Price G Dean, Shelden Megan C, Howitt Susan M
Molecular Plant Physiology Cluster, Plant Science Division, Research School of Biology, Australian National University, Canberra, Australia.
Mol Membr Biol. 2011 Aug;28(5):265-75. doi: 10.3109/09687688.2011.593049. Epub 2011 Jun 23.
The transporter SbtA is a high affinity Na+-dependent HCO3- uptake system present in a majority of cyanobacterial clades. It functions in conjunction with CO2 uptake systems and other HCO3- uptake systems to allow cyanobacteria to accumulate high levels of HCO3- used to support efficient photosynthetic CO2 fixation via the CO2 concentrating mechanism in these species. The phoA/lacZ fusion reporter method was used to determine the membrane topology of the cyanobacterial bicarbonate transporter, SbtA (predicted size of ∼39.7 kD), cloned from the freshwater strain, Synechocystis PCC6803. The structure conforms to a model featuring 10 transmembrane helices (TMHs), with a distinct 5+5 duplicated structure. Both the N- and C-terminus are outside the cell and the second half of the protein is inverted relative to the first. The first putative helix appears to lack sufficient topogenic signals for its correct orientation in the membrane and instead relies on the presence of later helices. The cytoplasmic loop between helices 5 and 6 is a likely location for regulatory mechanisms that could govern activation of the transporter, and the cytoplasmic loop between helices 9 and 10 also contains some conserved putative regulatory residues.
转运蛋白SbtA是一种高亲和力的、依赖Na⁺的HCO₃⁻摄取系统,存在于大多数蓝藻进化枝中。它与CO₂摄取系统及其他HCO₃⁻摄取系统协同发挥作用,使蓝藻能够积累高水平的HCO₃⁻,用于通过这些物种中的CO₂浓缩机制来支持高效的光合CO₂固定。采用phoA/lacZ融合报告基因方法来确定从淡水菌株聚球藻PCC6803克隆的蓝藻碳酸氢盐转运蛋白SbtA(预测大小约为39.7 kD)的膜拓扑结构。其结构符合一个具有10个跨膜螺旋(TMH)的模型,具有独特的5 + 5重复结构。N端和C端均位于细胞外,且蛋白质的后半部分相对于前半部分是倒置的。第一个推定的螺旋似乎缺乏足够的拓扑信号来使其在膜中正确定向,而是依赖于后续螺旋的存在。螺旋5和6之间的胞质环可能是调控转运蛋白激活的调控机制的作用位点,螺旋9和10之间的胞质环也包含一些保守的推定调控残基。
