ZAIN ABBAS | Biological Sciences | Outstanding Scientist Award

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Mr. ZAIN ABBAS | Biological Sciences | Outstanding Scientist Award

Researcher from Anhui Science and Technology University, China

Zain Abbas is a dedicated and emerging researcher in the field of agronomy, currently pursuing his M.Phil. in Agronomy and Seed Industry at Anhui Science and Technology University in China. With a strong academic background and hands-on experience in plant breeding, tissue culture, and crop physiology, Zain has positioned himself as a promising contributor to agricultural science. His research is primarily focused on the influence of magnesium oxide (MgO) nanoparticles on maize growth and resilience, aiming to leverage nanotechnology for sustainable agriculture and improved crop productivity. Alongside his primary research, he has also explored transcriptomics, identifying key plant growth regulator genes involved in stress responses. Zain has authored and co-authored several publications, both in English and Chinese, in areas including nanotechnology applications, seed physiology, and plant propagation. His work integrates practical lab-based experimentation with advanced analytical techniques such as PCR, DNA extraction, and in-vitro propagation. He has been recognized for both academic excellence and extracurricular contributions through numerous awards. Zain is passionate about addressing global food security challenges and aspires to further his research through international collaborations and doctoral studies. His blend of technical skills, global perspective, and innovative mindset makes him an ideal candidate for research-focused recognition.

Professional Profile

Education

Zain Abbas’s academic journey reflects a continuous commitment to excellence in agricultural sciences, particularly in the domains of plant breeding and agronomy. He is currently pursuing an M.Phil. in Agronomy and Seed Industry at Anhui Science and Technology University in Fengyang, China. This program has allowed him to focus on cutting-edge research involving magnesium oxide nanoparticles and their effects on maize crop development and stress management. Prior to this, he completed his Bachelor’s degree in Plant Breeding and Genetics from Muhammad Nawaz Sharif University of Agriculture in Multan, Pakistan, where he graduated with distinction as a Silver Medalist between 2016 and 2020. Zain’s foundation in science was laid during his intermediate studies in Pre-Medical at KIPS Boys College, Multan, from 2014 to 2016. His academic record not only reflects a strong grasp of theoretical concepts but also highlights his ability to conduct practical, laboratory-based research. This blend of local and international education has shaped his scientific approach, enabling him to tackle agronomic challenges with both traditional knowledge and modern scientific tools. His educational background has equipped him with the skills necessary for advanced research, and his transition from national to international academia underlines his global orientation in science.

Professional Experience

Zain Abbas has accumulated a diverse range of professional research experiences that collectively demonstrate his growth as a capable and versatile agronomist. Currently serving as a Researcher at Anhui Science and Technology University in China, Zain plays a crucial role in experimental design, data analysis, laboratory management, and protocol development. His current work primarily investigates the impact of magnesium nanoparticles on maize, contributing to innovations in sustainable agriculture and plant resilience. Previously, from 2018 to 2020, he served as a Research Assistant in Multan, Pakistan, where he gained substantial expertise in tissue culture techniques, media optimization, genetic transformation, and plant material handling. This role allowed him to enhance his technical skills and support broader laboratory research goals effectively. Earlier in his career, between 2017 and 2018, Zain completed an internship as a Crop Breeder in Vehari, Punjab, where he was responsible for managing five hectares of agricultural land, performing crop crossings, and analyzing productivity data for maize and wheat. This field-based experience helped bridge theoretical knowledge with hands-on application in real-world farming environments. These cumulative roles have refined his research acumen, broadened his technical toolkit, and prepared him for more advanced scientific contributions and leadership in agricultural research.

Research Interests

Zain Abbas’s research interests lie at the intersection of sustainable agriculture, nanotechnology, plant physiology, and seed science. His primary research explores the application of magnesium oxide (MgO) nanoparticles in enhancing the growth, yield, and stress resilience of maize (Zea mays L.). He is particularly interested in how nanotechnology can improve plant nutrient uptake and tolerance to abiotic stresses, ultimately contributing to global food security. Another significant area of his research includes transcriptomics, where he investigates the expression of growth regulator genes in maize under stress conditions. This molecular-level approach helps identify genetic pathways responsible for plant development and adaptability. Additionally, Zain is passionate about plant breeding and seed industry innovations, particularly the development of high-yielding, resilient, and health-safe crop varieties. His early work in genetic transformation and in-vitro propagation of crops like quinoa and mung bean highlights his interest in biotechnology and plant tissue culture. He envisions continuing his research journey through international collaboration, doctoral studies, and R&D roles focused on breeding, molecular genetics, and crop improvement. His long-term objective is to contribute to developing climate-resilient and nutrient-rich crops that address the evolving challenges of agriculture in the 21st century.

Research Skills

Zain Abbas possesses a comprehensive set of research skills that span both laboratory and field-based methodologies in agricultural science. He is highly proficient in plant tissue culture, with expertise in media preparation, culture maintenance, and micropropagation of various crops such as quinoa and mung bean. His work also includes genetic transformation, where he has gained experience in DNA extraction and polymerase chain reaction (PCR) techniques—essential for molecular biology studies. In his current role, he actively engages in experimental design, data collection, statistical analysis, and instrument handling, ensuring the generation of reliable and reproducible results. He is also skilled in protocol development, laboratory maintenance, and literature review, demonstrating strong capabilities in both scientific rigor and research organization. His involvement in transcriptomic analysis and nanoparticle application reflects advanced analytical thinking and an ability to work with emerging technologies in agronomy. Beyond technical skills, Zain is adept in scientific communication, having participated in academic conferences and presentations. His multilingual abilities and cross-cultural academic background further enhance his collaborative potential in international research environments. These research competencies form the backbone of his academic and professional success and position him well for continued research excellence.

Awards and Honors

Zain Abbas has earned several awards and honors that recognize both his academic achievements and extracurricular contributions. In 2024, he received a “Special Award” in the Second English Anchor Competition at the 15th Foreign Language Culture Festival of Anhui Science and Technology University, highlighting his effective communication skills. The same year, he also won second prize in the university’s fourth flower arrangement competition, reflecting his creative engagement in campus life. In 2023, he participated in the 11th International Student Cultural Activity in Anhui Province, enhancing cross-cultural academic exchange. His involvement in high-level academic events began early, including participation in the 2nd Sino-Pak International Conference and the 1st International Business Gala in 2018. During his undergraduate years, Zain was awarded a laptop under the Prime Minister’s Laptop Scheme in 2019 and received a solar lamp in 2016 as recognition for academic performance during intermediate education. He has also taken part in numerous innovation competitions such as Idea Fest, Peace Training, and DICE Agricultural and Food Science competitions, showcasing his creativity and problem-solving skills. These accolades reflect his active involvement in academia and beyond, confirming his all-rounded capabilities as a researcher and student leader.

Conclusion

In conclusion, Zain Abbas is a highly motivated and capable early-career researcher in the field of agronomy, with a strong foundation in plant breeding, nanotechnology applications, and molecular plant sciences. His research on magnesium oxide nanoparticles in maize is not only timely but also addresses critical issues related to crop productivity and climate resilience. With multiple research experiences, both in the lab and field, Zain has developed a well-rounded skill set that includes experimental design, molecular analysis, and scientific communication. His education from both Pakistan and China provides him with a global outlook, and his active participation in academic and cultural activities further showcases his versatility. While still at the M.Phil. level, his contributions already demonstrate strong research potential, making him a suitable candidate for future doctoral studies and collaborative projects in agricultural R&D. The breadth of his research interests—from transcriptomics to crop breeding—underscores his commitment to innovative and sustainable agriculture. His achievements, both academic and extracurricular, reflect a well-balanced individual poised to make meaningful contributions to global agricultural science. For these reasons, Zain Abbas is a strong nominee for the Best Researcher Award, particularly in categories recognizing research innovation, emerging scholars, and interdisciplinary agricultural research.

Publications Top Notes

  1. Antifungal Activity of Difenoconazole-Loaded Microcapsules against Curvularia lunata

📚 Journal: Journal of Fungi
📅 Year: 2024
🧪 Authors: Chang, Xiaoyu, Wang, Yuyan, Abbas, Zain, Yu, Haibing

Lan Hong | Biochemistry | Best Researcher Award

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Prof. Lan Hong | Biochemistry | Best Researcher Award

Professor at Yanbian University, China

Dr. Lan Hong, a Professor in the Department of Physiology and Pathophysiology at Yanbian University’s College of Medicine, has dedicated her career to advancing knowledge in cardiovascular physiology, with a specialized focus on cardiac protection mechanisms and stem cell therapy. With over 18 years of experience, Dr. Hong’s research addresses critical challenges in cardiovascular health, particularly in understanding and treating ischemia-reperfusion injuries and myocardial infarction. She has made substantial contributions to the field through high-impact publications, collaborative research initiatives, and conference presentations. As a recognized figure in her field, she has also served as a visiting scholar at Texas A&M University-Commerce, where she expanded her work on regenerative medicine, specifically focusing on cardiac-induced RNA and pluripotent stem cells. Dr. Hong’s research is well-cited, with an H-index of 10 and a citation count of over 300, reflecting her influence in cardiac physiology research. Her extensive involvement in academic conferences, journal reviews, and mentoring has bolstered her reputation as a leader in cardiovascular research. She is also recognized through multiple awards and invitations to present her research, which underscores her commitment to advancing the understanding and treatment of cardiovascular diseases.

Professional Profile

Education

Dr. Lan Hong’s educational journey is anchored in her commitment to understanding the intricacies of cardiovascular physiology. She earned her PhD in Physiology from Yanbian University in 2012, where she also completed her MSc in the same field in 2009. Prior to her postgraduate studies, she graduated with a degree in Clinical Medicine from Yanbian University in 2006, which laid the foundation for her subsequent research in cardiac health. Her academic path reflects a deep specialization in cardiac physiology, particularly in exploring protective mechanisms for the heart and developing innovative treatments for cardiovascular diseases. Throughout her education, Dr. Hong cultivated a robust theoretical and practical understanding of physiology, providing a strong foundation for her later research on myocardial infarction and stem cell therapy. Her scholarly background, coupled with hands-on experience in clinical medicine, has greatly enriched her approach to research, enabling her to bridge the gap between theoretical knowledge and clinical application in her ongoing studies.

Professional Experience

Dr. Lan Hong has built a distinguished career as a cardiovascular researcher, currently serving as a Professor at the College of Medicine at Yanbian University, where she has worked since 2013. She initially joined the university’s Department of Physiology and Pathophysiology as an Assistant Professor, where her research began to focus on ischemia-reperfusion injury and cardiac fibrosis mechanisms. Her career includes international experience as a visiting scholar and postdoctoral researcher at Texas A&M University-Commerce from 2017 to 2018. During her tenure there, she collaborated on groundbreaking work using cardiac-inducing RNA and stem cell technology for post-infarction heart repair. Dr. Hong’s role as an educator and mentor is integral to her professional experience, as she has supervised graduate students, organized research conferences, and contributed as a reviewer for respected journals. Her professional trajectory reflects a consistent dedication to advancing cardiovascular health and supporting academic development in her field, cementing her reputation as a respected academic and researcher in cardiovascular physiology.

Research Interests

Dr. Lan Hong’s research interests center on cardiovascular physiology, with a particular emphasis on mechanisms of cardiac protection and regeneration. Her work seeks to address key challenges in treating myocardial infarction and mitigating ischemia-reperfusion injury. One of her primary research interests is exploring molecular pathways such as the Sirt1/Nrf2/ATF3/4 axis and the role of ferroptosis in cardiac injury. Additionally, Dr. Hong is committed to advancing stem cell therapy, specifically investigating the regenerative potential of induced pluripotent stem cells in cardiac repair. Her studies also delve into the role of long non-coding RNAs (lncRNAs) in modulating cellular responses to injury and in promoting cardiomyocyte regeneration. By targeting these cellular pathways, Dr. Hong aims to develop novel therapeutic approaches that offer improved outcomes for patients with cardiovascular conditions. Her research interests reflect a balanced approach that combines molecular biology, regenerative medicine, and clinical application, making significant strides in cardiovascular health advancements.

Research Skills

Dr. Lan Hong’s research skills are rooted in a robust knowledge of cardiovascular physiology, paired with technical expertise in cellular and molecular biology techniques. She is proficient in various lab methodologies essential to cardiac physiology research, including in vitro and in vivo models for studying ischemia-reperfusion injury and myocardial infarction. Dr. Hong’s work with stem cells, particularly induced pluripotent stem cells, requires advanced skills in cellular reprogramming and RNA-mediated gene expression techniques. Her proficiency extends to molecular techniques such as Western blotting, immunohistochemistry, and real-time PCR, which she utilizes to investigate gene expression patterns and protein signaling in cardiac tissues. Her ability to perform complex experimental procedures, analyze data critically, and interpret results within the context of cardiovascular health has made her research impactful and well-regarded. Dr. Hong’s research skills are complemented by her collaborative approach, which has facilitated cross-disciplinary studies and allowed her to mentor students effectively, contributing to the next generation of cardiovascular researchers.

Awards and Honors

Throughout her career, Dr. Lan Hong has received recognition for her contributions to cardiovascular research. Her work has earned her multiple awards, reflecting her expertise and influence in cardiac physiology. She has been invited to present her findings at national and international conferences, showcasing her research on ischemia-reperfusion injury and stem cell therapy. Her role as an invited speaker demonstrates the high regard in which her peers hold her work and highlights her contributions to advancing cardiovascular health. Additionally, Dr. Hong’s editorial and peer-review roles for respected journals underscore her commitment to maintaining rigorous standards in scientific research and her influence in the academic community. Her research achievements, high-impact publications, and the positive impact of her mentorship have solidified her standing as a leader in cardiovascular physiology. Her recognition through these awards and honors underscores her dedication to her field and highlights her impact on the scientific understanding of cardiac health and disease.

Conclusion

Lan Hong’s extensive research and contributions in cardiovascular physiology, along with her impactful publications, make her a strong candidate for the Best Researcher Award. Her international experience, academic achievements, and innovative work in cardiac protection mechanisms are commendable. Addressing minor gaps in industry collaboration and expanding her professional presence may further strengthen her profile for future recognitions. Overall, her dedication to advancing cardiovascular health and her achievements make her highly deserving of the award.

Publications Top Notes

  1. Synthesis and antibacterial evaluation of rhodanine-based 5-aryloxy pyrazoles against selected methicillin-resistant and quinolone-resistant Staphylococcus aureus (MRSA and QRSA)”
    Authors: MX Song, CJ Zheng, XQ Deng, LP Sun, Y Wu, L Hong, YJ Li, Y Liu, …
    Journal: European Journal of Medicinal Chemistry, 60, 376-385
    Year: 2013
    Citations: 57
  2. “MAPK and PI3K pathways regulate hypoxia-induced atrial natriuretic peptide secretion by controlling HIF-1 alpha expression in beating rabbit atria”
    Authors: Q Zhang, B Cui, H Li, P Li, L Hong, L Liu, D Ding, X Cui
    Journal: Biochemical and Biophysical Research Communications, 438 (3), 507-512
    Year: 2013
    Citations: 38
  3. “Atrial natriuretic peptide prevents the mitochondrial permeability transition pore opening by inactivating glycogen synthase kinase 3β via PKG and PI3K in cardiac H9c2 cells”
    Authors: L Hong, J Xi, Y Zhang, W Tian, J Xu, X Cui, Z Xu
    Journal: European Journal of Pharmacology, 695 (1-3), 13-19
    Year: 2012
    Citations: 37
  4. “Synthesis and biological evaluation of 5-aryloxypyrazole derivatives bearing a rhodanine-3-aromatic acid as potential antimicrobial agents”
    Authors: CJ Zheng, MX Song, LP Sun, Y Wu, L Hong, HR Piao
    Journal: Bioorganic & Medicinal Chemistry Letters, 22 (23), 7024-7028
    Year: 2012
    Citations: 35
  5. “Synthesis and positive inotropic activity of N-(4, 5-dihydro-[1, 2, 4] triazolo [4, 3-a] quinolin-7-yl)-2-(piperazin-1-yl) acetamide derivatives”
    Authors: CB Zhang, X Cui, L Hong, ZS Quan, HR Piao
    Journal: Bioorganic & Medicinal Chemistry Letters, 18 (16), 4606-4609
    Year: 2008
    Citations: 26
  6. “Adenosine A2 receptor activation ameliorates mitochondrial oxidative stress upon reperfusion through the posttranslational modification of NDUFV2 subunit of complex I in the heart”
    Authors: J Xu, X Bian, Y Liu, L Hong, T Teng, Y Sun, Z Xu
    Journal: Free Radical Biology and Medicine, 106, 208-218
    Year: 2017
    Citations: 22
  7. “Ethanol attenuates sensory stimulus-evoked responses in cerebellar granule cells via activation of GABAA receptors in vivo in mice”
    Authors: G Wu, H Liu, J Jin, L Hong, Y Lan, CP Chu, DL Qiu
    Journal: Neuroscience Letters, 561, 107-111
    Year: 2014
    Citations: 19
  8. “Ouabain stimulates atrial natriuretic peptide secretion via the endothelin-1/ETB receptor-mediated pathway in beating rabbit atria”
    Authors: L Liu, L Hong, L Yu, H Li, D Ding, S Jin, X Cui
    Journal: Life Sciences, 90 (19-20), 793-798
    Year: 2012
    Citations: 16
  9. “Cathepsins in the extracellular space: Focusing on non-lysosomal proteolytic functions with clinical implications”
    Authors: H Wang, A Inoue, Y Lei, H Wu, L Hong, XW Cheng
    Journal: Cellular Signalling, 103, 110531
    Year: 2023
    Citations: 13

 

Dr. Florence Back | Biochemistry | Best Researcher Award

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Dr. Florence Back | Biochemistry | Best Researcher Award

Doctorate at University of Lille, France

Florence Back is a distinguished biomaterials scientist and researcher specializing in bioadhesive and smart wound-healing technologies. Based in Strasbourg, France, she has made significant strides in developing innovative materials for medical applications, including hydrogels and electronic patches for therapeutic uses. Florence’s work is underpinned by advanced training in in vivo procedures and applied chemistry, making her well-versed in both the laboratory synthesis of biomaterials and preclinical surgical applications. Her research has been published in reputable journals, highlighting her commitment to advancing the fields of bioengineering and regenerative medicine. Florence’s research integrates expertise across biology, chemistry, and physics, emphasizing both material functionality and patient-centered applications. She has been involved in collaborative research at prestigious institutions, including CNRS Lille and UC Louvain, and is actively expanding her interdisciplinary contributions to wound care, tissue repair, and bioengineering.

Professional Profile

Education

Florence holds a Ph.D. in Biomaterials from UNISTRA Strasbourg, completed in 2022, where she focused on the synthesis and development of bioadhesives based on gelatin and catechol. This work involved extensive research into the formulation, spectroscopic characterization, and rheological analysis of these bioadhesives. Her doctoral studies were preceded by two specialized master’s degrees, both from UNISTRA Strasbourg, in supramolecular and macromolecular chemistry, completed in 2020 and 2019, respectively. Florence’s master’s education covered advanced techniques in organic and polymer synthesis, including the creation of fluorescent molecules and polymers with unique biochemical properties. Her academic journey includes a series of certifications in in vivo procedures from CNRS Lille, where she developed critical surgical skills required for research involving animal models. Florence’s education has been integral in building her comprehensive understanding of biomaterials and in vivo applications, positioning her as a skilled researcher in medical and chemical sciences.

Professional Experience

Florence’s professional experience includes postdoctoral research and engineering roles focused on advancing biomaterial applications in medicine. Currently, she is a postdoctoral researcher at UC Louvain in Belgium, working on the AI-SWEEP-2 project, which involves the synthesis of electronic patches for smart bandages intended for human use. Prior to this, she served as a biomaterials engineer at CNRS Lille, where she contributed to the ANR Gskin project, focusing on synthesizing and characterizing hydrogels doped with extracellular vesicles for diabetic wound healing. From 2020 to 2022, during her Ph.D. at the Dental Faculty of Strasbourg, Florence specialized in the synthesis of bioadhesives based on gelatin and catechol, marking the beginning of her notable contributions to biomaterials science. These roles have allowed her to develop an integrated approach to material synthesis, characterization, and biological application, emphasizing her commitment to innovation in therapeutic and regenerative materials.

Research Interests

Florence’s research interests center on biomaterials, bioadhesives, and smart wound-healing technologies. Her primary focus is the development and synthesis of bioadhesive hydrogels, which hold promise in tissue repair and regenerative medicine. Additionally, her work extends to smart bandages, integrating electronic patches for wound monitoring and therapeutic delivery, aimed at improving patient outcomes in wound care. She is also interested in the extraction and application of extracellular vesicles in biomaterials, with specific attention to their role in promoting cellular viability and tissue regeneration. Florence’s research leverages a multidisciplinary approach, combining chemistry, biology, and materials science to create innovative solutions that bridge the gap between synthetic materials and biological functions. Her commitment to research that addresses clinical challenges underscores her dedication to advancing biomaterials for direct medical applications.

Research Skills

Florence’s research skills encompass a wide range of laboratory and analytical techniques, particularly in chemistry, biology, and materials science. She is proficient in organic and polymer synthesis, including gel formulation and the development of bioadhesive materials from gelatin, chitosan, and silk hydrogels. Her technical skills include chromatography, spectroscopy (NMR, IR, UV-Vis), and nanoparticle tracking analysis, which she applies in the characterization of synthesized materials. Florence is also skilled in in vivo procedures, certified for surgeries and techniques on various animal models, such as vascular catheterization, cerebral ischemia, and renal grafting. Additionally, her experience extends to cell culture, viability testing, and supervising research protocols. Florence’s ability to conduct comprehensive material characterization combined with her surgical training in vivo highlights her versatility and readiness to bridge laboratory research with applied medical sciences.

Awards and Honors

Florence has achieved various recognitions that reflect her dedication to research excellence in biomaterials. Her doctoral research at UNISTRA Strasbourg earned her acclaim for creating bioadhesive formulations with potential applications in tissue engineering and wound care. Her work has been published in notable journals, including Frontiers in Materials and Gels, indicating her research’s value to the academic and clinical communities. Florence’s role in collaborative projects, such as the ANR Gskin and AI-SWEEP-2, highlights her contributions to interdisciplinary research initiatives aimed at developing innovative therapeutic technologies. Additionally, her certifications in in vivo procedures from CNRS Lille are a testament to her commitment to ethical and skillful research practices. Florence’s career trajectory, marked by research achievements and collaborative contributions, positions her as a promising candidate for awards in scientific innovation and applied biomaterials.

Conclusion

Florence Back demonstrates strong candidacy for a “Best Researcher Award” due to her advanced technical skills in biomaterials, substantial in vivo training, and impactful research in bioadhesives and smart bandage technologies. By addressing minor language skills and pursuing independent research initiatives, she could amplify her contributions and influence in the field.

Publication Top Notes

  1. Optimization of the Elasticity and Adhesion of Catechol- or Dopamine-Loaded Gelatin Gels under Oxidative Conditions
    • Authors: F. Back, E. Mathieu, C. Betscha, Y. Arntz, V. Ball
    • Journal: Gels
    • Year: 2022
    • Volume & Issue: 8(4), Article 210
    • Citations: 7
    • Open Access: Yes
  2. Influence of the NaIO₄ Concentration on the Gelation and the Adhesive Strength of Pyrocatechol/Pyrogallol Containing Gelatin Hydrogels
    • Authors: F. Back, V. Ball, Y. Arntz
    • Journal: Frontiers in Materials
    • Year: 2021
    • Volume & Article: 8, Article 671451
    • Citations: 4
    • Open Access: Yes

 

 

CANAN AKÜNAL | Clinical Biochemistry | Best Researcher Award

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Assoc Prof Dr. CANAN AKÜNAL | Clinical Biochemistry | Best Researcher Award

NEUROLOGY DEPARTMENT LECTURER, ASSOCIATE PROFESSOR at Bolu Abant Izzet Baysal University,Department of Neurology, Faculty of Medicine, Turkey

Dr. Canan Akünal Türel is an Associate Professor in the Department of Neurology at Bolu Abant İzzet Baysal University. She earned her Bachelor’s Degree from Ankara University and completed her specialization at the University of Health Sciences. Her research focuses on neurodegenerative diseases, epilepsy, and the impact of various pharmacological agents on neurological conditions. Dr. Türel has led several national and TÜBİTAK-supported projects investigating the effects of drugs and biomarkers in neurological disorders, including epilepsy and Alzheimer’s disease. She has published extensively in international journals, contributing valuable insights into the electrophysiological and anti-inflammatory effects of different compounds. Her work includes evaluating the role of inflammation and neuroinflammatory biomarkers in various neurological conditions. Additionally, Dr. Türel actively participates in teaching and mentoring students in neurology and related fields. Her dedication to advancing understanding in neurology and her impactful research make her a strong candidate for the Research for Best Researcher Award.

Profile

Education

Dr. Canan Akünal Türel holds an extensive educational background in the field of medicine and neurology. She completed her Bachelor’s Degree at Ankara University, Faculty of Medicine, in June 2005. Following this, she pursued her specialization in Medicine at the University of Health Sciences, Ankara Diskapi Yıldırım Beyazıt Health Research Center, earning her degree on December 28, 2011. Her specialization thesis focused on “Comparing Swallowing Function Disorders in Acute Stroke with Bedside Tests and Electrophysiological Data,” supervised by Bilge Koçer and S. Semih Çomoğlu. Dr. Türel further advanced her expertise through her role as an Associate Professor at Bolu Abant İzzet Baysal University, where she has contributed significantly to the field of neurology. Her academic journey reflects a deep commitment to advancing knowledge in neurology and stroke research.

Professional Experience

Dr. Canan Akünal Türel is an Associate Professor in the Department of Neurology at Bolu Abant İzzet Baysal University, where she has significantly contributed to the field of neurology since August 2018. Her academic journey began with a bachelor’s degree in medicine from Ankara University in 2005, followed by a specialization in medicine at the University of Health Sciences in 2011. She has since supervised numerous theses and engaged in a range of research projects, including studies on epilepsy models and neuroinflammatory biomarkers. Dr. Türel has been involved in national scientific projects and has published extensively in international journals. Her professional roles also include participation in various scientific organizations and teaching courses related to neurological disorders and treatments. Her research interests include epilepsy, neurodegenerative diseases, and the impact of neuroinflammation.

Research Interest

Dr. Canan Akünal Türel is an Associate Professor specializing in neurology with a focus on stroke, epilepsy, and neurodegenerative diseases. Her research explores the electrophysiological and anti-inflammatory effects of various pharmacological agents in experimental models, particularly related to epilepsy and Alzheimer’s disease. Dr. Türel’s work includes investigating the impact of cyclooxygenase inhibition on epileptiform activity, the role of oleanolic acid in seizures, and the effects of novel compounds like esculetin and daidzein on epilepsy. Additionally, her studies delve into the neuroinflammatory biomarkers in acute and chronic neuropathies and the pathophysiological role of infections in neurodegenerative conditions. Dr. Türel also examines the clinical and electrophysiological evaluations in neurological disorders, contributing valuable insights into treatment strategies and disease mechanisms. Her multidisciplinary approach aims to advance the understanding and management of complex neurological conditions through innovative research methodologies.

Research Skills

Dr. Canan Akünal Türel possesses a robust set of research skills underscoring her expertise in neurology and related fields. Her proficiency encompasses both theoretical and practical aspects of medical research. She is adept at conducting complex studies on neurodegenerative diseases, epileptic disorders, and the pharmacological effects of various compounds. Dr. Türel’s research involves advanced techniques such as electrophysiological measurements and inflammatory biomarker analyses. Her work includes supervising doctoral research and managing multiple national and international research projects, reflecting her strong project management and leadership abilities. Dr. Türel has also demonstrated skill in publishing high-impact articles in reputable journals, presenting her findings at scientific conferences, and contributing to academic books. Her comprehensive understanding of neurological diseases and experimental models, combined with her methodological expertise, makes her a significant contributor to her field.

Award and Recognition

Dr. Canan Akünal Türel is an esteemed Associate Professor at Abant İzzet Baysal University, recognized for her significant contributions to neurology and neurophysiology. Her work has been prominently featured in high-impact international journals, including the International Journal of Environmental Health Research and Physiological Reports. Dr. Türel’s research focuses on the electrophysiological and anti-inflammatory effects of various treatments for neurological disorders, such as epilepsy and Alzheimer’s disease. She has received acclaim for her leadership in national scientific projects, notably her roles in investigating the effects of different compounds in experimental epilepsy models and exploring neuroinflammatory biomarkers in neuropathies. Her achievements are further highlighted by her active membership in prestigious scientific organizations and her contributions to national and international conferences. Dr. Türel’s dedication and expertise have established her as a leading figure in her field, making her a deserving candidate for recognition in research excellence.

Conclusion

Dr. Canan Akünal Türel is a strong candidate for the “Best Researcher Award” due to her extensive research experience, significant publication record, and active involvement in academic projects and supervision. Her contributions to neurology, particularly in understanding and treating neurological disorders, are commendable. Addressing areas such as increasing international collaboration and enhancing research visibility could further strengthen her candidacy and impact in the field.

Publications Top Notes

  1. Electrophysiologic and Anti-Inflammatorial Effects of Cyclooxygenase Inhibition in Epileptiform Activity
    • Authors: Akunal Türel, C.; Çelik, H.; Çetinkaya, A.; Türel, İ.
    • Year: 2023
    • Journal: Physiological Reports
    • Volume: 11
    • Issue: 17
    • Article Number: e15800
  2. Oleanolic Acid Suppresses Pentylenetetrazole-Induced Seizure in Vivo
    • Authors: Akünal Türel, C.; Yunusoğlu, O.
    • Year: 2023
    • Journal: International Journal of Environmental Health Research
    • Volume: 33
    • Issue: 5
    • Pages: 529–540
    • Citations: 7
  3. Investigation of the Pharmacological Potential of Myricetin on Alcohol Addiction in Mice
    • Authors: Yunusoğlu, O.; Shahzadi, A.; Akünal Türel, C.; Berköz, M.; Akkan, A.G.
    • Year: 2022
    • Journal: Journal of Research in Pharmacy
    • Volume: 26
    • Issue: 4
    • Pages: 722–733
    • Citations: 3
  4. Evaluation of the Relationship Between Oral Health, Chewing Ability, and Degree of Disease in Alzheimer-Type Dementia Patients
    • Authors: Değirmenci, K.; Akünal Turel, C.
    • Year: 2021
    • Journal: Turk Geriatri Dergisi
    • Volume: 24
    • Issue: 4
    • Pages: 534–545

 

Azadeh Hekmat | Biochemical- Biophysics | Best Researcher Award

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Dr. Azadeh Hekmat | Biochemical- Biophysics | Best Researcher Award

Professor at Science and Research Institute, Iran

Azadeh Hekmat is an accomplished Assistant Professor at Islamic Azad University, Tehran, specializing in biophysics with a focus on apoptosis, biomaterials, drug delivery, and nanotechnology. She earned her Ph.D. from the University of Tehran, where she investigated the effects of nanoparticles and doxorubicin on DNA and cancer cell apoptosis. Her postdoctoral work further explored biophysics applications. With a distinguished academic record, including top rankings in her M.Sc. and Ph.D. programs, she has published extensively in peer-reviewed journals and authored significant books on biophysics and spectroscopy. Hekmat’s expertise spans various laboratory techniques such as spectroscopy, cell culture, and molecular biology. She has received numerous awards, including Best Graduate Student and Best Teacher. Her professional memberships include the Biophysical Society and the Iranian Association for Plant Cell and Tissue Culture. Hekmat is recognized for her contributions to both fundamental and applied biophysics research.

Profile

Education

Azadeh Hekmat earned her Ph.D. in Biophysics from the Institute of Biochemistry and Biophysics, University of Tehran, Iran, between 2008 and 2013. Her doctoral dissertation, titled “The Synergistic Effects of Silver and Titanium Dioxide Nanoparticles and Doxorubicin on DNA Structure and Induction of Apoptosis in Breast Cancer Cell Lines: T47D and MCF7,” was awarded an excellent grade. She achieved the highest GPA in her cohort with a perfect 4.0/4.0. Prior to her Ph.D., Hekmat completed her M.Sc. in Biophysics at the same institute from 2005 to 2008, where her thesis focused on “The Effects of Temperature and pH on the Function and Structure of Choline Oxidase,” and she also graduated at the top of her class with a GPA of 3.8/4.0. Her foundational education includes a B.Sc. in Biology from Alzahra University, Tehran, completed in 2005.

Professional Experience

Azadeh Hekmat has built a distinguished career in biophysics and related fields, currently serving as an Assistant Professor at Islamic Azad University’s Science and Research Branch in Tehran since 2014. Prior to this role, she completed a postdoctoral fellowship in Biophysics at the University of Tehran from 2013 to 2014. Her academic journey began with a Ph.D. in Biophysics from the Institute of Biochemistry and Biophysics at the University of Tehran, where she specialized in the effects of nanoparticles on DNA and cancer cell apoptosis. Hekmat’s research and teaching experience is complemented by her role as the executive secretary for the 1st conference of Nano from synthesis to industry in 2016 and her leadership as Head of the Committee on Education and Research for the Iranian Association for Plant Cell and Tissue Culture from 2017 to 2024. Her expertise spans apoptosis, nanotechnology, and drug delivery systems.

Research Interest

Azadeh Hekmat’s research interests span a range of topics at the intersection of biophysics, nanotechnology, and molecular biology. Her work primarily focuses on understanding the mechanisms of apoptosis and the effects of bioelectromagnetics on cellular processes. She explores drug delivery systems, particularly the interactions between drugs and biomacromolecules, aiming to improve chemotherapy outcomes. Hekmat’s research also delves into the biological effects of microgravity, multidrug resistance, and nanotechnology. Her expertise extends to molecular dynamic simulations and stem cell bioengineering. Additionally, she investigates the structural and functional impacts of nanoparticles, such as silver and titanium dioxide, on DNA and cell lines. Through her studies, she seeks to advance the development of innovative therapeutic strategies and enhance our understanding of the molecular dynamics underlying cellular and biochemical processes.

Research Skills

Azadeh Hekmat possesses a robust set of research skills that underscore her expertise in biophysics and biochemistry. Her proficiency spans a wide array of techniques including spectroscopic methods such as UV-Visible, Fluorescence, FT-IR, and Circular Dichroism (CD) spectroscopy, as well as Dynamic Light Scattering (DLS). She is adept at Differential Scanning Calorimetry (DSC) and Isothermal Titration Calorimetry (ITC), crucial for studying molecular interactions and thermal properties. Hekmat’s experience in cell culture techniques includes Flow Cytometry, Fluorescence Microscopy, Electron Microscopy, Optical Microscopy, and MTT Assays, which are essential for evaluating cellular responses and drug effects. Her skills also extend to molecular biology methods like PCR and ELISA. This diverse expertise supports her research into apoptosis, drug delivery, nanotechnology, and microgravity biological effects, highlighting her capability to address complex biological and chemical phenomena.

Award and Recognition

Azadeh Hekmat has earned significant recognition throughout her career, reflecting her outstanding contributions to the field of biophysics. She was ranked 1st among her Ph.D. graduates and also received the Best Graduate Student Award from the University of Tehran in 2009. In 2010, she was honored with the Best Teacher Award at Islamic Azad University. Her academic achievements are highlighted by her top-ranked performance in both her M.Sc. and Ph.D. programs, where she excelled in coursework and research. Additionally, her contributions to the scientific community are evidenced by her influential research publications and her role as an executive secretary for significant conferences. These accolades underscore her dedication to advancing biophysics and her impact on both academic and professional circles.

Conclusion

Azadeh Hekmat is a highly deserving candidate for the Research for Best Researcher Award due to her exemplary academic achievements, innovative research, extensive publication record, and recognized contributions to her field. Addressing the areas for improvement could enhance her already impressive profile, potentially leading to even greater advancements in biophysics and related disciplines.

Publication Top Notes

  • Title: A Review on Interaction of Nanomaterials of Group-XIV (G14) Elements of the Periodic Table with Proteins and DNA: Applications in Biotechnology and Pharmacy
    • Authors: Hekmat, A., Haertlé, T., Leblanc, R.M., Khan, R.H., Saboury, A.A.
    • Year: 2024
    • Journal: BioNanoScience
    • Volume: 14
    • Issue: 2
    • Pages: 1978–2003
  • Title: Alteration in the Callogenesis, Tropane Alkaloid Formation, and Gene Expression in Hyoscyamus niger under Clinorotation
    • Authors: Pourhabibian, S., Iranbakhsh, A., Ebadi, M., Hassanpour, H., Hekmat, A.
    • Year: 2024
    • Journal: Protoplasma
    • Volume: 261
    • Issue: 2
    • Pages: 293–302
    • Citations: 2
  • Title: Synthesis of Carbon Quantum Dots from Trigonella foenum-graecum L Seeds and Their Biodistribution in Mice as an Inorganic Isotope Label
    • Authors: Rezaei, M., Hekmat, A., Chamani, J., Sadri, K., Darroudi, M.
    • Year: 2024
    • Journal: Inorganic Chemistry Communications
    • Volume: 160
    • Article Number: 111937
    • Citations: 4
  • Title: Synthesis and Characterization of Zinc Oxide-Chitosan Nanocomposite for Targeted Drug Delivery to the Colon
    • Authors: Ghalee-taki, G.N., Rastegari, A.A., Hekmat, A., Rezaee, M.
    • Year: 2024
    • Journal: BioNanoScience
  • Title: Synergistic Antibacterial Effect of the Pistachio Green Hull Extract-Loaded Porphysome Decorated with 4-Nitroimidazole Against Bacteria
    • Authors: Mahafel, N., Vaezi, Z., Barzegar, M., Hekmat, A., Naderi-Manesh, H.
    • Year: 2024
    • Journal: Journal of Liposome Research
    • Volume: 34
    • Issue: 3
    • Pages: 475–488
  • Title: Grafting of Sinapic Acid onto Glucosamine Nanoparticle as a Potential Therapeutic Drug with Enhanced Anti-Inflammatory Activities in Osteoarthritis Treatment
    • Authors: Tajik, E., Vaezi, Z., Tabarsa, M., Hekmat, A., Naderi-Manesh, H.
    • Year: 2023
    • Journal: International Journal of Biological Macromolecules
    • Volume: 253
    • Article Number: 127454
    • Citations: 3
  • Title: Chromone-Embedded Peptidomimetics and Furopyrimidines as Highly Potent SARS-CoV-2 Infection Inhibitors: Docking and MD Simulation Study
    • Authors: Shakibay Senobari, Z., Masoumian Hosseini, M., Teimouri, M.B., Samarghandian, S., Hekmat, A.
    • Year: 2023
    • Journal: BMC Research Notes
    • Volume: 16
    • Issue: 1
    • Article Number: 224
    • Citations: 6
  • Title: Simulated Microgravity Improved Secondary Metabolism in Physalis alkekengi via Influencing Gene Expression and DNA Methylation in a Light Quality-Dependent Manner
    • Authors: Alani, F., Iranbakhsh, A., Ebadi, M., Hassanpour, H., Hekmat, A.
    • Year: 2023
    • Journal: Acta Physiologiae Plantarum
    • Volume: 45
    • Issue: 11
    • Article Number: 129
  • Title: Superoxide Dismutases Inhibitors
    • Authors: Hekmat, A., Saboury, A.A., Saso, L.
    • Year: 2023
    • Book: Metalloenzymes: From Bench to Bedside
    • Pages: 523–531
  • Title: Antiproliferative Effects of Palm Oil in the Presence of Photobiomodulation Against K562 Cancer Cells
    • Authors: Hekmat, A., Bahar, K.F., Hajebrahimi, Z.
    • Year: 2023
    • Journal: Journal of Oil Palm Research
    • Volume: 35
    • Issue: 3
    • Pages: 426–436

 

Mohammad Sadegh Hashemzadeh | Biochemistry |Best Researcher Award

Posted on by Shen Awards

Assist Prof Dr. Mohammad Sadegh Hashemzadeh | Biochemistry |Best Researcher Award

AssistProfessor at Nanobiotechnology Research Center, Baqiyatallah University of Medical Sciences, Tehran, Iran

Dr. Mohammad Sadegh Hashemzadeh is an accomplished Assistant Professor at Baqiyatallah University of Medical Sciences, specializing in Medical and Nano Biotechnology. He holds a Ph.D. in Nano Biotechnology, with a focus on recombinant protein production for therapeutic applications, including cell therapy for rheumatoid arthritis. Dr. Hashemzadeh has received numerous accolades, including top ranks in his B.Sc., M.Sc., and Ph.D. studies, and has published extensively in reputable journals on topics such as nanotechnology, viral protein production, and cancer treatment. His research expertise spans molecular genetics, genetic engineering, and the development of novel diagnostic methods for biological threats. Dr. Hashemzadeh’s contributions to the field are recognized internationally, making him a prominent figure in biotechnology research, particularly in Iran. His work bridges the gap between cutting-edge biotechnology and practical medical applications, reflecting his dedication to advancing health sciences.

Profile

Education

Dr. Mohammad Sadegh Hashemzadeh boasts an exemplary educational background in biotechnology and medical sciences. He began his academic journey with a Bachelor of Science (B.Sc.) degree, graduating with top honors and consistently ranking first among his peers. Driven by his passion for advanced research, Dr. Hashemzadeh pursued a Master of Science (M.Sc.) degree, where he continued to excel academically and was recognized for his outstanding performance. He then attained his Ph.D. in Nano Biotechnology from Baqiyatallah University of Medical Sciences, a prestigious institution in Iran, where he focused on recombinant protein expression and the application of nanotechnology in medical diagnostics. Following his doctoral studies, Dr. Hashemzadeh undertook postdoctoral research at the Pasteur Institute of Iran, specializing in innovative cell therapy techniques for rheumatoid arthritis. Throughout his education, he has received numerous accolades, including the first prize at the 15th International Congress of Microbiology, underscoring his dedication and excellence in the field. His comprehensive education has provided him with a solid foundation in molecular genetics, genetic engineering, and cutting-edge biotechnological methodologies.

Professional Experience

Dr. Mohammad Sadegh Hashemzadeh is an accomplished Assistant Professor at Baqiyatallah University of Medical Sciences, Tehran, Iran, with a strong background in Medical and Nano Biotechnology. His expertise spans molecular genetics, genetic engineering, and cell culture, focusing on producing recombinant proteins for therapeutic applications. Dr. Hashemzadeh’s research interests include cell therapy for rheumatoid arthritis, recombinant protein production, and viral vector engineering. He has completed a Post-Doc in cell therapy of inflammatory diseases and has been involved in various research projects, including the construction of recombinant viruses and the development of viral-like particles (VLPs) for potential therapeutic use. In addition to his research contributions, Dr. Hashemzadeh is an experienced educator, having taught courses in genetics, immunology, and nanotechnology at both undergraduate and postgraduate levels. His professional achievements are further underscored by his numerous publications in high-impact journals and his recognition through several awards and honors.

Research Interest

Dr. Mohammad Sadegh Hashemzadeh’s research interests primarily focus on the intersection of medical biotechnology and nano-biotechnology. His work spans the development of advanced therapeutic applications, particularly in molecular genetics, genetic engineering, and cell therapy for inflammatory diseases like rheumatoid arthritis. He is deeply engaged in the production of recombinant proteins, utilizing cell culture techniques to develop viral vectors and virus-like particles (VLPs) for potential cancer treatments and vaccine development. His research also includes exploring the role of peptide nucleic acids (PNAs) in detecting and treating diseases caused by biological threat agents. Additionally, Dr. Hashemzadeh investigates the application of oncolytic viruses in cancer therapy and the development of novel diagnostic methods using nanotechnology. His work is aimed at translating cutting-edge biotechnological advancements into practical solutions for complex medical challenges, contributing to the fields of virology, immunology, and therapeutic protein production.

Research Skills

Dr. Mohammad Sadegh Hashemzadeh possesses a diverse and advanced skill set in the field of biotechnology and nanotechnology. His expertise encompasses molecular genetics, genetic engineering, and cell culture, with a focus on producing recombinant proteins for therapeutic applications. His research is distinguished by his proficiency in the development and application of viral vectors and protein-based vaccines, particularly in the context of cell therapy and vaccine production. Dr. Hashemzadeh has extensive experience in the expression, solubilization, and purification of recombinant proteins, utilizing techniques such as real-time PCR and nanotechnology for diagnostic and therapeutic purposes. His work involves the synthesis and characterization of nanomaterials and viral-like particles (VLPs), contributing to advancements in diagnostic methods and biological threat detection. His skills are supported by a robust publication record in international journals, reflecting his significant contributions to the fields of molecular biotechnology and medical research.

Award and Recognition

Dr. Mohammad Sadegh Hashemzadeh has garnered notable recognition for his exceptional contributions to the fields of biotechnology and nanotechnology. His academic journey is marked by distinguished achievements, including being first-ranked among his peers during his MSc and PhD studies, and receiving accolades such as the First Prize at the 15th International Congress of Microbiology in 2014. His innovative research has been published in prestigious journals, underscoring his influence in the scientific community. Dr. Hashemzadeh’s work on the development of recombinant proteins and viral protein vaccines, as well as his significant contributions to the understanding of biological threat agents through nanotechnology, has earned him commendation. His dedication to advancing medical biotechnology and his role in pioneering research in cell therapy and genetic engineering reflect his outstanding contributions and make him a deserving candidate for further recognition and awards.

Conclusion

Dr. Mohammad Sadegh Hashemzadeh is a highly qualified candidate for the Research for Best Researcher Award, with a solid academic foundation, a track record of excellence in research, and contributions to medical biotechnology and nanotechnology. His continuous pursuit of innovative research and dedication to teaching underscore his suitability for this award. However, to further strengthen his candidacy, increased focus on collaborative research, securing research funding, and enhancing the practical application of his work could be beneficial.

Publications Top Notes

  1. Zinc Oxide Nanoparticles and Cancer Chemotherapy: Helpful Tools for Enhancing Chemo-sensitivity and Reducing Side Effects?
    • Authors: Vaghari-Tabari, M., Jafari-Gharabaghlou, D., Mohammadi, M., Hashemzadeh, M.S.
    • Journal: Biological Trace Element Research
    • Year: 2024
    • Volume and Issue: 202(5), pp. 1878–1900
    • Citations: 3
  2. Therapeutic Effects of IL-1RA, M2 Cells, and Their Synergistic Impact on a Mouse Model of Rheumatoid Arthritis
    • Authors: Hashemzadeh, M.S., Ghaleh, H.E.G., Mohammadi, M., Rezaei, E., Alishiri, G.
    • Journal: Advanced Pharmaceutical Bulletin
    • Year: 2024
    • Volume and Issue: 14(2), pp. 483–495
    • Citations: 0
  3. Correction: Biosynthesis of a VLP-type nanocarrier specific to cancer cells using the BEVS expression system for targeted drug delivery (Journal of Genetic Engineering and Biotechnology, (2023), 21, 1, (20), 10.1186/s43141-023-00479-9)
    • Authors: Hashemzadeh, M.S., Gharari, N.
    • Journal: Journal of Genetic Engineering and Biotechnology
    • Year: 2023
    • Volume and Issue: 21(1), 40
    • Citations: 1
  4. Biosynthesis of a VLP-type nanocarrier specific to cancer cells using the BEVS expression system for targeted drug delivery
    • Authors: Hashemzadeh, M.S., Gharari, N.
    • Journal: Journal of Genetic Engineering and Biotechnology
    • Year: 2023
    • Volume and Issue: 21(1), 20
    • Citations: 3
  5. Utilization of Freeze-Thawing Method for High-level Expression of Functional Human Epidermal Growth Factor (hEGF)
    • Authors: Mohammadi, M., Ghanbari, S., Emamgholi, A., Hashemzadeh, M.S.
    • Journal: International Journal of Peptide Research and Therapeutics
    • Year: 2023
    • Volume and Issue: 29(3), 38
    • Citations: 1
  6. Utilization of SUMO Tag and Freeze-thawing Method for a High-level Expression and Solubilization of Recombinant Human Angiotensin-converting Enzyme 2 (rhACE2) Protein in E. coli
    • Authors: Mohammadi, M., Taheri, R.A., Bemani, P., Farnoosh, G., Amini, R.
    • Journal: Protein and Peptide Letters
    • Year: 2022
    • Volume and Issue: 29(7), pp. 605–610
    • Citations: 4
  7. Evaluation of the acute and 28-day sub-acute intravenous toxicity of α-l-guluronic acid (ALG; G2013) in mice
    • Authors: Mahdian-Shakib, A., Hashemzadeh, M.S., Anissian, A., Oraei, M., Mirshafiey, A.
    • Journal: Drug and Chemical Toxicology
    • Year: 2022
    • Volume and Issue: 45(1), pp. 151–160
    • Citations: 6
  8. The role of bacterial superantigens in the immune response: From biology to cancer treatment
    • Authors: Hashemzadeh, M.S., Tapeh, B.E.G., Mirhosseini, S.A.
    • Journal: Current Cancer Therapy Reviews
    • Year: 2021
    • Volume and Issue: 17(1), pp. 21–34
    • Citations: 1
  9. Expression, solubilization, refolding and final purification of recombinant proteins as expressed in the form of “classical inclusion bodies” in e. coli
    • Authors: Hashemzadeh, M.S., Mohammadi, M., Ghaleh, H.E.G., Choopani, A., Panda, A.K.
    • Journal: Protein and Peptide Letters
    • Year: 2021
    • Volume and Issue: 28(2), pp. 2–10
    • Citations: 16
  10. Detection of West Nile virus by real-time PCR in crows in northern provinces of Iran
    • Authors: Sharti, M., Amouakbari, M.J., Pourjabari, K., Omidifar, A., Dorostkar, R.
    • Journal: Journal of Vector Borne Diseases
    • Year: 2020
    • Volume and Issue: 57(1), pp. 37–39
    • Citations: 2