Kentaro Irie scite author profile

Corn cystatin (CC), a phytocystatin, shows a wide inhibitory spectrum against various cysteine proteinases. We produced transgenic rice plants by introducing CC cDNA under CaMV 35S promoter as a first step to obtain a rice plant with insecticidal activity. This attempt was based on the observation that many insect pests, especially Coleoptera, have cysteine proteinases, probably digestive enzymes, and also that oryzacystatin, an intrinsic rice cystatin, shows a narrow inhibition spectrum and is present in ordinary rice seeds in insufficient amounts to inhibit the cysteine proteinases of rice insect pests. The transgenic rice plants generated contained high levels of CC mRNA and CC protein in both seeds and leaves, the CC protein content of the seed reaching ca. 2% of the total heat soluble protein. We also recovered CC activity from seeds and found that the CC fraction efficiently inhibited both papain and cathepsin H, whereas the corresponding fraction from non-transformed rice seeds showed much lower or undetectable inhibitory activities against these cysteine proteinases. Furthermore, CC prepared from transgenic rice plants showed potent inhibitory activity against proteinases that occur in the gut of the insect pest, Sitophilus zeamais.

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Oryzacystatin Exogenously Introduced into Protoplasts and Regeneration of Transgenic Rice

Hosoyama

Irie

Abe

et al. 1994

Bioscience, Biotechnology, and Biochemistry

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Oryzacystatin (OC) is a proteinaceous cysteine proteinase inhibitor involved in the biodefense of rice seeds. To create transgenic rice plants with increased OC activity, we introduced an OC expressing vector into rice protoplasts and obtained transformed calli. The expression vector contained a bacterial inaA DNA fragment in the 3'-noncoding region as a tag to distinguish the introduced DNA from the intrinsic OC gene. The OC vector and a selection marker gene conferring hygromycin resistance were used together to transfect into rice protoplasts. A number of hygromycin-resistant calli were obtained and studied by polymerase chain reaction and genomic Southern blotting to find if the exogenous OC gene had been integrated. The calli were studied by northern blotting as well to examine mRNA expression. The results showed that integration and expression of the introduced OC gene occurred in 51% and 27%, respectively, of 156 subcultures from 15 hygromycin-resistant calli. As a final step, transgenic rice plants were regenerated from the calli expressing OC. Leaves and seeds from the plants had higher OC activities than those from nontransgenic plants.

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Introduction of a chimeric gene encoding an oryzacystatin-β-glucuronidase fusion protein into rice protoplasts and regeneration of transformed plants

et al. 1995

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In order to construct transgenic rice plant with an introduced oryzacystatin (OC)-β-glucuronidase (GUS) fusion gene, we first introduced it into rice protoplasts by electroporation, together with a marker gene conferring hygromycinresistance (pUC-HPH). In a transient assay using the transfected protoplasts, both OC and GUS activities were detected. The GUS activity was higher when the OC-GUS fusion protein was expressed than when only a single GUS protein was expressed. Next, to isolate stable transformants, hygromycin-resistant calli were selected. Forty one out of 116 hygromycin-resistant calli expressed a 2.2 kb mRNA transcribed from the chimeric gene and their extracts exhibited the activities of both OC and GUS. Finally, the transgenic calli were regenerated into rice plants whose tissues (leaves, roots and seeds) exhibited GUS activity probably derived from the fusion protein.

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Kentaro Irie

Transgenic rice established to express corn cystatin exhibits strong inhibitory activity against insect gut proteinases

Oryzacystatin Exogenously Introduced into Protoplasts and Regeneration of Transgenic Rice

Introduction of a chimeric gene encoding an oryzacystatin-β-glucuronidase fusion protein into rice protoplasts and regeneration of transformed plants

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