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FA2[3]G1 & FA2[6]G1 glycan (G1F) (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA-Phe-Phe is a furylacryloyl (fa)-amino acid derivative, targeting to Angiotensin-converting Enzyme (ACE). FA-Phe-Phe is also a specific substrate of CathepsinA .
FA2[3]G1 & FA2[6]G1 glycan (G1F), procainamide labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, procainamide labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]G1 & FA2[6]G1 glycan (G1F), APTS labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]G1 & FA2[6]G1 glycan (G1F), 2-AA labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]G1 & FA2[6]G1 glycan (G1F), 2-AB labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
The Anti-DCBLD2/ESDN Antibody (FA19-1) is a humanized antibody expressed in CHO cells that targets DCBLD2/ESDN. The Anti-DCBLD2/ESDN Antibody (FA19-1) contains a huIgG1 heavy chain and a huκ light chain, with a predicted molecular weight (MW) of 150 kDa. The isotype control for the Anti-DCBLD2/ESDN Antibody (FA19-1) can be referenced as Human IgG1 kappa, Isotype Control (HY-P99001).
FA-Ala-Arg is a dipeptide with furylacryloyl group. FA-Ala-Arg breaks down to produce arginine. While cell-surface Carboxypeptidase-D (CPD) also increases intracellular Arg, which is converted to nitric oxide (NO). FA-Ala-Arg enhances NO production in MCF-7 cells. FA-Ala-Arg also increases the cell survival of prolactin (PRL)-treated cells, PRL regulates CPD mRNA levels in cells .
FA2[3]BG1 & FA2[6]BG1 glycan (G1B), 2-AA labelled (FA2[3]BG1 & FA2[6]BG1 glycan N-linked oligosaccharide, 2-AA labelled; G1F with bisecting GlcNAc, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]BG1 & FA2[6]BG1 glycan (G1B), 2-AB labelled (FA2[3]BG1 & FA2[6]BG1 glycan N-linked oligosaccharide, 2-AB labelled; G1F with bisecting GlcNAc, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2 glycan (G0F) (FA2 N-linked oligosaccharide; F(6)A2 glycan) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2H Human Pre-designed siRNA Set A contains three designed siRNAs for FA2H gene (Human), as well as a negative control, a positive control, and a FAM-labeled negative control.
FA2G2S1 glycan (G2FS1) (FA2G2S1 N-linked oligosaccharide; α(2,6)/FA2G2S(6)1 glycan; F(6)A2G(4)2S(6)1 glycan) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2 glycan (G2F) (FA2G2 N-linked oligosaccharide; F(6)A2G2) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2 glycan (G0F), APTS labelled (FA2 N-linked oligosaccharide, APTS labelled; F(6)A2 glycan, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA-Gly-Leu-NH2 (FAGLA) is a dipeptide substrate for proteases that can be hydrolyzed by thermophilic proteases and neutral proteases, showing pH-dependent variations in kcat/Km .
FA2G2S1 glycan (G2FS1), APTS labelled (FA2G2S1 N-linked oligosaccharide, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1), procainamide labelled (FA2G2S1 N-linked oligosaccharide, procainamide labelled; α(2,6)/FA2G2S(6)1 glycan, procainamide labelled; F(6)A2G(4)2S(6)1 glycan, procainamide labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA-PEG-COOH (MW 1000) (Folate-PEG-COOH (MW 1000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 400) (Folate-PEG-COOH (MW 400)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 2000) (Folate-PEG-COOH (MW 2000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 3400) (Folate-PEG-COOH (MW 3400)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 600) (Folate-PEG-COOH (MW 600)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 5000) (Folate-PEG-COOH (MW 5000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 10000) (Folate-PEG-COOH (MW 10000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA2 glycan (G0F), 2-AA labelled (FA2 N-linked oligosaccharide, 2-AA labelled; F(6)A2 glycan, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2 glycan (G0F), 2-AB labelled (FA2 N-linked oligosaccharide, 2-AB labelled; F(6)A2 glycan, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1), 2-AB labelled (FA2G2S1 N-linked oligosaccharide, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1), 2-AA labelled (FA2G2S1 N-linked oligosaccharide, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2 glycan (G2F), APTS labelled (FA2G2 N-linked oligosaccharide, APTS labelled; F(6)A2G2, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2B glycan (G0B), 2-AA labelled (FA2B N-linked oligosaccharide, 2-AA labelled; G0F with bisecting GlcNAc, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2 glycan (G2F), 2-AB labelled (FA2G2 N-linked oligosaccharide, 2-AB labelled; F(6)A2G2, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2) (FA2G2S2 N-linked oligosaccharide; F(6)A2G(4)2S(6)2 glycan) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2), APTS labelled (FA2G2S2 N-linked oligosaccharide, APTS labelled; F(6)A2G(4)2S(6)2 glycan, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2), 2-AB labelled (FA2G2S2 N-linked oligosaccharide, 2-AB labelled; F(6)A2G(4)2S(6)2 glycan, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2), 2-AA labelled (FA2G2S2 N-linked oligosaccharide, 2-AA labelled; F(6)A2G(4)2S(6)2 glycan, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
10-Methyl lauric acid (10-Methyl dodecanoic acid) is a alkyl-substituted fatty acid. 10-Methyl lauric acid can be found in the Gram-positive bacteria B. acetylicum, as well as the mandibular gland secretions of carpenter ant species .
FANCA Human Pre-designed siRNA Set A contains three designed siRNAs for FANCA gene (Human), as well as a negative control, a positive control, and a FAM-labeled negative control.
Z-FA-FMK ((1S)-Z-FA-FMK) is a potent Cathepsin B and L inhibitor. Z-FA-FMK blocks the induction of DEVDase activity, DNA fragmentation, and externalization of phosphatidylserine by selective synthetic retinoid-related molecules (RRMs). Z-FA-FMK inhibits apoptosis. Z-FA-FMK inhibits caspase activity and selectively inhibits recombinant effector caspases 2, -3, -6, and -7. Z-FA-FMK is a viral inhibitor. Z-FA-FMK inhibits reovirus replication in a susceptible host .
Notoginsenoside Fa (Standard) is the analytical standard of Notoginsenoside Fa. This product is intended for research and analytical applications. Notoginsenoside Fa, a protopanaxadiol (ppd)-type saponin isolated from P. notoginseng, could possibly activate and recover the function of degenerated brain .
RB-PEG-FA (MW 2000) (Rhodamine B-PEG-FA (MW 2000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 2000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 10000) (Rhodamine B-PEG-FA (MW 10000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 10000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 5000) (Rhodamine B-PEG-FA (MW 5000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 5000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 600) (Rhodamine B-PEG-FA (MW 600)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 600) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 1000) (Rhodamine B-PEG-FA (MW 1000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 1000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 400) (Rhodamine B-PEG-FA (MW 400)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 400) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 3400) (Rhodamine B-PEG-FA (MW 3400)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 3400) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
(Rac)-Z-FA-FMK is the racemate of Z-FA-FMK. (Rac)-Z-FA-FMK is an inhibitor of cathepsin B with a Ki of 1.5 μM. (Rac)-Z-FA-FMK inhibits caspase-2, -3, -6, -7, and -9 with IC50s of 6.147, 15.41, 32.45, 9.077, and 110.7 μM. (Rac)-Z-FA-FMK inhibits the main protease of SARS-CoV-2 replication with an IC50 of 11.39 μM. (Rac)-Z-FA-FMK inhibits the increased IL-1β level induced by LPS and NF-κB transactivation in macrophages .
WU-FA-01, a hydrogenated derivative of WU-FA-00, is an antibacterial agent that exhibits high levels of antibacterial activity against Gram-positive strains and also has some anti-inflammatory activity .
ICG PEG FA (MW 5000) is a fluorescently labeled biomolecule containing Indocyanine green (ICG) (HY-D0711) fluorescent dye, polyethylene glycol (PEG) and Folic acid (FA) (HY-16637). ICG PEG FA (MW 5000) is widely used in drug delivery and biomaterial labeling (Ex/Em = 785/813 nm).
ICG PEG FA (MW 2000) is a fluorescently labeled biomolecule containing Indocyanine green (ICG) (HY-D0711) fluorescent dye, polyethylene glycol (PEG) and Folic acid (FA) (HY-16637). ICG PEG FA (MW 2000) is widely used in drug delivery and biomaterial labeling (Ex/Em = 785/813 nm).
FITC-PEG-FA (MW 3400) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 3400) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 10000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 10000) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 2000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 2000) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 400) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 400) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 5000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 5000) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 1000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 1000) can be used for fluorescent labeling and imaging .
Notoginsenoside Fa, a protopanaxadiol (ppd)-type saponin isolated from P. notoginseng, could possibly activate and recover the function of degenerated brain .
(S,S)-Z-FA-FMK is a cell-permeable, irreversible cathepsin B inhibitor. (S,S)-Z-FA-FMK blocks LPS-induced production of IL-1α and IL-1β. (S,S)-Z-FA-FMK can be used as a negative control for caspase-1 and caspase-2 inhibitors because it lacks an aspartic acid residue at the P1 position .
Tedizolid (phosphate) (Standard) is the analytical standard of Tedizolid (phosphate). This product is intended for research and analytical applications. Tedizolid phosphate (TR-701FA) is a MAO-A and MAO-B inhibitor with activity against Gram-positive bacteria[1].
Cy3-PEG-FA (MW 2000) is a fluorescent folate-PEG derivative with excitation/emission wavelengths of ~550 nm/~570 nm. Cy3-PEG-FA (MW 2000) can be readily traced by its intense red fluorescent signal. Cy3-PEG-FA (MW 2000) can be used for cell imaging, folate receptor targeting and detection.
DBCO-PEG-FA (MW 3400) (DBCO-PEG-Folate (MW 3400)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 3400) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 10000) (DBCO-PEG-Folate (MW 10000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 10000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 1000) (DBCO-PEG-Folate (MW 1000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 1000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 2000) (DBCO-PEG-Folate (MW 2000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 2000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 5000) (DBCO-PEG-Folate (MW 5000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 5000) can be used in a variety of bioconjugation and drug delivery .
Cy5-PEG-FA (MW 2000) is a fluorescently labeled biomolecule consisting of Cy5 (HY-D0821) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5 is approximately 670 nm.
Cy5-PEG-FA (MW 5000) is a fluorescently labeled biomolecule consisting of Cy5 (HY-D0821) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5 is approximately 670 nm.
Cy3-PEG-FA (MW 5000) is a fluorescently labeled biomolecule consisting of Cy3 (HY-D0822) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy3 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy3 is approximately 562-570 nm.
Cy5.5-PEG-FA (MW 2000) is a fluorescently labeled biomolecule consisting of Cy5.5 (HY-D0924) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5.5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5.5 is approximately 710 nm.
Cy5.5-PEG-FA (MW 5000) is a fluorescently labeled biomolecule consisting of Cy5.5 (HY-D0924) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5.5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5.5 is approximately 710 nm.
Lissamine rhodamine B is a red-fluorescent dye, it is a derivative of rhodamine. Lissamine rhodamine B can be used as a fluorescent probe to develop competitive aptamer fluorescence anisotropy/polarization (FA/FP) assays .
BOC-NH-PEG-FA (MW 3400) (BOC-NH-PEG-Folate (MW 3400)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 5000) (BOC-NH-PEG-Folate (MW 5000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 2000) (BOC-NH-PEG-Folate (MW 2000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 1000) (BOC-NH-PEG-Folate (MW 1000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 400) (BOC-NH-PEG-Folate (MW 400)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 10000) (BOC-NH-PEG-Folate (MW 10000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 600) (BOC-NH-PEG-Folate (MW 600)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
mPEG-FA (MW 1000) (mPEG-Folate (MW 1000)) is a polyethylene glycol derivative of Folic acid (HY-16637). Folic acid has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
mPEG-FA (MW 5000) (mPEG-Folate (MW 5000)) is a polyethylene glycol derivative of Folic acid (HY-16637). Folic acid has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
mPEG-FA (MW 2000) (mPEG-Folate (MW 2000)) is a polyethylene glycol derivative of Folic acid (HY-16637). Folic acid has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 5000) (6-Arm-PEG-Folate (MW 5000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 1000) (6-Arm-PEG-Folate (MW 1000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 3400) (6-Arm-PEG-Folate (MW 3400)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 600) (6-Arm-PEG-Folate (MW 600)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 2000) (6-Arm-PEG-Folate (MW 2000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 400) (6-Arm-PEG-Folate (MW 400)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 10000) (6-Arm-PEG-Folate (MW 10000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
GPEP FA2-KVANKT glycopeptide (F(3)A2 glycan-KVANKT & F(6)A2 glycan-KVANKT) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
4-Arm-PEG-FA (MW 5000) (4-Arm-PEG-folate (MW 5000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 400) (8-Arm-PEG-folate (MW 400)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 10000) (4-Arm-PEG-folate (MW 10000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 2000) (8-Arm-PEG-folate (MW 2000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 400) (4-Arm-PEG-folate (MW 400)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 600) (4-Arm-PEG-folate (MW 600)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 5000) (8-Arm-PEG-folate (MW 5000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 600) (8-Arm-PEG-folate (MW 600)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 2000) (4-Arm-PEG-folate (MW 2000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 10000) (8-Arm-PEG-folate (MW 10000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 3400) (8-Arm-PEG-folate (MW 3400)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 1000) (8-Arm-PEG-folate (MW 1000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 1000) (4-Arm-PEG-folate (MW 1000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 3400) (4-Arm-PEG-folate (MW 3400)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
Lepr Rat Pre-designed siRNA Set A contains three designed siRNAs for Lepr gene (Rat), as well as a negative control, a positive control, and a FAM-labeled negative control.
A17 is a bile acid analog with anti-non-alcoholic steatohepatitis (NASH) and anti-inflammatory activities. A17 reduces fatty acid (FA) uptake and promotes FA oxidation though inhibiting fatty acid translocase (Cd36) expression and activating AMPKα. A17 can be used for NASH research .
Eicosapentaenoic acid 1,2,3,4,5- 13C5 (EPA 1,2,3,4,5- 13C, FA 20:5- 13C5) is 13C labeled Eicosapentaenoic Acid. Eicosapentaenoic Acid (EPA) is an orally active Omega-3 long-chain polyunsaturated fatty acid (ω-3 LC-PUFA). Eicosapentaenoic Acid exhibits a DNA demethylating action that promotes the re-expression of the tumor suppressor gene CCAAT/enhancer-binding protein δ (C/EBPδ). Eicosapentaenoic Acid activates RAS/ERK/C/EBPβ pathway through H-Ras intron 1 CpG island demethylation in U937 leukemia cells. Eicosapentaenoic Acid can promote relaxation of vascular smooth muscle cells and vasodilation .
Bovinic acid sodium is a fatty acid (FA) extracted from the Indonesian coix seed (C. lacryma-jobi) variety Agrotis. Bovinic acid sodium is an insecticide with inhibitory activity against Leptinotarsa ??decemlineata .
Fxn Mouse Pre-designed siRNA Set A contains three designed siRNAs for Fxn gene (Mouse), as well as a negative control, a positive control, and a FAM-labeled negative control.
Very long chain polyunsaturated fatty acids (VLCPUFA) are present in retina, sperm, and brain. Though little is known of their biosynthesis or functional roles in these tissues, recent studies using the elongation of very long-chain FA-4 protein suggest a unique role for VLCPUFA in retinal development and macular degeneration. Dotriaconta-14,17,20,23,26,29-hexaenoic acid is a C32:6 VLCPUFA whose specific biological actions are largely unknown, but are thought to involve normal photoreceptor cell function in the retina.
ω-azido-C6 Ceramide reduces the membrane potential, and exhibits antibacterial activity against Neisseria, with MIC of 2 µg/ml for N. meningitidis MC58 and N. gonorrhoeaeFA1090 .
FXN Human Pre-designed siRNA Set A contains three designed siRNAs for FXN gene (Human), as well as a negative control, a positive control, and a FAM-labeled negative control.
Heptadecanoic acid-d33 is the deuterium labeled Heptadecanoic acid. Heptadecanoic acid is an odd chain saturated fatty acid (OCS-FA). Heptadecanoic acid is associated with several diseases, including the incidence of coronary heart disease, prediabetes and type 2 diabetes as well as multiple sclerosis .
Heptadecanoic acid-d3 is the deuterium labeled Heptadecanoic acid. Heptadecanoic acid is an odd chain saturated fatty acid (OCS-FA). Heptadecanoic acid is associated with several diseases, including the incidence of coronary heart disease, prediabetes and type 2 diabetes as well as multiple sclerosis .
Peroxisome proliferator-activated receptors (PPARs) play an important role in regulating lipid and glucose metabolism, and oleoylethanolamide (OEA) is a natural ligand for PPARα. N-Octadecyl-N'-propyl-sulfamide is an analog of OEA and a potent activator of PPARα, with selective binding affinity for PPARα (EC50=100 nM, compared to 120 nM for OEA). N-Octadecyl-N'-propyl-sulfamide (10 mg/kg; ip) inhibits food intake and reduces body weight gain in rats. At a dose of 1 mg/kg, N-Octadecyl-N'-propyl-sulfamide induces satiety, thereby reducing food intake, body weight, and plasma triglyceride concentrations in free-feeding Wistar rats and obese Zucker (fa/fa) rats.
Heptadecanoic acid is an odd-chain saturated fatty acid (OCS-FA) with oral activity. Heptadecanoic acid can inhibit cell proliferation and induce Apoptosis. Heptadecanoic acid has antitumor activity. Heptadecanoic acid is associated with a number of diseases, including coronary heart disease, pre-diabetes and type 2 diabetes, and multiple sclerosis .
Dotriaconta-14,17,20,23,26,29-hexaenoic acid-d6 is deuterium labeled Dotriaconta-14,17,20,23,26,29-hexaenoic acid. Very long chain polyunsaturated fatty acids (VLCPUFA) are present in retina, sperm, and brain. Though little is known of their biosynthesis or functional roles in these tissues, recent studies using the elongation of very long-chain FA-4 protein suggest a unique role for VLCPUFA in retinal development and macular degeneration. Dotriaconta-14,17,20,23,26,29-hexaenoic acid is a C32:6 VLCPUFA whose specific biological actions are largely unknown, but are thought to involve normal photoreceptor cell function in the retina .
Heptadecanoic acid (Standard) is the analytical standard of Heptadecanoic acid. This product is intended for research and analytical applications. Heptadecanoic acid is an odd-chain saturated fatty acid (OCS-FA) with oral activity. Heptadecanoic acid can inhibit cell proliferation and induce Apoptosis. Heptadecanoic acid has antitumor activity. Heptadecanoic acid is associated with a number of diseases, including coronary heart disease, pre-diabetes and type 2 diabetes, and multiple sclerosis[1].
12,13-DiHOME is a stimulator of Brown adipose tissue (BAT), as well as a thermogenic lipokine that activates BAT in response to cold. (±)12,13-DiHOME activates BAT fuel uptake and enhances cold tolerance, via promoting the translocation of the FA transporters FATP1 and CD36 to the cell membrane. (±)12,13-DiHOME can be used for research of metabolic disorders .
Paclitaxel octadecanedioate (compound PTX-FA18) is comprised of Paclitaxel (HY-B0015) conjugated to 1,18-octadecanedioic acid (HY-W005178). Paclitaxel octadecanedioate mixed with human serum albumin (HAS) is cytotoxic to HT-1080, PANC-1, HT-29 and Hela cells (IC50s = 12, 2.48, 8.62, and 64.42 nM, respectively) .
RB-PEG-FA (MW 2000) (Rhodamine B-PEG-FA (MW 2000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 2000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 10000) (Rhodamine B-PEG-FA (MW 10000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 10000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 5000) (Rhodamine B-PEG-FA (MW 5000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 5000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 600) (Rhodamine B-PEG-FA (MW 600)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 600) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 1000) (Rhodamine B-PEG-FA (MW 1000)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 1000) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 400) (Rhodamine B-PEG-FA (MW 400)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 400) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
RB-PEG-FA (MW 3400) (Rhodamine B-PEG-FA (MW 3400)) is a fluorescent dye composed of Rhodamine B (HY-Y0016), PEG and Folic acid (FA) (HY-16637). RB-PEG-FA (MW 3400) can be used for cell imaging, folate receptor targeting and detection (Ex/Em = 546/610 nm) .
ICG PEG FA (MW 5000) is a fluorescently labeled biomolecule containing Indocyanine green (ICG) (HY-D0711) fluorescent dye, polyethylene glycol (PEG) and Folic acid (FA) (HY-16637). ICG PEG FA (MW 5000) is widely used in drug delivery and biomaterial labeling (Ex/Em = 785/813 nm).
ICG PEG FA (MW 2000) is a fluorescently labeled biomolecule containing Indocyanine green (ICG) (HY-D0711) fluorescent dye, polyethylene glycol (PEG) and Folic acid (FA) (HY-16637). ICG PEG FA (MW 2000) is widely used in drug delivery and biomaterial labeling (Ex/Em = 785/813 nm).
FITC-PEG-FA (MW 3400) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 3400) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 10000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 10000) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 2000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 2000) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 400) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 400) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 5000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 5000) can be used for fluorescent labeling and imaging .
FITC-PEG-FA (MW 1000) is a fluorescent dye composed of Folic acid (HY-16637) (FA), polyethylene glycol (PEG) and FITC (HY-66019). Fluorescent dye is linked to PEG and Folic acid through a specific chemical reaction to form a molecule with special properties. FITC-PEG-FA (MW 1000) can be used for fluorescent labeling and imaging .
Cy3-PEG-FA (MW 2000) is a fluorescent folate-PEG derivative with excitation/emission wavelengths of ~550 nm/~570 nm. Cy3-PEG-FA (MW 2000) can be readily traced by its intense red fluorescent signal. Cy3-PEG-FA (MW 2000) can be used for cell imaging, folate receptor targeting and detection.
Cy5-PEG-FA (MW 2000) is a fluorescently labeled biomolecule consisting of Cy5 (HY-D0821) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5 is approximately 670 nm.
Cy5-PEG-FA (MW 5000) is a fluorescently labeled biomolecule consisting of Cy5 (HY-D0821) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5 is approximately 670 nm.
Cy3-PEG-FA (MW 5000) is a fluorescently labeled biomolecule consisting of Cy3 (HY-D0822) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy3 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy3 is approximately 562-570 nm.
Cy5.5-PEG-FA (MW 2000) is a fluorescently labeled biomolecule consisting of Cy5.5 (HY-D0924) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5.5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5.5 is approximately 710 nm.
Cy5.5-PEG-FA (MW 5000) is a fluorescently labeled biomolecule consisting of Cy5.5 (HY-D0924) fluorescent dye, polyethylene glycol (PEG), and Folic acid (FA) (HY-16637). Cy5.5 is commonly used in applications such as immunolabeling and nucleic acid labeling. The maximum emission wavelength of Cy5.5 is approximately 710 nm.
FA2[3]G1 & FA2[6]G1 glycan (G1F) (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]G1 & FA2[6]G1 glycan (G1F), procainamide labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, procainamide labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]G1 & FA2[6]G1 glycan (G1F), APTS labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]G1 & FA2[6]G1 glycan (G1F), 2-AA labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]G1 & FA2[6]G1 glycan (G1F), 2-AB labelled (FA2[3]G1 & FA2[6]G1 N-linked oligosaccharide, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]BG1 & FA2[6]BG1 glycan (G1B), 2-AA labelled (FA2[3]BG1 & FA2[6]BG1 glycan N-linked oligosaccharide, 2-AA labelled; G1F with bisecting GlcNAc, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2[3]BG1 & FA2[6]BG1 glycan (G1B), 2-AB labelled (FA2[3]BG1 & FA2[6]BG1 glycan N-linked oligosaccharide, 2-AB labelled; G1F with bisecting GlcNAc, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2 glycan (G0F) (FA2 N-linked oligosaccharide; F(6)A2 glycan) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1) (FA2G2S1 N-linked oligosaccharide; α(2,6)/FA2G2S(6)1 glycan; F(6)A2G(4)2S(6)1 glycan) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2 glycan (G2F) (FA2G2 N-linked oligosaccharide; F(6)A2G2) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2 glycan (G0F), APTS labelled (FA2 N-linked oligosaccharide, APTS labelled; F(6)A2 glycan, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1), APTS labelled (FA2G2S1 N-linked oligosaccharide, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1), procainamide labelled (FA2G2S1 N-linked oligosaccharide, procainamide labelled; α(2,6)/FA2G2S(6)1 glycan, procainamide labelled; F(6)A2G(4)2S(6)1 glycan, procainamide labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA-PEG-COOH (MW 1000) (Folate-PEG-COOH (MW 1000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 400) (Folate-PEG-COOH (MW 400)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 2000) (Folate-PEG-COOH (MW 2000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 3400) (Folate-PEG-COOH (MW 3400)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 600) (Folate-PEG-COOH (MW 600)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 5000) (Folate-PEG-COOH (MW 5000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA-PEG-COOH (MW 10000) (Folate-PEG-COOH (MW 10000)) is a Folic acid (HY-16637)-modified PEG derivative containing a carboxyl group (-COOH). The carboxyl group can easily form a stable amide bond with an amino group, or an ester bond with a hydroxyl group. Folic acid (-FA) has a high affinity for the folate receptor and can be used to target cell membrane receptors for drug delivery .
FA2 glycan (G0F), 2-AA labelled (FA2 N-linked oligosaccharide, 2-AA labelled; F(6)A2 glycan, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2 glycan (G0F), 2-AB labelled (FA2 N-linked oligosaccharide, 2-AB labelled; F(6)A2 glycan, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1), 2-AB labelled (FA2G2S1 N-linked oligosaccharide, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S1 glycan (G2FS1), 2-AA labelled (FA2G2S1 N-linked oligosaccharide, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2 glycan (G2F), APTS labelled (FA2G2 N-linked oligosaccharide, APTS labelled; F(6)A2G2, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2B glycan (G0B), 2-AA labelled (FA2B N-linked oligosaccharide, 2-AA labelled; G0F with bisecting GlcNAc, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2B glycan (G0B), 2-AB labelled (FA2B N-linked oligosaccharide, 2-AB labelled; G0F with bisecting GlcNAc, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2 glycan (G2F), 2-AA labelled (FA2G2 N-linked oligosaccharide, 2-AA labelled; F(6)A2G2, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2 glycan (G2F), 2-AB labelled (FA2G2 N-linked oligosaccharide, 2-AB labelled; F(6)A2G2, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2) (FA2G2S2 N-linked oligosaccharide; F(6)A2G(4)2S(6)2 glycan) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2), APTS labelled (FA2G2S2 N-linked oligosaccharide, APTS labelled; F(6)A2G(4)2S(6)2 glycan, APTS labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2), 2-AB labelled (FA2G2S2 N-linked oligosaccharide, 2-AB labelled; F(6)A2G(4)2S(6)2 glycan, 2-AB labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
FA2G2S2 glycan (G2FS2), 2-AA labelled (FA2G2S2 N-linked oligosaccharide, 2-AA labelled; F(6)A2G(4)2S(6)2 glycan, 2-AA labelled) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
DBCO-PEG-FA (MW 3400) (DBCO-PEG-Folate (MW 3400)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 3400) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 10000) (DBCO-PEG-Folate (MW 10000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 10000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 1000) (DBCO-PEG-Folate (MW 1000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 1000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 2000) (DBCO-PEG-Folate (MW 2000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 2000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 5000) (DBCO-PEG-Folate (MW 5000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 5000) can be used in a variety of bioconjugation and drug delivery .
BOC-NH-PEG-FA (MW 3400) (BOC-NH-PEG-Folate (MW 3400)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 5000) (BOC-NH-PEG-Folate (MW 5000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 2000) (BOC-NH-PEG-Folate (MW 2000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 1000) (BOC-NH-PEG-Folate (MW 1000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 400) (BOC-NH-PEG-Folate (MW 400)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 10000) (BOC-NH-PEG-Folate (MW 10000)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
BOC-NH-PEG-FA (MW 600) (BOC-NH-PEG-Folate (MW 600)) is a PEG derivative modified with Folic acid (HY-16637). Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
mPEG-FA (MW 1000) (mPEG-Folate (MW 1000)) is a polyethylene glycol derivative of Folic acid (HY-16637). Folic acid has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
mPEG-FA (MW 5000) (mPEG-Folate (MW 5000)) is a polyethylene glycol derivative of Folic acid (HY-16637). Folic acid has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
mPEG-FA (MW 2000) (mPEG-Folate (MW 2000)) is a polyethylene glycol derivative of Folic acid (HY-16637). Folic acid has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 5000) (6-Arm-PEG-Folate (MW 5000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 1000) (6-Arm-PEG-Folate (MW 1000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 3400) (6-Arm-PEG-Folate (MW 3400)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 600) (6-Arm-PEG-Folate (MW 600)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 2000) (6-Arm-PEG-Folate (MW 2000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 400) (6-Arm-PEG-Folate (MW 400)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
6-Arm-PEG-FA (MW 10000) (6-Arm-PEG-Folate (MW 10000)) is a PEG derivative modified with Folic acid (HY-16637). Polyethylene glycol can increase solubility and stability and reduce the immunogenicity of peptides and proteins. It can also inhibit the nonspecific binding of charged molecules to modified surfaces. Folic acid (-FA) has a high affinity for folate receptors and can be used for cell membrane receptors for targeted drug delivery .
GPEP FA2-KVANKT glycopeptide (F(3)A2 glycan-KVANKT & F(6)A2 glycan-KVANKT) is a N-polysaccharide protein and a multifunctional fluorescent linker. The resulting conjugates exhibit high sensitivity and specificity by mimicking the antennal elements of N-glycans .
4-Arm-PEG-FA (MW 5000) (4-Arm-PEG-folate (MW 5000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 400) (8-Arm-PEG-folate (MW 400)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 10000) (4-Arm-PEG-folate (MW 10000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 400) (4-Arm-PEG-folate (MW 400)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 600) (4-Arm-PEG-folate (MW 600)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 5000) (8-Arm-PEG-folate (MW 5000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 2000) (4-Arm-PEG-folate (MW 2000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
8-Arm-PEG-FA (MW 10000) (8-Arm-PEG-folate (MW 10000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 1000) (4-Arm-PEG-folate (MW 1000)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
4-Arm-PEG-FA (MW 3400) (4-Arm-PEG-folate (MW 3400)) is a PEG derivative with one Folic acid (HY-16637) molecule attached to each end of the PEG chain. Folic acid has a high affinity for folate receptors and can be used for targeted drug delivery to cell membrane receptors .
FA-Phe-Phe is a furylacryloyl (fa)-amino acid derivative, targeting to Angiotensin-converting Enzyme (ACE). FA-Phe-Phe is also a specific substrate of CathepsinA .
FA-Ala-Arg is a dipeptide with furylacryloyl group. FA-Ala-Arg breaks down to produce arginine. While cell-surface Carboxypeptidase-D (CPD) also increases intracellular Arg, which is converted to nitric oxide (NO). FA-Ala-Arg enhances NO production in MCF-7 cells. FA-Ala-Arg also increases the cell survival of prolactin (PRL)-treated cells, PRL regulates CPD mRNA levels in cells .
FA-Gly-Phe-Leu 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 .
FA-Phe-Ala-OH 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 .
(S,S)-Z-FA-FMK is a cell-permeable, irreversible cathepsin B inhibitor. (S,S)-Z-FA-FMK blocks LPS-induced production of IL-1α and IL-1β. (S,S)-Z-FA-FMK can be used as a negative control for caspase-1 and caspase-2 inhibitors because it lacks an aspartic acid residue at the P1 position .
The Anti-DCBLD2/ESDN Antibody (FA19-1) is a humanized antibody expressed in CHO cells that targets DCBLD2/ESDN. The Anti-DCBLD2/ESDN Antibody (FA19-1) contains a huIgG1 heavy chain and a huκ light chain, with a predicted molecular weight (MW) of 150 kDa. The isotype control for the Anti-DCBLD2/ESDN Antibody (FA19-1) can be referenced as Human IgG1 kappa, Isotype Control (HY-P99001).
Notoginsenoside Fa, a protopanaxadiol (ppd)-type saponin isolated from P. notoginseng, could possibly activate and recover the function of degenerated brain .
Heptadecanoic acid is an odd-chain saturated fatty acid (OCS-FA) with oral activity. Heptadecanoic acid can inhibit cell proliferation and induce Apoptosis. Heptadecanoic acid has antitumor activity. Heptadecanoic acid is associated with a number of diseases, including coronary heart disease, pre-diabetes and type 2 diabetes, and multiple sclerosis .
Heptadecanoic acid (Standard) is the analytical standard of Heptadecanoic acid. This product is intended for research and analytical applications. Heptadecanoic acid is an odd-chain saturated fatty acid (OCS-FA) with oral activity. Heptadecanoic acid can inhibit cell proliferation and induce Apoptosis. Heptadecanoic acid has antitumor activity. Heptadecanoic acid is associated with a number of diseases, including coronary heart disease, pre-diabetes and type 2 diabetes, and multiple sclerosis[1].
12,13-DiHOME is a stimulator of Brown adipose tissue (BAT), as well as a thermogenic lipokine that activates BAT in response to cold. (±)12,13-DiHOME activates BAT fuel uptake and enhances cold tolerance, via promoting the translocation of the FA transporters FATP1 and CD36 to the cell membrane. (±)12,13-DiHOME can be used for research of metabolic disorders .
Notoginsenoside Fa (Standard) is the analytical standard of Notoginsenoside Fa. This product is intended for research and analytical applications. Notoginsenoside Fa, a protopanaxadiol (ppd)-type saponin isolated from P. notoginseng, could possibly activate and recover the function of degenerated brain .
bA80I15.1; FA3; FAC; FACC; FANCC; FANCC_HUMAN; FAnconi anemia complementation group C; FAnconi anemia complementation group C protein; FAnconi anemia group C protein; FAnconi pancytopenia type 3; FLJ14675; Protein FACC
FANCC Protein repairs and maintains DNA, aids in STAT1 activation, and forms a multisubunit FA complex. It interacts with ZBTB32, STAT1, CDK1, and EIF2AK2. The FA complex excludes FA patients and may include HSP70, while interaction with EIF2AK2 leads to increased activation and cell death. FANCC Protein, Human (His-SUMO) is the recombinant human-derived FANCC protein, expressed by E. coli , with N-6*His, N-SUMO labeled tag.
The DLK-1 protein has been implicated in neuroendocrine differentiation, suggesting a role in the complex processes that control neuroendocrine cell development and specialization. As a monomer, the single molecular form of DLK-1 helps carry out its biological activity. DLK-1 Protein, Human (HEK293, His) is the recombinant human-derived DLK-1 protein, expressed by HEK293 , with C-His labeled tag.
DLK-1 Protein is implicated in neuroendocrine differentiation, signifying its role in cellular specialization. It acts as an inhibitor of adipocyte differentiation, regulating adipogenesis. Structurally, DLK-1 exists as a monomer, defining its molecular composition in these processes. Interactions with SH3RF2 underscore its engagement with cellular components and potential regulatory pathways. DLK-1 Protein, Mouse (HEK293, His) is the recombinant mouse-derived DLK-1 protein, expressed by HEK293 , with C-His labeled tag.
Frataxin/FXN protein activates the core iron-sulfur cluster assembly complex and accelerates sulfur transfer for [2Fe-2S] cluster assembly. It plays a key role in the de novo synthesis of clusters, delivering persulfide to the ISCU. Frataxin/FXN Protein, Human (His, Myc) is the recombinant human-derived Frataxin/FXN protein, expressed by E. coli , with C-Myc, N-10*His labeled tag.
EEF1A1 is a translation elongation factor that catalyzes GTP-dependent binding of aminoacyl-tRNA (aa-tRNA) to the ribosomal A site during protein synthesis. This involves mRNA codon-aa-tRNA anticodon base pairing, leading to GTP hydrolysis and aa-tRNA release in EEF1A1. EEF1A1 Protein, Human (His-SUMO) is the recombinant human-derived EEF1A1 protein, expressed by E. coli , with N-6*His, N-SUMO labeled tag.
FANCA/FANCC proteins repair DNA and maintain chromosomal stability. FACA/FANCA Protein, Human (sf9, His) is the recombinant human-derived FACA/FANCA protein, expressed by Sf9 insect cells , with N-His labeled tag.
DLK-1, also known as pre adipokine, is a transmembrane-secreted protein with an epidermal growth factor (EGF) -like repeat sequence. DLK-1 regulates the growth of pioneer axons by controlling Wnt signaling. DLK-1 is a cell surface protein expressed in many cancers, including hepatocellular carcinoma, and maybe a potential target for monoclonal antibodies to treat cancer. DLK-1 Protein, Cynomolgus (HEK293, His) is the recombinant cynomolgus-derived DLK-1 protein, expressed by HEK293 , with C-His labeled tag.
The DLK-1 protein has been implicated in neuroendocrine differentiation, suggesting a role in the complex processes that control neuroendocrine cell development and specialization. As a monomer, the single molecular form of DLK-1 helps carry out its biological activity. DLK-1 Protein, Human (HEK293, hFc) is the recombinant human-derived DLK-1 protein, expressed by HEK293 , with C-hFc labeled tag.
Heptadecanoic acid-d33 is the deuterium labeled Heptadecanoic acid. Heptadecanoic acid is an odd chain saturated fatty acid (OCS-FA). Heptadecanoic acid is associated with several diseases, including the incidence of coronary heart disease, prediabetes and type 2 diabetes as well as multiple sclerosis .
Heptadecanoic acid-d3 is the deuterium labeled Heptadecanoic acid. Heptadecanoic acid is an odd chain saturated fatty acid (OCS-FA). Heptadecanoic acid is associated with several diseases, including the incidence of coronary heart disease, prediabetes and type 2 diabetes as well as multiple sclerosis .
Eicosapentaenoic acid 1,2,3,4,5- 13C5 (EPA 1,2,3,4,5- 13C, FA 20:5- 13C5) is 13C labeled Eicosapentaenoic Acid. Eicosapentaenoic Acid (EPA) is an orally active Omega-3 long-chain polyunsaturated fatty acid (ω-3 LC-PUFA). Eicosapentaenoic Acid exhibits a DNA demethylating action that promotes the re-expression of the tumor suppressor gene CCAAT/enhancer-binding protein δ (C/EBPδ). Eicosapentaenoic Acid activates RAS/ERK/C/EBPβ pathway through H-Ras intron 1 CpG island demethylation in U937 leukemia cells. Eicosapentaenoic Acid can promote relaxation of vascular smooth muscle cells and vasodilation .
Dotriaconta-14,17,20,23,26,29-hexaenoic acid-d6 is deuterium labeled Dotriaconta-14,17,20,23,26,29-hexaenoic acid. Very long chain polyunsaturated fatty acids (VLCPUFA) are present in retina, sperm, and brain. Though little is known of their biosynthesis or functional roles in these tissues, recent studies using the elongation of very long-chain FA-4 protein suggest a unique role for VLCPUFA in retinal development and macular degeneration. Dotriaconta-14,17,20,23,26,29-hexaenoic acid is a C32:6 VLCPUFA whose specific biological actions are largely unknown, but are thought to involve normal photoreceptor cell function in the retina .
DBCO-PEG-FA (MW 3400) (DBCO-PEG-Folate (MW 3400)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 3400) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 10000) (DBCO-PEG-Folate (MW 10000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 10000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 1000) (DBCO-PEG-Folate (MW 1000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 1000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 2000) (DBCO-PEG-Folate (MW 2000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 2000) can be used in a variety of bioconjugation and drug delivery .
DBCO-PEG-FA (MW 5000) (DBCO-PEG-Folate (MW 5000)) is a copolymer that uses PEG as a bridge to connect dibenzocyclooctyne (DBCO) and Folic acid (FA) (HY-16637). DBCO-PEG-FA (MW 5000) can be used in a variety of bioconjugation and drug delivery .
FA2H Human Pre-designed siRNA Set A contains three designed siRNAs for FA2H gene (Human), as well as a negative control, a positive control, and a FAM-labeled negative control.
FANCA Human Pre-designed siRNA Set A contains three designed siRNAs for FANCA gene (Human), as well as a negative control, a positive control, and a FAM-labeled negative control.
Lepr Rat Pre-designed siRNA Set A contains three designed siRNAs for Lepr gene (Rat), as well as a negative control, a positive control, and a FAM-labeled negative control.
Fxn Mouse Pre-designed siRNA Set A contains three designed siRNAs for Fxn gene (Mouse), as well as a negative control, a positive control, and a FAM-labeled negative control.
FXN Human Pre-designed siRNA Set A contains three designed siRNAs for FXN gene (Human), as well as a negative control, a positive control, and a FAM-labeled negative control.
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