Immunohistochemistry Alpha smooth muscle Actin Rabbit Mouse

Get tips on using CD29 (Integrin beta 1) Monoclonal Antibody (eBioHMb1-1 (HMb1-1)), APC, eBioscience™ to perform Flow cytometry Anti-bodies Mouse - CD29/β1-Integrin

Get tips on using MHC Class II (I-A/I-E) Monoclonal Antibody (M5/114.15.2), eFluor 450, eBioscience™ to perform Flow cytometry Anti-bodies Mouse - MHCII

Get tips on using BLOCK-iT™ Adenoviral RNAi Expression System, pAd/BLOCK-iT™-DEST RNAi Gateway Vector to perform shRNA gene silencing Mouse - P19 Foxm1

Get tips on using JetFlex™ Genomic DNA Purification Kit to perform DNA isolation / purification Bacteria - Gram positive Actinomycytes

Get tips on using GenElute™ Bacterial Genomic DNA Kit to perform DNA isolation / purification Bacteria - Gram positive Actinomycytes

Get tips on using HiPurA™ Streptomyces DNA Purification Kit to perform DNA isolation / purification Bacteria - Gram positive Actinomycytes

Get tips on using E.Z.N.A.® Plasmid Mini Kit I, (Q-spin) to perform Plasmid Isolation Actinomyces odontolyticus

Plasmid isolation is an important technique in molecular biology or any kind of genetic editing. It involves amplifying plasmids overnight by transforming them into competent bacterial cells. The desired colonies of these bacteria can then be grown in shaker cultures, at appropriate shaking speed, oxygen availability and temperature. These liquid cultures can then be ultracentrifuged to pellet the bacteria, which are then used for plasmid isolation. The bacteria are first resuspended in a buffer, then lysed, neutralized, purified in a column, eluted, precipitated with ethanol and then resuspended. During plasmid isolation, it is important to lyse cells quickly because lysing bacteria for too long may lead to irreversible denaturing of the plasmid. Usually, alkaline lysis is used for isolation because it is a mild treatment. It isolates plasmid DNA and other cell components such as proteins by breaking cells apart with an alkaline solution. Precipitation removes the proteins, and the plasmid DNA recovers with alcohol precipitation. Resuspension and lysis buffers should be mixed thoroughly in order to prevent the DNA from breaking into smaller fragments. This is because broken gDNA can reanneal and remain in the solution, without binding to the column.

Plasmid isolation is an important technique in molecular biology or any kind of genetic editing. It involves amplifying plasmids overnight by transforming them into competent bacterial cells. The desired colonies of these bacteria can then be grown in shaker cultures, at appropriate shaking speed, oxygen availability and temperature. These liquid cultures can then be ultracentrifuged to pellet the bacteria, which are then used for plasmid isolation. The bacteria are first resuspended in a buffer, then lysed, neutralized, purified in a column, eluted, precipitated with ethanol and then resuspended. During plasmid isolation, it is important to lyse cells quickly because lysing bacteria for too long may lead to irreversible denaturing of the plasmid. Usually, alkaline lysis is used for isolation because it is a mild treatment. It isolates plasmid DNA and other cell components such as proteins by breaking cells apart with an alkaline solution. Precipitation removes the proteins, and the plasmid DNA recovers with alcohol precipitation. Resuspension and lysis buffers should be mixed thoroughly in order to prevent the DNA from breaking into smaller fragments. This is because broken gDNA can reanneal and remain in the solution, without binding to the column.

Get tips on using Muse® Cell Cycle Assay Kit to perform Cell cycle assay human - SW480