New locality records for Steinernema and Heterorhabditis (Nematoda: Rhabditida: Steinernematidae, Heterorhabditidae) fauna of Ukraine

Kovtun, A.

doi:10.36495/2312-0614.2023.2.39-45

qpp

2023

DOI: 10.36495/2312-0614.2023.2.39-45

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New locality records for Steinernema and Heterorhabditis (Nematoda: Rhabditida: Steinernematidae, Heterorhabditidae) fauna of Ukraine

A. Kovtun

Abstract: Goal. Of this study is to present new locality records (from agricultural ecosystems) for Steinernema and Heterorhabditis (Nematoda: Rhabditida: Steinernematidae, Heterorhabditidae) fauna of Ukraine. Methods. The object of our research were entomopathogenic nematodes collected from different localities of Ukraine between 2016 and 2021. We used stereoscopic microscope MBS-9, light microscope Carl Zeiss Primo Star 100x—1000x and specialized keys for entomopathogenic nematodes identification. Results.… Show more

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Cited by 2 publications

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Analyses of Xenorhabdus griffiniae genomes reveal two distinct sub-species that display intra-species variation due to prophages

Heppert,

Awori,

Cao

et al. 2024

BMC Genomics

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Background Nematodes of the genus Steinernema and their Xenorhabdus bacterial symbionts are lethal entomopathogens that are useful in the biocontrol of insect pests, as sources of diverse natural products, and as research models for mutualism and parasitism. Xenorhabdus play a central role in all aspects of the Steinernema lifecycle, and a deeper understanding of their genomes therefore has the potential to spur advances in each of these applications. Results Here, we report a comparative genomics analysis of Xenorhabdus griffiniae, including the symbiont of Steinernema hermaphroditum nematodes, for which genetic and genomic tools are being developed. We sequenced and assembled circularized genomes for three Xenorhabdus strains: HGB2511, ID10 and TH1. We then determined their relationships to other Xenorhabdus and delineated their species via phylogenomic analyses, concluding that HGB2511 and ID10 are Xenorhabdus griffiniae while TH1 is a novel species. These additions to the existing X. griffiniae landscape further allowed for the identification of two subspecies within the clade. Consistent with other Xenorhabdus, the analysed X. griffiniae genomes each encode a wide array of antimicrobials and virulence-related proteins. Comparative genomic analyses, including the creation of a pangenome, revealed that a large amount of the intraspecies variation in X. griffiniae is contained within the mobilome and attributable to prophage loci. In addition, CRISPR arrays, secondary metabolite potential and toxin genes all varied among strains within the X. griffiniae species. Conclusions Our findings suggest that phage-related genes drive the genomic diversity in closely related Xenorhabdus symbionts, and that these may underlie some of the traits most associated with the lifestyle and survival of entomopathogenic nematodes and their bacteria: virulence and competition. This study establishes a broad knowledge base for further exploration of not only the relationships between X. griffiniae species and their nematode hosts but also the molecular mechanisms that underlie their entomopathogenic lifestyle.

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Analyses of Xenorhabdus griffiniae genomes reveal two distinct sub-species that display intra-species variation due to prophages

Heppert,

Awori,

Cao

et al. 2024

BMC Genomics

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show abstract

Indication and identification of entomopathogenic nematodes Rhabditida: Steinernematidae, Heterorhabditidae (a review)

Kovtun

2023

qpp

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Goal. Of the study is to analyze the peculiarities of the use of methods aimed at detecting and identifying beneficial microorganisms for plant protection — entomopathogenic nematodes (Rhabditida: Steinernematidae and Heterorhabditidae). Results. A review of methods commonly used in faunistic studies of entomopathogenic nematodes (Steinernematidae, Heterorhabditidae) is given here, discussing their advantages and limitation. A single standard for many of the methods discussed in this review does not currently exist, so different approaches are described whose effectiveness has been confirmed experimentally and is considered satisfactory. First of all, the methods of soil sampling and insect hosts sampling and techniques for isolation of entomopathogenic nematodes from different types of samples are described. The most important systematic features of entomopathogenic nematodes, approaches to their identification and the main methods required for routine species identification, primarily the production of micro specimens and their examination by light microscopy, are discussed below. Methods of electron microscopy, cross-breeding and molecular genetic studies of entomopathogenic nematodes are also described. Conclusions. The obtained data are of significant theoretical and practical importance, as they allow for an informed choice of the most optimal method of detecting and identifying entomopathogenic nematodes — potential bioagents against insect pests.

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New locality records for Steinernema and Heterorhabditis (Nematoda: Rhabditida: Steinernematidae, Heterorhabditidae) fauna of Ukraine

Cited by 2 publications

References 17 publications

Analyses of Xenorhabdus griffiniae genomes reveal two distinct sub-species that display intra-species variation due to prophages

Analyses of Xenorhabdus griffiniae genomes reveal two distinct sub-species that display intra-species variation due to prophages

Indication and identification of entomopathogenic nematodes Rhabditida: Steinernematidae, Heterorhabditidae (a review)

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