We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
The complete genome of a cyanobacterium from a soda lake reveals the presence of the components of CO-concentrating mechanism.
- Authors
Kupriyanova, Elena; Cho, Sung; Park, Youn-Il; Pronina, Natalia; Los, Dmitry
- Abstract
At present geological epoch, the carbon concentrating mechanism (CCM) of cyanobacteria represents the obligatory tool for adaptation to low content of CO in the atmosphere and for the maintenance of sufficient photosynthetic activity. Functional CCM was found in modern cyanobacteria from different ecological niches. However, the presence of such mechanism in species that inhabit soda lakes is not obvious due to high content of inorganic carbon ( C ) in the environment. Here we analyze CCM components that have been identified by sequencing of the whole genome of the alkaliphilic cyanobacterium Microcoleus sp. IPPAS B-353. The composition of the CCM components of Microcoleus is similar to that of 'model' β-cyanobacteria, freshwater and marine Synechococcus or Synechocystis spp. However, CahB1 protein of Microcoleus, which is the homolog of CcaA, the carboxysomal β-type carbonic anhydrase (CA) of β-cyanobacteria, appeared to be the only active CA located in cell envelopes. The conservative regions of CcmM, CahG (a homolog of archeal γ-CAs, Cam/CamH), and ChpX of Microcoleus possess single amino acid substitutions that may cause a lack of CA activities. Unlike model cyanobacteria, Microcoleus induces only one BicA-type bicarbonate transporter in response to C limitation. The differences in the appearance of CCM components and in their characteristics between alkaliphilic Microcoleus and freshwater or marine cyanobacteria are described. The possible reasons for the maintenance of CCM components in cyanobacteria, which permanently live at high concentrations of C in soda lakes, are discussed.
- Subjects
WILLCOX Playa (Ariz.); CYANOBACTERIAL genetics; CARBONIC anhydrase; SYNECHOCOCCUS; PHYSIOLOGICAL effects of carbon dioxide; MICROCOLEUS; ECOLOGICAL niche
- Publication
Photosynthesis Research, 2016, Vol 130, Issue 1-3, p151
- ISSN
0166-8595
- Publication type
Article
- DOI
10.1007/s11120-016-0235-0