Shopping Cart
  • Remove All
  • TargetMol
    Your shopping cart is currently empty
TargetMol | Compound Library

Reprogramming Compound Library

Catalog No. L8110

Cellular reprogramming refers to the process by which differentiated somatic cells are reversed to a pluripotent or totipotent state under certain conditions. Traditional reprogramming techniques have limitations in clinical applications due to problems such as the integration of exogenous genes, while the study of small molecule compounds to induce pluripotent stem cells has opened up a new approach to somatic cell reprogramming.

Small molecule compound-induced reprogramming has a lot of advantages. For instance, integration into the genome can be avoided, so as immunogenicity; the target can be acted upon directly through the cell membrane with simple manipulation; effects are reversible, multiple targets can be regulated at the same time, and cell fates are controlled precisely.

Small molecule compound-induced pluripotent stem cells have great potential in drug discovery, cell therapy, and disease modeling, opening up new avenues for the treatment of major diseases.

TargetMol's Reprogramming Compound Library is a unique collection of 2240 bioactive small molecule compounds of cellular reprogramming-related signaling pathways, providing an effective tool for cellular reprogramming research.

All products from TargetMol are for Research Use Only. Not for Human or Veterinary or Therapeutic Use.

Resource Download
Library compound info
Excel
SDF
Contact us for more batch information

Catalog No. L8110

Reprogramming Compound Library

sizeIn stock

  • 1 mg
  • 30 μL x 10 mM (in DMSO)
  • 50 μL x 10 mM (in DMSO)
  • 100 μL x 10 mM (in DMSO)
  • 250 μL x 10 mM (in DMSO)
Inquiry & Custom

Top Publication Citing
Use of TargetMol Products

Cite scientific literature on TargetMol products

View More

Product Description Product Description

  • A unique collection of 2240 reprogramming signaling pathway-related bioactive small molecule compounds for high-throughput, high-content screening.
  • Targets include MEK, TGF-β, GSK3, wnt, etc.
  • Structural diversity, significant pharmaceutical efficacy, and cell permeability.
  • Detailed instructions, compound structures, target information, IC50 values, activity descriptions, etc.
  • Various assays such as NMR, HPLC/LCMS to ensure the correct structure and high purity of the product and reduce false positives.

Packaging And Storage | TargetMol Packaging And Storage

  • Powder or pre-dissolved DMSO solutions in 96/384 well plate with optional 2D barcode
  • Shipped with blue ice

Sci Citations

Library Customization | TargetMol Library Customization

Compound Library | TargetMol
Targetmol Compound Libraries
can be highly customized!
Inquiry & Custom

Library Customization | TargetMol Library Composition

Apoptosis
Autophagy
PI3K
VEGFR
EGFR
HDAC
mTOR
p38 MAPK
JAK
ERK
Akt
Wnt/beta-catenin
STAT
Epigenetic Reader Domain
Histone Methyltransferase
PDGFR
AMPK
GSK-3
Raf
FGFR
CDK
NF-κB
Src
TGF-beta/Smad
Endogenous Metabolite
FLT
MAPK
c-Met/HGFR
c-Kit
JNK
Ras
PKC
MEK
ROCK
Antibacterial
HIF/HIF Prolyl-Hydroxylase
Reactive Oxygen Species
DNA/RNA Synthesis
DNA-PK
Nucleoside Antimetabolite/Analog
Tyrosine Kinases
Hedgehog/Smoothened
S6 Kinase
ALK
Monoamine Oxidase
Parasite
Bcr-Abl
ATM/ATR
Mitochondrial Metabolism
PKA
c-RET
HIF
PDK
TNF
COX
MAO
Antibiotic
Aurora Kinase
Calcium Channel
HIV Protease
Influenza Virus
Caspase
c-Myc
Dehydrogenase
HER
Potassium Channel
TLR
Casein Kinase
Mitophagy
Sirtuin
Histone Acetyltransferase
Pim
Rho
Kras
Gamma-secretase
IGF-1R
PARP
Retinoid Receptor
Virus Protease
Cytochromes P450
PI4K
PPAR
Smo
c-Fms
HSV
IL Receptor
MMP
PERK
TAM Receptor
Antifungal
Ferroptosis
Bcl-2 Family
Phosphatase
Beta Amyloid
FAK
MNK
PDE
DNA Methyltransferase
IκB/IKK
MLK
NO Synthase
Sodium Channel
Syk
AChR
Antioxidant
Chk
HCV Protease
Microtubule Associated
Nrf2
ROS
Trk receptor
Adrenergic Receptor
p53
PTEN
SIK
CSF-1R
Drug Metabolite
Histone Demethylase
Interleukin
MELK
Serine/threonin kinase
Topoisomerase
5-HT Receptor
Antifection
Antiviral
ASK
CaMK
DYRK
Ephrin Receptor
HBV
Histamine Receptor
LDL
PLK
PROTACs
Tie-2
TOPK
Tyrosinase
Adenosine Receptor
Carbonic Anhydrase
Estrogen/progestogen Receptor
Glucosidase
IFNAR
Lipoxygenase
Porcupine
Prostaglandin Receptor
Reverse Transcriptase
SARS-CoV
Serine Protease
SGK
Transferase
TRP/TRPV Channel
Aryl Hydrocarbon Receptor
ATPase
Cannabinoid Receptor
Cholinesterase (ChE)
Discoidin Domain Receptor (DDR)
Dopamine Receptor
Estrogen Receptor/ERR
GABA Receptor
GTPase
Integrin
KLF
NADPH
NOS
P-gp
Proton pump
PYK2
RIP kinase
ROS Kinase
transporter
BTK
ACK1
Adenylyl Cyclase
ATP Citrate Lyase
BACE
Beta-Secretase
cAMP
CCR
Chloride channel
Cholecystokinin Receptor
DNA
DNA Alkylation
DUB
FXR
GluR
GPCR
GRK
Guanylate cyclase
Hck
Hippo pathway
HSP
IRAK
IRE1
Lipid
MyD88
Myosin
NADPH-oxidase
NOD
PAI-1
PD-1/PD-L1
Phospholipase
RAAS
RAR/RXR
ROR
AAK1
ABC Transporter
Acyltransferase
AhR
Androgen Receptor
Antifolate
Anti-infection
Apelin receptor
Arginase
Aromatase
BCRP
BMI-1
Carboxypeptidase
CFTR
CRISPR/Cas9
CXCR
DAPK
Decarboxylase
DHFR
Dynamin
E1/E2/E3 Enzyme
FAAH
Fatty Acid Synthase
Gap Junction Protein
Glucocorticoid Receptor
Glutathione Peroxidase
gp120/CD4
GPX
hCE
Hexokinase
Hydroxylase
iGluR
Imidazoline Receptor
Immunology/Inflammation related
Kinesin
Ligands for Target Protein for PROTAC
Lipase
LRRK2
MAGL
Mdm2
Methionine Adenosyltransferase (MAT)
MRP
Na+/Ca2+ Exchanger
NMDAR
NOD-like Receptor (NLR)
NPC1L1
OCT
Opioid Receptor
p97
PGE Synthase
Protease-activated Receptor
RXFP receptor
S1P Receptor
SGLT
STING
Thrombopoietin Receptor
UGT
YAP
ADC Cytotoxin