Phylogenetic Analysis of Evolutionary Relationships of the Planctomycete Division of the Domain Bacteria Based on Amino Acid Sequences of Elongation Factor Tu

Sequences from the tuf gene coding for the elongation factor EF-Tu were amplified and sequenced from the genomic DNA of Pirellula marina and Isosphaera pallida, two species of bacteria within the order Planctomycetales. A near-complete (1140-bp) sequence was obtained from Pi. marina and a partial (759-bp) sequence was obtained for I. pallida. Alignment of the deduced Pi. marina EF-Tu amino acid sequence against reference sequences demonstrated the presence of a unique 11-amino acid sequence motif not present in any other division of the domain Bacteria. Pi. marina shared the highest percentage amino acid sequence identity with I. pallida but showed only a low percentage identity with other members of the domain Bacteria. This is consistent with the concept of the planctomycetes as a unique division of the Bacteria. Neither primary sequence comparison of EF-Tu nor phylogenetic analysis supports any close relationship between planctomycetes and the chlamydiae, which has previously been postulated on the basis of 16S rRNA. Phylogenetic analysis of aligned EF-Tu amino acid sequences performed using distance, maximum-parsimony, and maximum-likelihood approaches yielded contradictory results with respect to the position of planctomycetes relative to other bacteria. It is hypothesized that long-branch attraction effects due to unequal evolutionary rates and mutational saturation effects may account for some of the contradictions. Received: 21 August 2000 / Accepted: 8 January 2001     

Aerial exposure and body temperature of the intertidal sea anemone Anthopleura elegantissima

The sea anemone Anthopleura elegantissima is a common member of intertidal communities along the west coast of North America, and can experience extended periods of increased temperature during summertime low tides. Internal body temperatures of emersed individuals of A. elegantissima were monitored in a laboratory wind tunnel and in the field, and factors influencing the anemones’ thermal experience were examined. Larger body size and aggregation with conspecifics slowed body temperature increases in controlled wind tunnel conditions. In the field, anemones in the interior of an aggregation stayed cooler than those on the edges, and microhabitat features related to light exposure and surface orientation overshadowed any direct effects of body size. In the warmest month only (July), aggregations of A. elegantissima were significantly larger at the upper limit of their distribution than they were at the mid and lower limits, suggesting aggregation in high intertidal zones may be a behavioral response to desiccation and temperature stress. As this sea anemone can host multiple species of symbiotic algae with different thermal tolerances, the ability to slow body heating may affect the type of algae hosted and thus the potential contribution of this abundant anemone to primary production in the intertidal zone.     

A New Polypeptide Toxin from the Nematocyst Venom of an Okinawan Sea Anemone Phyllodiscus semoni (Japanese name “unbachi-isoginchaku”)

The venomous sea anemone Phyllodiscus semoni causes cases of severe stinging. We isolated Phyllodiscus semoni toxin 20A (PsTX-20A), a hemolytic and lethal polypeptide (20 kDa), from the nematocyst venom of this species for the first time. Furthermore, we sequenced the cDNA encoding PsTX-20A. The deduced amino acid sequence of PsTX-20A showed that this toxin was a new member of the actinoporin family, which consists of several cytolytic polypeptides originating from sea anemones. PsTX-20A showed lethal toxicity to the shrimp Palaemon paucidens when administered via intraperitoneal injection (LD₅₀, 50 μg/kg) and hemolytic activity toward 0.8% sheep red blood cells (ED₅₀, 80 ng/ml).     

The complete amino-acid sequence of the rieske FeS-precursor protein from spinach chloroplasts deduced from cDNA analysis

Summary SummarySeveral cDNA clones encoding the entire Rieske FeS-precursor protein of the chloroplast cytochrome b ₆ f-complex have been isolated by high density plaque immunoscreening of a phage lambda gt11 cDNA expression library, made from poly A⁺-RNA of spinach seedlings. The identity of the cDNAs has been confirmed by N-terminal amino acid sequencing of the purified protein. The nucleotide sequence indicates a protein of 247 amino acid residues including a putative transit sequence of 68 amino acids corresponding to molecular masses of 26.3 kDa (precursor) and 18.8 kDa (mature protein; 179 amino acid residues). Alignteins of the sequence with sequences from Rieske FeS-proteins of respiratory electron transport chains, two of bacterial and three of mitochondrial origin, shows little sequence homology, but remarkable similarity in secondary structure including a putative N-terminal transmembrane segment of about 25 residues and the peptides CTHLGCV and CPCHGS in the C-terminal region of the protein that are involved in the binding of the Fe₂S₂-cluster.     

Nitric oxide synthase sequences in the marine fish Stenotomus chrysops and the sea urchin Arbacia punctulata, and phylogenetic analysis of nitric oxide synthase calmodulin-binding domains

The phylogenetic distribution and structural diversity of the nitric oxide synthases (NOS) remain important and issues that are little understood. We present sequence information, as well as phylogenetic analysis, for three NOS cDNAs identified in two non-mammalian species: the vertebrate marine teleost fish Stenotomus chrysops (scup) and the invertebrate echinoderm Arbacia punctulata (sea urchin). Partial gene sequences containing the well-conserved calmodulin (CaM)-binding domain were amplified by RT-PCR. Identical 375-bp cDNAs were amplified from scup brain, heart, liver and spleen; this sequence shares 82% nucleic acid and 91% predicted amino acid identity with the corresponding region of human neuronal NOS. A 387-bp cDNA was amplified from sea urchin ovary and testes; this sequence shares 72% nucleic acid identity and 65% deduced amino acid identity with human neuronal NOS. A second cDNA of 381 bp was amplified from sea urchin ovary and it shares 66% nucleic acid and 57% deduced amino acid identity with the first sea urchin sequence. Together with earlier reports of neuronal and inducible NOS sequences in fish, these data indicate that multiple NOS isoforms exist in non-mammalian species. Phylogenetic analysis of these sequences confirms the conserved nature of NOS, particularly of the calmodulin-binding domains.     

Cloning of Complementary and Genomic DNAs Encoding Echotoxins,Proteinaceous Toxins from the Salivary Gland of Marine Gastropod <Emphasis Type="Italic">Monoplex echo</Emphasis>

Echotoxins are hemolytic and lethal proteinaceous toxins of about 25 kDa that are contained in the salivary gland of marine gastropod Monoplex echo. In this study, complementary DNAs (cDNAs) encoding four echotoxins (2, A, B1 and B2) were isolated from the cDNA library constructed from the M. echo salivary gland and completely sequenced. Although the amino acid sequence identity between the four echotoxins and actinoporins (20 kDa hemolysins from sea anemones) was very low (12–16%), some amino acid residues important for the biological activity of actinoporins were well conserved in the echotoxins. In the case of echotoxin 2, the genomic DNA corresponding to the coding region was amplified. Sequencing data revealed that the echotoxin 2 gene is devoid of introns within the coding region as reported for the actinoporin genes. These results suggest that echotoxins have evolved from actinoporins or both toxins have evolved from the same ancestor.     

Characterization of a novel EF-hand homologue, CnidEF, in the sea anemone Anthopleura elegantissima

The superfamily of EF-hand proteins is comprised of a large and diverse group of proteins that contain one or more characteristic EF-hand calcium-binding domains. This study describes and characterizes a novel EF-hand cDNA, CnidEF, from the sea anemone Anthopleura elegantissima (Phylum Cnidaria, Class Anthozoa). CnidEF was found to contain two EF-hand motifs near the C-terminus of the deduced amino acid sequence and two regions near the N-terminus that could represent degenerate EF-hand motifs. CnidEF homologues were also identified from two other sea anemone species. A combination of bioinformatic and molecular phylogenetic analyses was used to compare CnidEF to EF-hand proteins in other organisms. The closest homologues identified from these analyses were a luciferin binding protein (LBP) involved in the bioluminescence of the anthozoan Renilla reniformis, and a sarcoplasmic calcium-binding protein (SARC) involved in fluorescence of the annelid worm Nereis diversicolor. Predicted structure and folding analysis revealed a close association with bioluminescent aequorin (AEQ) proteins from the hydrozoan cnidarian Aequorea aequorea. Neighbor-joining analyses grouped CnidEF within the SARC lineage along with AEQ and other cnidarian bioluminescent proteins rather than in the lineage containing calmodulin (CAM) and troponin-C (TNC).     

Purification of chloroplast elongation factor Tu and cDNA analysis in tobacco: the existence of two chloroplast elongation factor Tu species

We have purified a chloroplast elongation factor Tu (EF-Tu) from tobacco (Nicotiana tabacum) and determined its N-terminal amino acid sequence. Two distinct cDNAs encoding EF-Tu were isolated from a leaf cDNA library of N. sylvestris (the female progenitor of N. tabacum) using an oligonucleotide probe based on the EF-Tu protein sequence. The cDNA sequence and genomic Southern analyses revealed that tobacco chloroplast EF-Tu is encoded by two distinct genes in the nuclear genome of N. sylvestris. We designated the corresponding gene products EF-Tu A and B. The mature polypeptides of EF-Tu A and B are 408 amino acids long and share 95.3% amino acid identity. They show 75–78% amino acid identity with cyanobacterial and chloroplast-encoded EF-Tu species.     

Sequence and Characterization of Six Mitochondrial Subgenomes from <Emphasis Type="Italic">Globodera rostochiensis</Emphasis>: Multipartite Structure Is Conserved Among Close Nematode Relatives

Recently, a multipartite mitochondrial genome was characterized in the potato cyst nematode, Globodera pallida. Six subgenomic circles were detectable by PCR, while full-length genomes were not. We investigate here whether this subgenomic organization occurs in a close relative of G. pallida. We amplified and sequenced one entire mitochondrial subgenome from the cyst-forming nematode, Globodera rostochiensis. Comparison of the noncoding region of this subgenome with those reported previously for G. pallida facilitated the design of amplification primers for a range of subgenomes from G. rostochiensis. We then randomly sequenced five subgenomic fragments, each representative of a unique subgenome. This study indicates that the multipartite structure reported for G. pallida is conserved in G. rostochiensis. A comparison of subgenomic organization between these two Globodera species indicates a considerable degree of overlap between them. Indeed, we identify two subgenomes with an organization identical with that reported for G. pallida. However, other subgenomes are unique to G. rostochiensis, although some of these have blocks of genes comparable to those in G. pallida. Dot-plot comparisons of pairs of subgenomes from G. rostochiensis indicate that the different subgenomes share fragments with high sequence identity. We interpret this as evidence that recombination is operating in the mitochondria of G. rostochiensis. Electronic supplementary material The online version of this article (doi: ) contains supplementary material, which is available to authorized users. Reviewing Editor: Dr. Rafael Zardoya     

Molecular cloning and analysis of a cDNA coding for nucleoside diphosphate kinase from ryegrass

A full-length cDNA, LpNDPK, encoding ryegrass nucleoside diphosphate kinase (EC 2.7.4.6) has been cloned and sequenced. The nucleotide sequence of the clone contains an open reading frame of 450 nucleotides encoding a protein of 150 amino acid residues with a calculated molecular mass of 16.5 kDa and a P_i of 6.62. The LpNDPK encoded protein possesses substantial homology with nucleoside diphosphate kinases (NDPKs) isolated and cloned form other sources; the highest identity (86 percnt;) was observed with NDPK from sugarcane (Saccharum officinarum). Amino acid comparisons with other NDPKs show that the presented ryegrass NDPK sequence also contains several motifs and specific residues crucial for catalytic activity which are highly conserved among other NDPKs. RT-PCR expression analysis using primers covering the coding region of LpNDPK revealed that the ryegrass NDPK gene is equally expressed in stem, leaf, and flower tissue.     

Molecular cloning,sequence and expression analysis of <Emphasis Type="Italic">ZmArf2</Emphasis>, a maize ADP-ribosylation factor

A full-length cDNA encoding a maize GTP-binding protein of the ADP-ribosylation factor family was cloned by suppression subtractive hybridization and an in silico cloning approach. The cDNA was 938 bp in length and contained a complete ORF of 612 bp, which encodes a protein of 203 amino acid residues. Its deduced amino acids sequence had an 83% identity with that of a GTP-binding protein in rice. The gene was designated ZmArf2. The ZmArf2 gene consists of G1, G2, G3, G4 and G5 boxes, and Switch I and Switch II regions. Eight nucleotides differed and five amino acids changed between the popcorn inbred N04 and the dent corn inbred Dan232. One changed amino acid was in the G1 box. RT-PCR analysis showed that ZmArf2 expression increased in the early stages of endosperm development and was not tissue-specific.     

cDNA cloning and sequencing of phospholipase A2 from the pyloric ceca of the starfish Asterina pectinifera

Three cDNA from the pyloric ceca of the starfish Asterina pectinifera, (namely, cDNA 1, 2, and 3), encoding phospholipase A₂ (PLA₂), were isolated and sequenced. These cDNAs were composed of 415 bp with an open reading frame of 414 bp at nucleotide positions 1–414, which encodes 138 amino acids including N-terminal Met derived from the PCR primer. The amino acid sequence deduced from the cDNA 1 was completely consistent with the sequence determined with the starfish PLA₂ protein, while those deduced from cDNA 2 and cDNA 3 differed at one and twelve amino acid residual positions, respectively, from the sequence of the PLA₂ protein, suggesting the presence of multiple forms in the starfish PLA₂. All of the sequences deduced from cDNA 1, 2, and 3 required two amino acid deletions in pancreatic loop region, and sixteen insertions and three deletions in β-wing region when aligned with the sequence of mammalian pancreatic PLA₂. In phylogenetic tree, the starfish PLA₂ should be classified into an independent group, but hardly to the established groups IA and IB. The characteristic structure in the pancreatic loop and β-wing regions may account for the specific properties of the starfish PLA₂, e.g. the higher activity and characteristic substrate specificity compared with commercially available PLA₂ from porcine pancreas.     

Molecular characterization of a cDNA clone encoding glutamine synthetase from a gymnosperm,Pinus sylvestris

A full-length cDNA clone (pGSP114) encoding glutamine synthetase was isolated from a gt11 library of the gymnosperm Pinus sylvestris. Nucleotide sequence analysis showed that pGSP114 contains an open reading frame encoding a protein of 357 amino acid residues with a calculated molecular mass of 39.5 kDa. The derived amino acid sequence was more homologous to cytosolic (GS1) (78–82%) than to chloroplastic (GS2) (71–75%) glutamine synthetase in angiosperms. The lack of N-terminal presequence and C-terminal extension which define the primary structure of GS2, also supports that the isolated cDNA encodes cytosolic GS. Southern blot analysis of genomic DNA from P. sylvestris and P. pinaster suggests that GS may be encoded by a small gene family in pine. GS mRNA was more abundant in cotyledons and stems than in roots of both Scots and maritime pines. Western blot analysis in P. sylvestris seedlings showed that only one GS polypeptide, similar in size to GS1 in P. pinaster, could be detected in several different tissues. Our results suggest that cytosolic GS is mainly responsible for glutamine biosynthesis in pine seedlings.This paper is dedicated to the memory of Dr. Jesús S. Olavarría.     

Partial genomic organization of ribosomal protein S7 gene from malaria vector Anopheles stephensi

In this study, we describe the partial genomic organization of ribosomal protein S7 gene isolated from the mosquito Anopheles stephensi. Initially a 558 bp partial cDNA sequence was amplified as precursor mRNA sequence containing 223 bp long intron. 5＇ and 3＇ end sequences were recovered using end specific rapid amplification of cDNA ends （RACE） polymerase chain reaction. The full-length cDNA sequence was 914 nucleotide long with an open reading frame capable of encoding 192 amino acid long protein with calculated molecular mass of 22174 Da and a pI point of 9.94. Protein homology search revealed 〉75% identity to other insect＇s S7 ribosomal proteins. Analysis of sequence alignment revealed several highly conserved domains, one of which is related to nuclear localization signal （NLS） region of human rpS7. Interestingly, intron nucleotide sequence comparison with A. gambiae showed a lesser degree of conservation as compared to coding and untranslated regions. Like this, early studies on the genomic organization and cDNA/ Expressed sequence tag analysis （EST） could help in genome annotation ofA. stephensi, and would be likely to be sequenced in the future.     

水稻条叶枯病毒(RStV)基因组组分4的克隆与序列分析

利用RTPCR技术合成并扩增了水稻条叶枯病毒(RStV)中国云南分离物基因组组分4的全长cDNA,将PCR产物克隆在载体pCRII上,并进行全序列测定,所得核苷酸序列及推测的氨基酸序列与日本分离物T进行比较。结果表明,在核苷酸水平,两分离物的vORF、vcORF及基因间非编码区序列的同源性分别为94.9%、94.1%、86.1%,5’端非编码区序列相同,而3’非编码区同源性为96.1%,仅有两个核苷酸不同;在氨基酸水平,vORF及vcORF编码蛋白的同源性分别为99.4%和98.3%。可见,编码区的大小及其氨基酸序列和两末端序列都是很保守的。因此,中国云南分离物Y与日本分离物T可能有很近的亲缘关系。     

Cloning and sequencing analysis of three amylase cDNAs in the shrimpPenaeus vannamei (Crustacea decapoda): evolutionary aspects

InPenaeus vannamei, α-amylase is the most important glucosidase and is present as at least two major isoenzymes which have been purified. In order to obtain information on their structure, a hepatopancreas cDNA library constructed in phage lambda-Zap II (Strategene) was screened using a synthetic oligonucleotide based on the amino acid sequence of a V8 staphylococcal protease peptide ofP. vannamei α-amylase. Three clones were selected: AMY SK 37 (EMBL sequence accession number: X 77318) is the most complete of the analyzed clones and was completely sequenced. It contains the complete cDNA sequence coding for one of the major isoenzymes of shrimp amylase. The deduced amino acid sequence shows the existence of a 511-residue-long pre-enzyme containing a highly hydrophobic signal peptide of 16 amino acids. Northern hybridization of total RNA with the amylase cDNA confirms the size of the messenger at around 1,600 bases. AMY SK 28, which contains the complete mature sequence of amylase, belonged to the same family characterized by a common 3′ terminus and presented four amino acid changes. Some other variants of this family were also partially sequenced. AMY SK 20 was found to encode a minor variant of the protein with a different 3′ terminus and 57 amino acid changes. Phylogenetic analysis established with the conserved amino acid regions of the (β/α) eight-barrel domain and with the total sequence ofP. vannamei showed close evolutionary relationships with mammals (59–63% identity) and with insect α-amylase (52–62% identity). The use of conserved sequences increased the level of similarity but it did not alter the ordering of the groupings. Location of the secondary structure elements confirmed the high level of sequence similarity of shrimp α-amylase with pig α-amylase. Correspondence to: A. Van Wormhoudt