Dale W E, Tsai Y S, Jung C Y, Hale C C, Rovetto M J, Kim H D
Department of Physiology, University of Missouri-Columbia 65211.
Biochim Biophys Acta. 1988 Aug 18;943(2):360-6. doi: 10.1016/0005-2736(88)90568-8.
Stereospecific glucose transport was assayed and characterized in bovine cardiac sarcolemmal vesicles. Sarcolemmal vesicles were incubated with D-[3H]glucose or L-[3H]glucose at 25 degrees C. The reaction was terminated by rapid addition of 4 mM HgCl2 and vesicles were immediately collected on glass fiber filters for quantification of accumulated [3H]glucose. Non-specific diffusion of L-[3H]glucose was never more than 11% of total D-[3H]glucose transport into the vesicles. Stereospecific uptake of D-[3H]glucose reached a maximum level by 20 s. Cytochalasin B (50 microM) inhibited specific transport of D-[3H]glucose to the level of that for non-specific diffusion. The vesicles exhibited saturable transport (Km = 9.3 mM; Vmax = 2.6 nmol/mg per s) and the transporter turnover number was 197 glucose molecules per transporter per s. The molecular sizes of the cytochalasin B binding protein and the D-glucose transport protein in sarcolemmal vesicles were estimated by radiation inactivation. These values were 77 and 101 kDa, respectively, and by the Wilcoxen Rank Sum Test were not significantly different from each other.
在牛心肌肌膜囊泡中对立体特异性葡萄糖转运进行了测定和表征。将肌膜囊泡在25℃下与D-[3H]葡萄糖或L-[3H]葡萄糖一起孵育。通过快速加入4 mM HgCl2终止反应,并立即将囊泡收集在玻璃纤维滤器上以定量积累的[3H]葡萄糖。L-[3H]葡萄糖的非特异性扩散从未超过进入囊泡的总D-[3H]葡萄糖转运量的11%。D-[3H]葡萄糖的立体特异性摄取在20秒时达到最大水平。细胞松弛素B(50 microM)将D-[3H]葡萄糖的特异性转运抑制到非特异性扩散的水平。囊泡表现出可饱和转运(Km = 9.3 mM;Vmax = 2.6 nmol/mg每秒),转运体周转数为每个转运体每秒197个葡萄糖分子。通过辐射失活估计肌膜囊泡中细胞松弛素B结合蛋白和D-葡萄糖转运蛋白的分子大小。这些值分别为77和101 kDa,并且通过Wilcoxon秩和检验彼此无显著差异。
