Kjeldsen K. U., Bataillon T., Pinel N., De Mita Stéphane, Lund M. B., Panitz F., Bendixen C., Stahl D. A., Schramm A. (2012). Purifying selection and molecular adaptation in the genome of verminephrobacter, the heritable symbiotic bacteria of earthworms. Genome Biology and Evolution, 4 (3), p. 307-315. ISSN 1759-6653.
Titre du document
Purifying selection and molecular adaptation in the genome of verminephrobacter, the heritable symbiotic bacteria of earthworms
Année de publication
2012
Auteurs
Kjeldsen K. U., Bataillon T., Pinel N., De Mita Stéphane, Lund M. B., Panitz F., Bendixen C., Stahl D. A., Schramm A.
Source
Genome Biology and Evolution, 2012,
4 (3), p. 307-315 ISSN 1759-6653
While genomic erosion is common among intracellular symbionts, patterns of genome evolution in heritable extracellular endosymbionts remain elusive. We study vertically transmitted extracellular endosymbionts (Verminephrobacter, Betaproteobacteria) that form a beneficial, species-specific, and evolutionarily old (60-130 Myr) association with earthworms. We assembled a draft genome of Verminephrobacter aporrectodeae and compared it with the genomes of Verminephrobacter eiseniae and two nonsymbiotic close relatives (Acidovorax). Similar to V. eiseniae, the V. aporrectodeae genome was not markedly reduced in size and showed no A-T bias. We characterized the strength of purifying selection (omega = dN/dS) and codon usage bias in 876 orthologous genes. Symbiont genomes exhibited strong purifying selection (omega = 0.09 +/- 0.07), although transition to symbiosis entailed relaxation of purifying selection as evidenced by 50% higher omega values and less codon usage bias in symbiont compared with reference genomes. Relaxation was not evenly distributed among functional gene categories but was overrepresented in genes involved in signal transduction and cell envelope biogenesis. The same gene categories also harbored instances of positive selection in the Verminephrobacter clade. In total, positive selection was detected in 89 genes, including also genes involved in DNA metabolism, tRNA modification, and TonB-dependent iron uptake, potentially highlighting functions important in symbiosis. Our results suggest that the transition to symbiosis was accompanied by molecular adaptation, while purifying selection was only moderately relaxed, despite the evolutionary age and stability of the host association. We hypothesize that biparental transmission of symbionts and rare genetic mixing during transmission can prevent genome erosion in heritable symbionts.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Biologie du sol [074]
Localisation
Fonds IRD [F B010055753]
Identifiant IRD
fdi:010055753
