The intrinsic ability of double-stranded DNA to carry out D-loop and R-loop formation

Double-stranded (ds)DNA, not dsRNA, has an ability to form a homologous complex with single-stranded (ss)DNA or ssRNA of homologous sequence. D-loops and homologous triplexes are homologous complexes formed with ssDNA by RecA/Rad51-family homologous-pairing proteins, and are a key intermediate of homologous (genetic/DNA) recombination. R-loop formation independent of transcription (R-loop formation in trans) was recently found to play roles in gene regulation and development of mammals and plants. In addition, the crRNA-Cas effector complex in CRISPR-Cas systems also relies on R-loop formation to recognize specific target. In homologous complex formation, ssDNA/ssRNA finds a homologous sequence in dsDNA by Watson-Crick base-pairing. crRNA-Cas effector complexes appear to actively melt dsDNA to make its bases available for annealing to crRNA. On the other hand, in D-loop formation and homologous-triplex formation, it is likely that dsDNA recognizes the homologous sequence before the melting of its double helix by using its intrinsic molecular function depending on CH(2) at the 2′-position of the deoxyribose, and that the major role of RecA is the extension of ssDNA and the holding dsDNA at a position suitable for homology search. This intrinsic dsDNA function would also play a role in R-loop formation. The dependency of homologous-complex formation on 2′-CH(2) of the deoxyribose would explain the absence of homologous complex formation by dsRNA, and dsDNA as sole genome molecule in all cellular organisms.