The Pseudomonas aeruginosa genome (G + C content 65-67%, size 5.5-7 Mbp) is made up of a single circular chromosome and a variable number of plasmids. Sequencing of complete genomes or blocks of the ...accessory genome has revealed that the genome encodes a large repertoire of transporters, transcriptional regulators, and two-component regulatory systems which reflects its metabolic diversity to utilize a broad range of nutrients. The conserved core component of the genome is largely collinear among P. aeruginosa strains and exhibits an interclonal sequence diversity of 0.5-0.7%. Only a few loci of the core genome are subject to diversifying selection. Genome diversity is mainly caused by accessory DNA elements located in 79 regions of genome plasticity that are scattered around the genome and show an anomalous usage of mono- to tetradecanucleotides. Genomic islands of the pKLC102/PAGI-2 family that integrate into tRNA(Lys) or tRNA(Gly) genes represent hotspots of inter- and intraclonal genomic diversity. The individual islands differ in their repertoire of metabolic genes that make a large contribution to the pangenome. In order to unravel intraclonal diversity of P. aeruginosa, the genomes of two members of the PA14 clonal complex from diverse habitats and geographic origin were compared. The genome sequences differed by less than 0.01% from each other. One hundred ninety-eight of the 231 single nucleotide substitutions (SNPs) were non-randomly distributed in the genome. Non-synonymous SNPs were mainly found in an integrated Pf1-like phage and in genes involved in transcriptional regulation, membrane and extracellular constituents, transport, and secretion. In summary, P. aeruginosa is endowed with a highly conserved core genome of low sequence diversity and a highly variable accessory genome that communicates with other pseudomonads and genera via horizontal gene transfer.
Patients who were seen in emergency departments within 7 days after the onset of Covid-19 symptoms and were considered appropriate for discharge were randomly assigned to receive either convalescent ...plasma or placebo. Convalescent plasma did not prevent disease progression.
Summary
Clones C and PA14 are the worldwide most abundant clonal complexes in the Pseudomonas aeruginosa population. The microevolution of clones C and PA14 was investigated in serial cystic fibrosis ...(CF) airway isolates collected over 20 years since the onset of colonization. Intraclonal evolution in CF lungs was resolved by genome sequencing of first, intermediate and late isolates and subsequent multimarker SNP genotyping of the whole strain panel. Mapping of sequence reads onto the P. aeruginosa PA14 reference genome unravelled an intraclonal and interclonal sequence diversity of 0.0035% and 0.68% respectively. Clone PA14 diversified into three branches in the patient's lungs, and the PA14 population acquired 15 nucleotide substitutions and a large deletion during the observation period. The clone C genome remained invariant during the first 3 years in CF lungs; however, 15 years later 947 transitions and 12 transversions were detected in a clone C mutL mutant strain. Key mutations occurred in retS, RNA polymerase, multidrug transporter, virulence and denitrification genes. Late clone C and PA14 persistors in the CF lungs were compromised in growth and cytotoxicity, but their mutation frequency was normal even in mutL mutant clades.
Downregulation of multiple tumor suppressor genes (TSGs) plays an important role in cancer formation. Recent evidence has accumulated that cancer progression involves genome-wide alteration of ...epigenetic modifications, which may cause downregulation of the tumor suppressor gene. Using hepatocellular carcinoma (HCC) as a system, we mapped 5-methylcytosine signal at a genome-wide scale using nanopore sequencing technology to identify novel TSGs. Integration of methylation data with gene transcription profile of regenerated liver and primary HCCs allowed us to identify 10 potential tumor suppressor gene candidates. Subsequent validation led us to focus on functionally characterizing one candidate-glucokinase (GCK). We show here that overexpression of GCK inhibits the proliferation of HCC cells via induction of intracellular lactate accumulation and subsequently causes energy crisis due to NAD+ depletion. This suggests GCK functions as a tumor suppressor gene and may be involved in HCC development. In conclusion, these data provide valuable clues for further investigations of the process of tumorigenesis in human cancer.
Shotgun metagenome analysis provides a robust and verifiable method for comprehensive microbiome analysis of fungal, viral, archaeal and bacterial taxonomy, particularly with regard to visualization ...of read mapping location, normalization options, growth dynamics and functional gene repertoires. Current read classification tools use non-standard output formats, or do not fully show information on mapping location. As reference datasets are not perfect, portrayal of mapping information is critical for judging results effectively. Our alignment-based pipeline, Wochenende, incorporates flexible quality control, trimming, mapping, various filters and normalization. Results are completely transparent and filters can be adjusted by the user. We observe stringent filtering of mismatches and use of mapping quality sharply reduces the number of false positives. Further modules allow genomic visualization and the calculation of growth rates, as well as integration and subsequent plotting of pipeline results as heatmaps or heat trees. Our novel normalization approach additionally allows calculation of absolute abundance profiles by comparison with reads assigned to the human host genome. Wochenende has the ability to find and filter alignments to all kingdoms of life using both short and long reads, and requires only good quality reference genomes. Wochenende automatically combines multiple available modules ranging from quality control and normalization to taxonomic visualization. Wochenende is available at https://github.com/MHH-RCUG/nf_wochenende.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Summary
Second‐generation sequencing technologies are revolutionizing the study of metagenomes. Whole‐genome shotgun sequencing of metagenomic DNA may become an attractive alternative to the current ...widely used ribosomal RNA gene studies. Large data sets of short sequence reads are mapped onto a custom microbial reference sequence. If a bacterial pangenome of completely sequenced genomes is taken as a reference, the output consists of the distribution of bacterial taxa in and bacterial gene contents of the metagenome. The relative abundance of functional categories and of individual pathways and fitness traits encoded by the metagenomic gene pool provides insight into habitat‐specific features of the microbial community. Polymorphic sites in sequence reads may resolve the number and abundance of individual clonal complexes of dominant species in the polymicrobial community. These SNPs and de novo mutations may be exploited to trace the spatiotemporal spread of clones and the emergence of novel traits such as fitness or resistance determinants. In conclusion, massively parallel sequencing of metagenomic DNA allows deep insights into the composition and the genetic repertoire of polymicrobial communities.
Plasticity of
chromosomes is mainly driven by an extended accessory genome that is shaped by insertion and deletion events. Further modification of the genome composition can be induced by ...chromosomal inversion events which lead to relocation of genes in the affected genomic DNA segments, modify the otherwise highly conserved core genome synteny and could even alter the location of the replication terminus. Although the genome of the first sequenced strain, PAO1, displayed such a large genomic inversion, knowledge on such recombination events in the
population is limited. Several large inversions had been discovered in the late 1990s in cystic fibrosis isolates of the major clonal lineage C by physical genome mapping, and subsequent work on these examples led to the characterization of the DNA at the recombination breakpoints and a presumed recombination mechanism. Since then, the topic was barely addressed in spite of the compilation of thousands of
genome sequences that are deposited in databases. Due to the use of second-generation sequencing, genome contig assembly had usually followed synteny blueprints provided by the existing reference genome sequences. Inversion detection was not feasible by these approaches, as the respective read lengths did not allow reliable resolution of sequence repeats that are typically found at the borders of inverted segments. In this study, we applied PacBio and MinION long-read sequencing to isolates of the mentioned clone C collection. Confirmation of inversions predicted from the physical mapping data demonstrated that unbiased sequence assembly of such read datasets allows the detection of genomic inversions and the resolution of the recombination breakpoint regions. Additional long-read sequencing of representatives of the other major clonal lineage, PA14, revealed large inversions in several isolates, from cystic fibrosis origin as well as from other sources. These findings indicated that inversion events are not restricted to strains from chronic infection background, but could be widespread in the
population and contribute to genome plasticity. Moreover, the monitored examples emphasized the role of small mobile DNA units, such as IS elements or transposons, and accessory DNA elements in the inversion-related recombination processes.
NGS‐based multiple gene panel resequencing in combination with a high resolution CGH‐array was used to identify genetic risk factors for hereditary breast and/or ovarian cancer in 237 high risk ...patients who were previously tested negative for pathogenic BRCA1/2 variants. All patients were screened for pathogenic variants in 94 different cancer predisposing genes. We identified 32 pathogenic variants in 14 different genes (ATM, BLM, BRCA1, CDH1, CHEK2, FANCG, FANCM, FH, HRAS, PALB2, PMS2, PTEN, RAD51C and NBN) in 30 patients (12.7%). Two pathogenic BRCA1 variants that were previously undetected due to less comprehensive and sensitive methods were found. Five pathogenic variants are novel, three of which occur in genes yet unrelated to hereditary breast and/or ovarian cancer (FANCG, FH and HRAS). In our cohort we discovered a remarkably high frequency of truncating variants in FANCM (2.1%), which has recently been suggested as a susceptibility gene for hereditary breast cancer. Two patients of our cohort carried two different pathogenic variants each and 10 other patients in whom a pathogenic variant was confirmed also harbored a variant of unknown significance in a breast and ovarian cancer susceptibility gene. We were able to identify pathogenic variants predisposing for tumor formation in 12.3% of BRCA1/2 negative breast and/or ovarian cancer patients.
What's new?
Risk for hereditary breast and ovarian cancer (HBOC) is mainly determined by BRCA1/2 mutations but in ~60% of cases the genetic predisposition remains unknown. The authors screened more than 200 women with BRCA1/2‐negative HBOC for new pathogenic variants using a combination of multi‐gene panel sequencing and comparative genomic hybridization. A remarkably high frequency of truncating variants in FANCM were discovered, a protein recently suggested as a susceptibility gene for hereditary breast cancer. The authors recommend that combined methods be used to identify new variants for HBOC risk assessment.
Summary
The population genomics of Pseudomonas aeruginosa was analysed by genome sequencing of representative strains of the 15 most frequent clonal complexes in the P. aeruginosa population and of ...the five most common clones from the environment of which so far no isolate from a human infection has been detected. Gene annotation identified 5892–7187 open reading frame (ORFs; median 6381 ORFs) in the 20 6.4–7.4 Mbp large genomes. The P. aeruginosa pangenome consists of a conserved core of at least 4000 genes, a combinatorial accessory genome of a further 10 000 genes and 30 000 or more rare genes that are present in only a few strains or clonal complexes. Whole genome comparisons of single nucleotide polymorphism synteny indicated unrestricted gene flow between clonal complexes by recombination. Using standardized acute lettuce, Galleria mellonella and murine airway infection models the full spectrum of possible host responses to P. aeruginosa was observed with the 20 strains ranging from unimpaired health following infection to 100% lethality. Genome comparisons indicate that the differential genetic repertoire of clones maintains a habitat‐independent gradient of virulence in the P. aeruginosa population.
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