Abstract
The progress in genome-scale approaches to human diseases will soon require to understand the function of a large number of genes as potentially interesting therapeutic targets. The determination of their biological role needs to be accelerated in order to select valid therapeutic targets and streamline the drug discovery process. The sequencing of the human genome, as well as a number of model organisms, provides a strong framework to achieve this goal. Several methods among which gene expression profiling and protein interaction mapping are being used on a large-scale basis and constitute useful entry points to identify pathways involved in disease mechanisms. The resulting information is however limited. Other methods rely on the genetic manipulation of well-characterized and simple model organisms (SMOs) to reconstruct human disease-associated pathways and pinpoint biologically-valid therapeutic targets on the basis of function-based datasets generated in vivo. SMOs are strongly complementary to well-established complex mammalian models, and multiple ways exist to integrate SMOs into the early stage of the drug discovery process. In this review, we attempt to highlight some of the general criteria and essential methodological components associated with the use of SMO technologies for rapid functional genomics. Examples are provided to illustrate the utility of C. elegans and Drososphila for the validation of targets for central nervous system drugs.
Keywords: Therapeutic Targets, Simple model organisms SMOs, ESTs, CDNAs, Protein, EST expression Profiles, Biallelic Single uncleotide markers, DNA array, Proteomics, Target Validation
Call for Papers in Thematic Issues
Current Genomics in Cardiovascular Research
Cardiovascular diseases are the main cause of death in the world, in recent years we have had important advances in the interaction between cardiovascular disease and genomics. In this Research Topic, we intend for researchers to present their results with a focus on basic, translational and clinical investigations associated with ...read more
Deep learning in Single Cell Analysis
The field of biology is undergoing a revolution in our ability to study individual cells at the molecular level, and to integrate data from multiple sources and modalities. This has been made possible by advances in technologies for single-cell sequencing, multi-omics profiling, spatial transcriptomics, and high-throughput imaging, as well as ...read more
New insights on Pediatric Tumors and Associated Cancer Predisposition Syndromes
Because of the broad spectrum of children cancer susceptibility, the diagnosis of cancer risk syndromes in children is rarely used in direct cancer treatment. The field of pediatric cancer genetics and genomics will only continue to expand as a result of increasing use of genetic testing tools. It's possible that ...read more
Related Journals
Related Books
Industrial Applications of Soil Microbes
Industrial Applications of Soil Microbes
Algal Biotechnology for Fuel Applications
Omics Technologies for Clinical Diagnosis and Gene Therapy: Medical Applications in Human Genetics
Biopolymers Towards Green and Sustainable Development
Environmental Microbiology: Advanced Research and Multidisciplinary Applications
Biomarkers in Medicine
Industrial Applications of Soil Microbes
Sustainable Utilization of Fungi in Agriculture and Industry
Myconanotechnology: Green Chemistry for Sustainable Development
1