De novo design of signal sequences to localize cargo to the 1,2‐propanediol utilization microcompartment

Organizing heterologous biosyntheses inside bacterial cells can alleviate common problems owing to toxicity, poor kinetic performance, and cofactor imbalances. A subcellular organelle known as a bacterial microcompartment, such as the 1,2‐propanediol utilization microcompartment of Salmonella, is a promising chassis for this strategy. Here we demonstrate de novo design of the N‐terminal signal sequences used to direct cargo to these microcompartment organelles. We expand the native repertoire of signal sequences using rational and library‐based approaches and show that a canonical leucine‐zipper motif can function as a signal sequence for microcompartment localization. Our strategy can be applied to generate new signal sequences localizing arbitrary cargo proteins to the 1,2‐propanediol utilization microcompartments.     

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.     

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.     

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.     

Biochemical characterization,localization, and tissue distribution of the longer form of mouse SIRT3

SIRT3 is a key mitochondrial protein deacetylase proposed to play key roles in regulating mitochondrial metabolism but there has been considerable debate about its actual size, the sequences required for activity, and its subcellular localization. A previously cloned mouse SIRT3 has high sequence similarity with the C‐terminus of human SIRT3 but lacks an N‐terminal mitochondrial targeting sequence and has no detectable deacetylation activity in vitro. Using 5′ rapid amplification of cDNA ends, we cloned the entire sequence of mouse SIRT3, as well as rat and rabbit SIRT3. Importantly, we find that full‐length SIRT3 protein localizes exclusively to the mitochondria, in contrast to reports of SIRT3 localization to the nucleus. We demonstrate that SIRT3 has no deacetylation activity in vitro unless the protein is truncated, consistent with human SIRT3. In addition, we determined the inhibition constants and mechanism of action for nicotinamide and a small molecule SIRT3 inhibitor against active mouse SIRT3 and show that the mechanisms are different for the two compounds with respect to peptide substrate and NAD⁺. Thus, identification and characterization of the actual SIRT3 sequence should help resolve the debate about the nature of mouse SIRT3 and identify new mechanisms to modulate enzymatic activity.     

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.     

Characterisation of two wheat enolase cDNA showing distinct patterns of expression in leaf and crown tissues of plants exposed to low temperature

Seasonal low temperature (LT) adversely affects growth of plants. The onset of LT in temperate zones also entails the process of cold acclimation, preparing the plants to withstand freezing temperatures. During this process of cold acclimation a number of physiological, biochemical and molecular changes occur. A differentially expressed enolase gene in wheat plants exposed to LT was previously identified by cDNA‐amplified fragment length polymorphism. In this study, two wheat enolase cDNA, TaENO‐a and TaENO‐b amplified by 5′,3′ rapid amplification of cDNA end (RACE)‐PCR (polymerase chain reaction), were isolated and characterised. Quantitative real‐time PCR (QPCR) was done to assess their expression patterns in leaf and crown tissues of wheat plants exposed to LT. BLAST searches and bioinformatic analyses were done to determine the structure, domains and phylogeny of the cloned sequences. The two cDNA sequences differed mostly in the 5′ and 3′ untranslated regions. Deduced amino acid sequence showed high identity to bacteria, yeast, fungi, human and plant enolases with conserved putative DNA‐binding and repressor domains. A genomic clone containing 17 exons distributed over 4.5 kb structurally shared a high degree of similarity to rice enolase. QPCR revealed combined effects of LT and ageing on expression of TaENO‐a and TaENO‐b. Down‐regulation of TaENO‐a was observed with age in the crown tissues upon exposure to LT, but in leaf initial up‐regulation was followed by down‐regulation. Expression of TaENO‐b was similar to expression patterns previously reported for cold‐regulated (COR) genes in wheat, wherein the recessive vrnA‐1 allele influenced its expression in the leaf and genetic background determines its expression in the crown.     

Palmitoylation of stathmin family proteins domain A controls Golgi versus mitochondrial subcellular targeting

Background information. Precise localization of proteins to specialized subcellular domains is fundamental for proper neuronal development and function. The neural microtubule‐regulatory phosphoproteins of the stathmin family are such proteins whose specific functions are controlled by subcellular localization. Whereas stathmin is cytosolic, SCG10, SCLIP and RB3/RB3′/RB3″ are localized to the Golgi and vesicle‐like structures along neurites and at growth cones. We examined the molecular determinants involved in the regulation of this specific subcellular localization in hippocampal neurons in culture. Results. We show that their conserved N‐terminal domain A carrying two palmitoylation sites is dominant over the others for Golgi and vesicle‐like localization. Using palmitoylation‐deficient GFP (green fluorescent protein) fusion mutants, we demonstrate that domains A of stathmin proteins have the particular ability to control protein targeting to either Golgi or mitochondria, depending on their palmitoylation. This regulation involves the co‐operation of two subdomains within domain A, and seems also to be under the control of its SLD (stathmin‐like domain) extension. Conclusions. Our results unravel that, in specific biological conditions, palmitoylation of stathmin proteins might be able to control their targeting to express their functional activities at appropriate subcellular sites. They, more generally, open new perspectives regarding the role of palmitoylation as a signalling mechanism orienting proteins to their functional subcellular compartments.     

ANALYSIS OF EXPRESSED SEQUENCE TAGS FROM THE GREEN ALGA ULVA LINZA (CHLOROPHYTA)1

There is a general lack of genomic information available for chlorophyte seaweed genera such as Ulva, and in particular there is no information concerning the genes that contribute to adhesion and cell wall biosynthesis for this organism. Partial sequencing of cDNA libraries to generate expressed sequence tags (ESTs) is an effective means of gene discovery and characterization of expression patterns. In this study, a cDNA library was created from sporulating tissue of Ulva linza L. Initially, 650 ESTs were randomly selected from a cDNA library and sequenced from their 5′ ends to obtain an indication of the level of redundancy of the library (21%). The library was normalized to enrich for rarer sequences, and a further 1920 ESTs were sequenced. These sequences were subjected to contig assembly that resulted in a unigene set of approximately 1104 ESTs. Forty‐eight percent of these sequences exhibited significant similarity to sequences in the databases. Phylogenetic comparisons are made between selected sequences with similarity in the databases to proteins involved in aspects of extracellular matrix/cell wall assembly and adhesion.     

Plastid proteome prediction for diatoms and other algae with secondary plastids of the red lineage

The plastids of ecologically and economically important algae from phyla such as stramenopiles, dinoflagellates and cryptophytes were acquired via a secondary endosymbiosis and are surrounded by three or four membranes. Nuclear‐encoded plastid‐localized proteins contain N‐terminal bipartite targeting peptides with the conserved amino acid sequence motif ‘ASAFAP’. Here we identify the plastid proteomes of two diatoms, Thalassiosira pseudonana and Phaeodactylum tricornutum, using a customized prediction tool (ASAFind) that identifies nuclear‐encoded plastid proteins in algae with secondary plastids of the red lineage based on the output of SignalP and the identification of conserved ‘ASAFAP’ motifs and transit peptides. We tested ASAFind against a large reference dataset of diatom proteins with experimentally confirmed subcellular localization and found that the tool accurately identified plastid‐localized proteins with both high sensitivity and high specificity. To identify nucleus‐encoded plastid proteins of T. pseudonana and P. tricornutum we generated optimized sets of gene models for both whole genomes, to increase the percentage of full‐length proteins compared with previous assembly model sets. ASAFind applied to these optimized sets revealed that about 8% of the proteins encoded in their nuclear genomes were predicted to be plastid localized and therefore represent the putative plastid proteomes of these algae.     

STUDY ON THE DIVERSITY OF CYTOCHROME P450 GENES FROM AEDES ALBOPICTUS*

Abstract Several pairs of specific primers according to the obtained cDNA sequence fragment from deltamethrin‐resistant Aedes albopktus were designed to amplify new CYP6 genes from total RNA of Aedes albopictus by rapid amplification of cDNA ends (RACE) technique. The products of RACE were cloned and selected for sequencing. The deduced amino acid sequences were subjected to homologous analysis. The results indicated that the identities of clone GZS331 sequence from 5′‐RACE products and clone GZG033 sequence from 3′‐RACE products to CYP6N3vl ‐ v3 are 83.9% ‐ 84.3% and 98.2% ‐ 99.1% respectively; while the identities of the others from 3′‐RACE products to CYP6N3v1 ‐ v3 are 84.3% ‐ 85.6%. All of these obtained cDNA sequences have a higher homology to CYP3A1 in mouse and CYP9A1 in moth. The dendrogram constructed by PC/GENE software showed similar results to homologous analysis. These obtained sequences were submitted and named by the P450 Nomenclature Committee. The diversity of cytochrome P450 genes in Culicidae species was discussed.     

Partial Genome Scale Analysis of Gene Expression in Human Adipose Tissue Using DNA Array

Objective: Large scale analysis of gene expression in adipose tissue provides a basis for the identification of novel candidate genes involved in the pathophysiology of obesity. Our goal was to explore gene expression in human adipose tissue at a partial genome scale using DNA array. Research Methods and Procedures: Labeled cDNA, derived from human adipose tissue poly(A⁺) RNA, was hybridized to a DNA array containing over 18,000 human expressed sequence‐tagged (EST) clones. The results were analyzed by database searches. Results: Homology searches of the 300 EST clones with highest hybridization signals revealed that 145 contained DNA sequences identical to known genes and 79 could be linked to UniGene clusters. Of the 145 identified genes, 136 were nonredundant and subsequently characterized with respect to function and chromosomal localization by searching MEDLINE, UniGene, GeneMap, OMIM, SWISS‐PROT, the Genome Database, and the Location Data Base. The identified genes were grouped according to their putative functions; cell/organism defense (9.6%), cell division (5.1%), cell signaling/communication (19.8%), cell structure/motility (12.5%), gene/protein expression (16.9%), metabolism (16.2%), and unclassified (19.8%). Less than 50% of these genes have previously been reported to be expressed in adipose tissue. The chromosomal localization of 268 genes strongly expressed in adipose tissue showed that their relative abundance was significantly increased on chromosomes 11, 19, and 22 compared to the expected distribution of the same number of random genes. Discussion: Our study resulted in the identification of numerous genes previously not reported to be expressed in adipose tissue. These results suggest that DNA array is a powerful tool in the search for novel regulatory pathways within adipose tissue on a scale that is not possible using conventional methods.     

Trypanosomatid Pin1‐Type Peptidyl‐Prolyl Isomerase Is Cytosolic and Not Essential for Cell Proliferation

Pin1‐type peptidyl‐prolyl cis/trans isomerases (PPIases) isomerise the peptide bond of specific phosphorylated (Ser/Thr)‐Pro residues, regulating various cellular events. Previously, we reported a Pin1‐type PPIase in Trypanosoma cruzi, but little is known about its function and subcellular localization. Immunofluorescence analysis revealed that in contrast with Pin1‐like proteins from diverse organisms, TcPin1 mainly localized in the cytoplasm and was excluded from the nuclei. In addition, RNAi‐mediated downregulation of TbPin1 in Trypanosoma brucei did not abolish cell proliferation. Using yeast two‐hybrid assay, we identified a MORN domain‐containing protein as putative Pin1‐binding partners. These data suggest that Pin1‐mediated signaling mechanism plays a different role in protozoan parasites.     

Frequent in-frame length variations are found in the diverged simple repeat sequences of the protein-coding regions of two putative protein kinase genes of Brassica napus

Two putative protein kinase cDNA clones were isolated from Brassica napus by screening with a putative protein kinase cDNA clone of Arabidopsis thaliana. The deduced amino acid sequences show a distinct modular composition, consisting of a possible protein kinase catalytic region at the amino terminus and a highly acidic region encoded from diverged simple repeat sequences at the carboxy terminus. Comparison of the nucleotide sequences encoding this acidic region revealed a high rate of in-frame length variation, while preserving the acidic characteristics. Similar variation is also found in the non-coding regions of these clones.     

Molecular cloning and expression of a C‐type lectin‐like protein from orange‐spotted grouper Epinephelus coioides

A C‐type lectin‐like protein (Ec‐CTLP) was cloned from the grouper Epinephelus coioides. The full‐length cDNA of Ec‐CTLP was composed of 905 bp with a 522 bp open reading frame that encodes a 174‐residue protein. The putative amino acid sequence of Ec‐CTLP contains a signal peptide of 19 residues at the N‐terminus and a CLECT domain from Cys43 to Arg169 and a conserved imperfect WND (Trp‐Asn‐Asp) motif. The homologous identity of deduced amino acid sequences is from 32 to 42% with other fishes. The expression of Ec‐CTLP was differently upregulated in E. coioides spleen (germline stem) cells after being challenged at 16 and 4° C. Intracellular localization revealed that Ec‐CTLP was distributed only in the cytoplasm. Recombinant Ec‐CTLP (rEc‐CTLP) was expressed in Escherichia coli BL21 (DE3) and purified for mouse Mus musculus anti‐Ec‐CTLP serum preparation. The rEc‐CTLP fusion protein does not possess haemagglutinating activity, but improves survival from frozen bacteria. The survival of bacteria (including gram‐negative E. coli and gram‐positive Staphylococcus aureus) was positively correlated with the concentration of the rEc‐CTLP. These findings can provide clues to help understand the probable C‐type lectin in marine fish innate immunity.