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三磷酸腺苷双磷酸酶AtAPY1和AtAPY2双敲除突变体中的发育缺陷和幼苗致死率

Developmental defects and seedling lethality in apyrase AtAPY1 and AtAPY2 double knockout mutants.

作者信息

Wolf Carolin, Hennig Maria, Romanovicz Dwight, Steinebrunner Iris

机构信息

Department of Biology, Section of Molecular Biotechnology, Technical University of Dresden, 01062, Dresden, Germany.

出版信息

Plant Mol Biol. 2007 Aug;64(6):657-72. doi: 10.1007/s11103-007-9184-5. Epub 2007 May 30.

DOI:10.1007/s11103-007-9184-5
PMID:17534719
Abstract

Previously it was shown that the Arabidopsis apyrase genes AtAPY1 and AtAPY2 are crucial for male fertility because mutant pollen (apy1-1; apy2-1) with T-DNA insertions in both genes could not germinate (Steinebrunner et al. (2003) Plant Physiol. 131: 1638-1647). In this study, pollen germination was restored and apyrase T-DNA double knockouts (DKO) apy1-1/apy1-1; apy2-1/apy2-1 were generated by complementation with AtAPY2 under the control of a pollen-specific promoter. The DKO phenotype displayed developmental defects including the lack of functional root and shoot meristems. In cotyledons, morphogenetic and patterning abnormalities were apparent, e.g., unlobed pavement cells and stomatal clusters. Another set of lines was created which carried either AtAPY1 or AtAPY2 under a dexamethasone-(DEX)-inducible promoter as an additional transgene to the pollen-specific gene construct. Application of DEX did not reverse the DKO phenotype to wild-type, but some inducible lines exhibited less severe defects even in the absence of the inducer, probably due to some background expression. However, even these DKO mutants were seedling-lethal and shared other defects regarding cell division, cell expansion and stomatal patterning. Taken together, the defects in the DKO mutants demonstrate that AtAPY1 and AtAPY2 are essential for normal plant development.

摘要

先前的研究表明,拟南芥的腺苷三磷酸双磷酸酶基因AtAPY1和AtAPY2对雄性育性至关重要,因为在这两个基因中均有T-DNA插入的突变花粉(apy1-1;apy2-1)无法萌发(Steinebrunner等人,《植物生理学》,2003年,第131卷,第1638 - 1647页)。在本研究中,通过在花粉特异性启动子的控制下用AtAPY2进行互补,恢复了花粉萌发,并产生了腺苷三磷酸双磷酸酶T-DNA双敲除(DKO)植株apy1-1/apy1-1;apy2-1/apy2-1。DKO表型显示出发育缺陷,包括缺乏功能性的根和茎分生组织。在子叶中,形态发生和模式异常很明显,例如无叶的表皮细胞和气孔簇。创建了另一组株系,它们在花粉特异性基因构建体之外,还携带了在地塞米松(DEX)诱导型启动子控制下的AtAPY1或AtAPY2作为额外的转基因。施加DEX并没有使DKO表型恢复到野生型,但一些诱导型株系即使在没有诱导剂的情况下也表现出较轻微的缺陷,这可能是由于一些背景表达。然而,即使是这些DKO突变体也是幼苗致死的,并且在细胞分裂、细胞扩展和气孔模式方面存在其他缺陷。综上所述,DKO突变体中的缺陷表明AtAPY1和AtAPY2对正常植物发育至关重要。

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