The selenocysteine-specific elongation factor contains unique sequences that are required for both nuclear export and selenocysteine incorporation

Keyphrases

• Nuclear Export 100%
• Selenocysteine 100%
• Selenocysteine Incorporation 100%
• Elongation Factor 100%
• Specific Elongation 100%
• Unique Sequences 100%
• Nuclear Localization 28%
• Selenoprotein 28%
• Recoding 28%
• Mammalian Cells 14%
• Subcellular Localization 14%
• Antioxidant System 14%
• Functional Significance 14%
• Codon 14%
• Eukaryotes 14%
• Redox Signaling 14%
• Unknown Function 14%
• Novel Sequences 14%
• Human Proteins 14%
• Export Pathways 14%
• High Specificity 14%
• Translation Initiation Factor 14%
• CRM1 14%
• Termination Codon 14%
• Nuclear Compartments 14%
• Eukaryotic Translation Elongation Factor 1A (eEF1A) 14%
• Defense Signaling 14%

Biochemistry, Genetics and Molecular Biology

• Nuclear Export 100%
• Selenocysteine 100%
• Elongation Factor 100%
• Codon 20%
• Selenoprotein 20%
• Subcellular Localization 10%
• Eukaryote 10%
• Recoding Event 10%