Characterization of transposon Tn5469 from the cyanobacterium Fremyella diplosiphon.

A transposon, designated Tn5469, was isolated from mutant strain FdR1 of the filamentous cyanobacterium Fremyella diplosiphon following its insertion into the rcaC gene. Tn5469 is a 4,904-bp noncomposite transposon with 25-bp near-perfect terminal inverted repeats and has three tandemly arranged, slightly overlapping potential open reading frames (ORFs) encoding proteins of 104.6 kDa (909 residues), 42.5 kDa (375 residues), and 31.9 kDa (272 residues). Insertion of Tn5469 into the rcaC gene in strain FdR1 generated a duplicate 5-bp target sequence. On the basis of amino acid sequence identifies, the largest ORF, designated tnpA, is predicted to encode a composite transposase protein. A 230-residue domain near the amino terminus of the TnpA protein has 15.4% amino acid sequence identity with a corresponding domain for the putative transposase encoded by Lactococcus lactis insertion sequence S1 (ISS1). In addition, the sequence for the carboxyl-terminal 600 residues of the TnpA protein is 20.0% identical to that for the TniA transposase encoded by Tn5090 on Klebsiella aerogenes plasmid R751. The TnpA and TniA proteins contain the D,D(35)E motif characteristic of a recently defined superfamily consisting of bacterial transposases and integrase proteins of eukaryotic retroelements and retrotransposons. The two remaining ORFs on Tn5469 encode proteins of unknown function. Southern blot analysis showed that wild-type F. diplosiphon harbors five genomic copies of Tn5469. In comparison, mutant strain FdR1 harbors an extra genomic copy of Tn5469 which was localized to the inactivated rcaC gene. Among five morphologically distinct cyanobacterial strains examined, none was found to contain genomic sequences homologous to Tn5469.     

Studies on amino acid sequences of two isoforms of 17-kDa essential light chain of smooth muscle myosin from porcine aorta media.

Amino acid sequences were analyzed for two isoforms of myosin essential light chain, LC17a and LC17b [Hasegawa, Y., Ueno, H., Horie, K., & Morita, F. (1988) J. Biochem. 103, 15-18] from porcine aorta smooth muscle. Both LC17a and LC17b consisted of 150 amino acid residues and their N-terminal Cys residues were blocked by an acetyl group. The amino acid sequences of LC17a and LC17b were common from the N-terminal to Glu-141 and five amino acid substitutions were observed within the remaining C-terminal 9 residues. The amino acid sequences of LC17a and LC17b were identical to those deduced from the nucleotide sequences of bovine aortic cDNAs encoding the two isoforms [Lash, J. A., Helper, D.J., Klug, M., Nicolozakes, A.W., & Hathaway, D.R. (1990) Nucleic Acids Res. 18, 7176].     

Amino acid sequence of the alpha and beta subunits of Methanosarcina barkeri ATPase deduced from cloned genes. Similarity to subunits of eukaryotic vacuolar and F0F1-ATPases

The atpA and atpB genes coding for the alpha and beta subunits, respectively, of membrane ATPase were cloned from a methanogen Methanosarcina barkeri, and the amino acid sequences of the two subunits were deduced from the nucleotide sequences. The methanogenic alpha (578 amino acid residues) and beta (459 amino acid residues) subunits were highly homologous to the large and small subunits, respectively, of vacuolar H+-ATPases; 52% of the residues of the methanogenic alpha subunit were identical with those of the large subunit of vacuolar enzyme of carrot or Neurospora crassa, respectively, and 59, 60, and 59% of the residues of the methanogenic beta subunit were identical with those of the small subunits of N. crassa, Arabidopsis thaliana, and Sacharomyces cerevisiae, respectively. The methanogenic subunits were also highly homologous to the corresponding subunits of Sulfolobus acidocaldarius ATPase. The methanogenic alpha and beta subunits showed 22 and 24% identities with the beta and the alpha subunits of Escherichia coli F1, respectively. Furthermore, important amino acid residues identified genetically in the E. coli enzyme were conserved in the methanogenic enzyme. This sequence conservation suggests that vacuolar, F1, methanogenic, and S. acidocaldarius ATPases were derived from a common ancestral enzyme.     

Cloning and sequencing of genes encoding the beta subunits of the ATP-synthases from Enterobacter aerogenes and Flavobacterium ferrugineum

Abstract The genes encoding the β-subunit of the ATPase from Enterobacter aerogenes and Flavobacterium ferrugineum were cloned and their sequences determined. The predicted amino acid sequences were compared with the corresponding proteins from other eubacteria. Homology values of 58–98% confirmed the highly conserved character of the ATPase β-subunit. The enterobacterial ( Escherichia coli, E. aerogenes ) β-subunits represent the shortest sequences, whereas the corresponding F. ferrugineum protein exhibits an additional 33 amino acid residues as insertions at three different locations.     

Effect of co-evolving amino acid residues on topology of phylogenetic trees

The presence in proteins of amino acid residues that change in concert during evolution is associated with keeping constant the protein spatial structure and functions. As in the case with morphological features, correlated substitutions may become the cause of homoplasies--the independent evolution of identical non-homological adaptations. Our data obtained on model phylogenetic trees and corresponding sets of sequences have shown that the presence of correlated substitutions distorts the results of phylogenetic reconstructions. A method for accounting for co-evolving amino acid residues in phylogenetic analysis is proposed. According to this method, only a single site from the group of correlated amino acid positions should remain, whereas other positions should not be used in further phylogenetic analysis. Simulations performed have shown that replacement on the average of 8% of variable positions in a pair of model sequences by coordinately evolving amino acid residues is able to change the tree topology. The removal of such amino acid residues from sequences before phylogenetic analysis restores the correct topology.     

Nucleotide sequence and linkage map position of the secX gene in maize chloroplast and evidence that it encodes a protein belonging to the 50S ribosomal subunit

The nucleotide sequence of the segment of maize chloroplast DNA lying between the map coordinate positions 32.59 and 32.98 Kb and containing the secX gene has been determined. The derived amino acid sequence of maize chloroplast secX is 95%, 87% and 62% identical to the corresponding derived amino acid sequences from two plant chloroplasts and Escherichia coli, respectively. It is also 70% identical to the experimentally determined amino acid sequence of a protein isolated from Bacillus stearothermophilus ribosomes. Separation of the 50S ribosomal subunit proteins of E. coli by reversed phase HPLC gave a peak which contained pure secX protein, as determined by N-terminal amino acid sequencing. Spinach chloroplast 50S subunit proteins separated by HPLC also gave a peak corresponding to pure secX protein. From these results we conclude that the secX gene in E. coli and in plant chloroplasts encodes a small (37-38 amino acid residues) ribosomal protein belonging to the 50S subunit. The same conclusion has been reached recently by A. Wada with respect to E. coli secX. In agreement with Wada, we name the secX protein L36. Its chloroplast gene is designated rpL36.     

Vertebrate genomes code excess proteins with charge periodicity of 28 residues

All amino acid sequences derived from 248 prokaryotic genomes, 10 invertebrate genomes (plants and fungi) and 10 vertebrate genomes were analysed by the autocorrelation function of charge sequences. The analysis of the total amino acid sequences derived from the 268 biological genomes showed that a significant periodicity of 28 residues is observable for the vertebrate genomes, but not for the other genomes. When proteins with a charge periodicity of 28 residues (PCP28) were selected from the total proteomes, we found that PCP28 in fact exists in all proteomes, but the number of PCP28 is much larger for the vertebrate proteomes than for the other proteomes. Although excess PCP28 in the vertebrate proteomes are only poorly characterized, a detailed inspection of the databases suggests that most excess PCP28 are nuclear proteins.     

The primary structure of ribosomal protein L2 from Bacillus stearothermophilus

The complete amino acid sequence of ribosomal protein L2 from the moderate thermophile Bacillus stearothermophilus has been determined. This has been achieved by the sequence analysis of peptides derived by enzymatic digestion with Staphylococcus aureus protease, trypsin and chymotrypsin, as well as by chemical cleavage with o-iodosobenzoic acid. The protein contains 275 amino acid residues and has a calculated molecular mass of 30201 Da. Comparison of this sequence with sequences of the corresponding proteins from Escherichia coli and from spinach and tobacco chloroplasts reveals that 60% of the residues of protein L2 from B. stearothermophilus are identical to those of the protein from E. coli and 45% are identical to those found in the two chloroplast proteins. There are extended regions of totally conserved sequence at positions 54-58 (GGGHK), 81-86 (EYDPNR), and 224-230 (MNPVDHP) in all four proteins.     

The complete primary structure of ribosomal proteins L1, L14, L15, L23, L24 and L29 from Bacillus stearothermophilus

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.     

Cloning and in vivo expression of functional triose phosphate/phosphate translocators from C3- and C4-plants: evidence for the putative participation of specific amino acid residues in the recognition of phosphoenolpyruvate

The primary sequences of the chloroplast triose phosphate/phosphate translocator precursor proteins from C₄-plants (maize mesophyll cells and Flaveria trinervia ) and from the C₃-type Flaveria pringlei were determined. The mature parts of these translocators possess 83–94% identical amino acid residues. The C₄-translocator protein can be correctly targeted to C₃-type chloroplasts and inserted into the envelope membrane. Expression of the mature parts of these chloroplast translocators (cTPT) in transformed yeast cells and subsequent reconstitution of the functional proteins reveals the difference between the recombinant translocator proteins from the two cell types with respect to the transport of phosphoenolpyruvate. Comparison of the cTPT sequences from F. pringlei and F. trinervia in combination with computer-aided molecular modelling of the substrate translocation pore leads to the suggestion, that only minor exchanges of amino acid residues between the C₃- and C₄-translocator proteins are sufficient to extend their substrate specificities to recognize also phosphoenolpyruvate.     

Retinoic acid receptor-beta: immunodetection and phosphorylation on tyrosine residues.

Polyclonal (RP) and monoclonal (Ab) antibodies were raised against synthetic peptides (or fusion proteins) corresponding to amino acid sequences unique to human and mouse retinoic acid receptor-beta (RAR beta) isoforms. Antibodies directed against the A2 region [Ab6 beta 2(A2), Ab7 beta 2(A2), and RP beta 2(A2)], the D2 region [RP beta(D2)], or the F region [Ab8 beta(F)2, RP beta(F)1, and RP beta(F)2] were selected. The monoclonal and polyclonal antibodies directed against the D2 and F regions specifically immunoprecipitated and recognized by Western blotting all human and mouse RAR beta isoforms (mRAR beta 1, -beta 2, -beta 3, and -beta 4), produced in COS-1 cells transfected with expression vectors containing the corresponding RAR beta cDNA. Furthermore, in gel retardation assays, the monoclonal antibodies supershifted RAR beta protein-RA response element oligonucleotide complexes. Antibodies directed against the A2 region were specific for the RAR beta 2 isoform. The above antibodies allowed us to detect the presence of mRAR beta 2 proteins in mouse embryos and to show that their presence in embryonal carcinoma cells (F9 and P19 cell lines) is dependent upon RA treatment. The antibodies were also used to demonstrate that RAR beta proteins produced by transfection in COS-1 cells are phosphorylated. RAR beta 2 phosphorylation was not affected by RA treatment, whereas the phosphorylation of RAR beta 1 and RAR beta 3 isoforms was greatly enhanced by RA. We also show that, in contrast to RAR alpha 1 and RAR gamma 1, RAR beta 2 proteins contain phosphotyrosine residues and are only weakly phosphorylated in vitro by cAMP-dependent protein kinase. These results support our previous proposal that the various receptors have distinct functions in the RA-signaling pathway.     

Formation of mature egg envelope subunit proteins from their precursors (choriogenins) in the fish, Oryzias latipes: loss of partial C-terminal sequences of the choriogenins

The inner layer of egg envelope of the medaka, Oryzias latipes, comprises two major groups of glycoprotein subunits, ZI-1,2 and ZI-3. Their precursor proteins, choriogenin H (Chg H) and choriogenin L (Chg L), respectively, are synthesized in spawning female liver. In the present study, the primary structures of the precursors and the corresponding mature subunits were compared by peptide mapping and amino acid sequencing to find what difference in their molecular structures is relevant to the assembly of the soluble precursors into the insoluble inner layer. The primary structures of the solubilized subunits were mostly identical to those of the respective precursors, but they lacked C-terminal partial sequences that their precursors possessed, namely, ZI-1,2 subunit was shorter than Chg H by 34 amino acid residues and ZI-3 was shorter than Chg L by 27 residues. In addition, a consensus amino acid sequence, Arg-Lys-X-Arg, was found at the putative cleavage sites in the C-terminal region of the precursors. It is conjectured that the truncation of the precursor proteins is prerequisite for formation of mature chorion subunit proteins and their assembly into chorion.     

Pair-preferences: a Quantitative Measure of Regularities in Protein Sequences

Abstract

We present here the results obtained by applying several different methods to quantitatively measure regularities in protein sequences based on pair-preferences. We have studied the distribution of amino acid residues, singly as well as in pairs in a large data base and have attempted this task. We confirmed the existence of well-defined pair-preferences in proteins which were shown to be remarkably absent in simulated random sequences of similar amino acid distribution. The analysis of the sequences from the SWISS-PROT data base using simple statistical tests, Fourier analysis, fractal analysis and statistical thermodynamical tests were used to derive parameters to define a natural sequence. As a consequence of the existence of pair-preferences, parameters like fractal dimension (D), spectral exponent (β), scaling parameter (H) and entropy (statistical) were found to be characteristic for natural sequences. For a reference state we chose a randomised state devoid of any pair-preference. The pair-preferences qualified well to be used as quantitative measures of regularities in protein sequences.     

The cDNA sequences encoding two components of the polymeric fraction of the intracellular hemoglobin of Glycera dibranchiata

The intracellular hemoglobin of the polychaete Glycera dibranchiata consists of several components, some of which self-associate into a "polymeric" fraction. The cDNA library constructed from the poly(A+) mRNA of Glycera erythrocytes (Simons, P. C., and Satterlee, J. D. (1989) Biochemistry 28, 8525-8530) was screened with two oligodeoxynucleotide probes corresponding to the amino acid sequences MEEKVP and AMNSKV. Each of the two probes identified a full-length positive insert; these were sequenced using the dideoxynucleotide chain termination method. One clone was 630 bases long and contained 36 bases of 5'-untranslated RNA, a reading frame of 441 bases coding for the 147 amino acids of globin P2 including the residues MEEKVP, and a 3'-untranslated region of 153 bases. The other clone was 540 bases long and contained 24 bases of 5'-untranslated RNA, an open reading frame of 441 bases coding for globin P3 including the residues AMNSKV, and a 3'-untranslated region of 75 bases. The inferred amino acid sequences of the two globins were in agreement with the partial amino acid sequences obtained by chemical methods. The P2 and P3 globin sequences, together with the previously determined P1 sequence of a complete insert and partial sequences P4, P5, and P6 obtained from partial inserts (Zafar, R. S., Chow, L. H., Stern, M. S., Vinogradov, S. N., and Walz, D. A. (1990) Biochim. Biophys. Acta, in press) suggest that there are at least six components in the polymeric fraction of Glycera hemoglobin, which is in agreement with the results of polyacrylamide gel electrophoresis in Tris/glycine buffer, pH 8.3, 6 M urea. Nothern and dot blot analyses of Glycera erythrocyte poly(A+) mRNA using the foregoing two cDNA probes clearly demonstrated the presence of mature messages encoding both types of globins. Comparison of the polymeric sequences P1, P2, and P3 with the "monomeric" globins M-II and M-IV using the alignment and templates of Bashford et al. (Bashford, D., Chothia, C., and Lesk, A. M. (1987) J. Mol. Biol. 196, 199-216) showed that all five globins have identical residues at 39 positions. At 44 positions, the three polymeric globins share identical residues that differ from the identical residues at the corresponding locations in the monomeric sequences M-II and M-IV including position E7, where the latter have leucine instead of the distal histidine. At 15 positions, there occurs an alteration from polar to nonpolar or from a small nonpolar to a larger nonpolar residue in going from the monomeric to the polymeric globins.(ABSTRACT TRUNCATED AT 400 WORDS)     

The primary structure of two molecular species of porcine organ-common type acylphosphatase.

Electrophoretically homogeneous preparations of organ-common type acylphosphatase from porcine testis and brain were separated into two molecular species by reversed-phase liquid chromatography. From tryptic peptide map analysis, it was inferred that each of the two testis proteins is the same as the corresponding one of the two brain proteins. The complete primary structures of the two acylphosphatases from testis were then determined. The one molecular species consists of 100 amino acid residues: [sequence; see text] The other consists of 98 amino acid residues identical to the 3rd-100th residues of the above sequence and is also acetylated at the amino-terminal alanine. The 98-residue sequence has only 59% homology with porcine muscle acylphosphatase, but has 92% homology with human erythrocyte acylphosphatase. It was thus confirmed that the major acylphosphatases in testis, brain, and erythrocyte belong to the same organ-common type isoenzyme, distinct from the muscle type isoenzyme.     

The heterogeneity of the polymeric intracellular hemoglobin of Glycera dibranchiata and the cDNA-derived amino acid sequence of one component

The erythrocytes of the marine polychaete Glycera dibranchiata contain a number of different, single-chain hemoglobins, some of which self-associate into a 'polymeric' fraction. An oligodeoxynucleotide probe was synthesized based on partial amino acid sequences determined by chemical methods, and used to screen a cDNA library constructed from the poly(A+)mRNA of Glycera erythrocytes (Simons, P.C. and Satterlee, J.D. (1989) Biochemistry 28, 8525-8530). The longest positive inserts found were sequenced using the dideoxy nucleotide chain termination method. One complete clone was obtained: clone 5A, 816 bases long, contained 59 bases of 5'-untranslated RNA, an open reading frame of 441 bases coding for 147 amino acids and a 3'-untranslated region of 316 bases. The derived amino acid sequence of Glycera globin P1 was in agreement with the partial amino acid sequences obtained by chemical methods. Three additional inserts obtained in the screening were also sequenced: the inferred amino acid sequences proved to be partial globin sequences which were different from each other and from the sequence of P1. Thus, the 'polymeric' fraction of the intracellular hemoglobin of Glycera probably consists of at least four different globin chains much like the 'monomeric' fraction. Comparison of the 'polymeric' sequence with the two known 'monomeric' sequences, M-II and M-IV, shows that they share 54 identical residues. At 74 positions, the identical residues in M-II and M-IV differ from the corresponding residue in P1, including at E-7, where P1 has a distal His, in contrast to Leu in M-II and M-IV. The alignment of Bashford et al. ((1987) J. Mol. Biol. 196, 199-216) and their templates were used to examine the principal differences between the two types of Glycera globin sequences. They appear to consist of uncommon surface amino acid residues at positions C6 (Phe vs. Ala), E10 (Val vs. Lys), E17 (Lys vs. Val), G1 (Arg vs. Lys), G10 (Met vs. Ala) and H5 (Arg vs. Lys). One or more of these residues could be responsible for the self-association exhibited by the 'polymeric' Glycera globins.     

Conservation in the CYP51 family. Role of the B' helix/BC loop and helices F and G in enzymatic function

CYP51 (sterol 14 alpha-demethylase) is an essential enzyme in sterol biosynthetic pathways and the only P450 gene family having catalytically identical orthologues in different biological kingdoms. The proteins have low sequence similarity across phyla, and the whole family contains about 40 completely conserved amino acid residues. Fifteen of these residues lie in the secondary structural elements predicted to form potential substrate recognition sites within the P450 structural fold. The role of 10 of these residues, in the B' helix/BC loop, helices F and G, has been studied by site-directed mutagenesis using as a template the soluble sterol 14 alpha-demethylase of known structure, CYP51 from Mycobacterium tuberculosis (MT) and the human orthologue. Single amino acid substitutions of seven residues (Y76, F83, G84, D90, L172, G175, and R194) result in loss of the ability of the mutant MTCYP51 to metabolize lanosterol. Residual activity of D195A is very low, V87A is not expressed as a P450, and A197G has almost 1 order of magnitude increased activity. After purification, all of the mutants show normal spectral properties, heme incorporation, and the ability to be reduced enzymatically and to interact with azole inhibitors. Profound influence on the catalytic activity correlates well with the spectral response to substrate binding, effect of substrate stabilization on the reduced state of the P450, and substrate-enhanced efficiency of enzymatic reduction. Mutagenesis of corresponding residues in human CYP51 implies that the conserved amino acids might be essential for the evolutionary conservation of sterol 14 alpha-demethylation from bacteria to mammals.