TY - JOUR
T1 - Comparison of eleven methods for genomic DNA extraction suitable for large-scale whole-genome genotyping and long-term DNA banking using blood samples
AU - Psifidi, A
AU - Dovas, CI
AU - Bramis, G
AU - Lazou, T
AU - Russel, CL
AU - Arsenos, G
AU - Banos, G
N1 - 1023517
PY - 2015/1/30
Y1 - 2015/1/30
N2 - Over the recent years, next generation sequencing and microarray technologies have revolutionized
scientific research with their applications to high-throughput analysis of biological
systems. Isolation of high quantities of pure, intact, double stranded, highly concentrated,
not contaminated genomic DNA is prerequisite for successful and reliable large scale
genotyping analysis. High quantities of pure DNA are also required for the creation of
DNA-banks. In the present study, eleven different DNA extraction procedures, including
phenol-chloroform, silica and magnetic beads based extractions, were examined to
ascertain their relative effectiveness for extracting DNA from ovine blood samples. The
quality and quantity of the differentially extracted DNA was subsequently assessed by
spectrophotometric measurements, Qubit measurements, real-time PCR amplifications
and gel electrophoresis. Processing time, intensity of labor and cost for each method were
also evaluated. Results revealed significant differences among the eleven procedures and
only four of the methods yielded satisfactory outputs. These four methods, comprising three
modified silica based commercial kits (Modified Blood, Modified Tissue, Modified Dx kits)
and an in-house developed magnetic beads based protocol, were most appropriate for
extracting high quality and quantity DNA suitable for large-scale microarray genotyping
and also for long-term DNA storage as demonstrated by their successful application to
600 individuals.
AB - Over the recent years, next generation sequencing and microarray technologies have revolutionized
scientific research with their applications to high-throughput analysis of biological
systems. Isolation of high quantities of pure, intact, double stranded, highly concentrated,
not contaminated genomic DNA is prerequisite for successful and reliable large scale
genotyping analysis. High quantities of pure DNA are also required for the creation of
DNA-banks. In the present study, eleven different DNA extraction procedures, including
phenol-chloroform, silica and magnetic beads based extractions, were examined to
ascertain their relative effectiveness for extracting DNA from ovine blood samples. The
quality and quantity of the differentially extracted DNA was subsequently assessed by
spectrophotometric measurements, Qubit measurements, real-time PCR amplifications
and gel electrophoresis. Processing time, intensity of labor and cost for each method were
also evaluated. Results revealed significant differences among the eleven procedures and
only four of the methods yielded satisfactory outputs. These four methods, comprising three
modified silica based commercial kits (Modified Blood, Modified Tissue, Modified Dx kits)
and an in-house developed magnetic beads based protocol, were most appropriate for
extracting high quality and quantity DNA suitable for large-scale microarray genotyping
and also for long-term DNA storage as demonstrated by their successful application to
600 individuals.
KW - Genomic DNA
KW - Genotyping
U2 - 10.1371/journal.pone.0115960
DO - 10.1371/journal.pone.0115960
M3 - Article
SN - 1932-6203
VL - 10
SP - 1
EP - 18
JO - PLoS ONE
JF - PLoS ONE
IS - 1
M1 - e0115960
ER -