We investigated the genomic diversity of a local population of the symbiotic bacterium Sinorhizobium medicae, isolated from the roots of wild Medicago lupulina plants, in order to assess genomic diversity, to identify genomic regions influenced by duplication, deletion or strong selection, and to explore the composition of the pan-genome. Partial genome sequences of 12 isolates were obtained by Roche 454 shotgun sequencing (average 5.3 Mb per isolate) and compared with the published sequence of S. medicae WSM 419. Homologous recombination appears to have less impact on the polymorphism patterns of the chromosome than on the chromid pSMED01 and megaplasmid pSMED02. Moreover, pSMED02 is a hot spot of insertions and deletions. The whole chromosome is characterized by low sequence polymorphism, consistent with the high density of housekeeping genes. Similarly, the level of polymorphism of symbiosis genes (low) and of genes involved in polysaccharide synthesis (high) may reflect different selection. Finally, some isolates carry genes that may confer adaptations that S. medicae WSM 419 lacks, including homologues of genes encoding rhizobitoxine synthesis, iron uptake, response to autoinducer-2, and synthesis of distinct polysaccharides. The presence or absence of these genes was confirmed by PCR in each of these 12 isolates and a further 27 isolates from the same population. All isolates had rhizobitoxine genes, while the other genes were co-distributed, suggesting that they may be on the same mobile element. These results are discussed in relation to the ecology of Medicago symbionts and in the perspective of population genomics studies.
Background: Amino acid repeat-containing proteins have a broad range of functions and their identification is of relevance to many experimental biologists. In human-infective protozoan parasites (such as the Kinetoplastid and Plasmodium species), they are implicated in immune evasion and have been shown to influence virulence and pathogenicity. RepSeq http://repseq.gugbe.com is a new database of amino acid repeat-containing proteins found in lower eukaryotic pathogens. The RepSeq database is accessed via a web-based application which also provides links to related online tools and databases for further analyses.
NfeD-like proteins are widely distributed throughout prokaryotes and are frequently associated with genes encoding stomatin-like proteins (slipins). Here, we reveal that the NfeD family is ancient and comprises three major groups: NfeD1a, NfeD1b and truncated NfeD1b. Members of each group are associated with one of four conserved gene partners, three of which have eukaryotic homologues that are membrane raft associated, namely stomatin, paraslipin (previously SLP-2) and flotillin. The first NfeD group (NfeD1b), comprises proteins of approximately 460-aa long that have three functional domains: an N-terminal protease, a middle membrane-spanning region and a soluble C-terminal region rich in beta-strands. The nfeD1b gene is adjacent to eoslipin in prokaryotic genomes except in Firmicutes and Deinococci, where yqfA replaces eoslipin. Proteins in the second major group (NfeD1a) are homologous to the C-terminus of NfeD1b which forms a beta-barrel-like domain, and their genes are associated with paraslipin. Using OrthoMCL clustering, we show that nfeD1b genes have become truncated on many independent occasions giving rise to the third major group. These short NfeD homologues frequently remain associated with their ancestral gene neighbour, resembling NfeD1a in structure, yet are much more related to full-length NfeD1b; we term these "truncated NfeD1b". These conserved associations suggest that NfeD proteins are dependent on gene partners for their function and that the site of interaction may lie within the C-terminal portion that is common to all NfeD homologues. Although NfeD homologues are confined to prokaryotes, this conserved association could represent an excellent system to study slipin and flotillin proteins.
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