Bagdevi Mishra

Gene Loss Rather Than Gene Gain Is Associated with a Host Jump from Monocots to Dicots in the Smut Fungus Melanopsichium pennsylvanicum

Smut fungi are well-suited to investigate the ecology and evolution of plant pathogens, as they are strictly biotrophic, yet cultivable on media. Here we report the genome sequence of Melanopsichium pennsylvanicum, closely related to Ustilago maydis and other Poaceae-infecting smuts, but parasitic to a dicot plant. To explore the evolutionary patterns resulting from host adaptation after this huge host jump, the genome of Me. pennsylvanicum was sequenced and compared with the genomes of U. maydis, Sporisorium reilianum, and U. hordei. Although all four genomes had a similar completeness in CEGMA (Core Eukaryotic Genes Mapping Approach) analysis, gene absence was highest in Me. pennsylvanicum, and most pronounced in putative secreted proteins, which are often considered as effector candidates. In contrast, the amount of private genes was similar among the species, highlighting that gene loss rather than gene gain is the hallmark of adaptation after the host jump to the dicot host. Our analyses revealed a trend of putative effectors to be next to another putative effector, but the majority of these are not in clusters and thus the focus on pathogenicity clusters might not be appropriate for all smut genomes. Positive selection studies revealed that Me. pennsylvanicum has the highest number and proportion of genes under positive selection. In general, putative effectors showed a higher proportion of positively selected genes than noneffector candidates. The 248 putative secreted effectors found in all four smut genomes might constitute a core set needed for pathogenicity, whereas those 92 that are found in all grass-parasitic smuts but have no ortholog in Me. pennsylvanicum might constitute a set of effectors important for successful colonization of grass hosts.

Root-associated fungi of Arabidopsis thaliana and Microthlaspi perfoliatum

Root-associated fungi, with the focus on endophytic species, were isolated from healthy Arabidopsis thaliana and Microthlaspi perfoliatum plants collected at different locations in Germany. A large number of fungal taxa were discovered with a small-scale approach. This provides additional evidence that root-associated and endophytic fungi are common in Brassicaceae. The most prevalent genera associated with A. thaliana roots were Trichoderma and Fusarium, while the roots of M. perfoliatum were dominated by different species of Fusarium and Penicillium. Differences in species composition and richness might be due to preferences and life-cycle of the two plant species. Strains of endophyte species that did not have closely related species in GenBank searches and those already known as root endophytes were chosen for preliminary co-cultivation experiments using germinating host plants on agar medium to observe effects on plant growth and health. Under these conditions several fungal isolates had an adverse effect on plant growth and health, especially on Arabidopsis thaliana. Some isolates did not adversely affect biomass during initial plant growth, while they altered the shoot-root ratio in favour of the shoot, especially in Microthlaspi perfoliatum. These strains are promising candidates for future research on endophytes as they might have some effects in Brassicaceae that are similar to mycorrhizal fungi. They are also promising candidates for investigating interactions with their host plants.

siMBa—a simple graphical user interface for the Bayesian phylogenetic inference program MrBayes

MrBayes is a program that uses a Bayesian framework for inferring phylogenetic relationships. As MrBayes is a command-line-driven program, users acquainted to programs with graphical user interfaces will not find it easy to operate, especially as it requires a complex input format for the data to be analysed. We thus developed siMBa (simple MrBayes), a simple graphical user interface for MrBayes. This tool gives the user interactive control over most of the parameters and also facilitates the input of a multiple sequence alignment, as any widely used format can be used. siMBa is coded in Perl using the Tk module. Executables are provided for Windows, Linux, and Macintosh. The Perl codes, along with executables for different operating system, are freely available to download from [http://www.thines-lab.senckenberg.de/simba].

Genome comparisons provide insights into the role of secondary metabolites in the pathogenic phase of the Photorhabdus life cycle.

BackgroundBacteria within the genus Photorhabdus maintain mutualistic symbioses with nematodes in complicated lifecycles that also involves insect pathogenic phases. Intriguingly, these bacteria are rich in biosynthetic gene clusters that produce compounds with diverse biological activities. As a basis to better understand the life cycles of Photorhabdus we sequenced the genomes of two recently discovered representative species and performed detailed genomic comparisons with five publically available genomes.ResultsHere we report the genomic details of two new reference Photorhabdus species. By then conducting genomic comparisons across the genus, we show that there are several highly conserved biosynthetic gene clusters. These clusters produce a range of bioactive small molecules that support the pathogenic phase of the integral relationship that Photorhabdus maintain with nematodes.ConclusionsPhotorhabdus contain several genetic loci that allow them to become specialist insect pathogens by efficiently evading insect immune responses and killing the insect host.

Adaptive differentiation coincides with local bioclimatic conditions along an elevational cline in populations of a lichen-forming fungus

BackgroundMany fungal species occur across a variety of habitats. Particularly lichens, fungi forming symbioses with photosynthetic partners, have evolved remarkable tolerances for environmental extremes. Despite their ecological importance and ubiquity, little is known about the genetic basis of adaption in lichen populations. Here we studied patterns of genome-wide differentiation in the lichen-forming fungus Lasallia pustulata along an altitudinal gradient in the Mediterranean region. We resequenced six populations as pools and identified highly differentiated genomic regions. We then detected gene-environment correlations while controlling for shared population history and pooled sequencing bias, and performed ecophysiological experiments to assess fitness differences of individuals from different environments.ResultsWe detected two strongly differentiated genetic clusters linked to Mediterranean and temperate-oceanic climate, and an admixture zone, which coincided with the transition between the two bioclimates. High altitude individuals showed ecophysiological adaptations to wetter and more shaded conditions. Highly differentiated genome regions contained a number of genes associated with stress response, local environmental adaptation, and sexual reproduction.ConclusionsTaken together our results provide evidence for a complex interplay between demographic history and spatially varying selection acting on a number of key biological processes, suggesting a scenario of ecological speciation.

Draft Genome Sequence of Ochrobactrum anthropi Strain ML7 Isolated from Soil Samples in Vinhphuc Province, Vietnam

ABSTRACT Ochrobactrum species are widespread in the environment and can colonize a wide variety of habitats. Here, we describe the sequencing of a new environmental isolate of Ochrobactrum anthropi isolated from northern Vietnam.

Phylogenomics of Bartheletia paradoxa reveals its basal position in Agaricomycotina and that the early evolutionary history of basidiomycetes was rapid and probably not strictly bifurcating

The higher level phylogeny of fungi has been addressed in previous studies, but for those analyses, either taxon sampling or gene sampling was low, or some basal lineages important for the inference of basidiomycete phylogeny were lacking. Here, a phylogenomic analysis based on highly conserved genes and including the enigmatic species Bartheletia paradoxa from Ginkgo biloba is presented. While phylogenetic analyses including also less conserved parts of core eukaryotic genes yielded a basal position for the extremophile genus Wallemia with low support, an exclusion of highly variable parts of these genes suggested Bartheletia paradoxa as the most basal member of the Agaricomycotina, but again with low support. Network analyses suggest a network-like evolution at the base of the Basidiomycota, supported by phylogenies based on single genes and gene clusters with shared topology. When further removing noise by removing poorly resolving genes, strong but not maximum support was obtained for Bartheletia paradoxa being the sister lineage to all other Agaricomycotina. We speculate that the lack of support for the early splits in Agaricomycotina and Basidiomycota can probably be explained by rapid radiation, linked to major evolutionary developments, such as, in the case of Basidiomycota, the advent of basidia in the last common ancestor.

A reference genome of the European beech (Fagus sylvatica L.)

Abstract Background The European beech is arguably the most important climax broad-leaved tree species in Central Europe, widely planted for its valuable wood. Here, we report the 542 Mb draft genome sequence of an up to 300-year-old individual (Bhaga) from an undisturbed stand in the Kellerwald-Edersee National Park in central Germany. Findings Using a hybrid assembly approach, Illumina reads with short- and long-insert libraries, coupled with long Pacific Biosciences reads, we obtained an assembled genome size of 542 Mb, in line with flow cytometric genome size estimation. The largest scaffold was of 1.15 Mb, the N50 length was 145 kb, and the L50 count was 983. The assembly contained 0.12% of Ns. A Benchmarking with Universal Single-Copy Orthologs (BUSCO) analysis retrieved 94% complete BUSCO genes, well in the range of other high-quality draft genomes of trees. A total of 62,012 protein-coding genes were predicted, assisted by transcriptome sequencing. In addition, we are reporting an efficient method for extracting high-molecular-weight DNA from dormant buds, by which contamination by environmental bacteria and fungi was kept at a minimum. Conclusions The assembled genome will be a valuable resource and reference for future population genomics studies on the evolution and past climate change adaptation of beech and will be helpful for identifying genes, e.g., involved in drought tolerance, in order to select and breed individuals to adapt forestry to climate change in Europe. A continuously updated genome browser and download page can be accessed from beechgenome.net, which will include future genome versions of the reference individual Bhaga, as new sequencing approaches develop.

The genome sequence of the commercially cultivated mushroom Agrocybe aegerita reveals a conserved repertoire of fruiting-related genes and a versatile suite of biopolymer-degrading enzymes

BackgroundAgrocybe aegerita is an agaricomycete fungus with typical mushroom features, which is commercially cultivated for its culinary use. In nature, it is a saprotrophic or facultative pathogenic fungus causing a white-rot of hardwood in forests of warm and mild climate. The ease of cultivation and fructification on solidified media as well as its archetypal mushroom fruit body morphology render A. aegerita a well-suited model for investigating mushroom developmental biology.ResultsHere, the genome of the species is reported and analysed with respect to carbohydrate active genes and genes known to play a role during fruit body formation. In terms of fruit body development, our analyses revealed a conserved repertoire of fruiting-related genes, which corresponds well to the archetypal fruit body morphology of this mushroom. For some genes involved in fruit body formation, paralogisation was observed, but not all fruit body maturation-associated genes known from other agaricomycetes seem to be conserved in the genome sequence of A. aegerita. In terms of lytic enzymes, our analyses suggest a versatile arsenal of biopolymer-degrading enzymes that likely account for the flexible life style of this species. Regarding the amount of genes encoding CAZymes relevant for lignin degradation, A. aegerita shows more similarity to white-rot fungi than to litter decomposers, including 18 genes coding for unspecific peroxygenases and three dye-decolourising peroxidase genes expanding its lignocellulolytic machinery.ConclusionsThe genome resource will be useful for developing strategies towards genetic manipulation of A. aegerita, which will subsequently allow functional genetics approaches to elucidate fundamentals of fruiting and vegetative growth including lignocellulolysis.

BrRxLR11 – a new phylogenetic marker with high resolution in the downy mildew genus Bremia and related genera

The genus Bremia (Peronosporaceae; Oomycete) is a widespread pathogen of Eurasian Asteraceae (Compositae). In addition to several species infecting weeds, it includes the economically important species, B. lactucae, which causes downy mildew of lettuce (Lactuca sativa). A few loci have already been successfully sequenced for this genus, but the resolution of the resultant phylogenies is insufficient to resolve the evolutionary history of Bremia. Therefore, there is a need to develop additional loci that can provide high resolution in phylogenetic inference. In this study, we report a new locus, BrRxLR11, derived from genomic data, which shows high resolving power within the genus Bremia, similar to phylogenies based on three different loci. This gene encodes a protein of 204 aa with unknown function, a below-threshold secretion signal, and an RxLR-EER motif in the c-terminal half. As only one site seems to be under positive selection, it has potential for future application in phylogenetic investigations in the economically important genus Bremia and related genera.