2026-05-30T02:31:51Zhttps://riuma.uma.es/rest/oai/requestoai:riuma.uma.es:10630/144642026-02-04T08:59:28Zcom_10630_2254col_10630_37959
An evolutionary approach to detect the maximum potential adaptation of Microscystis aeruginosa to salinity
Melero-Jiménez, Ignacio José
Martín-Clemente, Elena
García-Sánchez, María Jesús
Flores-Moya, Antonio
Bañares-España, Elena
Cianobacterias
Backgrounds
Salinity is increasing in many inland waters, on a world-wide scale, due to agricultural practices, droughts, or rise in sea level. In order to understand the effects of increased salinity on freshwater ecosystems, the cosmopolitan toxic cyanobacterium Microcystis aeruginosa (Kützing) Kützing was selected as a model. It is known that this species that this species cannot proliferate in salinity >10-15 g∙L-1 but the limit of the adaptation to salinity remains to be investigated.
Objectives
To detect the maximum genetic adaptation capacity of three strains of M. aeruginosa (isolated from a freshwater reservoir with salinity <0.025 g∙L-1, i.e. without previous “evolution salinity history”) to the exposure of increased salinity.
Methods
An experimental evolutionary approach (ratchet experiment) was used. In order to analyze the differential evolutionary potential of three M. aeruginosa strains, two ratchet experiments were performed based on “soft” or “intense” exponentially increased salinity.
Conclusions
Acclimation (supported by the gene expression already present in the ancestral populations) was similar in the three strains in both ratchets experiments (“soft” and “intense”). A significant enhancement in resistance, supported by the selection of new genetic variants arising by mutations (genetic adaptation), was achieved in all derived populations in both ratchet experiments, and in the three strains. However, the results showed that the dynamics and the limit of genetic adaptation depend on previous adaptation history (historical contingency).
2017-09-13T12:28:06Z
2017-09-13T12:28:06Z
2017-09-13T12:28:06Z
2017-09-13
conference output
http://hdl.handle.net/10630/14464
eng
FEMS 7th Congress of European Microbiologists
Valencia, Spain
Julio 2017
open access
by-nc-nd