about
Mechanisms of innate immunity in C. elegans epidermisDefects in the C. elegans acyl-CoA synthase, acs-3, and nuclear hormone receptor, nhr-25, cause sensitivity to distinct, but overlapping stressesAnti-fungal innate immunity in C. elegans is enhanced by evolutionary diversification of antimicrobial peptidesIndependent synchronized control and visualization of interactions between living cells and organisms.Inducible antibacterial defense system in C. elegans.Activation of a G protein-coupled receptor by its endogenous ligand triggers the innate immune response of Caenorhabditis elegans.The pseudokinase NIPI-4 is a novel regulator of antimicrobial peptide gene expression.Clone mapper: an online suite of tools for RNAi experiments in Caenorhabditis elegans.The fatty acid synthase fasn-1 acts upstream of WNK and Ste20/GCK-VI kinases to modulate antimicrobial peptide expression in C. elegans epidermisDetection and avoidance of a natural product from the pathogenic bacterium Serratia marcescens by Caenorhabditis elegansA quantitative genome-wide RNAi screen in C. elegans for antifungal innate immunity genes.The Origin and Function of Anti-Fungal Peptides in C. elegans: Open Questions.Coordinated inhibition of C/EBP by Tribbles in multiple tissues is essential for Caenorhabditis elegans development.Genome-wide investigation reveals pathogen-specific and shared signatures in the response of Caenorhabditis elegans to infectionDistinct innate immune responses to infection and wounding in the C. elegans epidermis.Negative regulation of Caenorhabditis elegans epidermal damage responses by death-associated protein kinase.Local and long-range activation of innate immunity by infection and damage in C. elegans.Characterisation of set-1, a conserved PR/SET domain gene in Caenorhabditis elegans.Virulence profile: Nathalie PujolThe Caenorhabditis elegans unc-32 gene encodes alternative forms of a vacuolar ATPase a subunit.The LIM homeobox gene ceh-14 is required for phasmid function and neurite outgrowth.XNP-1/ATR-X acts with RB, HP1 and the NuRD complex during larval development in C. elegans.Unusual regulation of a STAT protein by an SLC6 family transporter in C. elegans epidermal innate immunity.Antifungal innate immunity in C. elegans: PKCdelta links G protein signaling and a conserved p38 MAPK cascade.TLR-independent control of innate immunity in Caenorhabditis elegans by the TIR domain adaptor protein TIR-1, an ortholog of human SARM.An Antimicrobial Peptide and Its Neuronal Receptor Regulate Dendrite Degeneration in Aging and Infection.Modulatory upregulation of an insulin peptide gene by different pathogens in C. elegans.A Damage Sensor Associated with the Cuticle Coordinates Three Core Environmental Stress Responses in Caenorhabditis elegans.Evolutionary plasticity in the innate immune function of AkirinCellular Homeostasis: Coping with ER Overload During an Immune ResponseMécanismes de défense du nématodeC. elegansMicrotubule plus-end dynamics link wound repair to the innate immune responseMicrotubule plus-end dynamics link wound repair to the innate immune response
P50
Q26771604-6E709791-DB54-4A3A-87BB-D100BC6A9577Q27313906-29CD4246-F05F-473B-918D-BDB94A8BF02EQ33352702-3A5DAE89-4D53-4E70-928B-FC1759603D01Q33736902-71836524-BE2D-4351-8616-EC9B0E626231Q33960851-3F2FD63D-E04E-42F8-8317-23395C71B24AQ34071133-A1C1CFE9-5A60-45D9-96E1-8800F5DB39F0Q34217548-494AB98B-D0EA-407B-96F8-296957629E4EQ34514506-48E9C0A3-47A0-4BF3-A4F1-4E5431AF560AQ34775392-BD316BA7-40BE-4A86-8C48-0D220AD6A3C7Q35844548-7B7E2F57-A782-4022-B7D3-838A693C7AF3Q36003584-34651EB5-D89B-46DD-B851-FC0C27381D7FQ36131311-145BC282-4821-4463-A4C9-962092E22AD0Q36215319-FF8AC4A3-A9ED-4D54-B1B9-2D130F4A1FEAQ36643300-21E3D5BE-DF9D-44D8-9A90-F2190C438F6BQ36672001-99763E9C-AA35-46C9-A4BE-4F00F7B24E46Q37068977-5F6EF01C-792D-4737-96C2-00236F97C549Q38620270-E5A024B7-9A27-496D-AE58-FEA97832499DQ42680402-6CC0A24D-CF75-4E58-9A3B-26F253C4C4AEQ42779095-6CE78CD8-037B-4B92-9C42-8A73B6F9A07AQ43511411-F9163163-4421-4BCF-9128-78DBC85806F8Q45819556-337DB884-9553-40B9-A6D3-48AF64F3D0B8Q47069240-017911C1-0BAB-4C54-BF25-44B9F9CC8C2EQ47069380-24460D4A-121A-4402-8F76-AD5AD1055FC8Q47069431-53BE62D9-44C0-40E4-82A4-083F4D969AE1Q47069444-39A126A6-F04A-4984-A3A5-46CEA1558D9FQ47232485-C92993D4-E469-47AC-AB6A-E90C4F4F7439Q50187389-92ED0CE8-7E9E-4064-AE9D-B015BCF3DBEBQ52688918-C9FDDA0D-B25B-4696-A9EE-3387C6A705A9Q56750843-1AC024E4-3B4B-449B-8623-ACA13D799767Q61196564-EF93641F-A085-43C0-BCC6-453E3105E619Q61196567-0EDC50C5-D004-42EF-85E3-FB3177FB1B07Q61226822-A112B93A-697A-41B6-ADD8-A86E7F065063Q93028785-E9C71266-CD61-493F-BCFC-4836D975C5F5
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Nathalie Pujol
@ast
Nathalie Pujol
@en
Nathalie Pujol
@es
Nathalie Pujol
@nl
Nathalie Pujol
@sl
type
label
Nathalie Pujol
@ast
Nathalie Pujol
@en
Nathalie Pujol
@es
Nathalie Pujol
@nl
Nathalie Pujol
@sl
prefLabel
Nathalie Pujol
@ast
Nathalie Pujol
@en
Nathalie Pujol
@es
Nathalie Pujol
@nl
Nathalie Pujol
@sl
P1053
K-3880-2012
P106
P21
P31
P3829
P496
0000-0001-8889-3197