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substrate binding pockets

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By Targets:	Amine N-methyltransferase (1) APC (1) Apoptosis (1) Bacterial (1) Endogenous Metabolite (1) Epigenetic Reader Domain (1) HSP (1) PDK-1 (4) Sirtuin (1)
By Research Areas:	Cancer (9) Cardiovascular Disease (1) Infection (1) Metabolic Disease (1) Neurological Disease (1)

Targets Recommended: Emopamil Binding Protein Penicillin-binding protein (PBP) ATP-binding cassette (ABC) transporters Oxysterol-binding Protein-related Protein (ORP) MARCKS FKBP FABP Transthyretin (TTR) Ligands for Target Protein for PROTAC YB-1 SDCBP GHR P-glycoprotein

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

KMI169	Epigenetic Reader Domain	Cancer
KMI169 is a potent and selective bi-substrate inhibitor targeting the SAM and substrate binding pockets of KMT9. KMT9 monomethylates histone H4 lysine 12 and controls the proliferation of prostate cancer cells. KMI169 can be used for the research of prostate cancer .

PS423	PDK-1	Cancer
PS423 is a prodrug of PS210, acting as a substrate-selective inhibitor of PDK1, inhibiting the phosphorylation and activation of S6K. PS210 is a potent and selective PDK1 activator targeting the PIF binding pocket of PDK1 .

Apcin 5+ Cited Publications	APC	Cancer
Apcin, a ligand of Cdc20, is a potent and competitive anaphase-promoting complex/cyclosome (APC/C(Cdc20)) E3 ligase activity inhibitor. Apcin competitively inhibits APC/C-dependent ubiquitylation by binding to Cdc20 and preventing substrate recognition. Apcin occupes the D-box-binding pocket on the side face of the WD40-domain and can prolong mitosis .

PDK1-IN-2	PDK-1	Cancer
PDK1-IN-2 is a small molecule inhibitor of 3-phosphoinositol-dependent protein kinase-1 (PDK1). PDK1-IN-2 inhibits the binding of PDK1 to its substrate by competitively binding to the PIF pocket of PDK1, thereby inhibiting the kinase activity and downstream signaling of PDK1. PDK1-IN-2 can be used for cell survival and proliferation in cancer .

NITD-916	Bacterial	Infection
NITD-916, a 4-hydroxy-2-pyridone derivative, is an orally active and highly lipophilic mycobacterial enoyl reductase InhA inhibitor with an IC₅₀ of 570 nM. NITD-916 forms a ternary complex with InhA and NADH to block access to the fatty acyl substrate binding pocket. NITD-916 has potent anti-tuberculosis effects .

(R)-PS210	PDK-1	Cancer
(R)-PS210, the R enantiomer of PS210 (compound 4h-eutomer), is a substrate-selective allosteric activator of PDK1 with an AC₅₀ value of 1.8 μM. (R)-PS210 targets to the PIF-binding pocket of?PDK1. PIF: The protein kinase C-related kinase 2 (PRK2)-interacting fragment .

PS210	PDK-1	Cancer
PS210 is a potent and selective PDK1 activator with a K_d of 3 μM and targets the PIF-binding pocket of PDK1. PS210 is inactive against other protein kinases, including PDK1 downstream signaling components such as S6K, PKB/Akt or GSK3. In cells, the prodrug of PS210 (PS423) acts as a substrate-selective inhibitor of PDK1, inhibiting the phosphorylation and activation of S6K .

SIRT5 inhibitor 5	Sirtuin	Cancer
SIRT5 inhibitor 5 is a potent SIRT5 inhibitor with an IC₅₀ value of 0.21 µM. SIRT5 inhibitor 5 does not occupy the NNAD ⁺ -binding pocket and acts as a substrate-competitive inhibitor .

PET-16	HSP Apoptosis	Cancer
PET-16 is a selective HSP70 inhibitor that binds to an allosteric pocket of the substrate-binding domain. PET-16 inhibits the ability of HSP70 to cycle between ATP-bound and ADP-bound states. PET-16 induces apoptosis in multiple myeloma .

II399	Amine N-methyltransferase	Cardiovascular Disease Neurological Disease Metabolic Disease Cancer
II399 is a potent, selective NNMT bisubstrate inhibitor containing an unconventional SAM mimic, with a K_i of 5.9 nM. II399 exhibits an explicit pattern of competitive inhibition for NAM. II399 occupies both the substrate and cofactor binding pockets. II399 has the potential for the research of cancers, metabolic, cardiovascular, and neurodegenerative diseases .

Hemicellulase	Endogenous Metabolite	Others
Hemicellulase is a hemicellulose-targeting hydrolase that breaks down the binding of glucose and polymers to water molecules present in plant fibers. Hemicellulase specifically degrades hemicellulose (such as xylan and mannan) in plant cell walls by hydrolyzing β-1,4-xylosidic bonds and ester bonds (such as acetyl and ferulic acid ester bonds). Hemicellulase relies on the synergistic action of the glycoside hydrolase (GH) and carbohydrate esterase (CE) families to achieve efficient hydrolysis through acid-base catalysis (such as Glu/Asp residues) and substrate binding pockets. Hemicellulase can be used in the food industry (such as improving bread texture)， biofuel production (lignocellulose pretreatment) and paper industry (biobleaching) .

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