A de novo chromosome‐level genome assembly of Coregonus sp. “Balchen”: One representative of the Swiss Alpine whitefish radiation

Salmonids are of particular interest to evolutionary biologists due to their incredible diversity of life‐history strategies and the speed at which many salmonid species have diversified. In Switzerland alone, over 30 species of Alpine whitefish from the subfamily Coregoninae have evolved since the last glacial maximum, with species exhibiting a diverse range of morphological and behavioural phenotypes. This, combined with the whole genome duplication which occurred in the ancestor of all salmonids, makes the Alpine whitefish radiation a particularly interesting system in which to study the genetic basis of adaptation and speciation and the impacts of ploidy changes and subsequent rediploidization on genome evolution. Although well‐curated genome assemblies exist for many species within Salmonidae, genomic resources for the subfamily Coregoninae are lacking. To assemble a whitefish reference genome, we carried out PacBio sequencing from one wild‐caught Coregonus sp. “Balchen” from Lake Thun to ~90× coverage. PacBio reads were assembled independently using three different assemblers, falcon , canu and wtdbg2 and subsequently scaffolded with additional Hi‐C data. All three assemblies were highly contiguous, had strong synteny to a previously published Coregonus linkage map, and when mapping additional short‐read data to each of the assemblies, coverage was fairly even across most chromosome‐scale scaffolds. Here, we present the first de novo genome assembly for the Salmonid subfamily Coregoninae. The final 2.2‐Gb wtdbg2 assembly included 40 scaffolds, an N50 of 51.9 Mb and was 93.3% complete for BUSCOs. The assembly consisted of ~52% transposable elements and contained 44,525 genes.     

The biosynthesis of Caryophyllaceae-like cyclic peptides in Saponaria vaccaria L. from DNA-encoded precursors

Cyclic peptides (CPs) are produced in a very wide range of taxa. Their biosynthesis generally involves either non‐ribosomal peptide synthases or ribosome‐dependent production of precursor peptides. Plants within the Caryophyllaceae and certain other families produce CPs which generally consist of 5–9 proteinogenic amino acids. The biological roles for these CPs in the plant are not very clear, but many of them have activity in mammalian systems. There is currently very little known about the biosynthesis of CPs in the Caryophyllaceae. A collection of expressed sequence tags from developing seeds of Saponaria vaccaria was investigated for information about CP biosynthesis. This revealed genes that appeared to encode CP precursors which are subsequently cyclized to mature CPs. This was tested and confirmed by the expression of a cDNA encoding a putative precursor of the CP segetalin A in transformed S. vaccaria roots. Similarly, extracts of developing S. vaccaria seeds were shown to catalyze the production of segetalin A from the same putative (synthetic) precursor. Moreover, the presence in S. vaccaria seeds of two segetalins, J [cyclo(FGTHGLPAP)] and K [cyclo(GRVKA)], which was predicted by sequence analysis, was confirmed by liquid chromatography/mass spectrometry. Sequence analysis also predicts the presence of similar CP precursor genes in Dianthus caryophyllus and Citrus spp. The data support the ribosome‐dependent biosynthesis of Caryophyllaceae‐like CPs in the Caryophyllaceae and Rutaceae.     

基于转录组学的管纹艳虎天牛表皮蛋白基因家族的鉴定及特征分析

表皮蛋白(cuticular protein,CP)在昆虫生长发育、抵御外界不良环境等方面具有重要作用,但在管纹艳虎天牛Rhaphuma horsfieldi中关于CP基因的研究尚属空白.本研究基于已测序的转录组,通过生物信息学技术从管纹艳虎天牛中一共鉴定到108个CP基因,包括41个CP-RR1、30个CP-RR2、...     

Genome-wide identification and analysis of genes encoding cuticular proteins in the endoparasitoid wasp Pteromalus puparum (Hymenoptera: Pteromalidae)

The multifunctional insect cuticle serves as the exoskeleton, determines body shape, restricts water loss, provides attachment sites for muscles and internal organs and is a formidable barrier to invaders. It is morphologically divided into three layers, including envelope, epicuticle, and procuticle and is composed of chitin and cuticular proteins (CPs). Annotation of CPs and their cognate genes may help understand the structure and functions of insect cuticles. In this paper, we interrogated the genome of Pteromalus puparum, an endoparasitoid wasp that parasitizes Pieris rapae and Papilio xuthus pupae, and identified 82 genes encoding CPs belonging to six CP families, including 62 in the CPR family, 8 in CPAP3, 5 in CPF/CPFL, 2 low complexity proteins, 2 in TWDL, and 3 in Apidermin. We used six RNA-seq libraries to determine CP gene expression profiles through development and compared the cuticle hydrophobicity between the P. puparum and the ectoparasitoid Nasonia vitripennis based on GRAVY values of CPR sequences. In the Nasonia-Pteromalus comparison, we found in both N. vitripennis and P. puparum, the peak of their CPR hydrophobicity displayed at their pupal stage, whereas their adult stage showed the lowest level. Except at the adult stage, the CPR hydrophobicity in N. vitripennis is always higher than P. puparum. Finally, we identified three novel Apidermin genes, a family found solely in Hymenoptera and revealed a new sequence feature of this family. This new information contributes to a broader understanding of insect CPs generally.     

Genetic Diversities of Cymbidium mosaic virus and Odontoglossum ringspot virus Isolates Based on the Coat Protein Genes from Orchids in Guangdong Province,China

Orchids are some of the most important ornamental flowers. Cymbidium mosaic virus (CymMV) and Odontoglossum ringspot virus (ORSV) are the most prevalent and economically important viruses affecting orchids in China. In this study, 20 CymMV and 28 ORSV isolates were selected for genetic diversity analysis. The CymMV isolates shared 84.6–100% and 89.5–100% identities of coat protein (CP) at the nucleotide (nt) and amino acid (aa) levels, respectively. The identities of ORSV isolates were 96.4–100% (nt) and 92.5–99.4% (aa). The CP genes of CymMV were found to have genetic diversity, and the CP genes of ORSV were genetically conservative. These results can aid in designing effective disease‐control strategies.     

Begomoviruses Associated with Leaf Curl Disease of Tomato in Java,Indonesia*

We report that several begomoviruses are associated with tomato leaf curl disease in Java, Indonesia. Tomato plants with leaf curl symptoms were collected from Bandung (west Java), Purwokerto (central Java), Magelang (central Java) and Malang (east Java) of Indonesia, the major tomato‐growing areas of the country. Viruses were detected using the polymerase chain reaction (PCR), with universal primers for the genus Begomovirus. PCR‐amplified fragments were cloned and sequenced. Based on sequence comparisons and phylogenetic analyses, the viruses were divided into three groups. With respect to amino acid (aa) identities of the N‐terminal halves of the coat proteins compared in this study, group I was most closely related to Ageratum yellow vein virus (AYVV) (97%), Ageratum yellow vein China virus‐[Hn2] (AYVCNV‐[Hn2]) (96%) and Ageratum yellow vein virus‐[Taiwan] (AYVV‐[Tai]) (95%), and ageratum‐infecting begomovirus from Java (99%). Group II had high sequence identity with a tentative species of tomato leaf curl Java virus (ToLCJAV) (96% aa) for the CP. Group III was most closely related to a proposed species of Pepper yellow leaf curl Indonesia virus (PepYLCIDV) (90% aa identity) by its partial CP sequence.     

Knockdown of specific cuticular proteins analogous to peritrophin 3 genes disrupt larval and ovarian development in Bactrocera dorsalis (Diptera: Tephritidae)

Cuticular proteins (CPs) are critical components of the insect cuticle and play important roles in maintaining normal insect development and defense against various environmental stresses. The oriental fruit fly (Bactrocera dorsalis) is one of the most destructive pests worldwide, and its eight CPs analogous to peritrophin 3 (BdCPAP3) family genes have been identified in our previous study. In the present study, we further explored the possible roles of CPAP3 genes in B. dorsalis development. Each sequence of BdCPAP3 genes contained three conserved ChtBD2 (chitin-binding) domains. Spatial and temporal expression patterns revealed that the four BdCPAP3 genes (BdCPAP3-A1, B, E, and E2) might play important roles in larval pupariation of B. dorsalis. Moreover, treatment with a juvenile hormone analog (methoprene) significantly restricted expression of these four CPAP3 genes, whereas treatment with 20-hydroxy-ecdysone induced expression. The RNA interference (RNAi) results revealed that down-regulated CPAP3 genes led to significant delay of pupariation, and injection of dsBdCPAP3-E into 5-d-old B. dorsalis larvae caused approximately 40% mortality. Interestingly, we also confirmed that BdCPAP3-D2 was involved in B. dorsalis ovarian development. This study showed that some specific CPAP3 genes had crucial roles in B. dorsalis development, and these CP genes could be used as potential targets to control this pest via RNAi.     

Evolutionary history of x-tox genes in three lepidopteran species: Origin,evolution of primary and secondary structure and alternative splicing,generating a repertoire of immune-related proteins

The proteins of the X-tox family have imperfectly conserved tandem repeats of several defensin-like motifs known as cysteine-stabilized αβ (CS-αβ) motifs. These immune-related proteins are inducible and expressed principally in hemocytes, but they have lost the antimicrobial properties of the ancestral defensins from which they evolved. We compared x-tox gene structure and expression in three lepidopteran species (Spodoptera frugiperda, Helicoverpa armigera and Bombyx mori). Synteny and phylogenetic analyses showed that the x-tox exons encoding CS-αβ motifs were phylogenetically closely related to defensin genes mapping to chromosomal positions close to the x-tox genes. We were able to define two groups of paralogous x-tox exons (three in Noctuids) that each followed the expected species tree. These results suggest that the ancestor of the three species already possessed an x-tox gene with at least two proto-domains, and an additional duplication/fusion should have occurred in the ancestor of the two noctuid species. An expansion of the number of exons subsequently occurred in each lineage. Alternatively, the proto x-tox gene possessed more copy and each group of x-tox domains might undergo concerted evolution through gene conversion. Accelerated protein evolution was detected in x-tox domains when compared to related defensins, concomitantly to multiplication of exons and/or the possible activation of concerted evolution. The x-tox genes of the three species have similar structural organizations, with repeat motifs composed of CS-αβ-encoding exons flanked by introns in phase 1. Diverse mechanisms underlie this organization: (i) the acquisition of new repeat motifs, (ii) the duplication of preexisting repeat motifs and (iii) the duplication of modules. A comparison of gDNA and cDNA structures showed that alternative splicing results in the production of multiple X-tox protein isoforms from the x-tox genes. Differences in the number and sequence of CS-αβ motifs in these isoforms were found between species, but also between individuals of the same species. Thus, our analysis of the genetic organization and expression of x-tox genes in three lepidopteran species suggests a rapid evolution of the organization of these genes.     

Pivotal and distinct role for Plasmodium actin capping protein alpha during blood infection of the malaria parasite

Accurate regulation of microfilament dynamics is central to cell growth, motility and response to environmental stimuli. Stabilizing and depolymerizing proteins control the steady‐state levels of filamentous (F‐) actin. Capping protein (CP) binds to free barbed ends, thereby arresting microfilament growth and restraining elongation to remaining free barbed ends. In all CPs characterized to date, alpha and beta subunits form the active heterodimer. Here, we show in a eukaryotic parasitic cell that the two CP subunits can be functionally separated. Unlike the beta subunit, the CP alpha subunit of the apicomplexan parasite Plasmodium is refractory to targeted gene deletion during blood infection in the mammalian host. Combinatorial complementation of Plasmodium berghei CP genes with the orthologs from Plasmodium falciparum verified distinct activities of CP alpha and CP alpha/beta during parasite life cycle progression. Recombinant Plasmodium CP alpha could be produced in Escherichia coli in the absence of the beta subunit and the protein displayed F‐actin capping activity. Thus, the functional separation of two CP subunits in a parasitic eukaryotic cell and the F‐actin capping activity of CP alpha expand the repertoire of microfilament regulatory mechanisms assigned to CPs.     

Immunoproteomics of the active degradome to identify biomarkers for Trichomonas vaginalis

Trichomonas vaginalis, a sexually transmitted parasite, has many cysteine proteinases (CPs); some are involved in trichomonal pathogenesis, express during infection, and antibodies against CPs have been detected in patient sera. The goal of this study was to identify the antigenic proteinases of T. vaginalis as potential biomarkers for trichomonosis. The proteases detected when T. vaginalis protein extracts are incubated without protease inhibitors, the trichomonad‐active degradome, and the immunoproteome were obtained by using 2‐DE, 2‐D‐zymograms, 2‐D‐Western blot (WB) assays with trichomonosis patient sera, and MS analysis. Forty‐nine silver‐stained spots were detected in the region of 200–21 kDa of parasite protease‐resistant extracts. A similar proteolytic pattern was observed in the 2‐D zymograms. Nine CPs were identified in the 30 kDa region (TvCP1, TvCP2, TvCP3, TvCP4, TvCP4‐like, TvCP12, TvCPT, TvLEGU‐1, and another legumain‐like CP). The major reactive spots to T. vaginalis‐positive patient sera by 2‐D‐WB corresponded to four papain‐like (TvCP2, TvCP4, TvCP4‐like, TvCPT), and one legumain‐like (TvLEGU‐1) CPs. The genes of TvCP4, TvCPT, and TvLEGU‐1 were cloned, sequenced, and expressed in Escherichia coli. Purified recombinant CPs were recognized by culture‐positive patient sera in 1‐D‐WB assays. These data show that some CPs could be potential biomarkers for serodiagnosis of trichomonosis.     

Chloroplast protrusions in leaves of Ranunculus glacialis L. respond significantly to different ambient conditions,but are not related to temperature stress

The occurrence of chloroplast protrusions (CPs) in leaves of Ranunculus glacialis L. in response to different environmental conditions was assessed. CPs occur highly dynamically. They do not contain thylakoids and their physiological function is still largely unknown. Controlled in situ sampling showed that CP formation follows a pronounced diurnal rhythm. Between 2 and 27 °C the relative proportion of chloroplasts with CPs (rCP) showed a significant positive correlation to leaf temperature (TL; 0.793, P < 0.01), while irradiation intensity had a minor effect on rCP. In situ shading and controlled laboratory experiments confirmed the significant influence of TL. Under moderate irradiation intensity, an increase of TL up to 25 °C significantly promoted CP formation, while a further increase to 37 °C led to a decrease. Furthermore, rCP values were lower in darkness and under high irradiation intensity. Gas treatment at 2000 ppm CO₂/2% O₂ led to a significant decrease of rCP, suggesting a possible involvement of photorespiration in CP formation. Our findings demonstrate that in R. glacialis, CPs are neither a rare phenomenon nor a result of heat or light stress; on the contrary, they seem to be most abundant under moderate temperature and non‐stress irradiation conditions.     

Fluorescent carbon nanoparticles from Citrus sinensis as efficient sorbents for pollutant dyes

Here, we report a simple, green and economic process for the synthesis of highly fluorescent carbon nanoparticles (CPs) through low‐temperature carbonization of a fruit waste, Citrus sinensis peel. This approach allows the large‐scale production of aqueous CPs dispersions without any additives and post‐treatment processes. The as‐prepared CPs were of small particle size, exhibited bright blue fluorescence under UV irradiation (λ_max = 365 nm) with excellent colloidal stability in water. The chemical composition, structure and morphology of the as‐prepared CPs were analyzed using various spectroscopic techniques such as X‐ray diffraction, transmission electron microscopy and raman spectroscopy. The formed CPs were turbostratic in nature, with a large number of functional groups on the surface. We explored the adsorption characteristics of the formed CPs for wastewater treatment. Because of the negative surface of the CPs, as evident from the zeta value, it is possible to use them for selective adsorption of the cationic dye methylene blue from a mixture of dyes. The equilibrium adsorption isotherm revealed that the Langmuir model better describes the adsorption process than the Freundlich model. As‐prepared CPs rapidly adsorbed ~84% of the methylene blue within 1 min and can be regenerated and used repeatedly. Copyright © 2016 John Wiley & Sons, Ltd.     

Gene characterization and expression pattern of Mx and Viperin genes in Dabry’s sturgeon Acipenser dabryanus

Mx and Viperin are important interferon‐stimulated genes that mediate the antiviral immune response. In this study, we cloned the Mx and viperin genes from Dabry's sturgeon (Acipenser dabryanus). The Mx cDNA sequence contained an open reading frame (ORF) of 1,449 nucleotides, encoding a putative protein of 392 aa, which is significantly shorter than other animal Mx proteins. Although the similarity and identity were low between sturgeon Mx and other animal Mx proteins, sturgeon Mx contains the conserved tripartite GTP binding motif and a dynamin family signature. The sturgeon Mx gene contains eight exons split by seven introns. The sturgeon viperin cDNA sequence contained an ORF of 1,047 bp encoding a putative protein of 349 aa, which is relatively well conserved among species. Sturgeon viperin proteins show 82% similarity with those of Xiphophorus maculatus platyfish and Poecilia formosa Amazon molly. The sturgeon viperin gene has a six exon/five intron structure with the same size of second, third, fourth, and fifth exons between different species. The expression of Mx and viperin was detectable in all tissues examined, with the highest expression in skin for Mx and in peripheral blood for viperin. After mock infection using polyinosine‐polycytidylic acid, Mx and viperin showed significantly upregulated expression in primary spleen leukocytes from 3 hr to 72 hr. Lipopolysaccharide could also induce their expression. These results suggested Mx and Viperin could play a vital antiviral role in the innate immune system of Dabry's sturgeon.     

Chromosome‐level genome assembly of the greenhouse whitefly (Trialeurodes vaporariorum Westwood)

The greenhouse whitefly, Trialeurodes vaporariorum Westwood, is an agricultural pest of global importance. Here we report a 787‐Mb high‐quality draft genome sequence of T. vaporariorum assembled from PacBio long reads and Hi‐C chromatin interaction maps, which has scaffold and contig N50 lengths of 70 Mb and 500 kb, respectively, and contains 18,275 protein‐coding genes. About 98.8% of the assembled contigs were placed onto the 11 T. vaporariorum chromosomes. Comparative genomic analysis reveals significantly expanded gene families such as aspartyl proteases in T. vaporariorum compared to Bemisia tabaci Mediterranean (MED) and Middle East‐Asia Minor 1 (MEAM1). Furthermore, the cytochrome CYP6 subfamily shows significant expansion in T. vaporariorum and several genes in this subfamily display developmental stage‐specific expression patterns. The high‐quality T. vaporariorum genome provides a valuable resource for research in a broad range of areas such as fundamental molecular ecology, insect–plant/insect–microorganism or virus interactions and pest resistance management.     

Amino acids in Tobamovirus coat protein controlling pepper L(1a) gene-mediated resistance

In pepper plants (genus Capsicum), the resistance against Tobamovirus spp. is conferred by L gene alleles. The recently identified L variant L^1a can recognize coat proteins (CPs) of Tobacco mild green mosaic virus Japanese strain (TMGMV‐J) and Paprika mild mottle virus Japanese strain (PaMMV‐J), but not of Pepper mild mottle virus (PMMoV), as the elicitor to induce resistance at 24 °C. Interestingly, L^1a gene‐mediated resistance against TMGMV‐J, but not PaMMV‐J, is retained at 30 °C. This observation led us to speculate that L^1a can discriminate between CPs of TMGMV‐J and PaMMV‐J. In this study, we aimed to determine the region(s) in CP by which L^1a distinguishes TMGMV‐J from PaMMV‐J. By using chimeric CPs consisting of TMGMV‐J and PaMMV‐J, we found that the chimeric TMGMV‐J CP, whose residues in the β‐sheet domain were replaced by those of PaMMV‐J, lost its ability to induce L^1a gene‐mediated resistance at 30 °C. In contrast, the chimeric PaMMV‐J CP with the β‐sheet domain replaced by TMGMV‐J CP was able to induce L^1a gene‐mediated resistance at 30 °C. Furthermore, viral particles were not detected in the leaves inoculated with either chimeric virus. These observations indicated that the amino acids within the β‐sheet domain were involved in both the induction of L^1a gene‐mediated resistance and virion formation. Further analyses using chimeric CPs of TMGMV‐J and PMMoV indicated that amino acids within the β‐sheet domain alone were not sufficient for the induction of L^1a gene‐mediated resistance by TMGMV‐J CP. These results suggest that multiple regions in Tobamovirus CP are implicated in the induction of L^1a gene‐mediated resistance.     

Growth characteristics of Adiantum reniforme var. sinensis and A. capillus‐veneris in response to light and soil moisture

Adiantum reniforme var. sinensis (Adiantaceae) is an endangered fern endemic to the Three Gorges region in southwest China. To elucidate possible ecophysiological mechanisms restricting its distribution, effects of the availability of light (28%, 14% and 7% of open field) and soil moisture (60% and 40% of field capacity) on dry matter production and allocation, leaf morphology and water use efficiency (WUE) were examined in A. reniforme var. sinensis and its widespread congener A. capillus‐veneris. Both species had lower root/shoot ratio (R/S) and higher specific leaf area (SLA) when grown at low light. However, A. reniforme var. sinensis showed less plasticity for total leaf area (LA) and leaf area ratio (LAR) than A. capillus‐veneris, and its root mass, total mass and WUE decreased as light availability decreased. Under water stress, all traits of both species except WUE were significantly affected. However, drought stress decreased total mass of A. capillus‐veneris but did not have a significant effect on A. reniforme var. sinensis. Compared with A. capillus‐veneris, A. reniforme var. sinensis had significantly higher R/S but lower values for other analyzed traits. These results suggest that A. reniforme var. sinensis is relatively superior in drought tolerance but inferior at low light, allowing it to persist in habitats with low soil moisture and high light availability but with few coexisting species present.