He. Witkowska et al., MASS-SPECTROMETRIC ANALYSIS OF A NATIVE ZINC-FINGER STRUCTURE - THE GLUCOCORTICOID RECEPTOR DNA-BINDING DOMAIN, Journal of the American Chemical Society, 117(12), 1995, pp. 3319-3324
The DNA binding domain of the glucocorticoid receptor (GR DBD, recombi
nant, human amino acids 419-501) was analyzed intact under neutral con
ditions by electrospray ionization mass spectrometry (ESI MS), The Zn-
containing GR DBD and its Cd-containing counterpart both showed stoich
iometry of two metal atoms attached to a molecule of metalloprotein (m
olecular mass 9600 +/- 2.1 Da (n = 4) and molecular mass 9693 +/- 1.3
Da, respectively). GR DBD analyzed at low pH gave the molecular mass e
xpected for the apoprotein: 9474 +/- 1 Da (n 4) (average M(r) 9474.4),
There was a difference in the distribution envelopes of molecular ion
s in ESI mass spectra of the Zn- and Cd-containing GR DBD's depending
upon conditions of the ESI MS experiment. In acidic (denaturing) condi
tions, molecular ion envelopes moved toward lower M/Z values, while at
neutral pH in aqueous solvent, a characteristic low level of protonat
ion was noted, the latter indicative of preservation of some higher-or
der structure during ESI MS analysis, For electrospray ionization mass
spectrometric analysis, the native proteins in ammonium bicarbonate b
uffer were injected into a stream of 50 mM pyridine acetate (pH 5.9) a
nd delivered to the VG BioQ instrument at a flow rate of 4 mu L/min. D
enatured proteins were analyzed either by injection into a stream of 5
0% acetonitrile/0.1% trifluoroacetic acid or on-line with HPLC using a
reversed phase narrow bore PLRP-S column(l x 50 mm).