BACKGROUND: Polymerase chain reaction (PCR) using DNA from blood samples is a valuable tool in the field of medical diagnostics. However, DNA isolation from blood is a laborious and sample-consuming step, and hampers the automation of PCR for large-scale studies. Attempts to perform PCR from blood without DNA isolation have been difficult to achieve, since numerous endogenous and exogenous blood constituents may inhibit PCR. METHODS: We used a novel buffer system, 'AnyDirect', that conserves the enzymatic activity of DNA polymerases for effective use in direct PCR from whole blood under various conditions. RESULTS: Using AnyDirect, DNA amplification was achieved from whole blood with a variety of thermostable DNA polymerases. Amplification occurred regardless of target size (up to 1.7 kb), presence of various known PCR inhibitors, and high target GC content. Importantly, low copy number DNA targets were effectively amplified from whole blood. CONCLUSIONS: AnyDirect buffer allows direct PCR from whole blood and may facilitate detection of genetic diseases or infections by eliminating the time and effort for DNA extraction. The use of AnyDirect could facilitate the development of high-throughput PCR for large-scale diagnostic screening or investigation of various medical conditions.
BACKGROUND: Polymerase chain reaction (PCR) using DNA from blood samples is a valuable tool in the field of medical diagnostics. However, DNA isolation from blood is a laborious and sample-consuming step, and hampers the automation of PCR for large-scale studies. Attempts to perform PCR from blood without DNA isolation have been difficult to achieve, since numerous endogenous and exogenous blood constituents may inhibit PCR. METHODS: We used a novel buffer system, 'AnyDirect', that conserves the enzymatic activity of DNA polymerases for effective use in direct PCR from whole blood under various conditions. RESULTS: Using AnyDirect, DNA amplification was achieved from whole blood with a variety of thermostable DNA polymerases. Amplification occurred regardless of target size (up to 1.7 kb), presence of various known PCR inhibitors, and high target GC content. Importantly, low copy number DNA targets were effectively amplified from whole blood. CONCLUSIONS: AnyDirect buffer allows direct PCR from whole blood and may facilitate detection of genetic diseases or infections by eliminating the time and effort for DNA extraction. The use of AnyDirect could facilitate the development of high-throughput PCR for large-scale diagnostic screening or investigation of various medical conditions.