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Drug
Enzyme
Compound
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Query: UMLS:C0162473 (
Frey
)
2,599
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Galactose-1-phosphate uridylyltransferase (GalT) catalyzes the reversible transformation of UDP-glucose and galactose-1-phosphate (Gal-1-P) into UDP-galactose and glucose-1-phosphate (Glc-1-P) by a double displacement mechanism, with the intermediate formation of a covalent uridylyl-enzyme (UMP-enzyme). GalT is a metalloenzyme containing 1.2 mol of
zinc
and 0.7 mol of iron/mol of subunits [Ruzicka, F. J., Wedekind, J. E., Kim, J., Rayment, I., and
Frey
, P. A. (1995) Biochemistry 34, 5610-5617]. The
zinc
site lies 8 A from His 166 in active site, and the iron site lies 30 A from the active site [Wedekind,J. E.,
Frey
, P. A., & Rayment, I. (1995) Biochemistry 34, 11049-11061].
Zinc
is coordinated in tetrahedral geometry by Cys 52, Cys 55, His 115, and His 164. His 164 is part of the highly conserved active-site triad His 164-Pro 165-His 166, in which His 166 is the nucleophilic catalyst. Iron is coordinated in square pyramidal geometry with His 296, His 298, and Glu 182 in bidentate coordination providing the base ligands and His 281 providing the axial ligand. In the present study, site-directed mutagenesis, kinetic, and metal analysis studies show that C52S-, C55S-, and H164N-GalT are 3000-, 600-, and 10000-fold less active than wild-type. None of the variants formed the UMP-enzyme in detectable amounts upon reaction with UDP-Glc in the absence of Gal-1-P. Their
zinc
content was very low, and the
zinc
+ iron content was about 50% of that for wild-type GalT. Mutation of His 115 to Asn 115 resulted in decreased activity to 2.9% of wild-type, with retention of
zinc
and iron. In contrast to the
zinc
-binding site, Glu 182 in the iron site is not important for enzymatic activity. The variant E182A-GalT displayed about half the activity of wild-type GalT, and all of the active sites underwent uridylylation to the UMP-enzyme, similar to wild-type GalT, upon reaction with UDP-Glc. Metal analysis showed that while E182A-GalT contained 0.9 equiv of
zinc
/subunit, it contained no iron. The residual
zinc
can be removed by dialysis with 1,10-phenanthroline, with the loss in activity being proportional to the amount of residual
zinc
. It is concluded that the presence of
zinc
is essential for maintaining GalT function, whereas the presence of iron is not essential.
...
PMID:Significance of metal ions in galactose-1-phosphate uridylyltransferase: an essential structural zinc and a nonessential structural iron. 1052 16
The rubella virus (RUB) nonstructural (NS) protein (NSP) ORF encodes a protease that cleaves the NSP precursor (240 kDa) at a single site to produce two products. A cleavage site mutation was introduced into a RUB infectious cDNA clone and found to be lethal, demonstrating that cleavage of the NSP precursor is necessary for RUB replication. Based on computer alignments, the RUB NS protease was predicted to be a papain-like cysteine protease (PCP) with the residues Cys1152 and His1273 as the catalytic dyad; however, the RUB NS protease was recently found to require divalent cations such as Zn, Co, and Cd for activity (X. Liu, S. L. Ropp, R. J. Jackson, and T. K.
Frey
, J. Virol. 72:4463-4466, 1998). To analyze the function of metal cation binding in protease activity, Zn binding studies were performed using the minimal NS protease domain within the NSP ORF. When expressed as a maltose binding protein (MBP) fusion protein by bacteria, the NS protease exhibited activity both in the bacteria and in vitro following purification when denatured and refolded in the presence of Zn. Atomic absorption analysis detected 1.6 mol of Zn bound per mol of protein refolded in this manner. Expression of individual domains within the protease as MBP fusions and analysis by a Zn(65) binding assay revealed two Zn binding domains: one located at a predicted metal binding motif beginning at Cys1175 and the other one close to the cleavage site. Mutagenesis studies showed that Cys1175 and Cys1178 in the first domain and Cys1227 and His1273, the His in the predicted catalytic site, in the second domain are essential for
zinc
binding. All of these residues are also necessary for the protease activity, as were several other Cys residues not involved in Zn binding. Far-UV circular dichroism (CD) analysis of the MBP-NS protease fusion protein showed that the protease domain contained a large amount of alpha-helical structure, which is consistent with the results of secondary-structural prediction. Both far-UV-CD and fluorescence studies suggested that Zn did not exert a major effect on the overall structure of the fusion protein. Finally, protease inhibitor assays found that the protease activity can be blocked by both metal ion chelators and the metalloprotease inhibitor captopril. In conjunction with the finding that the previously predicted catalytic site, His1273, is essential for
zinc
binding, this suggests that the RUB NS protease is actually a novel virus metalloprotease rather than a PCP.
...
PMID:Characterization of the zinc binding activity of the rubella virus nonstructural protease. 1084 76
Zinc
enriched (ZEN) neurons and terminals are abundant in the rodent spinal cord.
Zinc
ions have been suggested to modulate the excitability of primary afferent fibers believed to be important in nociceptive transmission. To test the hypothesis that vesicular
zinc
concentration is related to neuropathic pain we applied Chung's rodent pain model on BALB/c mice, and traced zinc transporter 3 (ZnT3) proteins and
zinc
ions with immunohistochemistry and autometallography (AMG), respectively. Under anesthesia the left fifth lumbar spinal nerve was ligated in male mice in order to produced neuropathic pain. The animals were then sacrificed 5 days later. The ZnT3 immunoreactivity was found to have decreased significantly in dorsal horn of fourth, fifth, and sixth lumbar segments. In parallel with the depressed ZnT3 immunoreactivity the amount of vesicular
zinc
decreased perceptibly in superficial gray matters of especially layer I-IV of the same segments. The transection-induced reduction of vesicular
zinc
in ZEN terminals of the dorsal horn was synchronic to reduced pain threshold, as measured by von
Frey
method. In a separate study, we observed intensive
zinc
selenite precipitation in somata of the smaller spinal ganglion cell, but 5 days after spinal nerve transection
zinc
precipitation was also found in the lager ganglion cells. The present results indicate that
zinc
may be involved in pain mechanism in the spinal ganglion level. These results support the hypothesis that vesicular
zinc
might have a modulatory role for neuropathic pain. Thus, increased pain sensitivity might be related to reduce vesicular
zinc
level in the dorsal spinal gray matter.
...
PMID:Depletion of vesicular zinc in dorsal horn of spinal cord causes increased neuropathic pain in mice. 1757 38
