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cry3B内毒素基因的特定序列修饰导致高水平表达和抗虫性。

Specific sequence modifications of a cry3B endotoxin gene result in high levels of expression and insect resistance.

作者信息

Iannacone R, Grieco P D, Cellini F

机构信息

Metapontum Agrobios, Metaponto (MT), Italy.

出版信息

Plant Mol Biol. 1997 Jun;34(3):485-96. doi: 10.1023/a:1005876323398.

DOI:10.1023/a:1005876323398
PMID:9225859
Abstract

Solanum melongena (eggplant) cv. Picentia and the wild species Solanum integrifolium were transformed with both a wild type (wt) and four mutagenized versions of Bacillus thuringiensis (Bt) gene Bt43 belonging to the cry3 class. The Bt gene was partly modified in its nucleotide sequence by replacing four target regions (W: +1 to +170; X: +592 to +1057; Y: +1203 to +1376; Z: +1376 to +1984) with synthetic fragments obtained by polymerase chain reaction amplification of crude oligonucleotides. The synthetic Bt genes were designed to avoid, in their modified regions, sequences such as ATTTA sequence, polyadenylation sequences and splicing sites, which might destabilize the messenger RNA. Furthermore, the codon usage was improved for a better expression in the plant system. The amino acid composition was not altered. Four versions of the modified Bt gene were obtained, BtE, BtF, BtH and BtI, with a nucleotide subtitution percentage of 8.2, 8.6, 14, and 16%, respectively, in comparison to the wt gene Bt43. Modified versions contained different subsets of substituted regions: BtE-W + Z, BtF - Y + Z, BtH-X + Y + Z, BtI - W + X + Y + Z. In the final modified version (BtI), overall guanine+cytosine was increased from the 34.1% of the wt gene to 45.5%, and most of the destabilizing sequences were eliminated. Transgenic plants obtained with the more modified versions, BtH and BtI, were fully resistant to Leptinotarsa decemlineata Say first- and third-instar larvae, while Bt43 wt, BtE and BtF genotypes did not cause mortality and did not affect larval development.

摘要

用野生型和属于cry3类的苏云金芽孢杆菌(Bt)基因Bt43的四个诱变版本对茄子品种Picentia和野生种茄进行了转化。通过用聚合酶链反应扩增粗寡核苷酸获得的合成片段替换四个靶区域(W:+1至+170;X:+592至+1057;Y:+1203至+1376;Z:+1376至+1984),对Bt基因的核苷酸序列进行了部分修饰。设计合成的Bt基因在其修饰区域避免出现可能使信使RNA不稳定的序列,如ATTTA序列、多聚腺苷酸化序列和剪接位点。此外,优化了密码子使用,以在植物系统中实现更好的表达。氨基酸组成未改变。获得了修饰后的Bt基因的四个版本,即BtE、BtF、BtH和BtI,与野生型基因Bt43相比,核苷酸替换百分比分别为8.2%、8.6%、14%和16%。修饰后的版本包含不同的替换区域子集:BtE-W+Z、BtF - Y+Z、BtH-X+Y+Z、BtI - W+X+Y+Z。在最终的修饰版本(BtI)中,鸟嘌呤+胞嘧啶的总体含量从野生型基因的34.1%增加到45.5%,并且大部分不稳定序列被消除。用修饰程度更高的版本BtH和BtI获得的转基因植物对马铃薯甲虫的一龄和三龄幼虫完全具有抗性,而Bt43野生型、BtE和BtF基因型既不导致幼虫死亡,也不影响幼虫发育。

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