期刊
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
卷 106, 期 14, 页码 5990-5995出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.0812885106
关键词
ABC transporter; CO2-concentrating mechanism; microalgae; RNAi
资金
- Iowa State University College of Agriculture and Life Sciences and College of Liberal Arts and Sciences
- U. S. Department of Agriculture [20073531818433]
The CO2-concentrating mechanism (CCM) of Chlamydomonas reinhardtii and other microalgal species is essential for photosynthetic growth in most natural settings. A great deal has been learned regarding the CCM in cyanobacteria, including identification of inorganic carbon (Ci; CO2 and HCO3-) transporters; however, specific knowledge of analogous transporters has remained elusive in eukaryotic microalgae such as C. reinhardtii. Here we investigated whether the limiting-CO2-inducible, putative ABC-type transporter HLA3 might function as a HCO3- transporter by evaluating the effect of pH on growth, photosynthetic Ci affinity, and [C-14]-Ci uptake in very low CO2 conditions following RNA interference (RNAi) knockdown of HLA3 mRNA levels in wild-type and mutant cells. Although knockdown of HLA3 mRNA alone resulted in only modest but high-pH-dependent decreases in photosynthetic Ci affinity and Ci uptake, the combination of nearly complete knockdown of HLA3 mRNA with mutations in LCIB (which encodes limiting-Ci-inducible plastid-localized protein required for normal Ci uptake or accumulation in low-CO2 conditions) and/or simultaneous, apparently off-target knockdown of LCIA mRNA (which encodes limiting-Ci-inducible plastid envelope protein reported to transport HCO3-) resulted in dramatic decreases in growth, Ci uptake, and photosynthetic Ci affinity, especially at pH 9, at which HCO3- is the predominant form of available Ci. Collectively, the data presented here provide compelling evidence that HLA3 is directly or indirectly involved in HCO3- transport, along with additional evidence supporting a role for LCIA in chloroplast envelope HCO3- transport and a role for LCIB in chloroplast Ci accumulation.
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