Characterization of denaturation and renaturation of DNA for DNA hybridization

OBJECTIVES

The present study was designed to systematically characterize the denaturation and the renaturation of double stranded DNA (dsDNA), which is suitable for DNA hybridization.

METHODS

A series of physical and chemical denaturation methods were implemented on well-defined 86-bp dsDNA fragment. The degree of each denaturation was measured and the most suitable denaturation method was determined. DNA renaturation tendency was also investigated for the suggested denaturation method.

RESULTS

Heating, beads mill, and sonication bath did not show any denaturation for 30 minutes. However probe sonication fully denatured DNA in 5 minutes. 1 mol/L sodium hydroxide (alkaline treatment) and 60% dimethyl sulfoxide (DMSO) treatment fully denatured DNA in 2-5 minutes.

CONCLUSIONS

Among all the physical methods applied, the direct probe sonication was the most effective way to denature the DNA fragments. Among chemical methods, 60% DMSO was the most adequate denaturation method since it does not cause full renaturation during DNA hybridization.

Quantitative detection of Plesiomonas shigelloides in clam and oyster tissue by PCR

A quantitative assay for Plesiomonas shigelloides in clams and oysters based on the conventional polymerase chain reaction was developed. The assay involved the treatment of homogenized tissue samples with 4.0% formaldehyde that presumably denatured DNases and proteases present in the tissue which would otherwise inactivate the PCR reaction. The level of detection of P. shigelloides in clam tissue without enrichment was 200 CFU/g. The addition of 0.1% bovine serum albumin (BSA) to PCR reactions or the DNA purification system reduced the level of detection to 60 CFU/g. Formaldehyde had no effect on the level of detection with clam tissue. The level of detection of P. shigelloides in oyster tissue without enrichment was 6x10(5) CFU/g. The addition of 4.0% formaldehyde to oyster tissue homogenates reduced the level of detection to 6x10(2) CFU/g in contrast to the addition of 0.1% BSA to PCR reactions or the DNA purification system which reduced the level of detection to only 2x10(5) CFU/g. The combination of formaldehyde plus BSA, formaldehyde plus DNA purification, or formaldehyde plus BSA plus DNA purification all gave a detection level of 2x10(2) CFU/g of oyster tissue. With clam tissue, the linear range for detection of P. shigelloides was 60 to 2x10(4) CFU/g. With oyster tissue, the linear range for detection of P. shigelloides was 2x10(2) to 6x10(4 )CFU/g.