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)

The amino acid sequences of two ribosomal proteins, S14 and S16, from the archaebacterium Halobacterium marismortui have been determined. Sequence data were obtained by the manual and solid-phase sequencing of peptides derived from enzymatic digestions with trypsin, chymotrypsin, pepsin, and Staphylococcus aureus protease as well as by chemical cleavage with cyanogen bromide. Proteins S14 and S16 contain 109 and 126 amino acid residues and have Mr values of 11,964 and 13,515, respectively. Comparison of the sequences with those of ribosomal proteins from other organisms demonstrates that S14 has a significant homology with the rat liver ribosomal protein S11 (36% identity) as well as with the Escherichia coli ribosomal protein S17 (37%), and that S16 is related to the yeast ribosomal protein YS22 (40%) and proteins S8 from E. coli (28%) and Bacillus stearothermophilus (30%). A comparison of the amino acid residues in the homologous regions of halophilic and nonhalophilic ribosomal proteins reveals that halophilic proteins have more glutamic acids, asparatic acids, prolines, and alanines, and less lysines, arginines, and isoleucines than their nonhalophilic counterparts. These amino acid substitutions probably contribute to the structural stability of halophilic ribosomal proteins.
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PMID:The primary structures of ribosomal proteins S14 and S16 from the archaebacterium Halobacterium marismortui. Comparison with eubacterial and eukaryotic ribosomal proteins. 330 3

The amino acid sequences of three extremely acidic ribosomal proteins, S6, S12, and S15, from Halobacterium marismortui have been determined. The sequences were obtained by the sequence analysis of peptides derived by enzymatic digestion with trypsin. Stapylococcus aureus protease and chymotrypsin, as well as by cleavage with dilute HCl. The proteins, S6, S12 and S15, consist of 116, 147 and 102 amino acid residues, and have molecular masses of 12,251, 16,440 and 11,747 Da, respectively. Comparison of the amino acid sequences of these proteins with ribosomal protein sequences of other organisms revealed that halobacterial protein S12 has homology with the eukaryotic protein S16A from Saccharomyces cerevisiae, while S15 is significantly related to the Xenopus laevis S19 protein. No homology was found between these halobacterial proteins and any eubacterial ribosomal proteins.
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PMID:Primary structures of three highly acidic ribosomal proteins S6, S12 and S15 from the archaebacterium Halobacterium marismortui. 331 48

Two large polypeptide fragments of ribosomal protein L16 were obtained by limited hydrolysis with trypsin and chymotrypsin. The chymotryptic fragment, lacking nine N-terminal amino acids residues, is fully active in the restoration of the peptidyltransferase activity of the LiCl-stripped 50-S ribosomal subunits, whereas the tryptic fragment, lacking an additional six residues, is inactive. We also show that under the optimized ionic conditions protein L16 is not needed for the peptidyltransferase activity.
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PMID:The role of protein L16 and its fragments in the peptidyltransferase activity of 50-S ribosomal subunits. 688 53

The complete primary structure of an acidic ribosomal protein YPA1 from Saccharomyces cerevisiae has been determined. YPA1 is composed of 110 amino acid residues and has the composition: Asp7, Asn2, Thr2, Ser9, Glu15, Gln2, Pro3, Gly15, Ala21, Val6, Met2, Ile4, Leu9, Tyr2, Phe3, Lys7 and Arg1. The molecular weight of YPA1 is 11,020. The amino acid sequence was determined by 4-N,N-dimethylaminoazobenzene 4'-isothiocyanate degradation of the peptides obtained by digestions with trypsins, chymotrypsin, thermolysin, pepsin and Staphylococcus aureus protease of intact protein. A comparison of protein YPA1 from yeast with eL12 from Artemia salina shows a high sequence similarity. A considerable similarity is also shown with HL20 from Halobacterium cutirubrum. On the other hand, there is very little apparent sequence similarity between YPA1 and the eubacterial acidic protein L12 either from E. coli or B. subtilis.
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PMID:Primary structure of an acidic ribosomal protein YPA1 from Saccharomyces cerevisiae. Isolation and characterization of peptides and the complete amino acid sequence. 703 Apr 2

Expressed sequence tag (EST) sequences can provide a wealth of data for phylogenetic and genomic studies, but the utility of these resources is restricted by poor taxonomic sampling. Here, we use small EST libraries (<1,000 clones) to generate phylogenetic markers across a broad sample of insects, focusing on the species-rich Coleoptera (beetles). We sequenced over 23,000 ESTs from 34 taxa, which produced 8,728 unique sequences after clustering nonredundant sequences. Between taxa, the sequences could be grouped into 731 gene clusters, with the largest corresponding to mitochondrial DNA transcripts and gene families chymotrypsin, actin, troponin, and tubulin. While levels of paralogy were high in most gene clusters, several midsized clusters including many ribosomal protein (RP) genes appeared to be free of expressed paralogs. To evaluate the utility of EST data for molecular systematics, we curated available transcripts for 66 RP genes from representatives of the major groups of Coleoptera. Using supertree and supermatrix approaches for phylogenetic analysis, the results were consistent with the emerging phylogenetic conclusions about basal relationships in Coleoptera. Numerous small EST libraries from a taxonomically densely sampled lineage can provide a core set of genes that together act as a scaffold in phylogenetic reconstruction, comparative genomics, and studies of gene evolution.
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PMID:Dense taxonomic EST sampling and its applications for molecular systematics of the Coleoptera (beetles). 1623 6

Finding gene-specific peptides by mass spectrometry analysis to pinpoint gene loci responsible for particular protein products is a major challenge in proteomics especially in highly conserved gene families in higher eukaryotes. We used a combination of in silico approaches coupled to mass spectrometry analysis to advance the proteomics insight into Arabidopsis cytosolic ribosomal composition and its post-translational modifications. In silico digestion of all 409 ribosomal protein sequences in Arabidopsis defined the proportion of theoretical gene-specific peptides for each gene family and highlighted the need for low m/z cutoffs of MS ion selection for MS/MS to characterize low molecular weight, highly basic ribosomal proteins. We undertook an extensive MS/MS survey of the cytosolic ribosome using trypsin and, when required, chymotrypsin and pepsin. We then used custom software to extract and filter peptide match information from Mascot result files and implement high confidence criteria for calling gene-specific identifications based on the highest quality unambiguous spectra matching exclusively to certain in silico predicted gene- or gene family-specific peptides. This provided an in-depth analysis of the protein composition based on 1446 high quality MS/MS spectra matching to 795 peptide sequences from ribosomal proteins. These identified peptides from five gene families of ribosomal proteins not identified previously, providing experimental data on 79 of the 80 different types of ribosomal subunits. We provide strong evidence for gene-specific identification of 87 different ribosomal proteins from these 79 families. We also provide new information on 30 specific sites of co- and post-translational modification of ribosomal proteins in Arabidopsis by initiator methionine removal, N-terminal acetylation, N-terminal methylation, lysine N-methylation, and phosphorylation. These site-specific modification data provide a wealth of resources for further assessment of the role of ribosome modification in influencing translation in Arabidopsis.
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PMID:Analysis of the Arabidopsis cytosolic ribosome proteome provides detailed insights into its components and their post-translational modification. 1793 14