Analysis of Cap-binding Proteins in Human Cells Exposed to Physiological Oxygen Conditions
| Autor: | Erin J. Specker, James Uniacke, Brianna D. Guild, Sara Timpano, Gaelan Melanson, Sonia L. Evagelou |
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| Rok vydání: | 2016 |
| Předmět: |
0301 basic medicine
RNA Caps General Chemical Engineering Cell Culture Techniques Biology General Biochemistry Genetics and Molecular Biology 03 medical and health sciences Eukaryotic initiation factor 4F Eukaryotic translation Translational regulation Protein biosynthesis Genetics Humans Messenger RNA General Immunology and Microbiology General Neuroscience EIF4E Translation (biology) Cell biology Culture Media Oxygen 030104 developmental biology Biochemistry Eukaryotic Initiation Factor-4F Cell culture RNA Cap-Binding Proteins Protein Biosynthesis |
| Zdroj: | Journal of Visualized Experiments. |
| ISSN: | 1940-087X |
| Popis: | Translational control is a focal point of gene regulation, especially during periods of cellular stress. Cap-dependent translation via the eIF4F complex is by far the most common pathway to initiate protein synthesis in eukaryotic cells, but stress-specific variations of this complex are now emerging. Purifying cap-binding proteins with an affinity resin composed of Agarose-linked m7GTP (a 5' mRNA cap analog) is a useful tool to identify factors involved in the regulation of translation initiation. Hypoxia (low oxygen) is a cellular stress encountered during fetal development and tumor progression, and is highly dependent on translation regulation. Furthermore, it was recently reported that human adult organs have a lower oxygen content (physioxia 1-9% oxygen) that is closer to hypoxia than the ambient air where cells are routinely cultured. With the ongoing characterization of a hypoxic eIF4F complex (eIF4FH), there is increasing interest in understanding oxygen-dependent translation initiation through the 5' mRNA cap. We have recently developed a human cell culture method to analyze cap-binding proteins that are regulated by oxygen availability. This protocol emphasizes that cell culture and lysis be performed in a hypoxia workstation to eliminate exposure to oxygen. Cells must be incubated for at least 24 hr for the liquid media to equilibrate with the atmosphere within the workstation. To avoid this limitation, pre-conditioned media (de-oxygenated) can be added to cells if shorter time points are required. Certain cap-binding proteins require interactions with a second base or can hydrolyze the m7GTP, therefore some cap interactors may be missed in the purification process. Agarose-linked to enzymatically resistant cap analogs may be substituted in this protocol. This method allows the user to identify novel oxygen-regulated translation factors involved in cap-dependent translation. |
| Databáze: | OpenAIRE |
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