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| Catalog | name | Description | price |
|---|---|---|---|
| R-C-1940 | FTBMT CAS:1358575-02-6 | FTBMT is a selective GPR52 agonist.It demonstrates antipsychotic-like and procognitive effects in rodents and has revealed a potential therapeutic agent for schizophrenia. | price> |
| R-R-3640 | PLGA-PCL electrospun fiber membrane | PLGA-PCL electrospun fiber membrane/poly(lactic-co-glycolic acid)-polycaprolactone electrospun fiber membrane from ruixi. The blend of poly(lactic-co-glycolic acid) (PLGA) and polycaprolactone (PCL) in an electrospun fiber membrane introduces a combination of properties that make it a valuable material for various biomedical applications. The PLGA-PCL electrospun fiber membrane is a versatile composite material with a unique combination of biocompatibility, mechanical strength, and controlled drug delivery capabilities. Its potential applications span tissue engineering, drug delivery systems, wound healing, and regenerative medicine, making it an area of interest for researchers and practitioners in the biomedical and pharmaceutical fields. | price> |
| R-C-1941 | VU0155069 (CAY10593) CAS:1130067-06-9 | VU0155069(CAY10593),compound 69,is a selective phospholipase D1(PLD1)inhibitor with an IC50 value of 46 nM in vitro.VU0155069(CAY10593)strongly inhibits the invasive migration of several cancer cell lines in transwell assays. | price> |
| R-R-3641 | PLGA doped sulfated chitosan spinning membrane | PLGA doped sulfated chitosan spinning membrane/Polycaprolactone doped sulfated chitosan spinning membrane/PLGA doped SCS spinning membrane from ruixi.PLGA doped sulfated chitosan spinning membrane is a spinning membrane material that combines polylactic acid polycaprolactone (PLGA) and sulfated chitosan (SCS) and has a specific size (12 cm x 13 cm) . This membrane material is prepared through spinning technology and combines the advantages of PLGA and SCS, showing unique performance and application prospects.As a biodegradable polyester, PLGA has good mechanical properties and biocompatibility, while sulfated chitosan (SCS) is a sulfated chitosan biodegradable product with good biological activity. and ion exchange capacity. Combining PLGA and SCS to form a spinning membrane can combine the advantages of both and improve the biological activity, mechanical properties and ion exchange capacity of the material. This spinning membrane material has high specific surface area, high porosity and good water absorption, so it can provide a good environment for cell growth and material transmission. At the same time, the ion exchange capacity of sulfated chitosan gives it excellent adsorption properties and biological activity, which can promote cell adhesion and proliferation and further promote tissue regeneration and repair. PLGA rubber phenolized chitosan spinning membrane has wide application prospects in the fields of tissue engineering, drug delivery, wound dressings and biosensors. For example, it can be used as a scaffold material to support the growth and differentiation of cells and promote tissue regeneration and repair; it can also be used as a carrier for drugs to achieve sustained release and targeted delivery of drugs, improve the therapeutic effect of drugs and reduce side effects. | price> |
| R-C-1942 | IK1 inhibitor PA-6 CAS:500715-03-7 | IK1 inhibitor PA-6(PA-6),a pentamidine analogue,is a selective and potent IK1(KIR2.x ion-channel-carried inward rectifier current)inhibitor, with IC50 values of 12-15 nM for human and mouse KIR2.x currents.IK1 inhibitor PA-6(PA-6)elevates KIR2.1 protein expression and induces intracellular KIR2.1 accumulation.IK1 inhibitor PA-6(PA-6)has the potential to treat atrial fibrillation and arrhythmia. | price> |
| R-R-3642 | PLLA electrospun membrane doped with ferric oxide | PLLA electrospun membrane doped with ferric oxide/Poly-L-lactic acid electrospun membrane doped with ferric oxide from ruixi. A PLLA (poly-L-lactic acid) electrospun membrane doped with ferric oxide is a composite material that combines the properties of PLLA with the unique characteristics of ferric oxide. Combining PLLA with ferric oxide through the electrospinning process results in a membrane with enhanced properties such as biocompatibility, mechanical strength, and magnetic responsiveness. This composite material holds promise for applications in tissue engineering, controlled drug delivery, and biomedical imaging. | price> |
| R-C-1943 | PU-WS13 CAS:1454619-14-7 | PU-WS13 is a potent,Grp94-specific Hsp90 inhibitor of the purine scaffold class. PU-WS13 is a cell-permeable inhibitor of Grp94 with EC50 of 220 nM. | price> |
| R-R-3643 | PLA electrospun fiber film | Polylactic acid electrospun fiber film/PLA electrospun fiber film is a nanofiber film made of polylactic acid (PLA) prepared by electrospinning technology. PLA is a biocompatible and degradable polymer material that is non-toxic and has good mechanical properties. Therefore, PLA electrospun fiber films have broad application prospects in the biomedical field. PLA electrospun fiber membrane has high specific surface area, high porosity and good cell compatibility. Its fiber structure simulates the structure of the natural extracellular matrix, providing a suitable growth environment for cells. This fiber film can promote cell adhesion and proliferation, thereby promoting tissue regeneration and repair. Therefore, PLA electrospun fiber films have wide applications in tissue engineering, cell culture, drug delivery, wound dressing and other fields. As a tissue engineering scaffold material, PLA electrospun fiber films can provide three-dimensional growth space for cells, support cell growth and differentiation, and promote tissue regeneration. As a drug delivery carrier, this fiber film can load drugs and control the release rate of drugs, achieve targeted delivery and sustained release of drugs, and improve the therapeutic effect of drugs. In addition, due to its good biocompatibility and mechanical properties, PLA electrospun fiber films can also be used in wound dressings to provide protection and support for wounds and promote wound healing. | price> |
| R-C-1944 | PF-06454589 CAS:1527473-30-8 | PF-06454589 is a potent and selective LRRK2 inhibitor. | price> |
| R-R-3644 | PLLA nanofiber membrane | PLLA nanofiber membrane/Poly-L-lactic acid nanofiber membrane from ruixi. PLLA nanofiber membrane is a nanoscale fiber membrane material made of polylactic acid (PLLA). Polylactic acid is a biodegradable and biocompatible polymer material, so it has a wide range of applications in the biomedical field. Through electrospinning technology, PLLA can be processed into nanoscale fibers to form fiber membranes with high specific surface area and high porosity.PLLA nanofiber membrane has many properties, such as good mechanical properties, biocompatibility, biodegradability and cell compatibility. Its nanoscale fiber structure can simulate the structure of the natural extracellular matrix and provide a suitable growth environment for cells. Therefore, PLLA nanofiber membranes have broad application prospects in tissue engineering, cell culture, drug delivery, wound dressing and other fields. In terms of tissue engineering, PLLA nanofiber membranes can be used as scaffold materials to provide three-dimensional growth space for cells, promote cell growth and differentiation, and then promote tissue regeneration. In terms of drug delivery, PLLA nanofiber membranes can load drugs and control drugs. The release rate achieves targeted delivery and sustained release of drugs and improves the therapeutic effect of drugs. | price> |
| R-C-1945 | PHCCC CAS:179068-02-1 | PHCCC is a Group I mGluR antagonist with an IC50 of 3 μM.PHCCC is a selective positive modulator of mGlu4 receptor.Antiparkinsonian effect. | price> |
| R-R-3645 | Cellulose acetate nanofiber membrane | Cellulose acetate nanofiber membrane/CA nanofiber membrane is a nanofiber membrane material prepared by electrospinning technology, which has high specific surface area, high porosity, and good mechanical properties. This fiber membrane material is mainly made of cellulose acetate (CA) and processed through specific spinning processes. Cellulose acetate is a cellulose derivative with good biocompatibility and biodegradability, and is therefore widely used in the biomedical field. Through electrospinning technology, cellulose acetate can be processed into nanoscale fibers to form fiber membranes with high porosity and specific surface area. This fibrous membrane structure is conducive to cell adhesion and proliferation, and can promote tissue regeneration and repair,Cellulose acetate nanofiber membrane has a wide range of applications in the fields of tissue engineering, drug delivery, wound dressings, and biosensors. As a scaffold material for tissue engineering, it can provide three-dimensional growth space for cells, support cell growth and differentiation, promote tissue regeneration. As a drug delivery carrier, cellulose acetate nanofiber membrane can load drugs and control drug release rate, achieve targeted delivery and sustained release of drugs, and improve the therapeutic effect of drugs. In addition, due to its good biocompatibility and mechanical properties, cellulose acetate nanofiber membrane can also be used for wound dressings, providing protection and support for wounds, and promoting wound healing. | price> |
| R-C-1946 | QNZ46 CAS:1237744-13-6 | QNZ46 is a NR2C/NR2D-selective NMDA receptor non-competitive antagonist(IC50 values are 3,6,229,and>300,>300μM for NR2D,NR2C,NR2A,NR2B,and GluR1, respectively). | price> |
| R-R-3646 | 1% Rhodamine doped SF (5% -10%) - PLGA electrospun fiber | 1% Rhodamine doped SF (5% -10%) - PLGA electrospun fiber membrane/1% Rhodamine doped silk fibroin (5% -10%) - polylactic acid-polycaprolactone electrospun fiber membrane from ruixi. 1% rhodamine doped SF (5%-10%)-PLGA electrospun fiber membrane is a composite nanofiber membrane that combines the properties of multiple materials. This fiber membrane is made of polylactic acid-polycaprolactone (PLGA) As the basic material, 5% to 10% silk fibroin (SF) and 1% rhodamine dye are also incorporated. Through electrospinning technology, these materials are processed into nanoscale fibers to form unique properties. Electrospun fiber membrane. 1% rhodamine-doped SF (5%-10%)-PLGA electrospun fiber membrane combines the advantages of PLGA, SF and rhodamine, and has high specific surface area, high porosity, good mechanical properties, and biocompatibility and fluorescence properties. This kind of fiber membrane has potential application value in tissue engineering scaffold materials, drug delivery carriers and cell tracers. However, its performance and application may be affected by factors such as material preparation conditions, fiber morphology and composition, so it is necessary to Conduct further research and optimization. | price> |
| R-C-1947 | IMR-1 CAS:310456-65-6 | IMR-1 is a novel class of Notch inhibitors targeting the transcriptional activation with an IC50 of 26μM.IMR-1 prevents the recruitment of Mastermind-like 1(Maml1)to the Notch Ternary Complex(NTC)on chromatin,inhibits Notch target gene transcription and dramatically inhibits tumor growth. | price> |
| R-R-3647 | PCL silk fibroin 1% - gelatin 1% | PCL silk fibroin 1% - gelatin 1%/PCL SF 1% - gelatin 1%/Polycaprolactone silk fibroin 1% - gelatin 1%/Polycaprolactone SF 1% - gelatin 1% from ruixi. A blend of PCL (polycaprolactone), silk fibroin (SF), and gelatin at 1% concentration can be used to create a composite material with unique properties.A blend of PCL, silk fibroin, and gelatin at 1% concentration offers a versatile platform for creating composite materials with a blend of mechanical, biodegradable, and biological properties, making it suitable for a variety of biomedical and pharmaceutical applications. | price> |
| R-C-1948 | CCF-642 CAS:346640-08-2 | CCF642 is a potent protein disulfide isomerases(PDI)inhibitor with an IC50 of 2.9μM.CCF642 causes acute endoplasmic reticulum(ER)stress in multiple myeloma cells accompanied by apoptosis-inducing calcium release.CCF642 has broad anti-multiple myeloma activity. | price> |
| R-R-3648 | Sc-polylactic acid-PLGA-CTS-electrospun nanofiber scaffold | Sc-polylactic acid-PLGA-CTS-electrospun nanofiber scaffold/Schwann cell polylactic acid hydroxyacetic acid chitosan electrospun nanofiber scaffold from ruixi.Schwann cells polylactic acid hydroxyacetic acid chitosan electrospun nanofiber scaffolds are usually prepared through electrospinning and other techniques. During the electrospinning process, the polymer solution is sprayed into fibers, which are then stretched to a nanoscale size under the action of an electric field, forming a nanofiber scaffold. During the preparation process, the morphology, size, and structure of fibers can be controlled by adjusting parameters such as solution composition and spinning conditions. | price> |
| R-C-1949 | Riociguat(BAY 63-2521) CAS : 625115-55-1 | Riociguat is an oral stimulator of soluble guanylate cyclase(sGC)used in the treatment of pulmonary hypertension. | price> |
| R-R-3649 | Sc-polycaprolactone-CTS electrospun nanofiber scaffold | Schwann cell-polycaprolactone-chitosan electrospun nanofiber scaffold/Sc-polycaprolactone-CTS electrospun nanofiber scaffold from ruixi. Schwann cells polycaprolactone chitosan electrospun nanofiber scaffolds are usually prepared through electrospinning and other techniques. During the electrospinning process, the polymer solution is sprayed into fibers, which are then stretched into nanoscale sizes under the action of an electric field, forming a nanofiber scaffold. During the preparation process, the morphology, size, and structure of the fibers can be controlled by adjusting the solution composition, spinning conditions, and other parameters. | price> |
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