Amplification of trpEG: adaptation of Buchnera aphidicola to an endosymbiotic association with aphids.
about
Reductive genome evolution in Buchnera aphidicolaExtreme genome reduction in Buchnera spp.: toward the minimal genome needed for symbiotic lifeAccelerated evolution and Muller's rachet in endosymbiotic bacteriaSelection in the evolution of gene duplicationsMutualistic associations of aphids and prokaryotes: biology of the genus buchneraSymbiosis and insect diversification: an ancient symbiont of sap-feeding insects from the bacterial phylum Bacteroidetes.Intraspecific variation in symbiont genomes: bottlenecks and the aphid-buchnera associationEvolution of the leucine gene cluster in Buchnera aphidicola: insights from chromosomal versions of the clusterReinventing the Wheel and Making It Round Again: Evolutionary Convergence in Buchnera-Serratia Symbiotic Consortia between the Distantly Related Lachninae Aphids Tuberolachnus salignus and Cinara cedriHorizontal transfer of bacterial symbionts: heritability and fitness effects in a novel aphid host.Phytophagous insect-microbe mutualisms and adaptive evolutionary diversification.Regulation of transcription in a reduced bacterial genome: nutrient-provisioning genes of the obligate symbiont Buchnera aphidicola.Plasmid-encoded anthranilate synthase (TrpEG) in Buchnera aphidicola from aphids of the family pemphigidaeVertical transmission of biosynthetic plasmids in aphid endosymbionts (Buchnera).Settling down: the genome of Serratia symbiotica from the aphid Cinara tujafilina zooms in on the process of accommodation to a cooperative intracellular life.Comparative genomics and transcriptomics of lineages I, II, and III strains of Listeria monocytogenesA genomic perspective on nutrient provisioning by bacterial symbionts of insectsGenomic revelations of a mutualism: the pea aphid and its obligate bacterial symbiont.Functional requirements driving the gene duplication in 12 Drosophila species.Development of reference transcriptomes for the major field insect pests of cowpea: a toolbox for insect pest management approaches in west Africa.The endosymbiont (Buchnera sp.) of the aphid Diuraphis noxia contains plasmids consisting of trpEG and tandem repeats of trpEG pseudogenes.Ancient origin of the tryptophan operon and the dynamics of evolutionary change.Bacterial symbionts, Buchnera, and starvation on wing dimorphism in English grain aphid, Sitobion avenae (F.) (Homoptera: Aphididae).Insight into the transmission biology and species-specific functional capabilities of tsetse (Diptera: glossinidae) obligate symbiont WigglesworthiaBacterial menageries inside insects.Metabolic interdependence of obligate intracellular bacteria and their insect hosts.Chromosomal stasis versus plasmid plasticity in aphid endosymbiont Buchnera aphidicola.A novel intracellular mutualistic bacterium in the invasive ant Cardiocondyla obscuriorPostsymbiotic plasmid acquisition and evolution of the repA1-replicon in Buchnera aphidicola.Intraspecific genetic variation in hosts affects regulation of obligate heritable symbionts.Association between gut microbiota and diapause preparation in the cabbage beetle: a new perspective for studying insect diapause.Ecological and temporal constraints in the evolution of bacterial genomes.Cytokinin-induced phenotypes in plant-insect interactions: learning from the bacterial world.Prephenate dehydratase from the aphid endosymbiont (Buchnera) displays changes in the regulatory domain that suggest its desensitization to inhibition by phenylalanine.Molecular characterization of the leucine cluster in Buchnera sp. strain PSY, a primary endosymbiont of the aphid Pemphigus spyrothecaePutative evolutionary origin of plasmids carrying the genes involved in leucine biosynthesis in Buchnera aphidicola (endosymbiont of aphids).Growth Kinetics of the Endosymbiont Buchnera aphidicola in the Aphid Schizaphis graminum.Whole Genome Sequence of the Soybean Aphid Endosymbiont Buchnera aphidicola and Genetic Differentiation among Biotype-Specific StrainsShifts in Buchnera aphidicola density in soybean aphids (Aphis glycines) feeding on virus-infected soybean.Metabolic Complementation in Bacterial Communities: Necessary Conditions and Optimality.
P2860
Q22066374-28501A64-66E7-415F-8F74-8E6DF42E7A4FQ24536091-912BA51F-EA2D-40AE-A29F-A54CE16EFFC7Q24568178-ABE7815F-6EF8-47FB-840F-0810B9218BAEQ24802293-CADE5EE0-238A-4366-94DE-39AB2A416CFBQ28768374-FEA034C7-C3F1-4301-B23F-12F04FC98741Q28768773-1552FF85-8842-48A2-8680-9E22CE1B0F71Q28769051-11011CC6-57B7-4A50-83AD-034F75519872Q28776035-787DEF69-5C7C-438E-99EC-DB87109F79F1Q28828404-BC01F02B-167F-489C-A07D-B01CE70FA318Q33228714-7403C3C0-33D6-4B4C-8ED5-D53294FE1E04Q33321032-2AC8FB69-11D7-48CF-A254-6EC6EC767BC4Q33855505-E767EE56-5C4F-4F2E-B47D-A0F17204010AQ33984050-85E145DC-116E-4775-8DA5-906C5864E4B1Q33995424-38FF74E2-2413-4450-A48B-E4E79E3C932BQ34007271-AF7D11F5-84EA-4708-B6BD-F7F03473E481Q34244291-301367F6-022A-4713-8B06-60D51BA53D46Q34583117-48C8236F-3DA1-4FFA-B3D4-3FE4DC4D228FQ34724696-C8CF95EE-7E75-4149-9010-EDF00F17EAA7Q34941156-8EB34BB5-A16D-4F44-A3F5-F0C23BD33CECQ35053373-BF9F365E-19A1-41EE-B39E-56916B4C2E5FQ35188436-7CAF2BD5-482A-45A8-AAFC-6636FF4FE54DQ35215943-1CD22844-52E1-4CD8-834E-4A95F38140B7Q35626072-9DA968EB-3EC4-442D-A5C7-5EF331B1DEA5Q35759742-B82F1532-E15F-4850-8DAA-310FC8976D1DQ35916694-DAFC9FF1-3E10-43C4-AA80-52F1F50D3EDBQ35980170-13976590-B93D-4223-B09C-73EF21A867A7Q36239175-935AB40C-2E59-4D4D-BD3D-28DBDCA80D8AQ36534911-BEF710C1-2697-421F-A68F-D1F52AD6E846Q37263250-97AFCB8D-90E2-46DB-9027-14CA660F4EF2Q37469286-721A76B5-3AA7-4AA9-8051-2B0C7155846BQ37488208-343BAA79-5FA4-4E48-A573-725BA36A7158Q38202864-EE09716F-F159-4BA0-B2CA-382E0F56019BQ38221444-A040F310-D1A0-4321-8758-45D2031FE2C4Q39539354-BA6F3E1A-6101-4B78-9A30-D916A071C619Q39653427-0FF051FC-7114-47EC-BDAD-403CABC48046Q39846634-29093D25-D7B4-4FE5-9367-BE9712D88291Q39916130-35509545-8E94-4C90-9E30-BDA07D123042Q40376521-4EFF6922-BC87-4380-B789-FB3C93B5E34EQ41112109-7DFEC2D7-4A8D-4AEA-8A54-B2D75DA2EC49Q41361551-B443B22F-2E2A-4B53-9AF6-72194D81F59C
P2860
Amplification of trpEG: adaptation of Buchnera aphidicola to an endosymbiotic association with aphids.
description
1994 nî lūn-bûn
@nan
1994 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1994 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
name
Amplification of trpEG: adapta ...... iotic association with aphids.
@ast
Amplification of trpEG: adapta ...... iotic association with aphids.
@en
type
label
Amplification of trpEG: adapta ...... iotic association with aphids.
@ast
Amplification of trpEG: adapta ...... iotic association with aphids.
@en
prefLabel
Amplification of trpEG: adapta ...... iotic association with aphids.
@ast
Amplification of trpEG: adapta ...... iotic association with aphids.
@en
P2093
P2860
P356
P1476
Amplification of trpEG: adapta ...... iotic association with aphids.
@en
P2093
P2860
P304
P356
10.1073/PNAS.91.9.3819
P407
P577
1994-04-01T00:00:00Z