AI Article Synopsis
- Certain cyanobacteria, like Nostoc punctiforme, establish symbiotic relationships with plants, providing nitrogen and receiving sugars in return.
- The glucose-specific permease, GlcP, is essential for forming this symbiosis, and its activity might be triggered by specific substances during the process.
- While GlcP primarily serves a nutritional role, it may also be involved in chemotaxis during infection, and its distribution among cyanobacteria suggests a history of gene transfer rather than a direct link to their symbiotic abilities.
Article Abstract
Certain cyanobacteria can form symbiotic associations with plants, where the symbiont supplies the plant partner with nitrogen and in return obtains sugars. We recently showed that in the symbiotic cyanobacterium Nostoc punctiforme, a glucose specific permease, GlcP, is necessary for the symbiosis to be formed. Results presented here from growth yield measurements of mutant strains with inactivated or overexpressing sugar transporters suggest that GlcP could be induced by a symbiosis specific substance. We also discuss that the transporter may have a role other than nutritional once the symbiosis is established, i.e., during infection, and more specifically in the chemotaxis of the symbiont. Phylogenetic analysis shows that the distribution of GlcP among cyanobacteria is likely influenced by horizontal gene transfer, but also that it is not correlated with symbiotic competence. Instead, regulatory patterns of the transporter in Nostoc punctiforme likely constitute symbiosis specific adaptations.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4091242 | PMC |
| http://dx.doi.org/10.4161/psb.27416 | DOI Listing |
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