The hyperthermophile Pyrococcus yayanosii CH1 is the only high-pressure-requiring microorganism obtained thus far within the archaea domain or among all non-psychrophiles in any domain. In this study, we developed a genetic manipulation system for P. yayanosii after first isolating a facultatively piezophilic derivative strain, designated P. yayanosii A1. The 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase gene was overexpressed in strain P. yayanosii A1 and was demonstrated to confer host cell resistance against simvastatin. Furthermore, using simvastatin as a selection marker, the endogenous pyrF of P. yayanosii A1 was disrupted through homologous recombination, thus generating the additional host strain P. yayanosii A2 (ΔpyrF). A markerless gene disruption vector was constructed by incorporating a pyrF-sim (R) cassette that enables the combined use of simvastatin resistance for positive selection and 5-FOA for counter selection. The utility of this versatile disruption system was demonstrated by deleting the carbon-nitrogen hydrolase of P. yayanosii strain A1. These results demonstrate that a variety of genetic tools are now in place to study unknown gene function and the molecular mechanisms of piezophilic adaptation in P. yayanosii.