about
14-3-3 Binding to Pim-phosphorylated Ser166 and Ser186 of human Mdm2--Potential interplay with the PKB/Akt pathway and p14(ARF)TRIAD1 and HHARI bind to and are activated by distinct neddylated Cullin-RING ligase complexesProbes of ubiquitin E3 ligases enable systematic dissection of parkin activationDesulphurisation of benzothiophene and dibenzothiophene by actinomycete organisms belonging to the genus Rhodococcus, and related taxa.VAPB/ALS8 interacts with FFAT-like proteins including the p97 cofactor FAF1 and the ASNA1 ATPaseUBXN7 docks on neddylated cullin complexes using its UIM motif and causes HIF1α accumulation.Effects of mechanical signaling on plant cell cytosolic calciumScreening of DUB activity and specificity by MALDI-TOF mass spectrometryCharacterisation of the Cullin-3 mutation that causes a severe form of familial hypertension and hyperkalaemia.UBQLN2 Mediates Autophagy-Independent Protein Aggregate Clearance by the Proteasome.Characterization of the mammalian family of DCN-type NEDD8 E3 ligases.Visualization and biochemical analyses of the emerging mammalian 14-3-3-phosphoproteome.The CUL3-KLHL3 E3 ligase complex mutated in Gordon's hypertension syndrome interacts with and ubiquitylates WNK isoforms: disease-causing mutations in KLHL3 and WNK4 disrupt interaction.14-3-3-affinity purification of over 200 human phosphoproteins reveals new links to regulation of cellular metabolism, proliferation and trafficking.Cyanobacterial transgene paves the way to increased crop productivity.PAWS1 controls cytoskeletal dynamics and cell migration through association with the SH3 adaptor CD2AP.CSN- and CAND1-dependent remodelling of the budding yeast SCF complex.The Dac-tag, an affinity tag based on penicillin-binding protein 5.Transcript profiling takes a stroll through the wood.Targeting of TMV movement protein to plasmodesmata requires the actin/ER network: evidence from FRAP.Activity-based E3 ligase profiling uncovers an E3 ligase with esterification activity.The DUF1669 domain of FAM83 family proteins anchor casein kinase 1 isoforms.PAWS1 controls Wnt signalling through association with casein kinase 1α.Phloem transport of vitamin C – an alternative route to raising antioxidant levels?First plant circadian phase mutant identifiedUnravelling the molecular basis of viral suppression of PTGSSynthetic promoters illuminate roles of cis-acting elements in plant defencePIN-pointing the molecular basis of tropism in plantsNodulation by numbers: the role of ethylene in symbiotic nitrogen fixationApoptosis: a way of life for plants?Virus movement crosses the Kingdom barrierProfiling modified metabolomesProduction of a novel calmodulin-binding DGK by alternative splicingThe Calcium Rhythms of Different Cell Types Oscillate with Different Circadian PhasesThe characterization of differential calcium signalling in tobacco guard cellsCoupled monoubiquitylation of the co-E3 ligase DCNL1 by Ariadne-RBR E3 ubiquitin ligases promotes cullin-RING ligase complex remodeling
P50
Q24321314-0F9E7C32-D7BC-4E67-AE9F-C7BF5411FE8CQ24337489-9CFBD242-C9C4-469D-9FCB-3C2510BB18EDQ28830194-4A6C048B-D99A-418D-9B31-1F454E04266AQ33539307-3EC0CDDD-E30E-4157-B6E7-FD47FD91D60BQ33797100-01AEF39F-80BA-4047-A4D6-3697504F8462Q34248457-B9093C68-6735-4227-B50F-09C67D86F23FQ34306462-B71C51A2-690A-4492-BCDF-C3F35169304AQ35232335-430C2D5F-9062-4670-925D-BBA822D5BC3BQ36159459-0D97700A-B4E9-4007-A49C-2DA1D3EEFA18Q37214887-0F3C57CC-B95A-4C78-A5B0-2E530EE694F1Q38791699-DC369CF3-EF59-4907-97AC-4781D5C23F01Q38900580-49D3520B-3684-42FC-A8FB-CF235C66002BQ39986392-30AA3D25-71F7-48C7-91D1-C41DE3304C10Q42125847-7EECB8CA-8D13-4EDA-87C8-059105234E1EQ43862621-189CC66D-386F-458A-8F38-761C4F9B05F5Q47364356-56F546BE-7A67-42BB-BC5C-9E1931E795BEQ50336194-D78A3F01-91E8-40B5-B8C6-1D954D191C31Q50495118-448FA9F5-1116-4DFC-992B-42CA77248FF1Q52122349-E0C5D5D5-A7DE-441A-9F94-FD0EC40D9E3DQ52575301-908F215E-EB9B-43C2-899D-5587EECECA15Q52593076-E4C1CB6B-78CF-46CA-B125-3364568BC0A1Q54978506-E3B7B538-2602-43C1-87C2-9D7549E40D8FQ54982388-082D57D1-C738-429A-953E-278D050C150FQ58227604-50B3FB0C-8EED-4EBC-A676-A2591A4B4C3AQ58227606-3B71412F-6029-4D0C-A116-A51C59C62188Q58227609-5874E6FF-4F97-4210-88DC-5B5ADAB48857Q58227611-CD9215B4-716B-4C2A-98F7-8FE2E37CA3A9Q58227614-D63E172C-27DF-435C-A460-3556ED1A1BBEQ58227617-0F04D7CC-8833-4103-967D-10D4BA3EDB3BQ58227618-3D477D11-985B-46BC-8164-38A82EB15834Q58227620-9071254A-3A8E-44C9-BDB4-F7CFEDF8BCF2Q58227622-D6675822-2F8E-43DF-A811-257C8DC87861Q58227624-E3BDB702-3DA2-4AFB-B501-6C9DC76F3ACFQ58227626-29DA2D50-4A52-4612-9F96-639B1484B29EQ58227631-C015228E-EDC4-425D-8BC8-0C124EFDC017Q90764400-84819562-9147-48C3-B357-0635A3015A78
P50
description
Forscher
@de
chercheur
@fr
hulumtuese
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investigador
@es
researcher
@en
wetenschapper
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հետազոտող
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研究者
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name
Nicola T Wood
@ast
Nicola T Wood
@en
Nicola T Wood
@es
Nicola T Wood
@nl
type
label
Nicola T Wood
@ast
Nicola T Wood
@en
Nicola T Wood
@es
Nicola T Wood
@nl
altLabel
Nicola Wood
@en
prefLabel
Nicola T Wood
@ast
Nicola T Wood
@en
Nicola T Wood
@es
Nicola T Wood
@nl
P106
P1153
55783531800
P21
P31
P496
0000-0002-3347-6625