Comparative Genome Analysis of Four Magnetotactic Bacteria Reveals a Complex Set of Group-Specific Genes Implicated in Magnetosome Biomineralization and Function

Richter, Michael; Kube, Michael; Bazylinski, Dennis A.; Lombardot, Thierry; Glöckner, Frank Oliver; Reinhardt, Richard; Schüler, Dirk

doi:10.1128/jb.00119-07

Cited by 158 publications

(243 citation statements)

References 44 publications

(62 reference statements)

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“…To our knowledge, this is the first report of this pathway in 'Ca. Magnetobacterium' genus, which is different from all known autotrophic members in Nitrospirae as well as MTB in Proteobacteria that conduct either rTCA cycle or Calvin-Benson-Bassham pathway for CO 2 fixation (Garrity and Holt, 2001;Matsunaga et al, 2005;Williams et al, 2006;Richter et al, 2007;Levican et al, 2008;Goltsman et al, 2009;Lucker et al, 2010;Ji et al, 2014). Compared with rTCA and Calvin-Benson-Bassham, the WL pathway is biochemically simple and energetically favorable (Peretó et al, 1999), which may lead to a growth advantage of these microorganisms in oxygen-limited environments.…”

Section: Discussionmentioning

confidence: 99%

Genomic insights into the uncultured genus ‘Candidatus Magnetobacterium’ in the phylum Nitrospirae

et al. 2014

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Magnetotactic bacteria (MTB) of the genus 'Candidatus Magnetobacterium' in phylum Nitrospirae are of great interest because of the formation of hundreds of bullet-shaped magnetite magnetosomes in multiple bundles of chains per cell. These bacteria are worldwide distributed in aquatic environments and have important roles in the biogeochemical cycles of iron and sulfur. However, except for a few short genomic fragments, no genome data are available for this ecologically important genus, and little is known about their metabolic capacity owing to the lack of pure cultures. Here we report the first draft genome sequence of 3.42 Mb from an uncultivated strain tentatively named 'Ca. Magnetobacterium casensis' isolated from Lake Miyun, China. The genome sequence indicates an autotrophic lifestyle using the Wood-Ljungdahl pathway for CO 2 fixation, which has not been described in any previously known MTB or Nitrospirae organisms. Pathways involved in the denitrification, sulfur oxidation and sulfate reduction have been predicted, indicating its considerable capacity for adaptation to variable geochemical conditions and roles in local biogeochemical cycles. Moreover, we have identified a complete magnetosome gene island containing mam, mad and a set of novel genes (named as man genes) putatively responsible for the formation of bullet-shaped magnetite magnetosomes and the arrangement of multiple magnetosome chains. This first comprehensive genomic analysis sheds light on the physiology, ecology and biomineralization of the poorly understood 'Ca. Magnetobacterium' genus.

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Section: Discussionmentioning

confidence: 99%

Genomic insights into the uncultured genus ‘Candidatus Magnetobacterium’ in the phylum Nitrospirae

et al. 2014

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“…In addition to a set of approximately 152 genus-specific genes shared by the three Magnetospirillum strains, 28 group-specific genes, which occur in all four magnetotactic bacteria but exhibit no similarity or only remote similarity to the genes from non-magnetotactic organisms, were identified. This study revealed the magnetotactic bacteria-specific set of genes that are most likely to be involved in BacMP biomineralization (Richter et al 2007). …”

Section: Genome Analyses Of Magnetotactic Bacteriamentioning

confidence: 99%

“…Recent efforts directed towards genome sequencing of magnetotactic bacteria have provided genome information of several other strains. The draft sequence for the M. magnetotacticum strain MS-1 and the complete sequence for the magnetotactic coccus strain MC-1 were provided by the Joint Genome Institute ( JGI; http://www.jgi.doe.gov/tempweb/JGI_micro-bial/html/index.html), while the draft genome sequence of the M. gryphiswaldense strain MSR-1 was analysed in comparison with other magnetotactic bacterial genome sequences (Richter et al 2007). The comparative study revealed that approximately 891 genes were shared by all four magnetotactic bacteria.…”

Section: Genome Analyses Of Magnetotactic Bacteriamentioning

confidence: 99%

Formation of magnetite by bacteria and its application

Arakaki

Nakazawa

Nemoto

et al. 2008

J. R. Soc. Interface.

220

176

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Magnetic particles offer high technological potential since they can be conveniently collected with an external magnetic field. Magnetotactic bacteria synthesize bacterial magnetic particles (BacMPs) with well-controlled size and morphology. BacMPs are individually covered with thin organic membrane, which confers high and even dispersion in aqueous solutions compared with artificial magnetites, making them ideal biotechnological materials. Recent molecular studies including genome sequence, mutagenesis, gene expression and proteome analyses indicated a number of genes and proteins which play important roles for BacMP biomineralization. Some of the genes and proteins identified from these studies have allowed us to express functional proteins efficiently onto BacMPs, through genetic engineering, permitting the preservation of the protein activity, leading to a simple preparation of functional protein-magnetic particle complexes. They were applicable to high-sensitivity immunoassay, drug screening and cell separation. Furthermore, fully automated single nucleotide polymorphism discrimination and DNA recovery systems have been developed to use these functionalized BacMPs. The nano-sized fine magnetic particles offer vast potential in new nano-techniques.

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“…BLAST is an optimized comparative algorithm tool that aligns a query sequence (input data) against data records (subject sequences) by assigning optimal local alignments with high-scoring region to that of input data. The best "hit" or sequence that is uses to identify the query sequence is deduced using expectation/ expect (e-value) and the score of an alignment (S) (Richter et al, 2007). 16S rRNA sequencing gave a read of 1462 bp and BLAST search revealed the isolate as Micrococcus luteus (Acession no: KT339390; 8th August 2015).…”

Section: Identity Of Y_01mentioning

confidence: 99%

Applicability of Yellow Pigmented Microbe obtained from Indian Rock Python Fecal Sample as Bio-Ink

Madhavan¹,

Kumar²

2017

Int.J.Curr.Microbiol.App.Sci

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Comparative Genome Analysis of Four Magnetotactic Bacteria Reveals a Complex Set of Group-Specific Genes Implicated in Magnetosome Biomineralization and Function

Cited by 158 publications

References 44 publications

Genomic insights into the uncultured genus ‘Candidatus Magnetobacterium’ in the phylum Nitrospirae

Genomic insights into the uncultured genus ‘Candidatus Magnetobacterium’ in the phylum Nitrospirae

Formation of magnetite by bacteria and its application

Applicability of Yellow Pigmented Microbe obtained from Indian Rock Python Fecal Sample as Bio-Ink

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