渗透处理增强了玉米的粒子轰击介导的瞬时和稳定转化。

Osmotic treatment enhances particle bombardment-mediated transient and stable transformation of maize.

机构信息

Department of Agronomy and Ohio State Biotechnology Center, The Ohio Agricultural Research and Development Center, The Ohio State University, 44691, Wooster, OH, USA.

出版信息

Plant Cell Rep. 1993 Jan;12(2):84-8. doi: 10.1007/BF00241940.

DOI:10.1007/BF00241940

PMID:24202074

Abstract

The effects of osmotic conditioning on both transient expression and stable transformation were evaluated by introducing plasmid DNAs via particle bombardment into embryogenic suspension culture cells of Zea mays (A188 × B73). Placement of cells on an osmoticum-containing medium (0.2 M sorbitol and 0.2 M mannitol) 4 h prior to and 16 h after bombardment resulted in a statistically significant 2.7-fold increase in transient ß-glucuronidase expression. Under these conditions, an average of approximately 9,000 blue foci were obtained from 100 μl packed cell volume of bombarded embryogenic tissue. Osmotic conditioning of the target cells resulted in a 6.8-fold increase in recovery of stably transformed maize clones. Transformed fertile plants and progeny were obtained from several transformed cell lines. We believe the basis of osmotic enhancement of transient expression and stable transformation resulted from plasmolysis of the cells which may have reduced cell damage by preventing extrusion of the protoplasm from bombarded cells.

摘要

采用基因枪法将质粒 DNA 导入玉米（A188×B73）胚性悬浮细胞系，评估渗透压调节对瞬时表达和稳定转化的影响。在轰击前 4 小时和轰击后 16 小时将细胞置于含有渗透压剂（0.2 M 山梨醇和 0.2 M 甘露醇）的培养基上，可使瞬时β-葡萄糖醛酸酶表达显著增加 2.7 倍。在这些条件下，从 100 μl 轰击的胚性组织的细胞体积中可获得约 9000 个蓝色焦点。靶细胞的渗透压调节使稳定转化的玉米克隆的恢复增加了 6.8 倍。从几个转化细胞系获得了转化的可育植物和后代。我们认为，渗透压对瞬时表达和稳定转化的增强作用的基础是细胞的质壁分离，这可能通过防止从被轰击的细胞中挤出原生质来减少细胞损伤。

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渗透处理增强了玉米的粒子轰击介导的瞬时和稳定转化。

Osmotic treatment enhances particle bombardment-mediated transient and stable transformation of maize.

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