Magnetosome Gene Duplication as an Important Driver in the Evolution of Magnetotaxis in the Alphaproteobacteria

ABSTRACT The evolution of microbial magnetoreception (or magnetotaxis) is of great interest in the fields of microbiology, evolutionary biology, biophysics, geomicrobiology, and geochemistry. Current genomic data from magnetotactic bacteria (MTB), the only prokaryotes known to be capable of sensing the Earth’s geomagnetic field, suggests an ancient origin of magnetotaxis in the domain Bacteria. Vertical inheritance, followed by multiple independent magnetosome gene cluster loss, is considered to be one of the major forces that drove the evolution of magnetotaxis at or above the class or phylum level, although the evolutionary trajectories at lower taxonomic ranks (e.g., within the class level) remain largely unstudied. Here we report the isolation, cultivation, and sequencing of a novel magnetotactic spirillum belonging to the genus Terasakiella (Terasakiella sp. strain SH-1) within the class Alphaproteobacteria. The complete genome sequence of Terasakiella sp. strain SH-1 revealed an unexpected duplication event of magnetosome genes within the mamAB operon, a group of genes essential for magnetosome biomineralization and magnetotaxis. Intriguingly, further comparative genomic analysis suggests that the duplication of mamAB genes is a common feature in the genomes of alphaproteobacterial MTB. Taken together, with the additional finding that gene duplication appears to have also occurred in some magnetotactic members of the Deltaproteobacteria, our results indicate that gene duplication plays an important role in the evolution of magnetotaxis in the Alphaproteobacteria and perhaps the domain Bacteria. IMPORTANCE A diversity of organisms can sense the geomagnetic field for the purpose of navigation. Magnetotactic bacteria are the most primitive magnetism-sensing organisms known thus far and represent an excellent model system for the study of the origin, evolution, and mechanism of microbial magnetoreception (or magnetotaxis). The present study is the first report focused on magnetosome gene cluster duplication in the Alphaproteobacteria, which suggests the important role of gene duplication in the evolution of magnetotaxis in the Alphaproteobacteria and perhaps the domain Bacteria. A novel scenario for the evolution of magnetotaxis in the Alphaproteobacteria is proposed and may provide new insights into evolution of magnetoreception of higher species.

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Comparative Genomic Analysis Reveals the Distribution, Organization, and Evolution of Metal Resistance Genes in the GenusAcidithiobacillus

Applied and Environmental Microbiology ◽

10.1128/aem.02153-18 ◽

2018 ◽

Vol 85 (2) ◽

Cited By ~ 2

Author(s):

Liangzhi Li ◽

Zhenghua Liu ◽

Delong Meng ◽

Xueduan Liu ◽

Xing Li ◽

...

Keyword(s):

Gene Duplication ◽

Resistance Genes ◽

Evolutionary History ◽

Genomic Analysis ◽

Purifying Selection ◽

Metal Resistance ◽

Comparative Genomic Analysis ◽

Comparative Genomic ◽

Content Type ◽

History Of

ABSTRACTMembers of the genusAcidithiobacillus, which can adapt to extremely high concentrations of heavy metals, are universally found at acid mine drainage (AMD) sites. Here, we performed a comparative genomic analysis of 37 strains within the genusAcidithiobacillusto answer the untouched questions as to the mechanisms and the evolutionary history of metal resistance genes inAcidithiobacillusspp. The results showed that the evolutionary history of metal resistance genes inAcidithiobacillusspp. involved a combination of gene gains and losses, horizontal gene transfer (HGT), and gene duplication. Phylogenetic analyses revealed that metal resistance genes inAcidithiobacillusspp. were acquired by early HGT events from species that shared habitats withAcidithiobacillusspp., such asAcidihalobacter,Thiobacillus,Acidiferrobacter, andThiomonasspecies. Multicopper oxidase genes involved in copper detoxification were lost in iron-oxidizingAcidithiobacillus ferridurans,Acidithiobacillus ferrivorans, andAcidithiobacillus ferrooxidansand were replaced by rusticyanin genes during evolution. In addition, widespread purifying selection and the predicted high expression levels emphasized the indispensable roles of metal resistance genes in the ability ofAcidithiobacillusspp. to adapt to harsh environments. Altogether, the results suggested thatAcidithiobacillusspp. recruited and consolidated additional novel functionalities during the adaption to challenging environments via HGT, gene duplication, and purifying selection. This study sheds light on the distribution, organization, functionality, and complex evolutionary history of metal resistance genes inAcidithiobacillusspp.IMPORTANCEHorizontal gene transfer (HGT), natural selection, and gene duplication are three main engines that drive the adaptive evolution of microbial genomes. Previous studies indicated that HGT was a main adaptive mechanism in acidophiles to cope with heavy-metal-rich environments. However, evidences of HGT inAcidithiobacillusspecies in response to challenging metal-rich environments and the mechanisms addressing how metal resistance genes originated and evolved inAcidithiobacillusare still lacking. The findings of this study revealed a fascinating phenomenon of putative cross-phylum HGT, suggesting thatAcidithiobacillusspp. recruited and consolidated additional novel functionalities during the adaption to challenging environments via HGT, gene duplication, and purifying selection. Altogether, the insights gained in this study have improved our understanding of the metal resistance strategies ofAcidithiobacillusspp.

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Genomic Analysis of Multiresistant Staphylococcus capitis Associated with Neonatal Sepsis

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.00898-18 ◽

2018 ◽

Vol 62 (11) ◽

Cited By ~ 11

Author(s):

Glen P. Carter ◽

James E. Ussher ◽

Anders Gonçalves Da Silva ◽

Sarah L. Baines ◽

Helen Heffernan ◽

...

Keyword(s):

Neonatal Sepsis ◽

Neonatal Intensive Care ◽

Genomic Analysis ◽

Bloodstream Infections ◽

Multidrug Resistant ◽

Comparative Genomic ◽

Coagulase Negative Staphylococci ◽

Content Type ◽

Staphylococcus Capitis ◽

Hospital Infection Control

ABSTRACT Coagulase-negative staphylococci (CoNS), such as Staphylococcus capitis, are major causes of bloodstream infections in neonatal intensive care units (NICUs). Recently, a distinct clone of S. capitis (designated S. capitis NRCS-A) has emerged as an important pathogen in NICUs internationally. Here, 122 S. capitis isolates from New Zealand (NZ) underwent whole-genome sequencing (WGS), and these data were supplemented with publicly available S. capitis sequence reads. Phylogenetic and comparative genomic analyses were performed, as were phenotypic assessments of antimicrobial resistance, biofilm formation, and plasmid segregational stability on representative isolates. A distinct lineage of S. capitis was identified in NZ associated with neonates and the NICU environment. Isolates from this lineage produced increased levels of biofilm, displayed higher levels of tolerance to chlorhexidine, and were multidrug resistant. Although similar to globally circulating NICU-associated S. capitis strains at a core-genome level, NZ NICU S. capitis isolates carried a novel stably maintained multidrug-resistant plasmid that was not present in non-NICU isolates. Neonatal blood culture isolates were indistinguishable from environmental S. capitis isolates found on fomites, such as stethoscopes and neonatal incubators, but were generally distinct from those isolates carried by NICU staff. This work implicates the NICU environment as a potential reservoir for neonatal sepsis caused by S. capitis and highlights the capacity of genomics-based tracking and surveillance to inform future hospital infection control practices aimed at containing the spread of this important neonatal pathogen.

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Complete Genome Resequencing of Thermus thermophilus Strain TMY by Hybrid Assembly of Long- and Short-Read Sequencing Technologies

Microbiology Resource Announcements ◽

10.1128/mra.00979-21 ◽

2021 ◽

Vol 10 (46) ◽

Author(s):

Kentaro Miyazaki ◽

Natsuko Tokito

Keyword(s):

Complete Genome ◽

Thermus Thermophilus ◽

Genomic Analysis ◽

Comparative Genomic ◽

Hybrid Assembly ◽

Genome Resequencing ◽

Short Read ◽

Content Type ◽

Sequencing Technologies ◽

Long Read

Complete genome resequencing was conducted for Thermus thermophilus strain TMY by hybrid assembly of Oxford Nanopore Technologies long-read and MGI short-read data. Errors in the previously reported genome sequence determined by PacBio technology alone were corrected, allowing for high-quality comparative genomic analysis of closely related T. thermophilus genomes.

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The Complete Genome of the Atypical Enteropathogenic Escherichia coli Archetype Isolate E110019 Highlights a Role for Plasmids in Dissemination of the Type III Secreted Effector EspT

Infection and Immunity ◽

10.1128/iai.00412-19 ◽

2019 ◽

Vol 87 (10) ◽

Cited By ~ 1

Author(s):

Tracy H. Hazen ◽

David A. Rasko

Keyword(s):

Escherichia Coli ◽

Complete Genome ◽

Genomic Analysis ◽

Host Cells ◽

Comparative Genomic ◽

Content Type ◽

E Coli ◽

Type Iii ◽

Severe Diarrhea ◽

Typical Epec

ABSTRACT Enteropathogenic Escherichia coli (EPEC) is a leading cause of moderate to severe diarrhea among young children in developing countries, and EPEC isolates can be subdivided into two groups. Typical EPEC (tEPEC) bacteria are characterized by the presence of both the locus of enterocyte effacement (LEE) and the plasmid-encoded bundle-forming pilus (BFP), which are involved in adherence and translocation of type III effectors into the host cells. Atypical EPEC (aEPEC) bacteria also contain the LEE but lack the BFP. In the current report, we describe the complete genome of outbreak-associated aEPEC isolate E110019, which carries four plasmids. Comparative genomic analysis demonstrated that the type III secreted effector EspT gene, an autotransporter gene, a hemolysin gene, and putative fimbrial genes are all carried on plasmids. Further investigation of 65 espT-containing E. coli genomes demonstrated that different espT alleles are associated with multiple plasmids that differ in their overall gene content from the E110019 espT-containing plasmid. EspT has been previously described with respect to its role in the ability of E110019 to invade host cells. While other type III secreted effectors of E. coli have been identified on insertion elements and prophages of the chromosome, we demonstrated in the current study that the espT gene is located on multiple unique plasmids. These findings highlight a role of plasmids in dissemination of a unique E. coli type III secreted effector that is involved in host invasion and severe diarrheal illness.

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Horizontal Gene Transfer Clarifies Taxonomic Confusion and Promotes the Genetic Diversity and Pathogenicity of Plesiomonas shigelloides

mSystems ◽

10.1128/msystems.00448-20 ◽

2020 ◽

Vol 5 (5) ◽

Author(s):

Zhiqiu Yin ◽

Si Zhang ◽

Yi Wei ◽

Meng Wang ◽

Shuangshuang Ma ◽

...

Keyword(s):

Genetic Diversity ◽

Gene Transfer ◽

Horizontal Gene Transfer ◽

Evolutionary Dynamics ◽

Genomic Analysis ◽

Comparative Genomic ◽

Content Type ◽

Pan Genome ◽

Long Time ◽

Taxonomic Confusion

The taxonomic position of P. shigelloides has been the subject of debate for a long time, and until now, the evolutionary dynamics and pathogenesis of P. shigelloides were unclear. In this study, pan-genome analysis indicated extensive genetic diversity and the presence of large and variable gene repertoires. Our results revealed that horizontal gene transfer was the focal driving force for the genetic diversity of the P. shigelloides pan-genome and might have contributed to the emergence of novel properties. Vibrionaceae and Aeromonadaceae were found to be the predominant donor taxa for horizontal genes, which might have caused the taxonomic confusion historically. Comparative genomic analysis revealed the potential of P. shigelloides to cause intestinal and invasive diseases. Our results could advance the understanding of the evolution and pathogenesis of P. shigelloides, particularly in elucidating the role of horizontal gene transfer and investigating virulence-related elements.

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Comparative Genomic and Functional Analysis of Lactobacillus casei and Lactobacillus rhamnosus Strains Marketed as Probiotics

Applied and Environmental Microbiology ◽

10.1128/aem.03467-12 ◽

2013 ◽

Vol 79 (6) ◽

pp. 1923-1933 ◽

Cited By ~ 75

Author(s):

François P. Douillard ◽

Angela Ribbera ◽

Hanna M. Järvinen ◽

Ravi Kant ◽

Taija E. Pietilä ◽

...

Keyword(s):

Gene Cluster ◽

Transcription Initiation ◽

Lactobacillus Rhamnosus ◽

Comparative Genomic ◽

Phenotypic Analysis ◽

Carbohydrate Utilization ◽

Content Type ◽

Host Signaling ◽

Toll Like Receptor 2 ◽

Genome Content

ABSTRACTFourLactobacillusstrains were isolated from marketed probiotic products, includingL. rhamnosusstrains from Vifit (Friesland Campina) and Idoform (Ferrosan) andL. caseistrains from Actimel (Danone) and Yakult (Yakult Honsa Co.). Their genomes and phenotypes were characterized and compared in detail withL. caseistrain BL23 andL. rhamnosusstrain GG. Phenotypic analysis of the new isolates indicated differences in carbohydrate utilization betweenL. caseiandL. rhamnosusstrains, which could be linked to their genotypes. The two isolatedL. rhamnosusstrains had genomes that were virtually identical to that ofL. rhamnosusGG, testifying to their genomic stability and integrity in food products. TheL. caseistrains showed much greater genomic heterogeneity. Remarkably, all strains contained an intactspaCBApilus gene cluster. However, only theL. rhamnosusstrains produced mucus-binding SpaCBA pili under the conditions tested. Transcription initiation mapping demonstrated that the insertion of aniso-IS30element upstream of the pilus gene cluster inL. rhamnosusstrains but absent inL. caseistrains had constituted a functional promoter driving pilus gene expression. AllL. rhamnosusstrains triggered an NF-κB response via Toll-like receptor 2 (TLR2) in a reporter cell line, whereas theL. caseistrains did not or did so to a much lesser extent. This study demonstrates that the twoL. rhamnosusstrains isolated from probiotic products are virtually identical toL. rhamnosusGG and further highlights the differences between these andL. caseistrains widely marketed as probiotics, in terms of genome content, mucus-binding and metabolic capacities, and host signaling capabilities.

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Biology and Genome Sequence of Streptococcus mutans Phage M102AD

Applied and Environmental Microbiology ◽

10.1128/aem.07726-11 ◽

2012 ◽

Vol 78 (7) ◽

pp. 2264-2271 ◽

Cited By ~ 12

Author(s):

Allan L. Delisle ◽

Ming Guo ◽

Natalia I. Chalmers ◽

Gerard J. Barcak ◽

Geneviève M. Rousseau ◽

...

Keyword(s):

Streptococcus Mutans ◽

Genome Sequence ◽

Gc Content ◽

Genomic Analysis ◽

Streptococcus Thermophilus ◽

Open Reading Frames ◽

Comparative Genomic ◽

Content Type ◽

Close Relationship ◽

Virion Structure

ABSTRACTM102AD is the new designation for aStreptococcus mutansphage described in 1993 as phage M102. This change was necessitated by the genome analysis of anotherS. mutansphage named M102, which revealed differences from the genome sequence reported here. Additional host range analyses confirmed thatS. mutansphage M102AD infects only a few serotype c strains. Phage M102AD adsorbed very slowly to its host, and it cannot adsorb to serotype e and f strains ofS. mutans. M102AD adsorption was blocked by c-specific antiserum. Phage M102AD also adsorbed equally well to heat-treated and trypsin-treated cells, suggesting carbohydrate receptors. Saliva and polysaccharide production did not inhibit plaque formation. The genome of this siphophage consisted of a linear, double-stranded, 30,664-bp DNA molecule, with a GC content of 39.6%. Analysis of the genome extremities indicated the presence of a 3′-overhangcossite that was 11 nucleotides long. Bioinformatic analyses identified 40 open reading frames, all in the same orientation. No lysogeny-related genes were found, indicating that phage M102AD is strictly virulent. No obvious virulence factor gene candidates were found. Twelve proteins were identified in the virion structure by mass spectrometry. Comparative genomic analysis revealed a close relationship betweenS. mutansphages M102AD and M102 as well as withStreptococcus thermophilusphages. This study also highlights the importance of conducting research with biological materials obtained from recognized microbial collections.

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Whole-Genome Sequences and Classification of Streptococcus agalactiae Strains Isolated from Laboratory-Reared Long-Evans Rats (Rattus norvegicus)

Genome Announcements ◽

10.1128/genomea.01435-16 ◽

2017 ◽

Vol 5 (1) ◽

Cited By ~ 4

Author(s):

C. Bodi Winn ◽

J. Dzink-Fox ◽

Y. Feng ◽

Z. Shen ◽

V. Bakthavatchalu ◽

...

Keyword(s):

Streptococcus Agalactiae ◽

Genomic Analysis ◽

Opportunistic Pathogen ◽

Comparative Genomic ◽

Whole Genome ◽

Genome Sequences ◽

Content Type ◽

Long Evans ◽

Fatal Septicemia

ABSTRACT In collaboration with the CDC’s Streptococcus Laboratory, we report here the whole-genome sequences of seven Streptococcus agalactiae bacteria isolated from laboratory-reared Long-Evans rats. Four of the S. agalactiae isolates were associated with morbidity accompanied by endocarditis, metritis, and fatal septicemia, providing an opportunity for comparative genomic analysis of this opportunistic pathogen.

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Sequence and expression divergence of an ancient duplication of the chaperonin groESEL operon in Vibrio species

Microbiology ◽

10.1099/mic.0.079194-0 ◽

2014 ◽

Vol 160 (9) ◽

pp. 1953-1963

Author(s):

Nityananda Chowdhury ◽

Joseph J. Kingston ◽

W. Brian Whitaker ◽

Megan R. Carpenter ◽

Analuisa Cohen ◽

...

Keyword(s):

Vibrio Vulnificus ◽

Genomic Analysis ◽

Duplication Event ◽

Comparative Genomic ◽

Human Pathogens ◽

Additional Species ◽

Evolutionary Advantage ◽

Shock Proteins ◽

Chromosome Ii ◽

Chromosome I

Heat-shock proteins are molecular chaperones essential for protein folding, degradation and trafficking. The human pathogen Vibrio vulnificus encodes a copy of the groESEL operon in both chromosomes and these genes share <80 % similarity with each other. Comparative genomic analysis was used to determine whether this duplication is prevalent among Vibrionaceae specifically or Gammaproteobacteria in general. Among the Vibrionaceae complete genome sequences in the database (31 species), seven Vibrio species contained a copy of groESEL in each chromosome, including the human pathogens Vibrio cholerae, Vibrio parahaemolyticus and V. vulnificus. Phylogenetic analysis of GroEL among the Gammaproteobacteria indicated that GroESEL-1 encoded in chromosome I was the ancestral copy and GroESEL-2 in chromosome II arose by an ancient gene duplication event. Interestingly, outside of the Vibrionaceae within the Gammaproteobacteria, groESEL chromosomal duplications were rare among the 296 genomes examined; only five additional species contained two or more copies. Examination of the expression pattern of groEL from V. vulnificus cells grown under different conditions revealed differential expression between the copies. The data demonstrate that groEL-1 was more highly expressed during growth in exponential phase than groEL-2 and a similar pattern was also found in both V. cholerae and V. parahaemolyticus. Overall these data suggest that retention of both copies of groESEL in Vibrio species may confer an evolutionary advantage.

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