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Query: UNIPROT:P15088 (
mast cell
)
14,925
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A new purification procedure for
isocitrate lyase
from Pinus pinea is reported. The final preparation shows charge homogeneity and a purity degree higher than 95%. It is possible to remove catalase completely by exploiting the high hydrophobicity of
isocitrate lyase
. The enzyme has a Mr of 264,000 and is likely composed of four subunits, each with a Mr of 66,000. The binding of radioactively labeled oxalate revealed four catalytic sites per oligomer. These data suggest that
isocitrate lyase
subunits are similar, if not identical. The Michaelis constant for isocitrate is equal to 33 microM; molecular activity is about 2670 mol X min-1 X mol of enzyme-1. The amino acid composition of the enzyme was also determined. Isocitrate lyase appears resistant to proteolysis by
carboxypeptidase A
. Hydrazinolysis, Edman degradation, and dansyl chloride treatment indicate that both carboxy and amino terminals are probably inaccessible or blocked.
...
PMID:An isocitrate lyase of higher plants: analysis and comparison of some molecular properties. 394 71
The cleavage of D(s)-isocitrate catalyzed by
isocitrate lyase
from Linum usitatissimum results in the ordered release of succinate and glyoxylate. The glyoxylate analog 3-bromopyruvate irreversibly inactivates the flax enzyme in a process exhibiting saturation kinetics and protection by glyoxylate or isocitrate or the competitive inhibitor l-tartrate. Succinate provides considerably less protection. Results with 3-bromopyruvate suggest that this reagent modifies plant and prokaryotic isocitrate lyases differently. Treatment of the tetrameric 264,000-dalton flax enzyme with
carboxypeptidase A
results in a release of one histidine/subunit which is concordant with loss of activity. The only N-terminal residue is methionine. Treatment of flax enzyme with diethylpyrocarbonate at pH 6.5 selectively modifies two histidines per 67,000-dalton subunit. The reaction of one histidine residue is abolished by the binding of l-tartrate and the modification of one is coincident with inactivation. The carboxy-terminal and active-site modifications establish that one histidine residue/monomer is essential in the flax enzyme and considerably extend information heretofore available only for fungal and bacterial
isocitrate lyase
.
...
PMID:Isocitrate lyase from flax : terminal residues, composition, active site, and catalysis. 1666 48
