Structure, function and regulation of the cyanobacterial high-affinity bicarbonate transporter, BCT1

Tatsuo Omata, Yukari Takahashi, Osamu Yamaguchi and Takashi Nishimura

Abstract

The cmpABCD operon of the cyanobacterium Synechococcus sp. strain PCC7942, which is transcribed specifically under CO₂-limited growth conditions, encodes an ATP-binding cassette (ABC) transporter involved in HCO₃^–uptake (designated BCT1). The product of the cmpA gene is a 42-kDa protein anchored to the plasma membrane, which binds HCO₃^– with high affinity (K_d= 5 µM) and acts as the substrate-binding protein of the transporter. The apparent K_m(HCO₃^–) of BCT1 is 15 µM. BCT1 has the highest affinity for HCO₃^– among the HCO₃^– transporters of the Synechococcus strain and is essential for competitive utilization of HCO₃^– under CO₂-limited conditions. BCT1 is closely related to the cyanobacterial nitrate/nitrite transporter (NRT) encoded by the nrtABCD genes. The BCT1 and NRT transporters, together with the putative cyanate transporter of cyanobacteria, comprise a monoanion transporter subfamily in the family of ABC importers. BCT1 and NRT are present in most fresh-water strains of cyanobacteria but seem to be absent in marine cyanobacterial strains. The low CO₂-responsive induction of thecmp operon requires a LysR family protein CmpR, which is similar to CbbR (RbcR), the activator of the CO₂ fixation operons of chemoautotrophic and purple photosynthetic bacteria.

Keywords: ABC transporter, bicarbonate transporter, CO2 concentrating mechanism, cyanobacteria.

Functional Plant Biology 29(3) 151 - 159 (2002) doi:10.1071/PP01215