siRNA / miRNA gene silencing Human Primary Human Aortic Endothelial Cells GLO-1

Get tips on using Naive B Cell Isolation Kit II, human to perform Cell Isolation Naive B cell

Get tips on using Galacto-Star™ β-Galactosidase Reporter Gene Assay System for Mammalian Cells to perform Reporter gene assay β-galactosidase substrates - BHK-21 baby hamster kidney cells

The process of RNA extraction from bacteria, in general, involves an RNA-protective, effective lysis of bacterial cell wall (which may pose difficulties). EDTA promotes loss of outer membrane to provide lysozyme with access to peptidoglycan. Another common method for cell wall lysis is mechanical disruption using a homogenizer (applied for gram-positive bacteria and some strains of gram-negative bacteria). Following lysis, it is necessary to disrupt protein-nucleic acid interactions, which can be achieved by adding sodium dodecyl sulfate (SDS). Next step involves using phenol-chloroform-isoamyl alcohol extraction, where RNA can be obtained from the bottom organic phase, the top phase consists of DNA and the interphase contains proteins. Isoamyl alcohol is an inert and optional addition to this mixture and is added as an anti-foaming reagent to reduce the interphase. Following RNA extraction, the samples should be checked for its quality by gel electrophoresis (23S and 16S rRNAs and 5s rRNA and tRNA bands) or UV spectrophotometric or fluorescence methods.

Wound healing assay can be challenging due to inconsistencies and variations while making a wound on the confluent cell monolayer, consequently leads to wounds of varying sizes and widths. Moreover, this assay causes damage to the cells that are at the edge of the wound, which can prevent cell migration into the wound site and healing. The best solution is to use the standard wound healing assay kits using either combs or inserts to make a defined wound field or gap and prevent the well-to-well variation in these assays.

Get tips on using Naive Pan T Cell Isolation Kit, human to perform Cell Isolation Naive Pan T cell

Get tips on using Polyclonal Rabbit Anti-Human Myeloperoxidase (Dako Omnis) to perform Immunohistochemistry Mouse - MPO

Get tips on using NLRP3/NALP3 (human) monoclonal antibody (Nalpy3-b) to perform Western blotting NLRP3

Get tips on using Purified anti-mouse/rat/human FOXP3 Antibody to perform Western blotting FOXP3

Get tips on using Phospho-ULK1 (Ser757) Antibody to perform Autophagy assay cell type - Human primary MSCs

Flow cytometry is an immunophenotyping technique whereby sing cell suspensions are stained for either cell surface markers or intracellular proteins by fluorescently-labelled antibodies and analyzed with a flow cytometer, where fluorescently-labelled molecules are excited by the laser to emit light at varying wavelengths, which is then detected by the instrument. There are several key criteria which are required to be kept in mind while designing a flow experiment- 1. Antibody titration (optimal dilution of antibodies should be calculated in order to avoid over- or under- saturated signals for proper detection of surface and intracellular markers), 2. Precision (3 or more replicates of the sample should be used per experiment), 3. Specificity (proper isotype controls should be included in the experiment), 4. Day-to-day variability (experiments should be repeated 3 or more times to ensure consistency and avoid variability due to flow cytometer settings), 5. Antibody interaction (Fluorescence minus one or FMO should be used, which is the comparison of signals from panel minus one antibody vs. the full panel), and 6. Antibody stability (fluorescently-labelled antibodies should be stored at 4C).