Phylogeny and fitness of Vibrio fischeri from the light organs of Euprymna scolopes in two Oahu,Hawaii populations

The evolutionary relationship among Vibrio fischeri isolates obtained from the light organs of Euprymna scolopes collected around Oahu, Hawaii, were examined in this study. Phylogenetic reconstructions based on a concatenation of fragments of four housekeeping loci (recA, mdh, katA, pyrC) identified one monophyletic group (‘Group-A'') of V. fischeri from Oahu. Group-A V. fischeri strains could also be identified by a single DNA fingerprint type. V. fischeri strains with this fingerprint type had been observed to be at a significantly higher abundance than other strains in the light organs of adult squid collected from Maunalua Bay, Oahu, in 2005. We hypothesized that these previous observations might be related to a growth/survival advantage of the Group-A strains in the Maunalua Bay environments. Competition experiments between Group-A strains and non-Group-A strains demonstrated an advantage of the former in colonizing juvenile Maunalua Bay hosts. Growth and survival assays in Maunalua Bay seawater microcosms revealed a reduced fitness of Group-A strains relative to non-Group-A strains. From these results, we hypothesize that there may exist trade-offs between growth in the light organ and in seawater environments for local V. fischeri strains from Oahu. Alternatively, Group-A V. fischeri may represent an example of rapid, evolutionarily significant, specialization of a horizontally transmitted symbiont to a local host population.     

Variability in biofilm formation correlates with hydrophobicity and quorum sensing among Vibrio parahaemolyticus isolates from food contact surfaces and the distribution of the genes involved in biofilm formation

Vibrio parahaemolyticus is one of the leading foodborne pathogens causing seafood contamination. Here, 22 V. parahaemolyticus strains were analyzed for biofilm formation to determine whether there is a correlation between biofilm formation and quorum sensing (QS), swimming motility, or hydrophobicity. The results indicate that the biofilm formation ability of V. parahaemolyticus is positively correlated with cell surface hydrophobicity, autoinducer (AI-2) production, and protease activity. Field emission scanning electron microscopy (FESEM) showed that strong-biofilm-forming strains established thick 3-D structures, whereas poor-biofilm-forming strains produced thin inconsistent biofilms. In addition, the distribution of the genes encoding pandemic clone factors, type VI secretion systems (T6SS), biofilm functions, and the type I pilus in the V. parahaemolyticus seafood isolates were examined. Biofilm-associated genes were present in almost all the strains, irrespective of other phenotypes. These results indicate that biofilm formation on/in seafood may constitute a major factor in the dissemination of V. parahaemolyticus and the ensuing diseases.     

Floral volatiles, pollinator sharing and diversification in the fig-wasp mutualism: insights from Ficus natalensis, and its two wasp pollinators (South Africa)

Combining biogeographic, ecological, morphological, molecular and chemical data, we document departure from strict specialization in the fig-pollinating wasp mutualism. We show that the pollinating wasps Elisabethiella stuckenbergi and Elisabethiella socotrensis form a species complex of five lineages in East and Southern Africa. Up to two morphologically distinct lineages were found to co-occur locally in the southern African region. Wasps belonging to a single lineage were frequently the main regional pollinators of several Ficus species. In South Africa, two sister lineages, E. stuckenbergi and E. socotrensis, pollinate Ficus natalensis but only E. stuckenbergi also regularly pollinates Ficus burkei. The two wasp species co-occur in individual trees of F. natalensis throughout KwaZulu-Natal. Floral volatile blends emitted by F. natalensis in KwaZulu-Natal were similar to those emitted by F. burkei and different from those produced by other African Ficus species. The fig odour similarity suggests evolutionary convergence to attract particular wasp species. The observed pattern may result from selection for pollinator sharing among Ficus species. Such a process, with one wasp species regionally pollinating several hosts, but several wasp species pollinating a given Ficus species across its geographical range could play an important role in the evolutionary dynamics of the Ficus-pollinating wasp association.     

Investigation of the roles of T6SS genes in motility, biofilm formation, and extracellular protease Asp production in Vibrio alginolyticus with modified Gateway-compatible plasmids

Aims: The aims of this study were to create and evaluate the Gateway‐compatible plasmids for investigating the function of genes in Vibrio alginolyticus and other Gram‐negative bacteria. Methods and Results: In this study, Gateway‐compatible plasmids were successfully constructed for rapid and comprehensive function analysis of genes. Taking advantage of these plasmids, the in‐frame deletion mutant strains and their complemented strains of five T6SS genes, including dotU1, VEPGS_0008, VEPGS_0011, hcp2 and ppkA2, were obtained. The results illustrated that all the mutant strains showed no significant effects on extracellular protease production, expression of Hcp1, and biofilm formation when compared to the wild‐type strain, but in‐frame deletion of VEPGS_0008 resulted in obvious biofilm reduction and the complemented strain restored to the level of the wild‐type strain. Besides, in‐frame deletion of dotU1, VEPGS_0008 and ppkA2 abolished the swarming ability. Conclusions: A set of Gateway‐compatible vectors for internal insertion, in‐frame deletion and complementation of the target genes is constructed to facilitate the general and rapid function analysis of genes involved in T6SS in Vibrio alginolyticus. Significance and Impact of the Study: The modified Gateway‐compatible plasmids greatly facilitate the high‐throughput and convenient function analysis of the unidentified genes.     

Comparative analysis of the hemolysin genes of Vibrio cholerae non-01, V. mimicus, and V. hollisae that are similar to the tdh gene of V. parahaemolyticus

The genes encoding the hemolysins similar to the thermostable direct hemolysin (tdh gene) of Vibrio parahaemolyticus were cloned from chromosomes of V. mimicus and V. hollisae. These cloned hemolysin genes and previously cloned tdh genes of V. parahaemolyticus and V. cholerae non-01 were compared by physical mapping and by hybridization with oligodeoxyribonucleotide probes. The nucleotide sequences in the coding regions of all the cloned hemolysin genes were very homologous and had only minor variations but the sequences flanking the homolysin genes were dissimilar, indicating that the hemolysin genes have a common ancestor and suggesting that they may have been transferred between Vibrio species as a descrete genetic unit.     

The costs and benefits in an unusual symbiosis: experimental evidence that bitterling fish (Rhodeus sericeus) are parasites of unionid mussels in Europe

Interspecific symbiotic relationships involve a complex network of interactions, and understanding their outcome requires quantification of the costs and benefits to both partners. We experimentally investigated the costs and benefits in the relationship between European bitterling fish (Rhodeus sericeus) and freshwater mussels that are used by R. sericeus for oviposition. This relationship has hitherto been thought mutualistic, on the premise that R. sericeus use mussels as foster parents of their embryos while mussels use R. sericeus as hosts for their larvae. We demonstrate that R. sericeus is a parasite of European mussels, because it (i) avoids the cost of infection by mussel larvae and (ii) imposes a direct cost on mussels. Our experiments also indicate a potential coevolutionary arms race between bitterling fishes and their mussel hosts; the outcome of this relationship may differ between Asia, the centre of distribution of bitterling fishes, and Europe where they have recently invaded.     

小叶黑面神与小叶头细蛾互惠共生系统的种群调控机制(英文)

【目的】探索小叶黑面神Breynia vitis-idaea对小叶头细蛾Epicephala vitisidaea种群数量的调控机制。【方法】跟踪记录小叶黑面神物候及头细蛾的生物学。解剖在小叶黑面神上访花头细蛾的外生殖器,鉴定头细蛾种类。对不同时期小叶黑面神有梗和无梗的果实进行解剖,统计果实内幼虫数量、果实表面孔的数量以及果实表面产卵疤数量,计算头细蛾幼虫存活率。统计不同时期小叶黑面神有梗和无梗的果实的比例。【结果】在福建厦门小叶黑面神每年有5个花果期,相应地,为小叶黑面神传粉的头细蛾每年有5个生活世代。通过解剖,该种头细蛾被鉴定为小叶头细蛾。一头小叶头细蛾幼虫需要消耗2~4粒种子才能发育成熟。小叶黑面神有两种不同形态的果实:有梗和无梗。头细蛾幼虫在无梗果实内的存活率明显高于有梗果实,并且晚秋时期头细蛾幼虫的存活率要高于夏季。小叶黑面神无梗果实的比例在晚秋(82.04%)要高于夏季(31.53%)。【结论】本研究揭示了维持互利共生体系稳定的机制。小叶黑面神能够通过果实基部果梗的有无来调节小叶头细蛾幼虫的存活率。小叶黑面神通过季节性的调节有梗果实的比率,既有效避免了夏季种子被过度消耗的风险,又提高了头细蛾在冬季的存活率。小叶黑面神这种自身调控机制对维持小叶黑面神与小叶头细蛾互惠共生系统的稳定性起到了至关重要的作用。     

Characterization of two functional phosphoenolpyruvate/phosphate translocator (PPT) genes in Arabidopsis--AtPPT1 may be involved in the provision of signals for correct mesophyll development

The Arabidopsis thaliana chlorophyll a/b-binding protein underexpressed 1 (cue1) mutant shows a reticulate leaf phenotype and is defective in a plastidic phosphoenolpyruvate (PEP)/phosphate translocator (AtPPT1). A functional AtPPT1 providing plastids with PEP for the shikimate pathway is therefore essential for correct leaf development. The Arabidopsis genome contains a second PPT gene, AtPPT2. Both transporters share similar substrate specificities and are therefore able to transport PEP into plastids. The cue1 phenotype could partially be complemented by ectopic expression of AtPPT2 but obviously not by the endogeneous AtPPT2. Both genes are differentially expressed in most tissues: AtPPT1 is mainly expressed in the vasculature of leaves and roots, especially in xylem parenchyma cells, but not in leaf mesophyll cells, whereas AtPPT2 is expressed ubiquitously in leaves, but not in roots. The expression profiles are corroborated by tissue-specific transport data. As AtPPT1 expression is absent in mesophyll cells that are severely affected in the cue1 mutant, we propose that the vasculature-located AtPPT1 is involved in the generation of phenylpropanoid metabolism-derived signal molecules that trigger development in interveinal leaf regions. This signal probably originates from the root vasculature where only AtPPT1, but not AtPPT2, is present.     

Production of root hair deformation factors by Rhizobium meliloti nodulation genes in Escherichia coli: HsnD (NodH) is involved in the plant host-specific modification of the NodABC factor

The role of the hsnD (nodH) gene in the determination of the host-specific nodulation ability of Rhizobium meliloti was studied by expressing the common nodulation genes (nodABC) with or without the hsnD gene in Escherichia coli and testing for biological activity on various leguminous plants. In this way, four categories of plants were established. Upon infection with E. coli carrying the nodABC construct, root hair deformation (Had) was detected on clovers while the hsnD gene was additionally needed for the elicitation of the same response on alfalfa and sweet clover. A weak root hair deformation was seen on siratro by inoculation with E. coli harbouring the nodABC genes and was highly increased when hsnD was also introduced. Cowpea and Desmodium did not respond to any of the E. coli strains constructed. Exudates or cytosolicfractions of the respective E. coli derivatives elicited the same root hair deformation as the intact bacteria. These data indicate that not only the nodABC gene products but also the hsnD product are involved in the synthesis of Had factors. Subclones expressing only the nodA, nodB, or nodC genes or the same genes in pairs (nodAB, nodBC, nodAC) did not provide a compound with activity comparable to the NodABC factor, suggesting that all three genes are required for the production of the Had factor which is active on clover. Coinoculation of alfalfa plants with two strains of E. coli, one carrying the nodABC genes and the other expressing only hsnD, or combining exudates or cytosolic fractions from these strains did not result in root hair deformation on alfalfa. These data indicate that the HsnD protein itself or its product is not an additional alfalfa-specific extracellular signal but more likely is enzymatically involved in the modification of the basic compound determined by the nodABC genes.     

Cys-92, Cys-95, and the C-terminal 12 residues of the <Emphasis Type="Italic">Vibrio harveyi</Emphasis> ferric uptake regulator (Fur) are functionally inessential

Ferric uptake regulator (Fur) is a global regulator involved in multiple aspects of bacterial life. The gene encoding the Vibrio harveyi Fur (Fur_vh) was cloned from a pathogenic V. harveyi strain isolated from diseased fish. Furvh shares 77% overall sequence identity with the Escherichia coli Fur (Fur_Ec) and could complement a mutant of Fur_Ec. Like Fur_Ec, Fur_Vh, possesses two cysteine residues at positions 92 and 95, yet unlike Fur_Ec, in which these cysteine residues constitute part of the metal ion coordination site and hence are vital to the repressor activity, C92 and C95 of Fur_Vh proved to be functionally inessential. Further study identified a Vibrio Fur signature sequence, which is preserved in all the ten Vibrio Fur proteins that have been discovered to date but in none of the non-vibrio Fur proteins. Site-directed and random mutation analyses of the signature residues, the cysteine residues, and seven highly charged amino acid residues indicated that D9, H32, C137, and K138 of Fur_vh are functionally important but D9, C137, and K138 can be replaced by more than one functional substitutes. Systematic deletion analysis demonstrated that the C-terminal 12 residues of Fur_Vh are functionally inessential. These results (i) indicated that the activation mechanism, or certain aspects of which, of Fur_Vh is possibly different from that of Fur_Ec; and (ii) suggested that it is not very likely that the C-terminal 12 residues play any significant role in the activation or stability of Fur_Vh; and (iii) provided insights into the potential function of the local structure involving C137 and K138.     

Isolation,sequencing and characterization of cluster genes involved in the biosynthesis and utilization of the siderophore of marine fish pathogen <Emphasis Type="Italic">Vibrio alginolyticus</Emphasis>

In fish pathogen Vibrio alginolyticus MVP01, the isolated 11-gene cluster consisted of two divergently transcribed, Fe³⁺ and ferric uptake regulator (Fur) regulated operons, pvsABCDE and psuA-pvuABCDE, sharing high similarity with that related to siderophore biosynthesis and transportation locus in V. parahaemolyticus. Siderophore biosynthesis or utilization was blocked when pvsA and pvsD of the pvsABCDE operon or pvuA, pvuB and pvuE of the psuA-pvuABCDE operon was single-gene in-frame mutated, demonstrating their essential roles for siderophore biosynthesis or utilization in V. alginolyticus MVP01. Addition of the purified siderophore restored the cell growth in siderophore biosynthesis mutants, but not in siderophore uptake mutants.     

Identification of the genes encoding NAD(P)H-flavin oxidoreductases that are similar in sequence to Escherichia coli Fre in four species of luminous bacteria: Photorhabdus luminescens, Vibrio fischeri, Vibrio harveyi, and Vibrio orientalis.

Genes encoding NAD(P)H-flavin oxidoreductases (flavin reductases) similar in both size and sequence to Fre, the most abundant flavin reductase in Escherichia coli, were identified in four species of luminous bacteria, Photorhabdus luminescens (ATCC 29999), Vibrio fischeri (ATCC 7744), Vibrio harveyi (ATCC 33843), and Vibrio orientalis (ATCC 33934). Nucleotide sequence analysis showed Fre-like flavin reductases in P. luminescens and V. fischeri to consist of 233 and 236 amino acids, respectively. As in E. coli Fre, Fre-like enzymes in luminous bacteria preferably used riboflavin as an electron acceptor when NADPH was used as an electron donor. These enzymes also were good suppliers of reduced flavin mononucleotide (FMNH2) to the bioluminescence reaction. In V. fischeri, the Fre-like enzyme is a minor flavin reductase representing < 10% of the total FMN reductase. That the V. fischeri Fre-like enzyme has no appreciable homology in amino acid sequence to the major flavin reductase in V. fischeri, FRase I, indicates that at least two different types of flavin reductases supply FMNH2 to the luminescence system in V. fischeri. Although Fre-like flavin reductases are highly similar in sequence to luxG gene products (LuxGs), Fre-like flavin reductases and LuxGs appear to constitute two separate groups of flavin-associated proteins.     

Identification of Tn10 insertions in the rfaG, rfaP, and galU genes involved in lipopolysaccharide core biosynthesis that affect Escherichia coli adhesion

Escherichia coli was used as a model to study initial adhesion and early biofilm development to abiotic surface. Tn10 insertion mutants of Escherichia coli K-12 W3110 were selected for altered abilities to adhere to a polystyrene surface. Seven insertion mutants that showed a decrease in adhesion harbored insertions in genes involved in lipopolysaccharide (LPS) core biosynthesis. Two insertions were located in the rfaG gene, two in the rfaP gene, and three in the galU gene. These adhesion mutants were found to exhibit a deep-rough phenotype and to be reduced, at different levels, in type 1 fimbriae production and motility. The loss of adhesion exhibited by these mutants was associated with either the affected type 1 fimbriae production and/or the dysfunctional motility. Apart from the pleiotropic effect of the mutations affecting LPS on type 1 fimbriae and flagella biosynthesis, no evidence for an involvement of the LPS itself in adhesion to polystyrene surface could be observed. Received: 1 December 1998 / Accepted: 3 April 1999     

nasST, two genes involved in the induction of the assimilatory nitrite—nitrate reductase operon (nasAB) of Azotobacter vinelandii

An operon including two new genes ( nasS and nasT ) has been defined, cloned and sequenced. The deduced NASS protein is homologous to NRTA from Synechococcus sp. and to NASF from Klebsiella pneumoniae , two proteins involved in nitrate uptake. The predicted NAST polypeptide is homologous to the regulator proteins of the two-component regulatory systems. NASS plays a negative regulatory role in the synthesis of the nitrate and nitrite reductase. NAST is required for the expression of the nitrite—nitrate reductase operon ( nasAB ). Expression of the nasST operon is not under the control of the NTR system and is not regulated by the nitrogen source. A Φ( nasA—lacZ ) fusion has been used to analyse expression of the nasAB operon in three different genetic backgrounds with altered nitrate reductase activity. Beta-galactosidase activity in two of them was independent of nitrate but in a mutant unable to reduce nitrate, nas-4 , it was normally induced by nitrate.     

Characterization of the pea ENOD12B gene and expression analyses of the two ENOD12 genes in nodule, stem and flower tissue

Summary The ENOD12 gene family in pea consists of two different members. The cDNA clone, pPsENOD12, represents the PsENOD12A gene. The second ENOD12 gene, PsENOD12B, was selected from a genomic library using pPsENOD12 as a probe and this gene was sequenced and characterized. The coding regions of the two genes are strikingly similar. Both encode proteins having a signal peptide sequence and a region with pentapeptide units rich in prolines. ENOD12A has a series of rather conserved repeating pentapeptide units, whereas in ENOD12B the number of pentapeptide units is less and these are less conserved. From the amino acid sequence it is obvious that the PsENOD12 genes encode proline-rich proteins which are closely related to proteins that have been identified as components of soybean cell walls (SbPRPs). Previously, Northern blot analyses had shown that ENOD12 genes are expressed in a tissues-pecific manner. A high expression level is found in Rhizobium-infected roots and in nodules, whereas expression in flower and stem is lower. This raised the question of which gene is expressed where and when. The availability of the sequences of both ENOD12 genes allowed us to analyse the expression of the two genes separately. Specific oligonucleotides were used to copy the ENOD12 mRNAs and to amplify the cDNAs in a polymerase chain reaction. It was demonstrated that in all the tissues containing ENOD12 mRNA, both genes PsENOD12A and PsENOD12B are transcribed and that the relative amounts of PsENOD12A and PsENOD12B mRNA within each tissue are more or less equal. Moreover, the expression pattern during infection and nodule development is the same for the two genes. These results show that two closely related genes have the same tissue-specific expression pattern and that the gene that we have isolated is an actively transcribed gene. The 2.7 kb genomic region that contains the PsENODI2B gene has a 41 pb nearly direct repeat in the 5 flanking region of the gene (between -1447 and -1153) and another 14 by direct repeat 3' downstream (between 550 and 626). The region between the AGGA box and the TATA box has a striking homology with the same region in SbPRP genes.     

Sequence variation in two lignin biosynthesis genes,cinnamoyl CoA reductase (CCR) and cinnamyl alcohol dehydrogenase 2 (CAD2)

Cinnamoyl CoA reductase (CCR) and cinnamyl alcohol dehydrogenase 2 (CAD2) are genes which may influence variation in lignin content and composition within plants. Sequence variation within these genes may be responsible for changes in enzyme activity and/or specificity, which could cause variation in lignin content or composition. This study examines sequence variation within these two genes in Eucalyptus globulus, an important species used in pulp and paper-making. Twenty-one single nucleotide polymorphisms (SNPs) were identified in the exons of CCR, of which nine were neutral mutations and 12 were missense mutations. Six of the missense mutations affected highly conserved amino acids within the protein sequence of CCR. Eight SNPs were identified in the CAD2 exons, six of which were neutral mutations and two which were missense mutations. One of the missense mutations affected a highly conserved amino acid within the protein sequence. In addition, 32 SNPs were identified in the CCR introns along with four insertion/deletions and two polyA length variation regions. Polymorphism affecting highly conserved amino acids may alter enzyme function and this molecular variation may be linked to variation in lignin profiles. Selecting positive alleles which produce favourable lignin profiles would be advantageous in tree breeding programs.