| Description | This kit innovatively adopts a column-based purification method to rapidly, gently, and efficiently lyse animal tissues or cells for total protein extraction. It provides both denaturing and native lysis buffers, allowing users to select the appropriate option based on downstream application This kit innovatively adopts a column-based purification method to rapidly, gently, and efficiently lyse animal tissues or cells for total protein extraction. It provides both denaturing and native lysis buffers, allowing users to select the appropriate option based on downstream application requirements. The entire extraction process takes only 1–8 minutes. Thanks to the column purification technology, it can process sample-lysis buffer mixtures as small as 20 µL and up to 500 µL, yielding protein solutions with concentrations of 2–8 mg/mL while effectively preventing protein loss. The extracted proteins can be quantified using the BCA method (Cat. No.: R1491648/B665595).C1491674Component50TStorageC1491674ADenaturing Lysis Buffer25 mL2-8℃C1491674BNative Lysis Buffer25 mL2-8℃C1491674CPurification Columns50 unitsRT.C1491674DCollection Tubes50 unitsRT.C1491674EPlastic Grinding Pestles4 unitsRT.Key Features1.Simple and rapid operation: Denatured total proteins can be obtained in as little as 1 minute.2.No protein loss: Efficiently extracts DNA-binding proteins by disrupting DNA duplexes.3.Small sample volume, high yield: Processes mixtures as small as 20 µL, yielding protein concentrations of 2–8 mg/mL.4.Versatile applications: Includes two lysis buffers for extracting both denatured and native proteins.ProtocolI. Extraction of Denatured Total Protein1.Pre-chill the purification column and collection tube on ice.2.Sample processing: Add protease inhibitor cocktail to the denaturing lysis buffer at a 1:100 ratio shortly before use.2.1 Adherent cells:Wash cells with pre-chilled 1× PBS and aspirate the supernatant.Add the volume of denaturing lysis buffer specified in the appendix table to cover the culture surface, and pipette to mix.2.2 Suspension cells:Collect cells by low-speed centrifugation.Wash with pre-chilled 1× PBS, vortex, and centrifuge at 3,000 rpm for 2–3 minutes.Resuspend the cell pellet in PBS equal to the pellet volume.Add the specified volume of denaturing lysis buffer and vortex to lyse.Note: Partial incomplete lysis does not affect protein extraction. If the lysate is too viscous, directly transfer it to the purification column.2.3 Tissue samples:Place 15–20 mg of tissue on the purification column.Grind 50–60 times with a plastic pestle.Add 200 µL denaturing lysis buffer and grind another 30–60 times.Adjust lysis buffer volume proportionally for larger or smaller samples.Note: Reusable plastic pestles should be thoroughly rinsed with distilled water and dried.3.Centrifugation:3.1 Adherent or suspension cells: Transfer the lysate to the pre-chilled purification column and centrifuge at 14,000–16,000 rpm for 30 seconds.3.2 Tissue samples: Incubate the column at room temperature for 1–2 minutes, then centrifuge at 14,000–16,000 rpm for 1–2 minutes.4.Immediately place the collection tube on ice and discard the purification column. Denatured total protein extraction is complete.II. Extraction of Native Total Protein1.Pre-chill the native lysis buffer, purification column, and collection tube on ice.2.Sample processing: Add protease inhibitor cocktail to the native lysis buffer at a 1:100 ratio shortly before use.2.1 Adherent cells:Wash cells with pre-chilled 1× PBS and aspirate the supernatant.Add the specified volume of native lysis buffer and incubate on ice for 3–5 minutes. Pipette to mix.2.2 Suspension cells:Collect, wash, and resuspend cells as described in section I.Add native lysis buffer, vortex for 15 seconds, incubate on ice for 3–5 minutes, and vortex again for 10 seconds.2.3 Tissue samples:Grind tissue as described in section I, using native lysis buffer.3.Centrifugation:3.1 Adherent or suspension cells: Centrifuge at 14,000–16,000 rpm for 30 seconds.3.2 Tissue samples: Incubate on ice for 5 minutes (open lid), then close the lid and centrifuge at 4°C and 14,000–16,000 rpm for 1–2 minutes.4.Immediately place the collection tube on ice and discard the purification column. Native total protein extraction is complete.Cell Count (×10⁶)Lysis Buffer Volume (µL)0.3200.550110022003500 Appendix: Cell Number vs. Lysis Buffer VolumePrecautions1.High viscosity of the lysate is normal when using this kit.2.For safety, wear a lab coat and disposable gloves during operation.3.For research use only... Read More | DescriptionUse in combination with the KitAlysis Bench Top Inertion Box (Z742064) or a glove box/glove bag to provide inert atmosphere for kit set-up.Designed to be used with KitAlysis High-Throughput Screening Kits.Components:24-Well Reaction BlockTorque ScrewdriverSmall screwdriver to easily DescriptionUse in combination with the KitAlysis Bench Top Inertion Box (Z742064) or a glove box/glove bag to provide inert atmosphere for kit set-up.Designed to be used with KitAlysis High-Throughput Screening Kits.Components:24-Well Reaction BlockTorque ScrewdriverSmall screwdriver to easily remove torqued screws after reaction is complete.10 Reaction Block Replacement Screws... 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 | Apoptosis refers to the cell autonomous and orderly death controlled by genes to maintain the stability of the internal environment. Apoptosis is different from cell necrosis. Apoptosis generally refers to a programmed cell death process that occurs during the development of body cells or under the Apoptosis refers to the cell autonomous and orderly death controlled by genes to maintain the stability of the internal environment. Apoptosis is different from cell necrosis. Apoptosis generally refers to a programmed cell death process that occurs during the development of body cells or under the action of some factors through the regulation of intracellular genes and their products. Cell necrosis is a cell death process that is caused by strong physical and chemical or biological factors to cause disordered changes in cells. The difference between apoptosis and necrosis lies in the characteristic morphological and biochemical changes, including the changes of cell membrane permeability and nuclear chromatin, the contraction of cytoplasm and the loss of membrane asymmetry. The oxazole yellow/pi membrane permeability apoptosis detection kit produced by our company is a dual fluorescence detection kit based on oxazole yellow and PI dyes. This kit is suitable for fluorescence microscopy, flow cytometry, fluorescence microplate reader and other fluorescence detection systems. Oxazole yellow is a non cell membrane penetrating cyanine monomer green fluorescent dye with high affinity for DNA. It basically has no fluorescence when it is not bound to DNA, but can emit bright green fluorescence after binding to DNA. When apoptosis occurs, the permeability of cell membrane changes. At this time, oxazole yellow can enter the cell and bind to DNA, emitting bright green fluorescence. Therefore, it is often used for the detection of apoptosis. It should be noted that oxazole yellow can also stain dead cells, so it needs to be double stained with PI that specifically fluorescently stains dead cells to effectively determine apoptosis. PI (propidium iodide) is a red fluorescent dye that can stain DNA. It is an analog of pyridine bromide that releases red fluorescence after embedding double stranded DNA. Although PI cannot pass through the membrane of living cells, it can cross the damaged cell membrane of dead cells to stain nuclei. Therefore, oxazole yellow combined with PI can be directly used for the detection of apoptosis. Apoptotic cells show green fluorescence, dead cells show both red and green fluorescence positive, and living cells have little or no fluorescence.Components: Components O598364-50T A. Oxazole yellow dye 50 µL B. Propidium Iodide (PI) 50 µLUsage (using flow cytometry as an example):1. Cell preparation(1) For adherent cells, after trypsin digestion, resuspend in culture medium and wash once with pre cooled PBS; The digestion time of trypsin should not be too long to prevent false positives. Note: Digest with trypsin and allow the cells to recover in the optimal cell culture conditions and medium for about 30 minutes, then stain.(2) For suspended cells, centrifuge at 1000 rpm for 5 minutes, discard the supernatant, and wash once with pre cooled PBS.2. Cell stainingSuspend cells in pre cooled PBS, with a recommended cell count of 106 cells/mL per sample. Add 1 µ L Oxazole Yellow and 1 µ L to 1 mL of the samplePI, Gently blow and mix well. Incubate on ice in the dark for 30 minutes. Note: We suggest adding the following two experimental controls:Blank tube: negative control group cells, without dye, used to regulate voltage.Single staining tube: Positive control group cells were treated with only two tubes, Oxazole yellow and PI, for regulating compensation.3. Flow detectionAfter incubation, the sample can be directly detected by flow cytometry, or centrifuged at 1000 rpm for 5 minutes, the supernatant can be aspirated, and the sample can be resuspended in 1 mL of pre cooled PBS for flow cytometry detection. Oxazole yellow can be excited by a 488 nm laser, and the detected fluorescence emission spectrum is around 530 ± 30 nm (FITC channel), while the PI channel emission spectrum is around 617 nm (PI or PE channel).Product parameters:Oxazole yellow dye:ex/em = 491 / 509 nm (bound DNA); Propidium iodine:ex/em = 535 / 617 nm (combined with DMatters needing attention:1. please centrifuge the product to the bottom of the tube immediately before use, and then conduct subsequent experiments. 2. fluorescent dyes have quenching problems. Please try to avoid light to slow down fluorescence quenching. 3. for your safety and health, please wear experimental clothes and disposable gloves.Scope of application:Membrane permeability apoptosis assay... 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