Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ribosomal proteins were extracted from 50S ribosomal subunits of the archaebacterium Halobacterium marismortui by decreasing the concentration of Mg2+ and K+, and the proteins were separated and purified by ion-exchange column chromatography on DEAE-cellulose. Ten proteins were purified to homogeneity and three of these proteins were subjected to sequence analysis. The complete amino acid sequences of the ribosomal proteins L25, L29 and L31 were established by analyses of the peptides obtained by enzymatic digestion with trypsin, Staphylococcus aureus protease, chymotrypsin and lysylendopeptidase. Proteins L25, L29 and L31 consist of 84, 115 and 95 amino acid residues with the molecular masses of 9472 Da, 12293 Da and 10418 Da respectively. A comparison of their sequences with those of other large-ribosomal-subunit proteins from other organisms revealed that protein L25 from H. marismortui is homologous to protein L23 from Escherichia coli (34.6%), Bacillus stearothermophilus (41.8%), and tobacco chloroplasts (16.3%) as well as to protein L25 from yeast (38.0%). Proteins L29 and L31 do not appear to be homologous to any other ribosomal proteins whose structures are so far known.
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PMID:Complete amino acid sequences of the ribosomal proteins L25, L29 and L31 from the archaebacterium Halobacterium marismortui. 335 19

The amino acid sequences of ribosomal proteins L1, L14, L15, L23, L24 and L29 from Bacillus stearothermophilus have been completely determined. This has been achieved by sequence analyses of peptides derived from enzymatic digestions of the proteins with trypsin, chymotrypsin, pepsin, Staphylococcus aureus protease, and Armillaria mellea protease as well as by chemical cleavage with hydroxylamine and cyanogen bromide. Based on the primary structures of the six proteins, their secondary structures were predicted using four different computer prediction programs. A comparison of the amino acid sequences of the studied proteins from B. stearothermophilus with the homologous proteins from Escherichia coli revealed that in four proteins (L1, L15, L24 and L29) between 40-50% of the residue in the sequences are identical, whereas this value is significantly higher (69%) for L14 and lower (28%) for L23. The distribution of those amino acid residues which are identical in the corresponding proteins from the two bacteria is not random along the protein chain: some regions are highly conserved whereas others are not. This finding indicates that the regions which are conserved during evolution are important for the spatial structure and/or function of the protein.
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PMID:The complete primary structure of ribosomal proteins L1, L14, L15, L23, L24 and L29 from Bacillus stearothermophilus. 401 95

Using the atomic structures of the large ribosomal subunit from Haloarcula marismortui and its complexes with two substrate analogs, we establish that the ribosome is a ribozyme and address the catalytic properties of its all-RNA active site. Both substrate analogs are contacted exclusively by conserved ribosomal RNA (rRNA) residues from domain V of 23S rRNA; there are no protein side-chain atoms closer than about 18 angstroms to the peptide bond being synthesized. The mechanism of peptide bond synthesis appears to resemble the reverse of the acylation step in serine proteases, with the base of A2486 (A2451 in Escherichia coli) playing the same general base role as histidine-57 in chymotrypsin. The unusual pK(a) (where K(a) is the acid dissociation constant) required for A2486 to perform this function may derive in part from its hydrogen bonding to G2482 (G2447 in E. coli), which also interacts with a buried phosphate that could stabilize unusual tautomers of these two bases. The polypeptide exit tunnel is largely formed by RNA but has significant contributions from proteins L4, L22, and L39e, and its exit is encircled by proteins L19, L22, L23, L24, L29, and L31e.
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PMID:The structural basis of ribosome activity in peptide bond synthesis. 1096 Mar 19