scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1024272720 |
P356 | DOI | 10.1186/1741-7007-9-87 |
P2888 | exact match | https://scigraph.springernature.com/pub.10.1186/1741-7007-9-87 |
P932 | PMC publication ID | 3271043 |
P698 | PubMed publication ID | 22201529 |
P5875 | ResearchGate publication ID | 51925712 |
P50 | author | Filip Husník | Q46275019 |
Václav Hypša | Q58034145 | ||
P2093 | author name string | Václav Hypša | |
Tomáš Chrudimský | |||
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One nutritional symbiosis begat another: phylogenetic evidence that the ant tribe Camponotini acquired Blochmannia by tending sap-feeding insects | Q21283828 | ||
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Secondary endosymbionts of psyllids have been acquired multiple times | Q41760284 | ||
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A Bayesian compound stochastic process for modeling nonstationary and nonhomogeneous sequence evolution | Q42596434 | ||
Characterization of bacterial symbionts in Frankliniella occidentalis (Pergande), Western flower thrips | Q42598196 | ||
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Inherited intracellular ecosystem: symbiotic bacteria share bacteriocytes in whiteflies | Q45885680 | ||
Can the tight co-speciation between reed beetles (Col., Chrysomelidae, Donaciinae) and their bacterial endosymbionts, which provide cocoon material, clarify the deeper phylogeny of the hosts? | Q46450038 | ||
Ultrastructural and molecular characterization of endosymbionts of the reed beetle genus Macroplea (Chrysomelidae, Donaciinae), and proposal of "Candidatus Macropleicola appendiculatae" and "Candidatus Macropleicola muticae". | Q46793911 | ||
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Phylogenetic placement of pentatomid stink bug gut symbionts. | Q48072986 | ||
Using MODELTEST and PAUP* to select a model of nucleotide substitution. | Q48590203 | ||
From phylogenetics to phylogenomics: the evolutionary relationships of insect endosymbiotic gamma-Proteobacteria as a test case. | Q51919686 | ||
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Critical analysis of the topology and rooting of the parabasalian 16S rRNA tree. | Q51992723 | ||
Inferring pattern and process: maximum-likelihood implementation of a nonhomogeneous model of DNA sequence evolution for phylogenetic analysis. | Q52240074 | ||
Evidence for genetic drift in endosymbionts (Buchnera): analyses of protein-coding genes. | Q52570323 | ||
A putative insect intracellular endosymbiont stem clade, within the Enterobacteriaceae, infered from phylogenetic analysis based on a heterogeneous model of DNA evolution. | Q52589000 | ||
A new Sodalis lineage from bloodsucking fly Craterina melbae (Diptera, Hippoboscoidea) originated independently of the tsetse flies symbiont Sodalis glossinidius. | Q52675938 | ||
Molecular evidence for polyphyletic origin of the primary symbionts of sucking lice (phthiraptera, anoplura). | Q52677442 | ||
Phylogenetic relationships between flies of the Tephritinae subfamily (Diptera, Tephritidae) and their symbiotic bacteria. | Q52701657 | ||
Bacterial symbionts of the giant jewel stinkbug Eucorysses grandis (Hemiptera: Scutelleridae). | Q52716780 | ||
Artifactual phylogenies caused by correlated distribution of substitution rates among sites and lineages: the good, the bad, and the ugly. | Q53019438 | ||
Phylogenetic Characterization and Molecular Evolution of Bacterial Endosymbionts in Psyllids (Hemiptera: Sternorrhyncha) | Q56534032 | ||
Changing partners in an obligate symbiosis: a facultative endosymbiont can compensate for loss of the essential endosymbiont Buchnera in an aphid | Q56949653 | ||
A non-hyperthermophilic ancestor for Bacteria | Q59078581 | ||
Alternative Methods for Concatenation of Core Genes Indicate a Lack of Resolution in Deep Nodes of the Prokaryotic Phylogeny | Q62570598 | ||
Nonhomogeneous model of sequence evolution indicates independent origins of primary endosymbionts within the enterobacteriales (gamma-Proteobacteria) | Q80961536 | ||
The COG database: an updated version includes eukaryotes | Q21284294 | ||
Massive genome erosion and functional adaptations provide insights into the symbiotic lifestyle of Sodalis glossinidius in the tsetse host | Q22065743 | ||
The 160-Kilobase Genome of the Bacterial Endosymbiont Carsonella | Q22065875 | ||
Phylogeny of gammaproteobacteria | Q24629301 | ||
Endosymbionts of ticks and their relationship to Wolbachia spp. and tick-borne pathogens of humans and animals | Q24673626 | ||
From gene trees to organismal phylogeny in prokaryotes: the case of the gamma-Proteobacteria | Q24795892 | ||
MrBayes 3: Bayesian phylogenetic inference under mixed models | Q26778438 | ||
Strict host-symbiont cospeciation and reductive genome evolution in insect gut bacteria | Q27335173 | ||
The emerging diversity of Rickettsia | Q27477599 | ||
jModelTest: phylogenetic model averaging | Q27860610 | ||
A general empirical model of protein evolution derived from multiple protein families using a maximum-likelihood approach | Q27860716 | ||
ProtTest: selection of best-fit models of protein evolution | Q27860845 | ||
A genomic perspective on protein families | Q27860913 | ||
Selection of conserved blocks from multiple alignments for their use in phylogenetic analysis | Q27860925 | ||
A Simple, Fast, and Accurate Algorithm to Estimate Large Phylogenies by Maximum Likelihood | Q27861000 | ||
Genome-scale phylogeny and the detection of systematic biases | Q28256558 | ||
A small microbial genome: the end of a long symbiotic relationship? | Q28268345 | ||
'Candidatus Midichloria mitochondrii', an endosymbiont of the tick Ixodes ricinus with a unique intramitochondrial lifestyle | Q28272022 | ||
Functional convergence in reduced genomes of bacterial symbionts spanning 200 My of evolution | Q28748909 | ||
Convergent evolution of metabolic roles in bacterial co-symbionts of insects | Q28751668 | ||
Mutational meltdown in primary endosymbionts: selection limits Muller's ratchet | Q28755167 | ||
Improvement of molecular phylogenetic inference and the phylogeny of Bilateria | Q28755823 | ||
Early-branching or fast-evolving eukaryotes? An answer based on slowly evolving positions | Q28765882 | ||
Symbiosis and insect diversification: an ancient symbiont of sap-feeding insects from the bacterial phylum Bacteroidetes | Q28768773 | ||
Deleterious mutations destabilize ribosomal RNA in endosymbiotic bacteria | Q28776479 | ||
CONSEL: for assessing the confidence of phylogenetic tree selection | Q29547244 | ||
An improved general amino acid replacement matrix | Q29547248 | ||
Recent developments in the MAFFT multiple sequence alignment program | Q29547333 | ||
A Bayesian mixture model for across-site heterogeneities in the amino-acid replacement process | Q29547484 | ||
Improvement of phylogenies after removing divergent and ambiguously aligned blocks from protein sequence alignments | Q29547572 | ||
PhyloBayes 3: a Bayesian software package for phylogenetic reconstruction and molecular dating | Q29547645 | ||
SeaView version 4: A multiplatform graphical user interface for sequence alignment and phylogenetic tree building | Q29547665 | ||
Maximum likelihood phylogenetic estimation from DNA sequences with variable rates over sites: approximate methods | Q29547744 | ||
AWTY (are we there yet?): a system for graphical exploration of MCMC convergence in Bayesian phylogenetics | Q29547751 | ||
A new method for calculating evolutionary substitution rates | Q29615058 | ||
Genomics and evolution of heritable bacterial symbionts | Q29615836 | ||
Comment on "Hexapod origins: monophyletic or paraphyletic?". | Q34230008 | ||
Biology bacteriocyte-associated endosymbionts of plant sap-sucking insects | Q34449710 | ||
Mycetocyte symbiosis in insects | Q34517763 | ||
Isolation, pure culture, and characterization of "Candidatus Arsenophonus arthropodicus," an intracellular secondary endosymbiont from the hippoboscid louse fly Pseudolynchia canariensis | Q34570579 | ||
Massive genomic decay in Serratia symbiotica, a recently evolved symbiont of aphids | Q34665742 | ||
Parallel genomic evolution and metabolic interdependence in an ancient symbiosis | Q34719855 | ||
The phylogeny of Sodalis-like symbionts as reconstructed using surface-encoding loci | Q34723119 | ||
Origin and examination of a leafhopper facultative endosymbiont. | Q34751442 | ||
Hamiltonella defensa, genome evolution of protective bacterial endosymbiont from pathogenic ancestors | Q34981697 | ||
Removing symbiotic Wolbachia bacteria specifically inhibits oogenesis in a parasitic wasp | Q35936982 | ||
Bacterial endosymbiont of the slender pigeon louse, Columbicola columbae, allied to endosymbionts of grain weevils and tsetse flies | Q36137132 | ||
Infection dynamics of coexisting beta- and gammaproteobacteria in the nested endosymbiotic system of mealybugs | Q36746675 | ||
Learning how to live together: genomic insights into prokaryote-animal symbioses | Q37082450 | ||
Intestinal endocellular symbiotic bacterium of the macaque louse Pedicinus obtusus: Distinct endosymbiont origins in anthropoid primate lice and the old world monkey louse | Q37204351 | ||
Parasitism and mutualism in Wolbachia: what the phylogenomic trees can and cannot say. | Q37291105 | ||
Facultative symbionts in aphids and the horizontal transfer of ecologically important traits | Q37591527 | ||
Genomics of intracellular symbionts in insects. | Q37679369 | ||
Molecular characterization of the principal symbiotic bacteria of the weevil Sitophilus oryzae: a peculiar G + C content of an endocytobiotic DNA. | Q38551089 | ||
Evolution of the secondary symbiont "Candidatus serratia symbiotica" in aphid species of the subfamily lachninae | Q39752769 | ||
Suppression of long-branch attraction artefacts in the animal phylogeny using a site-heterogeneous model | Q29616752 | ||
Multigene analyses of bilaterian animals corroborate the monophyly of Ecdysozoa, Lophotrochozoa, and Protostomia | Q29618582 | ||
A site- and time-heterogeneous model of amino acid replacement. | Q30367472 | ||
Secondary (gamma-Proteobacteria) endosymbionts infect the primary (beta-Proteobacteria) endosymbionts of mealybugs multiple times and coevolve with their hosts | Q30700634 | ||
Erwinia aphidicola, a new species isolated from pea aphid, Acyrthosiphon pisum | Q30758033 | ||
Mitochondria and hydrogenosomes are two forms of the same fundamental organelle | Q30887580 | ||
Evolutionary relationships of primary prokaryotic endosymbionts of whiteflies and their hosts | Q30937009 | ||
Evolutionary relationships of three new species of Enterobacteriaceae living as symbionts of aphids and other insects | Q30991286 | ||
Evolutionary relationships of "Candidatus Riesia spp.," endosymbiotic enterobacteriaceae living within hematophagous primate lice | Q31091941 | ||
Biostraticola tofi gen. nov., spec. nov., a novel member of the family Enterobacteriaceae | Q31148935 | ||
Microsporidia are related to Fungi: evidence from the largest subunit of RNA polymerase II and other proteins | Q31932082 | ||
Modeling compositional heterogeneity | Q33208241 | ||
New gammaproteobacteria associated with blood-feeding leeches and a broad phylogenetic analysis of leech endosymbionts | Q33223025 | ||
Metabolic complementarity and genomics of the dual bacterial symbiosis of sharpshooters | Q33244906 | ||
Co-cladogenesis spanning three phyla: leafhoppers (Insecta: Hemiptera: Cicadellidae) and their dual bacterial symbionts | Q33261012 | ||
Acoel flatworms are not platyhelminthes: evidence from phylogenomics | Q33293529 | ||
SlowFaster, a user-friendly program for slow-fast analysis and its application on phylogeny of Blastocystis | Q33360122 | ||
Origin of an alternative genetic code in the extremely small and GC-rich genome of a bacterial symbiont | Q33483324 | ||
Onion thrips, Thrips tabaci, have gut bacteria that are closely related to the symbionts of the western flower thrips, Frankliniella occidentalis. | Q33542759 | ||
Compositional heterogeneity and phylogenomic inference of metazoan relationships | Q33552016 | ||
"Candidatus Curculioniphilus buchneri," a novel clade of bacterial endocellular symbionts from weevils of the genus Curculio | Q33559420 | ||
Molecular characterization and localization of the obligate endosymbiotic bacterium in the birch catkin bug Kleidocerys resedae (Heteroptera: Lygaeidae, Ischnorhynchinae). | Q33586603 | ||
Evolutionary microbial genomics: insights into bacterial host adaptation | Q33592109 | ||
MicrobesOnline: an integrated portal for comparative and functional genomics | Q33600574 | ||
Wolbachia as a bacteriocyte-associated nutritional mutualist | Q33640051 | ||
Inferring phylogenies from DNA sequences of unequal base compositions | Q33773055 | ||
Site-specific time heterogeneity of the substitution process and its impact on phylogenetic inference | Q33793566 | ||
Characterization of an obligate intracellular bacterium in the midgut epithelium of the bulrush bug Chilacis typhae (Heteroptera, Lygaeidae, Artheneinae) | Q33837970 | ||
Primary gut symbiont and secondary, Sodalis-allied symbiont of the Scutellerid stinkbug Cantao ocellatus | Q33876711 | ||
Phylogenetic position and peculiar genetic traits of a midgut bacterial symbiont of the stinkbug Parastrachia japonensis. | Q33963277 | ||
Endosymbiotic bacteria in the esophageal organ of glossiphoniid leeches | Q34059717 | ||
The draft genome sequence of Arsenophonus nasoniae, son-killer bacterium of Nasonia vitripennis, reveals genes associated with virulence and symbiosis | Q34099527 | ||
Estimating population size and transmission bottlenecks in maternally transmitted endosymbiotic bacteria | Q34135806 | ||
Type III secretion systems and the evolution of mutualistic endosymbiosis | Q34156206 | ||
Dynamics of genome evolution in facultative symbionts of aphids | Q34204961 | ||
P275 | copyright license | Creative Commons Attribution 2.0 Generic | Q19125117 |
P6216 | copyright status | copyrighted | Q50423863 |
P921 | main subject | Proteobacteria | Q130999 |
phylogenetics | Q171184 | ||
Enterobacteriaceae | Q380136 | ||
endosymbiosis | Q2456754 | ||
P304 | page(s) | 87 | |
P577 | publication date | 2011-12-28 | |
P1433 | published in | BMC Biology | Q2545642 |
P1476 | title | Multiple origins of endosymbiosis within the Enterobacteriaceae (γ-Proteobacteria): convergence of complex phylogenetic approaches | |
P478 | volume | 9 |
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