cDNA and deduced amino acid sequences of cytochrome c fromChlamydomonas reinhardtii: Unexpected functional and phylogenetic implications

Summary We have isolated complementary DNA (cDNA) clones for apocytochrome c from the green algaChlamydomonas reinhardtii and shown that they are encoded by a single nuclear gene termedcyc.Cyc mRNA levels are found to depend primarily on the presence of acetate as a reduced carbon source in the culture medium. The deduced amino acid sequence shows that, apart from the probable removal of the initiating methionine,C. reinhardtii apocytochrome c is syntheszed in its mature form. Its structure is generally similar to that of cytochromes c from higher plants. Several punctual deviations from the general pattern of cytochrome c sequences that is found in other organisms have interesting structural and functional implications. These include, in particular, valines 19 and 39, asparagine 78, and alanine 83. A phylogenetic tree was constructed by the matrix method from cytochrome c data for a representative range of species. The results suggest thatC. reinhardtii diverged from higher plants approximately 700–750 million years ago; they also are not easy to reconcile with the current attribution ofChlamydomonas reinhardtii andEnteromorpha intestinalis to a unique phylum, because these two species probably diverged from one another at about the same time as they diverged from the line leading to higher plants.     

Macroevolutionary relationships of species of Drosophila melanogaster group based on mtDNA sequences

The phylogenetic relationships among the Drosophila melanogaster group species were analyzed using approximately 1700 nucleotide-long sequences of the mitochondrial DNA. Phylogenetic analysis was performed using this region consisting of a part of the cytochrome b (cytb) coding gene, the entire coding sequences of tRNA-Leu, tRNA-Ser and the first subunit of NADH dehydrogenase (NADH1), and a part of the 16S-rRNA gene. The study of these sequences showed that this region of mtDNA is very invariable, as regards with the type of the genes that it contains, as well as the order that they are located on it. The resulting phylogenetic trees reveal a topology that separates the species into three main ancestral lines, leading to the following subgroups: (a) ananassae subgroup, (b) montium subgroup, and (c) melanogaster and Oriental subgroups. The inferred topology complements and generally agrees with previously proposed classifications based on morphological and molecular data.     

Gastropod arginine kinases from Cellana grata and Aplysia kurodai. Isolation and cDNA-derived amino acid sequences

Arginine kinase (AK) was isolated from the radular muscle of the gastropod molluscs Cellana grata (subclass Prosobranchia) and Aplysia kurodai (subclass Opisthobranchia), respectively, by ammonium sulfate fractionation, Sephadex G-75 gel filtration and DEAE-ion exchange chromatography. The denatured relative molecular mass values were estimated to be 40 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The isolated enzyme from Aplysia gave a K_m value of 0.6 mM for arginine and a V_max value of 13 μmole Pi min⁻¹ mg protein⁻¹ for the forward reaction. These values are comparable to other molluscan AKs. The cDNAs encoding Cellana and Aplysia AKs were amplified by polymerase chain reaction, and the nucleotide sequences of 1608 and 1239 bp, respectively, were determined. The open reading frame for Cellana AK is 1044 nucleotides in length and encodes a protein with 347 amino acid residues, and that for A. kurodai is 1077 nucleotides and 354 residues. The cDNA-derived amino acid sequences were validated by chemical sequencing of internal lysyl endopeptidase peptides. The amino acid sequences of Cellana and Aplysia AKs showed the highest percent identity (66–73%) with those of the abalone Nordotis and turbanshell Battilus belonging to the same class Gastropoda. These AK sequences still have a strong homology (63–71%) with that of the chiton Liolophura (class Polyplacophora), which is believed to be one of the most primitive molluscs. On the other hand, these AK sequences are less homologous (55–57%) with that of the clam Pseudocardium (class Bivalvia), suggesting that the biological position of the class Polyplacophora should be reconsidered.     

Molecular characterization of a Penicillium chrysogenum exo-1,5-alpha-L-arabinanase that is structurally distinct from other arabinan-degrading enzymes

The nucleotide sequence of the abnx cDNA gene, which encodes an exo-arabinanase (Abnx) of Penicillium chrysogenum 31B, was determined. Abnx was found to be structurally distinct from known arabinan-degrading enzymes based on its amino acid sequence and a hydrophobic cluster analysis. The protein in the protein database with the highest similarity to Abnx was the Neurospora crassa conserved hypothetical protein. The abnx cDNA gene product expressed in Escherichia coli catalyzed the release of arabinobiose from alpha-1,5-L-arabinan. The activity of the recombinant Abnx towards a series of arabino-oligosaccharides, as expressed by k(cat)/K(m) value, was greatest with arabinohexaose.     

A complete species-level phylogeny of the Hylobatidae based on mitochondrial ND3-ND4 gene sequences

The Hylobatidae (gibbons) are among the most endangered primates and their evolutionary history and systematics remain largely unresolved. We have investigated the species-level phylogenetic relationships among hylobatids using 1257 bases representing all species and an expanded data set of up to 2243 bases for select species from the mitochondrial ND3-ND4 region. Sequences were obtained from 34 individuals originating from all 12 recognized extant gibbon species. These data strongly support each of the four previously recognized clades or genera of gibbons, Nomascus, Bunopithecus, Symphalangus, and Hylobates, as monophyletic groups. Among these clades, there is some support for either Bunopithecus or Nomascus as the most basal, while in all analyses Hylobates appears to be the most recently derived. Within Nomascus, Nomascus sp. cf. nasutus is the most basal, followed by N. concolor, and then a clade of N. leucogenys and N. gabriellae. Within Hylobates, H. pileatus is the most basal, while H. moloch and H. klossii clearly, and H. agilis and H. muelleri likely form two more derived monophyletic clades. The segregation of H. klossii from other Hylobates species is not supported by this study. The present data are (1) consistent with the division of Hylobatidae into four distinct clades, (2) provide the first genetic evidence for all the species relationships within Nomascus, and (3) call for a revision of the current relationships among the species within Hylobates. We propose a phylogenetic tree as a working hypothesis against which intergeneric and interspecific relationships can be tested with additional genetic, morphological, and behavioral data.     

The comparative amino acid sequences, substrate specificities and gene or cDNA nucleotide sequences of some prokaryote and eukaryote amidinotransferases: implications for evolution

The amino acid sequences of the amidinotransferases and the nucleotide sequences of their genes or cDNA from four Streptomyces species (seven genes) and from the kidneys of rat, pig, human and human pancreas were compared. The overall amino acid and nucleotide sequences of the prokaryotes and eukaryotes were very similar and further, three regions were identified that were highly identical. Evidence is presented that there is virtually zero chance that the overall and high identity regions of the amino acid sequence similarities and the overall nucleotide sequence similarities between Streptomyces and mammals represent random match. Both rat and lamprey amidinotransferases were able to use inosamine phosphate, the amidine group acceptor of Streptomyces. We have concluded that the structure and function of the amidinotransferases and their genes has been highly conserved through evolution from prokaryotes to eukaryotes. The evolution has occurred with: (1) a high degree of retention of nucleotide and amino acid sequences; (2) a high degree of retention of the primitive Streptomyces guanine+cytosine (G+C) third codon position composition in certain high identity regions of the eukaryote cDNA; (3) a decrease in the specificities for the amidine group acceptors; and (4) most of the mutations silent in the regions suggested to code for active sites in the enzymes.     

The amino acid sequences of the cytochromes c553 from Porphyridium cruentum and Aphanizomenon flos-aquae

The amino acid sequences of cytochrome c₅₅₃ from the eukaryotic red alga Porphyridium cruentum and from the prokaryotic cyanobacterium Aphanizomenon flos-aquae have been determined from the tryptic and cyanogen bromide peptides. The results indicate that a charged region of these proteins has evolved with special rapidity to accomodate a rapid evolution of a binding site in the P₇₀₀ electron acceptor complex.     

Establishment of the phylogenetic relationships between the microbial producers of cyclodextrin glucanotransferases using complete amino acid sequences

A phylogenetic tree was constructed on the basis of the amino acid sequences of the known cyclodextrin glucanotransferases (CDGTs), including those deduced from the nucleotide sequences ofBacillus sp. strain 6.6.3 andPaenibacillus macerans IB-7 genes encoding α- and β-CDGTs. The tree clearly demonstrates the existence of distinct phylogenetic groups of CDGT-producing microorganisms and the divergence of the α-, β-, and γ-CDGT produced by microorganisms from the generaBacillus, Paenibacillus, Brevibacillus, andThermoanaerobacter from a common ancestor, whereas the CDGT ofKlebsiella pneumoniae is independent and results from the convergence of different ancestors. The degree of homology of the leader peptide sequences of CDGTs may serve as a criterion of intraspecies relatedness between CDGT-producing microorganisms.     

Purification of the extracellular pectinolytic enzyme from the fungus Rhizopus oryzae NBRC 4707

The pectinolytic enzyme from the solid-state culture of Rhizopus oryzae NBRC 4707 was purified to homogeneity by column chromatography on CM-Toyopearl 650 M and hydroxylapatite. The molecular weight of the enzyme was estimated by SDS-polyacrylamide gel electrophoresis to be 31,000 and was reduced to 29,700 after treatment with endoglycosidase H. Maximal activity was observed near pH 4.5 at 45°C. The enzyme was shown to be endopolygalacturonase, as judged from the formation of oligogalacturonides as its reaction products. The addition of purified enzyme, as expected, enhanced the formation of lactic acid and ethanol in potato pulp grown with R. oryzae.     

Two-domain hemoglobin from the blood clam,Barbatia lima. The cDNA-derived amino acid sequence

The blood clam,Barbatia lima, from Kochi, Japan, expresses a tetrameric ( _{2 2}) and a polymeric hemoglobin in erythrocytes. The latter hemoglobin is composed of unusual 34-kDa hemoglobin with a two-domain structure, and its molecular mass (about 430 kDa) is exceptionally large for an intracellular hemoglobin. The 3 and 5 parts of the cDNA ofB. lima two-domain globin have been amplified separately by polymerase chain reaction and the complete nucleotide sequence of 1147 bp was determined. The open reading frame is 930 nucleotides in length and encodes a protein with 309 amino acid residues, of which 73 amino acids were identified directly by protein sequencing. The mature protein begins with the acetylated Ser, and thus the N-terminus Met is cleaved. The molecular mass for the protein was calculated to be 35,244 Da. The cDNA-derived amino acid sequence ofB. lima two-domain globin shows 89% homology with that of two-domain globin fromB. reeveana, a North American species. The sequence homology between the two domains is 75%, suggesting that the two-domain globin resulted from the gene duplication of an ancestral 17-kDa globin.     

Molecular characterization of ribonucleoproteic antigens containing repeated amino acid sequences from Trypanosoma cruzi

Trypanosoma cruzi expresses several proteins containing antigenic amino acid repeats. Here we characterized TcRpL7a and TcRBP28, which carry similar repeat motifs and share homology to the eukaryotic L7a ribosomal protein and to a Trypanosoma brucei RNA binding protein, respectively. Analyses of the full length and truncated recombinant TcRpL7a showed that the humoral response of patients with Chagas disease is directed towards its repetitive domain. Sequence analyses of distinct copies of TcRpL7a genes present in the genome of six T. cruzi strains indicate that the number of repeats is higher in proteins from T. cruzi II than T. cruzi I strains. A serum panel of 59 T. cruzi infected patients showed that 73% reacted with TcRpL7a, 71% reacted with TcRBP28 and 80% reacted with 1:1 mixture of both antigens. Synthetic peptides harboring the TcRpL7a repeat motif reacted with 46% of the serum samples. Antibodies raised against both antigens identified equivalent amounts of the native proteins in all three stages of the parasite life cycle. Analyses of subcellular fractions indicated that TcRBP28 is present in the cytoplasm whereas TcRpL7a co-fractionates with polysomes. Confirming their predicted cellular localization, GFP fusions showed that, whereas GFP::TcRBP28 localizes in the cytoplasm, GFP::TcRpL7a accumulates in the nucleus, where ribosome biogenesis occurs.     

Large differences in amino acid sequences among ferredoxins from several species of genus Solanum

The complete amino acid sequences of [2Fe-2S] ferredoxins from four species of genus Solanum (S. nigrum, S. lyratum, S. indicum, and S. abutiloides) were determined by automated Edman degradation of the entire S-carboxymethylcysteinyl proteins and of the peptides obtained by enzymatic digestion. The amino acid sequences of these four ferredoxins differed from each other by 12-19, whereas 0-4 differences have been observed among ferredoxins from plants in the same genus and 14-40 differences were seen between different families. This suggests that these Solanum plants are distantly related to each other taxonomically.     

The nucleotide sequence of a carboxymethylcellulase gene from Pseudomonas fluorescens subsp. cellulosa

Summary The complete nucleotide sequence of the gene coding for one of the carboxymethycellulases (CMCase), expressed by Pseudomonas fluorescens subsp. cellulosa, has been determined. The structural gene consists of an open reading frame, commencing with an ATG start codon, of 2886 base pairs followed by a TAA stop codon. The gene was shown to code for a signal peptide which closely resembles the signal peptides of other secreted proteins. Unlike most pseudomonas genes, the CMCase sequence does not have a high G+C (51%) content and there is no marked preference for codons ending in G or C. Upstream of the structural gene there are no sequences which bear a strong resemblance to consensus Escherichia coli promoters. A sequence is present, however, which exhibits homology to the consensus DNA sequence that binds the catabolic activator protein (CAP). Bal31 deletions of the structural gene revealed the extent by which the gene could be modified and still encode a functional CMCase. Subclones of the cellulase gene have been constructed in pUC18 and pUC19. One of the resultant plasmids, pJHS1 directs a 20-fold increase in CMCase synthesis, when compared to the original construct, pJHH2. Analysis of cells harbouring pJHS1 showed the cellulase polypeptide to have a molecular weight of 106000. This is in close agreement with the predicted size of the enzyme deduced from the nucleotide sequence data.Abbreviations CMCase carboxymethylcellulase - PAGE polyacrylamide gel electrophoresis - IPTG isopropyl--D-thiogalactoside - CAT chloramphenicol acetyl transferase     

An efficient method for the overexpression and purification of active tyrosinase from Streptomyces castaneoglobisporus

The melanin-synthesizing gene operon cloned from Streptomyces castaneoglobisporus HUT6202 consists of two genes, designated tyrC and orf378, which encode apotyrosinase (TYRC) and its activator protein (ORF378), respectively. We have suggested that ORF378 may facilitate the incorporation of Cu(II) into apotyrosinase to express tyrosinase activity. To overproduce ORF378 and TYRC in Escherichia coli BL21(DE3)-pLysS, tyrC, and orf378 were independently but not polycistronically placed under the control of a T7 promoter in a vector, pET-21a(+). His(6)-tagged TYRC and His(6)-tagged ORF378 were simultaneously overproduced in an E. coli strain harboring a plasmid, designated pET-mel2, and the two proteins were co-purified with a Ni(II)-bound affinity column. Gel filtration analysis revealed that the two proteins form a heterodimer complex. The complexed protein was retrieved at a high efficiency (11 mg/L). To obtain an active TYRC, which is a Cu(II)-bound form of tyrosinase, we constructed pET-mel3 that carries orf378 without His(6)-tag and His(6)-tagged tyrC. After the cell-free extract from E. coli harboring pET-mel3 was subjected to Cu(II)-bound affinity column chromatography, His(6)-tagged TYRC, eluted from the column, exhibited the tyrosinase activity. The k(cat) and K(m) values for l-3,4-dihydroxyphenylalanine (l-DOPA) of His(6)-tagged TYRC, which catalyzes the oxidation of l-DOPA to dopaquinone, were 880+/-80s(-1) and 8.1+/-0.9 mM, respectively.     

The hemoglobin gene of the deep-sea clam Calyptogena soyoae has a novel intron in A-helix

The cDNAs encoding two dimeric hemoglobins, Hbs I and II, of the deep-sea clam Calyptogena soyoae were amplified by PCR and the complete nucleotide sequences determined. The cDNA-derived amino acid sequences agreed completely with those determined chemically. Many of the molluscan intracellular globin genes have a characteristic four-exon/three-intron structure, with the precoding and two conventional introns conserved widely in animal globin genes. In this work we have determined the exon/intron organization of two hemoglobin genes of the deep-sea clam C. soyoae. Surprisingly, this gene has no precoding intron but instead contains an additional intron in the A-helix (A3.1), together with the two conventional introns (B12.2 and G6.3). This observation suggests that the precoding intron has been lost and the insertion of intron in A-helix occurred in the genes of Calyptogena. Alternatively, the sliding of intron from precoding to A-helix might have occurred.     

Phylogenetic relationships of the chloroplast genomes in the genus Glycine inferred from four intergenic spacer sequences

The nucleotide sequences of four intergenic spacer regions of chloroplast DNA, atpB-rbcL, trnS-trnG, rps11-rpl36, and rps3-rpl16, were analyzed in the genus Glycine. Phylogenetic analysis based on the sequence data using Neonotonia wightii as the outgroup generated trees supporting the classification of two subgenera, Soja and Glycine, and three plastome groups in the subgenus Glycine. The results were consistent with the presence of diversified chloroplast genomes within tetraploid plants of G. tabacina and G. tomentella, as well as with a close relationship between G. tomentella and G. dolichocarpa that had been suggested based on morphological analyses. Little sequence variation was found in the subgenus Soja, suggesting that G. soja rapidly expanded its distribution in East Asia. The analysis also showed that the differentiation into three plastome groups in the subgenus Glycine occurred in the early stages of its evolution, after the two subgenera diverged.     

The amino acid sequence of the peptide moiety of the pseudomurein from Methanobacterium thermoautotrophicum

The amino acid sequence of the peptide subunits of the peptide moiety of the sacculus polymer (pseudomurein) of Methanobacterium thermoautotrophicum was elucidated by analysing overlapping peptides obtained from partial acid hydrolysates of isolated sacculi. It is suggested that the peptide subunits are attached to glycan strands via one of their glutamyl residues. Another glutamyl residue may crosslink two adjacent peptide subunits to form a dimer. The calculated molar ratios of the amino acids and the percentages of the N-or C-terminal amino acid residues of the supposed dimers are compatible with those actually found in the sacculus polymer.     

Amino acid sequence of myoglobin from the chitonLiolophura japonica and a phylogenetic tree for molluscan globins

Myoglobin was isolated from the radular muscle of the chitonLiolophura japonica, a primitive archigastropodic mollusc.Liolophura contains three monomeric myoglobins (I, II, and III), and the complete amino acid sequence of myoglobin I has been determined. It is composed of 145 amino acid residues, and the molecular mass was calculated to be 16,070 D. The E7 distal histidine, which is replaced by valine or glutamine in several molluscan globins, is conserved inLiolophura myoglobin. The autoxidation rate at physiological conditions indicated thatLiolophura oxymyoglobin is fairly stable when compared with other molluscan myoglobins. The amino acid sequence ofLiolophura myoglobin shows low homology (11–21%) with molluscan dimeric myoglobins and hemoglobins, but shows higher homology (26–29%) with monomeric myoglobins from the gastropodic molluscsAplysia, Dolabella, andBursatella. A phylogenetic tree was constructed from 19 molluscan globin sequences. The tree separated them into two distinct clusters, a cluster for muscle myoglobins and a cluster for erythrocyte or gill hemoglobins. The myoglobin cluster is divided further into two subclusters, corresponding to monomeric and dimeric myoglobins, respectively.Liolophura myoglobin was placed on the branch of monomeric myoglobin lineage, showing that it diverged earlier from other monomeric myoglobins. The hemoglobin cluster is also divided into two subclusters. One cluster contains homodimeric, heterodimeric, tetrameric, and didomain chains of erythrocyte hemoglobins of the blood clamsAnadara, Scapharca, andBarbatia. Of special interest is the other subcluster. It consists of three hemoglobin chains derived from the bacterial symbiont-harboring clamsCalyptogena andLucina, in which hemoglobins are supposed to play an important role in maintaining the symbiosis with sulfide bacteria.     

Comparison of the hydrolysis of Zn-PPi and the MgPPi as substrates and the effect of free cations upon membrane-bound pyrophosphatase of Rhodospirillum rubrum

The hydrolytic activity of chromatophore membrane-bound pyrophosphatase with Zn-PPi²⁻ as substrate was studied and compared with Mg-PPi²⁻ hydrolysis. The pH profile of Zn-PPi²⁻ hydrolysis is a bell shaped curve with an optimum at 5.25. This behavior is different from the sigmoidal profile obtained for Mg-PPi²⁻ hydrolysis, which has a plateau from pH 6.5 to 9.0. Zn-PPi²⁻ hydrolytic activity is inhibited by 1-butanol and methylene-diphosphate but not by NaF. The enzyme has no activity when free Zn²⁺ concentration is lower than 7.5 pM (at 0.9–1.2 mm Zn-PPi²⁻ and therefore free Zn²⁺ is an essential activator of Zn-PPi²⁻ hydrolytic activity. Free Mg²⁺, on the contrary, acts as an inhibitor of Zn-PPi²⁻ hydrolysis. The dependence of the reaction rate on the Zn-PPi²⁻ concentration is sigmoidal.     

The complete amino acid sequence of toxin TsTX-VI isolated from the venom of the scorpion Tityus serrulatus

The complete sequence of the toxin TsTX-VI from the venom of the scorpionTityus serrulatus Lutz and Mello is presented. The sequence has been determined by automated Edman analysis of the reduced and carboxymethylated protein as well as of the resulting peptides, obtained fromS. aureus protease and tryptic digestions. TsTX-VI is composed of 62 residues and has a calculated molecular weight of 6717. Homology studies with other scorpion toxins show that TsTX-VI is more similar to the Old World than to the North American scorpion toxins. The hydropathic index indicates that TsTX-VI is more hydrophobic than Ts-. Toxicity studies carried out in mice demonstrate that i.v. injection of TsTX-VI is unable to evoke the usual symptoms induced by the typical neurotoxins of this venom, but only a generalized allergic reaction. These properties are important in clarifying the relationship between primary structure and biological function of scorpion toxins.