about
Host gene response to endosymbiont and pathogen in the cereal weevil Sitophilus oryzaeThe cellular immune response of the pea aphid to foreign intrusion and symbiotic challengeHigh virulence of Wolbachia after host switching: when autophagy hurtsPersistent Wolbachia and Cultivable Bacteria Infection in the Reproductive and Somatic Tissues of the Mosquito Vector Aedes albopictusDisentangling a Holobiont - Recent Advances and Perspectives in Nasonia WaspsThe Terrestrial Isopod Microbiome: An All-in-One Toolbox for Animal-Microbe Interactions of Ecological RelevanceA host as an ecosystem: Wolbachia coping with environmental constraints.Rickettsia 'in' and 'out': two different localization patterns of a bacterial symbiont in the same insect species.Wolbachia in the flesh: symbiont intensities in germ-line and somatic tissues challenge the conventional view of Wolbachia transmission routesThe immune cellular effectors of terrestrial isopod Armadillidium vulgare: meeting with their invaders, WolbachiaFeminizing Wolbachia: a transcriptomics approach with insights on the immune response genes in Armadillidium vulgareWolbachia surface protein induces innate immune responses in mosquito cells.Cannibalism and predation as paths for horizontal passage of Wolbachia between terrestrial isopods.Wolbachia-associated bacterial protection in the mosquito Aedes aegyptiLocation of symbionts in the whitefly Bemisia tabaci affects their densities during host development and environmental stress.Host tissues as microhabitats for Wolbachia and quantitative insights into the bacterial community in terrestrial isopods.Intensity of Mutualism Breakdown Is Determined by Temperature Not Amplification of Wolbachia GenesIntra-cellular bacterial infections affect learning and memory capacities of an invertebrate.The Mutualistic Side of Wolbachia-Isopod Interactions: Wolbachia Mediated Protection Against Pathogenic Intracellular BacteriaThe Hematopoietic Organ: A Cornerstone for Wolbachia Propagation Between and Within HostsTransinfection: a method to investigate Wolbachia-host interactions and control arthropod-borne disease.Wolbachia effects on host fitness and the influence of male aging on cytoplasmic incompatibility in Aedes polynesiensis (Diptera: Culicidae).Multiple paternity in a wild population of Armadillidium vulgare: influence of infection with Wolbachia?Restricted distribution and lateralization of mutualistic Wolbachia in the Drosophila brain.Evolutionary Significance of Wolbachia-to-Animal Horizontal Gene Transfer: Female Sex Determination and the f Element in the Isopod Armadillidium vulgare.Differentially expressed genes in silkworm cell cultures in response to infection by Wolbachia and Cardinium endosymbionts.Horizontal transfers of feminizing versus non-feminizing Wolbachia strains: from harmless passengers to pathogens.Infection with Wolbachia protects mosquitoes against Plasmodium-induced mortality in a natural system.Transmission modes and the evolution of feminizing symbionts.Localization and dynamics of Wolbachia infection in Asian citrus psyllid Diaphorina citri, the insect vector of the causal pathogens of Huanglongbing.Phenotypic shift in Wolbachia virulence towards its native host across serial horizontal passages.Feminizing Wolbachia influence microbiota composition in the terrestrial isopod Armadillidium vulgare.Uncovering the hidden players in Lepidoptera biology: the heritable microbial endosymbionts.Males prefer virgin females, even if parasitized, in the terrestrial isopod Armadillidium vulgare.A bioinformatics approach to identifying infections in arthropods
P2860
Q21263100-F6FF1413-BA8C-4732-A11B-D02800455A82Q27329507-9FFFBA22-3533-442F-AD65-2E1437848526Q27342935-A38F9700-56E4-4040-85C9-161F0208C91DQ27488924-6AD93F07-35D8-492D-913C-C508CD6C50D5Q28072193-4082A40B-D09C-4487-BF98-3B3B5E67B085Q28078753-CCE6D641-7ECB-4A7F-8FC6-E0A1652AB75DQ30364992-8D69C1EA-3A9E-41AE-B952-032B9A9F1C55Q31021653-FD741500-7923-4C9B-9A57-7AB600037E9EQ33838414-5686DA37-BDAD-4579-9937-E6F15B2FB0BAQ33886388-49C3F140-08FB-45AD-9ADE-4F5374674A47Q34030890-C5CC732E-B1F4-4978-ABEE-AA7B7834656AQ34178457-90BDCA81-BCFA-4B9A-9A49-CC49E78332D8Q34672801-E3EAFBE8-F2DA-4277-9094-9EB12ACB4EB4Q34952394-9B75276A-8FC2-4855-9E5D-1A9974359CCCQ35121714-BD507FFC-4453-4D00-924E-67187DCB4133Q35153590-B1CE3240-5657-44EC-83D0-6510238AED92Q36142362-277A2142-2AD7-462D-88BC-1B0921502923Q36370356-592CD442-5CD0-4B3C-8D5B-A626043A24A0Q36373969-0391E894-9672-49AE-A3FF-AFB7A4C4D5EAQ36381769-A9AB19BB-08E9-4711-B59E-0A740A03CDA0Q38170521-33CA1B36-9594-44AE-8B65-A4154886790FQ38426640-28D97C99-2FA4-4253-890F-0CF5DCAAF15DQ40428017-DDAD5D8B-E09D-400F-B1B1-76C7A716CF96Q40632946-3BA981FC-1E3D-40B5-A86C-1B787136E78BQ41225098-6773DF33-2E3D-43A1-8312-AEB5C57E8F6CQ42018105-C1B4A75A-A196-45E9-A7BD-1F039184E4E4Q43524873-69DA35D9-954A-4A29-BA10-D36A1440B90CQ44163643-903EB239-7705-4272-A8EA-87D1D67712F9Q45881586-ED4D621C-26EB-44E9-8813-1B08E77BB13AQ52638916-8F1F5B44-BA04-4F60-BCC1-A10E2EEEED77Q54167808-B29FCEBF-E92E-4B38-B8C4-ABA11AE03693Q54221493-22386E90-B370-41DD-98F1-4541601061DAQ55091525-CDFF8BF9-D72D-4044-BF5C-B7032590FFCCQ55154939-4EB3F070-C826-4233-8DAB-10AB6DE7E651Q58767887-D6E0E1A0-07BE-404E-B218-FE375207AE77
P2860
description
2008 nî lūn-bûn
@nan
2008 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Wolbachia mediate variation of host immunocompetence
@ast
Wolbachia mediate variation of host immunocompetence
@en
type
label
Wolbachia mediate variation of host immunocompetence
@ast
Wolbachia mediate variation of host immunocompetence
@en
prefLabel
Wolbachia mediate variation of host immunocompetence
@ast
Wolbachia mediate variation of host immunocompetence
@en
P2093
P2860
P50
P1433
P1476
Wolbachia mediate variation of host immunocompetence
@en
P2093
Juline Herbinière
Marion Lachat
Monique Johnson
Yves Caubet
P2860
P356
10.1371/JOURNAL.PONE.0003286
P407
P577
2008-09-26T00:00:00Z