Ammonia Assay Antibodies Assay Kits Cck Assay Clia Kits Culture Cells Devices DNA DNA Templates Elisa Kits Enzymes Ethanol Assay Kit Galactose Assay Gels Glutamate Assay Hat Assay Isotypes Nadh Assay Panel Particles Peptides Pyruvate Assay Reagents Ria Kits Sod Assay Testing Triglyceride Assay Urea Assay Zinc Assay Kit
Improvement of the Uniformity and Electrical Properties of Polyaniline Nanocomposite Film by Addition of Auxiliary Gases during Atmospheric Pressure Plasma Polymerization
The morphological and chemical properties of polyaniline (PANI) nanocomposite movies after including small quantities of auxiliary gases equivalent to argon, nitrogen, and oxygen throughout atmospheric strain (AP) plasma polymerization are investigated intimately. A separate gas-supply line for making use of an auxiliary fuel is added to the AP plasma polymerization system to keep away from plasma instability as a result of addition of auxiliary fuel throughout polymerization. A small quantity of impartial fuel species within the plasma medium can scale back the reactivity of monomers hyperactivated by excessive plasma power and forestall extreme crosslinking, thereby acquiring a uniform and common PANI nanocomposite movie.
The addition of small quantities of argon or nitrogen throughout polymerization considerably improves the uniformity and regularity of PANI nanocomposite movies, whereas the addition of oxygen weakens them. Specifically, the PANI movie synthesized by including a small quantity of nitrogen has the most effective preliminary electrical resistance and resistance altering conduct with time after the ex situ iodine (I2)-doping course of in contrast with different auxiliary gases. As well as, it’s experimentally demonstrated that {the electrical} conductivity of the ex situ I2-doped PANI movie might be preserved for a very long time by isolating it from the ambiance.
Photoinitiated Polymerization of Hydrogels by Graphene Quantum Dots
As a sensible stimulus-responsive materials, hydrogel has been investigated extensively in lots of analysis fields. Nonetheless, its mechanical brittleness and low energy have mattered, and standard photoinitiators used in the course of the polymerization steps exhibit excessive toxicity, which limits the usage of hydrogels within the discipline of biomedical purposes.
Right here, we handle the twin features of graphene quantum dots (GQDs), one to set off the synthesis of hydrogel as photoinitiators and the opposite to enhance the mechanical energy of the as-synthesized hydrogel. GQDs embedded within the community successfully generated radicals when uncovered to daylight, resulting in the initiation of polymerization, and in addition performed a major position in enhancing the mechanical energy of the crosslinked chains.
Thus, we count on that the ensuing hydrogel included with GQDs would allow a variety of purposes that require biocompatibility in addition to greater mechanical energy, together with novel hydrogel contact lenses and bioscaffolds for tissue engineering.
Screening Methodology for Polyhydroxyalkanoate Synthase Mutants Primarily based on Polyester Diploma of Polymerization Utilizing Excessive-Efficiency Liquid Chromatography
A high-throughput screening technique based mostly on the diploma of polymerization (DP) of polyhydroxyalkanoate (PHA) was developed utilizing high-performance liquid chromatography (HPLC). On this technique, PHA manufacturing was achieved utilizing recombinant Escherichia coli supplemented with benzyl alcohol as a sequence terminal compound. The classy cells containing benzyl alcohol-capped PHA had been decomposed by alkaline remedy, and the peaks of the decomposed monomer and benzyl alcohol had been detected utilizing HPLC.
The DP of PHA might be decided from the height ratio of the decomposed monomer to terminal benzyl alcohol. The measured DP was validated by different instrumental analyses utilizing purified PHA samples. Utilizing this technique, mutants of PHA synthase from Bacillus cereus YB-4 (PhaRCYB4) had been screened, and a few enzymes able to producing PHA with greater DP than the wild-type enzyme had been obtained. The PHA yields of two of those enzymes had been equal to the yield of the wild-type enzyme. Subsequently, this screening technique is appropriate for the choice of helpful mutants that may produce excessive molecular weight PHAs.
Experimental Design in Polymer Chemistry-A Information in the direction of True Optimization of a RAFT Polymerization Utilizing Design of Experiments (DoE)
Regardless of the good potential of design of experiments (DoE) for effectivity and plannability in educational analysis, it stays a way predominantly utilized in industrial processes. From our perspective although, DoE moreover gives higher data acquire than typical experimentation approaches, even for extra complicated programs equivalent to chemical reactions. Therefore, this work presents a complete DoE investigation on thermally initiated reversible addition-fragmentation chain switch (RAFT) polymerization of methacrylamide (MAAm). To facilitate the variation of DoE for just about each different polymerization, this work gives a step-by-step utility information emphasizing the most important challenges alongside the best way.
Optimization of the RAFT system was achieved through response floor methodology using a face-centered central composite design (FC-CCD). Extremely correct prediction fashions for the responses of monomer conversion, theoretical and obvious quantity averaged molecular weights, and dispersity are offered.
The obtained equations not solely facilitate thorough understanding of the noticed system but in addition permit choice of artificial targets for every particular person response by prediction of the respective optimum issue settings. This work efficiently demonstrates the good functionality of DoE in educational analysis and goals to encourage fellow scientists to include the approach into their repertoire of experimental methods.
Polymerization Shrinkage of Quick Fiber Strengthened Dental Composite Utilizing a Confocal Laser Evaluation
The aim of this examine was to research the polymerization shrinkage of quick fiber strengthened composite (SFRC) utilizing a multicolor confocal displacement laser that may measure the polymerization shrinkage with excessive accuracy. The three kinds of SFRCs used on this examine had been XD (Ever X Circulate Dentin), XB (Ever X Circulate Bulk), and XP (EverX Posterior). As well as, CF (Clearfil majesty ES Circulate) with hybrid kind filler was used as a management. The measured values of the ultimate polymerization shrinkage charge and quantity of polymerization shrinkage charge when the polymerization shrinkage charge grew to become fixed (lower than 0.1 µm/s) had been approximated for all SFRCs.
XP had a big facet ratio of glass fiber filler and confirmed a major distinction from XD with a small facet ratio (p < 0.05). There was no important distinction within the measured worth of time when the polymerization contraction reached a continuing pace (0.1 µm/s or much less) for all SFRCs (p > 0.05).
There was no important distinction within the measured values of polymerization shrinkage charge after the polymerization shrinkage reached a continuing charge for all SFRCs (p > 0.05). These outcomes present that tumbler fiber with giant facet ratio can alleviate polymerization shrinkage stress. The polymerization conduct of SFRC was discovered to be depending on the quantity of glass fiber filler, facet ratio, and orientation.
Microencapsulation of Photochromic Answer with Polyurea by Interfacial Polymerization
Photochromic supplies are attention-grabbing supplies due to their color-changing property beneath UV gentle and visual gentle irradiation. Nonetheless, they’re weak to many components, equivalent to pH oxygen, ion, solvent, and so on. due to the unsaturated bonds present on the photochromic molecular. Microencapsulation of the photochromic supplies can separate them from the environment.
Right here, photochromic microcapsules utilizing 3,3-Diphenyl-3H-naphtho[2,1-b] pyran (NP)/answer as core and polyurea as shell through interfacial polymerization had been ready, and bis(2,2,6,6-tetramethyl-4-piperidinyl)sebacate (HALS 770) was used as photostabilizer. Fourier rework infrared spectroscopy (FTIR), a laser particle dimension analyzer, a scanning electron microscope (SEM), a thermogravimetric analyzer and an ultraviolet-visible spectrophotometer had been used for characterization.
The outcomes confirmed that the microcapsules had a uniform particle dimension of about 0.56 μm when the proportion of the oil section (core) within the emulsion was lower than 15%, the addition quantity of the emulsifier was 0.4%, and the stirring charge was 1800 r/min. The microcapsules confirmed higher efficiency in thermal stability when the core/shell ratio was 1:1. The photostabilizer had little influence on the color-changing property of the microcapsule, however it might shield the microcapsules from UV gentle radiation getting older.
 Anti-Podoplanin antibody |
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| PAab06598 | Lifescience Market | 100 ug | EUR 494.4 |
Anti-Podoplanin antibody |
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| PAab06599 | Lifescience Market | 100 ug | EUR 494.4 |
Anti-Podoplanin antibody |
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| STJ180226 | St John's Laboratory | 0.1 ml | EUR 319.2 |
 Anti-Podoplanin antibody |
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| STJ180283 | St John's Laboratory | 0.1 ml | EUR 267.6 |
 Anti-Podoplanin Antibody |
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| A1564-100 | Biovision | each | EUR 574.8 |
 Rabbit Polyclonal antibody Anti-CRBN |
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| Anti-CRBN | ImmunoStep | 50 µg | EUR 418.8 |
 Podoplanin |
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| MO47016 | Neuromics | 100 ul | EUR 418.8 |
 Mouse Podoplanin ELISA kit |
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| E03P0082-192T | BlueGene | 192 tests | EUR 1524 |
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Description: A sandwich ELISA for quantitative measurement of Mouse Podoplanin in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
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Mouse Podoplanin ELISA kit |
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| E03P0082-48 | BlueGene | 1 plate of 48 wells | EUR 624 |
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Description: A sandwich ELISA for quantitative measurement of Mouse Podoplanin in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
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Mouse Podoplanin ELISA kit |
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| E03P0082-96 | BlueGene | 1 plate of 96 wells | EUR 822 |
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Description: A sandwich ELISA for quantitative measurement of Mouse Podoplanin in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
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 Protein) Mouse Podoplanin (PDPN) Protein |
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| 20-abx650139 | Abbexa |
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 Anti-Podoplanin/gp36/PDPN Antibody |
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| A01124 | BosterBio | 100ug/vial | EUR 352.8 |
 Anti-Podoplanin Rabbit Monoclonal Antibody |
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| M01124-1 | BosterBio | 100ug/vial | EUR 476.4 |
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Description: Rabbit Monoclonal Podoplanin Antibody. Validated in WB and tested in Human, Mouse, Rat. |
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Anti-Podoplanin Rabbit Monoclonal Antibody |
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| M01124-2 | BosterBio | 100ug/vial | EUR 476.4 |
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Description: Rabbit Monoclonal Podoplanin Antibody. Validated in WB and tested in Human. |
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Anti-Podoplanin/gp36/PDPN Antibody |
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| PA1411 | BosterBio | 100ug/vial | EUR 352.8 |
Anti-Podoplanin/gp36/PDPN Antibody |
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| PA1674 | BosterBio | 100ug/vial | EUR 352.8 |
Anti-Podoplanin/gp36/PDPN Antibody |
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| PA1675 | BosterBio | 100ug/vial | EUR 352.8 |
 Anti-D2-40 Podoplanin antibody |
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| STJ16100360 | St John's Laboratory | 1 mL | EUR 1482 |
 Anti-D2-40/Podoplanin antibody |
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| STJ190048 | St John's Laboratory | 200 µl | EUR 236.4 |
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Description: Unconjugated Mouse monoclonal to D2-40/Podoplanin (7D1) |
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 Podoplanin Antibody |
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| DF12456 | Affbiotech | 200ul | EUR 420 |
 Podoplanin antibody |
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| 70R-PR007 | Fitzgerald | 100 ug | EUR 506.4 |
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Description: Affinity purified Rabbit polyclonal Podoplanin antibody |
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Podoplanin antibody |
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| 70R-50819 | Fitzgerald | 100 ul | EUR 292.8 |
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Description: Purified Polyclonal Podoplanin antibody |
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Podoplanin antibody |
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| 70R-6816 | Fitzgerald | 50 ug | EUR 560.4 |
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Description: Rabbit polyclonal Podoplanin antibody raised against the N terminal of PDPN |
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Podoplanin antibody |
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| 70R-6817 | Fitzgerald | 50 ug | EUR 560.4 |
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Description: Rabbit polyclonal Podoplanin antibody raised against the middle region of PDPN |
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Podoplanin Antibody |
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| 49474-100ul | SAB | 100ul | EUR 399.6 |
Podoplanin Antibody |
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| 49474-50ul | SAB | 50ul | EUR 286.8 |
Podoplanin antibody |
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| 70R-11540 | Fitzgerald | 100 ug | EUR 632.4 |
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Description: Rabbit polyclonal Podoplanin antibody |
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Podoplanin antibody |
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| 70R-13952 | Fitzgerald | 100 ug | EUR 366 |
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Description: Affinity purified Rabbit polyclonal Podoplanin antibody |
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Podoplanin antibody |
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| 10R-7662 | Fitzgerald | 100 ug | EUR 754.8 |
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Description: Mouse monoclonal Podoplanin antibody |
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Podoplanin antibody |
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| 10R-7663 | Fitzgerald | 100 ug | EUR 754.8 |
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Description: Hamster monoclonal Podoplanin antibody |
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Podoplanin antibody |
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| 10R-7664 | Fitzgerald | 100 ug | EUR 754.8 |
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Description: Mouse monoclonal Podoplanin antibody |
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Podoplanin antibody |
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| 10R-P133a | Fitzgerald | 100 ug | EUR 608.4 |
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Description: Mouse monoclonal Podoplanin antibody |
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Podoplanin antibody |
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| 10R-P155a | Fitzgerald | 100 ug | EUR 651.6 |
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Description: Hamster monoclonal Podoplanin antibody |
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Podoplanin Antibody |
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| P1051-01m | SAB | 0.1m | EUR 250.8 |
Podoplanin Antibody |
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| P1051-1ml | SAB | 1ml | EUR 1129.2 |
Podoplanin Antibody |
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| R33852-100UG | NSJ Bioreagents | 100 ug | EUR 399 |
 Mouse Anti-Human Podoplanin monoclonal antibody, clone JID761 |
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| CABT-L2919-100uL500uL | Creative Diagnostics | 100 uL, 500 uL | EUR 602.4 |
 Polyclonal Goat anti-GST α-form |
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| GST-ANTI-1 | Detroit R&D | 50 uL | EUR 336 |
 Polyclonal Goat anti-GST μ-form |
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| GST-ANTI-2 | Detroit R&D | 50 uL | EUR 336 |
 Polyclonal Goat anti-GST p-form |
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| GST-ANTI-3 | Detroit R&D | 50 uL | EUR 336 |
) Recombinant Mouse Podoplanin (C-Fc) |
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| CU73-10ug | Novoprotein | 10ug | EUR 157.2 |
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Description: Lyophilized from a 0.2 μm filtered solution of PBS, pH7.4. |
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Recombinant Mouse Podoplanin (C-Fc) |
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| CU73-1mg | Novoprotein | 1mg | EUR 2008.8 |
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Description: Lyophilized from a 0.2 μm filtered solution of PBS, pH7.4. |
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Recombinant Mouse Podoplanin (C-Fc) |
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| CU73-500ug | Novoprotein | 500ug | EUR 1399.2 |
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Description: Lyophilized from a 0.2 μm filtered solution of PBS, pH7.4. |
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Recombinant Mouse Podoplanin (C-Fc) |
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| CU73-50ug | Novoprotein | 50ug | EUR 327.6 |
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Description: Lyophilized from a 0.2 μm filtered solution of PBS, pH7.4. |
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 ELISA Kit) Mouse Podoplanin (PDPN) ELISA Kit |
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| DLR-PDPN-Mu-48T | DL Develop | 48T | EUR 632.4 |
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Description: A sandwich quantitative ELISA assay kit for detection of Mouse Podoplanin (PDPN) in samples from tissue homogenates, cell lysates or other biological fluids. |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| DLR-PDPN-Mu-96T | DL Develop | 96T | EUR 825.6 |
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Description: A sandwich quantitative ELISA assay kit for detection of Mouse Podoplanin (PDPN) in samples from tissue homogenates, cell lysates or other biological fluids. |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| 20-abx154564 | Abbexa |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| abx571749-96tests | Abbexa | 96 tests | EUR 943.2 |
 CLIA Kit) Mouse Podoplanin (PDPN) CLIA Kit |
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| 20-abx493858 | Abbexa |
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 Mouse Podoplanin, Pdpn ELISA KIT |
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| ELI-06723m | Lifescience Market | 96 Tests | EUR 1038 |
 Polyclonal Antibody (Mouse)) Podoplanin (PDPN) Polyclonal Antibody (Mouse) |
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| 4-PAC719Mu01 | Cloud-Clone |
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Description: A Rabbit polyclonal antibody against Mouse Podoplanin (PDPN) |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| RD-PDPN-Mu-48Tests | Reddot Biotech | 48 Tests | EUR 639.6 |
Mouse Podoplanin (PDPN) ELISA Kit |
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| RD-PDPN-Mu-96Tests | Reddot Biotech | 96 Tests | EUR 888 |
ELISA kit) Mouse Podoplanin(PDPN)ELISA kit |
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| QY-E21215 | Qayee Biotechnology | 96T | EUR 433.2 |
Mouse Podoplanin (PDPN) ELISA Kit |
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| RDR-PDPN-Mu-48Tests | Reddot Biotech | 48 Tests | EUR 668.4 |
Mouse Podoplanin (PDPN) ELISA Kit |
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| RDR-PDPN-Mu-96Tests | Reddot Biotech | 96 Tests | EUR 928.8 |
Mouse Podoplanin (PDPN) ELISA Kit |
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| SEC719Mu-10x96wellstestplate | Cloud-Clone | 10x96-wells test plate | EUR 5834.88 |
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Description: This is Double-antibody Sandwich Enzyme-linked immunosorbent assay for detection of Mouse Podoplanin (PDPN) in tissue homogenates, cell lysates and other biological fluids. |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| SEC719Mu-1x48wellstestplate | Cloud-Clone | 1x48-wells test plate | EUR 585.7 |
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Description: This is Double-antibody Sandwich Enzyme-linked immunosorbent assay for detection of Mouse Podoplanin (PDPN) in tissue homogenates, cell lysates and other biological fluids. |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| SEC719Mu-1x96wellstestplate | Cloud-Clone | 1x96-wells test plate | EUR 785.28 |
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Description: This is Double-antibody Sandwich Enzyme-linked immunosorbent assay for detection of Mouse Podoplanin (PDPN) in tissue homogenates, cell lysates and other biological fluids. |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| SEC719Mu-5x96wellstestplate | Cloud-Clone | 5x96-wells test plate | EUR 3173.76 |
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Description: This is Double-antibody Sandwich Enzyme-linked immunosorbent assay for detection of Mouse Podoplanin (PDPN) in tissue homogenates, cell lysates and other biological fluids. |
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Mouse Podoplanin (PDPN) ELISA Kit |
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| 4-SEC719Mu | Cloud-Clone |
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Description: Enzyme-linked immunosorbent assay based on the Double-antibody Sandwich method for detection of Mouse Podoplanin (PDPN) in samples from tissue homogenates, cell lysates and other biological fluids with no significant corss-reactivity with analogues from other species. |
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ELISA kit) Mouse Podoplanin (PDPN)ELISA kit |
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| YLA0596MO-48T | Shanghai YL Biotech | 48T | EUR 465 |
Mouse Podoplanin (PDPN)ELISA kit |
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| YLA0596MO-96T | Shanghai YL Biotech | 96T | EUR 600 |
 Podoplanin Blocking Peptide |
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| DF12456-BP | Affbiotech | 1mg | EUR 234 |
 Podoplanin Conjugated Antibody |
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| C49474 | SAB | 100ul | EUR 476.4 |
 Recombinant Human Podoplanin |
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| 7-05839 | CHI Scientific | 5µg | Ask for price |
Recombinant Human Podoplanin |
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| 7-05840 | CHI Scientific | 25µg | Ask for price |
Recombinant Human Podoplanin |
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| 7-05841 | CHI Scientific | 1mg | Ask for price |
 Podoplanin Recombinant Protein |
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| 91-478 | ProSci | 0.05 mg | EUR 537.9 |
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Description: Podoplanin is a type-1 transmembrane protein that belongs to Podoplanin family. PDPN expressed in various specialized cell types throughout the body. It highly expressed in placenta, lung, skeletal muscle and brain, weakly expressed in brain, kidney and liver. In placenta, PDPN expressed on the apical plasma membrane of endothelium, in lung, expressed in alveolar epithelium. PDPN physiological function is related to its mucin-type character. PDPN may be involved in cell migration and/or actin cytoskeleton organization. When expressed in keratinocytes, induces changes in cell morphology with transfected cells showing an elongated shape, numerous membrane protrusions, and major reorganization of the actin cytoskeleton, increased motility and decreased cell adhesion. It requires for normal lung cell proliferation and alveolus formation at birth and Induces platelet aggregation. Nevertheless, it doesn’t have any effect on amino acid transport and the aquaporin-type water channels. |
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Podoplanin Recombinant Protein |
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| 91-788 | ProSci | 0.05 mg | EUR 588.3 |
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Description: Podoplanin is a type-1 transmembrane protein that belongs to Podoplanin family. PDPN expressed in various specialized cell types throughout the body. It highly expressed in placenta, lung, skeletal muscle and brain, weakly expressed in brain, kidney and liver. In placenta, PDPN expressed on the apical plasma membrane of endothelium, in lung, expressed in alveolar epithelium. PDPN physiological function is related to its mucin-type character. PDPN may be involved in cell migration and/or actin cytoskeleton organization. When expressed in keratinocytes, induces changes in cell morphology with transfected cells showing an elongated shape, numerous membrane protrusions, and major reorganization of the actin cytoskeleton, increased motility and decreased cell adhesion. It requires for normal lung cell proliferation and alveolus formation at birth and Induces platelet aggregation. Nevertheless, it doesn’t have any effect on amino acid transport and the aquaporin-type water channels. |
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Podoplanin Blocking Peptide |
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| 33R-2420 | Fitzgerald | 100 ug | EUR 216 |
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Description: A synthetic peptide for use as a blocking control in assays to test for specificity of PDPN antibody, catalog no. 70R-6816 |
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