about
Your neighbours matter - non-autonomous control of apoptosis in development and diseaseCEP-1, the Caenorhabditis elegans p53 homolog, mediates opposing longevity outcomes in mitochondrial electron transport chain mutantsCell-nonautonomous regulation of C. elegans germ cell death by kri-1The eEF2 kinase confers resistance to nutrient deprivation by blocking translation elongationHigh-throughput RNAi screening for germline apoptosis genes in Caenorhabditis elegans.Noncanonical control of C. elegans germline apoptosis by the insulin/IGF-1 and Ras/MAPK signaling pathwaysThe p53-like Protein CEP-1 Is Required for Meiotic Fidelity in C. elegansThe TP53 signaling network in mammals and worms.Methods for detection and analysis of apoptosis signaling in the C. elegans germline.CCM-3 Promotes C. elegans Germline Development by Regulating Vesicle Trafficking Cytokinesis and Polarity.Novel mechanism of resistance to paclitaxel (Taxol) in human K562 leukemia cells by combined selection with PSC 833.Structure-function analysis of core STRIPAK Proteins: a signaling complex implicated in Golgi polarization.CEP-1 is pro-choice for reproductive health in C. elegans.Taxonomically Restricted Genes with Essential Functions Frequently Play Roles in Chromosome Segregation in Caenorhabditis elegans and Saccharomyces cerevisiaeChewing the fat about death with the neighbours.Taxol differentially modulates the dynamics of microtubules assembled from unfractionated and purified beta-tubulin isotypes.Low potency of taxol at microtubule minus ends: implications for its antimitotic and therapeutic mechanism.Caenorhabditis elegans p53: role in apoptosis, meiosis, and stress resistance.Essential embryonic roles of the CKI-1 cyclin-dependent kinase inhibitor in cell-cycle exit and morphogenesis in C elegans.Substoichiometric binding of taxol suppresses microtubule dynamics.The SCF FSN-1 ubiquitin ligase controls germline apoptosis through CEP-1/p53 in C. elegans.CCM-3/STRIPAK promotes seamless tube extension through endocytic recycling.Structural differences in the DNA binding domains of human p53 and its C. elegans ortholog Cep-1.Synthesis and biological activity of novel thymidine derivatives of podophyllotoxin and 4'-demethylepipodophyllotoxin.Fluorescent visualization of germline apoptosis in living Caenorhabditis elegans.Immunostaining for markers of apoptosis in the Caenorhabditis elegans germline.Analysis of apoptosis in Caenorhabditis elegans.Visualizing apoptosis in embryos and the germline of Caenorhabditis elegans.Establishing a Blueprint for CED-3-dependent Killing through Identification of Multiple Substrates for This ProteaseSystematic pharmacological screens uncover novel pathways involved in cerebral cavernous malformationsA conserved CCM complex promotes apoptosis non-autonomously by regulating zinc homeostasisComprehensive transcriptome analysis of cerebral cavernous malformation across multiple species and genotypesInterrogating the ccm-3 Gene NetworkMiR-35 buffers apoptosis thresholds in the C. elegans germline by antagonizing both MAPK and core apoptosis pathways
P50
Q26749610-853D4E70-833E-4BB4-B728-8BD153D7AF4AQ27317294-E82F8235-7E06-4750-9BE0-55DB4CDA8C94Q28272550-9B67F54E-5823-4C4A-8CB4-DE317BD43B5CQ28291406-CCAE60B4-DCA0-47F1-82AA-0243E4AC2CB2Q35137831-F87F9C16-4222-4816-B78D-9DFE44A428ADQ36473572-672B647E-A34F-403C-B2BB-D022C641CF7DQ37562095-B0650167-DEC0-4100-A9F1-9A96D4DB6EE8Q38061016-8D21683B-28BB-4CF0-A6A6-4A3970B523FDQ38104184-1AF213F8-6497-4656-A027-0B8AA2CC2707Q38912484-895A8D80-2F95-4C35-A548-291E069C1E3BQ41383357-DFFDA49C-8C2F-4C03-8BFE-55F8B320B2A5Q41960078-967ED7CE-4889-46F6-AD8D-3C400070EC3FQ42047783-D6D57EF7-43C3-4B7D-8286-4C88E7C6DF21Q42373230-7E105C6A-CDCA-450D-94E8-F1C0D7012D34Q42417331-16002DC4-AF15-4F29-89B0-9012B8AE8B2DQ44280070-CDB9B037-E09F-46AF-B7FB-1D11D20C2D1AQ45950891-E91BFE2E-CFDA-4E5C-95F2-4CFCB84E9C25Q46143472-A51665E6-3578-4B12-89B8-3C55ACE4C348Q46345898-3C3C416E-01E6-4F0E-ADD6-EE1807A854DCQ46673975-9F5BE1BB-E4D4-49ED-B779-96C17EC5A81BQ46702418-C949365B-AE21-4647-BB06-F684CD25C501Q47035963-6C4E7C43-10C7-4F6C-97FF-2A4AAE44564CQ47068831-3B5E5CF8-7D45-4E38-803B-D66903824D92Q48269021-5680A190-1072-4321-9D18-319C6AE8972EQ50458359-61C1E5A7-FCF8-4DE0-9BA3-D3FC8D7EDE21Q50666169-4991E58B-68BC-4DD6-81DE-5268262690F6Q50666173-2AB54688-2FC1-48BD-83D5-C14D9CCA80A9Q50683168-E14DA1B5-81E9-417E-9174-8E3EE5BCB581Q57939265-7F15C6C3-E3F1-4886-9F17-E4E660FCF806Q58764066-68DFA433-5436-4423-8F66-6646D77ACE55Q64106050-037ED610-CB12-4E4E-9609-A243B214D31FQ64261882-CF716155-026B-4C37-B441-D7BA021CCAD9Q91404979-58F467F5-3932-44BA-8472-C5403F392834Q92886793-3DCFB29A-DD15-4F46-BBED-A9F91F306387
P50
description
Forscher
@de
investigador
@es
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
研究者
@zh
name
Brent Derry
@ast
Brent Derry
@en
Brent Derry
@es
Brent Derry
@nl
type
label
Brent Derry
@ast
Brent Derry
@en
Brent Derry
@es
Brent Derry
@nl
prefLabel
Brent Derry
@ast
Brent Derry
@en
Brent Derry
@es
Brent Derry
@nl
P106
P1153
6602971736
P31
P496
0000-0002-1977-8475