What is the role of the Ran-GEF protein in nuclear transport? Ran-GEF converts RanGTP to RanGDP Ran-GEF binds Ran-GAP on inside of nucleus to speed up transport Ran-GEF converts RanGDP to RanGTP Ran-GEF maintains the RanGTP concentration on the inside of the nucleus low Ran-GEF binds directly to the nuclear pore to facilitate transport
Gene Interactions
When the expression of a single trait is influenced by two or more different non-allelic genes, it is termed as genetic interaction. According to Mendel's law of inheritance, each gene functions in its own way and does not depend on the function of another gene, i.e., a single gene controls each of seven characteristics considered, but the complex contribution of many different genes determine many traits of an organism.
Gene Expression
Gene expression is a process by which the instructions present in deoxyribonucleic acid (DNA) are converted into useful molecules such as proteins, and functional messenger ribonucleic (mRNA) molecules in the case of non-protein-coding genes.
What is the role of the Ran-GEF protein in nuclear transport?
- Ran-GEF converts RanGTP to RanGDP
- Ran-GEF binds Ran-GAP on inside of nucleus to speed up transport
- Ran-GEF converts RanGDP to RanGTP
- Ran-GEF maintains the RanGTP concentration on the inside of the nucleus low
- Ran-GEF binds directly to the nuclear pore to facilitate transport
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