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Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-153133
    CFTR corrector 11

    		CFTR Others
    CFTR corrector 11 (compound 133) is a CFTR corrector .
    CFTR corrector 11
  • HY-155742
    CFTR corrector 12

    		CFTR Others
    CFTR corrector 12 (compound 17C) is a bithiazole derivative, serving as CFTR corrector. CFTR corrector 12 has the ability to correct some folding defective mutants of the channel responsible for the control of chloride transport across the plasma membrane. CFTR corrector 12 recovers the α-sarcoglycan (α-SG) content in mutant cells .
    CFTR corrector 12
  • HY-125381
    CFTR corrector 2
    1 Publications Verification

    		 CFTR Autophagy Inflammation/Immunology Cancer
    CFTR corrector 2 is a cystic fibrosis transmembrane conductance corrector (CFTR), extracted from patent US20140274933 .
    CFTR corrector 2
  • HY-135279
    CFTR corrector 4

    		CFTR Inflammation/Immunology
    CFTR corrector 4 (Compound 13), an active (R,R)-form enantiomer, is a highly potent and orally active cystic fibrosis transmembrane conductance regulator (CFTR) corrector. CFTR corrector 4 can increase CFTR levels at the cell surface and have the potential for treatment of cystic fibrosis .
    CFTR corrector 4
  • HY-W984122
    CFTR corrector 17

    		CFTR Inflammation/Immunology
    CFTR corrector 17 (example 17) is a cystic fibrosis transmembrane conductance regulator (CFTR) modulator. CFTR corrector 17 can be used for the study of CFTR-mediated diseases .
    CFTR corrector 17
  • HY-161894
    CFTR corrector 13

    		CFTR Inflammation/Immunology
    CFTR corrector 13 (SVQ18) is a cystic fibrosis transmembrane conductance regulator (CFTR) corrector (EC50=3.14 μM). CFTR corrector 13 enhances the function of CFTR channels, especially when used in combination with Lumacaftor (HY-13262), it can produce a dose-dependent increase in CFTR function. CFTR corrector 13 can be used in the study of cystic fibrosis (CF) and other CFTR-related diseases .
    CFTR corrector 13
  • HY-169294
    SLC6A8 corrector 1

    		Others Metabolic Disease
    SLC6A8 corrector 1 is an orally active and brain-penetrant mutant SLC6A8 variant corrector. SLC6A8 corrector 1 can be used for the study of creatine transporter deficiency (CTD) .
    SLC6A8 corrector 1
  • HY-161895
    CFTR corrector 14

    		CFTR Others
    CFTR corrector 14 (Compound SVQ26) is a class 3 corrector for cystic fibrosis transmembrane conductance regulator (CFTR), that promotes the CFTR activity (EC50 of 3.08 μM with presence of C1 class corrector VX-809). CFTR corrector 14 regulates the mutant-caused misfolding and impaired function of the CFTR protein. CFTR corrector 14 can be used in research about cystic fibrosis .
    CFTR corrector 14
  • HY-169000
    CFTR corrector 16

    		CFTR Others
    CFTR corrector 16 (Compound 39) is a corrector for cystic fibrosis transmembrane conductance regulator (CFTR), that can be used in research of cystic fibrosis disease .
    CFTR corrector 16
  • HY-164000
    CFTR corrector 15

    		CFTR Others
    CFTR corrector 15 (Compound 4172) is a corrector for cystic fibrosis transmembrane conductance regulator (CFTR), that repairs the F508del-CFTR folding defect when used with VX-809 (HY-13262). CFTR corrector 15 can be used in research of cystic fibrosis disease .
    CFTR corrector 15
  • HY-136939
    CFTR corrector 6

    		CFTR Metabolic Disease Inflammation/Immunology
    CFTR corrector 6 is a potent potentiator of Cystic Fibrosis Transmembrane conductance Regulator (CFTR). CFTR corrector 6 has the potential for cystic fibrosis (CF) and other CFTR associated disorders research .
    CFTR corrector 6
  • HY-147315
    CFTR corrector 9

    		CFTR Others
    CFTR corrector 9 (compound 42) is a cystic fibrosis transmembrane conductance regulator (CFTR) modulator. CFTR corrector 9 can be used for researching cystic fibrosis (CF) and other CFTR associated disorders .
    CFTR corrector 9
  • HY-147249
    CFTR corrector 8

    		CFTR Inflammation/Immunology
    CFTR corrector 8 is a potent CFTR modulator. CFTR can be used in the research of cystic fibrosis .
    CFTR corrector 8
  • HY-158144
    GLPG2737

    		CFTR Others
    GLPG2737 is a potent CFTR type 2 corrector, and GLPG2737 can be used in combination with a type 1 co-corrector in the study of cystic fibrosis .
    GLPG2737
  • HY-158002
    IDOR-4

    		CFTR Inflammation/Immunology
    IDOR-4 is a type IV CFTR corrector. IDOR-4 restores F508del-CFTR trafficking to the cell surface .
    IDOR-4
  • HY-15448A
    (Rac)-Tezacaftor

    (Rac)-VX-661

    		 CFTR Inflammation/Immunology
    (Rac)-Tezacaftor ((Rac)-VX-661) is a racemate of Tezacaftor (HY-15448). Tezacaftor is a F508del CFTR corrector. (Rac)-Tezacaftor can be used for the research of cystic fibrosis .
    (Rac)-Tezacaftor
  • HY-117187
    Corr4A

    		CFTR Others
    Corr4A is a chemical corrector, which can be used for cystic fibrosis. Corr4A interacts directly with the cystic fibrosis transmembrane conductance regulator (CFTR) or affects indirectly its folding process. Corr4A increases the expression of CFTR ΔF508 on the cell surface, thereby improving its transport to the plasma membrane and increasing the stability of the rescued mutant protein .
    Corr4A
  • HY-109187
    Posenacaftor

    PTI-801

    		 CFTR Inflammation/Immunology
    Posenacaftor (PTI-801) is a cystic fibrosis transmembrane regulator (CFTR) protein modulator that corrects the folding and trafficking of CFTR protein. Posenacaftor is used for the research of cystic fibrosis (CF) .
    Posenacaftor
  • HY-109187B
    (R)-Posenacaftor sodium

    (R)-PTI-801 sodium

    		 CFTR Inflammation/Immunology
    (R)-Posenacaftor (R)-PTI-801) sodium is the R enantiomer of Posenacaftor. Posenacaftor is a cystic fibrosis transmembrane regulator (CFTR) protein modulator that corrects the folding and trafficking of?CFTR?protein. Posenacaftor is used for the research of cystic fibrosis (CF) .
    (R)-Posenacaftor sodium
  • HY-126394B
    Bamocaftor potassium

    VX-659 potassium

    		 CFTR Endocrinology
    Bamocaftor potassium is a cystic fibrosis transmembrane conductance regulator (CFTR) corrector designed to restore F508del-CFTR protein function. Bamocaftor potassium can be used combine with Tezacaftor (HY-15448) and Ivacaftor (HY-13017) in cystic fibrosis research .
    Bamocaftor potassium
  • HY-126394
    Bamocaftor

    VX-659

    		 CFTR Endocrinology
    Bamocaftor (VX-659) is a cystic fibrosis transmembrane conductance regulator (CFTR) corrector designed to restore F508del-CFTR protein function. Bamocaftor can be used combine with Tezacaftor (HY-15448) and Ivacaftor (HY-13017) in cystic fibrosis research .
    Bamocaftor
  • HY-13262
    Lumacaftor
    Maximum Cited Publications
    14 Publications Verification

    VX-809; VRT 826809

    		 CFTR Autophagy Inflammation/Immunology
    Lumacaftor (VX-809; VRT 826809) is a CFTR modulator that corrects the folding and trafficking of CFTR protein.
    Lumacaftor
  • HY-113821
    1-Naphthyl phosphate potassium salt

    		Phosphatase Others
    1-Naphthyl phosphate potassium salt is a non-specific phosphatase inhibitor. 1-Naphthyl phosphate potassium salt decreases the splice-correcting effect .
    1-Naphthyl phosphate potassium salt
  • HY-147149
    BPN-15477

    		Others Neurological Disease
    BPN-15477 is a potent SMC (splicing modulator compound) that restores correct splicing of ELP1 (Elongator complex protein 1) exon 20. BPN-15477 corrects splicing of the ELP1 transcript, significantly increases the level of functional protein in vivo in all tissues, including brain. BPN-15477 can be used for frontotemporal dementia research .
    BPN-15477
  • HY-146056
    Anabolic agent-1

    		Others Others
    Compounds, as a new type of bone morphogenetic protein-2 up regulator, can not only correct the bone loss in patients, but also have a wide range of clinical applicability.
    Anabolic agent-1
  • HY-133013
    GLPG-3221

    		CFTR Inflammation/Immunology
    GLPG-3221 is a potent, orally active corrector of CFTR (cystic fibrosis transmembrane conductance regulator), with an EC50 of 105 nM. GLPG-3221 can be uesd for the treatment of cystic fibrosis .
    GLPG-3221
  • HY-109187A
    Posenacaftor sodium
    1 Publications Verification

    PTI-801 sodium

    		 CFTR Inflammation/Immunology
    Posenacaftor (PTI-801) sodium is a cystic fibrosis transmembrane regulator (CFTR) protein modulator that corrects the folding and trafficking of CFTR protein. Posenacaftor sodium is used for the research of cystic fibrosis (CF) .
    Posenacaftor sodium
  • HY-111111
    Galicaftor
    1 Publications Verification

    ABBV-2222; GLPG-2222

    		 CFTR Inflammation/Immunology
    Galicaftor (ABBV-2222; GLPG-2222) is a potent and orally active cystic fibrosis transmembrane conductance regulator (CFTR) corrector. Galicaftor can be used for cystic fibrosis research .
    Galicaftor
  • HY-15448S
    Tezacaftor-d4

    VX-661-d4

    		 CFTR Autophagy Cancer
    Tezacaftor-d4 (VX-661-d4) is the deuterium-labeled Tezacaftor (HY-15448), a F508del CFTR corrector. Tezacaftor helps CFTR protein reach the cell surface .
    Tezacaftor-d4
  • HY-15448
    Tezacaftor
    10+ Cited Publications

    VX-661

    		 CFTR Cancer
    Tezacaftor (VX-661) is a F508del CFTR corrector. It helps CFTR protein reach the cell surface. However, Ivacaftor (VX-770, HY-13017), a CFTR potentiator, helps to prolong the opening time of cell surface CFTR protein channels. Tezacaftor combining with Ivacaftor, shows potent efficacy against cystic fibrosis and diseases with homozygous for the CFTR Phe508del mutation. Moreover, Elexacaftor (VX-445, HY-111772) is also a CFTR corrector. Elexacaftor-Tezacaftor-Ivacaftor aims at with cystic fibrosis (CF) with at least one Phe508del mutation, often avoids the indication for lung transplantation .
    Tezacaftor
  • HY-124758
    SH-BC-893

    		Mitochondrial Metabolism Metabolic Disease Cancer
    SH-BC-893 is an orally active anti-neoplastic sphingolipid analog. SH-BC-893 also protects from ceramide-induced mitochondrial dysfunction and corrects diet-induced obesity. SH-BC-893 can be used for the research of cancer and obesity .
    SH-BC-893
  • HY-116598
    Lanopepden mesylate

    GSK 1322322 mesylate

    		 Bacterial Infection
    Lanopepden mesylate (GSK 1322322 mesylate) is a peptide deformase (PDF) inhibitor. Lanopepden mesylate has antibacterial activity by inhibiting the activity of PDF, preventing the correct synthesis of bacterial proteins. Lanopepden mesylate mainly targets Gram-positive bacteria. Lanopepden mesylate can be used in the study of acute bacterial skin and skin structural infections .
    Lanopepden mesylate
  • HY-19970
    KM11060
    2 Publications Verification

    		 CFTR Autophagy Endocrinology
    KM11060 is a corrector of the F508 deletion (F508del)-cystic fibrosis transmembrane conductance regulator (CFTR) trafficking defect. KM11060 can be used for the research of F508del-CFTR processing defect and development of cystic fibrosis research .
    KM11060
  • HY-135869
    Mito-apocynin (C11)
    2 Publications Verification

    		 Mitochondrial Metabolism Neurological Disease
    Mito-apocynin (C11), an orally active mitochondria-targeted triphenylphosphonium (TPP)-based compound, is synthesized by conjugating the Apocynin moiety with a TPP + cation. Mito-apocynin (C11) selectively targets mitochondria, and shows neuroprotective effect. Mito-apocynin (C11) prevents hyposmia and corrects deficits in motor function .
    Mito-apocynin (C11)
  • HY-N7384A
    Vitamin B15 hemicalcium

    Pangamic Acid hemicalcium

    		 Others Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
    Vitamin B15 (Pangamic Acid) hemicalcium is a natural, ubiquitously in plant seeds substance and can used be as an agent stimulating cellular respiration. Vitamin B15 hemicalcium contains D-gluconodimethyl amino acetic acid. Vitamin B15 hemicalcium is also a immune-correcting agent . Vitamin B15 hemicalcium can be used for wide range of diseases.
    Vitamin B15 hemicalcium
  • HY-17504AS
    Rosuvastatin-d3

    ZD 4522 d3

    		 Isotope-Labeled Compounds HMG-CoA Reductase (HMGCR) Autophagy Potassium Channel Cardiovascular Disease Metabolic Disease
    Rosuvastatin-d3 is a deuterium labeled Rosuvastatin. Rosuvastatin (ZD 4522) is a competitive HMG-CoA reductase inhibitor with an IC50 of 11 nM[1]. Rosuvastatin potently blocks human ether-a-go-go related gene (hERG) current with an IC50 of 195 nM, delayed cardiac repolarization, and thereby prolonged action potential durations (APDs) and corrected QT interval (QTc) intervals[2].
    Rosuvastatin-d3
  • HY-153480
    ARC19499

    BAX499

    		 Factor Xa Others
    ARC19499 is an aptamer that inhibits tissue factor pathway inhibitor (TFPI) , thereby enabling clot initiation and propagation via the extrinsic pathway. The core aptamer binds tightly and specifically to TFPI. ARC19499 blocks TFPI inhibition of both factor Xa and the TF/factor VIIa complex. ARC19499 corrects thrombin generation in hemophilia A and B plasma and restores clotting in FVIII-neutralized whole blood.
    ARC19499
  • HY-153480A
    ARC19499 sodium

    BAX499 sodium

    		 Factor Xa Factor VIIa Others
    ARC19499 sodium is an aptamer that inhibits tissue factor pathway inhibitor (TFPI) , thereby enabling clot initiation and propagation via the extrinsic pathway. The core aptamer binds tightly and specifically to TFPI. ARC19499 sodium blocks TFPI inhibition of both factor Xa and the TF/factor VIIa complex. ARC19499 sodium corrects thrombin generation in hemophilia A and B plasma and restores clotting in FVIII-neutralized whole blood.
    ARC19499 sodium
  • HY-145603
    Vanzacaftor

    VX-121

    		 CFTR Chloride Channel Neurological Disease
    Vanzacaftor (VX-121) is an orally active noval corrector of Cystic fibrosis transmembrane conductance regulator (CFTR). Vanzacaftor improves processing and trafficking of CFTR protein as well as increases chloride transport in triple combined with Tezacaftor (HY-15448) and Deutivacaftor. Vanzacaftor-Tezacaftor-Deutivacaftor is safe and well tolerated, improving lung function, respiratory symptoms, and CFTR function with cystic fibrosis, which is promising for research in the field of cystic fibrosis diseases .
    Vanzacaftor
  • HY-17504A
    Rosuvastatin

    ZD 4522

    		 HMG-CoA Reductase (HMGCR) Autophagy Potassium Channel Bacterial Cardiovascular Disease Metabolic Disease Cancer
    Rosuvastatin (ZD 4522) is a competitive HMG-CoA reductase inhibitor with an IC50 of 11 nM. Rosuvastatin potently blocks hERG current with an IC50 of 195 nM, delayed cardiac repolarization, and thereby prolonged action potential durations (APDs) and corrected QT interval (QTc) intervals. Rosuvastatin reduces the expression of the mature hERG and the interaction of heat shock protein 70 (Hsp70) with the hERG protein. Rosuvastatin effectively lowers low-density lipoprotein (LDL) cholesterol, triglycerides, and C-reactive protein levels .
    Rosuvastatin
  • HY-110174
    NAB2

    		Others Neurological Disease
    NAB2 is a neuron-protective agent. NAB2 strongly and selectively protects diverse cell types from α-syn toxicity. NAB2 promots endosomal transport events dependent on the E3 ubiquitin ligase Rsp5/Nedd4. NAB2 identifies a agentgable node in the biology of α-syn that can correct multiple aspects of its underlying pathology, including dysfunctional endosomal and endoplasmic reticulum-to-Golgi vesicle trafficking .
    NAB2
  • HY-103369
    PG01

    		CFTR Endocrinology
    PG01 is a potent CFTR Cl - channel potentiator. PG01 can correct gating defects of CFTR mutants, is effective on b>E193K, G970R and G551D (CFTR mutants) with Kd values of 0.22 μM, 0.45 μM and 1.94 μM, respectively. PG01 is also effective on ΔF508 (Ka of 0.3 μM). PG01 increases ΔF508-CFTR Cl - current after adding Forskolin .
    PG01
  • HY-143423A
    (S)-MALT1-IN-5

    		MALT1 Inflammation/Immunology Cancer
    (S)-MALT1-IN-5 is a potent inhibitor of MALT1 protease. (S)-MALT1-IN-5 inhibits the activity of MALT1 is expected to be able to correct the enhancement of MALT1 activity due to abnormality of T cell receptor signal or B cell receptor signal, and cancer or inflammatory disease caused by MALT1 activity is expected. (S)-MALT1-IN-5 has the potential for the research of MALT1-related diseases (extracted from patent WO2020111087A1, compound 1) .
    (S)-MALT1-IN-5
  • HY-15746
    Dobutamine hydrochloride
    3 Publications Verification

    		 Adrenergic Receptor Cardiovascular Disease Endocrinology Cancer
    Dobutamine hydrochloride is a synthetic catecholamine that acts on α1-AR, β1-AR, β2-AR (α-1, β-1 andβ-2 adrenoceptors). Dobutamine hydrochloride is a selective β1-AR agonist, relatively weak activity at α1-AR and β2-AR. Dobutamine hydrochloride can increase cardiac output and correct hypoperfusion .
    Dobutamine hydrochloride
  • HY-15746A
    Dobutamine

    		Adrenergic Receptor Cardiovascular Disease Endocrinology
    Dobutamine is a synthetic catecholamine that acts on α1-AR, β1-AR, β2-AR (α-1, β-1 andβ-2 adrenoceptors). Dobutamine is a selective β1-AR agonist, relatively weak activity at α1-AR and β2-AR. Dobutamine can increase cardiac output and correct hypoperfusion .
    Dobutamine
  • HY-15746B
    Dobutamine tartrate

    		Adrenergic Receptor Cardiovascular Disease Endocrinology
    Dobutamine tartrate is a synthetic catecholamine that acts on α1-AR, β1-AR, β2-AR (α-1, β-1 andβ-2 adrenoceptors). Dobutamine tartrate is a selective β1-AR agonist, relatively weak activity at α1-AR and β2-AR. Dobutamine tartrate can increase cardiac output and correct hypoperfusion .
    Dobutamine tartrate
  • HY-15746S1
    (rac)-Dobutamine-d6 hydrochloride

    		Isotope-Labeled Compounds Adrenergic Receptor Cardiovascular Disease Endocrinology
    (rac)-Dobutamine-d6 (hydrochloride) is a labelled racemic Dobutamine hydrochloride. Dobutamine hydrochloride is a synthetic catecholamine that acts on α1-AR, β1-AR, β2-AR (α-1, β-1 andβ-2 adrenoceptors). Dobutamine hydrochloride is a selective β1-AR agonist, relatively weak activity at α1-AR and β2-AR. Dobutamine hydrochloride can increase cardiac output and correct hypoperfusion[1][2][3][4].
    (rac)-Dobutamine-d6 hydrochloride
  • HY-15746S
    (rac)-Dobutamine-d4 hydrochloride

    		Isotope-Labeled Compounds Adrenergic Receptor Cardiovascular Disease Endocrinology
    (rac)-Dobutamine-d4 (hydrochloride) is a labelled racemic Dobutamine hydrochloride. Dobutamine hydrochloride is a synthetic catecholamine that acts on α1-AR, β1-AR, β2-AR (α-1, β-1 andβ-2 adrenoceptors). Dobutamine hydrochloride is a selective β1-AR agonist, relatively weak activity at α1-AR and β2-AR. Dobutamine hydrochloride can increase cardiac output and correct hypoperfusion[1][2][3][4].
    (rac)-Dobutamine-d4 hydrochloride
  • HY-15746R
    Dobutamine hydrochloride (Standard)

    		Adrenergic Receptor Cardiovascular Disease Endocrinology Cancer
    Dobutamine (hydrochloride) (Standard) is the analytical standard of Dobutamine (hydrochloride). This product is intended for research and analytical applications. Dobutamine hydrochloride is a synthetic catecholamine that acts on α1-AR, β1-AR, β2-AR (α-1, β-1 andβ-2 adrenoceptors). Dobutamine hydrochloride is a selective β1-AR agonist, relatively weak activity at α1-AR and β2-AR. Dobutamine hydrochloride can increase cardiac output and correct hypoperfusion .
    Dobutamine hydrochloride (Standard)
  • HY-120973
    Butaprost free acid

    		Biochemical Assay Reagents Others
    (R)-Butaprost (free acid). Butaprost is a structural analog of prostaglandin E2 (PGE2) with good selectivity for the EP2 receptor subtype. Butaprost is frequently used pharmacologically to define the expression profile of EP receptors in various human and animal tissues and cells. Gardiner caused serious confusion about the structure of butaprost in 1986 when he reported that the epimer of butaprost showing this selective activity was the C-16 (R)-epimer ( See reference 2 and notes). To increase the binding affinity of (R)-butaprost to prostaglandin receptors, we removed the methyl ester of (R)-butaprost and recreated the native C-1 carboxylic acid. Prostaglandin free acids typically bind their cognate receptors with 10 to 100-fold higher affinity than the corresponding ester derivatives. The pharmacology of (R)-butaprost has not been carefully studied, but it is generally considered to be the less active C-16 epimer. (Note: In the 1986 Gardiner paper in the British Journal of Pharmacology, butaprost appears on page 46 under the designation TR 4979. The structure drawn is incorrect because the authors use and refer to the more active C - The 16 epimer, which is actually 16(S). The structure on page 46 shows the structure as 16(R). It was not until the late 1990s that careful studies in the United States and Japan correctly determined the actual structure of C-16 The type is 16(S) in a compound called butaprost.)
    Butaprost free acid

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