid Diet on Kidney-, Liver-, and Heart-Associated Diseases in a Rabbit Model”

  • Authors: Ismail, H., Mubashar, Z., Khan, H., De Waard, M., Batiha, G.E.-S.
  • Journal: Metabolites
  • Year: 2024

‘Evaluating the Biological Activity of rolB-Transgenic Nicotiana tabacum Plants Using Phytochemical and Pharmacological Approaches”

  • Authors: Anwar, A., Haneef, S., Ismail, H., Murtaza, I., Mirza, B.
  • Journal: Plant Biosystems
  • Year: 2024

“Bioassays Guided Isolation of Berberine from Berberis lycium and Its Neuroprotective Role in Aluminium Chloride-Induced Rat Model of Alzheimerā€™s Disease Combined with In Silico Molecular Docking”

  • Authors: Ismail, H., Khalid, D., Waseem, D., Ahmed, M., Saleem, S.
  • Journal: PLoS ONE
  • Year: 2023

“Comparative Efficacy of Phosphate Solubilizing Bacteria and Synthetic Phosphate Fertilizers on the Growth of Wheat”

  • Authors: Khan, A., Baloch, M.S., Ullah, N., Saeed, A., Gul, H.
  • Journal: Plant Science Today
  • Year: 2023

“Effects of Phoenix dactylifera Against Streptozotocin-Aluminium Chloride Induced Alzheimerā€™s Rats and Their In Silico Study”

  • Authors: Ismail, H., Khalid, D., Ayub, S.B., Yousef, F.M., De Waard, M.
  • Journal: BioMed Research International
  • Year: 2023

“Ethnoveterinary Uses of Forage Plants for Domesticated Ruminants in Malakand Agency, Pakistan”

  • Authors: Khan, R., Nedelcheva, A., Abidin, S.Z.U., Gul, H., Dogan, Y.
  • Journal: Journal of Animal Physiology and Animal Nutrition
  • Year: 2024