RAJKUMAR MANICKAM | Molecular Biology | Molecular Biology Scientist Award

Published on by Molecular Biologist

Assist. Prof. Dr. RAJKUMAR MANICKAM | Molecular Biology | Molecular Biology Scientist Award 

Assistant Professor | Karpagam Academy of Higher Education | India

Assist. Prof. Dr. Manickam Rajkumar is an accomplished scientist recognized for his work in nanotechnology, molecular biology, and biomedical applications. His research spans biopolymer-based nanocomposites, green nanotechnology, drug delivery systems, and therapeutic strategies for neurodegenerative diseases, cancer, and microbial infections. With strong interdisciplinary training and extensive experience in in vitro, in vivo, and in silico methodologies, he contributes to advanced material synthesis, biomolecular characterization, behavioural neuroscience, and molecular diagnostics. His studies have identified nanocomposites with significant antioxidant capacity, modulation of toxic protein aggregation, and cognitive enhancement potential in disease models. His research interests include computational biology, biomedical coatings, metal oxide nanostructures, metabolic disorder therapeutics, and marine bioactive materials. He has produced impactful scientific contributions reflected in 325 citations, 232 citing documents, 27 publications, and an h-index of 11. His work has earned competitive fellowships and multiple best presentation awards at major scientific conferences, underscoring his influence as a growing researcher in biomedical innovation.

Profiles: Scopus | ORCID | Google Scholar
Featured Publications

Biosynthesis of cerium oxide nanoparticles. Biomedical Materials & Devices.

Review on green synthesis of nanoparticles. Biomedical Materials & Devices.

Biosynthesis of chitosan–TiO₂ nanoparticles. Inorganic Chemistry Communications.

CuO nanoparticles for colon cancer therapy. Journal of Cluster Science.

NanoMarine therapeutics for colon cancer. Frontiers in Genetics.

Eco-friendly synthesis of ZnO nanoparticles. Inorganic Chemistry Communications.

Georges Nemer | Molecular Biology | Editorial Board Member

Published on by Molecular Biologist

Prof. Georges Nemer | Molecular Biology | Editorial Board Member 

Professor | Hamad Bin Khalifa University | Qatar

Dr. Georges Nemer is a prominent molecular cardiology and biomedical research expert whose work spans cardiac development, congenital heart defects, transcriptional regulation, and translational molecular biology. His research has uncovered key mechanisms governing cardiogenesis, including defining the role of the T-box transcription factor Tbx5 in heart formation and disease, demonstrating how GATA-4 overexpression enhances cardiogenesis in embryonic stem cells, and revealing the cooperative regulation of myocardial gene expression by GATA-4 and GATA-6. Dr. Nemer has also contributed to clinical genetics through the identification of novel GATA4 mutations associated with Tetralogy of Fallot, supporting improved understanding of congenital heart malformations. Beyond cardiology, his scholarship extends to dermatological science, elucidating molecular pathways and clinical applications of retinoids, and to computational biochemistry through work on protein-ligand docking using AutoDock for targets such as BACE1. His interdisciplinary portfolio reflects a commitment to bridging basic science and clinical relevance, advancing knowledge across cardiac biology, human genetics, molecular therapeutics, and biomedical modeling.

Profile: Google Scholar

Featured Publications

Bruneau, B. G., Nemer, G., Schmitt, J. P., Charron, F., Robitaille, L., Caron, S., …
(2001). A murine model of Holt-Oram syndrome defines roles of the T-box transcription factor Tbx5 in cardiogenesis and disease. Cell, 106(6), 709–721.

Grépin, C., Nemer, G., & Nemer, M. (1997). Enhanced cardiogenesis in embryonic stem cells overexpressing the GATA-4 transcription factor. Development, 124(12), 2387–2395.

Charron, F., Paradis, P., Bronchain, O., Nemer, G., & Nemer, M. (1999). Cooperative interaction between GATA-4 and GATA-6 regulates myocardial gene expression. Molecular and Cellular Biology, 19(6), 4355–4365.

Khalil, S., Bardawil, T., Stephan, C., Darwiche, N., Abbas, O., Kibbi, A. G., …
(2017). Retinoids: A journey from the molecular structures and mechanisms of action to clinical uses in dermatology and adverse effects. Journal of Dermatological Treatment, 28(8), 684–696.

Nemer, G., Fadlalah, F., Usta, J., Nemer, M., Dbaibo, G., Obeid, M., & Bitar, F. (2006). A novel mutation in the GATA4 gene in patients with Tetralogy of Fallot. Human Mutation, 27(3), 293–294.

El-Hachem, N., Haibe-Kains, B., Khalil, A., Kobeissy, F. H., & Nemer, G. (Year unavailable). AutoDock and AutoDockTools for protein-ligand docking: Beta-site amyloid precursor protein cleaving enzyme 1 (BACE1) as a case study. Neuroproteomics: Methods and Protocols, 391–403.