Tyrosine mutant helps define overlapping CD bands from fd gene 5 protein · nucleic acid complexes

Autor: Mark, Barbara L., Gray, Donald M.
Zdroj: Biopolymers; September 1997, Vol. 42 Issue: 3 p337-348, 12p
Abstrakt: We used a mutant gene 5 protein (g5p) to assign and interpret overlapping CD bands of protein · nucleic acid complexes. The analysis of overlapping protein and nucleic acid CD bands is a common challenge for CD spectroscopists, since both components of the complex may change upon binding. We have now been able to more confidently resolve the bands of nucleic acids complexed with the fd gene 5 protein by exploiting a mutant gene 5 protein that has an insignificant change in tyrosine optical activity at 229 nm upon binding to nucleic acids. We have studied the interactions of the mutant Y34F g5p (Tyr-34 substituted with phenylalanine) with poly[r(A)], poly[d(A)], and fd single-stranded DNA (ssDNA). Our results showed the following: (1) The 205–300 nm spectrum of poly[r(A)] saturated with the Y34F mutant (P/N = 0.25) was essentially the sum of the spectra of poly[r(A)] at a high temperature plus the spectrum of the free protein, except for a minor negative band at 257 nm. (2) The spectra of poly[d(A)] and fd ssDNA saturated with the mutant protein at a P/N = 0.25, minus the spectra of the free nucleic acids at a high temperature, also essentially equaled the spectrum of the free protein in the 205–245 nm region. (3) While the overall secondary structure of the Y34F protein did not change upon binding to any of these nucleic acids, there could be changes in the environment of individual aromatic residues. (4) Nucleic acids complexed with the g5p are unstacked (as if heated) and (in the cases of the DNAs) perturbed as if part of a dehydrated double-stranded DNA. (5) Difference spectra revealed regions of the spectrum specific for the particular nucleic acid, the protein, and whether g5p was bound to DNA or RNA. © 1997 John Wiley and Sons, Inc. Biopoly 42: 337–348, 1997
Databáze: Supplemental Index