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Results for "

antiviral+drugs

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Casein Kinase (1) Claudin (1) DNA/RNA Synthesis (4) Drug Intermediate (7) Endogenous Metabolite (8) Epigenetic Reader Domain (2) Flavivirus (2) HBV (3) HCV (3) HIV (1) Isotope-Labeled Compounds (5) PKA (2) PROTACs (1) Reference Standards (2) SARS-CoV (5)
By Research Areas:	Infection (18) Inflammation/Immunology (2) Metabolic Disease (4) Neurological Disease (2)

Inhibitors & Agonists

Screening Libraries

Peptides

Inhibitory Antibodies

Natural
Products

Isotope-Labeled Compounds

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-P1291

PKI 14-22 amide,myristoylated 3 Publications Verification	PKA Epigenetic Reader Domain Flavivirus	Infection Neurological Disease
PKI 14-22 amide, myristoylated is a selective, cAMP-dependent, competitive PKA inhibitor with K_i=~36 nM. The myristoylation modification of PKI 14-22 amide, myristoylated makes it more permeable to cell membranes and blood-brain barriers than the precursor molecule. PKI 14-22 amide, myristoylated can block the phosphorylation of cAMP-dependent downstream targets (such as CREB). PKI 14-22 amide, myristoylated can prevent the development of morphine analgesic tolerance in mice, and also inhibits protein translation and negative-strand RNA synthesis of Zika virus. PKI 14-22 amide, myristoylated can be used in research fields such as opioid tolerance mechanisms and antiviral drugs .

HY-P991200

OM-7D3-B3	HCV Claudin	Infection
OM-7D3-B3 is an antibody-based antiviral agent targeting the tight junction protein CLDN1 (K_d=4 nM). By binding to the first extracellular domain of CLDN1, OM-7D3-B3 disrupts the formation of the CLDN1-CD81 co-receptor complex, thereby effectively inhibiting the entry of hepatitis C virus (HCV). OM-7D3-B3 not only prevents de novo and chronic HCV infections in humanized liver chimeric mice and uPA-SCID mice transplanted with human livers, but also exhibits favorable safety with no toxic effects observed. OM-7D3-B3 serves as a critical tool for research on HCV infection mechanisms and antiviral drug development .

HY-128753

D-Lyxose	Endogenous Metabolite Drug Intermediate	Metabolic Disease
D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose with significant potential for pharmaceutical synthesis. D-Lyxose serves as a starting material for antitumor agents (such as α-galactosylceramide-based immunostimulants). D-Lyxose acts as a precursor for L-nucleoside analogs used in the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars (such as L-ribose) .

HY-P1291A

PKI 14-22 amide,myristoylated TFA 3 Publications Verification	PKA Epigenetic Reader Domain Flavivirus	Infection Neurological Disease
PKI 14-22 amide, myristoylated TFA is a selective, cAMP-dependent, competitive PKA inhibitor with K_i=~36 nM. The myristoylation modification of PKI 14-22 amide, myristoylated TFA makes it more permeable to cell membranes and blood-brain barriers than the precursor molecule. PKI 14-22 amide, myristoylated TFA can block the phosphorylation of cAMP-dependent downstream targets (such as CREB). PKI 14-22 amide, myristoylated TFA can prevent the development of analgesic tolerance in mice, and also inhibits protein translation and negative-strand RNA synthesis of Zika virus. PKI 14-22 amide, myristoylated TFA can be used in research fields such as opioid tolerance mechanisms and antiviral drugs .

HY-153228

Pomotrelvir 1 Publications Verification PBI-0451	SARS-CoV	Infection
Pomotrelvir is a selective, competitive, orally active covalent inhibitor of the SARS-CoV-2 main protease (M ^pro), with an IC₅₀ of 24 nM for wild-type SARS-CoV-2 M ^pro. Pomotrelvir inhibits viral polyprotein processing, thereby preventing viral replication. Pomotrelvir has shown broad antiviral activity against multiple SARS-CoV-2 variants (including Omicron) in cell-based experiments, and has an additive effect when combined with nucleoside analogs that target viral RNA synthesis. Pomotrelvir is primarily used for the research and development of COVID-19 antiviral drugs, especially for infections caused by SARS-CoV-2 and its variants .

HY-101954

Inarigivir ORI-9020; SB-9000	HBV	Infection
Inarigivir (ORI-9020) is a dinucleotide antiviral drug that can significantly reduce liver HBV DNA in transgenic mice expressing hepatitis B virus. Inarigivir (ORI-9020) act as a RIG-I agonist to activate cellular innate immune responses .

HY-101954A

Inarigivir ammonium ORI-9020 ammonium; SB-9000 ammonium	HBV	Infection Inflammation/Immunology
Inarigivir (ORI-9020) ammonium is a dinucleotide antiviral drug that can significantly reduce liver HBV DNA in transgenic mice expressing hepatitis B virus. Inarigivir (ORI-9020) ammonium acts as a RIG-I (Retinoic acid-inducible gene-I) agonist to activate cellular innate immune responses .

HY-128753S6

D-Lyxose-d	Isotope-Labeled Compounds Endogenous Metabolite Drug Intermediate	Metabolic Disease
D-Lyxose-d is the deuterium labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-163783

CSNK2-IN-1	Casein Kinase	Infection
CSNK2-IN-1 is a potent and selective CSNK2 inhibitor with IC₅₀ of 1.7 nM and 0.66 nM for CSNK2A1 and CSNK2A2, respectively. CSNK2-IN-1 has antiviral activity against beta-coronaviruses such as SARS-CoV-2 and MHV. CSNK2-IN-1 has good solubility, metabolic stability, and low cytotoxicity, but its plasma concentration in vivo decreases rapidly and is insufficient to achieve pharmacological effects. CSNK2-IN-1 can be used in the research of antiviral drug development .

HY-109072

Riamilovir	DNA/RNA Synthesis SARS-CoV	Infection
Riamilovir is an antiviral drug whose activity is primarily directed against RNA viruses. Riamilovir acts directly on the virus's RNA-dependent RNA polymerase, thereby preventing the virus from replicating. This mechanism allows Riamilovir to effectively reduce the amount of virus, accelerate the relief of symptoms, and help reduce the severity of the disease. Riamilovir can be used in the study of acute respiratory viral infections caused by new variants of SARS-CoV-2 .

HY-162464

MPD2	PROTACs SARS-CoV	Infection
MPD2 is a Cereblon-binding ligand-based PROTAC that degrades MPro, the main protease of SARS-CoV-2. MPD2 effectively reduced MPro protein levels in 293T cells in a time-dependent manner (DC₅₀=296 nM). MPD2 exhibited potent antiviral activity against multiple SARS-CoV-2 strains and had enhanced potency against Nirmatrelvir (HY-138687) resistant strains. MPD2 provides a new direction for antiviral drug development against SARS-CoV-2 and other emerging coronavirus pathogens (Sturcture Note:(Blue: Cereblon ligand (HY-14658), Black: linker (HY-W275882)；Red: SARS-CoV-2 MPro Inhibitor MP18 (HY-158763)) .

HY-116001

(+)-Carbovir NSC 614846	HIV Endogenous Metabolite	Infection
(+)-Carbovir (NSC 614846) is an antiviral drug with activity against human immunodeficiency virus type 1. (+)-Carbovir is a nucleoside analog with enhanced chemical and metabolic stability. (+)-Carbovir can be used in AIDS research .

HY-169224

SARS-CoV-2-IN-100	SARS-CoV	Infection
SARS-CoV-2-IN-100 (Compound 172) is an inhibitor of SARS-CoV-2, demonstrating broad-spectrum antiviral activity against various SARS-CoV-2 variants. SARS-CoV-2-IN-100 exhibits synergistic effects with Nirmatrelvir, which can reduce the risk of antiviral drug resistance .

HY-16740A

Eprociclovir potassium A-5021 potassium	DNA/RNA Synthesis	Infection
Eprociclovir potassium is an antiviral drug with nucleoside analogues. The triphosphate form of Eprociclovir potassium is converted into the active form within virus-infected cells by the virus and possible cellular enzymes, including the viral thymidine kinase, thereby inhibiting the activity of the viral DNA polymerase. The primary activity of Eprociclovir potassium is against herpes viruses, including but not limited to cytomegalovirus (CMV) and herpes simplex virus (HSV). Eprociclovir potassium can be used in studies interfered with by sensitive viruses .

HY-16740B

Eprociclovir sodium A-5021 sodium	DNA/RNA Synthesis	Infection
Eprociclovir sodium is an antiviral drug with nucleoside analogues. The triphosphate form of Eprociclovir sodium is converted into the active form within virus-infected cells by the virus and possible cellular enzymes, including the viral thymidine kinase, thereby inhibiting the activity of the viral DNA polymerase. The primary activity of Eprociclovir sodium is against herpes viruses, including but not limited to cytomegalovirus (CMV) and herpes simplex virus (HSV). Eprociclovir sodium can be used in studies interfered with by sensitive viruses .

HY-16740

Eprociclovir A-5021	DNA/RNA Synthesis	Infection
Eprociclovir is an antiviral drug with nucleoside analogues. The triphosphate form of Eprociclovir is converted into the active form within virus-infected cells by the virus and possible cellular enzymes, including the viral thymidine kinase, thereby inhibiting the activity of the viral DNA polymerase. The primary activity of Eprociclovir is against herpes viruses, including but not limited to cytomegalovirus (CMV) and herpes simplex virus (HSV). Eprociclovir can be used in studies interfered with by sensitive viruses .

HY-171587

3′-Deoxy CTP	HCV	Infection
3′-Deoxy CTP is a nucleotide analogue and a mandatory chain terminator. 3′-Deoxy CTP can cause chain termination by lacking the 3′-hydroxyl group, inhibiting the RNA synthesis activity of HCV nonstructural protein (NS5B) polymerase and blocking viral replication. 3′-Deoxy CTP can be used to study the chain termination mechanism of HCV polymerase and the development of antiviral drugs .

HY-128753S7

D-Lyxose-d-1	Isotope-Labeled Compounds Endogenous Metabolite Drug Intermediate	Metabolic Disease
D-Lyxose-d-1 is the deuterium labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753S3

D-Lyxose-13C-2	Isotope-Labeled Compounds Endogenous Metabolite Drug Intermediate	Others
D-Lyxose- ¹³C-2 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753S5

D-Lyxose-13C-4	Isotope-Labeled Compounds Endogenous Metabolite Drug Intermediate	Others
D-Lyxose- ¹³C-4 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753R

D-Lyxose (Standard)	Reference Standards Endogenous Metabolite Drug Intermediate	Metabolic Disease
D-Lyxose (Standard) is the analytical standard of D-Lyxose. This product is intended for research and analytical applications. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753S4

D-Lyxose-13C-3	Isotope-Labeled Compounds Endogenous Metabolite Drug Intermediate	Others
D-Lyxose- ¹³C-3 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-171587A

3′-Deoxy CTP trisodium	HCV	Infection
3′-Deoxy CTP trisodium is the sodium salt form of 3′-Deoxy CTP (HY-171587). 3′-Deoxy CTP trisodium is a nucleotide analogue and a mandatory chain terminator. 3′-Deoxy CTP trisodium can cause chain termination by lacking the 3′-hydroxyl group, inhibiting the RNA synthesis activity of HCV nonstructural protein (NS5B) polymerase and blocking viral replication. 3′-Deoxy CTP trisodium can be used to study the chain termination mechanism of HCV polymerase and the development of antiviral drugs .

HY-173511

SARS-CoV-2 nsp13-IN-7	SARS-CoV	Infection
SARS-CoV-2 nsp13-IN-7 (Compound 6r) is a SARS-CoV-2 nsp13 inhibitor (IC₅₀: 0.28 μM). SARS-CoV-2 nsp13-IN-7 interferes with the helicase function of nsp13 by binding to the 5' RNA site and ATP binding site of nsp13. SARS-CoV-2 nsp13-IN-7 can be used as a lead compound for the development of antiviral drugs targeting SARS-CoV-2 nsp13 .

HY-101954AR

Inarigivir ammonium (Standard) ORI-9020 ammonium (Standard); SB-9000 ammonium (Standard)	Reference Standards HBV	Infection Inflammation/Immunology
Inarigivir ammonium (Standard) is the analytical standard of Inarigivir ammonium (HY-101954A). This product is intended for research and analytical applications. Inarigivir (ORI-9020) ammonium is a dinucleotide antiviral drug that can significantly reduce liver HBV DNA in transgenic mice expressing hepatitis B virus. Inarigivir (ORI-9020) ammonium acts as a RIG-I (Retinoic acid-inducible gene-I) agonist to activate cellular innate immune responses .

Cat. No.	Product Name

HY-L940

Antiviral Lead-like compound library	5,813 compounds
Owing to the widespread transmission and frequent mutation of viral diseases, as well as the continuous emergence of new viruses and drug-resistant strains, antiviral drug development is facing increasingly stringent requirements. Antiviral compound libraries serve as important tools for drug screening, mechanism research and development, enabling the discovery and investigation of various antiviral drugs. These compounds act through diverse antiviral mechanisms, targeting key steps in viral replication, assembly and invasion. They exert antiviral effects by inhibiting viral nucleic acid synthesis, blocking viral protein processing, and preventing viral binding to host cells. This library covers various types of antiviral compounds, including nucleosides, non-nucleosides, protease inhibitors and integrase inhibitors. It supports research on influenza virus, herpes virus, hepatitis virus, emerging respiratory viruses and other pathogens, and enables high-throughput screening of novel antiviral candidates to rapidly identify potential active compounds against diverse viruses. It also facilitates mechanistic studies to elucidate drug-target interactions and viral resistance mechanisms, and supports the screening of effective compounds against mutant strains for research on viral variation and drug resistance. This antiviral library consists of 6,804 compounds with lead-like physicochemical properties. The core sources of the compounds include analogs of known antiviral molecues with a similarity score ≥ 0.6. MCE has collected more than 1450 antiviral molecules. As a small-molecule collection with both activity potential and structural modifiability, it provides strong support for antiviral drug research and development.

Antiviral Lead-like compound library

5,813 compounds

Owing to the widespread transmission and frequent mutation of viral diseases, as well as the continuous emergence of new viruses and drug-resistant strains, antiviral drug development is facing increasingly stringent requirements. Antiviral compound libraries serve as important tools for drug screening, mechanism research and development, enabling the discovery and investigation of various antiviral drugs.

These compounds act through diverse antiviral mechanisms, targeting key steps in viral replication, assembly and invasion. They exert antiviral effects by inhibiting viral nucleic acid synthesis, blocking viral protein processing, and preventing viral binding to host cells. This library covers various types of antiviral compounds, including nucleosides, non-nucleosides, protease inhibitors and integrase inhibitors. It supports research on influenza virus, herpes virus, hepatitis virus, emerging respiratory viruses and other pathogens, and enables high-throughput screening of novel antiviral candidates to rapidly identify potential active compounds against diverse viruses. It also facilitates mechanistic studies to elucidate drug-target interactions and viral resistance mechanisms, and supports the screening of effective compounds against mutant strains for research on viral variation and drug resistance.

This antiviral library consists of 6,804 compounds with lead-like physicochemical properties. The core sources of the compounds include analogs of known antiviral molecues with a similarity score ≥ 0.6. MCE has collected more than 1450 antiviral molecules. As a small-molecule collection with both activity potential and structural modifiability, it provides strong support for antiviral drug research and development.

HY-L113

Antiviral Traditional Chinese Medicine Active Compound Library	235 compounds
Increasing research have shown that Traditional Chinese Medicine (TCM) possess antiviral activities against various viral strains, such as herpes simplex virus, influenza virus, hepatitis B and C viruses, and SARS-CoV. To date, dozens of Chinese herbs and hundreds of natural TCM ingredients have been reported to exhibit good antiviral activities. Active components from TCM are one of the important sources for antiviral drugs discovery. MCE designs a unique collection of 235 active compounds of antiviral Chinese Herbal Medicines. MCE Antiviral Traditional Chinese Medicine Active Compound Library is a useful tool for discovery antiviral drugs from TCM.

Antiviral Traditional Chinese Medicine Active Compound Library

235 compounds

Increasing research have shown that Traditional Chinese Medicine (TCM) possess antiviral activities against various viral strains, such as herpes simplex virus, influenza virus, hepatitis B and C viruses, and SARS-CoV. To date, dozens of Chinese herbs and hundreds of natural TCM ingredients have been reported to exhibit good antiviral activities. Active components from TCM are one of the important sources for antiviral drugs discovery.

MCE designs a unique collection of 235 active compounds of antiviral Chinese Herbal Medicines. MCE Antiviral Traditional Chinese Medicine Active Compound Library is a useful tool for discovery antiviral drugs from TCM.

HY-L044

Nucleotide Compound Library	572 compounds
Nucleoside and nucleotide analogues are synthetic, chemically modified compounds that have been developed to mimic their physiological counterparts in order to exploit cellular metabolism and subsequently be incorporated into DNA and RNA to inhibit cellular division and viral replication. In addition to their incorporation into nucleic acids, nucleoside and nucleotide analogues can interact with and inhibit essential enzymes such as human and viral polymerases (that is, DNA-dependent DNA polymerases, RNA-dependent DNA polymerases or RNA-dependent RNA polymerases), kinases, ribonucleotide reductase, DNA methyltransferases, purine and pyrimidine nucleoside phosphorylase and thymidylate synthase. These actions of nucleoside and nucleotide analogues have potential therapeutic benefits — for example, in the inhibition of cancer cell growth, the inhibition of viral replication as well as other indications. MCE offers a unique collection of 572 nucleotide compounds including nucleotide, nucleoside and their structural analogues. MCE Nucleotide Compound Library is a useful tool to discover anti-cancer and antiviral drugs for high throughput screening (HTS) and high content screening (HCS).

Nucleotide Compound Library

572 compounds

Nucleoside and nucleotide analogues are synthetic, chemically modified compounds that have been developed to mimic their physiological counterparts in order to exploit cellular metabolism and subsequently be incorporated into DNA and RNA to inhibit cellular division and viral replication. In addition to their incorporation into nucleic acids, nucleoside and nucleotide analogues can interact with and inhibit essential enzymes such as human and viral polymerases (that is, DNA-dependent DNA polymerases, RNA-dependent DNA polymerases or RNA-dependent RNA polymerases), kinases, ribonucleotide reductase, DNA methyltransferases, purine and pyrimidine nucleoside phosphorylase and thymidylate synthase. These actions of nucleoside and nucleotide analogues have potential therapeutic benefits — for example, in the inhibition of cancer cell growth, the inhibition of viral replication as well as other indications.

MCE offers a unique collection of 572 nucleotide compounds including nucleotide, nucleoside and their structural analogues. MCE Nucleotide Compound Library is a useful tool to discover anti-cancer and antiviral drugs for high throughput screening (HTS) and high content screening (HCS).

HY-L027

Antiviral Compound Library	1,180 compounds
Viruses are much simpler organisms than bacteria, and they are made from protein substances and nucleic acid. Despite the fact that the exact mechanism of infection is extremely specific to each type of virus, the general scheme of infection can be represented in the following manner: A virus is absorbed at the surface of a host cell and then permeates through the membrane, where it releases nucleic acid from its protein protection. Then the viral nucleic acid begins to replicate, and transcription of the viral genome takes place either in the cytoplasm, or in the nucleus of the host cell. As a result of these events, a large amount of viral nucleic acid and protein are made to make new generations of virions. Therefore, one mechanism of action of antiviral drugs is to interfere with the ability of a virus to get into a target cell. A second mechanism of action is to target the processes that synthesize virus components after a virus invades a cell, such as nucleotide or nucleoside analogs. MCE designs a unique collection of 1,180 anti-virus compounds that target several viruses, including SARS-CoV, HBV, HCV, HIV, HSV and Influenza Virus. It’s an effective tool for anti-virus drug discovery.

Antiviral Compound Library

1,180 compounds

Viruses are much simpler organisms than bacteria, and they are made from protein substances and nucleic acid. Despite the fact that the exact mechanism of infection is extremely specific to each type of virus, the general scheme of infection can be represented in the following manner: A virus is absorbed at the surface of a host cell and then permeates through the membrane, where it releases nucleic acid from its protein protection. Then the viral nucleic acid begins to replicate, and transcription of the viral genome takes place either in the cytoplasm, or in the nucleus of the host cell. As a result of these events, a large amount of viral nucleic acid and protein are made to make new generations of virions. Therefore, one mechanism of action of antiviral drugs is to interfere with the ability of a virus to get into a target cell. A second mechanism of action is to target the processes that synthesize virus components after a virus invades a cell, such as nucleotide or nucleoside analogs.

MCE designs a unique collection of 1,180 anti-virus compounds that target several viruses, including SARS-CoV, HBV, HCV, HIV, HSV and Influenza Virus. It’s an effective tool for anti-virus drug discovery.

Cat. No.	Product Name	Target	Research Area

HY-P1291

PKI 14-22 amide,myristoylated 3 Publications Verification	PKA Epigenetic Reader Domain Flavivirus	Infection Neurological Disease
PKI 14-22 amide, myristoylated is a selective, cAMP-dependent, competitive PKA inhibitor with K_i=~36 nM. The myristoylation modification of PKI 14-22 amide, myristoylated makes it more permeable to cell membranes and blood-brain barriers than the precursor molecule. PKI 14-22 amide, myristoylated can block the phosphorylation of cAMP-dependent downstream targets (such as CREB). PKI 14-22 amide, myristoylated can prevent the development of morphine analgesic tolerance in mice, and also inhibits protein translation and negative-strand RNA synthesis of Zika virus. PKI 14-22 amide, myristoylated can be used in research fields such as opioid tolerance mechanisms and antiviral drugs .

HY-P1291A

PKI 14-22 amide,myristoylated TFA 3 Publications Verification	PKA Epigenetic Reader Domain Flavivirus	Infection Neurological Disease
PKI 14-22 amide, myristoylated TFA is a selective, cAMP-dependent, competitive PKA inhibitor with K_i=~36 nM. The myristoylation modification of PKI 14-22 amide, myristoylated TFA makes it more permeable to cell membranes and blood-brain barriers than the precursor molecule. PKI 14-22 amide, myristoylated TFA can block the phosphorylation of cAMP-dependent downstream targets (such as CREB). PKI 14-22 amide, myristoylated TFA can prevent the development of analgesic tolerance in mice, and also inhibits protein translation and negative-strand RNA synthesis of Zika virus. PKI 14-22 amide, myristoylated TFA can be used in research fields such as opioid tolerance mechanisms and antiviral drugs .

Cat. No.	Product Name	Target	Research Area	Image

HY-P991200

OM-7D3-B3	HCV Claudin	Infection
OM-7D3-B3 is an antibody-based antiviral agent targeting the tight junction protein CLDN1 (K_d=4 nM). By binding to the first extracellular domain of CLDN1, OM-7D3-B3 disrupts the formation of the CLDN1-CD81 co-receptor complex, thereby effectively inhibiting the entry of hepatitis C virus (HCV). OM-7D3-B3 not only prevents de novo and chronic HCV infections in humanized liver chimeric mice and uPA-SCID mice transplanted with human livers, but also exhibits favorable safety with no toxic effects observed. OM-7D3-B3 serves as a critical tool for research on HCV infection mechanisms and antiviral drug development .

D-Lyxose	Structural Classification Human Gut Microbiota Metabolites Classification of Application Fields Metabolic Disease Endogenous metabolite Disease Research Fields Saccharides Source Classification	Endogenous Metabolite Drug Intermediate
D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose with significant potential for pharmaceutical synthesis. D-Lyxose serves as a starting material for antitumor agents (such as α-galactosylceramide-based immunostimulants). D-Lyxose acts as a precursor for L-nucleoside analogs used in the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars (such as L-ribose) .

D-Lyxose (Standard)	Structural Classification Human Gut Microbiota Metabolites Microorganisms Endogenous metabolite Saccharides Source Classification	Reference Standards Endogenous Metabolite Drug Intermediate
D-Lyxose (Standard) is the analytical standard of D-Lyxose. This product is intended for research and analytical applications. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

Cat. No.	Product Name	Chemical Structure

HY-128753S6

D-Lyxose-d
D-Lyxose-d is the deuterium labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

D-Lyxose-d

D-Lyxose-d is the deuterium labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753S7

D-Lyxose-d-1
D-Lyxose-d-1 is the deuterium labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

D-Lyxose-d-1

D-Lyxose-d-1 is the deuterium labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753S3

D-Lyxose-13C-2
D-Lyxose- ¹³C-2 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

D-Lyxose-13C-2

D-Lyxose- ¹³C-2 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753S5

D-Lyxose-13C-4
D-Lyxose- ¹³C-4 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

D-Lyxose-13C-4

D-Lyxose- ¹³C-4 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

HY-128753S4

D-Lyxose-13C-3
D-Lyxose- ¹³C-3 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

D-Lyxose-13C-3

D-Lyxose- ¹³C-3 is the ¹³C labeled D-Lyxose. D-Lyxose is an endogenous metabolite. D-Lyxose is a rare pentose sugar with significant potential for drug synthesis. D-Lyxose can be used as a starting material for anti-tumor drugs such as alpha galactose ceramide immunostimulants. D-Lyxose can be used as a precursor for L-nucleoside analogs for the development of antiviral drugs. D-Lyxose can be used as a synthetic intermediate for other rare sugars such as L-ribose .

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