A Rickettsia genome overrun by mobile genetic elements provides insight into the acquisition of genes characteristic of an obligate intracellular lifestyle - Wikidata - awgldk - TriplyDB

A Rickettsia genome overrun by mobile genetic elements provides insight into the acquisition of genes characteristic of an obligate intracellular lifestyle

A Rickettsia genome overrun by mobile genetic elements provides insight into the acquisition of genes characteristic of an obligate intracellular lifestyle

http://www.wikidata.org/entity/Q35668080

about

Recent molecular insights into rickettsial pathogenesis and immunity Emerging horizons for tick-borne pathogens: from the 'one pathogen-one disease' vision to the pathobiome paradigm Molecular detection of Rickettsia species in ticks collected from the southwestern provinces of the Republic of Korea Genomic diversification in strains of Rickettsia felis Isolated from different arthropods Lateral transfers of insertion sequences between Wolbachia, Cardinium and Rickettsia bacterial endosymbionts Small Regulatory RNAs of Rickettsia conorii Bacterial DNA sifted from the Trichoplax adhaerens (Animalia: Placozoa) genome project reveals a putative rickettsial endosymbiont Rickettsia buchneri sp. nov., a rickettsial endosymbiont of the blacklegged tick Ixodes scapularis.Microbial communities and symbionts in the hard tick Haemaphysalis longicornis (Acari: Ixodidae) from north China.The genome of Cardinium cBtQ1 provides insights into genome reduction, symbiont motility, and its settlement in Bemisia tabaci.The Tick Microbiome: Why Non-pathogenic Microorganisms Matter in Tick Biology and Pathogen Transmission.Evolutionary origin of insect-Wolbachia nutritional mutualism.Comparative genomics of Serratia spp.: two paths towards endosymbiotic life.Comparative genomics suggests an independent origin of cytoplasmic incompatibility in Cardinium hertigii.Complete genomic DNA sequence of the East Asian spotted fever disease agent Rickettsia japonica.Secretome of obligate intracellular Rickettsia.Concordance of bacterial communities of two tick species and blood of their shared rodent host.Transcriptional Analysis of the Conjugal Transfer Genes of Rickettsia bellii RML 369-C.The Rickettsia Endosymbiont of Ixodes pacificus Contains All the Genes of De Novo Folate Biosynthesis.Bacterial small RNAs in the Genus Rickettsia.Draft genome sequence of Rickettsia sp. strain MEAM1, isolated from the whitefly Bemisia tabaci.Transcriptomic responses of the olive fruit fly Bactrocera oleae and its symbiont Candidatus Erwinia dacicola to olive feeding.Dynamics of Wolbachia pipientis Gene Expression Across the Drosophila melanogaster Life Cycle The Wolbachia WO bacteriophage proteome in the Aedes albopictus C/wStr1 cell line: evidence for lytic activity?Genomic insights into the Ixodes scapularis tick vector of Lyme disease.Coinfection of Dermacentor silvarum olenev (acari: ixodidae) by Coxiella-Like, Arsenophonus-like, and Rickettsia-like symbionts Identification and Characterization of Novel Small RNAs in Rickettsia prowazekii Mechanism and Function of Type IV Secretion During Infection of the Human Host.A Coxiella-like endosymbiont is a potential vitamin source for the Lone Star tick.Whole-genome sequencing in bacteriology: state of the art.The expanding bacterial type IV secretion lexicon.Efficient Enrichment of Bacterial mRNA from Host-Bacteria Total RNA Samples.The endosymbiont Amoebophilus asiaticus encodes an S-adenosylmethionine carrier that compensates for its missing methylation cycle.Tropism and pathogenicity of rickettsiae.The Phylogeny of Rickettsia Using Different Evolutionary Signatures: How Tree-Like is Bacterial Evolution?Torix group Rickettsia are widespread in Culicoides biting midges (Diptera: Ceratopogonidae), reach high frequency and carry unique genomic features.Multi-omics Analysis Sheds Light on the Evolution and the Intracellular Lifestyle Strategies of Spotted Fever Group Rickettsia spp.Diversity of tick species on domestic animals in Shandong Province, China, using DNA barcoding.Green lacewings (Neuroptera: Chrysopidae) are commonly associated with a diversity of rickettsial endosymbionts.Infection of Immature Ixodes scapularis (Acari: Ixodidae) by Membrane Feeding.

P2860

Q27025849-2AADF76F-0A75-446C-8080-6EE607E6C120 Q28085222-8D7EFC13-48D8-4576-BDF7-48BA99964B78 Q28365338-E806A78E-3835-43DC-B6F2-9648D29A0784 Q28650497-2EC71D40-5BDF-48E4-9D54-9D7E44755C2D Q28662163-459932A8-40C7-4685-B00E-FAEA162BEBB8 Q29048623-2E219CEC-A4E8-4976-96DA-FABBA697526F Q30539440-30A5EE1F-A653-4ED2-839F-71CC25D2C5FD Q30882986-6E12015C-76EA-4B57-BF44-39CAB0776575 Q31150836-9C4E4382-9F02-4206-8CA8-F995FD1F41A3 Q33556693-0BAD4DD7-7AF7-4631-A577-51F2FFF011C2 Q33774555-1D2A2483-FCB8-4B2A-91DD-240F23A06D92 Q33925964-5C7E733F-B5D8-4015-B5AC-FA2D9163CD9D Q34450692-EBD20646-18AC-42BD-B003-C303BB286614 Q34469036-25BA6387-10B4-4441-8CCB-ECA1786EA648 Q34988242-0D5AEAE3-0061-45CF-94E1-7BE6C7789FBC Q35132653-525CF26A-DC57-48B4-9D3E-D54308C2338B Q35595824-86CF534E-9F91-4581-AFD7-3584473AC108 Q35768051-1BB475D0-A9F7-4E10-A355-D61F7B332F6B Q35864338-F5506D8E-4BF1-42EC-906E-D8590C96F757 Q35872000-7547D67A-B607-433C-AD20-FC2BB9F60826 Q36152777-E976899D-F27F-4200-A867-08914C50A732 Q36287225-64B5C8C5-BB3F-4113-A969-3A188F3A28EB Q36383193-F42D34D7-23BD-496A-94CC-C00981F29264 Q36431372-06384BBF-F673-4EAB-AF3A-DAE68A6F35DD Q36564717-749B3D13-F9A1-47D3-83DA-3889608D3352 Q36757412-143EBA0E-63B7-4D11-9870-C6B707FEDC9E Q36978725-E8307179-5E72-41DE-B909-59AD9A3913FD Q37036006-ACDBA54A-FC75-4775-AA23-BEF3FB55ED7D Q37197007-88C2F9DF-B248-4A8D-A1AA-00BA76555BE8 Q37231213-93AE1248-C19D-4061-90E5-14F25F73BC43 Q37275377-0C1055CB-F573-403D-B646-CDDB61689DBE Q37318974-6B4B2B0F-06A9-4242-8D77-D3877DDE3802 Q37846576-499491D0-6F5F-415E-8F87-2295D7A8D452 Q38022006-367565A3-93E5-45AF-AA10-F932B4C75483 Q38343146-676D860E-C8B7-4161-A0A2-0547C95AF350 Q38626294-4C3A5F8F-449A-4D19-887B-00723C289EA8 Q38642072-942EA761-7AC6-4FAB-8EB8-DDFC844FEF69 Q40041627-216E068D-BF21-4B20-ACBC-EA00804105BD Q40090756-C463B421-5795-4746-BB6A-32C9FBD45ECF Q40848489-B8C1DBB6-F103-42DD-9175-4724109EDED5

P2860

A Rickettsia genome overrun by mobile genetic elements provides insight into the acquisition of genes characteristic of an obligate intracellular lifestyle

http://www.wikidata.org/entity/Q35668080

description

2011 nî lūn-bûn

@nan

2011年の論文

@ja

2011年論文

@yue

2011年論文

@zh-hant

2011年論文

@zh-hk

2011年論文

@zh-mo

2011年論文

@zh-tw

2011年论文

@wuu

2011年论文

@zh

2011年论文

@zh-cn

name

A Rickettsia genome overrun by ...... ligate intracellular lifestyle

@ast

A Rickettsia genome overrun by ...... ligate intracellular lifestyle

@en

type

label

A Rickettsia genome overrun by ...... ligate intracellular lifestyle

@ast

A Rickettsia genome overrun by ...... ligate intracellular lifestyle

@en

prefLabel

A Rickettsia genome overrun by ...... ligate intracellular lifestyle

@ast

A Rickettsia genome overrun by ...... ligate intracellular lifestyle

@en

P1433

Q35668080-ABEC123B-E225-42DD-B671-E83076955B42

P1476

Q35668080-8C050050-75A4-4F5D-91B3-6907053B5247

P2093

Q35668080-0A7317B0-5873-4DF8-9E2E-F98B55FF2A2A

Q35668080-1B4C66E0-C5BB-49EB-90F0-C5B96CEA134B

Q35668080-33A49F13-44AF-42BD-9936-744619C3DB18

Q35668080-5A60B85A-AFA0-4C48-B9FA-73661FDCC3FB

Q35668080-94130E3B-7351-40E9-A9BC-03E74060F54D

Q35668080-AAB2F465-28D7-4505-A60C-AE1ED50E3C4F

Q35668080-C6F905EE-1EE9-4244-A22F-92325EFF3010

Q35668080-D080F223-ADCA-499B-98C4-4323F6FE5E22

Q35668080-D89FABA1-DC6C-4627-8029-2408975BCD7D

Q35668080-F0FF2CAC-48FA-4DFC-8138-0EC430BF26B7

P2860

Q35668080-028AEC83-FED5-4C15-8610-718D05C3AF7A

Q35668080-06DB4EEF-B4AC-4BAD-B13B-3EAADF4D6865

Q35668080-09BA2239-B326-4B51-AB1E-63B37133C2E9

Q35668080-0C56BEA3-9566-4E63-8AC5-941A0448C181

Q35668080-0C7C6A72-97DA-4250-9836-895CFB839868

Q35668080-0CFD821C-FC0C-46C8-B5AC-02B12446C765

Q35668080-0DB3FBE3-7272-4D9A-85C4-285CA26ABCA9

Q35668080-0F0A904F-DF9D-45F6-BF33-74958F7B5E61

Q35668080-105C8E9E-0420-4BF7-B0AF-74CAE5506F41

Q35668080-1462D74C-EAD3-4800-898F-18205514C7E7

P304

Q35668080-5DA665AC-6741-4357-93C5-B77DAA920382

P31

Q35668080-5DC7EB46-1B3F-496B-8AA5-6AC5D406CB76

P356

Q35668080-4D09273B-1A27-4281-B503-0C5FCC838375

P407

Q35668080-83347D0F-2016-4B2A-B854-D20172E49FEC

P433

Q35668080-D3C18DA3-CB7F-44BF-AA92-A45DE6EA37E5

P478

Q35668080-C1C2D255-4F58-425A-BAE4-CCDA4D5A15EE

P50

Q35668080-431DD34E-64F0-4AB8-B87C-4F1F7991DE70

Q35668080-9074DA4B-ADB6-419F-93F7-96F3DD40C2A8

Q35668080-D78F145D-76C7-474C-80BC-CDA1BD320E46

P577

Q35668080-C96BA0F0-53D4-489B-B2AB-520170201896

P698

Q35668080-18238559-1593-4207-A603-8EAC68FFD6F3

P932

Q35668080-3B1753D4-0561-435A-9C5C-7C4DF827BFDA

P356

P1433

Journal of Bacteriology

P1476

A Rickettsia genome overrun by ...... ligate intracellular lifestyle

@en

P2093

Abdu F Azad

http://www.w3.org/2001/XMLSchema#string

Brian Walenz

http://www.w3.org/2001/XMLSchema#string

Bruno W Sobral

http://www.w3.org/2001/XMLSchema#string

Catherine A Hill

http://www.w3.org/2001/XMLSchema#string

Elisabet Caler

http://www.w3.org/2001/XMLSchema#string

Eric Nordberg

http://www.w3.org/2001/XMLSchema#string

Jessica B Hostetler

http://www.w3.org/2001/XMLSchema#string

Joseph J Gillespie

http://www.w3.org/2001/XMLSchema#string

Kelly P Williams

http://www.w3.org/2001/XMLSchema#string

Maulik Shukla

http://www.w3.org/2001/XMLSchema#string

P2860

Plasmids and rickettsial evolution: insight from Rickettsia felis

Analysis of the Rickettsia africae genome reveals that virulence acquisition in Rickettsia species may be explained by genome reduction

The RAST Server: rapid annotations using subsystems technology

MUSCLE: a multiple sequence alignment method with reduced time and space complexity

Comparative genomics of emerging human ehrlichiosis agents

The genome sequence of Rickettsia felis identifies the first putative conjugative plasmid in an obligate intracellular parasite.

Phylogenomics of the reproductive parasite Wolbachia pipientis wMel: a streamlined genome overrun by mobile genetic elements

The Genome of the Amoeba Symbiont "Candidatus Amoebophilus asiaticus" Reveals Common Mechanisms for Host Cell Interaction among Amoeba-Associated Bacteria

The complete genome sequence of the Arabidopsis and tomato pathogen Pseudomonas syringae pv. tomato DC3000

The genome sequence of Rickettsia prowazekii and the origin of mitochondria

P304

376-394

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1128/JB.06244-11

http://www.w3.org/2001/XMLSchema#string

P407

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

194

http://www.w3.org/2001/XMLSchema#string

P50

Vinita S Joardar

Timothy Driscoll

Vishvanath Nene

P577

2011-11-04T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

22056929

http://www.w3.org/2001/XMLSchema#string

P932

3256634

http://www.w3.org/2001/XMLSchema#string