Progress, and Applications
of the Human Genome Project
Sponsored by the U.S. Department of Energy Human Genome Program
Human Genome News Archive Edition
In this issue...
In the News
Web, Publications, Resources
Fast Forward to 2020: What to Expect in Molecular Medicine
This article was originally written for and will appear in the online magazine TNTY Futures. Free subscriptions are available through the Web site. In this article, the authors speculate about the possible future changes in medicial practice resulting from genome research.
The first phase of the ambitious international effort to determine the entire sequence of the human chromosome set is virtually complete. Human Genome Project scientists plan to finish the human sequence by 2003, along with a database of the most common sequence variations that distinguish one person from another. This knowledge base, freely available to any interested person over the Internet, will revolutionize biology and medicine. But how? What will be different 20 years from now because the human genome was sequenced?
Only time will prove the accuracy of the following predictions, but here is a list of some effects we might expect in 2020.
More Effective Pharmaceuticals
Your medical record will include your complete genome as well as a catalogue of single base-pair variations that can be used to accurately predict your responses to certain drugs and environmental substances. This will permit you to be treated as a biochemical and genetic individual, thus making medical interventions more specific, precise, and successful. In addition, the increased power of medicine to predict susceptibility to specific diseases will allow you to alter your lifestyle to reduce the likelihood of developing such diseases or to be treated with preventive or disease-delaying medicine.
Treatment failures occasionally happen today with drugs for hepatitis C infections, antihypertensives, and certain antidepressants (selective serotonin reuptake inhibitors like Prozac). In the next 15 to 20 years, more effective drugs will be developed, and doctors will test individual genetic profiles against panels of drugs available for a specific condition and choose the treatment with the greatest potential benefit for each patient.
Today, some 100,000 people die each year from adverse reactions to drugs, and millions of others must bear uncomfortable or even dangerous side effects. We see such current examples as heart-valve abnormalities from diet drugs, muscle damage from some hormone-regulating drugs, and nervous system effects with certain types of antidepressant medications. As genes and other DNA sequences that influence drug response are identified, we can expect the number of toxic responses to drop dramatically and most side effects to be eliminated.
Genetic Testing, Therapy
Some of the mysteries of early embryonic development will be solved. We should know the timing of expression of most, perhaps all, of the human gene set. We may have learned how to direct differentiation so that a desired cell type or even relatively simple organs and parts of more complex organs can be grown for transplantation. In 2020, we will have made substantial progress towards true cloning of certain organs, but many difficult technical steps will remain before successful cloning of a heart or liver.
As genetic testing using DNA sequence becomes less expensive and more accurate, it will be used commonly and reliably in cases of mistaken identity, false or misattributed paternity, and the identification of missing persons. Misguided attempts to ascribe behavioral tendencies to a persons genes will cause many problems, especially for the courts that must resolve disputes when an individuals behavior and actions conflict with laws. Should society (via the courts) interpret behavior as a consequence of free will or as influenced by genetic constitution? At what point does society mitigate responsibility or punishment?
We will fitfully and slowly gain some insights into biological complexity. In 2020, we will know how to build a functioning cell capable of free-living existence. We will understand certain pathways used by this simplest cell, but there still will be unanswered questions about it. We will be virtually no closer than we are today to the mysteries of such true emergent properties as intelligence in complex multicellular organisms.
The electronic form of the newsletter may be cited in the following style:
Last modified: Wednesday, October 29, 2003
Home * Contacts * Disclaimer
Document Use and Credits
Publications and webpages on this site were created by the U.S. Department of Energy Genome Program's Biological and Environmental Research Information System (BERIS). Permission to use these documents is not needed, but please credit the U.S. Department of Energy Genome Programs and provide the website http://genomics.energy.gov. All other materials were provided by third parties and not created by the U.S. Department of Energy. You must contact the person listed in the citation before using those documents.
Base URL: www.ornl.gov/hgmis
Site sponsored by the U.S. Department of Energy Office of Science, Office of Biological and Environmental Research, Human Genome Program