Pokud jste položku nepřidali do nákupního košíku nebo do oblíbených, vaše konfigurace se při zavření neuloží.
Chcete-li zavřít nástroj MILLIPLEX® MAP, klikněte na OK. Pokud se chcete vrátit ke svým výběrům, klikněte na Zrušit.
Vyberte přizpůsobitelné panely a soupravy smíchané předem – NEBO - soupravy buněčné signalizace MAPmates™
Navrhněte si a oceňte své soupravy MILLIPLEX® MAP.
Přizpůsobitelné panely a soupravy smíchané předem
Naše široké portfolio se skládá z multiplexních panelů, které vám umožňují vybrat v rámci panelu analyty přesně podle vašich představ. Na zvláštní kartě si můžete zvolit formát předem smíchaných cytokinů, nebo soupravu single plex.
Soupravy buněčné signalizace a MAPmates™
Vyberte pevné soupravy, které vám umožní prozkoumat celé cesty nebo procesy. Nebo si sestavte své vlastní soupravy ze single plex MAPmates™, při dodržení uvedených pokynů.
Následující MAPmates™ by se neměly spolu mísit: -MAPmates™ vyžadující jiný testovací pufr -Fosfo-specifické a celkové páry MAPmate™, např. celkové GSK3β a GSK3β (Ser 9) -PanTyr a MAPmates™ specifické pro lokalitu, např. receptor fosfo-EGF a fosfo-STAT1 (Tyr701) -Více než 1 fosfo-MAPmate™ pro jediný cíl (Akt, STAT3) -GAPDH a β-Tubulin nelze mísit se soupravami nebo MAPmates™ obsahujícími panTyr
.
Katalogové číslo
Popis objednávky
ks/bal.
Seznam
Položka byla přidána do oblíbených.
Vyberte druh, typ panelu, soupravu nebo typ vzorku
Chcete-li začít s návrhem vaší soupravy MILLIPLEX® MAP, vyberte příslušný druh, typ panelu nebo soupravu.
Custom Premix Selecting "Custom Premix" option means that all of the beads you have chosen will be premixed in manufacturing before the kit is sent to you.
Catalogue Number
Ordering Description
Qty/Pack
List
Položka byla přidána do oblíbených.
Druh
Typ panelu
Vybraná souprava
ks
Katalogové číslo
Popis objednávky
ks/bal.
Cena podle ceníku
96-Well Plate
ks
Katalogové číslo
Popis objednávky
ks/bal.
Cena podle ceníku
Přidat další reagencie (Pro použití s MAPmates jsou vyžadovány pufr a detekční souprava)
ks
Katalogové číslo
Popis objednávky
ks/bal.
Cena podle ceníku
48-602MAG
Buffer Detection Kit for Magnetic Beads
1 Kit
Možnost úspory místa Zákazníci, kteří si pořizují různé soupravy, se mohou rozhodnout pro úsporu místa tím, že nevyžadují balení soupravy a zboží si nechají dodat ve formě multiplexních komponent testů v plastových sáčcích, které se pak kompaktněji skladují.
Položka byla přidána do oblíbených.
Produkt byl přidán do vašeho nákupního košíku
Nyní můžete upravit další soupravu, vybrat předem smíchanou soupravu, odhlásit se nebo zavřít objednací nástroj.
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Human sarcomas are rare but diverse malignant tumors derived from mesenchymal tissue. Clinical response to therapy is currently determined by the modified World Health Organization (WHO) criteria or the Response Evaluation Criteria in Solid Tumors (RECIST), but these standards correlate poorly with sarcoma patient outcome. We introduced ligand-directed particles with elements of AAV and phage (AAVP) to enable integration of tumor targeting to molecular imaging. We report drug-response monitoring and prediction in a nude rat model of human sarcoma by AAVP imaging. As a proof-of-concept, we imaged Herpes simplex thymidine kinase in a clinic-ready setting with PET to show that one can a priori predict tumor response to a systemic cytotoxic. Given the target expression in patient-derived sarcomas, this platform may be translated in clinical applications. Sarcoma-specific ligands and promoters may ultimately lead to an imaging transcriptome.
AB toxins consist of an enzymatic A subunit and a cell-binding B subunit(1). These toxins are secreted into the extracellular milieu, but they act upon targets within the eukaryotic cytosol. Some AB toxins travel by vesicle carriers from the cell surface to the endoplasmic reticulum (ER) before entering the cytosol(2-4). In the ER, the catalytic A chain dissociates from the rest of the toxin and moves through a protein-conducting channel to reach its cytosolic target(5). The translocated, cytosolic A chain is difficult to detect because toxin trafficking to the ER is an extremely inefficient process: most internalized toxin is routed to the lysosomes for degradation, so only a small fraction of surface-bound toxin reaches the Golgi apparatus and ER(6-12). To monitor toxin translocation from the ER to the cytosol in cultured cells, we combined a subcellular fractionation protocol with the highly sensitive detection method of surface plasmon resonance (SPR)(13-15). The plasma membrane of toxin-treated cells is selectively permeabilized with digitonin, allowing collection of a cytosolic fraction which is subsequently perfused over an SPR sensor coated with an anti-toxin A chain antibody. The antibody-coated sensor can capture and detect pg/mL quantities of cytosolic toxin. With this protocol, it is possible to follow the kinetics of toxin entry into the cytosol and to characterize inhibitory effects on the translocation event. The concentration of cytosolic toxin can also be calculated from a standard curve generated with known quantities of A chain standards that have been perfused over the sensor. Our method represents a rapid, sensitive, and quantitative detection system that does not require radiolabeling or other modifications to the target toxin.
Adult stem cells provide a promising alternative for the treatment of diabetes mellitus and end-stage liver diseases. We evaluated the differentiation potential of human peripheral blood monocytes into hepatocyte-like and pancreatic islet-like cells.
Silica mesoporous nanoparticles have been recently selected for a wide range of applications from electronics to medicine due to their intrinsic properties. Among medical applications, drug delivery using SiO(2) nanoparticles by oral route is under study. Major benefits are expected including higher specificity and sensitivity together with side effect reduction. Since literature shows that very complex and unexpected interactions could occur between nanomaterials and biological systems, one critical issue is to control the nanoparticle cytotoxicity/genotoxicity for normal tissues and specially stomach and intestine when oral route is considered. The aim of the work is to study the cytotoxicity and genotoxicity of SiO(2) nanoparticles on HT29 human intestine cell line, using conventional and innovative methodologies, for measuring cell viability and proliferation, global metabolism, genotoxicity, and nanoparticles uptake. Core-dye doped SiO(2) nanoparticles of 25 and 100 nm were specifically synthesized to track nanoparticles incorporation by confocal and video microscopy. Besides conventional approaches (sulforhodamine B, flow cytometry, and γ-H2Ax foci), we have performed a real-time monitoring of cell proliferation using an impedance-based system which ensure no interference between measures and nanoparticles physicochemical characteristics. Overall, our results showed that SiO(2)-25nm and SiO(2)-100nm induced a rather limited cytotoxic and genotoxic effects on HT-29 cells after a 24 h exposure. However, regarding cell viability and genotoxicity, inverse dose-dependent relationships were observed for SiO(2)-100nm nanoparticles. In conclusion, it seems that the higher the dose of SiO(2)-100nm, the lower the cytotoxic/genotoxic effects, data that well illustrate the complexity in identifying and understanding the hazards of nanoparticles for human health.
Olfactory ensheathing cells (OECs) were transplanted in adult rats after photochemical injury of the spinal cord. Rats received either 180,000 OECs suspended in DMEM or DMEM alone. Locomotor ability scored by the BBB-scale, pain sensibility, and motor and somatosensory evoked potentials were evaluated during the first 14 days post-surgery. At 3, 7, and 14 days, 5 rats per day of both groups were perfused and transverse sections from proximal, lesioned and distal spinal cord blocks were stained for COX-2, VEGF, GFAP and lectin. The BBB-score and the amplitude of motor and somatosensory evoked potentials were significantly higher in OEC- than in DMEM-injected animals throughout follow-up, whereas the withdrawal latency to heat noxious stimulus was lower in OEC- than in DMEM-injected rats. The area of preserved spinal cord and the levels of COX-2 and VEGF staining were significantly higher in OEC- than in DMEM-injected rats. GFAP- but no LEC-positive cells expressed COX-2 staining in OEC-transplanted rats. The density of blood vessels was also significantly increased in OEC- with respect to DMEM-injected rats. Our results show that OECs promote functional and morphological preservation of the spinal cord after photochemical injury, increasing neoangiogenesis and up-regulation of COX-2 and VEGF expression in astrocytes.
Currently there is no good hepatocyte model for studying growth hormone (GH) function that reflects its normal physiological roles. Here we report the establishment of a functional hepatocyte cell line, SDRL-1, from the liver of young male spontaneous dwarf rats (SDR), with isolated GH deficiency. This line has been maintained in Dulbecco's Modified Eagle Medium (DMEM)/F12 medium supplemented with 10% fetal bovine serum (FBS) with retention of a near diploid karyotype for extended periods of time. When grown as a monolayer sheet, it displayed a pavement-like appearance and contact inhibition. These cells have a poorly developed rough endoplasmic reticulum (r-ER), few mitochondria and glycogen granules, and produce a small amount of albumin and α-fetoprotein, that is enhanced when grown on a collagen gel sponge. Human recombinant GH stimulated JAK2 and STAT5b tyrosine phosphorylation and IGF-I production in a concentration-dependent manner. When the cells were cultured with GH-supplemented medium, the number of mitochondria and glycogen granules increased together with the r-ER and Golgi apparatus. A number of microvilli were observed on the surface of the cultured cells, further suggesting that this cell line is composed of normally functioning hepatocytes. In summary, we established a novel hepatocyte cell line (SDRL-1), that appears to display normal function, which we propose can serve as a good in vitro model for studying GH-target organ interactions.
Luminal expansion of the cricoid cartilage appears to be stunted by loss of luminal epithelium (LE) and can be enhanced by transforming growth factor-beta3 (TGF-beta3). When both the LE and perichondrium are disrupted, matrix metalloproteinase (MMP) levels within adjacent chondrocytes are diminished but can be restored by exogenous TGF-beta3. Cricoid growth stunting and luminal expansion that occur in the absence and presence of MMP activity, respectively, suggest that MMPs play an important role in normal subglottal development. The study objective was to determine if MMP inhibition affects cricoid expansion and by what mechanism, which will in turn help to define the mechanism of action of TGF-beta3-induced luminal expansion.
Despite a pivotal role in salivary gland development, homeostasis, and disease, the role of salivary gland mesenchyme is not well understood. In this study, we used the Col1a1-GFP mouse model to characterize the salivary gland mesenchyme in vitro and in vivo. The Col1a1-GFP transgene was exclusively expressed in the salivary gland mesenchyme. Ex vivo culture of mixed salivary gland cells in DMEM plus serum medium allowed long-term expansion of salivary gland epithelial and mesenchymal cells. The role of TGF-β1 in salivary gland development and disease is complex. Therefore, we used this in vitro culture system to study the effects of TGF-β1 on salivary gland cell differentiation. TGF-β1 induced the expression of collagen, and inhibited the formation of acini-like structures in close proximity to mesenchymal cells, which adapted a fibroblastic phenotype. In contrast, TGF-βR1 inhibition increased acini genes and fibroblast growth factors (Fgf-7 and Fgf-10), decreased collagen and induced formation of larger, mature acini-like structures. Thus, inhibition of TGF-β signaling may be beneficial for salivary gland differentiation; however, due to differential effects of TGF-β1 in salivary gland epithelial versus mesenchymal cells, selective inhibition is desirable. In conclusion, this mixed salivary gland cell culture system can be used to study epithelial-mesenchymal interactions and the effects of differentiating inducers and inhibitors.