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Applications of genomics and proteomics ppt
- 1. APPLICATIONS OF GENOMICS AND PROTEOMICS
- 2. INTRODUCTION GENOMICS: • Genomics is the field of genetics that attempts to understand the content, organization, function, and evolution of genetic information contained in whole genome. • PROTEOMICS: • The study of the structure and function of proteins, including the way they work and interact with each other inside the cells.
- 3. APPLICATIONS OF GENOMICS AND PROTEOMICS IN DIFFERENT FIELDS • Health • Agriculture • Pharmaceuticals • Forensic analysis
- 4. IN FIELD OF HEALTH • ONCOLOGY • Study of tumor cells is known as oncology. • Proteomic technologies have been used for the study of biology of cancer of various organs .
- 5. Example: Blood proteins to detect brain tumor: • Glioblastoma multiforme (GBM) is a fast growing , high grade brain tumor. . • Glioma brain tumors are caused due to an uncontrolled increase in certain cells known as glial cells.
- 6. CONTINUED… • It is possible to detect GBM by analysis of proteins in the blood serum. • Using proteins to detect diseases is part of proteomics. • Researches found almost 55 differently expressed proteins in GBM patients. Of these, 4 proteins are more important because of their contribution to tumor gr0wth.
- 7. Bio-medical applications • The study of interactions between microbial pathogens and their hosts is called infect omics. • It is very interesting area in proteomics. It deals with the fundamentals of the infections origin and their effect on organs. • The main aim of this research is to prevent or cure disease at starting level.
- 8. Agricultural applications • Genomics can reduce the trials and failures involved in scientific research , which could improve the quality and quantity of crop yields in agriculture. • Linking traits to genes or gene signatures helps to improve crop breeding to generate hybrids with the most desirable qualities.
- 9. Cont….. • Genomics can improve the quality and quantity of agricultural production. • For example, scientist could use desirable traits to create a useful product or enhance an existing product, such making a drought-sensitive crop more tolerant of the dry season.
- 10. Proteomics in agriculture • Proteomics is used to know plant-insect interactions that help identify candidate genes involved in the defensive response of plants to herbivore.
- 11. FORENSIC ANALYSIS • Information and clues obtained from DNA samples found at crime sites have been used as evidence in court cases, and genetic markers have been used in forensic analysis.
- 12. Diagnosis of infectious diseases • Sequencing the genomes of microorganisms which cause human infection can identify the exact organism causing symptoms, help to trace the cause of infectious outbreaks, and give information as to which antibiotics are most likely to be effective in treatment.
- 13. Genomics in microbial vaccine development • Vaccination is one of the most effective tools for the prevention of infectious diseases. • The availability of complete genome sequences, together with the progression of high-throughput technologies such as functional and structural genomics, has led to a new paradigm in vaccine development.
- 14. Personalized medicines • As the exact DNA sequence of the genome of each human is unique to them, we will all have unique disease susceptibilities and treatment responses. • Personalised medicine describes the use of our genetic information to tailor health care intervention to our own individual need.
- 15. Pharmacogenetics and targeted therapy • Genetics information may be used to predict whether a person will respond to a particular drug, how well they will respond to that drug and whether they are likely to get any side effects from the use of a specific drug. • In some cases, such as cancer, the genetic drivers of disease and then give drugs which specifically target that pathway, this is known as targeted therapy.
- 16. Gene therapy • Gene therapy involves the administration of DNA or RNA in order to correct a genetic abnormality , or modify the expression of genes. • Genome editing: • Genome editing uses molecular techniques to modify the genome –genome editing can add in, cut out, or replace sections of the DNA sequence.