摘要
以玉米(Zea maysL.)根或胚芽鞘为材料,经匀浆、分级离心得到胞质部分和膜部分(微粒体),进一步用6.2% (W/W ) Dextran T500 和PEG 3350 两相系统制备质膜,用1% 和8% (W /W) Dextran T70 梯度离心制备液泡膜. 电镜鉴定及多种标志酶检测表明,制备获得了高纯度正向型质膜和富含液泡膜的组分,其它内膜的污染很少. 用微量放射配体结合(MRLB)实验证明,玉米根微粒体的ABA专一性结合位点主要分布在液泡膜和质膜上,这两种膜组分与ABA 的特异结合活性分别为2485.4 fm ol/m g protein 和1257.3 fm ol/m g pro-tein,玉米根段胞质部分结合活性最低(差一个数量级).质膜上ABA-BP与ABA 的结合平衡解离常数(KD)为1.57 nm ol/L.
By means of differential centrifugation, cytosol fraction and microsome were prepared from maize roots which have been grown in dark for 4 d.Highly purified plasma membranes were isolated from the microsome in two phase aqueous system which is composed of 6 2% (W/W) Dextran T500 and PEG 3350. The tonoplast was collected from the interface between 1% and 8% (W/W) Dextran T70 after gradient centrifugation.Electron microscopic observation and marker enzyme activities analysis proved that these fractions contained very few other membranes. Microvolume radioactivity ligand binding assay indicated that the specific binding sites of ABA in maize root microsome were mainly distributed on tonoplast and plasma membrane fractions. Their specific binding activity was 2485 4 and 1257 3 fmol/mg protein, respectively, the specific binding activity of cytosol fraction being the lowest (one order of magnitude lower). The dissociation constant (K D) of ABA BP in plasma membrane was 1 57 nmol/L.
基金
国家自然科学基金
关键词
玉米
根
脱落酸结合蛋白
定位
动力学
ABA binding protein
ABA receptor
ABA
ABA specific binding
Maize
