Ms. Diya Sanjeev - Phosphoproteomics - Research Innovation Award 🏆Â
Centre for Integrative Omics Data Science CIODS - India
Professional Profiles
Early Academic Pursuits
She embarked on her academic journey with a Bachelor of Science in Zoology from Mahatma Gandhi University, Kerala, followed by a Master of Science in Bioinformatics. These foundational studies laid the groundwork for her future endeavors in the realm of life sciences and data analysis.
Professional Endeavors
As a Data Scientist at the Centre for Integrative Omics Data Science, Yenepoya University, she has been instrumental in scientific curation and analysis of global phospho-proteomics and signaling pathways. Her role involves delving into mass spectrometric data to uncover intricate lnRNA- miRNA mRNA interactions, contributing significantly to understanding post-translational modifications and protein phosphorylation dynamics.
Contributions and Research Focus in Phosphoproteomics
Her contributions extend beyond mere data analysis; she has actively assessed the accuracy of data sources and developed streamlined processes for data handling. Her expertise in setting up SQL databases on cloud servers and utilizing Python for data mapping and retrieval showcases her commitment to enhancing efficiency in data management. Through her projects, such as deciphering receptor-mediated signaling pathways and constructing network maps of crucial signaling molecules, she has illuminated the complex landscape of cellular communication and protein phosphorylation.
Phosphoproteomics is a cutting-edge discipline within proteomics that investigates protein phosphorylation, a pivotal post-translational modification crucial for cellular signaling and regulation. Leveraging advanced techniques such as mass spectrometry, it identifies and quantifies phosphorylation sites across the proteome, unveiling dynamic cellular processes and signaling pathways. By comprehensively mapping phosphorylation events, Phosphoproteomics sheds light on protein function regulation and intercellular communication. This field holds immense promise for elucidating disease mechanisms and discovering novel therapeutic targets, driving advancements in biomedicine and personalized medicine.
Accolades and Recognition
Her dedication and proficiency have not gone unnoticed, as evidenced by her receipt of the "Best Researcher Award" in Phosphoproteomics. This accolade underscores her exceptional abilities and contributions to the field, solidifying her position as a trailblazer in data-driven life sciences research. Phosphoproteomics is an interdisciplinary field at the forefront of molecular biology, focusing on the study of protein phosphorylation—a fundamental mechanism governing cellular signaling and function.
Phosphoproteomics is a burgeoning field within proteomics that focuses on the comprehensive study of protein phosphorylation, a critical post-translational modification essential for cellular signaling and regulation. Through advanced techniques such as mass spectrometry, phosphoproteomics aims to identify and quantify phosphorylation sites across the proteome, shedding light on dynamic cellular processes and signaling pathways. By elucidating the roles of protein phosphorylation in various biological processes, phosphoproteomics contributes to our understanding of disease mechanisms and holds promise for the discovery of novel therapeutic targets.
Impact and Influence
Her work has made a profound impact on the scientific community, with publications in esteemed journals like Computers in Biology and Medicine and the Journal of Cell Communication and Signaling. Her research on global phosphoproteomics and the characterization of phosphorylation sites has provided invaluable insights into cellular signaling networks and post-translational modifications, paving the way for further discoveries in disease mechanisms and therapeutic targets.