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hPrep Inhibition Assay from US Patent US20230406840: "N-(2-(3-CYANO-2-AZABICYCLO[3.1.0]HEXAN-2-YL)-2-OXOETHYL)QUINOLINE-4-CARBOXAMIDES"
Assay data:2 Active, 2 Activity ≤ 1 µM, 45 Tested
SummaryCompounds, ActiveCompounds, activity ≤ 1 µMRelated BioAssays by DepositorRelated BioAssays by Target
hPrep Inhibition Assay from US Patent US20230312550: "N-(2-(4-CYANOTHIAZOLIDIN-3-YL)-2-OXOETHYL)-QUINOLINE-4-CARBOXAMIDES"
Assay data:229 Active, 191 Activity ≤ 1 µM, 229 Tested
In Vitro Inhibition Assay from US Patent US11583516: "Dash inhibitors, and uses related thereto"
Assay data:13 Active, 1 Activity ≤ 1 nM, 13 Activity ≤ 1 µM, 13 Tested
SummaryCompounds, ActiveCompounds, activity ≤ 1 µMRelated BioAssays by Target
PREP Enzymatic Activity Assay from US Patent US11504364: "Inhibitors of fibroblast activation protein"
Assay data:43 Active, 42 Activity ≤ 1 µM, 43 Tested
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant using 625nM acetylated MnSOD peptide as substrate by microscale thermophoresis analysis
Assay data:1 Active, 1 Tested
SummaryCompounds, ActivePubMed CitationRelated BioAssays by Target
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant of ternary complex using acetylated MnSOD peptide as substrate in presence of OAADPr by short DNA nano levers based switchSENSE microfluid bio-chip analysis
Assay data:1 Tested
SummaryPubMed CitationRelated BioAssays by Target
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant (Koff) of ternary complex using acetylated MnSOD peptide as substrate in presence of OAADPr by short DNA nano levers based switchSENSE microfluid bio-chip analysis
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant (Kon) of ternary complex using acetylated MnSOD peptide as substrate in presence of OAADPr by short DNA nano levers based switchSENSE microfluid bio-chip analysis
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant by short DNA nano levers based switchSENSE microfluid bio-chip analysis
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant (Koff) by short DNA nano levers based switchSENSE microfluid bio-chip analysis
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant (Kon) by short DNA nano levers based switchSENSE microfluid bio-chip analysis
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant of ternary complex using acetylated MnSOD peptide as substrate in presence of OAADPr by microscale thermophoresis analysis
Assay data:1 Active, 1 Activity ≤ 1 µM, 1 Tested
SummaryCompounds, ActiveCompounds, activity ≤ 1 µMPubMed CitationRelated BioAssays by Target
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant using acetylated MnSOD peptide as substrate in presence of honokiol by microscale thermophoresis analysis
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant using acetylated MnSOD peptide as substrate by microscale thermophoresis analysis
Assay data:2 Active, 1 Activity ≤ 1 µM, 2 Tested
Binding affinity to human Sirt3 (118 to 399 residues) assessed as dissociation constant by microscale thermophoresis analysis
Modulation of human Sirt3 (118 to 399 residues) deacetylation activity under non-steady state assessed as substrate deacetylation at low enzyme concentration with [E]0/[NAD+]0 ratio of 0.1 incubated for 5 mins using MnSOD peptide as substrate in presence of NAD+ by HPLC-assay relative to control
Modulation of human Sirt3 (118 to 399 residues) deacetylation activity under non-steady state assessed as substrate deacetylation at low enzyme concentration with [E]0/[NAD+]0 ratio of 0.1 at 25 uM incubated for 5 mins using MnSOD peptide as substrate in presence of NAD+ by HPLC-assay relative to control
Modulation of human Sirt3 (118 to 399 residues) deacetylation activity under non-steady state assessed as substrate deacetylation at low enzyme concentration with [E]0/[NAD+]0 ratio of 0.1 at 10 uM incubated for 5 mins using MnSOD peptide as substrate in presence of NAD+ by HPLC-assay relative to control
Modulation of human Sirt3 (118 to 399 residues) deacetylation activity under non-steady state assessed as substrate deacetylation at low enzyme concentration with [E]0/[NAD+]0 ratio of 0.1 at 10 uM incubated for 2 mins using MnSOD peptide as substrate in presence of NAD+ by HPLC-assay relative to control
Modulation of human Sirt3 (118 to 399 residues) deacetylation activity under non-steady state assessed as substrate deacetylation at high enzyme concentration with [E]0/[NAD+]0 ratio of 0.6 at 10 uM incubated for 2 mins using MnSOD peptide as substrate in presence of NAD+ by HPLC-assay relative to control
Assay data:3 Tested
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