about
EGF signal propagation during C. elegans vulval development mediated by ROM-1 rhomboidA conserved function of C. elegans CASY-1 calsyntenin in associative learningPTEN negatively regulates MAPK signaling during Caenorhabditis elegans vulval developmentPredictive modeling of signaling crosstalk during C. elegans vulval development.Neuron-specific regulation of associative learning and memory by MAGI-1 in C. elegans.The Caenorhabditis elegans homologue of the proto-oncogene ect-2 positively regulates RAS signalling during vulval developmentFine-tuning the RAS signaling pathway: Zn(2+) makes the difference.Emergent stem cell homeostasis in the C. elegans germline is revealed by hybrid modelingβ-Integrin de-phosphorylation by the Density-Enhanced Phosphatase DEP-1 attenuates EGFR signaling in C. elegans.Cell-cycle regulation of NOTCH signaling during C. elegans vulval development.The transcription factor VAB-23 links vulval cell fate specification and morphogenesis.Signal transduction during C. elegans vulval development: a NeverEnding story.Ras/MAPK Modifier Loci Revealed by eQTL in Caenorhabditis elegansAn intimate look at LET-23 EGFR trafficking in the vulval cells of live C. elegans larvaeTissue-specific functions of the Caenorhabditis elegans p120 Ras GTPase activating protein GAP-3.The Invading Anchor Cell Induces Lateral Membrane Constriction during Vulval Lumen Morphogenesis in C. elegans.Regulation of anchor cell invasion and uterine cell fates by the egl-43 Evi-1 proto-oncogene in Caenorhabditis elegans.Long-term C. elegans immobilization enables high resolution developmental studies in vivo.The C. elegans MAGI-1 protein is a novel component of cell junctions that is required for junctional compartmentalization.Ras/MAPK modifier loci revealed by eQTL inC. elegansThe CHORD protein CHP-1 regulates EGF receptor trafficking and signaling in C. elegans and in human cellsThe Caenorhabditis elegans homolog of the Evi1 proto-oncogene, egl-43, coordinates G1 cell cycle arrest with pro-invasive gene expression during anchor cell invasionEpidermal Growth Factor Signaling Promotes Sleep through a Combined Series and Parallel Neural CircuitThe hypoxia-response pathway modulates RAS/MAPK-mediated cell fate decisions in Caenorhabditis elegansPolarized epidermal growth factor secretion ensures robust vulval cell fate specification in Caenorhabditis elegans
P50
Q24794899-81ED234A-5343-48D8-9FCD-7DF833E9FB0FQ27350306-C0672C2A-5657-498C-9DF1-FFAC12D6F90DQ28482319-2CD88BCD-BAC7-4014-9943-B250997138C2Q33285034-DD5DB444-57BE-4EEF-B63F-87CFF2C63FD3Q33473897-27FB1BA7-4A24-4F7B-92B2-17EDB636DC0CQ34360677-82ACBCB0-B48E-4535-AC02-CEC993F9AB5BQ34671278-3B33304D-1C23-4248-9DA1-4EFF3DAE762AQ36209877-62130481-B9F9-4739-8E12-84BBF335E2F7Q36263751-CDBE68D4-464B-406B-B0C1-5A511E712BE0Q36408700-F58E8845-F2EF-4AD2-9988-B963EDA5904CQ36895907-9D30D2F0-8D98-41AE-9870-8939E18F38BFQ38354166-316B8937-9BF1-4680-A634-BE040FA41695Q41383342-C51BE79F-EDB3-42D1-96A5-57848F906F43Q41611920-01A680A3-4242-4981-9FB3-BA5A4944AA52Q46355893-275D54F9-ED70-48F7-906B-04DF83DFFDDEQ47978355-246DB49F-092A-40FA-AD4F-EF6DD2BFA9FAQ51983074-9BE45CF1-86E1-4A8B-B4A7-54B426556587Q52590337-17D3513D-B151-4155-A681-95328741BC95Q54637155-FCF48667-AEB7-4E72-AFE0-3F56973794EDQ56880678-4501A808-A6F4-48D1-9114-81C38583171FQ89693413-237BFB53-DEAA-4D87-86F3-EE504C413448Q90592035-D637B01A-12E3-4689-8F58-13CE9467BF33Q91990896-8715695A-3B32-4B3A-AF39-A1440B6E007CQ92281758-BA153B6F-8F8D-4C97-8E52-BFE6880CB5B2Q95318983-6DA3449B-95CA-4DCA-9CED-92EC2E855A7A
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Alex Hajnal
@ast
Alex Hajnal
@en
Alex Hajnal
@es
Alex Hajnal
@nl
type
label
Alex Hajnal
@ast
Alex Hajnal
@en
Alex Hajnal
@es
Alex Hajnal
@nl
prefLabel
Alex Hajnal
@ast
Alex Hajnal
@en
Alex Hajnal
@es
Alex Hajnal
@nl
P106
P31
P496
0000-0002-4098-3721