Pages that link to "Q30870481"

The following pages link to Why does threonine, and not serine, function as the active site nucleophile in proteasomes? (Q30870481):

Displaying 41 items.

• Intrinsic evolutionary constraints on protease structure, enzyme acylation, and the identity of the catalytic triad (Q26781998) (← links)
• Elucidation of the Specific Function of the Conserved Threonine Triad Responsible for Human l-Asparaginase Autocleavage and Substrate Hydrolysis (Q27683557) (← links)
• Rad23 interaction with the proteasome is regulated by phosphorylation of its ubiquitin-like (UbL) domain (Q27934619) (← links)
• The ubiquitin-proteasome system (Q28305844) (← links)
• The ATP-dependent CodWX (HslVU) protease in Bacillus subtilis is an N-terminal serine protease (Q28348872) (← links)
• The caspase-like sites of proteasomes, their substrate specificity, new inhibitors and substrates, and allosteric interactions with the trypsin-like sites. (Q33187465) (← links)
• The Mycobacterium tuberculosis proteasome active site threonine is essential for persistence yet dispensable for replication and resistance to nitric oxide (Q33658714) (← links)
• Proteasome inhibitors: from research tools to drug candidates (Q34341985) (← links)
• Archaeal proteasomes: proteolytic nanocompartments of the cell (Q34418425) (← links)
• Dual modes of modification of hepatitis A virus 3C protease by a serine-derived beta-lactone: selective crystallization and formation of a functional catalytic triad in the active site (Q34467806) (← links)
• The proteasome: a supramolecular assembly designed for controlled proteolysis (Q34545602) (← links)
• Preclinical and clinical evaluation of proteasome inhibitor PS-341 for the treatment of cancer (Q34754670) (← links)
• Archaeal proteasomes: potential in metabolic engineering (Q35209250) (← links)
• Targeting tumor ubiquitin-proteasome pathway with polyphenols for chemosensitization (Q36037180) (← links)
• Broad targeting of resistance to apoptosis in cancer. (Q36483749) (← links)
• Proteasomes from structure to function: perspectives from Archaea (Q36597934) (← links)
• A unified mechanism for proteolysis and autocatalytic activation in the 20S proteasome. (Q36690211) (← links)
• Mutation of Serine 32 to Threonine in Peroxiredoxin 6 Preserves Its Structure and Enzymatic Function but Abolishes Its Trafficking to Lamellar Bodies (Q36884856) (← links)
• Fundamental reaction pathway for peptide metabolism by proteasome: insights from first-principles quantum mechanical/molecular mechanical free energy calculations (Q37365069) (← links)
• Chapter 4. Peptidases of trematodes (Q37557828) (← links)
• Archaeal proteasomes and sampylation (Q37606188) (← links)
• Bacterial proteolytic complexes as therapeutic targets (Q38047828) (← links)
• Pharmacophore modeling technique applied for the discovery of proteasome inhibitors (Q38216045) (← links)
• Bacterial and Fungal Proteolytic Enzymes: Production, Catalysis and Potential Applications (Q39119088) (← links)
• A mathematical model of protein degradation by the proteasome (Q40324090) (← links)
• The MUC1 SEA module is a self-cleaving domain. (Q40403573) (← links)
• Assessment of proteasome activity in cell lysates and tissue homogenates using peptide substrates (Q40658937) (← links)
• Protein Association and Dissociation Regulated by Extension Peptide: A Mode for Iron Control by Phytoferritin in Seeds (Q42907375) (← links)
• The proteasome antechamber maintains substrates in an unfolded state (Q44216424) (← links)
• Relative quantification of proteasome activity by activity-based protein profiling and LC-MS/MS. (Q44796302) (← links)
• Growth-associated protein of 43 kDa (GAP-43) is cleaved nonprocessively by the 20S proteasome (Q44925342) (← links)
• Localization and expression of TSP50 protein in human and rodent testes (Q45112763) (← links)
• Tunable Probes with Direct Fluorescence Signals for the Constitutive and Immunoproteasome. (Q48317887) (← links)
• Evidence for the direct involvement of the proteasome in the proteolytic processing of the Aspergillus nidulans zinc finger transcription factor PacC. (Q51976172) (← links)
• A Bowman-Birk type chymotrypsin inhibitor peptide from the amphibian, Hylarana erythraea. (Q52593106) (← links)
• The effects of changing the site of activating phosphorylation in CDK2 from threonine to serine (Q74131991) (← links)
• AIG1 and ADTRP are endogenous hydrolases of fatty acid esters of hydroxy fatty acids (FAHFAs) in mice (Q90169901) (← links)
• Visualizing Proteasome Activity and Intracellular Localization Using Fluorescent Proteins and Activity-Based Probes (Q93089059) (← links)
• The proteasome as a druggable target with multiple therapeutic potentialities: Cutting and non-cutting edges (Q95650650) (← links)
• Exploring the Proteolysis Mechanism of the Proteasomes (Q96129646) (← links)
• Rational Design of Antigen Incorporation Into Subunit Vaccine Biomaterials Can Enhance Antigen-Specific Immune Responses (Q98735466) (← links)