Cloning and sequencing of the cytoplasmic precursor to the alpha subunit of rat liver mitochondrial succinyl-CoA synthetase

The characterisation of novel secreted Ly-6 proteins from rat urine by the combined use of two-dimensional gel electrophoresis, microbore high performance liquid chromatography and expressed sequence tag data

A proteomic study of rat urine was undertaken using two-dimensional gel electrophoresis, microbore high performance liquid chromatography, mass spectrometry and N-terminal sequencing. Five known urinary proteins were identified but two novel peptide fragments matched a large number of rat expressed sequence tags (ESTs) from a liver library. By combining protein chemical and nucleotide data, two 101-residue open reading frames with 90% amino acid identity were determined, rat urinary protein 1 (RUP-1) and RUP-2. The data established signal peptide removal and provided evidence for N-glycosylation. A third related sequence, rat spleen protein (RSP-1) was confirmed from EST searches. These three proteins have been submitted to SWISS-PROT as P81827, P81828 and Q9QXN2, respectively. A fourth novel homologue was found in porcine and bovine ESTs from embryo libraries. Alignment with known homologues showed conserved cysteine positions characteristic of a secreted subfamily of Ly-6 proteins. In two cases, antineoplastic urinary protein and caltrin, these homologues have unverified functional annotations. The RUP sequences showed high scoring matches to three unrelated rat mRNAs subsequently established to be chimeric. Two of these share extended sectional identity to RUP-1 but the third may represent another novel Ly-6 homologue. These chimeras have caused serious annotation errors in secondary databases.

Histidine to aspartate phosphotransferase activity of nm23 proteins: phosphorylation of aldolase C on Asp-319

nm23 genes have been implicated in the suppression of tumour metastasis and cell motility; however, the biochemical mechanisms for these suppressions are not known. We have previously described the transfer of phosphate from the catalytic histidine residues of nm23 proteins to an aspartic or a glutamic residue on one or more 43 kDa proteins in detergent extracts of bovine brain membranes. To gain a better understanding of this transferase activity, we partly purified this 43 kDa protein and identified aldolases A and C as the major 43 kDa proteins present in the preparation. Aldolase was purified from brain cytosol; its phosphorylation by rat liver nm23 proteins and by recombinant human nm23-H1 was examined. The site of phosphorylation was identified as Asp-319 on aldolase C. The equivalent residue on aldolase A, a glutamic residue, was not phosphorylated. Aldolase C was rapidly phosphorylated by wild-type nm23-H1 but was not phosphorylated, or was phosphorylated very slowly, by either nm23-H1(P96S) or nm23-H1(S120G), mutants of nm23-H1 that do not suppress cell motility. This is the first identification of a protein that is phosphorylated on an aspartic residue by nm23 proteins. The sequence around Asp-319 of aldolase C has some similarities to those around the histidine residues on ATP-citrate lyase and succinic thiokinase that are phosphorylated by nm23 proteins.

Genetic evidence for the expression of ATP- and GTP-specific succinyl-CoA synthetases in multicellular eucaryotes

Highly ATP- and GTP-specific isoforms of succinyl-CoA synthetase in pigeon incorporate the same alpha-subunit, but different beta-subunits (Johnson, J. D., Muhonen, W. W., and Lambeth, D. O. (1998) J. Biol. Chem. 273, 27573-27579). The sequences of the mature subunits were determined by methods based on reverse transcription-polymerase chain reaction. The 306-residue mature alpha-subunit in pigeon shows >88% identity to its homologues in pig and rat. The sequences of the mature ATP- and GTP-specific beta-subunits (A-beta and G-beta, respectively) in pigeon are 54% identical. These sequences were used to identify expressed sequence tags for human and mouse that were highly homologous to G-beta and A-beta, respectively. The sequences for mature A-beta and G-beta in mouse and human were completed and verified by polymerase chain reaction. The sequence of A-beta in pig was also obtained. The mammalian A-beta sequences show >89% identity to each other; the G-beta sequences are similarly related. However, pairwise comparisons of the A-beta and G-beta sequences revealed <53% identity. Alignment with two sequences of the beta-subunit in Caenorhabditis elegans suggests that the A-beta and G-beta genes arose by duplication early in the evolution of multicellular eucaryotes. The expression of A-beta is strong in numerous mouse and human tissues, which suggests that ATP-specific succinyl-CoA synthetase also plays an important role in species throughout the animal kingdom.

Archael phosphoproteins. Identification of a hexosephosphate mutase and the alpha-subunit of succinyl-CoA synthetase in the extreme acidothermophile Sulfolobus solfataricus

When soluble extracts from the extreme acidophilic archaeon Sulfolobus solfataricus were incubated with [gamma-32P]ATP, several radiolabeled polypeptides were observed following SDS-PAGE. The most prominent of these migrated with apparent molecular masses of 14, 18, 35, 42, 46, 50, and 79 kDa. Phosphoamino acid analysis revealed that all of the proteins contained phosphoserine, with the exception of the 35-kDa one, whose protein-phosphate linkage proved labile to strong acid. The observed pattern of phosphorylation was influenced by the identity of the divalent metal ion cofactor used, Mg2+ versus Mn2+, and the choice of incubation temperature. The 35- and 50-kDa phosphoproteins were purified and their amino-terminal sequences determined. The former polypeptide's amino-terminal sequence closely matched a conserved portion of the alpha-subunit of succinyl-CoA synthetase, which forms an acid-labile phosphohistidyl enzyme intermediate during its catalytic cycle. This identification was confirmed by the ability of succinate or ADP to specifically remove the radiolabel. The 50-kDa polypeptide's sequence contained a heptapeptide motif, Phe/Pro-Gly-Thr-Asp/Ser-Gly-Val/Leu-Arg, found in a similar position in several hexosephosphate mutases. The catalytic mechanism of these mutases involves formation of a phosphoseryl enzyme intermediate. The identity of p50 as a hexosephosphate mutase was confirmed by (1) the ability of sugars and sugar phosphates to induce removal of the labeled phosphoryl group from the protein, and (2) the ability of [32P]glucose 6-phosphate to donate its phosphoryl group to the protein.

Multiple levels of regulation of Escherichia coli succinyl-CoA synthetase

Concentrations of GDP, which are expected to bind to the catalytic site and inhibit the autophosphorylation of succinyl-CoA synthetase (SCS) when NTP is used as a substrate, were found to increase the level of phosphoenzyme formed. The ability of GDP to do so is dependent upon the presence of a protein distinct from SCS. The effector protein could be separated from SCS by ammonium sulfate fractionation. Reconstitution experiments show that the protein inhibits SCS, that the inhibition is relieved by GDP, and that the inhibitor recognizes both Escherichia coli and eukaryotic forms of SCS. The inhibitor is itself regulated by the conditions used to grow the bacteria and in a manner that appears distinct from that of SCS.

Mutually exclusive splicing generates two distinct isoforms of pig heart succinyl-CoA synthetase

We have identified two distinct cDNAs encoding the alpha-subunit of pig heart succinyl-CoA synthetase. The derived amino acid sequence of one of these, PHalpha57, is highly similar to the alpha-subunit of the rat liver precursor enzyme. The second cDNA, PHalpha108, was identical throughout its sequence with PHalpha57 except for a stretch of 108 nucleotides which replaced a 57 nucleotide sequence in PHalpha57. Coexpression of either alpha-subunit cDNA with a common pig heart beta-subunit cDNA produced isozymes with GTP-specific enzyme activity. The enzyme produced by the combination of PHalpha57 and the beta-subunit cDNA resembled the "native" enzyme purified from pig heart tissue. In contrast, the expressed enzyme from the combination with PHalpha108 was clearly distinguishable from the native enzyme by, for example, hydroxyapatite chromatography. Moreover, it was now apparent that this isoform had been observed in previous preparations of the native enzyme, but always in very low amounts and, thus, disregarded. We have shown further that the two mRNA transcripts arise from a single gene and are generated by mutually exclusive splicing. The production of the PHalpha108 message involves the use of a non-canonical splice site pair, AT-AA. Finally, we provide evidence for tissue specific regulation in the splicing of the PHalpha108 message.

Ca2+-dependent membrane bound protein fraction from rabbit gastric mucosa contains a protein whose histidyl residue is phosphorylated

We found an autophosphorylated protein with a molecular weight of 40 kDa (p40) in the crude annexin fraction of rabbit gastric mucosa, i.e., the materials released by EGTA from the membrane fraction obtained in the presence of Ca2+. This protein was enriched in chief cells in the gastric glands, and also found in the heart and the liver by Western blotting. The protein bound to phenyl-Sepharose in the presence of Ca2+ and showed extremely basic nature. The phosphorylation site of p40 was considered to be histidyl residue based on the stability to the various agents, the synthesizing activity of ATP from ADP, and the results of phosphoamino acid analysis. The autophosphorylation of p40 was augmented several tenth fold by GDP, Ras, myelin basic protein, or H1 histone at micromolar range. The phosphorylated form was rapidly dephosphorylated in the presence of cold ATP, succinate, and CoA, suggesting that p40 has succinyl-CoA synthetase activity. In fact, a peptide fragment from p40 showed a striking homology with the alpha subunits of succinyl-CoA synthetases from Escherichia coli, Dictyostelium discoideum, and rat liver. These results suggest that p40 is extramitochondrial alpha subunit of succinyl-CoA synthetase or its homologue.

Genetics of the serine cycle in Methylobacterium extorquens AM1: identification, sequence, and mutation of three new genes involved in C1 assimilation, orf4, mtkA, and mtkB

In a recent paper we reported the sequence of the beginning of a serine cycle gene cluster on the Methylobacterium extorquens AM1 chromosome, containing the genes encoding serine glyoxylate aminotransferase (sgaA), hydroxypyruvate reductase (hprA), and 5,10-methylenetetrahydrofolate dehydrogenase (mtdA) (L. V. Chistoserdova and M. E. Lidstrom J. Bacteriol. 176:1957-1968, 1994). Here we present the sequence of the adjacent downstream region containing three full and one partial open reading frames. The first of the full open reading frames (orf4) remains unidentified, while the other two (mtkA and mtkB) code for the two subunits of malate thiokinase, and the fourth, a partial open reading frame (ppcA), apparently encodes phosphoenolpyruvate carboxylase. Mutants containing insertion mutations in orf4, mtdA, and mtdB all were unable to grow on C1 compounds, showing that these three newly identified genes are indispensable for the operation of the serine cycle. Mutants in orf4 were also unable to grow on C2 compounds, but growth was restored by glyoxylate, suggesting that orf4 might be required for the conversion of acetyl coenzyme A to glyoxylate.

Cloning, characterization, and expression of the beta subunit of pig heart succinyl-CoA synthetase

The form of succinyl-CoA synthetase found in mammalian mitochondria is known to be an alpha beta dimer. Both GTP- and ATP-specific isozymes are present in various tissues. We have isolated essentially identical complementary DNA clones encoding the beta subunit of pig heart succinyl-CoA synthetase from both newborn and adult tissues. These cDNAs include a 1.4-kb sequence encoding the cytoplasmic precursor to the beta subunit comprised of 417 amino acid residues including a 22-residue mitochondrial targeting sequence. The cDNA encoding the 395-amino acid, 42,502-Da mature protein was confirmed to be the succinyl-CoA synthetase beta subunit by agreement with the N-terminal protein sequence and by high homology to prokaryotic forms of the beta subunit that were previously cloned (about 45% identical to beta from Escherichia coli). In contrast to a previous report (Nishimura, J.S., Ybarra, J., Mitchell, T., & Horowitz, P.M., 1988, Biochem. J. 250, 429-434), we found no tryptophan residue to be encoded in the sequence for the mature beta subunit, and this finding is corroborated by the fact that highly purified pig heart succinyl-CoA synthetase shows no tryptophan fluorescence or tryptophan content in amino acid compositional analysis. The cDNA clones encoding the mature pig heart beta subunit and its counterpart alpha subunit were coexpressed in a deletion mutant strain of E. coli. Recovery of succinyl-CoA synthetase activity demonstrated that this combination of subunits forms a productive enzymatic complex having GTP specificity.

Analysis of the polyadenylation consensus sequence context in the genes of nuclear encoded mitochondrial proteins

A compilation of the pre-mRNA ends of the genes of nuclear encoded mitochondrial proteins resulted in a consensus sequence of the type (T/A)NTTNNNNNTTTNAATAAA. Nucleotide positions +8, +13, +14, +16 and +17 downstream of the AATAAA sequence show also a predominance of nucleotide T. This consensus sequence suggests the importance of the immediate surroundings of the cannonical polyadenylation signal sequence AATAAA on the efficiency of the cleavage and polyadenylation of this specific group of pre-mRNAs.

Characterization of an operon encoding succinyl-CoA synthetase and malate dehydrogenase from Thermus flavus AT-62 and its expression in Escherichia coli

An open reading frame (ORF) was found upstream of the mdh gene in Thermus flavus by computer-aided analysis. It was identified as the gene encoding the alpha subunit of succinyl-CoA synthetase (SCS) and termed scsA. Nucleotide sequencing of a further upstream region revealed the presence of another ORF, corresponding to the sequence of the beta subunit of SCS. The latter gene was termed scsB. The scsB gene was found to contain an unusual translational initiation codon, TTG. S1 nuclease mapping indicates that transcription starts at the nucleotide at position--31 upstream of the initiation codon of the beta gene. The scsB and scsA genes along with the mdh gene appear to form an operon and are most likely co-transcribed in this order, because the intercistronic regions between them are very short; in fact, the termination codon of scsB overlaps the initiation codon of scsA. A stretch characteristic of the--10 region of a typical prokaryotic promoter was found upstream of scsB, whereas no sequence characteristic of a typical--35 region was present. Escherichia coli harboring a plasmid containing scsA and scsB did not produce thermostable SCS activity, even when a synthetic promoter for E. coli was attached. However, when an inverted repeat present in front of scsB, which covers the putative ribosome-binding site and is capable of forming a stable stem-loop structure, was altered by site-directed mutagenesis, overproduction of heat-stable SCS was observed.

Overexpression and site-directed mutagenesis of the succinyl-CoA synthetase of Escherichia coli and nucleotide sequence of a gene (g30) that is adjacent to the suc operon

The succinyl-CoA synthetase of Escherichia coli is encoded by two genes, sucC (beta subunit) and sucD (alpha subunit), which are distal genes in the sucABCD operon. They are expressed from the suc promoter, which also expresses the dehydrogenase and dihydrolipoyl succinyl-transferase subunits of the 2-oxoglutarate dehydrogenase complex. Strategies have now been devised for the site-directed mutagenesis and independent expression of the succinyl-CoA synthetase (alpha 2 beta 2 tetramer) and the individual subunits. These involve (1) subcloning a promoterless sucCD fragment downstream of the lac promoter in M13mp10, and (2) precise splicing of the suc coding regions with the efficient atpE ribosome-binding site and expression from the thermoinducible lambda promoters in the pJLA503 vector. Succinyl-CoA synthetase specific activities were amplified 40-60-fold within 5 h of thermoinduction of the lambda promoters, and the alpha and beta subunits accounted for almost 30% of the protein in supernatant fractions of the cell-free extracts. Site-directed mutagenesis of potential CoA binding-site residues indicated that Trp-43 beta and His-50 beta are essential residues in the beta-subunit, whereas Cys-47 beta could be replaced by serine without inactivating the enzyme. No activity was detected after the histidine residue at the phosphorylation site of the alpha-subunit was replaced by aspartate (His-246 alpha----Asp), but this alteration seemed to have a deleterious effect on the accumulation of the enzyme in cell-free supernatant extracts. The nucleotide sequence of an unidentified gene (g30) that is adjacent to the sucABCD operon was defined by extending the sequence of the citric acid cycle gene cluster by 818 bp to 13379 bp: gltA-sdhCDAB-sucABCD-g30. This gene converges on the suc operon and encodes a product (P30) that contains 230 amino acids (Mr 27,251). Highly significant similarities were detected between the N-terminal region of P30 and those of GENA [the product of another unidentified gene (geneA) located upstream of the aceEF-lpd operon], and GNTR (a putative transcriptional repressor of the gluconate operon of Bacillus subtilis). Possible roles for GENA and P30 as transcriptional regulators of the adjacent operons encoding the pyruvate and 2-oxoglutarate dehydrogenase complexes are discussed.

Survey of amino-terminal proteolytic cleavage sites in mitochondrial precursor proteins: leader peptides cleaved by two matrix proteases share a three-amino acid motif

We have compiled sequences of precursor proteins for 50 mitochondrial proteins for which the mature amino terminus has been determined by amino acid sequence analysis. Included in this set are 8 precursors that have leader peptides that are cleaved in two places by mitochondrial matrix proteases. When these eight leader peptides are aligned and compared, a highly conserved three-amino acid motif is identified as being common to this class of leader peptides. This motif includes an arginine at position -10, a hydrophobic residue at position -8, and serine, threonine, or glycine at position -5 relative to the mature amino terminus. The initial cleavage of these peptides by matrix processing protease occurs within the motif, between residues at -9 and -8, such that arginine at position -10 is at position -2 relative to the cleaved bond. The rest of the motif is within the octapeptide removed by subsequent cleavage catalyzed by intermediate-specific protease. An additional 14 leader peptides in this collection (all of those that contain an arginine at -10) conform to this motif. Assuming that these 14 precursors are matured in two steps, we compared the internal cleavage sites at position -8 with the ends of the other 30 leader peptides in the collection. We find that 74% of matrix processing protease cleavage sites follow an arginine at position -2 relative to cleavage.

Domain structure of mitochondrial and chloroplast targeting peptides

Representative samples of mitochondrial and chloroplast targeting peptides have been analyzed in terms of amino acid composition, positional amino acid preferences and amphiphilic character. No highly conserved 'homology blocks' are found in either class of topogenic sequence. Mitochondrial-matrix-targeting peptides are composed of two domains with different amphiphilic properties. Arginine is frequently found either at position -10 or -2 relative to the cleavage site, suggesting that some targeting peptides may be cleaved twice in succession by two different matrix proteases. In stroma-targeting chloroplast transit peptides three distinct regions are evident: an uncharged amino-terminal domain, a central domain lacking acidic residues and a carboxy-terminal domain with the potential to form an amphiphilic beta-strand. Targeting peptides that route proteins to the mitochondrial intermembrane space or the lumen of chloroplast thylakoids have a mosaic design with an amino-terminal matrix- or stroma-targeting part attached to a carboxy-terminal extension that shares many characteristics with secretory signal peptides.

The scanning model for translation: an update

The small (40S) subunit of eukaryotic ribosomes is believed to bind initially at the capped 5'-end of messenger RNA and then migrate, stopping at the first AUG codon in a favorable context for initiating translation. The first-AUG rule is not absolute, but there are rules for breaking the rule. Some anomalous observations that seemed to contradict the scanning mechanism now appear to be artifacts. A few genuine anomalies remain unexplained.