N. sativa

By Targets:	Akt (1) Apoptosis (1) Biochemical Assay Reagents (1) Glucosidase (1) PI3K (1) VEGFR (1)
By Research Areas:	Cancer (1) Cardiovascular Disease (1) Infection (1) Inflammation/Immunology (1) Metabolic Disease (2) Neurological Disease (1)

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-D0803

Thymoquinone 5+ Cited Publications	Apoptosis VEGFR PI3K Akt	Infection Cardiovascular Disease Neurological Disease Inflammation/Immunology Cancer
Thymoquinone is an orally active natural product isolated from N. sativa Thymoquinone down-regulates the VEGFR2-PI3K-Akt pathway. Thymoquinone has antioxidant, anti-inflammatory, anticancer, antiviral, anticonvulsant, antifungal, antiviral, antiangiogenic activity and hepatoprotective effects. Thymoquinone can be used to study Alzheimer's disease, cancer, cardiovascular disease, infectious disease and inflammation .

HY-N5099

N-Vanillyldecanamide	Others	Metabolic Disease
N-Vanillyldecanamide, a capsaicinoid isolated from the fruits of Capsicum annuum, significantly reduced the radical length of Lactuca sativa seedling in a dose-dependent manner .

HY-N12138

Flaccidoside III	Glucosidase	Metabolic Disease
Flaccidoside III is a flavonoid and triterpenoid isolated from the aerial parts of N. sativa (Ranunculaceae). Flaccidoside III inhibits α-Glucosidase (IC₅₀: 256.7 μM) and has potential antioxidant and antidiabetic activities .

HY-W127487

N-Octadecanoyl-L-homoserine lactone	Biochemical Assay Reagents	Others
Quorum sensing is a regulatory system used by bacteria to control gene expression in response to increased cell density. This regulatory process manifests itself in a variety of phenotypes, including biofilm formation and virulence factor production. Coordinated gene expression is achieved through the production, release and detection of small diffusible signaling molecules called autoinducers. N-acylated homoserine lactones (AHLs) comprise a class of such autoinducers, each of which generally consists of a fatty acid coupled to a homoserine lactone (HSL). Modulation of bacterial quorum-sensing signaling systems to suppress pathogenesis represents a new approach to antimicrobial research for infectious diseases. AHLs differ in acyl length (C4-C18), C3 substitution (hydrogen, hydroxyl, or oxo group), and the presence or absence of one or more carbon-carbon double bonds in the fatty acid chain. These differences confer signaling specificity through the affinity of the LuxR family of transcriptional regulators. C18-HSL, one of four lipophilic long acyl side chain AHLs produced by the LuxI AHL synthase homolog SinI, is involved in quorum-sensing signaling in strains of Rhizobium meliloti (a nitrogen-fixing bacterial symbiont of the legume M. sativa) . C18-HSL and other hydrophobic AHLs tend to localize in the relatively lipophilic environment of bacterial cells and cannot diffuse freely across the cell membrane. Long-chain N-acyl homoserine lactones can be exported from cells by efflux pumps, or can be transported between communicating cells by extracellular outer membrane vesicles.

Cat. No.	Product Name	Type

HY-W127487

N-Octadecanoyl-L-homoserine lactone	Biochemical Assay Reagents
Quorum sensing is a regulatory system used by bacteria to control gene expression in response to increased cell density. This regulatory process manifests itself in a variety of phenotypes, including biofilm formation and virulence factor production. Coordinated gene expression is achieved through the production, release and detection of small diffusible signaling molecules called autoinducers. N-acylated homoserine lactones (AHLs) comprise a class of such autoinducers, each of which generally consists of a fatty acid coupled to a homoserine lactone (HSL). Modulation of bacterial quorum-sensing signaling systems to suppress pathogenesis represents a new approach to antimicrobial research for infectious diseases. AHLs differ in acyl length (C4-C18), C3 substitution (hydrogen, hydroxyl, or oxo group), and the presence or absence of one or more carbon-carbon double bonds in the fatty acid chain. These differences confer signaling specificity through the affinity of the LuxR family of transcriptional regulators. C18-HSL, one of four lipophilic long acyl side chain AHLs produced by the LuxI AHL synthase homolog SinI, is involved in quorum-sensing signaling in strains of Rhizobium meliloti (a nitrogen-fixing bacterial symbiont of the legume M. sativa) . C18-HSL and other hydrophobic AHLs tend to localize in the relatively lipophilic environment of bacterial cells and cannot diffuse freely across the cell membrane. Long-chain N-acyl homoserine lactones can be exported from cells by efflux pumps, or can be transported between communicating cells by extracellular outer membrane vesicles.

N-Octadecanoyl-L-homoserine lactone

Biochemical Assay Reagents

Quorum sensing is a regulatory system used by bacteria to control gene expression in response to increased cell density. This regulatory process manifests itself in a variety of phenotypes, including biofilm formation and virulence factor production. Coordinated gene expression is achieved through the production, release and detection of small diffusible signaling molecules called autoinducers. N-acylated homoserine lactones (AHLs) comprise a class of such autoinducers, each of which generally consists of a fatty acid coupled to a homoserine lactone (HSL). Modulation of bacterial quorum-sensing signaling systems to suppress pathogenesis represents a new approach to antimicrobial research for infectious diseases. AHLs differ in acyl length (C4-C18), C3 substitution (hydrogen, hydroxyl, or oxo group), and the presence or absence of one or more carbon-carbon double bonds in the fatty acid chain. These differences confer signaling specificity through the affinity of the LuxR family of transcriptional regulators. C18-HSL, one of four lipophilic long acyl side chain AHLs produced by the LuxI AHL synthase homolog SinI, is involved in quorum-sensing signaling in strains of Rhizobium meliloti (a nitrogen-fixing bacterial symbiont of the legume M. sativa) . C18-HSL and other hydrophobic AHLs tend to localize in the relatively lipophilic environment of bacterial cells and cannot diffuse freely across the cell membrane. Long-chain N-acyl homoserine lactones can be exported from cells by efflux pumps, or can be transported between communicating cells by extracellular outer membrane vesicles.

Cat. No.	Product Name	Category	Target	Chemical Structure

HY-D0803

Thymoquinone 5+ Cited Publications	Quinones Structural Classification Classification of Application Fields Nigella sativa L. Ranunculaceae Benzene Quinones Plants Inflammation/Immunology Disease Research Fields	Apoptosis VEGFR PI3K Akt
Thymoquinone is an orally active natural product isolated from N. sativa Thymoquinone down-regulates the VEGFR2-PI3K-Akt pathway. Thymoquinone has antioxidant, anti-inflammatory, anticancer, antiviral, anticonvulsant, antifungal, antiviral, antiangiogenic activity and hepatoprotective effects. Thymoquinone can be used to study Alzheimer's disease, cancer, cardiovascular disease, infectious disease and inflammation .

HY-N5099

N-Vanillyldecanamide	Monophenols Capsicum annuum L. Classification of Application Fields Source classification Phenols Metabolic Disease Plants Solanaceae Disease Research Fields	Others
N-Vanillyldecanamide, a capsaicinoid isolated from the fruits of Capsicum annuum, significantly reduced the radical length of Lactuca sativa seedling in a dose-dependent manner .

HY-N12138

Flaccidoside III	Structural Classification Polysaccharides Nigella sativa L. Source classification Ranunculaceae Plants Saccharides	Glucosidase
Flaccidoside III is a flavonoid and triterpenoid isolated from the aerial parts of N. sativa (Ranunculaceae). Flaccidoside III inhibits α-Glucosidase (IC₅₀: 256.7 μM) and has potential antioxidant and antidiabetic activities .

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N. sativa

Inhibitors & Agonists

Biochemical Assay Reagents

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