about
The oxidative environment: a mediator of interspecies communication that drives symbiosis evolutionAnimals in a bacterial world, a new imperative for the life sciencesSNP calling from RNA-seq data without a reference genome: identification, quantification, differential analysis and impact on the protein sequenceWolbachia interferes with ferritin expression and iron metabolism in insectsImpact of Wolbachia on oxidative stress sensitivity in the parasitic wasp Asobara japonica.Influence of Wolbachia on host gene expression in an obligatory symbiosis.The first engagement of partners in the Euprymna scolopes-Vibrio fischeri symbiosis is a two-step process initiated by a few environmental symbiont cellsThe chemistry of negotiation: rhythmic, glycan-driven acidification in a symbiotic conversation.Modulation of symbiont lipid A signaling by host alkaline phosphatases in the squid-vibrio symbiosisA model symbiosis reveals a role for sheathed-flagellum rotation in the release of immunogenic lipopolysaccharide.Microbial impacts on insect evolutionary diversification: from patterns to mechanisms.Influence of oxidative homeostasis on bacterial density and cost of infection in Drosophila-Wolbachia symbioses.Do variable compensatory mechanisms explain the polymorphism of the dependence phenotype in the Asobara tabida-wolbachia association?Unicoloniality, recognition and genetic differentiation in a native Formica ant.Involvement of a host Cathepsin L in symbiont-induced cell death.Does a parthenogenesis-inducing Wolbachia induce vestigial cytoplasmic incompatibility?The dual nature of haemocyanin in the establishment and persistence of the squid-vibrio symbiosis.Persistent Interactions with Bacterial Symbionts Direct Mature-Host Cell Morphology and Gene Expression in the Squid-Vibrio SymbiosisDevelopment of a PCR-RFLP assay to identify among field-collected larvae
P50
Q27021453-5F7AC99B-77B7-4ABB-A36E-D03917AEA780Q28705526-224EB9F0-966F-42C7-9C4A-077D78934F8DQ31117543-7A950C83-D722-4A33-BDE2-7636E7E5D106Q33511951-1EA01993-5253-4C13-BC75-E5B8128DC84BQ33584988-BB7DED79-F589-4FB9-A3ED-AD006B889D16Q33584988-C605DD44-3EBD-448B-B15B-0F295EA2B88FQ34178794-2E03631B-81AB-49B0-A300-F3354AF95569Q34354975-0D8421A6-D71D-49A0-8E5D-45DDA10E88CAQ34985586-492F4F77-3F2C-4FE2-9646-3220D706C6FCQ36602764-58C943A3-1960-4CBB-BDF5-D98B8446F273Q37615037-08D03A5C-8298-4D78-9ADB-E87EE8C56C16Q39064837-2D55F020-6470-40BB-8AA5-E4AAF4E7A85BQ40747165-DC9C18AF-36EC-4FE2-9041-84153AF5E257Q45884680-C20A8E15-F388-442A-9F4D-2631F793293AQ51186613-F2C45C80-D55E-46D8-B067-10939F59E0D0Q52565112-04DF412F-9563-43BE-9B9A-4386D5F5BE5FQ52713696-A65BC982-4AF2-453A-A626-879517D24DACQ55371834-B974472F-716C-48C1-BD88-1C71EABF2CD3Q57485148-6B70D865-17B2-4AA3-BE6B-6F7D6A1E09DBQ58551212-521354EB-8348-4F05-AA90-9A1AAB0B0F87
P50
description
researcher ORCID ID = 0000-0001-5678-9416
@en
wetenschapper
@nl
name
Natacha Kremer
@ast
Natacha Kremer
@en
Natacha Kremer
@es
Natacha Kremer
@nl
type
label
Natacha Kremer
@ast
Natacha Kremer
@en
Natacha Kremer
@es
Natacha Kremer
@nl
prefLabel
Natacha Kremer
@ast
Natacha Kremer
@en
Natacha Kremer
@es
Natacha Kremer
@nl
P106
P31
P496
0000-0001-5678-9416