PanGP: A tool for quickly analyzing bacterial pan-genome profile

Abstract Background Food is the main source of Listeria monocytogenes (Lm) infection. Lm is a highly heterogeneous species composed of hypervirulent and hypovirulent clones. Understanding the distribution of Lm clonal complexes (CCs) in different food categories has strong implications for risk assessment. The aim of this work was to analyse collection of Lm strains of National Reference Laboratory (NRL Lm) in order to assess link between genetic profile and matrices and the level of pathogenicity of circulating strains based on CCs. Methods NRL Lm database actually consists of 906 sequenced strains isolated in 10 years from 5 food compartments (meat, fish, dairy, vegetables and composite dishes). Epidata were analysed to remove redundant strains based on the same epidemiological description. After that, WGS data from 465 Lm strains were investigated. In silico MLST was defined and Roary 3.12.0 was used to obtain a pan-genome profile. Genes were later uploaded to Pasteur Institute platform for characterization. Results In silico MLST identified 36 CCs and 6 singleton. CC9 (23.0%), CC8 (15.3%) and CC121 (13.3%) were the prevalent CCs. In particular, CC9 was present in 35.2% of meat samples and CC8 in 25.8% of fish samples. Pan genome profile revealed high prevalence (>98%) of genes related to biofilm formation and resistance to environmental stress in CC9 strains and genes involved in tolerance to quaternary ammonium compounds in CC121 strains. Conclusions Results, in particular for meat products, confirmed in Italy, the prevalence of hypovirulent Lm strains previously observed at European Union level. The high presence of stress resistance and disinfectant tolerance genes in these strains could make them able to persist in food-production environment and should be taken into account evaluating the health hazards. In fish product is also relevant the prevalence of CC8 strains which are potentially highly pathogenic and have been responsible of recent European multi country outbreak. Key messages Pangenome of Listeria monocytogenes isolated from Italian food revealed high presence of disinfectant tolerance and stress resistance genes in meat products and virulence genes in fish products. Listeria monocytogenes CC9 and CC121 prevalence in Italian meat product confirms occurrence of hypovirulent strains detected at European Union level.

Download Full-text

Faculty Opinions recommendation of Pan-genome analysis highlights the extent of genomic variation in cultivated and wild rice.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.732499418.793559379 ◽

2019 ◽

Author(s):

Laura Privalle

Keyword(s):

Genome Analysis ◽

Wild Rice ◽

Genomic Variation ◽

Pan Genome

Download Full-text

Plasmids Related to the Symbiotic Nitrogen Fixation Are Not Only Cooperated Functionally but Also May Have Evolved over a Time Span in Family Rhizobiaceae

Genome Biology and Evolution ◽

10.1093/gbe/evaa152 ◽

2020 ◽

Vol 12 (11) ◽

pp. 2002-2014

Author(s):

Ling-Ling Yang ◽

Zhao Jiang ◽

Yan Li ◽

En-Tao Wang ◽

Xiao-Yang Zhi

Keyword(s):

Nitrogen Fixation ◽

Gene Transfer ◽

Horizontal Gene Transfer ◽

Symbiotic Nitrogen Fixation ◽

Gene Families ◽

Time Span ◽

Soil Conditions ◽

Gene Gain ◽

Nitrogen Fixing ◽

Pan Genome

Abstract Rhizobia are soil bacteria capable of forming symbiotic nitrogen-fixing nodules associated with leguminous plants. In fast-growing legume-nodulating rhizobia, such as the species in the family Rhizobiaceae, the symbiotic plasmid is the main genetic basis for nitrogen-fixing symbiosis, and is susceptible to horizontal gene transfer. To further understand the symbioses evolution in Rhizobiaceae, we analyzed the pan-genome of this family based on 92 genomes of type/reference strains and reconstructed its phylogeny using a phylogenomics approach. Intriguingly, although the genetic expansion that occurred in chromosomal regions was the main reason for the high proportion of low-frequency flexible gene families in the pan-genome, gene gain events associated with accessory plasmids introduced more genes into the genomes of nitrogen-fixing species. For symbiotic plasmids, although horizontal gene transfer frequently occurred, transfer may be impeded by, such as, the host’s physical isolation and soil conditions, even among phylogenetically close species. During coevolution with leguminous hosts, the plasmid system, including accessory and symbiotic plasmids, may have evolved over a time span, and provided rhizobial species with the ability to adapt to various environmental conditions and helped them achieve nitrogen fixation. These findings provide new insights into the phylogeny of Rhizobiaceae and advance our understanding of the evolution of symbiotic nitrogen fixation.

Download Full-text

Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding

Nature Communications ◽

10.1038/s41467-021-24328-w ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

John T. Lovell ◽

Nolan B. Bentley ◽

Gaurab Bhattarai ◽

Jerry W. Jenkins ◽

Avinash Sreedasyam ◽

...

Keyword(s):

Tree Breeding ◽

Pathogen Resistance ◽

Perennial Crop ◽

Crop Species ◽

Annotation Database ◽

Pan Genome ◽

Genome Integration ◽

Transformative Potential ◽

Genome Assemblies ◽

Quantitative Genomics

AbstractGenome-enabled biotechnologies have the potential to accelerate breeding efforts in long-lived perennial crop species. Despite the transformative potential of molecular tools in pecan and other outcrossing tree species, highly heterozygous genomes, significant presence–absence gene content variation, and histories of interspecific hybridization have constrained breeding efforts. To overcome these challenges, here, we present diploid genome assemblies and annotations of four outbred pecan genotypes, including a PacBio HiFi chromosome-scale assembly of both haplotypes of the ‘Pawnee’ cultivar. Comparative analysis and pan-genome integration reveal substantial and likely adaptive interspecific genomic introgressions, including an over-retained haplotype introgressed from bitternut hickory into pecan breeding pedigrees. Further, by leveraging our pan-genome presence–absence and functional annotation database among genomes and within the two outbred haplotypes of the ‘Lakota’ genome, we identify candidate genes for pest and pathogen resistance. Combined, these analyses and resources highlight significant progress towards functional and quantitative genomics in highly diverse and outbred crops.

Download Full-text