Mapping and sequencing the human genome will result in new information and materials of potential commercial value, for example, clones that encode previously undiscovered hormones, growth factors, or mediators of immunity.
What are some of the implications of the human genome Project?
The development of designer drugs, based on a genomic approach to targeting molecular pathways that are disrupted in disease, will follow soon after. Potential misuses of genetic information, such as discrimination in obtaining health insurance and in the workplace, will need to be dealt with swiftly and effectively.
What are the implications of the human genome Project HGP approach taken by science?
The HGP participants had agreed all along to release all maps and all DNA sequence data into public databases. With access to increasingly detailed maps of the genome, the research community began to identify genes involved in diseases more and more quickly.
What are the implications of genome research?
Genetics research may result in the discovery of information that is powerful and potentially predictive. In addition, such information may have familial implications. While in some cases such information may be beneficial to research subjects and their families, there is also potential for misinterpretation or misuse.
Why is it important to understand the human genome?
The whole human genome has been studied, and this has great importance for medicine. In order to exploit its secrets, it is vital that the human genome is fully understood. Scientists are searching for disease associated genes. … The pedigree analysis illustrates the inheritance pattern of the disease to be determined.
What is the human genome project and its purpose?
The Human Genome Project was an international research project that sequenced all of the genes found in humans. This ambitious project began in 1990 and concluded in 2003. One goal of the project was to accurately sequence the 3 billion nucleotide base pairs in the human genome.
Which best describes the impact that the human genome Project has has on society?
Which best describes the impact the Human Genome Project has had on gene therapy? It has provided a map of where certain genetic diseases are located within the genome.
What did we learn from the human genome project?
The Human Genome Project identified the full set of human genes, sequenced them all, and identified some of the alleles, particularly those that can cause disease when they get mutated. Genes can be mapped relative to physical features of the chromosome, or relative to other genes.
How will the human genome Project revolutionize the way medicine is practiced?
A huge breakthrough in medicine has been the ability to sequence the DNA in cancer cells. The sequence can be compared to the sequence found by the Human Genome Project. This allows scientists to work out which genes are mutated and this gives them ideas for developing medicines.
How will the human genome Project help us in the future?
The Human Genome Project, the mapping of our 30,000-50,000 genes and the sequencing of all of our DNA, will have major impact on biomedical research and the whole of therapeutic and preventive health care. The tracing of genetic diseases to their molecular causes is rapidly expanding diagnostic and preventive options.
What are the ethical implications of genome research?
When the genomic data are publicly accessible, there is a risk of discrimination during enrollment for a job or obtaining health insurance. Individuals could be denied a job or an insurance policy based on the genetic information which suggests the risk of susceptibility to any chronic disease or cancer.
What are the benefits of genome sequencing?
The primary purpose of sequencing one’s genome is to obtain information of medical value for future care. Genomic sequencing can provide information on genetic variants that can lead to disease or can increase the risk of disease development, even in asymptomatic people.
What is the importance of proteomics?
It enables correlations to be drawn between the range of proteins produced by a cell or tissue and the initiation or progression of a disease state. Proteomics research permits the discovery of new protein markers for diagnostic purposes and the study of novel molecular targets for drug discovery.