Prof. Jiann-Ruey Hong | translational medicine | Research Excellence Award 

Published on by Computational Biologists

Prof. Jiann-Ruey Hong | translational medicine | Research Excellence Award 

NCKU | Taiwan 

Dr. Jiann-Ruey Hong is a molecular virologist known for foundational contributions to fish virology, host–pathogen interactions, and programmed cell death mechanisms in aquatic species. His work has significantly advanced understanding of betanodavirus biology, viral modulation of mitochondrial pathways, and apoptosis–necrosis transitions during infection. He has extensively investigated Bcl-2 family regulators, ER-stress responses, cytokine signaling, and interferon-mediated antiviral immunity using zebrafish and fish cell models. Dr. Hong’s research has revealed how viral proteins such as B1, B2, VP3, and α-protein orchestrate mitochondrial dysfunction, energy collapse, and host survival factor suppression. His publications in high-impact journals span molecular virology, immunology, developmental biology, and aquaculture biotechnology. He has served in numerous editorial roles across international journals in virology, oncology, molecular biology, and biotechnology, demonstrating sustained influence on scholarly communication. His expertise is widely recognized through invitations as a speaker at global scientific meetings and participation in scientific committees. Dr. Hong has contributed as a reviewer for a broad spectrum of journals in virology, immunology, aquaculture, molecular medicine, and cellular biology. His work has been acknowledged by multiple international biographical listings, research recognitions, and awards celebrating excellence in virology. He has supported student advancement through mentorship and participation in academic evaluation panels. His editorial leadership includes guiding special issues focused on viral infection, autophagy, and molecular symmetry in host–virus dynamics. As an active member of professional societies in virology, marine biotechnology, and cell death research, he continues to shape the field’s scientific direction. His research vision integrates molecular signaling, viral pathogenesis, and host defense to improve aquaculture health strategies. He remains a driving force in uncovering the cellular mechanisms underlying viral neuropathogenesis in marine organisms. His scholarship has also contributed to broader biomedical insights relevant to apoptosis regulation and mitochondrial biology. Through sustained scientific service, editorial contributions, and innovative research, Dr. Hong stands as a prominent figure in contemporary molecular virology.

Profile: scopus

Publications

DHA affects ISKNV-induced autophagy flux via the AMPK/mTOR/ULK1 and BECN1/SQSTM1 axes, limiting viral replication in fish cells. Fish and Shellfish Immunology.

Enhancement of reactive oxygen species metabolism by antioxidant enzyme Cu/Zn-SOD can block betanodavirus-induced necroptosis and suppress viral replication in fish cells. Fish and Shellfish Immunology.

ISKNV triggers AMPK/mTOR-mediated autophagy signaling through oxidative stress, inducing antioxidant enzyme expression and enhancing viral replication in GF-1 cells. Viruses.

A mitochondrion-targeting protein (B2) primes ROS/Nrf2-mediated stress signals, triggering apoptosis and necroptosis in lung cancer. Biomedicines.

Infectious spleen and kidney necrosis virus induces the reactive oxidative species/Nrf2-mediated oxidative stress response for the regulation of mitochondrion-mediated Bax/Bak cell death signals in GF-1 cells. Frontiers in Microbiology.

 

 

 

Gayatri Iyer | Pharmacogenomics | Best Researcher Award

Published on by Computational Biologists

Dr. Gayatri Iyer | Pharmacogenomics | Best Researcher Award

Scientist III at Tata Institute for Genetics and Society, India

Dr. Gayatri R. Iyer is a leading clinical geneticist and molecular biologist specializing in genetic counseling and rare disease diagnostics. With over a decade of hands-on experience in both research and clinical genetics, she bridges molecular science with patient-centric healthcare. She currently serves as Scientist Grade II at the Tata Institute for Genetics and Society, where she develops cost-effective diagnostic solutions for complex genetic disorders. Certified at Level II by the Board of Genetic Counseling, India, and holding an INSPIRE fellowship from the Department of Science and Technology, her professional journey reflects excellence in research, diagnostics, and community outreach. Her multidisciplinary expertise and contributions make her a standout nominee in the field of translational genetics.

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Education

Dr. Iyer’s academic foundation is built on a rigorous and multidisciplinary path. She earned her Ph.D. in Human Genetics from Kamineni Hospitals, affiliated with Osmania University, where she was a DST-INSPIRE Fellow (2016–2021). Her doctoral research focused on developing methylation-specific PCR assays for imprinting disorders, reflecting her dedication to translating molecular diagnostics into clinical practice. She completed her M.Sc. in Applied Genetics from The Oxford College of Science, Bangalore, with a gold medal for academic excellence (2012–2014), and secured second rank in her B.Sc. in Biotechnology from Birla College, Mumbai (2012). She has supplemented her academic training with a PG Certificate in Medical & Genetic Counseling and a diploma in Bioinformatics.

Experience

With progressive experience in clinical genetics, Dr. Iyer has held diverse roles across premier institutions. At the Tata Institute for Genetics and Society (2023–present), she focuses on developing diagnostic platforms for rare disorders such as imprinting syndromes and neuromuscular conditions. During her postdoctoral fellowship at IIT Bombay (2022–2023), she worked on subcellular proteomics and gut microbiome sequencing. At Kamineni Hospitals, Hyderabad (2015–2021), she evolved from a Junior to Senior Research Fellow and served as a senior genetic counselor, managing over 2,000 cases across specialties including pediatrics, oncology, and reproductive medicine. Her work at LifeCell International and Datar Genetics further solidified her position as an expert counselor and educator.

Research Interest

Dr. Iyer’s research is centered on rare genetic diseases, molecular diagnostics, pharmacogenomics, and genetic counseling. She is especially focused on developing accessible and cost-effective diagnostic tools for Indian and resource-limited populations. Her doctoral work on imprinting disorders was groundbreaking, contributing novel diagnostic pathways for syndromes like Prader-Willi and Angelman. She is equally invested in epigenetics, next-generation sequencing, and microarray-based diagnostics. Her translational approach ensures that molecular insights are effectively integrated into patient care, family screening, and policy development. She continues to bridge the gap between lab-based discoveries and real-world clinical applications through genetic counseling and education.

Awards

Dr. Iyer’s contributions have been consistently recognized at national and international levels. She is the recipient of the DST Faculty Research Grant (2024–2029) and co-investigator on an ICMR CAR grant. Her global reputation was affirmed by receiving a $3,500 workshop grant and a travel grant from the International Prader-Willi Syndrome Organization. She was awarded the prestigious DST-INSPIRE Fellowship (2016–2021) and secured a travel grant to present her research at the Asia Pacific Prader-Willi Conference in Brisbane (2018). Her academic accolades include the Gold Medal in M.Sc. Applied Genetics and first rank in her Bioinformatics diploma. She also serves as Joint Secretary of the Executive Committee, Board of Genetic Counseling, India.

Publications

Dr. Iyer has contributed to over 15 peer-reviewed journal articles and book chapters. Selected impactful publications include:

Halder A, Iyer G, et al. (2023). Targeted proteomics distinguishes high and low grade meningioma tumors. Clin Proteomics, 20(1):41. [Cited by: 5]

Bajaj S, Iyer G, et al. (2022). Telegenetics diagnosis of Hunter syndrome during COVID-19. Int J Contemp Pediatr, 9:851–4. [Cited by: 2]

Iyer GR, et al. (2022). NGS in musculoskeletal disorders. J Orthop Surg Res, 17(1):76. [Cited by: 3]

Iyer GR, et al. (2021). Angelman syndrome phenotype with GABRG3. Ann Hum Genet, doi:10.1111/ahg.12449. [Cited by: 4]

Abbas NZ, Iyer GR, et al. (2020). Genotype-Phenotype correlation in pediatric neurology. Int J Health Clin Res, 3(5):67–73. [Cited by: 2]

Iyer G, et al. (2020). COVID-19 therapy driven by pharmacogenomics. AIJR Preprints. [Cited by: 7]

Iyer GR, et al. (2020). Host gene variants and COVID-19 progression. Front Genet, 11:861. [Cited by: 10]

Conclusion

Dr. Gayatri R. Iyer exemplifies the ethos of a best researcher through her unwavering commitment to bridging science and clinical application. Her pioneering work in low-cost diagnostic development for rare disorders, hands-on clinical counseling experience, interdisciplinary teaching, and highly cited publications affirm her exceptional contribution to medical genetics and public health. Her nomination for the Best Researcher Award is a recognition of her dedication, innovation, and leadership in translating genetic research into impactful health solutions.