R. Wiltschko and W. Wiltschko, Magnetoreception. Bioessays, vol.28, pp.157-168, 2006.

D. A. Bazylinski and R. B. Frankel, Magnetosome formation in prokaryotes, Nat Rev Microbiol, vol.2, pp.217-230, 2004.

C. T. Lefèvre and D. A. Bazylinski, Ecology, diversity, and evolution of magnetotactic bacteria, Microbiol Mol Biol Rev, vol.77, pp.497-526, 2013.

S. Kolinko, M. Richter, F. O. Glockner, A. Brachmann, and D. Schüler, Single-cell genomics of uncultivated deep-branching magnetotactic bacteria reveals a conserved set of magnetosome genes, Environ Microbiol, vol.18, pp.21-37, 2016.

W. Lin and Y. Pan, A putative greigite-type magnetosome gene cluster from the candidate phylum Latescibacteria, Environ Microbiol Rep, vol.7, pp.237-242, 2015.

W. Lin, Y. Pan, and D. A. Bazylinski, Diversity and ecology of and biomineralization by magnetotactic bacteria, Environ Microbiol Rep, vol.9, pp.345-356, 2017.

W. Lin, W. Zhang, X. Zhao, A. P. Roberts, G. A. Paterson et al., Genomic expansion of magnetotactic bacteria reveals an early common origin of magnetotaxis with lineage-specific evolution, ISME J, vol.12, pp.1508-1519, 2018.

C. T. Lefèvre, D. Trubitsyn, F. Abreu, S. Kolinko, L. G. De-almeida et al., Monophyletic origin of magnetotaxis and the first magnetosomes, Environ Microbiol, vol.15, pp.2267-2274, 2013.

N. Zeytuni, S. Cronin, C. T. Lefèvre, P. Arnoux, D. Baran et al., MamA as a model protein for structure-based insight into the evolutionary origins of magnetotactic bacteria, PLoS One, vol.10, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01201844

W. Lin, G. A. Paterson, Q. Zhu, Y. Wang, E. Kopylova et al., Origin of microbial biomineralization and magnetotaxis during the Archean, Proc Natl Acad Sci U S A, vol.114, pp.2171-2176, 2017.

A. Komeili, Molecular mechanisms of compartmentalization and biomineralization in magnetotactic bacteria, FEMS Microbiol Rev, vol.36, pp.232-255, 2012.

D. Murat, A. Quinlan, H. Vali, and A. Komeili, Comprehensive genetic dissection of the magnetosome gene island reveals the step-wise assembly of a prokaryotic organelle, Proc Natl Acad Sci U S A, vol.107, pp.5593-5598, 2010.

I. Kolinko, A. Lohße, S. Borg, O. Raschdorf, C. Jogler et al., Biosynthesis of magnetic nanostructures in a foreign organism by transfer of bacterial magnetosome gene clusters, Nat Nanotechnol, vol.9, pp.193-197, 2014.

J. B. Rioux, P. N. Pereira, S. Pignol, D. Wu, L. F. Ginet et al., A second actin-like MamK protein in Magnetospirillum magneticum AMB-1 encoded outside the genomic magnetosome island, PLoS One, vol.5, p.9151, 2010.

N. Abreu, S. Mannoubi, E. Ozyamak, D. Pignol, N. Ginet et al., Interplay between two bacterial actin homologs, MamK and MamK-like, is required for the alignment of magnetosome organelles in Magnetospirillum magneticum AMB-1, J Bacteriol, vol.196, pp.3111-3121, 2014.

C. L. Monteil, G. Perriere, N. Menguy, N. Ginet, B. Alonso et al., Genomic study of a novel magnetotactic Alphaproteobacteria uncovers the multiple ancestry of magnetotaxis, Environ Microbiol, vol.20, pp.4415-4430, 2018.
URL : https://hal.archives-ouvertes.fr/cea-01950927

K. Zhu, H. Pan, J. Li, K. Yu-zhang, S. D. Zhang et al., Isolation and characterization of a marine magnetotactic spirillum axenic culture QH-2 from an intertidal zone of the China Sea, Res Microbiol, vol.161, pp.276-283, 2010.

A. Quinlan, D. Murat, H. Vali, and A. Komeili, The HtrA/DegP family protease MamE is a bifunctional protein with roles in magnetosome protein localization and magnetite biomineralization, Mol Microbiol, vol.80, pp.1075-1087, 2011.

D. M. Hershey, X. Ren, R. A. Melnyk, P. J. Browne, E. Ozyamak et al., MamO is a repurposed serine protease that promotes magnetite biomineralization through direct transition metal binding in magnetotactic bacteria, PLoS Biol, vol.14, 2016.

S. Spring and D. A. Bazylinski, The prokaryotes: an evolving electronic resource for the microbiological community, pp.842-862, 2006.

F. F. Guo, W. Yang, W. Jiang, S. Geng, T. Peng et al., Magnetosomes eliminate intracellular reactive oxygen species in Magnetospirillum gryphiswaldense MSR-1, Environ Microbiol, vol.14, pp.1722-1729, 2012.

A. Lohsse, S. Ullrich, E. Katzmann, S. Borg, G. Wanner et al., Functional analysis of the magnetosome island in Magnetospirillum gryphiswaldense: the mamAB operon is sufficient for magnetite biomineralization, PLoS One, vol.6, p.25561, 2011.

S. Ohno, Evolution by gene duplication, 1970.

R. S. Wolfe, R. K. Thauer, and N. Pfennig, A 'capillary racetrack' method for isolation of magnetotactic bacteria, FEMS Microbiol Lett, vol.45, pp.31-35, 1987.

R. B. Frankel, D. A. Bazylinski, M. S. Johnson, and B. L. Taylor, Magnetoaerotaxis in marine coccoid bacteria, Biophys J, vol.73, pp.78132-78135, 1997.

D. Schüler, The biomineralization of magnetosomes in Magnetospirillum gryphiswaldense, Int Microbiol, vol.5, pp.209-214, 2002.

D. Vallenet, E. Belda, A. Calteau, S. Cruveiller, S. Engelen et al., MicroScope-an integrated microbial resource for the curation and comparative analysis of genomic and metabolic data, Nucleic Acids Res, vol.41, pp.636-647, 2013.

. Rodriguez-r-lm and K. T. Konstantinidis, The enveomics collection: a toolbox for specialized analyses of microbial genomes and metagenomes, PeerJ Preprints, vol.4, pp.1900-1901, 2016.

E. Pruesse, J. Peplies, and F. O. Glockner, SINA: accurate high-throughput multiple sequence alignment of ribosomal RNA genes, Bioinformatics, vol.28, pp.1823-1829, 2012.

G. Talavera and J. Castresana, Improvement of phylogenies after removing divergent and ambiguously aligned blocks from protein sequence alignments, Syst Biol, vol.56, pp.564-577, 2007.

L. T. Nguyen, H. A. Schmidt, V. Haeseler, A. Minh, and B. Q. , IQ-TREE: a fast and effective stochastic algorithm for estimating maximum-likelihood phylogenies, Mol Biol Evol, vol.32, pp.268-274, 2015.