Simulative representation of biological knowledge using object-oriented database language
スポンサーリンク
概要
- 論文の詳細を見る
Major advances in bio-technology enable us to describe various phenomena occuring in the body using the language of genes and proteins. It is important to represent these phenomena in knowledge base. and to visualize them properly. The visualization of the phenomena with reference to related databases facilitates research on genes.<BR>As the first step in realizing a database like the one stated above, we have studied the representation of biological knowledge needed to describe biological phenomena and have developed a prototype knowledge base. The knowledge base is described in micro-Quixote, an object-oriented database language executable on Unix. The knowledge base can cover the knowledge related to signal transduction within a cell and that related to transcription of genes.<BR>In our prototype system, a sort of simulation can be done. With the arrival of a signaling ligand at the surface of a cell, proteins along suitable pathways are activated in our simulated cell. As a consequence of series of activations (a chain of inferences), some biological responses are deduced and shown to users.
- 日本バイオインフォマティクス学会の論文
日本バイオインフォマティクス学会 | 論文
- Performance Improvement in Protein N-Myristoyl Classification by BONSAI with Insignificant Indexing Symbol
- A combined pathway to simulate CDK-dependent phosphorylation and ARF-dependent stabilization for p53 transcriptional activity
- A versatile petri net based architecture for modeling and simulation of complex biological processes
- XML documentation of biopathways and their simulations in Genomic Object Net
- Prediction of debacle points for robustness of biological pathways by using recurrent neural networks