Jennifer D. Miller scite author profile

A 35-amino acid peptide corresponding to the putative "zinc finger" sequence of primase was prepared to study its zinc binding properties. When zinc was added to the peptide, it was found that the fluorescence quantum yield of the single tyrosine increased by 46% and the average lifetime by 34%. The binding stoichiometry was one zinc per peptide. Below pH 6.0 and above pH 8.5, the zinc-peptide binding affinity was less than 1 microM and could be accurately determined. Interpolation from those binding constants suggested that the affinity at pH 7.5 was between 10 and 100 nM. The absorption spectrum of the cobalt(II)-peptide complex was consistent with tetrahedral metal coordination by three sulfur and one imidazole nitrogen ligands. The peptide affinity for cobalt was less than for zinc, indicating metal specificity. Analysis of the fluorescence intensity pH profile, circular dichroism spectra, the effect of extrinsic quenchers indicated that at neutral pH (1) the free peptide up into a structure to place the tyrosine in an environment protected from solvent, (2) the peptide bound zinc via its three cysteines and one of its histidines resulting in little change to the polypeptide secondary structure or to the tyrosine solvent accessibility, and (3) when the peptide bound zinc, it bound directly to or caused the immobilization of the groups that had been intramolecularly collisionally quenching the tyrosine which resulted in the observed increases in tyrosine quantum yield and lifetime.

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Effects of Airborne Pollutants

Pell¹,

Miller²,

Bielenberg³

2004

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Jennifer D. Miller

Senescence-Associated Gene Expression during Ozone-Induced Leaf Senescence in Arabidopsis1

Paraheliotropism in two Phaseolus species: combined effects of photon flux density and pulvinus temperature, and consequences for leaf gas exchange

The Tyrosine Photophysics of a Primase-Derived Peptide Are Sensitive to the Peptide's Zinc-Bound State: Proof That the Bacterial Primase Hypothetical Zinc Finger Sequence Binds Zinc

Effects of Airborne Pollutants

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