The analysis of human genetic variability can lead to the comprehension of medical issues and to the development of personalized therapeutic protocols. Single nucleotide polymorphisms, are the most common type of human genetic variation and have been associated to disease development and phenotype forecasting. The recent technologies for DNA sequencing and bioinformatic analysis are now giving the opportunity to develop new diagnostic and prevention approaches also through health promotion protocols. The genetic data management is at the same time underlining technical limitations and old ethical issues.
The analysis of human genetic variability can lead to the comprehension of medical issues and to the development of personalized therapeutic protocols. Single nucleotide polymorphisms, are the most common type of human genetic variation and have been associated to disease development and phenotype forecasting. The recent technologies for DNA sequencing and bioinformatic analysis are now giving the opportunity to develop new diagnostic and prevention approaches also through health promotion protocols. The genetic data management is at the same time underlining technical limitations and old ethical issues
The SNPs in the human genetic blueprint era
Giampaoli S;Valeriani F;Romano Spica V
2013-01-01
Abstract
The analysis of human genetic variability can lead to the comprehension of medical issues and to the development of personalized therapeutic protocols. Single nucleotide polymorphisms, are the most common type of human genetic variation and have been associated to disease development and phenotype forecasting. The recent technologies for DNA sequencing and bioinformatic analysis are now giving the opportunity to develop new diagnostic and prevention approaches also through health promotion protocols. The genetic data management is at the same time underlining technical limitations and old ethical issues.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
