Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.3.3.1 (citrate synthase)
 4,488 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Knowledge of the interactive domains on the surface of small heat shock proteins (sHSPs) is necessary for understanding the assembly of complexes and the activity as molecular chaperones. The primary sequences of 26 sHSP molecular chaperones were aligned and compared. In the interactive beta3 sequence, 73DRFSVNLDVKHFS85 of human alphaB crystallin, Ser-76, Asn-78, Lys-82, and His-83 were identified as nonconserved residues on the exposed surface of the alpha crystallin core domain. Site-directed mutagenesis produced the mutant alphaB crystallins: S76E, N78G, K82Q, and H83F. Domain swapping with homologous beta3 sequences, 32EKFEVGLDVQFFT44 from Caenorhabditis elegans sHSP12.2 or 69DKFVIFLDVKHFS81 from alphaA crystallin, resulted in the mutant alphaB crystallins, CE1 and alphaA1, respectively. Decreased chaperone activity was observed with the point mutants N78G, K82Q, and H83F and with the mutant, CE1, in aggregation assays using betaL crystallin, alcohol dehydrogenase (ADH), or citrate synthase (CS). The S76E mutant had minimal effect on chaperone activity, and domain swapping with alphaA crystallin had no effect on chaperone activity. The mutations that resulted in altered chaperone activity, produced minimal modification to the secondary, tertiary, and quaternary structure of human alphaB crystallin as determined by ultraviolet circular dichroism spectroscopy, chymotrypsin proteolysis, and size exclusion chromatography. Chaperone activity was influenced by the amount of unfolding of the target proteins and independent of complex size. The results characterized the importance of the exposed side chains of Glu-78, Lys-82, and His-83 in the interactive beta3 sequence of the alpha crystallin core domain in alphaB crystallin for chaperone function.
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PMID:The function of the beta3 interactive domain in the small heat shock protein and molecular chaperone, human alphaB crystallin. 1681 25

We previously found that the peroxisomal citrate synthase of Saccharomyces cerevisiae, Cit2p, contains a cryptic targeting signal for both peroxisomes (PTS) and mitochondria (MTS) within its 20-amino acid N-terminal segment [Lee et al. (2000) J. Biochem. 128, 1059-1072]. In the present study, the fine structure of the cryptic signal was scrutinized using green fluorescent protein fusions led by variants of the N-terminal segment. The minimum ranges of the cryptic signals for mitochondrial and peroxisomal targeting were shown to consist of the first 15- and 10-amino acid N-terminal segments, respectively. Substitution of the 3rd Val, 6th Leu, 7th Asn, or 8th Ser with Ala abolished the cryptic MTS function, however, no single substitution causing an obvious defect in PTS function was found. Neither the 15-amino acid N-terminal segment nor the C-terminal SKL sequence (PTS1) was necessary for Cit2p to restore the glutamate auxotrophy caused by the double Deltacit1 Deltacit2 mutation. The Cit2p variant lacking PTS1 [Cit2(DeltaSKL)p] partially restored the growth of both the Deltacit1 Deltacit2 and Deltacit1 mutants on acetate, while that carrying intact PTS1 or lacking the N-terminal segment [Cit2p, Cit2((DeltaNDeltaSKL))p, and Cit2((DeltaN))p] did not. It is thus suggested that the potential of the N-terminal segment as an ambidextrous targeting signal can be unmasked by deletion of PTS1.
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PMID:Mutational and functional analysis of the cryptic N-terminal targeting signal for both mitochondria and peroxisomes in yeast peroxisomal citrate synthase Cit2p. 1687 73


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