Py Motif Dependent Ubiquitination Of The N Terminal Cytosolic Tail Of
Py Motif Dependent Ubiquitination Of The N Terminal Cytosolic Tail Of
Py Motif Dependent Ubiquitination Of The N Terminal Cytosolic Tail Of
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Py Motifs In The N Terminal Cytosolic Tail Of Cw9a Mediate Pub1 Binding
Py Motifs In The N Terminal Cytosolic Tail Of Cw9a Mediate Pub1 Binding
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Detailed Interaction Of The N And C Terminal Tails With The Cytosolic
Detailed Interaction Of The N And C Terminal Tails With The Cytosolic
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Figure 1 From Regulation Of Nedd4 2 Self Ubiquitination And Stability
Figure 1 From Regulation Of Nedd4 2 Self Ubiquitination And Stability
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Both N Terminal And C Terminal Regions In Orf50 Are Required For
Both N Terminal And C Terminal Regions In Orf50 Are Required For
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Figure 5 From Regulation Of Nedd4 2 Self Ubiquitination And Stability
Figure 5 From Regulation Of Nedd4 2 Self Ubiquitination And Stability
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Mtmr4 Ubiquitination Is Dependent On An Intact Py Motif Download
Mtmr4 Ubiquitination Is Dependent On An Intact Py Motif Download
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Figure 1 From The N Terminal Und Motif Of The Arabidopsis U Box E3
Figure 1 From The N Terminal Und Motif Of The Arabidopsis U Box E3
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Py Dependent Ubiquitination Of The Bsd2 Cytoplasmic Domain A In
Py Dependent Ubiquitination Of The Bsd2 Cytoplasmic Domain A In
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P16 Interacts With The N‐terminal Of Sgk1 And Inhibits Ubiquitination
P16 Interacts With The N‐terminal Of Sgk1 And Inhibits Ubiquitination
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A Diacidic Motif In The N Terminal Cytosolic Domain Of Gonst1
A Diacidic Motif In The N Terminal Cytosolic Domain Of Gonst1
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Serine Residues In The Cytosolic Tail Of The T Cell Antigen Receptor α
Serine Residues In The Cytosolic Tail Of The T Cell Antigen Receptor α
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Arrestin Related Ubiquitin Ligase Adaptors Regulate Endocytosis And
Arrestin Related Ubiquitin Ligase Adaptors Regulate Endocytosis And
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Schéma Représentatif De La Mono Et Poly Ubiquitination A Structure
Schéma Représentatif De La Mono Et Poly Ubiquitination A Structure
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Generalized Model Of Transporter Endocytosis Highlighting The Crucial
Generalized Model Of Transporter Endocytosis Highlighting The Crucial
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Mutation Of Cyt 1 Icd Py Motifs Inhibited In Vivo Nedd4 Binding And
Mutation Of Cyt 1 Icd Py Motifs Inhibited In Vivo Nedd4 Binding And
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The Effect Of Loss Of Sp And Py Motifs On Ubiquitination Of Ttyh2 By
The Effect Of Loss Of Sp And Py Motifs On Ubiquitination Of Ttyh2 By
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Bsd2 Py Motifs Are Required To Enhance Ww Domain Mediated Cps1
Bsd2 Py Motifs Are Required To Enhance Ww Domain Mediated Cps1
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The Nedd4 2 Hect Py Motif Binds Its Ww Domains And Regulates Catalytic
The Nedd4 2 Hect Py Motif Binds Its Ww Domains And Regulates Catalytic
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The Emmprin Cytosolic Tail Mediates C Catenin And Nm23 Recruitment And
The Emmprin Cytosolic Tail Mediates C Catenin And Nm23 Recruitment And
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Ubiquitination Of N Terminal Wt Htt And Mhtt Increases In The Presence
Ubiquitination Of N Terminal Wt Htt And Mhtt Increases In The Presence
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Characterization Of Rsp5 N Lobe Mutants A Homology Structural Model
Characterization Of Rsp5 N Lobe Mutants A Homology Structural Model
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Roles Of The Conserved Motifs And Ubiquitination Of Arn1 In Regulation
Roles Of The Conserved Motifs And Ubiquitination Of Arn1 In Regulation
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Functional Effects Of N Terminal Acetylation 1 Nat Complexes
Functional Effects Of N Terminal Acetylation 1 Nat Complexes
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The Ifitm3 Ppxy Motif Is Required For Ubiquitination By Nedd4 A C
The Ifitm3 Ppxy Motif Is Required For Ubiquitination By Nedd4 A C
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1 Mda5 Activates Irf3 In A Cell Free System Through A Download
1 Mda5 Activates Irf3 In A Cell Free System Through A Download
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Ubiquitinated Lysine Motifs In Wheat A Ubiquitination Motifs And The
Ubiquitinated Lysine Motifs In Wheat A Ubiquitination Motifs And The
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Modulation Of Hect E3 Ligase Function By Adaptor Proteins And
Modulation Of Hect E3 Ligase Function By Adaptor Proteins And
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Regulation Of Channels And Transporters By Ubiquitination A Enac
Regulation Of Channels And Transporters By Ubiquitination A Enac
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A Domain Organisation Of Ets Proteins With Established Ubiquitination
A Domain Organisation Of Ets Proteins With Established Ubiquitination
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Ubiquitination At The N Terminal Nuclease Domain Of Hdna2 Is Critical
Ubiquitination At The N Terminal Nuclease Domain Of Hdna2 Is Critical
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The Ubiquitination Process By The Ubiquitin Proteasome System Ups The
The Ubiquitination Process By The Ubiquitin Proteasome System Ups The
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Ubiquitin Related Protein Degradation By Proteasome A Shown Is A
Ubiquitin Related Protein Degradation By Proteasome A Shown Is A
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