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Ioversol (MP-328) is a nonionic iodinated contrast medium (CM) that is used during a CT scan or x-ray in animal experiment. Ioversol does not damage the blood-brain barrier (BBB) in animal .
Flobetapir (AV-45) may be a well-tolerated imaging agent. Flobetapir synthesizes Florbetapir (18F) that is a PET scanning radiopharmaceutical compound containing the radionuclide fluorine-18 .
2-Deoxy-2-fluoro-D-glucose, a radiolabeled glucose analog, is commonly used in medical imaging techniques such as positron emission tomography (PET) scans. FDG has unique chemical properties that allow it to be taken up by cells that actively metabolize glucose, such as cancer cells or inflamed tissue. Once absorbed, FDG emits positrons that can be detected in 2-Deoxy-2-fluoro-D-glucose scans, producing images that highlight areas of high metabolic activity in the body. This makes it a useful tool for diagnosing and monitoring a variety of diseases, including cancer and neurological disorders.
FAM-labeled ODN 1826 sodium, a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FAM-labeled ODN 1826 sodium can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy or flow cytometry.
FITC-labeled ODN 1018 (sodium),an oligodeoxynucleotide, is a TLR-9 agonist. FITC-labeled ODN 1018 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
Ioversol (Standard) is the analytical standard of Ioversol. This product is intended for research and analytical applications. Ioversol (MP-328) is a nonionic iodinated contrast medium (CM) that is used during a CT scan or x-ray in animal experiment. Ioversol does not damage the blood-brain barrier (BBB) in animal [4].
Ioversol hydrolysate-1 is a hydrolyzate of Ioversol (HY-B1410), a non-ionic iodinated contrast agent (CM) used in CT scans or X-rays in animal experiments .
FITC-labeled ODN 2395 (sodium), a C class oligodeoxynucleotide, is a TLR9 agonist. FITC-labeled ODN 2395 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 1585 (sodium) is a potent inducer of IFN and TNFα production. FITC-labeled ODN 1585 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled Agatolimod (sodium), a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FITC-labeled Agatolimod (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 2088 (sodium) is a potent TLR3, TLR7 and TLR9 inhibitor. FITC-labeled ODN 2088 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 1668 (sodium), a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FITC-labeled ODN 1668 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 1826 (sodium), a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FITC-labeled ODN 1826 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
DOTA-NHS-ester (TFA) is used as a linker for affibody molecules, and it can be employed in small animal positron emission tomography (PET), single photon emission computed tomography (SPECT), and CT scanning. DOTA-NHS-ester can be used to label radiotracers or imaging probes for tumor detection .
FITC-labeled ODN TTAGGG (sodium), a inhibitory oligonucleotide (ODN), is a TLR9, AIM2 and cGAS antagonist. FITC-labeled ODN TTAGGG (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
T808 is a tau-selective Alzheimer’s PET ligand. T808 is a type of imaging agent used in positron emission tomography (PET) scans. It is a radiotracer that is used to help visualize certain areas of the body, such as the brain, in order to diagnose and monitor various medical conditions .
FITC-labeled ODN 2216 (sodium) is a human-specific TLR9 (toll-like receptor 9) ligand or agonist. FITC-labeled ODN 2216 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
TDP1 Inhibitor-2 (compound 5) is a potent inhibitor for TDP1 (tyrosyl-DNA phosphodiesterase 1), with an IC50 of 99 nM. TDP1 Inhibitor-2 also can inhibit SCAN1 (spinocerebellar ataxia syndrome with axonal neuropathy), with an IC50 of 3.5 μM .
Fluo-3 and related molecule Fluo3/AM are used as a fluorescence indicator of intracellular calcium (Ca 2+). Fluo-3 may be use for flow cytometry and confocal laser scanning microscopy using visible light excitation (compatible with argon laser sources operating at 488 nm). Fluorescence intensity increases about 40-fold after calcium binding.
CAP 37 (20-44) is a peptide based on amino acid residues 20 through 44 of CAP37. CAP37, a Cationic antimicrobial protein of 37 kDa, is a multifunctional protein .
DMABA NHS ester can chemically react with the primary amine groups of the major phospholipid component of the cell membrane, Phosphatidylethanolamine (PE). Through precursor ion scanning, all PE subclasses labeled with DMABA can be detected. DMABA NHS ester can be used in combination with isotope-labeled compounds such as DMABA-d6 NHS ester, DMABA-d10 NHS ester, and DMABA-d4 NHS ester to observe changes in the distribution of PE lipids and the formation of novel PE lipid products .
GSK2163632A is a selective G protein-coupled receptor kinase (GRK) inhibitor that may serve as a probe for studying heart failure and Parkinson's disease. Screening of known protein kinase inhibitors by differential scanning fluorescence method revealed that the melting points of GRK2 and GRK5 increased. Enzymatic assays of the 14 most stable hits revealed that three exhibited nanomolar inhibitory potency against a single GRK, with some showing significant selectivity. Most of the identified compounds can be divided into two categories: indazole/dihydropyrimidine compounds selectively inhibit GRK2, and pyrrolopyrimidine compounds effectively inhibit GRK1 and GRK5 but with modest selectivity. The two most inhibitory representative compounds, GSK180736A and GSK2163632A, are co-crystals with GRK2 and GRK1, respectively, and their atomic structures were determined to 2.6 and 1.85 ? distances, respectively. GSK180736A, as an inhibitor of Rho-related coiled-coil protein kinase, binds to GRK2 in a manner similar to paroxetine, while GSK2163632A, as an inhibitor of insulin-like growth factor 1 receptor, occupies a novel region of the GRK active site cleft and may be used to achieve more Selectivity. However, both compounds inhibited GRK no more potently than their original targets. These data provide a basis for the rational design of more effective and selective GRK inhibitors in the future .
New drug development is a time-consuming and high-cost process. Drug repurposing (also called drug repositioning, reprofiling or re‑tasking) offers various advantages over developing an entirely new drug for a given indication. First, the risk of failure is lower. Second, the time frame for drug development can be reduced. Third, less investment is needed. Approved drugs have identified bioactivities, good pharmacokinetic characteristics and safety which are suitable for drug repurposing.
MCE owns a unique collection of 3,033 approved compounds which have been completed extensive preclinical and clinical studies and have well-characterized bioactivities, safety and bioavailability properties. The package of this library is 96-well microplate with peelable foil seal, which makes the screening process easier and faster.
Fluo-3 and related molecule Fluo3/AM are used as a fluorescence indicator of intracellular calcium (Ca 2+). Fluo-3 may be use for flow cytometry and confocal laser scanning microscopy using visible light excitation (compatible with argon laser sources operating at 488 nm). Fluorescence intensity increases about 40-fold after calcium binding.
2-Deoxy-2-fluoro-D-glucose, a radiolabeled glucose analog, is commonly used in medical imaging techniques such as positron emission tomography (PET) scans. FDG has unique chemical properties that allow it to be taken up by cells that actively metabolize glucose, such as cancer cells or inflamed tissue. Once absorbed, FDG emits positrons that can be detected in 2-Deoxy-2-fluoro-D-glucose scans, producing images that highlight areas of high metabolic activity in the body. This makes it a useful tool for diagnosing and monitoring a variety of diseases, including cancer and neurological disorders.
CAP 37 (20-44) is a peptide based on amino acid residues 20 through 44 of CAP37. CAP37, a Cationic antimicrobial protein of 37 kDa, is a multifunctional protein .
CANT1 is a calcium-dependent nucleotidase that shows a clear preference for UDP, and the order of its enzymatic activity is UDP > GDP > UTP > GTP. It is worth noting that it has little activity on ADP and even less activity on ATP, but it does not hydrolyze AMP and GMP. CANT1 Protein, Human (HEK293, His) is the recombinant human-derived CANT1 protein, expressed by HEK293 , with N-His labeled tag.
CANT1 is a calcium-dependent nucleotidase that shows a clear preference for UDP, and the order of its enzymatic activity is UDP > GDP > UTP > GTP. It is worth noting that it has little activity on ADP and even less activity on ATP, but it does not hydrolyze AMP and GMP. CANT1 Protein, Human (HEK293, Fc) is the recombinant human-derived CANT1 protein, expressed by HEK293 , with N-hFc labeled tag.
FAM-labeled ODN 1826 sodium, a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FAM-labeled ODN 1826 sodium can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy or flow cytometry.
FITC-labeled ODN 1018 (sodium),an oligodeoxynucleotide, is a TLR-9 agonist. FITC-labeled ODN 1018 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 2216 (sodium) is a human-specific TLR9 (toll-like receptor 9) ligand or agonist. FITC-labeled ODN 2216 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 2395 (sodium), a C class oligodeoxynucleotide, is a TLR9 agonist. FITC-labeled ODN 2395 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 1585 (sodium) is a potent inducer of IFN and TNFα production. FITC-labeled ODN 1585 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled Agatolimod (sodium), a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FITC-labeled Agatolimod (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 2088 (sodium) is a potent TLR3, TLR7 and TLR9 inhibitor. FITC-labeled ODN 2088 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 1668 (sodium), a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FITC-labeled ODN 1668 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN 1826 (sodium), a class B CpG ODN (oligodeoxynucleotide), is a TLR9 agonist. FITC-labeled ODN 1826 (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
FITC-labeled ODN TTAGGG (sodium), a inhibitory oligonucleotide (ODN), is a TLR9, AIM2 and cGAS antagonist. FITC-labeled ODN TTAGGG (sodium) can be used to evaluate CpG ODN cellular uptake and localization by confocal laser-scanning microscopy (excitation 495 nm, emission 520 nm) or flow cytometry.
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