Author : Amy Yasko
Publisher :
ISBN 13 : 9780991569137
Total Pages : pages
Book Rating : 4.5/5 (691 download)
Book Synopsis Feel Good about Your SNPs by : Amy Yasko
Download or read book Feel Good about Your SNPs written by Amy Yasko and published by . This book was released on 2020-06-10 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: In 2005, Dr. Amy Yasko introduced one of the first DNA test panels along with thebook entitled Genetic Bypass, as a guide to navigating your DNAimbalances. Since that time a number of other companies have jumpedon the bandwagon as the saying goes, including one of the majoradvertisers of DNA testing who introduced their DNA panel severalyears later, in 2007. Drawing on her background in molecular biology,she went into great detail describing the genes in Genetic Bypass asthere was limited supporting information in print at that time. Over thepast fifteen years since first publishing that book, a large volume ofliterature is now available online and in print giving the standard textbook type information on these DNA changes.With all of that genericinformation now available, Dr. Yasko felt it was time to write a new book thatfocused on her personal observations over the past 15 years and whatshe has found to be the most critical to consider when addressing these SNPs.This new book, Feel Good About Your SNPs, gives more targetedsuggestions based on the composite of SNP imbalances juxtaposedwith biochemical test data. The suggestions in this current book arebased on her personal experience in literally commentingon over 100,000 biochemical tests in concert with looking at close totwenty thousand DNA SNP panels in concert with those biochemicaltests. Working from thisbook, Feel Good About Your SNPs, which describes options basedon DNA SNP results and also referencing her prior books Feel GoodSupplements, Feel Good Biochemistry, and Feel Good Nucleotides should enable you and your doctor tocustomize a health plan that takes into account DNA results as well asone's own unique biochemistry.