IDENTIFICATION OF STRUCTURAL MARKERS FOR VITAMIN-B12 AND OTHER CORRINOID DERIVATIVES IN SOLUTION USING FTIR SPECTROSCOPY

被引:30
作者
TARASZKA, KS [1 ]
CHEN, E [1 ]
METZGER, T [1 ]
CHANCE, MR [1 ]
机构
[1] GEORGETOWN UNIV,DEPT CHEM,37TH & O ST,WASHINGTON,DC 20057
关键词
D O I
10.1021/bi00219a009
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The identification of structural markers for B-12/protein interactions is crucial to a complete understanding of vitamin B-12 transport and metabolic reaction mechanisms of B-12 coenzymes. Fourier transform infrared spectroscopy can provide direct measurements of changes in the side chains and corrin ring resulting from B-12/protein interactions. Using FTIR spectroscopy in various solvent systems, we have identified structural markers for corrinoids in the physiological state. We assign the major band (denoted B), which occurs at ca. 1630 cm-1 in D2O and ca. 1675 cm-1 in ethanol, to the amide I C = O stretching mode of the propionamide side chains of the corrin ring. The lower frequency of band B in D2O versus ethanol is due to the greater hydrogen-bonding properties of D2O that stabilize the charged amide resonance form. Since the propionamides are known to be important in protein binding, band B is a suitable marker for monitoring the interaction of these side chains with proteins. We assign bands at ca. 1575 and 1545 cm-1 (denoted C and D) as breathing modes of the corrin ring on the basis of the bands' solvent independence and their sensitivity to changes in axial ligation. As the sigma-donating strength of the axial ligands increases, the frequencies of bands C and D decrease, possibly indicating a lengthening of the corrin conjugated system. Band A, the known cyanide stretching frequency at ca. 2130 cm-1, probes the cobalt-carbon distance in cyanocorrinoids. As the frequency of band A increases, the cobalt-carbon bond strength should decrease.
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页码:1222 / 1227
页数:6
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