SILICON-CARBIDE FIBER-MEDIATED STABLE TRANSFORMATION OF PLANT-CELLS

被引：64

作者：

KAEPPLER, HF

SOMERS, DA

RINES, HW

COCKBURN, AF

机构：

[1] UNIV MINNESOTA,DEPT AGRON & PLANT GENET,411 BORLAUG HALL,1991 UPPER BUFORD CIRCLE,ST PAUL,MN 55108

[2] USDA ARS,PLANT SCI RES UNIT,ST PAUL,MN 55108

[3] UNIV MINNESOTA,INST PLANT MOLEC GENET,ST PAUL,MN 55108

[4] USDA ARS,INSECTS AFFECTING MAN & ANIM RES LAB,GAINESVILLE,FL 32604

来源：

THEORETICAL AND APPLIED GENETICS | 1992年 / 84卷 / 5-6期

关键词：

GENETIC TRANSFORMATION; SILICON CARBIDE FIBERS; BAR GENE; MAIZE; TOBACCO;

D O I：

10.1007/BF00224152

中图分类号：

S3 [农学（农艺学）];

学科分类号：

0901 ;

摘要：

Maize (Zea mays, cv 'Black Mexican Sweet') (BMS) and tobacco (Nicotiana tabacum, cv 'Xanthi') tissue cultures were transformed using silicon carbide fibers to deliver DNA into suspension culture cells. DNA delivery was mediated by vortexing cells in the presence of silicon carbide fibers and plasmid DNA. Maize cells were treated with a plasmid carrying both the BAR gene, whose product confers resistance to the herbicide BASTA, and a gene encoding beta-glucuronidase (GUS). Tobacco cells were treated with two plasmids to co-transfer genes encoding neomycin phosphotransferase (NPTII) and GUS from the respective plasmids. Thirty-four BASTA-resistant BMS colonies and 23 kanamycin-resistant tobacco colonies recovered following selection contained intact copies of the BAR gene and NPTII genes, respectively, as determined by Southern blot analysis. Sixty-five percent of the resistant BMS colonies and 50% of the resistant tobacco colonies also expressed GUS activity. Intact copies of the GUS gene were observed in Southern blots of all resistant BMS and tobacco colonies that expressed GUS activity. These results indicate that a simple, inexpensive DNA delivery procedure employing silicon carbide fibers can be used to reproducibly transform cells of both monocotyledonous and dicotyledonous plant species.

引用

页码：560 / 566

页数：7

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