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Protein isolation is a technique that involves isolation and/ or purification of protein from cells or tissues via chromatography or electrophoresis. The major challenges in protein isolation include: 1. The concentration of proteins in cells is variable and tends to be small for some intracellular proteins. Unlike nucleic acids, proteins cannot be amplified. 2. Proteins are more unstable than nucleic acids. They are easily denatured under suboptimal temperature, pH or salt concentrations. 3. Finally, no generalized technique/protocol can be applied for protein isolation. Proteins may have different electrostatic (number of positively or negatively charged amino acids) or hydrophobic properties. Therefore, protein purification requires multiple steps depending on their charge (a negatively charged resin/column for positively charged proteins and vice-versa), dissolution (using detergents) and unlike in the case of DNA and RNA, instead of using salts, proteins should be isolated by isoelectric precipitation.

Proteins Protein isolation Mammalian cells Mouse Epididymal fat

Protein expression refers to the techniques in which a protein of interest is synthesized, modified or regulated in cells. The blueprints for proteins are stored in DNA which is then transcribed to produce messenger RNA (mRNA). mRNA is then translated into protein. In prokaryotes, this process of mRNA translation occurs simultaneously with mRNA transcription. In eukaryotes, these two processes occur at separate times and in separate cellular regions (transcription in nucleus and translation in the cytoplasm). Recombinant protein expression utilizes cellular machinery to generate proteins, instead of chemical synthesis of proteins as it is very complex. Proteins produced from such DNA templates are called recombinant proteins and DNA templates are simple to construct. Recombinant protein expression involves transfecting cells with a DNA vector that contains the template. The cultured cells can then transcribe and translate the desired protein. The cells can be lysed to extract the expressed protein for subsequent purification. Both prokaryotic and eukaryotic protein expression systems are widely used. The selection of the system depends on the type of protein, the requirements for functional activity and the desired yield. These expression systems include mammalian, insect, yeast, bacterial, algal and cell-free. Each of these has pros and cons. Mammalian expression systems can be used for transient or stable expression, with ultra high-yield protein expression. However, high yields are only possible in suspension cultures and more demanding culture conditions. Insect cultures are the same as mammalian, except that they can be used as both static and suspension cultures. These cultures also have demanding culture conditions and may also be time-consuming. Yeast cultures can produce eukaryotic proteins and are scalable, with minimum culture requirements. Yeast cultures may require growth culture optimization. Bacterial cultures are simple, scalable and low cost, but these may require protein-specific optimization and are not suitable for all mammalian proteins. Algal cultures are optimized for robust selection and expression, but these are less developed than other host platforms. Cell-free systems are open, free of any unnatural compounds, fast and simple. This system is, however, not optimal for scaling up.

Proteins Protein Expression Prokaryotic cells E. coli mouse TNF-(α)

Get tips on using Mouse CRP / C Reactive Protein / PTX1 PicoKine™ ELISA Kit to perform ELISA Mouse - C-Reactive Protein/CRP

Products BosterBio Mouse CRP / C Reactive Protein / PTX1 PicoKine™ ELISA Kit

DNA microarrays enable researchers to monitor the expression of thousands of genes simultaneously. However, the sensitivity, accuracy, specificity, and reproducibility are major challenges for this technology. Cross-hybridization, combination with splice variants, is a prime source for the discrepancies in differential gene expression calls among various microarray platforms. Removing (either from production or downstream bioinformatic analysis) and/or redesigning the microarray probes prone to cross-hybridization is a reasonable strategy to increase the hybridization specificity and hence, the accuracy of the microarray measurements.

DNA Microarray Comperative genomic hybridization Mouse iPSC

Get tips on using QuantiPro™ BCA Assay Kit to perform Protein quantification Mammalian cells - L929

Products Sigma-Aldrich QuantiPro™ BCA Assay Kit

Get tips on using QuantiPro™ BCA Assay Kit to perform Protein quantification Mammalian cells - RAW264.7

Products Sigma-Aldrich QuantiPro™ BCA Assay Kit

Get tips on using Qubit™ Protein Assay Kit to perform Protein quantification Mammalian cells - HeLa

Products Thermo Fisher Scientific Qubit™ Protein Assay Kit

Get tips on using VENTANA anti-MLH1 (M1) Mouse Monoclonal Primary Antibody to perform Immunohistochemistry Human - MLH1

Products Roche Lifesciences VENTANA anti-MLH1 (M1) Mouse Monoclonal Primary Antibody

Get tips on using Monoclonal Anti-Connexin-43 antibody produced in mouse to perform Western blotting CX43

Products Sigma-Aldrich Monoclonal Anti-Connexin-43 antibody produced in mouse

Get tips on using Human/Mouse/Rat Activin A Quantikine ELISA Kit to perform ELISA Rat - Activin

Products R&D Systems Human/Mouse/Rat Activin A Quantikine ELISA Kit

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