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Anatomy and Physiology Bioinformatics BioPharma Cardiovascular System Central Nervous System (Neurology) Diabetes Gastrointestinal System Good Clinical Practice (GCP) Good Laboratory Practice (GLP) Good Manufacturing Practice (GMP) Immunology Infection IS/IT Series Marketing & Selling Medical Devices Musculoskeletal System Oncology Ophthalmology Pain Psychiatric Disorders Quality Control (QC) Respiratory System Urology Validation
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| | Genomics Duration: 1 Hour and 15 Minutes
Certificate of Completion:
Provided immediately upon successful completion. |
Ordering For Multiple Users (training 10 - 200 users, annually) see GeneEd's On Demand Training |
|
 Genomics
Description: This course provides an introduction to the field of genomics. It covers the structure of the human genome, and the strategies that were used to map and sequence the genome, and details how genomic sequence information is utilized for pharmacogenomics, drug discovery and diagnostics. The course also introduces post-genomics technologies such as bioinformatics, functional genomics and proteomics.
Similar or Related Courses & Suites:
SUITE: Biopharmaceutical Technology: Five Course Suite
 Combinatorial Chemistry
Human Gene Therapy
Computer-Assisted Drug Design
Genomics
Immunity and Disease
SUITE: Biopharmaceutical Technology: Complete Six Course Suite
Combinatorial Chemistry
Immunity and Disease
Bioinformatics
Genomics
Computer-Assisted Drug Design
Human Gene Therapy
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| Genomics
OUTLINE
INTRODUCTION
1. Course Information
2. Interface Tour
3. Course Overview
THE GENOME
4. Objectives
5. Chromosomal Structure
6. DNA Structure
7. DNA Polymorphisms
8. Progress Check
SEQUENCING THE GENOME
8. Objectives
9. HGI Administration and Goals
10. Sequencing the Human Genome
11. Positional Cloning
12. Expression-Based Sequencing
13. DNA Sequencing
14. Human Genome Analysis
15. Progress Check
GENOMIC APPLICTIONS
16. Objectives
17. Genomic Successes
18. Applications of HGI
19. Pharmacogenomics
20. Applications of Genomics
21. Proteomics
22. Drug Targets
23. Progress Check
THE POST-GENOMIC ERA
23. Objectives
24. Bioinformatics
25. Functional Genomics
26. Ethical, Legal, Social Issues
27. Progress Check
CONCLUSION
29. Summary
| | Genomics
OBJECTIVES
Students completing this course, Genomics, should be able to:
Describe the structure of DNA
Explain the composition and structure of the human genome
Give examples of the variations or polymorphisms that occur through out the human genome
Describe the two strategies used to map and sequence the human genome
Understand the concept of DNA markers and how they can be used to map disease genes
Explain how DNA sequencing is performed
Explain how DNA microarrays can be used for sequencing
List the four ways in which genomics information is used to generate new therapeutic agents
Explain how genomics information is used to generate new anti-microbials and new diagnostic assays
Understand the concept of Pharmacogenomics
Specify how genomics information is used in the area of drug development
Specify the different methods for collating and analyzing the mass of information resulting from the human genome sequence
Describe how the function of novel genes is determined
Explain the proteomics approach that will map and characterize all of the proteins encoded by the genome |
BROWSE COURSES BY CATALOG:
| Best Practices in Biopharma Manufacturing | Best Practices in Clinical Research | Biotechnology & Genetics | Major Therapeutic Areas | Pharmaceutical and Healthcare Codes of Conduct |
BROWSE OTHER COURSES BY DISCIPLINE:
| Anatomy and Physiology | Bioinformatics | BioPharma | Cardiovascular System | Central Nervous System (Neurology) | Diabetes | Gastrointestinal System | Good Clinical Practice (GCP) | Good Laboratory Practice (GLP) | Good Manufacturing Practice (GMP) | Immunology | Infection | IS/IT Series | Marketing & Selling | Medical Devices | Musculoskeletal System | Oncology | Ophthalmology | Pain | Psychiatric Disorders | Quality Control (QC) | Respiratory System | Urology | Validation |
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