Genome Sequence of Escherichia coli Stbl4, a Versatile Genetic Tool for Heterologous Expression

Escherichia coli Stbl4 is widely used as a laboratory strain for heterologous expression of large gene clusters. Since no genome sequence has been publicly available, we here report the draft sequence of Stbl4, including its F-plasmid. It should serve as a useful reference for researchers working with Stbl4.

A draft sequence reference of the Psilocybe cubensis genome

We describe the use of high-fidelity single molecule sequencing to assemble the genome of the psychoactive Psilocybe cubensis mushroom. The genome is 46.6Mb, 46% GC, and in 32 contigs with an N50 of 3.3Mb. The BUSCO completeness scores are 97.6% with 1.2% duplicates. The Psilocybin synthesis cluster exists in a single 3.2Mb contig. The dataset is available from NCBI BioProject with accessions PRJNA687911 and PRJNA700437.

A draft sequence reference of the Psilocybe cubensis genome

We describe the use of high-fidelity single molecule sequencing (HiFi) to assemble the genome of the psychoactive Psilocybe cubensis mushroom. The genome is 46.6Mb, 46% GC, and in 32 contigs with an N50 of 3.3Mb. The BUSCO completeness scores are 97.6% with 1.2% duplicates. The Psilocybin synthesis cluster exists in a single 3.2Mb contig.

Genome sequencing, annotation and exploration of the SO2-tolerant non-conventional yeast Saccharomycodes ludwigii

Background Saccharomycodes ludwigii belongs to the poorly characterized Saccharomycodeacea family and is known by its ability to spoil wines, a trait mostly attributable to its high tolerance to sulfur dioxide (SO2). To improve knowledge about Saccharomycodeacea our group determined whole-genome sequences of Hanseniaspora guilliermondii (UTAD222) and S. ludwigii (UTAD17), two members of this family. While in the case of H. guilliermondii the genomic information elucidated crucial aspects concerning the physiology of this species in the context of wine fermentation, the draft sequence obtained for S. ludwigii was distributed by more than 1000 contigs complicating extraction of biologically relevant information. In this work we describe the results obtained upon resequencing of S. ludwigii UTAD17 genome using PacBio as well as the insights gathered from the exploration of the annotation performed over the assembled genome. Results Resequencing of S. ludwigii UTAD17 genome with PacBio resulted in 20 contigs totaling 13 Mb of assembled DNA and corresponding to 95% of the DNA harbored by this strain. Annotation of the assembled UTAD17 genome predicts 4644 protein-encoding genes. Comparative analysis of the predicted S. ludwigii ORFeome with those encoded by other Saccharomycodeacea led to the identification of 213 proteins only found in this species. Among these were six enzymes required for catabolism of N-acetylglucosamine, four cell wall β-mannosyltransferases, several flocculins and three acetoin reductases. Different from its sister Hanseniaspora species, neoglucogenesis, glyoxylate cycle and thiamine biosynthetic pathways are functional in S. ludwigii. Four efflux pumps similar to the Ssu1 sulfite exporter, as well as robust orthologues for 65% of the S. cerevisiae SO2-tolerance genes, were identified in S. ludwigii genome. Conclusions This work provides the first genome-wide picture of a S. ludwigii strain representing a step forward for a better understanding of the physiology and genetics of this species and of the Saccharomycodeacea family. The release of this genomic sequence and of the information extracted from it can contribute to guide the design of better wine preservation strategies to counteract spoilage prompted by S. ludwigii. It will also accelerate the exploration of this species as a cell factory, specially in production of fermented beverages where the use of Non-Saccharomyces species (including spoilage species) is booming.

Draft Genome Sequence of Blautia luti DSM 14534T, Isolated from Human Stool

Here, we report the draft sequence of Blautia luti strain DSM 14534T, originally isolated from human feces. This draft contains 74 contigs, comprising 3,718,760 bp with a G+C content of 42.87%. The annotated draft contains 3,338 coding sequences (CDSs) and 110 RNA genes.

De novo assembly of the goldfish (Carassius auratus) genome and the evolution of genes after whole-genome duplication

For over a thousand years, the common goldfish (Carassius auratus) was raised throughout Asia for food and as an ornamental pet. As a very close relative of the common carp (Cyprinus carpio), goldfish share the recent genome duplication that occurred approximately 14 million years ago in their common ancestor. The combination of centuries of breeding and a wide array of interesting body morphologies provides an exciting opportunity to link genotype to phenotype and to understand the dynamics of genome evolution and speciation. We generated a high-quality draft sequence and gene annotations of a “Wakin” goldfish using 71X PacBio long reads. The two subgenomes in goldfish retained extensive synteny and collinearity between goldfish and zebrafish. However, genes were lost quickly after the carp whole-genome duplication, and the expression of 30% of the retained duplicated gene diverged substantially across seven tissues sampled. Loss of sequence identity and/or exons determined the divergence of the expression levels across all tissues, while loss of conserved noncoding elements determined expression variance between different tissues. This assembly provides an important resource for comparative genomics and understanding the causes of goldfish variants.

Draft Genome Sequence of Pseudomonas koreensis Strain AB36, Isolated from Gold Mining Soil

Here, we report the draft genome sequence of Pseudomonas koreensis strain AB36, isolated from gold mining soil in South Africa. The draft sequence consists of 5,902,614 bp, with a G+C content of 60.1% and 5,242 protein-coding genes.

Draft Genome Sequence of Enterococcus plantarum Strain TRW2, Isolated from Lettuce

We report the draft genome sequence for Enterococcus plantarum strain TRW2, isolated from the phyllosphere of romaine lettuce. The draft sequence consists of 3,383,441 bp, with a G+C content of 35.8% and 3,218 protein-coding genes.

Draft Genome Sequencing of the Pathogenic Fungus Cladosporium phlei ATCC 36193 Identifies Candidates of Novel Polyketide Synthase Genes Involved in Perylenequinone-Group Pigment Production

Cladosporium phlei, which causes purple eyespot disease, has been focused on as a source of phleichrome from the perylenequinone group of pigments. Although this agent is important in photodynamic therapy, there are no genome sequences for the species. Here, we sequenced the genome of C. phlei and reported the draft sequence. The total length of the draft genome was approximately 31.8 Mb, and 9571 genes were predicted. Phylogenetic analysis showed that Cladosporium sphaerospermum, Rachicladosporium sp., and Rachicladosporium antarcticum were closely related, and this result corresponded to the taxonomic data. In addition to the draft genome sequence, we report four candidates of new polyketide synthase (PKS) genes, involved in the production of perylenequinone-group pigments.