Pochonia chlamydosporia is an endophytic fungus used for nematode biocontrol that employs its cellular and molecular machinery to degrade the nematode egg-shell. Chitosanases, among other enzymes, ...are involved in this process. In this study, we improve the genome sequence assembly of P. chlamydosporia 123, by utilizing long Pacific Biosciences (PacBio) sequence reads. Combining this improved genome assembly with previous RNA-seq data revealed alternative isoforms of a chitosanase in the presence of chitosan. This study could open new insights into understanding fungal resistance to chitosan and root-knot nematode (RKN) egg infection processes.
The P. chlamydosporia 123 genome sequence assembly has been updated using long-read PacBio sequencing and now includes 12,810 predicted protein-coding genes. Compared with the previous assembly based on short reads, there are 701 newly annotated genes, and 69 previous genes are now split. Eight of the new genes were differentially expressed in fungus interactions with Meloidogyne javanica eggs or chitosan. A survey of the RNA-seq data revealed alternative splicing in the csn3 gene that encodes a chitosanase, with four putative splicing variants: csn3_v1, csn3_v2, csn3_v3 and csn3_v4. When P. chlamydosporia is treated with 0.1 mg·mL
chitosan for 4 days, csn3 is expressed 10-fold compared with untreated controls. Furthermore, the relative abundances of each of the four transcripts are different in chitosan treatment compared with controls. In controls, the abundances of each transcript are nil, 32, 55, and 12% for isoforms csn3_v1, csn3_v2, csn3_v3 and csn3_v4 respectively. Conversely, in chitosan-treated P. chlamydosporia, the abundances are respectively 80, 15%, 2-3%, 2-3%. Since isoform csn3_v1 is expressed with chitosan only, the putatively encoded enzyme is probably induced and likely important for chitosan degradation.
Alternative splicing events have been discovered and described in the chitosanase 3 encoding gene from P. chlamydosporia 123. Gene csn3 takes part in RKN parasitism process and chitosan enhances its expression. The isoform csn3_v1 would be related to the degradation of this polymer in bulk form, while other isoforms may be related to the degradation of chitosan in the nematode egg-shell.
Watercress (Nasturtium officinale) has been in continuous production in Hawaii for over a century and is part of the local diet. Black rot of watercress was first identified as caused by Xanthomonas ...nasturtii in Florida (Vicente et al., 2017), but symptoms of this disease have also been regularly observed in Hawaii production in all islands, mostly during the rainy season from December to April in areas with poor air circulation (McHugh & Constantinides, 2004). Initially, this disease was attributed to X. campestris due to similar symptoms to black rot of brassicas. Samples of watercress with symptoms that could be attributed to a bacterial disease including yellow spots and lesions on leaves and stunting and deformation of plants in more advanced stages, were collected from a farm in Aiea in the island of Oahu, Hawaii, in October 2017. Isolations were performed at the University of Warwick. Fluid from macerated leaves was streaked into plates of King's B (KB) medium and Yeast Dextrose Calcium Carbonate Agar (YDC). After 48-72 hrs incubation at 28°C, the plates showed a range of mixed colonies. Single cream-yellow mucoid colonies were sub-cultured several times and pure isolates including WHRI 8984 were stored at -76°C as previously described (Vicente et al., 2017). Colony morphology was observed in KB plates and, in contrast to the type strain from Florida (WHRI 8853 = NCPPB 4600), isolate WHRI 8984 did not cause browning of the medium. Pathogenicity was tested on four-week old watercress and Savoy cabbage cv. Wirosa F1 plants by inoculations on leaves as previously described (Vicente et al., 2017). WHRI 8984 did not produce symptoms when inoculated on cabbage but produced typical symptoms on watercress. A re-isolation from a leaf showing a V-shaped lesion, produced isolates with the same morphology, including isolate WHRI 10007A, that was also shown to be pathogenic to watercress therefore completing the Koch's postulates. Fatty acid profiling was performed on WHRI 8984 and 10007A and controls grown on trypticase soy broth agar (TSBA) plates at 28°C for 48 hrs as described by Weller et al. (2000). Profiles were compared with the RTSBA6 v6.21 library; as the database does not include X. nasturtii, the results were only interpreted at the genus level, and both isolates were shown to be Xanthomonas sp. For molecular analysis, DNA was extracted and the gyrB partial gene was amplified and sequenced as described by Parkinson et al. (2007). Comparisons with sequences available in the National Centre for Biotechnology Information (NCBI) databases using the Basic Local Alignment Search Tool (BLAST) showed that partial gyrB of WHRI 8984 and 10007A were identical to the type strain from Florida therefore confirming that they belong to X. nasturtii. For whole genome sequencing, genomic libraries for WHRI 8984 were prepared using Illumina's Nextera XT v2 kit and sequenced on a HiSeq Rapid Run flowcell. The sequences were processed as previously described (Vicente et al., 2017) and the whole genome assembly has been deposited in GenBank (accession QUZM00000000.1); the phylogenetic tree shows that WHRI 8984 is close, but not identical to the type strain. This is the first identification of X. nasturtii in watercress crops in Hawaii. Control of this disease generally involves the use of copper bactericides and minimizing moisture on leaves by reducing overhead irrigation and increasing air circulation (McHugh & Constantinides, 2004); seed testing might help to select batches that are disease free and, in longer term, breeding for disease resistance might produce cultivars that can be part of management strategies.
Halophytic endophytes potentially contribute to the host's adaptation to adverse environments, improving its tolerance against various biotic and abiotic stresses. Here, we identified the culturable ...endophytic bacteria of three crop wild relative (CWR) halophytes:
,
, and
. In the present study, the potential of these isolates to improve crop adaptations to various stresses was investigated, using both
and
approaches. Endophytic isolates were identified by their 16S rRNA gene sequence and evaluated for their ability to: grow
in high levels of NaCl; inhibit the growth of the economically important phytopathogens
,
, and
and the human pathogen
provide salt tolerance
; and provide growth promoting effect
. Genomes of selected isolates were sequenced. In total, 115 endophytic isolates were identified. At least 16 isolates demonstrated growth under increased salinity, plant growth promotion and phytopathogen antagonistic activity. Three showed
suppression of
growth. Furthermore, representatives of three novel species were identified: two
species and one
. This study provides proof-of-concept that the endophytes from CWR halophytes can be used as "bio-inoculants," for the enhancement of growth and stress tolerance in crops, including the high-salinity stress.
Pseudomonas syringae is a widespread bacterial pathogen that causes disease on a broad range of economically important plant species. Pathogenicity of P. syringae strains is dependent on the type III ...secretion system, which secretes a suite of up to about thirty virulence 'effector' proteins into the host cytoplasm where they subvert the eukaryotic cell physiology and disrupt host defences. P. syringae pathovar tabaci naturally causes disease on wild tobacco, the model member of the Solanaceae, a family that includes many crop species as well as on soybean.
We used the 'next-generation' Illumina sequencing platform and the Velvet short-read assembly program to generate a 145X deep 6,077,921 nucleotide draft genome sequence for P. syringae pathovar tabaci strain 11528. From our draft assembly, we predicted 5,300 potential genes encoding proteins of at least 100 amino acids long, of which 303 (5.72%) had no significant sequence similarity to those encoded by the three previously fully sequenced P. syringae genomes. Of the core set of Hrp Outer Proteins that are conserved in three previously fully sequenced P. syringae strains, most were also conserved in strain 11528, including AvrE1, HopAH2, HopAJ2, HopAK1, HopAN1, HopI, HopJ1, HopX1, HrpK1 and HrpW1. However, the hrpZ1 gene is partially deleted and hopAF1 is completely absent in 11528. The draft genome of strain 11528 also encodes close homologues of HopO1, HopT1, HopAH1, HopR1, HopV1, HopAG1, HopAS1, HopAE1, HopAR1, HopF1, and HopW1 and a degenerate HopM1'. Using a functional screen, we confirmed that hopO1, hopT1, hopAH1, hopM1', hopAE1, hopAR1, and hopAI1' are part of the virulence-associated HrpL regulon, though the hopAI1' and hopM1' sequences were degenerate with premature stop codons. We also discovered two additional HrpL-regulated effector candidates and an HrpL-regulated distant homologue of avrPto1.
The draft genome sequence facilitates the continued development of P. syringae pathovar tabaci on wild tobacco as an attractive model system for studying bacterial disease on plants. The catalogue of effectors sheds further light on the evolution of pathogenicity and host-specificity as well as providing a set of molecular tools for the study of plant defence mechanisms. We also discovered several large genomic regions in Pta 11528 that do not share detectable nucleotide sequence similarity with previously sequenced Pseudomonas genomes. These regions may include horizontally acquired islands that possibly contribute to pathogenicity or epiphytic fitness of Pta 11528.
Summary
A genome sequence assembly represents a model of a genome. This article explores some tools and methods for assessing the quality of an assembly, using publicly available data for ...Streptomyces species as the example. There is great variability in quality of assemblies deposited in GenBank. Only in a small minority of these assemblies are the raw data available, enabling full appraisal of the assembly quality.
DNA-dependent RNA polymerase (Pol)IV in Arabidopsis exists in two isoforms (PolIVa and PolIVb), with NRPD1a and NRPD1b as their respective largest subunits. Both isoforms are implicated in production ...and activity of siRNAs and in RNA-directed DNA methylation (RdDM). Deep sequence analysis of siRNAs in WT Arabidopsis flowers and in nrpd1a and nrpd1b mutants identified >4,200 loci producing siRNAs in a PolIV-dependent manner, with PolIVb reinforcing siRNA production by PolIVa. Transposable element identity and pericentromeric localization are both features that predispose a locus for siRNA production via PolIV proteins and determine the extent to which siRNA production relies on PolIVb. Detailed analysis of DNA methylation at PolIV-dependent loci revealed unexpected deviations from the previously noted association of PolIVb-dependent siRNA production and RdDM. Notably, PolIVb functions independently in DNA methylation and siRNA generation. Additionally, we have uncovered siRNA-directed loss of DNA methylation, a process requiring both PolIV isoforms. From these findings, we infer that the role of PolIVb in siRNA production is secondary to a role in chromatin modification and is influenced by chromatin context.
Libraries of protein-encoding sequences can be generated by identification of open reading frames (ORFs) from a genome of choice that are then assembled into collections of plasmids termed ORFeome ...libraries. These represent powerful resources to facilitate functional genomic characterization of genes and their encoded products. Here, we report the generation of an ORFeome for Zymoseptoria tritici, which causes the most serious disease of wheat in temperate regions of the world. We screened the genome of strain IP0323 for high confidence gene models, identifying 4075 candidates from 10,933 predicted genes. These were amplified from genomic DNA, cloned into the Gateway® Entry Vector pDONR207, and sequenced, providing a total of 3022 quality-controlled plasmids. The ORFeome includes genes predicted to encode effectors (n = 410) and secondary metabolite biosynthetic proteins (n = 171), in addition to genes residing at dispensable chromosomes (n= 122), or those that are preferentially expressed during plant infection (n = 527). The ORFeome plasmid library is compatible with our previously developed suite of Gateway® Destination vectors, which have various combinations of promoters, selection markers, and epitope tags. The Z. tritici ORFeome constitutes a powerful resource for functional genomics, and offers unparalleled opportunities to understand the biology of Z. tritici.
Modern plant breeding heavily relies on the use of molecular markers. In recent years, next generation sequencing (NGS) emerged as a powerful technology to discover DNA sequence polymorphisms and ...generate molecular markers very rapidly and cost effectively, accelerating the plant breeding programmes. A single dominant locus,
Frl
, in tomato provides resistance to the fungal pathogen
Fusarium oxysporum
f. sp.
radicis
-
lycopersici (FORL)
, causative agent of
Fusarium
crown and root rot. In this study, we describe the generation of molecular markers associated with the
Frl
locus. An F
2
mapping population between an
FORL
resistant and a susceptible cultivar was generated. NGS technology was then used to sequence the genomes of a susceptible and a resistant parent as well the genomes of bulked resistant and susceptible F
2
lines. We zoomed into the
Frl
locus and mapped the locus to a 900 kb interval on chromosome 9. Polymorphic single-nucleotide polymorphisms (SNPs) within the interval were identified and markers co-segregating with the resistant phenotype were generated. Some of these markers were tested successfully with commercial tomato varieties indicating that they can be used for marker-assisted selection in large-scale breeding programmes.
Ash trees (genus Fraxinus, family Oleaceae) are widespread throughout the Northern Hemisphere, but are being devastated in Europe by the fungus Hymenoscyphus fraxineus, causing ash dieback, and in ...North America by the herbivorous beetle Agrilus planipennis. Here we sequence the genome of a low-heterozygosity Fraxinus excelsior tree from Gloucestershire, UK, annotating 38,852 protein-coding genes of which 25% appear ash specific when compared with the genomes of ten other plant species. Analyses of paralogous genes suggest a whole-genome duplication shared with olive (Olea europaea, Oleaceae). We also re-sequence 37 F. excelsior trees from Europe, finding evidence for apparent long-term decline in effective population size. Using our reference sequence, we re-analyse association transcriptomic data, yielding improved markers for reduced susceptibility to ash dieback. Surveys of these markers in British populations suggest that reduced susceptibility to ash dieback may be more widespread in Great Britain than in Denmark. We also present evidence that susceptibility of trees to H. fraxineus is associated with their iridoid glycoside levels. This rapid, integrated, multidisciplinary research response to an emerging health threat in a non-model organism opens the way for mitigation of the epidemic.
Aphanomyces astaci causes crayfish plague, which is a devastating disease of European freshwater crayfish. The likely first introduction of A. astaci into Europe was in the mid-19th century in Italy, ...presumably with the introduction of North American crayfish. These crayfish can carry A. astaci in their cuticle as a benign infection. Aphanomyces astaci rapidly spread across Europe causing the decline of the highly susceptible indigenous crayfish species. Random amplified polymorphic DNA-PCR analysis of A. astaci pure cultures characterized five genotype groups (A, B, C, D and E). Current A. astaci genotyping techniques (microsatellites and genotype-specific regions, both targeting nuclear DNA) can be applied directly to DNA extracted from infected cuticles but require high infection levels. Therefore, they are not suitable for genotyping benign infections in North American crayfish (carriers). In the present study, we combine bioinformatics and molecular biology techniques to develop A. astaci genotyping molecular markers that target the mitochondrial DNA, increasing the sensitivity of the genotyping tools. The assays were validated on DNA extracts of A. astaci pure cultures, crayfish tissue extractions from crayfish plague outbreaks and tissue extractions from North American carriers. We demonstrate the presence of A. astaci genotype groups A and B in UK waters.