| Description | Product Introduction:Blood samples are an important source of biological information in clinical research. They contain circulating proteins from multiple tissues and organs, which are involved in a wide range of biological processes and can be used as biomarkers or drug targets. However, blood Product Introduction:Blood samples are an important source of biological information in clinical research. They contain circulating proteins from multiple tissues and organs, which are involved in a wide range of biological processes and can be used as biomarkers or drug targets. However, blood samples have problems such as complex types of proteins, a large dynamic range, and a high proportion of high-abundance proteins, which bring great difficulties to proteome detection. This kit enriches circulating proteins in plasma samples based on the immunomagnetic bead capture method. In downstream proteomics detection, it can reduce the coverage of low-abundance protein signals by high-abundance proteins, thereby increasing the signal intensity of low-abundance proteins and improving the number of identified proteins and the repeatability of quantification.Product Components and Storage Conditions:M1456358Component12T24T48TStorageM1456358AMagnetic beads Max225 µL450 µL900 µL4℃M1456358BIncubation Buffer I6.25 mL12.5 mL25 mLRTM1456358CIncubation Buffer II7.5 mL15 mL30 mLRTM1456358DWashing Buffer7.5 mL15 mL30 mLRTOperating Procedure:1.Centrifuge the plasma sample (3000g, 10min), and take the supernatant for later use (if storage is needed, store it at -80°C for long-term preservation to avoid repeated freezing and thawing).2.Take 50-100µL of centrifuged plasma, add 400µL of Incubation buffer I, then add 18µL of Magnetic beads, vortex to mix, and incubate at room temperature on a shaking mixer for 1h.3.After incubation, use a magnetic rack to magnetically attract for 3min, and discard the supernatant.4.Remove the EP tube, add 500µL of Incubation buffer II, gently invert up and down to mix several times, magnetically attract for 3min, and discard the supernatant.5.Remove the EP tube, add 500µL of Washing Buffer, gently invert up and down to mix several times, magnetically attract for 3min, and discard the supernatant.6.Add 50µL of Protein Lysis Buffer (P1408622) to the beads obtained in step 5.7.It can be processed according to the conventional proteomics pretreatment steps in the laboratory, or our Proteomics Pretreatment Kit (P1456469) (to be purchased separately) can be used for processing.Precautions:1.Magnetic beads will precipitate after standing. Please shake gently and thoroughly before each use to keep the magnetic beads in a uniform suspension state.2.During the storage and use of magnetic beads, operations such as freezing, drying and high-speed centrifugation should be avoided, as they may damage the structure of magnetic beads and affect their protein-binding ability.3.This product is limited to scientific research use by professionals, and must not be used for clinical diagnosis or treatment, nor for food or drugs... Read More | Calcein AM /PI Double Staining Kitis utilized for simultaneous fluorescence staining of viable and dead cells. This kit contains Calcein-AM and Propidium Iodide (PI) solutions, which stains viable and dead cells, respectively(Fig. 1). Calcein-AM, an acetoxymethyl ester of calcein, is highly Calcein AM /PI Double Staining Kitis utilized for simultaneous fluorescence staining of viable and dead cells. This kit contains Calcein-AM and Propidium Iodide (PI) solutions, which stains viable and dead cells, respectively(Fig. 1). Calcein-AM, an acetoxymethyl ester of calcein, is highly lipophilic and cell membrane permeable. Though Calcein-AM itself is not a fluorescent molecule, the calcein generated from Calcein-AM by esterase in a viable cell emits a strong green fluorescence (excitationat 490 nm, emission at515 nm). Therefore, Calcein-AM only stains viable cells. On the other hand, PI, a nuclei staining dye, cannot pass through a viable cell membrane. It reaches the nucleus by passing through disordered areas of dead cell membrane, and intercalates with the DNA double helix of the cell to emit red fluorescence (excitation: 535 nm,emmision: 617 nm). Since both calcein and PI-DNA can be excited with 490 nm, simultaneous monitoring of viable and dead cells is possible with a fluorescence microscope. With 545 nm excitation, only dead cells can be observed (Fig. 1). Since optimal staining conditions differ from cell line to cell line, we recommend that a suitable concentration of PI and Calcein-AM be individually determined. Please note that PI is suspected to be highly carcinogenic;careful handling is required.Required Equipment and Materials:Microscope with 490 nm excitation filter and 530 nm emission filter;CO2incubator;10 µl and 200 µl adjustable pipettes, PBSSolution A (Calcein-AM);Solution B (PI) Storage Condition: -20oC ;Shipping Condition: blue ice.Application:Assay Procedure1)Add 2.5 µl Solution A and 12.5 µl Solution B to 5 ml PBS to prepare assay solution.*2)Wash the cell with PBS several times to remove residual esterase activity.3)Add 100uLof assay solution to200uL105~106CELLSsolution and incubate the mixture at 37oC for 15 min.4)Detect fluorescence using a fluorescence mircoscope with 490 nm excitationfor simultaneous monitoring of viable and dead cells.With 545 nm excitation, only dead cells can be observed.*The following steps may be necessary tooptimizethe suitable concentration of each reagent:1)Prepare dead cells by 10 min incubation in 0.1% saponin or 0.1-0.5% digitonin or by 30 min incubation in 70% ethanol.2)Stain dead cells with 0.1-10 µM PI solution to find a PI concentration that stains the nucleus only, not the cytosol.3)Stain dead cells with 0.1-10 µM Calcein-AM solution to find a Calcein-AM concentration that does not stain the cytosol. Then stainviable cells with that Calcein-AM solution to check whether the viable cell can be stained... Read More | The content of this cell is too long for an XLSX file (more than 32767 characters). Please use the CSV format for this export | DescriptionTruQuant IQQ is a high-quality quantitation system for making simultaneous accurate biological measurements on several hundred biochemicals in small quantities of biological samples. This is achieved by (1) spiking a complex Internal Standard (WORKFLOW-A) into a biological sample to a) DescriptionTruQuant IQQ is a high-quality quantitation system for making simultaneous accurate biological measurements on several hundred biochemicals in small quantities of biological samples. This is achieved by (1) spiking a complex Internal Standard (WORKFLOW-A) into a biological sample to a) quantify all the biochemicals in the sample relative to their counterparts in the Internal Standard, b) suppression-correct each compound and c) normalize sample to sample variances; and (2) injecting the same well characterized Long-Term Reference Standard (WORKFLOW-B) to create a daily retention time (RT) library of all compounds to be found in the Internal Standard for reproducible ID, and to measure day-to-day (QA/QC) to assure reproducible instrument performance. The system is completely automated using IROA ClusterFinder™software.IROA TruQuant IQQ Workflow Kit contains the materials and tools for the analysis of 90 experimental samples. The kit is intended to be used for mass spectrometry metabolomics applications... Read More | functional group:carboxylic acid Description:Liposome Kit has been used for the preparation of liposomes. Composition:Cholesterol, 9 µmol/package L-α-Phosphatidylcholine (egg yolk), 63 µmol/package Stearylamine, 18 µmol/package |