Search Result

Results for "

PAMPs

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Bacterial (3) CFTR (1) Chloride Channel (1) Connective Peptide (1) Mas-related G-protein-coupled Receptor (MRGPR) (4) NO Synthase (1) p62 (2) Toll-like Receptor (TLR) (9)
By Research Areas:	Cancer (4) Cardiovascular Disease (4) Infection (2) Inflammation/Immunology (11) Neurological Disease (1)

Inhibitors & Agonists

Biochemical Assay Reagents

Peptides

Inhibitory Antibodies

Natural
Products

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-P2198

PAMP-12(human, porcine)	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12(human, porcine) is a major component of immunoreactive (ir)-PAMP, is processed from the adrenomedullin precursor, is a potent hypotensive peptide and participates in cardiovascular control .

HY-P3419

PAMP-12 (unmodified) 1 Publications Verification	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12 (unmodified) is a potent MRGPRX2 (MrgX2) agonist (EC₅₀=20-50 nM). PAMP-12 (unmodified) is an endogenous peptide that elicit hypotension through inhibiting catecholamine secretion from sympathetic nerve endings and adrenal chromaffin cells .

HY-P2076

Dusquetide SGX942	p62 Bacterial	Infection Cancer
Dusquetide (SGX942) is a first-in-class innate defense regulator (IDR). Dusquetide modulates the innate immune response to both PAMPs and DAMPs by binding to p62. Dusquetide shows activity in both reducing inflammation and increasing clearance of bacterial infection . DAMPs: damage-associated molecular patterns; PAMPs: pathogen-associated molecular patterns

HY-P2076A

Dusquetide TFA SGX942 TFA	p62 Bacterial	Infection Cancer
Dusquetide (SGX942) TFA is a first-in-class innate defense regulator (IDR). Dusquetide TFA modulates the innate immune response to both PAMPs and DAMPs by binding to p62. Dusquetide TFA shows activity in both reducing inflammation and increasing clearance of bacterial infection . DAMPs: damage-associated molecular patterns; PAMPs: pathogen-associated molecular patterns

HY-N5101

Kobusin 1 Publications Verification	CFTR Chloride Channel	Neurological Disease Inflammation/Immunology
Kobusin is a bisepoxylignan isolated from the Pnonobio biondii Pamp. Kobusin is an activator of CFTR and CaCCgie chloride channels and a inhibitor of ANO1/CaCC (calcium-activated chloride channel) channel .

HY-P2198A

PAMP-12(human, porcine) TFA	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12(human, porcine) TFA is a major component of immunoreactive (ir)-PAMP, is processed from the adrenomedullin precursor, is a potent hypotensive peptide and participates in cardiovascular control .

HY-N3914

Futoenone	Others	Others
Futoenone is a lignan, which can be isolated from Magnolia sprengeri Pamp .

HY-145870

Anti-inflammatory agent 13	NO Synthase	Inflammation/Immunology
Anti-inflammatory agent 13 (Compound 3) is a pentacyclic triterpene compound. Anti-inflammatory agent 13 exhibits a considerable inhibitory effect on inflammation models. Anti-inflammatory agent 13 has the potential for the research of either DAMPs or PAMPs triggered inflammation .

HY-P3419A

PAMP-12 (unmodified) TFA	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12 (unmodified) TFA is a potent MRGPRX2 (MrgX2) agonist (EC₅₀=20-50 nM). PAMP-12 (unmodified) is an endogenous peptide that elicit hypotension through inhibiting catecholamine secretion from sympathetic nerve endings and adrenal chromaffin cells .

HY-P991531

ART160	Connective Peptide	Cancer
ART160 is an anti-proadrenomedullin N-terminal 20 peptide (PAMP) monoclonal antibody. ART160 can be used in tumor research .

HY-P10779

flg22Pst	Bacterial	Inflammation/Immunology
flg22Pst is a peptide that can be derived Pseudomonas syringae pv. tabaci and serves as an effective elicitor for the plant immune system. flg22Pst can induce callose deposition in plants, trigger plant immune responses, and thereby assist plants in defending against pathogen invasion .

HY-D1056B4

Lipopolysaccharides, from Salmonella typhosa LPS, from bacterial (Salmonella typhosa)	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from Salmonella typhosa are lipopolysaccharide endotoxins and TLR-4 activators derived from Salmonella typhosa, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Salmonella typhosa exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from Salmonella typhosa can serve as vaccine adjuvants and demonstrate adjuvant activity targeting B cells in immune responses in vivo . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-179275

TLR7 agonist 33	Toll-like Receptor (TLR)	Cancer
TLR7 agonist 33 (Compound 141) is a potent TLR7 activator with an EC₅₀ of 1 nM. TLR7 agonist 33 can be used for cancer research .

HY-D1056C1

Lipopolysaccharides, from S. enterica serotype enteritidis LPS, from Salmonella enterica (Serotype enteritidis)	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from S. enterica (Salmonella enterica) serotype enteritidis are lipopolysaccharide endotoxins and TLR-4 activators derived from the enteritidis serotype of S. enterica, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. enterica serotype enteritidis exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from S. enterica serotype enteritidis can induce systemic inflammatory responses, increasing levels of TNF-α, IFN-γ, IL-6, IL-10, and nitrate in plasma . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056C4

Lipopolysaccharides, from S. enterica serotype abortus equi LPS, from Salmonella enterica (Serotype abortus equi)	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from S. enterica (Salmonella enterica) serotype Abortusequi are lipopolysaccharide endotoxins and TLR-4 activators derived from the Abortusequi serotype of S. enterica, classified as a mutated R-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. enterica serotype abortus equi consist of core oligosaccharide (core oligosaccharide) and lipid A (Lipid A). S. enterica serotype Abortusequi is a major pathogen causing abortion in mares and is also associated with neonatal sepsis, multiple abscesses, orchitis, and polyarthritis in equids. It is primarily grouped based on lipopolysaccharides (O-antigen) and flagellin (H-antigen) . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056B2

Lipopolysaccharides, from Proteus mirabilis LPS, from bacterial (Proteus mirabilis)	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from Proteus mirabilis are lipopolysaccharide endotoxins and TLR-4 activators derived from Proteus mirabilis, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Proteus mirabilis exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Proteus mirabilis is a major pathogen causing urinary tract infections and may also contribute to rheumatoid arthritis. Lipopolysaccharides, from Proteus mirabilis also exhibit potential anti-tumor effects, demonstrating in vivo inhibitory activity against solid tumors such as meningosarcoma and Walker carcinosarcoma . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056B1

Lipopolysaccharides, from Proteus vulgaris LPS, from bacterial (Proteus vulgaris)	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from Proteus vulgaris are lipopolysaccharide endotoxins and TLR-4 activators derived from Proteus vulgaris, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Proteus vulgaris exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from Proteus vulgaris possess a unique molecular structure and chitosan affinity (K_b=2.72 μM), surpassing that of Yersinia pseudotuberculosis (K_b=6.06 μM) and Escherichia coli (K_b=79.50 μM) . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056H

Lipopolysaccharides, from S. marcescens 1 Publications Verification LPS, from Serratia marcescens	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from S. marcescens (Serratia marcescens) are lipopolysaccharide endotoxins and TLR-4 activators derived from Serratia marcescens, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. marcescens exhibit a typical three-part structure: O-antigen (O-antigen), core oligosaccharide (core oligosaccharide), and lipid A (Lipid A). Lipopolysaccharides, from S. marcescens induce NF-κB activation in mouse cells via Toll-like receptor (TLR4)/MD-2. The lipopolysaccharides of S. marcescens can induce apoptosis in host immune cells, thereby suppressing the host's innate immunity . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056A5

Lipopolysaccharides, from E. coli K-235 LPS, from Escherichia coli (K-235)	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from E. coli (Escherichia coli) K-235 are lipopolysaccharide endotoxins and TLR-4 activators derived from E. coli, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from E. coli K-235 exhibit a typical three-part structure: O-antigen (O-antigen), core oligosaccharide (core oligosaccharide), and lipid A (Lipid A). Lipopolysaccharides, from E. coli K-235 have a mitogenic effect on C57BL/10ScN spleen cells. Additionally, LPS purified using butanol and deoxycholic acid methods stimulates spleen cells in C57BL/10ScCR and C3H/HeJ mice . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056A3

Lipopolysaccharides, from E. coli O26:B6 LPS, from Escherichia coli (O26:B6)	Toll-like Receptor (TLR)	Inflammation/Immunology
Lipopolysaccharides, from E. coli (Escherichia coli) O26:B6 are lipopolysaccharide endotoxins and TLR-4 activators derived from E. coli, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from E. coli O26:B6 exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A, and can be recognized by the core-specific monoclonal antibody MAb J8-4C10. Lipopolysaccharides, from E. coli O26:B6 can promote an increase in pro-inflammatory cytokines in plasma, thereby triggering hypothalamic-pituitary-adrenal (HPA) activation and leading to adrenal oxidative damage. The pathogenic effects of Lipopolysaccharides, from E. coli O26:B6 can be used to construct various models, such as cellular inflammation models, sepsis, acute lung injury models, adrenal dysfunction models, and bladder infection models, etc . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Cat. No.	Product Name	Type

HY-D1056B4

Lipopolysaccharides, from Salmonella typhosa LPS, from bacterial (Salmonella typhosa)	Biochemical Assay Reagents
Lipopolysaccharides, from Salmonella typhosa are lipopolysaccharide endotoxins and TLR-4 activators derived from Salmonella typhosa, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Salmonella typhosa exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from Salmonella typhosa can serve as vaccine adjuvants and demonstrate adjuvant activity targeting B cells in immune responses in vivo . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from Salmonella typhosa

LPS, from bacterial (Salmonella typhosa)

Biochemical Assay Reagents

Lipopolysaccharides, from Salmonella typhosa are lipopolysaccharide endotoxins and TLR-4 activators derived from Salmonella typhosa, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Salmonella typhosa exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from Salmonella typhosa can serve as vaccine adjuvants and demonstrate adjuvant activity targeting B cells in immune responses in vivo .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056C1

Lipopolysaccharides, from S. enterica serotype enteritidis LPS, from Salmonella enterica (Serotype enteritidis)	Biochemical Assay Reagents
Lipopolysaccharides, from S. enterica (Salmonella enterica) serotype enteritidis are lipopolysaccharide endotoxins and TLR-4 activators derived from the enteritidis serotype of S. enterica, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. enterica serotype enteritidis exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from S. enterica serotype enteritidis can induce systemic inflammatory responses, increasing levels of TNF-α, IFN-γ, IL-6, IL-10, and nitrate in plasma . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from S. enterica serotype enteritidis

LPS, from Salmonella enterica (Serotype enteritidis)

Biochemical Assay Reagents

Lipopolysaccharides, from S. enterica (Salmonella enterica) serotype enteritidis are lipopolysaccharide endotoxins and TLR-4 activators derived from the enteritidis serotype of S. enterica, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. enterica serotype enteritidis exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from S. enterica serotype enteritidis can induce systemic inflammatory responses, increasing levels of TNF-α, IFN-γ, IL-6, IL-10, and nitrate in plasma .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056B2

Lipopolysaccharides, from Proteus mirabilis LPS, from bacterial (Proteus mirabilis)	Biochemical Assay Reagents
Lipopolysaccharides, from Proteus mirabilis are lipopolysaccharide endotoxins and TLR-4 activators derived from Proteus mirabilis, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Proteus mirabilis exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Proteus mirabilis is a major pathogen causing urinary tract infections and may also contribute to rheumatoid arthritis. Lipopolysaccharides, from Proteus mirabilis also exhibit potential anti-tumor effects, demonstrating in vivo inhibitory activity against solid tumors such as meningosarcoma and Walker carcinosarcoma . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from Proteus mirabilis

LPS, from bacterial (Proteus mirabilis)

Biochemical Assay Reagents

Lipopolysaccharides, from Proteus mirabilis are lipopolysaccharide endotoxins and TLR-4 activators derived from Proteus mirabilis, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Proteus mirabilis exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Proteus mirabilis is a major pathogen causing urinary tract infections and may also contribute to rheumatoid arthritis. Lipopolysaccharides, from Proteus mirabilis also exhibit potential anti-tumor effects, demonstrating in vivo inhibitory activity against solid tumors such as meningosarcoma and Walker carcinosarcoma .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056H

Lipopolysaccharides, from S. marcescens 1 Publications Verification LPS, from Serratia marcescens	Biochemical Assay Reagents
Lipopolysaccharides, from S. marcescens (Serratia marcescens) are lipopolysaccharide endotoxins and TLR-4 activators derived from Serratia marcescens, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. marcescens exhibit a typical three-part structure: O-antigen (O-antigen), core oligosaccharide (core oligosaccharide), and lipid A (Lipid A). Lipopolysaccharides, from S. marcescens induce NF-κB activation in mouse cells via Toll-like receptor (TLR4)/MD-2. The lipopolysaccharides of S. marcescens can induce apoptosis in host immune cells, thereby suppressing the host's innate immunity . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from S. marcescens

1 Publications Verification

LPS, from Serratia marcescens

Biochemical Assay Reagents

Lipopolysaccharides, from S. marcescens (Serratia marcescens) are lipopolysaccharide endotoxins and TLR-4 activators derived from Serratia marcescens, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. marcescens exhibit a typical three-part structure: O-antigen (O-antigen), core oligosaccharide (core oligosaccharide), and lipid A (Lipid A). Lipopolysaccharides, from S. marcescens induce NF-κB activation in mouse cells via Toll-like receptor (TLR4)/MD-2. The lipopolysaccharides of S. marcescens can induce apoptosis in host immune cells, thereby suppressing the host's innate immunity .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056A3

Lipopolysaccharides, from E. coli O26:B6 LPS, from Escherichia coli (O26:B6)	Biochemical Assay Reagents
Lipopolysaccharides, from E. coli (Escherichia coli) O26:B6 are lipopolysaccharide endotoxins and TLR-4 activators derived from E. coli, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from E. coli O26:B6 exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A, and can be recognized by the core-specific monoclonal antibody MAb J8-4C10. Lipopolysaccharides, from E. coli O26:B6 can promote an increase in pro-inflammatory cytokines in plasma, thereby triggering hypothalamic-pituitary-adrenal (HPA) activation and leading to adrenal oxidative damage. The pathogenic effects of Lipopolysaccharides, from E. coli O26:B6 can be used to construct various models, such as cellular inflammation models, sepsis, acute lung injury models, adrenal dysfunction models, and bladder infection models, etc . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from E. coli O26:B6

LPS, from Escherichia coli (O26:B6)

Biochemical Assay Reagents

Lipopolysaccharides, from E. coli (Escherichia coli) O26:B6 are lipopolysaccharide endotoxins and TLR-4 activators derived from E. coli, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from E. coli O26:B6 exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A, and can be recognized by the core-specific monoclonal antibody MAb J8-4C10. Lipopolysaccharides, from E. coli O26:B6 can promote an increase in pro-inflammatory cytokines in plasma, thereby triggering hypothalamic-pituitary-adrenal (HPA) activation and leading to adrenal oxidative damage. The pathogenic effects of Lipopolysaccharides, from E. coli O26:B6 can be used to construct various models, such as cellular inflammation models, sepsis, acute lung injury models, adrenal dysfunction models, and bladder infection models, etc .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056C4

Lipopolysaccharides, from S. enterica serotype abortus equi LPS, from Salmonella enterica (Serotype abortus equi)	Biochemical Assay Reagents
Lipopolysaccharides, from S. enterica (Salmonella enterica) serotype Abortusequi are lipopolysaccharide endotoxins and TLR-4 activators derived from the Abortusequi serotype of S. enterica, classified as a mutated R-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. enterica serotype abortus equi consist of core oligosaccharide (core oligosaccharide) and lipid A (Lipid A). S. enterica serotype Abortusequi is a major pathogen causing abortion in mares and is also associated with neonatal sepsis, multiple abscesses, orchitis, and polyarthritis in equids. It is primarily grouped based on lipopolysaccharides (O-antigen) and flagellin (H-antigen) . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from S. enterica serotype abortus equi

LPS, from Salmonella enterica (Serotype abortus equi)

Biochemical Assay Reagents

Lipopolysaccharides, from S. enterica (Salmonella enterica) serotype Abortusequi are lipopolysaccharide endotoxins and TLR-4 activators derived from the Abortusequi serotype of S. enterica, classified as a mutated R-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from S. enterica serotype abortus equi consist of core oligosaccharide (core oligosaccharide) and lipid A (Lipid A). S. enterica serotype Abortusequi is a major pathogen causing abortion in mares and is also associated with neonatal sepsis, multiple abscesses, orchitis, and polyarthritis in equids. It is primarily grouped based on lipopolysaccharides (O-antigen) and flagellin (H-antigen) .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056B1

Lipopolysaccharides, from Proteus vulgaris LPS, from bacterial (Proteus vulgaris)	Biochemical Assay Reagents
Lipopolysaccharides, from Proteus vulgaris are lipopolysaccharide endotoxins and TLR-4 activators derived from Proteus vulgaris, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Proteus vulgaris exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from Proteus vulgaris possess a unique molecular structure and chitosan affinity (K_b=2.72 μM), surpassing that of Yersinia pseudotuberculosis (K_b=6.06 μM) and Escherichia coli (K_b=79.50 μM) . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from Proteus vulgaris

LPS, from bacterial (Proteus vulgaris)

Biochemical Assay Reagents

Lipopolysaccharides, from Proteus vulgaris are lipopolysaccharide endotoxins and TLR-4 activators derived from Proteus vulgaris, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from Proteus vulgaris exhibit a typical three-part structure: O-antigen, core oligosaccharide, and lipid A. Lipopolysaccharides, from Proteus vulgaris possess a unique molecular structure and chitosan affinity (K_b=2.72 μM), surpassing that of Yersinia pseudotuberculosis (K_b=6.06 μM) and Escherichia coli (K_b=79.50 μM) .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

HY-D1056A5

Lipopolysaccharides, from E. coli K-235 LPS, from Escherichia coli (K-235)	Biochemical Assay Reagents
Lipopolysaccharides, from E. coli (Escherichia coli) K-235 are lipopolysaccharide endotoxins and TLR-4 activators derived from E. coli, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from E. coli K-235 exhibit a typical three-part structure: O-antigen (O-antigen), core oligosaccharide (core oligosaccharide), and lipid A (Lipid A). Lipopolysaccharides, from E. coli K-235 have a mitogenic effect on C57BL/10ScN spleen cells. Additionally, LPS purified using butanol and deoxycholic acid methods stimulates spleen cells in C57BL/10ScCR and C3H/HeJ mice . It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Lipopolysaccharides, from E. coli K-235

LPS, from Escherichia coli (K-235)

Biochemical Assay Reagents

Lipopolysaccharides, from E. coli (Escherichia coli) K-235 are lipopolysaccharide endotoxins and TLR-4 activators derived from E. coli, classified as S-type LPS, which can activate pathogen-associated molecular patterns (PAMP) of the immune system and induce cellular secretion of migrasomes. Lipopolysaccharides, from E. coli K-235 exhibit a typical three-part structure: O-antigen (O-antigen), core oligosaccharide (core oligosaccharide), and lipid A (Lipid A). Lipopolysaccharides, from E. coli K-235 have a mitogenic effect on C57BL/10ScN spleen cells. Additionally, LPS purified using butanol and deoxycholic acid methods stimulates spleen cells in C57BL/10ScCR and C3H/HeJ mice .
It is recommended to prepare a solution with concentration ≥2 mg/mL. Vortex thoroughly for more than 10 minutes. Due to the adsorption characteristics of LPS, silanized container or low adsorption centrifuge tubes should be used for aliquoting and storage, and mix thoroughly before use.

Cat. No.	Product Name	Target	Research Area

HY-P2198

PAMP-12(human, porcine)	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12(human, porcine) is a major component of immunoreactive (ir)-PAMP, is processed from the adrenomedullin precursor, is a potent hypotensive peptide and participates in cardiovascular control .

HY-P3419

PAMP-12 (unmodified) 1 Publications Verification	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12 (unmodified) is a potent MRGPRX2 (MrgX2) agonist (EC₅₀=20-50 nM). PAMP-12 (unmodified) is an endogenous peptide that elicit hypotension through inhibiting catecholamine secretion from sympathetic nerve endings and adrenal chromaffin cells .

HY-P2076

Dusquetide SGX942	p62 Bacterial	Infection Cancer
Dusquetide (SGX942) is a first-in-class innate defense regulator (IDR). Dusquetide modulates the innate immune response to both PAMPs and DAMPs by binding to p62. Dusquetide shows activity in both reducing inflammation and increasing clearance of bacterial infection . DAMPs: damage-associated molecular patterns; PAMPs: pathogen-associated molecular patterns

HY-P2076A

Dusquetide TFA SGX942 TFA	p62 Bacterial	Infection Cancer
Dusquetide (SGX942) TFA is a first-in-class innate defense regulator (IDR). Dusquetide TFA modulates the innate immune response to both PAMPs and DAMPs by binding to p62. Dusquetide TFA shows activity in both reducing inflammation and increasing clearance of bacterial infection . DAMPs: damage-associated molecular patterns; PAMPs: pathogen-associated molecular patterns

HY-P2198A

PAMP-12(human, porcine) TFA	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12(human, porcine) TFA is a major component of immunoreactive (ir)-PAMP, is processed from the adrenomedullin precursor, is a potent hypotensive peptide and participates in cardiovascular control .

HY-P3419A

PAMP-12 (unmodified) TFA	Mas-related G-protein-coupled Receptor (MRGPR)	Cardiovascular Disease
PAMP-12 (unmodified) TFA is a potent MRGPRX2 (MrgX2) agonist (EC₅₀=20-50 nM). PAMP-12 (unmodified) is an endogenous peptide that elicit hypotension through inhibiting catecholamine secretion from sympathetic nerve endings and adrenal chromaffin cells .

HY-P4814

Proadrenomedullin (1-20) (rat) Rat PAMP	Peptides	Others
Proadrenomedullin (1-20, rat) (Rat PAMP) is a polypeptide that can be found by peptide screening. Peptide screening is a research tool that pools active peptides primarily by immunoassay. Peptide screening can be used for protein interaction, functional analysis, epitope screening, especially in the field of agent research and development .

HY-P10779

flg22Pst	Bacterial	Inflammation/Immunology
flg22Pst is a peptide that can be derived Pseudomonas syringae pv. tabaci and serves as an effective elicitor for the plant immune system. flg22Pst can induce callose deposition in plants, trigger plant immune responses, and thereby assist plants in defending against pathogen invasion .

Cat. No.	Product Name	Target	Research Area

HY-P991531

ART160	Connective Peptide	Cancer
ART160 is an anti-proadrenomedullin N-terminal 20 peptide (PAMP) monoclonal antibody. ART160 can be used in tumor research .

Kobusin 1 Publications Verification	Natural Products Source classification Magnoliaceae Magnolia biondii Pamp. Plants	CFTR Chloride Channel
Kobusin is a bisepoxylignan isolated from the Pnonobio biondii Pamp. Kobusin is an activator of CFTR and CaCCgie chloride channels and a inhibitor of ANO1/CaCC (calcium-activated chloride channel) channel .

Futoenone	Yulania sprengeri (Pampanini) D. L. Fu Source classification Magnoliaceae Lignans Phenylpropanoids Plants	Others
Futoenone is a lignan, which can be isolated from Magnolia sprengeri Pamp .

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PAMPs

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Biochemical Assay Reagents

Peptides

Inhibitory Antibodies

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