Genomics is an interdisciplinary field of molecular biology focusing on the DNA content of living organisms. High-throughput sequencing technologies and bioinformatics have transformed genome analysis by mapping and decrypting coding and non-coding DNA sequences, their evolution and inter-relationships.
Software tools are proposed here for genome annotation, phylogenomics studies, comparative genomics, genome editing, genome variant and DNA structure analysis, personal and population genomics, as well as epigenomic modifications which include DNA methylation, histone modifications and nucleosome positioning. The understanding of genomic data is opening many opportunities for health and medical research, such as personalized medicine and biomarkers discovery for diagnosis and treatment of cancer and numerous diseases.
Including:
- Gene Ontology Annotation
- GO Semantic Similarity Analysis
- Promoter Predication
- Annotation Workflows
Including:
- DNA structure analysis
- DNA structure Database
- Small-angle scattering
Including:
- Genome Edition
- Genome Editing Databases
- CRISPR/Cas9 Screen Analysis
Including:
- Population genetic analysis
- GBS analysis
- RAD-seq analysis
Including:
- HT-SELEX Analysis
- DNase-seq Analysis
- ChIO-seq Analysis
Including:
- Phylogenetic inference
- Phylogenetic Network Construction
- Discrete Character Evolution
- Tumor Progression
- Tree Visualization