Molecular Cloning of cDNA for Trehalase from the European Honeybee,Apis mellifera L., and Its Heterologous Expression in Pichia pastoris

cDNA encoding the bound type trehalase of the European honeybee was cloned. The cDNA (3,001 bp) contained the long 5′ untranslated region (UTR) of 869 bp, and the 3′ UTR of 251 bp including a poly(A) tail, and the open reading frame of 1,881 bp consisting of 626 amino acid residues. The M _r of the mature enzyme comprised of 591 amino acids, excluded a signal sequence of 35 amino acid residues, was 69,177. Six peptide sequences analyzed were all found in the deduced amino acid sequence. The amino acid sequence exhibited high identity with trehalases belonging to glycoside hydrolase family 37. A putative transmembrane region similar to trehalase-2 of the silkworm was found in the C-terminal amino acid sequence. Recombinant enzyme of the trehalase was expressed in the methylotrophic yeast Pichia pastoris as host, and displayed properties identical to those of the native enzyme except for higher sugar chain contents. This is the first report of heterologous expression of insect trehalase.     

Glutamine Synthetase (GS): A Key Enzyme for Nitrogen Assimilation in The Macroalga Gracilariopsis lemaneiformis (Rhodophyta)

This study aimed to address the importance of glutamine synthetase II (GSII) during nitrogen assimilation in macroalga Gracilariopsis lemaneiformis. The cDNA full‐length sequence of the three glGSII genes was revealed to have the 5′ m⁷G cap, 5′‐untranslated region, open reading frame (ORF), 3′‐untranslated region, and a 3′ poly (A) tail. The three glGSIIs were classified into plastid glGS2 and cytosolic glGS1‐1 and glGS1‐2, having conserved GSII domains but different cDNA sequences. The complicated 5′ end flanking region indicates complex function of glGS genes. glGS1 genes were significantly up‐regulated under the different NH₄⁺: NO₃^? ratio (i.e., 40:10, 25:25, 10:40, and 0:50) except glGS2 which dramatically up‐regulated under the low NH₄⁺: NO₃^? ratio (i.e., 10:40 and 0:50) during different cultivation times. These different expression patterns perhaps are due to the different biological roles of GS1 and GS2 in the gene family. Furthermore, hypothetical working model of nitrogen assimilation pathway exhibiting the role of glGS1 and glGS2 is proposed. Finally, glGS2 was expressed in Escherichia coli BL21 (DE3), and the optimal conditions for culture (15°C, overnight), purification (500 mM imidazole washing), and activity (pH 7.4, 37°C) were established. This study lays a very important foundation for exploring the role of GS in nitrogen assimilation in algae and plants.     

西伯利亚蓼谷氨酰胺合成酶基因的克隆及碱性盐胁迫下的表达

根据西伯利亚蓼(Polygonum sibiricum Laxm.)地下茎抑制消减文库(SSH)中获得的谷氨酰胺合成酶基因(Glutamin synthetase,GS)EST序列,应用RACE技术克隆了具有Poly A的全长cDNA序列,以下简称为PsGS基因。该序列全长1 273 bp,其5'非翻译区178 bp,3'非翻译区24 bp,开放阅读框编码356个氨基酸残基;根据与其他植物谷氨酰胺合成酶的氨基酸序列的比对以及系统进化分析的结果,确定此基因为谷氨酰胺合成酶基因家族成员;经过SignalP3.0预测该蛋白没有信号肽,无切割位点,为非分泌蛋白。经过ProtParam计算该蛋白的理论等电点为5.55,分子量为39.2 kD,不稳定系数为43.82%,为非稳定蛋白。实时定量PCR分析表明,PsGS在西伯利亚蓼叶、茎、地下茎中均有表达。在3%NaHCO3诱导下,该基因在叶和茎中表达升高,在地下茎中表达受到抑制,推测该基因在抵御碱性盐迫时具有重要作用。     

The chloroplast-located glutamine synthetase of Phaseolus vulgaris L.: nucleotide sequence,expression in different organs and uptake into isolated chloroplasts

Work using a full-length cDNA clone has revealed that the plastid-located glutamine synthetase (GS) of Phaseolus vulgaris is encoded by a single nuclear gene. Nucleotide sequencing has shown that this cDNA is more closely related to a cDNA encoding the plastidic GS of Pisum sativum than to cDNAs encoding three different cytosolic GS subunits of P. vulgaris. The plastid GS subunits are initially synthesized as higher M _r (47000) precursors containing an N-terminal presequence of about 50 amino acids which is structurally similar to the presequences of other nuclear-encoded chloroplast proteins. The precursor has been synthesized in vitro and is imported by isolated pea chloroplasts and processed to two polypeptides of the same size as native P. vulgaris chloroplast GS subunits (M _r 42000). Experiments with fusion proteins show that the N-terminal 68 amino acids of this precursor allow the cytosolic GS subunit also to be imported and processed by isolated chloroplasts. Polyadenylated mRNA specifically related to the plastidic GS gene is most highly abundant in chloroplast-containing organs (leaves and stems) but is also detectable in roots and nodules.     

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.     

Characterization of cDNAs encoding CuZn-superoxide dismutases in Scots pine

A Scots pine (Pinus sylvestris L.) cDNA library was screened with two heterologous cDNA probes (P31 and T10) encoding cytosolic and chloroplastic superoxide dismutases (SOD) from tomato. Several positive clones for cytosolic and chloroplastic superoxide dismutases were isolated, subcloned, mapped and sequenced. One of the cDNA clones (PS3) had a full-length open reading frame of 465 bp corresponding to 154 amino acid residues and showed approximately 85% homology with the amino acid sequences of angiosperm cytosolic SOD counterparts. Another cDNA clone (PST13) was incomplete, but encoded a putative protein with 93% homology to pea and tomato chloroplastic superoxide dismutase. The derived amino acid sequence from both cDNA clones matched the corresponding N-terminal amino acid sequence of the purified mature SOD isozymes. Northern blot hybridizations showed that, cytosolic and chloroplastic CuZn-SOD are expressed at different levels in Scots pine organs. Sequence data and Southern blot hybridization confirm that CuZn-SODs in Scots pine belong to a multigene family. The results are discussed in relation to earlier observations of CuZn-SODs in plants.     

Origin of the plastid in the anomalously pigmented dinoflagellate Gymnodinium mikimotoi (Gymnodiniales, Dinophyta) as inferred from phylogenetic analysis based on the gene encoding the large subunit of form I-type RuBisCO

The dinoflagellate Gymnodinium mikimotoi Miyake et Kominami ex Oda possesses an anomalously pigmented plastid which contains 19′‐hexanoyloxyfucoxanthin, 19′‐butanoyloxyfucoxanthin and fucoxanthin instead of peridinin as the major carotenoids. Previously, we have shown that the plastid of G. mikimotoi belongs to the rhodoplast lineage as inferred from phylogenetic analyses based on the amino acid sequences deduced from psbA and psaA and the nucleotide sequence of the plastid small subunit ribosomal RNA. Furthermore, in the present study, we cloned and sequenced an additional representative plastid gene, rbcL, encoding the large subunit of ribulose 1–5 bisphosphate carboxylase/oxygenase (RuBisCO LSU) from G. mikimotoi. The amino acid sequence deduced from the rbcL gene of G. mikimotoi apparently revealed the conventional form I RuBisCO LSU, which is present in most photosynthetic organisms, and not the divergent form II existing in typically pigmented dinofl age Nates with plastids containing peridinin as the main carotenoid. This finding supports the hypothesis that the origins of the plastids in G. mikimotoi and peridinin‐type dinoflagellates are not related to each other. Molecular phylogenetic analysis based on the amino acid sequence deduced from the rbcL gene further showed that the plastid of G. mikimotoi belongs to the rhodoplast lineage. In particular, G. mikimotoi clustered with haptophytes in the phylogenetic tree. From this result, two hypotheses with respect to the origin of the plastid in G. mikimotoi can be proposed: G. mikimotoi may have engulfed a haptophyte‐like cell (tertiary symbiosis) or englulfed a rhodophyte‐like cell that was closely related to the origin of the plastid in the haptophyte (secondary symbiosis).     

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.     

Molecular cloning of a cDNA encoding glutamine synthetase from root nodules ofElaeagnus umbellate

We analyzed a cDNA clone encoding cytosolic glutamine synthetase,EuNOD-GS1, isolated from a root nodule cDNA library ofElaeagnus umbellata. This clone has an insert size of 1359 bp and encodes a protein for 355 amino-acid residues, with a molecular weight of 39.2 kDa. Its expression is slightly higher in the root nodules than in the leaves or uninfected roots. Analysis of the deduced amino acid sequences and phytogeny revealed thatEuNOD-GS1 is clustered with cytosolic GS-α isoenzymes. Therefore, based on this and previous results, we propose that the main physiological role ofEuNOD-GS1 is the assimilation of ammonia from secondary and, in part, primary sources.     

Cloning of Wap65 in sea bass (Dicentrarchus labrax) and sea bream (Sparus aurata) and expression in sea bass tissues

The complementary DNA encoding WAP65 protein was cloned from the liver of two fish species sea bass (Dicentrarchus labrax) and sea bream (Sparus aurata). Full-length cDNA sequences were obtained from reverse transcribed total RNA, followed by 5′ and 3′ rapid amplification of cDNA end (RACE) experiments. The full-length cDNA sequence of D. labrax is 1709 bp and the coding sequence is flanked by a 67 bp 5′-UTR and a 358 bp 3′-UTR. The full-length cDNA sequence of S. aurata is 1599 bp, and the coding sequence is flanked by a 48 bp 5′-UTR and a 273 bp 3′-UTR. The deduced amino acid putative primary sequences are composed of 427 and 425 amino acid residues for D. labrax and S. aurata, respectively. They display high homologies with previously described fish WAP65 and other hemopexin-like proteins from rabbit (Oryctolagus cuniculus). Expression of Wap65 has proved to be a natural physiological adaptive answer of teleost fish to warm temperature acclimation. In all fish species studied to date, Wap65 was found expressed mainly by the liver, although other tissues seem able to express Wap65 in response to a warm temperature acclimation, in a specie specific manner. Here, we investigate the tissue specific expression of Wap65 in D. labrax and S. aurata in response to a warm temperature acclimation, by RT-PCR analysis.     

Characterization ofVitis vinifera L. glutamine synthetase and molecular cloning of cDNAs for the cytosolic enzyme

Grapevine (Vitis vinifera L.) glutamine synthetase (GS) was analysed into two distinct classes of isoforms; one of them was present in both leaf and root tissues while the other one showed leaf specificity. Western blot analysis revealed that grapevine GS consists of three types of polypeptides of distinct size and differential tissue specificity. Two structurally distinct cDNA clones, pGS1;1 and pGS1;2, encoding grapevine GS were isolated from a cell suspension library and characterized. Both clones contained open reading frames encoding for polypeptides of 356 amino acids with a predicted molecular mass of about 39 kDa. Although the coding sequences of pGS1;1 and pGS1;2 were 84% similar, their 5-and 3-untranslated sequences showed only 40% similarity. The coding sequences of the two clones and the derived amino acid sequences showed higher homology to cytosolic than to chloroplastic GSs of other higher plants indicating that the cDNAs isolated encode for cytosolic isoforms of grapevine GS. Southern blot analysis suggested the existence of more than two GS genes in the grapevine genome. In northern blots both clones were hybridized to mRNAs of about 1.4 kb that are differentially expressed in the various tissues. Supply of nitrate or ammonium in the cell suspension culture medium, as a sole nitrogen source, resulted in differential response of the pGS1;1-and pGS1;2-related genes.     

ISOLATION AND SEQUENCE ANALYSIS OF A cDNA ENCODING A NOVEL PUTATIVE ESTERASE FROM THE MARINE MICROALGA ISOCHRYSIS GALBANA (PRYMNESIOPHYCEAE,HAPTOPHYTA)1

Microalgae constitute an interesting novel study area for characterizing new esterases, and so we decided to isolate a complete cDNA encoding a new putative microalgal esterase from the haptophyte Isochrysis galbana Parke. Rapid amplifications of both the 5′ and 3′ cDNA ends (RACE) were performed with specific primers, designed using an incomplete candidate gene from the I. galbana expressed sequence tag (EST) database. The full‐length cDNA obtained was designated IgEst1. The coding sequence was 828 bp long, and the deduced amino acid sequence revealed a polypeptide of 275 amino acids with a predicted signal peptide of 23 residues in the N‐terminal region. The following 252 amino acids formed, after in silico analysis, a mature protein with a molecular mass of ～26.92 kDa and had a theoretical pI of 5.87. Alignment analyses revealed slight but significant identity and similarity with carboxylesterases, phospholipases, and lysophospholipases from various organisms including fungi, plants, and animals. The new sequence IgEst1 enclosed the catalytic triad Ser/Asp/His and the consensus pentapeptide Gly‐X‐Ser‐X‐Gly, two highly conserved patterns found in serine hydrolases. Phylogenetic analyses established a close relationship with putative esterases identified in microalgae genomes.     

茶树肌动蛋白基因（CsActin1）全长cDNA克隆与生物信息学分析

以茶树（Camellia sinensis）萌动芽为材料,根据茶树萌动芽芽抑制消减杂交文库中分离得到的肌动蛋白（actin）基因的5′-片段设计引物,利用3′-RACE技术克隆了其cDNA全长序列,该基因cDNA全长1 470 bp,命名为CsActin1（GenBank登录号HQ235647）。序列分析表明,CsActin1开放阅读框长1 134 bp,编码377个氨基酸,5′非编码区100 bp,3′非编码区236 bp。推测的蛋白质分子量为41.70 kD,等电点约为5.31,具有肌动蛋白家族的特征信号序列（YVGDEAQs.KRG和WIAKaEYDE）和肌动蛋白相关蛋白的特征信号序列（LLTEApLNPkaNR）。CsActin1与GenBank中注册的其它植物肌动蛋白核苷酸序列的相似性在80%以上,氨基酸序列相似性在95%以上。与其它植物肌动蛋白的进化树分析结果表明,茶树肌动蛋白与杨树的两个肌动蛋白间的亲缘关系最为密切。并对推导的蛋白结构进行了分析。     

MOLECULAR CLONING AND SEQUENCE ANALYSIS OF THREE NEW FULL‐LENGTH cDNAs OF CYTOCHROME P450 (CYP6N3v1‐v3)*FROM AEDES ALBOPICTUS**

Abstract The three new full‐length cDNA sequences including the complete 5′‐and 3′‐ untranslated regions (UTR) coding for cytochrome P450s from Aedes albopictus have been obtained. The P450 proteins deduced from the nucleotide sequences shared 58.6% ‐ 62.4% amino acid identity with CYP6N1 and CYP6N2 from Anopheles gambiae, and 99% with each other. The three new complete sequences have been submitted and named as CYP6N3v1, CYP6N3v2 and CYP6N3v3 by the P450 Nomenclature Committee. The original cDNAs were obtained by rapid amplification of cDNA ends (RACE) approach with several pairs of gene specific primers based on the cDNA fragment previously obtained from deltamethrin‐resistant strain of Ae. albopictus. Further analysis showed that the three new sequences are present in both resistant strain and susceptible strain and might be effectively translated. In addition, the 5′‐ and 3′‐UTRs were compared between the CYP6N3vl‐v3 and other known insect P450s. The multiplicity of trans‐lational control of insect P450 genes was discussed.     

Cloning of a higher-plant plastid omega-6 fatty acid desaturase cDNA and its expression in a cyanobacterium.

Oligomers based on amino acids conserved between known plant omega-3 and cyanobacterium omega-6 fatty acid desaturases were used to screen an Arabidopsis cDNA library for related sequences. An identified clone encoding a novel desaturase-like polypeptide was used to isolate its homologs from Glycine max and Brassica napus. The plant deduced amino acid sequences showed less than 27% similarity to known plant omega-6 and omega-3 desaturases but more than 48% similarity to cyanobacterial omega-6 desaturase, and they contained putative plastid transit sequences. Thus, we deduce that the plant cDNAs encode the plastid omega-6 desaturase. The identity was supported by expression of the B. napus cDNA in cyanobacterium. Synechococcus transformed with a chimeric gene that contains a prokaryotic promoter fused to the rapeseed cDNA encoding all but the first 73 amino acids partially converted its oleic acid fatty acid to linoleic acid, and the 16:1(9c) fatty acid was converted primarily to 16:2(9c, 12) in vivo. Thus, the plant omega-6 desaturase, which utilizes 16:1(7c) in plants, can utilize 16:1(9c) in the cyanobacterium. The plastid and cytosolic homologs of plant omega-6 desaturases are much more distantly related than those of omega-3 desaturases.     

Molecular cloning and expression analysis of a myosin light chain 1 (MLC‐1) gene from Indian meal moth Plodia interpunctella (Lepidoptera: Pyralidae)

Myosin light chain 1 (MLC‐1) protein acts in the organization, dynamics and transport processes associated with the cytoskeleton. In this work, an MLC‐1 gene was cloned and characterized from the Indian meal moth, Plodia interpunctella (Lepidoptera: Pyralidae). The isolated PiMLC‐1 cDNA is 913 bp, including a 5′‐untranslated region (UTR) of 79 bp, 3′‐UTR of 381 bp and an open reading frame (ORF) of 453 bp encoding a polypeptide of 150 amino acids, which contains two calcium binding domains (EF‐hands). The deduced PiMLC‐1 protein sequence has 39–94% comparison with other individuals. The qPCR analysis revealed that PiMLC‐1 was expressed in the four developmental stages (egg, larva, pupa and adult) and in all tissues tested, suggesting that it plays an important role in development of P. interpunctella. Based on the MLC‐1 amino acids, phylogenetic analysis showed a similar topology with the traditional classification, suggesting the potential value of the MLC‐1 protein in phylogenetic inference.     

MOLECULAR CHARACTERIZATION OF THE LECTIN,BRYOHEALIN, INVOLVED IN PROTOPLAST REGENERATION OF THE MARINE ALGA BRYOPSIS PLUMOSA (CHLOROPHYTA)1

When a coenocytic cell of the green alga Bryopsis plumosa (Hudson) C. Agardh was cut open and the cell contents expelled, the cell organelles agglutinated rapidly in seawater to form protoplasts. This process was mediated by a lectin, Bryohealin. The full sequence of the cDNA encoding Bryohealin was obtained, which consisted of 1,101 base pairs (bp), with 24 bp of 5′ untranslated region (UTR) and 201 bp of 3′ UTR. It had an open reading frame (ORF) of 771 bp encoding 257 amino acid residues. A signal peptide consisted of 22 amino acids presented before the start codon of Bryohealin, indicating that this lectin was a vacuolar (storage) protein. The C‐terminal sequence of Bryohealin was composed of antibiotic domains, suggesting that this lectin could perform two functions: (i) aggregation of cell organelles in seawater and (ii) protection from bacterial contamination for successful protoplast regeneration. The BLAST search result showed that Bryohealin had little sequence homology with any known plant lectins, but rather resembled animal lectins with fucolectin domains. The expression of recombinant Bryohealin (rBryohealin) was obtained in the Escherichia coli system.     

Research note: Analysis of expressed sequence tags from the chrysophycean alga Ochromonas danica (Heterokontophyta)

A cDNA library was constructed from the chrysophycean alga, Ochromonas danica E. G. Pringsheim. 5′‐end sequencing of about 600 cDNA clones yielded 476 authentic expressed sequence tags (EST) of which 275 showed significant matches (E‐value <10^?4) to sequences in a public database. The annotation of these ESTs was carried out to assess subcellular localization of the putative proteins using several internet‐accessible prediction programs for subcellular localization. These analyses revealed that putative plastid proteins in Ochromonas possess N‐terminal bipartite presequences with a conserved phenylalanine at the N‐terminus of the predicted transit peptide‐like domains, similar to other ‘red‐lineage’ secondary symbiotic organisms. The examination of sequences of 3′‐UTR revealed that, similarly to chlorophyte algae, UGUAA may represent a putative polyadenylation signal in O. danica.