Abstract
The C terminus of the G protein alpha subunit represents an important site of interaction between heterotrimeric G proteins and their cognate receptors. We have screened a combinatorial peptide library based on the C terminus of the alpha subunit of Gt (340-350) and have identified unique sequences that bind rhodopsin with high affinity. Six of these sequences, as both fusion proteins and synthetic peptides, were significantly more potent than the parent sequence in binding to and stabilization of metarhodopsin II. These sequences provide information about which residues are required for appropriate receptor interaction. We observed that in all the high affinity sequences, a positively charged residue at position 341 was changed to a neutral one. Thus, it appears that the receptor-G protein interaction was designed to be low affinity to ensure efficient catalysis of G protein activation. We also observed Cys-347 and Gly-348 to be invariant, and hydrophobic residues were always located at positions 340, 344, 349, and 350, demonstrating the critical nature of these residues. A composite of the structures of the high affinity sequences was modeled based upon the structure of rhodopsin-bound trNOESY NMR of this region of Gt alpha (Dratz, E. D., Fursteneau, J. E., Lambert, C. G., Thireault, D. L., Rarick, H., Schepers, T., Pakhlevaniants, S., and Hamm, H. E. (1993) Nature 363, 276-280) and provides insight into the complementary G protein-binding surface of the receptor.
Highlights
Understanding the structural basis of receptor-G protein1 interaction is essential to defining a molecular mechanism of signal transduction
Library Construction and Panning—To explore the sequence requirements for binding of the C terminus of Gt␣ to activated rhodopsin and to search for potent peptide analogues, we constructed a mutagenesis library based on a 15-amino acid sequence consisting of a 4-amino acid linker and 11 amino acids from the C-terminal analog, Gt␣-K341R-340 –350 [7]
Plasmids recovered after each round of panning were amplified for additional rounds of panning after transformation of E. coli [14, 15]
Summary
Understanding the structural basis of receptor-G protein1 interaction is essential to defining a molecular mechanism of signal transduction. We have developed several high affinity analogues of Gt␣-340 –350 and have gained insight into the structural requirements for peptide binding and stabilization of the activated conformation of rhodopsin, metarhodopsin II (Meta II). The dose response for the ability of each of these MBP fusion proteins to compete with the LacI-Gt␣-K341R-340 – 350 fusion protein for binding to light-activated rhodopsin was measured in an ELISA format [15].
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