Abstract: A method for deparaffinizing an FFPE tissue sample comprises mixing the FFPE tissue sample with an organic solvent to form a first mixture (10). A surfactant is added to the first mixture (10) to form a second mixture. The second mixture is separated into an organic solvent layer (11) and a surfactant layer (12). The surfactant layer (12) comprises a deparaffinized tissue sample from the FFPE tissue sample. The method also comprises adding water or an aqueous solution to the separated second mixture to form an organic solvent layer (11), a water or aqueous solution layer (13) and a surfactant layer (12). This surfactant layer comprises the deparaffinized tissue sample.
Type:
Grant
Filed:
November 25, 2016
Date of Patent:
April 30, 2019
Assignee:
EXSCALE BIOSPECIMEN SOLUTIONS AB
Inventors:
Lucy Mathot, Karin Hartman, Tobias Sjöblom
Abstract: The invention provides a process and kit for serial isolation of DNA and RNA from the same sample. First, a siliceous solid support with preferential affinity for DNA over RNA is used to capture DNA in a lysate of a sample. Next, a siliceous solid support with similar affinity for RNA and DNA is used to capture RNA from the same lysate. The respective solid supports are recovered independent of each other, washed, and their bound nucleotide species are eluted. The invention further provides DNA and RNA prepared using the process in a minimal number of steps employing a minimal number of reagents. As the invention yields DNA and RNA of high quality and is amenable to automation, the invention may be used widely in the healthcare and pharmaceutical industries.