Extreme genome reduction in Buchnera spp.: toward the minimal genome needed for symbiotic life - Wikidata - awgldk - TriplyDB

Extreme genome reduction in Buchnera spp.: toward the minimal genome needed for symbiotic life

Extreme genome reduction in Buchnera spp.: toward the minimal genome needed for symbiotic life

http://www.wikidata.org/entity/Q24536091

about

Conservation of the links between gene transcription and chromosomal organization in the highly reduced genome of Buchnera aphidicola The genome sequence of Blochmannia floridanus: comparative analysis of reduced genomes Reductive genome evolution in Buchnera aphidicola Predicted structure and phyletic distribution of the RNA-binding protein Hfq.Genetic diversity of the Q fever agent, Coxiella burnetii, assessed by microarray-based whole-genome comparisons Coexistence of Wolbachia with Buchnera aphidicola and a secondary symbiont in the aphid Cinara cedri Development of an artificial cell, from self-organization to computation and self-reproduction Genomes at the interface between bacteria and organelles Nutrition and Helicobacter pylori: Host Diet and Nutritional Immunity Influence Bacterial Virulence and Disease Outcome Genome-wide functional divergence after the symbiosis of proteobacteria with insects unraveled through a novel computational approach Energetics and genetics across the prokaryote-eukaryote divide Complete genome sequence of Candidatus Ruthia magnifica New clues about the evolutionary history of metabolic losses in bacterial endosymbionts, provided by the genome of Buchnera aphidicola from the aphid Cinara tujafilina Evolution of the leucine gene cluster in Buchnera aphidicola: insights from chromosomal versions of the cluster Impact of donor-recipient phylogenetic distance on bacterial genome transplantation How to make a minimal genome for synthetic minimal cell Intracellular symbionts of sharpshooters (Insecta: Hemiptera: Cicadellinae) form a distinct clade with a small genome.An evaluation of minimal cellular functions to sustain a bacterial cell.Convergent evolution of modularity in metabolic networks through different community structures Tempo and mode of early gene loss in endosymbiotic bacteria from insects The fuzzy border between a cell and an organelle.Long-term trends in evolution of indels in protein sequences.Environmental variability and modularity of bacterial metabolic networks The bacterial essence of tiny symbiont genomes.A metaproteomic analysis of the human salivary microbiota by three-dimensional peptide fractionation and tandem mass spectrometry.Toward an efficient method of identifying core genes for evolutionary and functional microbial phylogenies Genome evolution in bacterial endosymbionts of insects.Proteome-wide analysis of functional divergence in bacteria: exploring a host of ecological adaptations.Systems biology perspectives on minimal and simpler cells.Most RNAs regulating ribosomal protein biosynthesis in Escherichia coli are narrowly distributed to Gammaproteobacteria.Exploration of the core metabolism of symbiotic bacteria.Deep sequencing of the transcriptomes of soybean aphid and associated endosymbionts Correlations between bacterial ecology and mobile DNA.The genome of the intracellular bacterium of the coastal bivalve, Solemya velum: a blueprint for thriving in and out of symbiosis.Comparative genomics of Serratia spp.: two paths towards endosymbiotic life.Cultivation of a human-associated TM7 phylotype reveals a reduced genome and epibiotic parasitic lifestyle.A genomic perspective on nutrient provisioning by bacterial symbionts of insects A conservative test of genetic drift in the endosymbiotic bacterium Buchnera: slightly deleterious mutations in the chaperonin groEL.Tyrosine pathway regulation is host-mediated in the pea aphid symbiosis during late embryonic and early larval development.Synthetic Biology: A Bridge between Artificial and Natural Cells

P2860

Q21266574-31BA723F-BD55-4CED-8EB7-D8F601016803 Q22066232-1396D495-6275-442C-8D6B-D105C2A48624 Q22066374-BDB3FCA3-E35E-4B22-A45C-6F0915F36E9E Q24537811-69D97BA4-21A9-49B4-9951-0303FCCA241E Q24542438-8575BA83-594B-4E1A-B7D1-218750A64C54 Q24561834-A35A962A-C9C7-41A6-9FFA-2680AA5D7C0D Q24610402-829A8C73-6C37-4F84-9943-F5182AD7FDB1 Q24675911-9626DC05-2115-4F13-AE24-20F59B82240F Q28079985-79BFE94F-04E2-4483-9F4F-6C76B591E66F Q28475165-A3A449F8-948C-4736-83C9-85D8B28C7CA6 Q28741658-5C7BD51B-45E4-4D7B-AC82-5A4F2207ACDA Q28743004-F5BFA700-5FB1-4758-8B92-3008F3B88167 Q28743040-04BB421C-24C8-43AB-95A9-45059F7485C8 Q28776035-CC85D018-C862-487B-9CEF-5C090239CF9F Q28828497-168B3DB4-CD34-46B7-AF95-D0C807A51387 Q28833701-52ED8160-1E85-400D-A55C-F036FF3ACE0C Q30764881-A1589F8F-104D-4AC2-AAD6-8EB75C5BC668 Q30923832-4643C719-1677-4CB3-8AA1-26435968BB16 Q31090499-78FD33AD-0537-4BC6-8CD0-82DB78EEB678 Q33250586-9F2C0233-77C1-46E4-A496-74B44B9285CD Q33263679-EC258813-4E30-4D07-A37B-6385B774F5B8 Q33273715-45C30FCC-BBE4-4CF5-8454-A4F925A5A458 Q33299957-C213C4B1-38D9-44AA-BA85-F9216027ACEA Q33653608-628E7A9D-7C4B-4F61-A123-C4D68D1778D0 Q33771302-05A4D2D5-34D6-4F99-9255-DC56F40120B7 Q34023960-1B3120C8-E8AF-4AA6-900F-3FC91265DC80 Q34157691-217EAA42-0C56-48F5-92A6-85BD4A2EB4F6 Q34259703-BF9D3B3E-6521-45D6-BCE2-7BE076E7F144 Q34297826-D51DA67F-A05B-4990-B66B-D6F119E83713 Q34327076-3E2374C4-4342-41B0-8AA1-EE00724628A1 Q34400247-A38B78AD-999C-4E09-B63C-5523F65CED3E Q34416411-BB288BB8-AD9E-40C1-806E-E24C6AB56162 Q34427628-819C1925-7F24-4966-824F-06625969CE13 Q34444697-3AE4A87A-1BA1-4B6E-8088-B7096E1D5406 Q34450692-BDF971FA-42A1-42C4-83FE-73EDDFA672EF Q34455394-39068D4A-FCD9-49DE-86D0-134B8314F261 Q34583117-74CFA6FF-AC2D-4EC1-8FAD-006662EFE1BB Q34619327-3A6954A1-6623-4C3A-A719-FD4BCEE4F40B Q34662911-1761EACB-C60B-4EC4-BC65-D6E7D35838EF Q34829709-4820F573-FD88-4A6D-9B4B-523049FA0202

P2860

Extreme genome reduction in Buchnera spp.: toward the minimal genome needed for symbiotic life

http://www.wikidata.org/entity/Q24536091

description

2002 nî lūn-bûn

@nan

2002 թուականի Ապրիլին հրատարակուած գիտական յօդուած

@hyw

2002 թվականի ապրիլին հրատարակված գիտական հոդված

@hy

2002年の論文

@ja

2002年論文

@yue

2002年論文

@zh-hant

2002年論文

@zh-hk

2002年論文

@zh-mo

2002年論文

@zh-tw

2002年论文

@wuu

name

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@ast

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@en

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@nl

type

label

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@ast

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@en

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@nl

prefLabel

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@ast

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@en

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@nl

P1433

Q24536091-C7483F0D-CA62-4E2B-A9FC-862F4C6D3C59

P1476

Q24536091-A5F21FFA-6C14-4B3A-935A-EC826B831C7F

P2860

Q24536091-14175078-D279-44A0-A5C8-650F7782976E

Q24536091-20DBA40B-6B62-4288-9E63-471F64AF6DA0

Q24536091-258727EE-E955-44D6-9A1C-E0EA2B2BD06D

Q24536091-25985409-65F7-47F0-A11B-525E652CEC88

Q24536091-2C006D72-8882-45E8-B329-38A637975CBC

Q24536091-46B1E3E5-7221-420E-A544-463A423C530F

Q24536091-546A1B3A-19C3-4F75-8971-E31D049B19DC

Q24536091-628A599A-94C8-47DF-BAA1-501F3FC547BB

Q24536091-63F27490-CA6E-4FF5-A0D4-4A079CB4E3F0

Q24536091-709DD7F8-48B4-4DC1-954B-3EA452A58FFD

P304

Q24536091-D699F074-E504-4E60-BB8C-A483CEC13988

P31

Q24536091-D10FD1B1-A726-4904-A486-113E09FF1A0F

P3181

Q24536091-F5E7602F-EB91-4AF4-80D9-8C35526A3430

P356

Q24536091-0864FD64-323B-41B9-A04B-57C7DADC5D8C

P407

Q24536091-68BB96D1-AF7B-4ABF-866A-0D514BC0DE5A

P433

Q24536091-2659828F-F1D2-4089-BB7F-79E842579707

P478

Q24536091-312AAE5D-8A51-45A8-A0EB-C5812D2F4A65

P50

Q24536091-0AD38B99-2F32-4C2E-B723-2800B7FE5AAF

Q24536091-0EFAE5A0-C7F8-4784-9955-E590CE278B33

Q24536091-27BE030F-4BDE-4F90-905F-F7019E55F472

Q24536091-76D963B5-C9D8-4A00-A34D-C0DA13718825

Q24536091-9C4171EF-1CF0-48E2-B4BC-AF7D91DEA5AA

P577

Q24536091-0E3AE1AC-A723-463B-9FE4-717EAF81DE8F

P5875

Q24536091-FBAF7D45-6F62-4BB3-8541-77A5CF219981

P698

Q24536091-7238907A-3AE2-4CB0-9DF0-EF6D2412F474

P932

Q24536091-92873B55-7C63-4B9A-939D-F736F62598C6

P3181

P356

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Extreme genome reduction in Bu ...... nome needed for symbiotic life

@en

P2860

The Minimal Gene Complement of Mycoplasma genitalium

Genome sequence of the endocellular bacterial symbiont of aphids Buchnera sp. APS

Nutritional interactions in insect-microbial symbioses: aphids and their symbiotic bacteria Buchnera

A minimal gene set for cellular life derived by comparison of complete bacterial genomes

Global transposon mutagenesis and a minimal Mycoplasma genome

How many genes can make a cell: the minimal-gene-set concept.

The minimal genome concept.

Plasmid-encoded anthranilate synthase (TrpEG) in Buchnera aphidicola from aphids of the family pemphigidae

The secondary endosymbiotic bacterium of the pea aphid Acyrthosiphon pisum (Insecta: homoptera).

Decoupling of genome size and sequence divergence in a symbiotic bacterium.

P304

4454-8

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

P31

scholarly article

P3181

3674870

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

P356

10.1073/PNAS.062067299

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

P407

P433

7

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

P478

99

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

P50

Beatriz Sabater-Muñoz

Francisco J Silva

P577

2002-04-02T00:00:00Z

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

P5875

11460412

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

P698

11904373

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

P932

123669

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