about
DVC1 (C1orf124) is a DNA damage-targeting p97 adaptor that promotes ubiquitin-dependent responses to replication blocksMicroRNAs: Not "Fine-Tuners" but Key Regulators of Neuronal Development and FunctionA single gene target of an ETS-family transcription factor determines neuronal CO2-chemosensitivityEGL-13/SoxD specifies distinct O2 and CO2 sensory neuron fates in Caenorhabditis elegansA novel role for the zinc-finger transcription factor EGL-46 in the differentiation of gas-sensing neurons in Caenorhabditis elegansMicrobeam irradiation of the C. elegans nematodeLateralized gustatory behavior of C. elegans is controlled by specific receptor-type guanylyl cyclasesA regulatory network of T-box genes and the even-skipped homologue vab-7 controls patterning and morphogenesis in C. elegans.Regulation of axonal midline guidance by prolyl 4-hydroxylation in Caenorhabditis elegans.Reliable reference miRNAs for quantitative gene expression analysis of stress responses in Caenorhabditis elegansmicroRNA regulation of the embryonic hypoxic response in Caenorhabditis elegansRedefining the role of syndecans in C. elegans biology.Developmental Wiring of Specific Neurons Is Regulated by RET-1/Nogo-A in Caenorhabditis elegans.Control of Neuropeptide Expression by Parallel Activity-dependent Pathways in Caenorhabditis elegansThe ETS-5 transcription factor regulates activity states in Caenorhabditis elegans by controlling satiety.Invited review: decoding the microRNA response to hypoxia.Neuronal responses to physiological stress.Neuronal cell fate decisions: O2 and CO2 sensing neurons require egl-13/Sox5.LIN-32/Atonal Controls Oxygen Sensing Neuron Development in Caenorhabditis elegans.Hypoxia activates a latent circuit for processing gustatory information in C. elegans.Specific microRNAs regulate heat stress responses in Caenorhabditis elegans.Neuronal function of Tbx20 conserved from nematodes to vertebrates.Transcriptional control of satiety in Caenorhabditis elegans.Proteomic Characterization of Caenorhabditis elegans Larval Development.Automated three-dimensional reconstruction of the Caenorhabditis elegans germline.Oxygen levels affect axon guidance and neuronal migration in Caenorhabditis elegans.Behavioral Assays to Study Oxygen and Carbon Dioxide Sensing in Caenorhabditis elegans.Hub connectivity, neuronal diversity, and gene expression in the Caenorhabditis elegans connectome.Cell-extracellular matrix and cell-cell adhesion are linked by syndecan-4.The UNC-4 homeobox protein represses mab-9 expression in DA motor neurons in Caenorhabditis elegans.Functional dissection of the C. elegans cell adhesion molecule SAX-7, a homologue of human L1.Distinct CED-10/Rac1 domains confer context-specific functions in developmentA novel Eph receptor-interacting IgSF protein provides C. elegans motoneurons with midline guidepost functionInterferon-β-induced miR-1 alleviates toxic protein accumulation by controlling autophagyPIE-scope, integrated cryo-correlative light and FIB/SEM microscopyAn epidermal microRNA regulates neuronal migration through control of the cellular glycosylation stateThe UIG-1/CDC-42 guanine nucleotide exchange factor acts in parallel to CED-10/Rac1 during axon outgrowth in Caenorhabditis elegansIFNB/interferon-β regulates autophagy via a MIR1-TBC1D15-RAB7 pathway
P50
Q24300382-163A54FD-2D4E-4462-8F4D-6332EE085882Q26774739-25CAAFB9-CFFE-484A-B32B-50C027DB94B9Q27305760-3227F804-20E2-4D07-912B-E2AAD6644037Q27322765-D5D8FF7A-4882-46A3-B301-5ADE50462BF5Q27346610-8E33442D-20EC-4DEA-A2F8-1A190FCFF406Q28240438-0C72F72C-A947-42B5-96BF-C98879D3A5A5Q30489699-B1B864DF-662A-4092-9A74-AFA3B2DE7BACQ34315560-737EE47F-6198-4E3A-B437-8FC643C732BFQ34614580-9C91C79E-5BDC-4F15-B4C1-17AA59587B23Q35127528-7753108E-0E2E-47FF-98FC-2B44CD70639EQ35716449-464E2591-7BFF-41E2-805A-5AF0B4AED73FQ36722802-1C737ED8-5C5D-4A8C-81ED-E123AB102AA3Q37576470-F1DCBF43-BE77-46CE-86E9-C15A6AEC70F6Q37615366-76224388-A834-428B-B376-32492B63A6AEQ37682356-35A70D56-FEBF-48A2-A49E-C6CC51088580Q37826096-03BEE9C1-2F5E-411A-B6D1-4C70232E377DQ38056724-6AB76D72-9682-4202-974F-01131ED45A75Q38775274-7ABF28F4-AE96-4D95-8B8B-32CC75B8289EQ41260733-9272A888-0114-42A7-AAAB-B675C4BE26F4Q42156526-2792A5BA-EC61-4A81-B5B7-35F271F2ACE3Q43179779-C133D56B-1B62-401B-ABED-8623E8251030Q44329086-7454B083-6F27-4716-9D00-385F8F6AA9A7Q47134631-5A9F798B-E443-4A56-B806-70B6BE713B0CQ47361597-895169BE-3757-4CBD-BD06-6DA550F5DEF8Q47593218-E37447CE-D2E1-4735-8F61-D3BA5CE3ABFCQ49141401-600F60AF-06B3-4C8E-B0A9-99141C75ACAAQ49416945-91687E40-DC4D-4653-915B-DA303ACE6F2EQ50047285-2DA27266-9077-4BF4-AF3F-00C3C0CC5FCEQ50483559-4B8C8CA8-F0BB-4821-AD81-D7CEB4BABADDQ50539202-13269316-EAB7-4168-8EC6-67DA417069DAQ53522157-C001B902-BC84-4157-8D1B-574A2A10923CQ58796473-40C7AA2E-465C-4A87-BB33-BCC0EC3100E1Q79207721-ACAD6A50-1DF4-4B60-ADC4-56E2C83932ABQ83225755-409CFC69-22FE-4127-936D-D08A9C2B4544Q83231494-F6D78F0E-382F-4C1E-B632-06703DEFC098Q85956303-328192B9-063D-4768-9EDF-B9172A522B3AQ91664024-35FEDF17-FACD-4DE1-BB87-8633450AD735Q92769842-7D624F0A-80B8-486A-9F28-6BE016A60796
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Roger Pocock
@ast
Roger Pocock
@en
Roger Pocock
@es
Roger Pocock
@nl
Roger Pocock
@sl
type
label
Roger Pocock
@ast
Roger Pocock
@en
Roger Pocock
@es
Roger Pocock
@nl
Roger Pocock
@sl
prefLabel
Roger Pocock
@ast
Roger Pocock
@en
Roger Pocock
@es
Roger Pocock
@nl
Roger Pocock
@sl
P106
P1153
26533077300
P21
P31
P496
0000-0002-5515-3608