Unexpected diversity and a wide distribution of paedogenetic gall midges of the genus Heteropeza (Diptera: Cecidomyiidae) in Japan

BackgroundSome mobile genetic elements target the lagging strand template during DNA replication. Bacterial examples are insertion sequences IS608 and ISDra2 (IS200/IS605 family members). They use obligatory single-stranded circular DNA intermediates for excision and insertion and encode a transposase, TnpAIS200, which recognizes subterminal secondary structures at the insertion sequence ends. Similar secondary structures, Repeated Extragenic Palindromes (REP), are present in many bacterial genomes. TnpAIS200-related proteins, TnpAREP, have been identified and could be responsible for REP sequence proliferation. These proteins share a conserved HuH/Tyrosine core domain responsible for catalysis and are involved in processes of ssDNA cleavage and ligation. Our goal is to characterize the diversity of these proteins collectively referred as the TnpAY1 family.ResultsA genome-wide analysis of sequences similar to TnpAIS200 and TnpAREP in prokaryotes revealed a large number of family members with a wide taxonomic distribution. These can be arranged into three distinct classes and 12 subclasses based on sequence similarity. One subclass includes sequences similar to TnpAIS200. Proteins from other subclasses are not associated with typical insertion sequence features. These are characterized by specific additional domains possibly involved in protein/DNA or protein/protein interactions. Their genes are found in more than 25% of species analyzed. They exhibit a patchy taxonomic distribution consistent with dissemination by horizontal gene transfers followed by loss. The tnpAREP genes of five subclasses are flanked by typical REP sequences in a REPtron-like arrangement. Four distinct REP types were characterized with a subclass specific distribution. Other subclasses are not associated with REP sequences but have a large conserved domain located in C-terminal end of their sequence. This unexpected diversity suggests that, while most likely involved in processing single-strand DNA, proteins from different subfamilies may play a number of different roles.ConclusionsWe established a detailed classification of TnpAY1 proteins, consolidated by the analysis of the conserved core domains and the characterization of additional domains. The data obtained illustrate the unexpected diversity of the TnpAY1 family and provide a strong framework for future evolutionary and functional studies. By their potential function in ssDNA editing, they may confer adaptive responses to host cell physiology and metabolism.

A high number of fungal strains were isolated from roots of Brassicaceae species collected across western and southern Europe, resulting in an unexpectedly rich collection of Cadophora species. These isolates enable us to present a new and comprehensive view of the ecological, morphological, and phylogenetic traits of root-inhabiting members of this helotialean genus. We provide phylogenetic placement of all of our isolates based on a four-gene dataset, analyze their phenotypic traits in relation to their phylogenetic relationships, and infer the potential distribution ranges of the species by sequence comparisons with available databases. We consider seven well supported phylogenetic lineages as species new to science. Six further lineages probably also represent new species but remain undescribed due to the lack of diagnostic morphological characters. Our results show that Cadophora, as currently circumscribed, is paraphyletic and encompasses a broad spectrum of morphologies and lifestyles. Among the new species, only two (C. ferruginea and C. constrictospora) form phialides and conidia typical of Cadophora, three species (C. echinata, C. gamsii and C. variabilis) produce chains of swollen hyphal segments that may function as holoblastic conidia, and one species (C. fascicularis) produces chains of holoblastic ramoconidia and conidia. Ancestral state reconstruction analysis suggests that phialidic conidiogenesis evolved several times in Cadophora s. lat. from a putatively holoblastic common ancestor. Most Cadophora lineages are rare as estimated from the availability of sequence data, in spite of having relatively wide distribution ranges, whereas five lineages may represent endemic relationships given their restricted distributions. Our dataset, probably the most comprehensive available for Cadophora, nevertheless shows knowledge gaps concerning the phylogenetic relationships within this genus and highlights a need for further investigation.

In July 2020, in the course of insect collection by light trapping within the city area of Donetsk, the invasive North American leafhopper Penestragania apicalis (Osborn & Ball, 1898) (Hemiptera: Cicadellidae: Iassinae) was first recorded for Eastern Europe. This is the third specialized phytophagous species of honey locust (Gleditsia triacanthos L.) introduced to Europe. The distribution of P. apicalis within Europe is still not known, this species is most likely to be widespread throughout the places of honey locust cultivation. The main vector of invasion of P. apicalis is unintended introduction with planting material and by way of self -spread of adults. The penetration of another one specialized phytophage of honey locust into the steppe zone of Eastern Europe requires additional researching of its distribution. Registration of P. apicalis at a considerable distance from the previously known habitat indicates its wide distribution in Europe. Since it is difficult to survey the crowns of tall trees, we recommend using light traps as the simplest and most effective method for leafhoppers detecting. The level of species harmfulness in the territory of its natural range and in Euro pe has not been assessed so far; therefore, the organization of work on a detailed study of its ecological and biological characteristics is required. The formation of a multispecies complex of specialized pests can have a negative impact on the plantings of honey locust in the zone of its introduction. In this regard, the state of the P. apicalispopulation requires constant monitoring along with other invasive phytophages of Gleditsia – leaf gall midge D.gleditchiae and seed-beetle M. dorsalis.

Myrtaceae have a wide geographical distribution in Brazil and host a great richness of Cecidomyiidae galls. However, the number of cecidomyiid species on them has not yet been established and the knowledge of their geographic distribution is deficient. We provide the first list of cecidomyiid species on Myrtaceae and analyze their distribution in Brazilian biomes. A literature review was performed and new data were obtained from herbarium specimens of the Jardim Botânico do Rio de Janeiro. In Brazil, 13 species of Myrtaceae of five genera shelter described species of gall midges. Eugenia hosts the greatest richness of gall-inducers. All plant species have human uses and are native to Brazil, being seven endemic. Myrtaceae shelter 25 cecidomyiid species of 13 genera in 25 gall morphotypes. Sixteen species occur on endemic hosts, highlighting the peculiarity of the Brazilian fauna. These Cecidomyiidae occur collectively in five biomes, but most species (92%) are known from the Atlantic Forest, where 72% appear exclusively. Sixty per cent are restricted to a single Brazilian state, indicating their still poorly known distribution.

Obolodiplosis robiniae is native to North America and is an important introduced insect pest that forms leaf margin roll galls on species of genus Robinia (Fabaceae) in China. It was first detected in China in 2004, but subsequently spread and provoked local outbreaks. An analysis of a 676-bp sequence of the mitochondrial DNA cytochrome oxidase subunit I was conducted in 560 individuals from 28 populations, in order to (1) assess population genetic structuring and (2) explore possible explanations for the rapid spread and invasion success of O. robiniae. Yet, only four haplotypes were identified and the nucleotide diversity was low (π = 0.00005) and among the 560 specimens studied, only ten showed haplotypic variation involving no more than three substitutions. The result showed a low degree of genetic diversity among populations of the successful invasive gall midge, which suggested that the pest experienced a severe genetic bottleneck and a loss of genetic diversity after its introduction. The successful establishment and spread of O. robiniae in China is attributed to the wide distribution of its host plant, thus allowing ample opportunities for gene flow in the pest species, and to the advantageous life history characteristics of O. robiniae.