Taiichi Ono scite author profile

SummaryRice cultivars vary widely in their sensitivity to ultraviolet B (UVB) and this has been correlated with cyclobutane pyrimidine dimer (CPD) photolyase mutations that alter the structure/function of this photorepair enzyme. Here, we tested whether CPD photolyase function determines the UVB sensitivity of rice (Oryza sativa) by generating transgenic rice plants bearing the CPD photolyase gene of the UV-resistant rice cultivar Sasanishiki in the sense orientation (S-B and S-C lines) or the antisense orientation (AS-D line). The S-B and S-C plants had 5.1-and 45.7-fold higher CPD photolyase activities than the wild-type, respectively, were significantly more resistant to UVB-induced growth damage, and maintained significantly lower CPD levels in their leaves during growth under elevated UVB radiation. Conversely, the AS-D plant had little photolyase activity, was severely damaged by elevated UVB radiation, and maintained higher CPD levels in its leaves during growth under UVB radiation. Notably, the S-C plant was not more resistant to UVB-induced growth inhibition than the S-B plant, even though it had much higher CPD photolyase activity. These results strongly indicate that UVB-induced CPDs are one of principal causes of UVB-induced growth inhibition in rice plants grown under supplementary UVB radiation, and that increasing CPD photolyase activity can significantly alleviate UVB-caused growth inhibition in rice. However, further protection from UVB-induced damage may require the genetic enhancement of other systems as well.

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Augmentation of CPD photolyase activity in japonica and indica rice increases their UVB resistance but still leaves the difference in their sensitivities

Teranishi

Taguchi

Ono

et al. 2012

Photochem Photobiol Sci

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Rice cultivars vary widely in their sensitivity to ultraviolet B (UVB, 280-320 nm). Specifically, many indica rice cultivars from tropical regions, where UVB radiation is higher, are hypersensitive to UVB. Photoreactivation mediated by the photolyase enzyme is the major pathway for repairing UVB-induced cyclobutane pyrimidine dimers (CPDs) in plants. Still, these UVB-sensitive cultivars are less able to repair CPDs through photoreactivation than UVB-resistant cultivars. Here, we produced CPD photolyase-overexpressing transgenic rice plants with higher CPD photolyase activity using UVB-sensitive rice Norin 1 (japonica) and UVB-hypersensitive rice Surjamkhi (indica) as parental line (PL) plants. The results show that these transgenic rice plants were much more resistant to UVB-induced growth inhibition than were PL cultivars. The present findings strongly indicate that UVB-resistance, caused by an increase in CPD photolyase activity, can be achieved in various rice cultivars. However, there was a difference in the level of reduction of UVB-induced growth inhibition among rice cultivars; the level of reduction of growth inhibition in transgenic rice plants generated from the indica strain was lower than that of transgenic rice plants generated from japonica strains. These results indicate that the growth of the UVB-hypersensitive indica strain was strongly inhibited by other factors in addition to CPD levels.

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Taiichi Ono

Increase in CPD photolyase activity functions effectively to prevent growth inhibition caused by UVB radiation

Augmentation of CPD photolyase activity in japonica and indica rice increases their UVB resistance but still leaves the difference in their sensitivities

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