Prof Qinyu Ge, Southeast University, China
Prof. Qinyu Ge ππ¬ earned his Ph.D. in Biomedical Engineering from Southeast University in 2006. As a dedicated researcher at Southeast University, his work focuses on sample treatment and library preparation for high-throughput DNA sequencing π§¬, including spatial transcriptomics and whole-genome methylation studies. His expertise extends to designing DNA microarrays for cell-free nucleic acid, methylation, and DNA polymorphism detection π§ͺ. Prof. Ge has published extensively on topics like environmental DNA integrity, non-invasive embryo biomarkers, single-cell analysis, and deep learning in genomics π€π, contributing significantly to biomedical research advancements globally π.
Publication Profile
Scopus
Education
Prof. Qinyu Ge π is a distinguished scholar who earned his Ph.D. in Biomedical Engineering from Southeast University in 2006 π«. Since then, he has devoted his academic career to the same institution, making remarkable contributions to biomedical research π¬. His work has advanced the field through innovative studies and impactful publications π. Prof. Geβs dedication to scientific excellence and education has played a key role in shaping the future of biomedical engineering π. His commitment to research and mentoring young scholars continues to inspire the next generation of scientists π©βπ¬π¨βπ¬.
Research Interests
Prof. Qinyu Ge’s research focuses on innovative techniques in sample treatment and library preparation for high-throughput DNA sequencing. His work explores key areas such as spatial transcriptomics, providing insights into gene expression within tissue architecture π§¬, whole genome methylation studies to understand epigenetic modifications π§ͺ, and advanced DNA microarray design for precise genetic analysis π¬. Through his contributions, Prof. Ge aims to enhance the accuracy and efficiency of genomic technologies, supporting breakthroughs in biomedical research and personalized medicine π. His expertise continues to drive advancements in the rapidly evolving field of genomics and molecular biology.
Applications
Prof. Qinyu Ge is a leading expert in genomic technologies, making significant strides in cell-free nucleic acid analysis, methylation detection, and DNA polymorphism studies. π§¬π¬ His pioneering research has been instrumental in enhancing the accuracy and efficiency of genetic diagnostics, contributing to early disease detection and personalized medicine. π‘𧫠Through innovative approaches, Prof. Geβs work bridges the gap between molecular biology and clinical applications, driving advancements in genomics and biotechnology. ππ His dedication to scientific excellence continues to inspire breakthroughs, shaping the future of genetic research and healthcare. ππ§ͺ
Research Focus
Prof. Qinyu Geβs research focuses on molecular biology, genomics, and bioinformatics π§¬π§ͺ. His work explores transcriptomic analysis, environmental DNA (eDNA) applications, and non-invasive biomarkers for medical diagnostics π§«π¬. He contributes to single-cell data analysis, DNA data storage, and the use of deep learning in predicting transcription factor binding sites π€π. His studies cover areas like embryo selection, prostate cell typing, and neuroscience, including links to Parkinsonβs disease π§ π§. By integrating advanced sequencing techniques with AI-based models, Prof. Ge enhances our understanding of gene expression, disease mechanisms, and biological data analysis. ππ
Publication Top Notes
Acquisition and transcriptomic analysis of tissue micro-regions using a capillary-based method
Environmental DNA integrity index is sensitive for species biomass estimation in freshwater
The biological characteristics of long cell-free DNA in spent embryos culture medium as noninvasive biomarker in in-vitro embryo selection
Performance analysis of markers for prostate cell typing in single-cell data
Advances and Challenges in Random Access Techniques for In Vitro DNA Data Storage
Spatial transcriptomic profiling of isolated microregions in tissue sections utilizing laser-induced forward transfer
Transcriptome Study of rd1Mouse Brain and Association with Parkinsonβs Disease
Effect of Different Staining Methods on Brain Cryosections
Prediction of Transcription Factor Binding Sites on Cell-Free DNA Based on Deep Learning
Deep-Cloud: A Deep Neural Network-Based Approach for Analyzing Differentially Expressed Genes of RNA-seq Data