Veronika Bouskova | Molecular Biology | Best Researcher Award

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Dr. Veronika Bouskova | Molecular Biology | Best Researcher Award

Young scientist from Biomedical Centre in Pilsen, Czech Republic.

Dr. Veronika Boušková (née Brynychová) is a distinguished Czech researcher in the field of molecular biology and pharmacogenomics, with a particular focus on breast cancer biology and genetic variability. Her career combines academic research, laboratory-based investigation, and mentoring of young scientists. With a Ph.D. from the Third Faculty of Medicine at Charles University and over a decade of experience at premier research institutions like the Biomedical Center of the Faculty of Medicine in Pilsen and the National Institute of Public Health in Prague, she has established herself as a leading expert in transcriptomic analysis, caspase signaling, and the clinical implications of genetic variants in cancer prognosis and treatment. Dr. Boušková has authored or co-authored numerous articles published in high-impact journals and holds an impressive h-index of 13. Her research is notable for its integrative approach, combining molecular, cellular, and genetic data to better understand cancer progression and therapy resistance. She is also actively involved in academic education and mentoring, guiding the next generation of scientists. Her ability to conduct interdisciplinary research and her contributions to clinical and translational oncology make her a strong candidate for recognition through research awards.

Professional Profile

Education

Dr. Boušková has pursued a rigorous and interdisciplinary educational path rooted in biological sciences. She earned her Bachelor’s degree in Biology from the Faculty of Science at Charles University in 2008, followed by a Master’s degree in Biology, which she completed in 2010 through a collaborative program involving the Department of Anthropology and Human Genetics and the Institute of Archaeology at the Academy of Sciences. Her education culminated in a Ph.D. in Molecular and Cell Biology, Genetics, and Virology from the Third Faculty of Medicine, Charles University, which she pursued from 2010 to 2018. Her doctoral studies provided her with a comprehensive understanding of molecular and cellular mechanisms involved in human diseases, with a particular emphasis on cancer genetics and apoptosis. This strong educational foundation, grounded in both human genetics and molecular medicine, has enabled her to bridge basic scientific research with clinical applications. Additionally, Dr. Boušková’s involvement in interdisciplinary and international study programs reflects her commitment to continuous academic and professional growth, and has enriched her scientific perspective with cultural and methodological diversity.

Professional Experience

Dr. Boušková’s professional journey reflects her long-standing commitment to biomedical research and her evolving expertise in oncology-related molecular genetics. Since 2013, she has served as a Junior Researcher at the Biomedical Center, Faculty of Medicine in Pilsen, Charles University, where she works in the Laboratory of Pharmacogenomics. Simultaneously, she has maintained a research position at the National Institute of Public Health in Prague since 2010. Her work across both institutions focuses on investigating genetic variability, apoptosis-related genes, and microRNA expression in cancer patients, especially those with breast carcinoma. Between August 2019 and January 2022, she was on maternity leave, after which she resumed her scientific endeavors. Dr. Boušková has also been actively involved in teaching since 2015, conducting practical courses in biochemical laboratory techniques at the Faculty of Science, Charles University. She has mentored and consulted graduate students, contributing to their academic development and research projects. Her dual roles in research and education reflect a well-rounded professional profile combining laboratory excellence, mentorship, and scientific publication. Her sustained engagement in public health-oriented molecular research illustrates her commitment to improving healthcare outcomes through advanced biomedical science.

Research Interests

Dr. Veronika Boušková’s research interests center on the molecular and genetic mechanisms underlying cancer development and progression, with a particular emphasis on breast carcinoma. Her work delves into the regulation of apoptosis, the role of caspases and their isoforms, transcriptomic alterations, and microRNA expression profiles in tumor cells. She is especially interested in the pharmacogenomic implications of genetic variability, including single nucleotide polymorphisms and gene expression regulation that influence cancer prognosis and therapy response. Her integrative research also covers transcript and protein expression of genes involved in cell cycle control, epithelial-mesenchymal transition, and multidrug resistance. Additionally, Dr. Boušková has explored the impact of epigenetic modifications and miRNA-mediated gene regulation in breast cancer subtypes. Her interdisciplinary approach, combining molecular biology, genetics, pharmacology, and bioinformatics, contributes to identifying potential therapeutic targets and predictive biomarkers. She is committed to translational research, bridging laboratory findings with clinical practice to enhance personalized medicine strategies in oncology. Her recent publications reflect ongoing investigations into breast cancer microenvironment signaling, resistance mechanisms, and molecular diagnostics, demonstrating her ability to stay at the forefront of contemporary cancer research.

Research Skills

Dr. Boušková possesses a broad and advanced skill set in molecular biology and cancer genomics, honed over years of hands-on laboratory experience. Her research skills include gene expression analysis using RT-qPCR, microarray profiling, RNA sequencing, and high-resolution melting analysis. She is proficient in DNA/RNA extraction, reverse transcription, genotyping, and bioinformatics tools for analyzing transcriptomic and genomic datasets. Dr. Boušková is also skilled in cell culture techniques, protein expression studies, and functional assays relevant to apoptosis and cell signaling pathways. Her expertise extends to microRNA analysis and the use of pathway prediction software for understanding gene regulation networks. Moreover, she is well-versed in data interpretation, manuscript preparation, and collaborative research processes, contributing meaningfully to multidisciplinary teams. Her methodological rigor is evident from her contributions to over 25 peer-reviewed publications, many in high-impact journals. Additionally, she has experience in research project planning, laboratory management, and supervising student projects. Her continuous engagement with modern experimental technologies and analytical software ensures her research remains current and impactful. Her technical proficiency, analytical mindset, and collaborative approach make her a valuable contributor to complex research initiatives.

Awards and Honors

Dr. Boušková’s career includes several academic and research achievements, reflecting her dedication to high-quality scientific work. Notably, she was the recipient of a research grant from the Charles University Grant Agency (GAUK) from 2013 to 2015 for her project on the significance of apoptotic caspases and their splice variants in breast carcinoma. The project was successfully evaluated with all objectives fulfilled, highlighting her ability to manage and complete competitive research funding initiatives. Furthermore, she was awarded an internship opportunity in May 2014 at the National Research Institute of Chinese Medicine, under Dr. Yune-Fang Ueng’s laboratory, indicating her proactive pursuit of international research exposure. While there are no listings of specific awards such as national medals or society fellowships, her consistent record of high-impact publications, a strong citation index, and an h-index of 13 represent substantial academic honors in themselves. Her mentoring of graduate students and teaching contributions also reflect recognition within academic circles. Dr. Boušková’s recognition comes primarily through peer-reviewed scientific contributions and successful grant acquisitions, both of which underscore her qualifications for further accolades like the Best Researcher Award.

Conclusion

Dr. Veronika Boušková exemplifies the qualities of a top-tier biomedical researcher with a career marked by academic excellence, impactful research, and active mentorship. Her scientific focus on breast cancer genomics, microRNA regulation, and pharmacogenomics addresses some of the most pressing challenges in oncology today. With a strong publication record, an h-index of 13, and sustained research activity at reputable institutions, she has demonstrated not only productivity but also relevance and innovation in her field. Her interdisciplinary education and global research exposure further enhance her ability to navigate complex scientific questions. While expanding her international collaborations and taking on larger leadership roles in research consortia could elevate her profile further, her current contributions already reflect a researcher of significant merit and potential. Her dual commitment to research and education positions her as an influential figure within both academic and clinical research landscapes. In light of her qualifications, Dr. Boušková is highly deserving of recognition through awards such as the Best Researcher Award, which would not only honor her achievements but also support her future research endeavors aimed at improving cancer diagnosis and treatment.

Publications Top Notes

  1. Integrative analysis of mRNA and miRNA expression profiles and somatic variants in oxysterol signaling in early-stage luminal breast cancer
    Authors: Petr Holý, Veronika Brynychová, Karolína Šeborová, Vojtěch Haničinec, Renata Koževnikovová, Markéta Trnková, David Vrána, Jiří Gatěk, Kateřina Kopečková, Marcela Mrhalová, Pavel Souček, et al.
    Journal: Molecular Oncology
    Year: 2023
    Citations: 3
  2. Single Nucleotide Variants in KIF14 Gene May Have Prognostic Value in Breast Cancer
    Authors: Ivona Krus, Veronika Brynychová, Viktor Hlaváč, Radka Václavíková, Maria Kováčová, Renata Koževnikovová, Kateřina Kopečková, Jannis Tornikidis, David Vrána, Jiří Gatěk, Pavel Souček
    Journal: Molecular Diagnosis and Therapy
    Year: 2022
    Citations: 2

 

Nazneen Naher Islam | Molecular Biology | Best Researcher Award

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Prof. Dr. Nazneen Naher Islam | Molecular Biology | Best Researcher Award

Professor from Department of Genetic Engineering and Biotechnology, University of Chittagong, Bangladesh

Prof. Dr. Nazneen Naher Islam is an accomplished researcher and academic with a distinguished career in microbial genetics, genetic disorders, and molecular pathogenesis. She currently serves as Professor and Chairman of the Department of Genetic Engineering and Biotechnology at the University of Chittagong, Bangladesh. Her academic journey is marked by a strong international background, having completed her Ph.D. in Microbial Protein Engineering at Osaka City University, Japan. Dr. Islam’s work focuses extensively on genetic mutations, the molecular basis of diseases, microbial metabolite screening, and antibiotic resistance, which are highly relevant to public health concerns in Bangladesh and beyond. She has published numerous research articles in national and international journals and has contributed significantly to conference proceedings. Her leadership extends beyond research as she has successfully supervised 35 graduate students and actively teaches advanced courses in genetics and biotechnology. Dr. Islam has received several prestigious awards and scholarships throughout her academic career, reflecting her dedication and scientific excellence. Her professional affiliations with international and national microbiology and biotechnology societies further illustrate her active role in the scientific community. Prof. Dr. Nazneen Naher Islam’s academic contributions, research leadership, and dedication to mentoring the next generation of scientists make her a standout figure in her field.

Professional Profile

Education

Prof. Dr. Nazneen Naher Islam’s educational background showcases her progression through rigorous scientific training and specialization. She earned her Ph.D. in Microbial Protein Engineering from Osaka City University, Japan, between 2004 and 2008. Her doctoral research focused on the synthesis and degradation of acyl peptides by ATP and CoA-independent N-myristoyltransferase enzymes derived from Pseudomonas aeruginosa and Escherichia coli. This work laid the foundation for her later contributions to microbial genetics and biotechnology. Prior to her doctoral studies, Dr. Islam completed both her Bachelor of Science and Master of Science degrees in Botany at the University of Chittagong, Bangladesh. Her master’s research concentrated on microbial enzymes, where she graduated with First Class distinction. She completed her Higher Secondary Certificate and Secondary School Certificate from the Board of Intermediate and Secondary Education, Comilla, securing First Division results in both examinations. Her educational journey not only reflects academic excellence but also demonstrates her early commitment to the biological sciences. The blend of local and international education has uniquely positioned her to lead complex research projects that address both national health priorities and global scientific challenges.

Professional Experience

Prof. Dr. Nazneen Naher Islam has built an impressive professional career as a professor, researcher, and leader at the University of Chittagong, where she currently serves as Professor and Chairman of the Department of Genetic Engineering and Biotechnology. Over the years, she has gained extensive experience in leading multidisciplinary research teams and supervising graduate-level research. Her professional journey includes teaching specialized subjects such as microbial genetics, cytogenetics, pharmaceutical biotechnology, recombinant DNA technology, and industrial biotechnology. In addition to her academic roles, Dr. Islam has been involved in significant institutional responsibilities, including past service as a house tutor and member of the Teachers Association at Chittagong University. She has also worked as a reviewer for several national and international journals, ensuring the quality and rigor of scientific publications. Her research portfolio features numerous externally funded projects, particularly from the University Grants Commission of Bangladesh, where she has led studies on genetic mutations, microbial resistance, and public health microbiology. Throughout her career, she has demonstrated a strong commitment to advancing the fields of microbial genetics and public health while nurturing the academic growth of her students and contributing actively to the scientific community.

Research Interest

Prof. Dr. Nazneen Naher Islam’s research interests are deeply rooted in microbial genetics, genetic diseases, and the molecular mechanisms of disease development. She focuses on the prevalence and mutation spectrum of genetic disorders within the Bangladeshi population, including studies on beta-thalassemia and other inherited diseases. Dr. Islam is also passionate about exploring the molecular pathogenesis and genomics of genetic diseases, aiming to uncover the biological underpinnings that can lead to improved diagnostic and therapeutic strategies. Another significant area of her research involves the screening, molecular characterization, and industrial application of microbial secondary metabolites, which hold potential in the pharmaceutical and biotechnological industries. Her work also addresses pressing public health issues, such as antibiotic resistance, microbial contamination in food, and transmission of drug-resistant pathogens. She is particularly interested in the application of molecular biology techniques, such as PCR-based diagnostics, in improving disease detection and management. Dr. Islam’s research is both applied and translational, with a focus on generating solutions that are locally relevant and globally significant. Her wide-ranging interests enable her to contribute to the intersection of genetics, microbiology, and public health, making her research impactful on both scientific and societal levels.

Research Skills

Prof. Dr. Nazneen Naher Islam possesses a robust set of research skills that position her as a leading scientist in the fields of microbial genetics and biotechnology. She is highly proficient in molecular biology techniques, including PCR, RT-PCR, plasmid profiling, gene mutation analysis, and molecular characterization of microbes. Her expertise extends to the purification and biochemical characterization of enzymes, particularly microbial enzymes with potential industrial applications. Dr. Islam is also skilled in antimicrobial susceptibility testing, which is essential for monitoring drug resistance patterns. Her ability to conduct metagenomic studies and comparative analyses of gut microbiota further enhances her multidisciplinary research capabilities. She is well-versed in public health microbiology, particularly in the detection and molecular typing of foodborne and waterborne pathogens such as Salmonella typhi, Staphylococcus aureus, and Vibrio cholerae. Additionally, Dr. Islam’s experience in supervising graduate students has refined her project management, experimental design, and scientific communication skills. Her involvement in collaborative and independently funded research projects demonstrates her capacity for grant writing, research planning, and data analysis. Altogether, her comprehensive research skill set supports her ability to address complex scientific questions and contribute meaningfully to advancements in microbial and genetic research.

Awards and Honors

Prof. Dr. Nazneen Naher Islam has been the recipient of several prestigious awards and honors throughout her academic and research career, reflecting her scientific excellence and leadership. She was awarded the National Scholarship for Foreign Students by Osaka City University in 2008, which recognized her outstanding academic performance and research contributions during her Ph.D. studies. Between 2004 and 2007, she also received the competitive Nishimura Scholarship while pursuing her doctoral degree in Japan. Earlier in her career, she was awarded the National Science and Technology Fellowship in Bangladesh during 1996-1997, which supported her postgraduate research. Additionally, Dr. Islam has secured multiple research grants from the University Grants Commission (UGC) of Bangladesh, including funding for significant projects related to genetic mutation analysis and the detection of foodborne pathogens. Her project on the mutation analysis of the HBB gene in beta-thalassemic patients and the detection of Staphylococcus aureus in frozen chicken rinse are examples of her impactful, grant-funded research. These honors and recognitions underline her dedication to advancing genetic and microbial research and affirm her position as a respected leader in the academic and scientific communities.

Conclusion

Prof. Dr. Nazneen Naher Islam is a distinguished researcher, educator, and leader whose contributions to microbial genetics, public health microbiology, and genetic disease studies have had significant impact both within Bangladesh and in the broader scientific community. Her multidisciplinary research integrates cutting-edge molecular biology techniques with practical applications in public health and the food industry. Throughout her career, she has demonstrated remarkable dedication to education by supervising a large number of graduate students and by delivering high-quality teaching in genetic engineering and biotechnology. Her professional affiliations, international collaborations, and consistent involvement in research grants and scholarly publishing reflect her commitment to academic excellence and community service. While further engagement in international conferences and collaborations could amplify her global presence, Dr. Islam’s track record clearly positions her as a leading researcher in her field. Her ability to address critical health issues through research, coupled with her passion for student mentorship and institutional leadership, make her a highly deserving candidate for prestigious recognitions such as the Best Researcher Award. Her continued work is expected to contribute substantially to the advancement of biotechnology, public health, and genetic research in Bangladesh and beyond.

Publications Top Notes

  1. Title: Antibacterial Activity of Terminalia Chebula and Erythrina Variegata Extracts against Pathogen Causing Respiratory Tract Infection
    Authors: Chandrika Das, Dil Umme Salma Chowdhury, Md. Abdul Mannan, Nazneen Naher Islam
    Year: 2021

  2. Title: Plasmid profiling of multiple antibiotic-resistant Pseudomonas aeruginosa isolated from soil of the industrial area in Chittagong, Bangladesh
    Authors: Asma Talukder, Md. Mijanur Rahman, Mohammed Mehadi Hassan Chowdhury, Tanha Amina Mobashshera, Nazneen Naher Islam
    Year: 2021

  3. Title: Assessment of molecular and clinical characteristics in blood transfusion dependent HbE/β-thalassemia patients
    Authors: Nazneen Naher Islam, Mohabbat Hossain, Shuvo Chandra Das, Sabrina Alam Seuti, Razia Sultana, Mahmood A. Chowdhury
    Year: 2020

  4. Title: Vibrio cholerae transmits through water among the household contacts of cholera patients in cholera endemic coastal villages of Bangladesh, 2015-2016 (CHoB17 Trial)
    Authors: Zillur Rahman, Md. Anisur Rahman, Mahamud-ur-Rashid, Shirajum Monira, Fatema-Tuz Johura, Munshi Mustafiz, Sazzadul I. Bhuyian, Fatema Zohura, Tahmina Parvin, Khaled Hasan, K. M. Saif-Ur-Rahman, Nazneen Naher Islam, David A. Sack, Christine M. George, Munirul Alam
    Year: 2018

  5. Title: Bacteriological and ecfX-gene specific PCR based identification of Pseudomonas aeruginosa isolated from Chittagong industrial area and characterization of its extracellular amylase
    Authors: Asma Talukder, Tanha Amina Mobashshera, Istiaq Uddin Ahmed, Nazneen Naher Islam
    Year: 2018

  6. Title: Identification and Screening of Lactobacillus spp. from Selective Regional Yoghurts for Probiotic and Interference with Pathogenic Bacterial Growth
    Authors: Kamrun Naher Islam, Touaha Akbar, Fahmida Akther, Nazneen Naher Islam
    Year: 2016

  7. Title: Detection of Staphylococcus aureus in Frozen Chicken Rinse through Bacteriological and Nuc Gene specific PCR Methods and Drug resistance Patterns in Southern Chittagong, Bangladesh
    Authors: Nazneen Naher Islam, Mahmuda Akter, Zinat Farzana, Abdul Jabber Bin Kader, Inkeyas Uddin, AMAM Zonaed Siddiki, K M Kamaruddin
    Year: 2014

Xiumin Wang | Molecular Biology | Women Researcher Award

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Prof. Dr. Xiumin Wang | Molecular Biology | Women Researcher Award

Researcher at Feed Research Institute, Chinese Academy of Agricultural Sciences, China

Dr. Wang Xiumin is a distinguished researcher currently serving at the Institute of Feed Research, Chinese Academy of Agricultural Sciences (CAAS). With a profound academic background and extensive research experience in the field of plant pathology and microbial resistance, Dr. Wang has become a leading figure in her field. Over her career, she has focused on microbial resistance, antibacterial peptides, and the development of therapeutic strategies to combat infectious diseases, especially those involving multi-drug resistant pathogens. Dr. Wang’s work has been instrumental in bridging the gap between fundamental microbiology and applied agricultural practices, contributing to the development of feed-related solutions and sustainable agricultural practices. Her research is widely recognized through numerous publications in prestigious scientific journals, where she has co-authored over 80 papers.

Professional Profile

Education:

Dr. Wang Xiumin obtained her Ph.D. in Plant Pathology from Northwest Agriculture & Forestry University in 2006, after completing her Master’s and Bachelor’s degrees at the same institution in 2003 and 2000, respectively. Her academic training equipped her with in-depth knowledge in plant protection and pathology, laying a strong foundation for her career in agricultural sciences and microbiology. Her academic journey enabled her to focus on plant diseases, microbiology, and biotechnology, advancing her research in combating bacterial resistance in agricultural systems.

Professional Experience:

Dr. Wang Xiumin has accumulated extensive professional experience across various prestigious institutions. From 2006 to 2009, she worked as a Postdoctoral Fellow at Beijing Forestry University, engaging in critical research in plant pathology. Between 2009 and 2013, she served as an Assistant Researcher at the Feed Research Institute of CAAS. Since 2013, she has held the position of Associate Researcher at the same institute. In 2019-2020, she visited the School of Chemistry and Molecular Biosciences at the University of Queensland, further enhancing her expertise in molecular biosciences and plant pathology. Throughout her career, Dr. Wang has continually advanced her research while mentoring emerging scientists in her field.

Research Interests:

Dr. Wang’s research interests lie at the intersection of microbial resistance, plant pathology, and feed-related research. Her work primarily focuses on antibacterial peptides, microbial resistance mechanisms, and the development of therapeutic proteins and peptides. She has also contributed to studies on food safety, including the detoxification of mycotoxins, and has explored the therapeutic potential of marine peptides for bacterial infections. Dr. Wang’s research in microbial resistance and peptide-based therapeutics is crucial for advancing sustainable agricultural and clinical practices, particularly in the context of combating drug-resistant pathogens in both animals and humans.

Research Skills:

Dr. Wang Xiumin is highly skilled in a variety of research techniques including molecular biology, microbiology, and biotechnology. She has experience in the design and application of antibacterial peptides, the isolation and characterization of bioactive compounds, and the assessment of microbial resistance mechanisms. Her expertise also extends to advanced techniques in molecular cloning, protein expression, and peptide synthesis. Additionally, Dr. Wang is adept at using in vitro and in vivo models to study the effects of therapeutic peptides and other compounds on microbial infections. Her diverse skill set has been pivotal in advancing her research projects and making significant contributions to agricultural and health sciences.

Awards and Honors:

Dr. Wang Xiumin has received several accolades for her outstanding contributions to the field of plant pathology and microbiology. She has been recognized for her innovative research in microbial resistance and peptide-based therapeutics, receiving awards from various scientific and agricultural bodies in China. Her significant publications in high-impact journals such as Science of the Total Environment, Journal of Medicinal Chemistry, and Food Chemistry have cemented her reputation as a leading researcher in her field. Additionally, her collaborative work with international research institutes has earned her several fellowships, including her research visit to the University of Queensland, further acknowledging her impact on global agricultural science and medical microbiology.

Conclusion

Dr. Wang Xiumin demonstrates a strong and well-rounded research profile, with impressive publications and a proven ability to address complex issues in plant pathology and antimicrobial resistance. His work is highly relevant and impactful in agricultural and biomedical fields. His contributions place him as a strong candidate for the Excellence in Research Award. Expanding his industry collaborations and mentoring roles would elevate his profile further, making him an even more influential figure in his field.

Publication Top Notes

  1. Application of Lactobacillus plantarum and Pediococcus lactis on Lipid Metabolism, Anti-Inflammatory, and Fecal Microbiota in Cats
    • Authors: Shukun Liang, Xinshu Gu, Jintao Sun, Xiumin Wang, Hui Tao, Zhenlong Wang, Yougang Zhong, Jinquan Wang, Bing Han
    • Year: 2024
    • DOI: 10.3390/microorganisms12122446
  2. Application of Network Pharmacology, Molecular Docking, and In Vitro Experimental Evaluation to Decipher the Anti-Inflammatory Mechanisms of Cirsium japonicum
    • Authors: Jiaxue Wang, Hui Tao, Zhenlong Wang, Wei An, Ya Zhao, Bing Han, Jinquan Wang, Xiuzhu Sun, Xiumin Wang
    • Year: 2024
    • DOI: 10.3390/app14219687
  3. Simultaneous Degradation of AFB1 and ZEN by CotA Laccase from Bacillus subtilis ZJ-2019-1 in the Mediator-Assisted or Immobilization System
    • Authors: Boquan Gao, Wei An, Jianwen Wu, Xiumin Wang, Bing Han, Hui Tao, Jie Liu, Zhenlong Wang, Jinquan Wang
    • Year: 2024
    • DOI: 10.3390/toxins16100445
  4. Allergies to Allergens from Cats and Dogs: A Review and Update on Sources, Pathogenesis, and Strategies
    • Authors: Wei An, Ting Li, Xinya Tian, Xiaoxin Fu, Chunxiao Li, Zhenlong Wang, Jinquan Wang, Xiumin Wang
    • Year: 2024
    • DOI: 10.3390/ijms251910520
  5. Bacillus subtilis Simultaneously Detoxified Aflatoxin B1 and Zearalenone
    • Authors: Jianwen Wu, Zhenlong Wang, Wei An, Boquan Gao, Chunxiao Li, Bing Han, Hui Tao, Jinquan Wang, Xiumin Wang, Huanrong Li
    • Year: 2024
    • DOI: 10.3390/app14041589
  6. The Effect of Lactobacillus plantarum on the Fecal Microbiota, Short Chain Fatty Acids, Odorous Substances, and Blood Biochemical Indices of Cats
    • Authors: Bing Han, Shukun Liang, Jintao Sun, Hui Tao, Zhenlong Wang, Baosheng Liu, Xiumin Wang, Jie Liu, Jinquan Wang
    • Year: 2024
    • DOI: 10.3390/microorganisms12010091
  7. Comparison Study of Two Fumonisin-Degrading Enzymes for Detoxification in Piglets
    • Authors: Zhenlong Wang, Zonghao Lv, Tibor Czabany, Veronika Nagl, Rudolf Krska, Xiumin Wang, Bing Han, Hui Tao, Jie Liu, Jinquan Wang
    • Year: 2023
    • DOI: 10.3390/toxins16010003
  8. The Effect of Duck Bile Acid Extract on the Fecal Microbiota, Short Chain Fatty Acids, Fat Digestibility and Blood Biochemical Indices in Cats
    • Authors: Bing Han, Peng Zhao, Shukun Liang, Zhenlong Wang, Hui Tao, Xiumin Wang, Jie Liu, Jinquan Wang
    • Year: 2023
    • DOI: 10.3390/app13179713
  9. A Screening Model of Antibacterial Agents Based on Escherichia coli Cell-Division Protein
    • Authors: Qiuyu Fan, Jianwen Wu, Bolin Xi, Chunxiao Li, Xiumin Wang, Huanrong Li
    • Year: 2023
    • DOI: 10.3390/app13074493
  10. Mini-Review: Antibiotic-Resistant Escherichia coli from Farm Animal-Associated Sources
    • Authors: ChunMing Xu, Lingqiang Kong, Yonghong Liao, Yuan Tian, Qi Wu, Haosi Liu, Xiumin Wang
    • Year: 2022
    • DOI: 10.3390/antibiotics11111535

 

Rui Wen | Molecular Biology | Best Researcher Award

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Assist. Prof. Dr. Rui Wen | Molecular Biology | Best Researcher Award

Assistant Professor Dr at Wenzhou Medical University, China

Rui Wen, an Assistant Professor at Wenzhou Medical University in China, has focused on advancing research in biomaterials, with a special interest in silk proteins for drug delivery systems. Since earning his PhD in Biomaterials from Donghua University in 2020, Rui has quickly established a reputable profile through his publications in high-impact journals and his role in editorial positions. His work encompasses essential biological processes like protein function, alternative splicing, and gene expression, with an emphasis on the use of silk-based materials for medical applications. Rui is actively involved in peer-reviewed publications, authoring eight first-author or corresponding-author articles in prominent journals over the past five years. Additionally, he has contributed to the scientific community by serving as an editorial board member and reviewer for multiple journals, illustrating his influence and expertise in the field of biomaterials.

Professional Profile

Education

Rui Wen completed his PhD in Biomaterials at Donghua University in 2020, where he focused on the biological functions of protein materials, especially silk-based biomaterials for drug delivery. His doctoral research established foundational insights into protein functionality and biomimetic applications, shaping his future focus on protein function and genetic analysis. Throughout his education, Rui developed a sophisticated understanding of biomaterials science, from molecular genetics to applications in medical technology. His PhD laid a robust academic and technical foundation, equipping him with the essential research methodologies and laboratory skills needed to contribute meaningfully to the biomaterials field. The strong academic training he received at Donghua University, combined with hands-on experience in research, has been instrumental in his transition to his current role as an Assistant Professor, where he continues to leverage his expertise in gene expression and protein function.

Professional Experience

Rui Wen’s professional journey as an Assistant Professor at Wenzhou Medical University began shortly after he completed his PhD. In this role, Rui has focused his research on developing silk-based biomaterials for medical applications, such as drug delivery. His work often involves collaborations with other experts in the biomaterials and genetic research fields, emphasizing protein functionality and biomimetic design. Rui’s academic contributions include publishing eight peer-reviewed papers as the first or corresponding author in recognized journals, including Acta Biomaterialia and the International Journal of Biological Macromolecules. These achievements highlight his commitment to advancing scientific knowledge in biomaterials. Additionally, Rui serves on editorial boards for journals like the World Journal of Biological Chemistry, further underscoring his dedication to scientific excellence and community engagement. His involvement in these roles signifies his professional growth and increasing impact within the scientific community.

Research Interests

Rui Wen’s research interests are centered on protein function, gene expression, and biomaterials, particularly focusing on the medical potential of silk-based proteins. He is intrigued by the genetic underpinnings of protein function and the application of alternative splicing in creating materials that mimic biological functions. His work has a dual focus: understanding protein behavior at a genetic level and leveraging this knowledge to develop innovative biomaterials for drug delivery. This focus on silk-based proteins, a biologically compatible and robust material, has led Rui to explore how protein sequences can be harnessed to design highly specialized biomaterials with practical medical applications. Rui’s research aims to integrate genetic insights with material science to produce versatile, biocompatible materials that can advance drug delivery and other medical therapies, contributing to new solutions in biotechnology and healthcare.

Research Skills

Rui Wen possesses extensive research skills in biomaterials science and protein analysis. His expertise includes characterizing protein functionality, analyzing gene sequences, and applying genetic engineering principles to create innovative materials. Rui has a strong background in protein biochemistry and molecular biology, which has enabled him to identify and engineer silk proteins for biomimetic applications. Additionally, he is skilled in alternative splicing and concerted evolution, both of which play a crucial role in his work with gene expression. Rui’s laboratory skills include various analytical techniques, such as protein characterization assays, molecular modeling, and genetic sequencing. His ability to publish consistently in peer-reviewed journals reflects his proficiency in scientific communication and data analysis. Furthermore, his role as a reviewer and editor highlights his critical assessment skills, making him a valuable contributor to the scientific community.

Awards and Honors

Rui Wen’s contributions to biomaterials science have been recognized through multiple awards and honors. He received funding from the China Postdoctoral Science Foundation, a competitive grant that supports emerging researchers in China. This funding enabled him to continue his exploration of silk-based proteins and their applications in drug delivery. His role on the editorial boards of respected journals like the World Journal of Biological Chemistry and Biomedical Engineering Communications is another notable achievement, reflecting the respect he has earned among his peers. In addition, his status as an invited reviewer for journals such as the International Journal of Biological Macromolecules demonstrates his expertise and the high regard of the scientific community. These honors underscore Rui’s dedication to advancing biomaterials science and highlight his influence in the fields of protein function and gene expression.

Conclusion

Rui Wen is a dedicated and promising researcher whose accomplishments in the specialized areas of protein function and biomaterials are commendable for someone early in their career. His expertise, consistent publication record, and increasing engagement with the scientific community through editorial and reviewing activities make him a competitive candidate for the Best Researcher Award. With further developments in his citation impact and expanded international collaborations, Rui Wen’s contributions are likely to gain even greater visibility and influence, establishing him as a key figure in biomaterials research.

Publications Top Notes

  1. Title: Physical Properties of the Second Type of Aciniform Spidroin (AcSp2) from Neoscona theisi Reveal a pH-Dependent Self-Assembly Repetitive Domain
    Authors: Yang, D., Wang, S., Wang, K., Zan, X., Wen, R.
    Journal: ACS Biomaterials Science and Engineering
    Year: 2023
    Volume(Issue): 9(12)
    Pages: 6670–6682
    Citations: 1
  2. Title: Complete Gene Sequence and Mechanical Property of the Fourth Type of Major Ampullate Silk Protein
    Authors: Wen, R., Wang, S., Wang, K., Zan, X., Meng, Q.
    Journal: Acta Biomaterialia
    Year: 2023
    Volume: 155
    Pages: 282–291
    Citations: 4
  3. Title: Characterization of Two Full-Length Tubuliform Silk Gene Sequences from Neoscona theisi Reveals Intragenic Concerted Evolution and Multiple Copies in Genome
    Authors: Wen, R., Wang, K., Zan, X.
    Journal: International Journal of Biological Macromolecules
    Year: 2022
    Volume: 223
    Pages: 1015–1023
    Citations: 3
  4. Title: Characterization of Two Full-Length Araneus ventricosus Major Ampullate Silk Protein Genes
    Authors: Wen, R., Yang, D., Wang, K., Zan, X.
    Journal: International Journal of Biological Macromolecules
    Year: 2022
    Volume: 213
    Pages: 297–304
  5. Title: The Novel Aciniform Silk Protein (AcSp2-v2) Reveals the Unique Repetitive Domain with High Acid and Thermal Stability and Self-Assembly Capability
    Authors: Wen, R., Wang, K., Yang, D., Zan, X., Meng, Q.
    Journal: International Journal of Biological Macromolecules
    Year: 2022
    Volume: 202
    Pages: 91–101
    Citations: 6
  6. Title: Customized Flagelliform Spidroins Form Spider Silk-Like Fibers at pH 8.0 with Outstanding Tensile Strength
    Authors: Li, X., Qi, X., Cai, Y.-M., Meng, Q., Chen, G.
    Journal: ACS Biomaterials Science and Engineering
    Year: 2022
    Volume(Issue): 8(1)
    Pages: 119–127
    Citations: 14
  7. Title: Characterization of the Second Type of Aciniform Spidroin (AcSp2) Provides New Insight into Design for Spidroin-Based Biomaterials
    Authors: Wen, R., Wang, K., Meng, Q.
    Journal: Acta Biomaterialia
    Year: 2020
    Volume: 115
    Pages: 210–219
    Citations: 16
  8. Title: Two Novel Tubuliform Silk Gene Sequences from Araneus ventricosus Provide Evidence for Multiple Loci in Genome
    Authors: Wen, R., Wang, K., Meng, Q.
    Journal: International Journal of Biological Macromolecules
    Year: 2020
    Volume: 160
    Pages: 806–813
    Citations: 10
  9. Title: Wet-Spinning Synthetic Fibers from Aggregate Glue: Aggregate Spidroin 1 (AgSp1)
    Authors: Li, X., Mi, J., Wen, R., Meng, Q., Lin, Y.
    Journal: ACS Applied Bio Materials
    Year: 2020
    Volume(Issue): 3(9)
    Pages: 5957–5965
    Citations: 10
  10. Title: Novel Highly Soluble Chimeric Recombinant Spidroins with High Yield
    Authors: Jia, Q., Wen, R., Meng, Q.
    Journal: International Journal of Molecular Sciences
    Year: 2020
    Volume(Issue): 21(18)
    Pages: 1–13, Article ID: 6905
    Citations: 11

Elisson Romanel | Molecular Biology | Best Researcher Award

Posted on by Shen Awards

Prof Dr. Elisson Romanel | Molecular Biology | Best Researcher Award

Professor Researcher at School of Engineering of Lorena, Brazil.

Dr. Elisson Romanel is a prominent researcher and Professor of Functional Genomics and Plant Biotechnology at the School of Engineering of Lorena, University of São Paulo, Brazil. He holds a Ph.D. in Biological Sciences, with a focus on plant development and genomics, earned from the Federal University of Rio de Janeiro. His postdoctoral research included significant collaborations at renowned institutions, such as Iowa State University and the Universidad Nacional Autónoma de México. Dr. Romanel founded the Plant Genomics and Bionergy Laboratory, focusing on the genetic and metabolic pathways in sugarcane and related grasses to enhance biomass utilization in biorefineries. He has secured various grants and published extensively in respected journals, contributing valuable insights into plant genomics, flowering time regulation, and lignocellulosic metabolism. Additionally, he has supervised numerous graduate students, shaping the next generation of scientists in the field of plant biotechnology.

Profile:

Education

Dr. Elisson Romanel completed his undergraduate studies in Biological Sciences at the Federal University of Juiz de Fora in Brazil, earning his degree in 2004. He then pursued his Ph.D. at the Federal University of Rio de Janeiro, where he was awarded a sandwich Ph.D. in February 2010. During this time, he conducted research at prominent institutions, including the University of Wisconsin-Madison in the USA and the École Normale Supérieure de Lyon in France, under the supervision of Dr. Marcio Alves Ferreira. Following his Ph.D., Dr. Romanel continued his academic journey with a postdoctoral fellowship at the same university, focusing on virus, small RNAs, and transposons. His research also involved collaboration with esteemed researchers at the Universidad Nacional Autónoma de México, where he studied the Flowering Time Gene Regulatory Network. Dr. Romanel’s extensive educational background laid a solid foundation for his current role as a professor in Functional Genomics and Plant Biotechnology.

Professional Experiences 

Dr. Elisson Romanel is a distinguished researcher and educator currently serving as a Professor of Functional Genomics and Plant Biotechnology at the School of Engineering of Lorena, University of São Paulo (EEL/USP) in Brazil. He founded the Plant Genomics and Bionergy Laboratory (PGEMBL) in 2016, focusing on gene prospecting related to biomass control and lignocellulosic metabolism, particularly in sugarcane and related grasses. Dr. Romanel has conducted significant postdoctoral research at prestigious institutions, including the Federal University of Rio de Janeiro and Iowa State University, where he collaborated with renowned scientists in plant genomics and biotechnology. His work encompasses bioinformatics, gene cloning, and plant transformation, contributing to the understanding of plant development and flowering time regulatory networks. He has actively supervised several graduate students and served on editorial boards for prominent journals, further showcasing his commitment to advancing research in plant sciences and biotechnology.

Research Interests

Dr. Elisson Romanel’s research interests lie at the intersection of functional genomics and plant biotechnology, with a strong focus on the fundamental and applied aspects of plant development. His work primarily investigates gene regulatory networks and the molecular mechanisms that govern flowering time in plants such as Arabidopsis, eucalyptus, and cotton. He has extensively studied small RNAs, transposons, and the biosynthesis pathways of hemicellulose in sugarcane, aiming to enhance the utilization of plant biomass for biorefinery applications. Dr. Romanel is particularly interested in the evolutionary aspects of plant genes and their roles in lignocellulosic metabolism, contributing to sustainable agricultural practices and industrial biotechnology. Through his research at the Plant Genomics and Bionergy Laboratory (PGEMBL), he aims to uncover the genetic bases of traits that improve biomass recalcitrance and enhance bioenergy production, ultimately addressing global challenges in energy sustainability and food security.

Research skills 

Dr. Elisson Romanel possesses a diverse and comprehensive skill set in research, primarily focusing on functional genomics and plant biotechnology. His expertise includes bioinformatics, gene cloning, plant transformation, and structural and functional genomics analysis, particularly in species such as Arabidopsis, eucalyptus, and cotton. Dr. Romanel’s proficiency in transcriptome profiling and gene expression analysis allows him to investigate complex biological processes, such as flowering induction and biomass development. His ability to conduct multidisciplinary research is exemplified by collaborations with renowned laboratories and institutions worldwide, including those in the United States and Mexico. Furthermore, he has demonstrated strong leadership and mentorship skills through his supervision of numerous graduate students, guiding them in their academic and research pursuits. With a robust publication record and experience in securing research funding, Dr. Romanel effectively translates his research findings into practical applications, contributing significantly to advancements in agricultural biotechnology and plant sciences.

Award and Recognition 

Dr. Elisson Romanel is a distinguished researcher in the field of plant biotechnology and functional genomics, recognized for his significant contributions to the understanding of plant development and biomass utilization. He has secured multiple grants from esteemed funding bodies, including CAPES and FAPESP, showcasing his ability to attract substantial financial support for research initiatives. His work has led to numerous publications in reputable journals, highlighting his innovative research on gene expression and metabolic pathways in crops like sugarcane and eucalyptus. Dr. Romanel’s editorial roles on the boards of Brazilian Journal of Botany, BMC Genomics, and Frontiers in Plant Science reflect his expertise and standing in the scientific community. Furthermore, his leadership in founding the Plant Genomics and Bionergy Laboratory at the School of Engineering of Lorena, University of São Paulo, underscores his commitment to advancing research and training future scientists in the field.

Conclusion

Dr. Elisson Romanel’s comprehensive educational background, extensive research experience, leadership in establishing a laboratory, and significant contributions to plant biotechnology position him as a strong candidate for the Best Researcher Award. His ability to innovate and lead in important research areas related to plant genomics and bioenergy, combined with his dedication to mentoring the next generation of scientists, underscores his value to the scientific community. With some focus on interdisciplinary collaboration and public engagement, Dr. Romanel could further enhance his contributions to science and society.

Publication Top Notes
  1. SacEXP32 sugarcane expansin gene expression increases cell size and improves biomass digestibility
    • Authors: Mira, W., Heinz, O., Gonçalvez, A., Ferraz, A., da Franca Silva, T.
    • Year: 2024
    • Journal: Journal of Plant Biochemistry and Biotechnology
    • Volume/Issue/Page: 33(3), pp. 313–325
  2. Plant age-dependent dynamics of annatto pigment (bixin) biosynthesis in Bixa orellana
    • Authors: de Godoy Machado, K.L., Faria, D.V., Duarte, M.B.S., Otoni, W.C., Nogueira, F.T.S.
    • Year: 2024
    • Journal: Journal of Experimental Botany
    • Volume/Issue/Page: 75(5), pp. 1390–1406
  3. Advances in Tissue Culture and Transformation Studies in Non-model Species: Passiflora spp. (Passifloraceae)
    • Authors: Otoni, W.C., Soares, J.R., Souza, C.S., Nogueira, F.T.S., Silva, M.L.C.
    • Year: 2024
    • Journal: Methods in Molecular Biology
    • Volume/Issue/Page: 2827, pp. 207–222
  4. Editorial: System biology to regulatory grids: new tools and clues aimed at improving plant evolutionary-developmental (Evo-Devo) biology
    • Authors: Romanel, E., DePaoli, H.C., Brito, M.D.S.
    • Year: 2024
    • Journal: Frontiers in Plant Science
    • Volume/Issue/Page: 15, 1380569
  5. Erratum: Analysis of the PEBP gene family and identification of a novel FT orthologue in sugarcane
    • Authors: Venail, J., Da Silva Santos, P.H., Manechini, J.R., Pinto, L., Jackson, S.D.
    • Year: 2022
    • Journal: Journal of Experimental Botany
    • Volume/Issue/Page: 73(12), pp. 4266
  6. Analysis of the PEBP gene family and identification of a novel FLOWERING LOCUS T orthologue in sugarcane
    • Authors: Venail, J., Da Silva Santos, P.H., Manechini, J.R., Pinto, L., Jackson, S.D.
    • Year: 2022
    • Journal: Journal of Experimental Botany
    • Volume/Issue/Page: 73(7), pp. 2035–2049
  7. Expression of Melocactus glaucescens SERK1 sheds new light on the mechanism of areolar activation in cacti
    • Authors: Torres-Silva, G., Correia, L.N.F., Koehler, A.D., Specht, C.D., Otoni, W.C.
    • Year: 2021
    • Journal: Plant Cell, Tissue and Organ Culture
    • Volume/Issue/Page: 147(3), pp. 437–451
  8. Selection and validation of reference genes by RT-qPCR under photoperiodic induction of flowering in sugarcane (Saccharum spp.)
    • Authors: da Silva Santos, P.H., Manechini, J.R.V., Brito, M.S., Jackson, S., Pinto, L.R.
    • Year: 2021
    • Journal: Scientific Reports
    • Volume/Issue/Page: 11(1), 4589
  9. Transcriptome Analysis of Melocactus glaucescens (Cactaceae) Reveals Metabolic Changes During in vitro Shoot Organogenesis Induction
    • Authors: Torres-Silva, G., Correia, L.N.F., Batista, D.S., Specht, C.D., Otoni, W.C.
    • Year: 2021
    • Journal: Frontiers in Plant Science
    • Volume/Issue/Page: 12, 697556
  10. Transcriptomic Analysis of Changes in Gene Expression During Flowering Induction in Sugarcane Under Controlled Photoperiodic Conditions
  • Authors: Manechini, J.R.V., Santos, P.H.D.S., Romanel, E., Pinto, L.R., Vicentini, R.
  • Year: 2021
  • Journal: Frontiers in Plant Science
  • Volume/Issue/Page: 12, 635784

 

 

Ehsan Saburi | Molecular Biology | Life Sciences Innovation Award

Posted on by Shen Awards

Dr. Ehsan Saburi | Molecular Biology | Life Sciences Innovation Award

Assistant Professor of Mashhad university of Medical Sciences, Iran.

Dr. Ehsan Saburi is an Assistant Professor at the School of Medicine, Mashhad University of Medical Sciences, specializing in Molecular Medicine. He holds a Ph.D. and has contributed significantly to research in areas such as stem cell therapy, COVID-19, and the molecular mechanisms of various diseases. Dr. Saburi has led numerous research projects, exploring the genetic and molecular aspects of health conditions like COVID-19, cancer, and autoimmune disorders. His work includes the investigation of gene polymorphisms, the therapeutic potential of cell therapy, and the effects of natural compounds on disease progression. Dr. Saburi’s research has been published in high-impact journals, demonstrating his commitment to advancing medical knowledge. His expertise in molecular medicine and his dedication to innovative research make him a strong candidate for the Best Researcher Award.

Profile
Education

Dr. Ehsan Saburi is an accomplished academic with a strong foundation in Molecular Medicine. He earned his Doctor of Philosophy (Ph.D.) in this specialized field, reflecting his deep commitment to advancing medical science. His educational journey is marked by rigorous training and research, equipping him with a profound understanding of molecular mechanisms and their applications in medicine. Dr. Saburi’s academic background is further enriched by his involvement in various research projects at the Mashhad University of Medical Sciences, where he continues to explore the frontiers of medical research. His education has provided him with the skills and knowledge necessary to contribute significantly to the scientific community, particularly in the areas of stem cell research, genetic studies, and the development of innovative medical therapies. Dr. Saburi’s educational achievements underscore his dedication to excellence in both teaching and research, making him a respected figure in his field.

Professional Experience

Dr. Ehsan Saburi is an accomplished Assistant Professor at Mashhad University of Medical Sciences, specializing in Molecular Medicine. With a Ph.D. in the same field, he has played a pivotal role in various research projects, particularly those focusing on the molecular mechanisms of diseases, stem cell therapy, and the impact of genetic polymorphisms on health outcomes. His professional experience is marked by leadership in numerous high-impact studies, including investigations into COVID-19, stem cell differentiation, and the protective effects of natural compounds on organ systems. Dr. Saburi has been instrumental in advancing research in molecular medicine through his extensive work on genetic factors influencing disease severity and innovative therapeutic approaches. His contributions to the academic community are further evidenced by his numerous publications in reputable journals and his active involvement in ongoing research projects aimed at improving health outcomes through molecular and genetic insights.

Research Interest

Dr. Ehsan Saburi’s research interests lie at the intersection of molecular medicine and regenerative medicine, with a particular focus on the therapeutic potential of stem cells and the molecular mechanisms underlying various diseases. His work extensively explores the use of adipose-derived mesenchymal stem cells (AD-hMSCs) in tissue regeneration, particularly in the context of osteogenic and chondrogenic differentiation. Dr. Saburi is also deeply involved in studying the genetic and molecular pathways related to chronic diseases, including cancer and autoimmune disorders. His recent projects have investigated the effects of various bioactive compounds, such as melatonin and curcumin, on mitigating disease symptoms and improving patient outcomes. Additionally, Dr. Saburi’s research includes examining the genetic factors that influence the severity of infectious diseases like COVID-19, aiming to contribute to the development of more effective treatments and vaccines. His multidisciplinary approach positions him at the forefront of translational medicine and therapeutic innovation.

Research Skills

Dr. Ehsan Saburi, an Assistant Professor of Molecular Medicine at Mashhad University of Medical Sciences, demonstrates extensive expertise in advanced molecular and cellular research. His skills encompass a wide range of scientific techniques, including genetic manipulation, stem cell research, and biochemical analysis. Dr. Saburi has led numerous research projects, particularly focusing on the genetic and molecular mechanisms underlying diseases such as cancer, COVID-19, and neurodegenerative disorders. His proficiency in designing and executing complex experiments is evidenced by his successful investigation of various signaling pathways, gene polymorphisms, and therapeutic effects of natural compounds. Additionally, Dr. Saburi is skilled in the use of bioinformatics tools for data analysis and interpretation, contributing to his ability to publish in high-impact journals. His collaborative approach and ability to manage multidisciplinary research teams further highlight his research capabilities, making him a valuable asset in the field of molecular medicine.

Awards and Recognition

Dr. Ehsan Saburi, an accomplished Assistant Professor at Mashhad University of Medical Sciences, has garnered significant recognition for his contributions to molecular medicine. His extensive research on stem cell therapies, COVID-19, and the molecular mechanisms underlying various diseases has earned him numerous accolades. Dr. Saburi’s innovative work on the protective effects of melatonin and curcumin in disease models has been widely acknowledged in the scientific community. He has received several prestigious awards for his groundbreaking research, including the Best Researcher Award from Mashhad University. His publications in high-impact journals and his involvement in pioneering research projects have further solidified his reputation as a leading scientist. Dr. Saburi’s commitment to advancing medical science continues to be recognized through various honors and awards, underscoring his impact on the field and his dedication to improving human health.

Conclusion

Dr. Ehsan Saburi is a highly capable and dedicated researcher with significant contributions to molecular medicine and COVID-19 research. His extensive research activities, leadership in numerous projects, and commitment to advancing medical science make him a strong candidate for the Best Researcher Award. However, to enhance his candidacy further, focusing on the impact of his publications, fostering international collaborations, and pursuing more innovative research avenues would be beneficial.

Publications Top Notes

  1. Title: Advances and challenges of the cell-based therapies among diabetic patients
    Authors: Raoufinia, R., Rahimi, H.R., Saburi, E., Moghbeli, M.
    Journal: Journal of Translational Medicine
    Year: 2024
    Citations: 1
  2. Title: Leveraging stem cells to combat hepatitis: a comprehensive review of recent studies
    Authors: Raoufinia, R., Arabnezhad, A., Keyhanvar, N., Namdar, A.B., Rahimi, H.R.
    Journal: Molecular Biology Reports
    Year: 2024
  3. Title: Hematological changes due to malaria – An update
    Authors: Naser, R.H., Rajaii, T., Farash, B.R.H., Sadabadi, F., Saburi, E.
    Journal: Molecular and Biochemical Parasitology
    Year: 2024
  4. Title: Apoptotic effects of biodentine, calcium-enriched mixture (CEM) cement, ferric sulfate, and mineral trioxide aggregate (MTA) on human mesenchymal stem cells isolated from the human pulp of exfoliated deciduous teeth
    Authors: Nazemi Salman, B., Mohebbi Rad, M., Saburi, E.
    Journal: Minerva Dental and Oral Science
    Year: 2024
  5. Title: Advances in Treatments for Epidermolysis Bullosa (EB): Emphasis on Stem Cell-Based Therapy
    Authors: Raoufinia, R., Rahimi, H.R., Keyhanvar, N., Foroudi, S., Saburi, E.
    Journal: Stem Cell Reviews and Reports
    Year: 2024
    Citations: 1
  6. Title: Role of microRNAs in tumor progression by regulation of kinesin motor proteins
    Authors: Nasimi Shad, A., Fanoodi, A., Maharati, A., Forouzanfar, F., Moghbeli, M.
    Journal: International Journal of Biological Macromolecules
    Year: 2024
  7. Title: Therapeutic potential of lipid-lowering probiotics on the atherosclerosis development
    Authors: Saadh, M.J., Bazghandi, B., Jamialahmdi, H., Esmaeili, S.-A., Saburi, E.
    Journal: European Journal of Pharmacology
    Year: 2024
  8. Title: Synthesis of bone biocompatible implants using human adipose-derived mesenchymal stem cells (hADMSCs) and PCL/laminin scaffold substrate
    Authors: Zeydari, D., Karimi, E., Saburi, E.
    Journal: Iranian Journal of Basic Medical Sciences
    Year: 2024
    Citations: 2
  9. Title: Genetic landscape of hearing loss in prelingual deaf patients of eastern Iran: Insights from exome sequencing analysis
    Authors: Alerasool, M., Eslahi, A., Vona, B., Niknezhad, H.T., Mojarrad, M.
    Journal: Clinical Genetics
    Year: 2024
  10. Title: Personalized Approaches to Cardiovascular Disease: Insights into FDA-Approved Interventions and Clinical Pharmacogenetics
    Authors: Raoufinia, R., Rahimi, H.R., Abbaszadeh, M., Khazaei, M., Avan, A.
    Journal: Current Pharmaceutical Design
    Year: 2024