Publications

4366

‘Candidatus Liberibacter asiaticus’ (CLas) is an unculturable α-proteobacterium associated with citrus Huanglongbing (HLB; yellow shoot disease). PCR procedures that accurately confirm or exclude CLas infection in citrus tissue/Asian citrus psyllid (ACP) samples are critical for HLB management. When CLas was described in 1994, a 23-bp signature oligonucleotide sequence (OI1) in the 16S rRNA gene (rrs, three genomic copies) was identified based on Sanger sequencing. OI1 contains single nucleotide polymorphisms (SNPs) distinguishing CLas from non-CLas species. The SNPs were used to design the primer HLBas, a key primer for a commonly used TaqMan PCR system (HLBas-PCR) for CLas detection. Recent developments in next-generation sequencing technology have led to the identification of 15 CLas whole genome sequence strains (WGSs). Analyses of CLas WGSs have generated a significant amount of biological information that could help to improve CLas detection. Utilizing the WGS information, this study re-evaluated the sequence integrity of OI1/HLBas and identified and/or confirmed a missing nucleotide G in the two primers. Replacement primers for OI1 and HLBas are proposed. At low cycle threshold (Ct) values (e.g., <30), HLBas-PCR remained reliable in CLas determination. At high Ct values (e.g., >30), HLBas-PCR alone was unreliable in differentiating whether samples contain low CLas titers or whether CLas is not present. The availability of ribonucleotide reductase (RNR)-PCR derived from the five-copy nrdB gene helped to resolve this problem. To further enhance low CLas titer detection, a 4CP-PCR system, based on a four-copy genomic locus, was developed. Evaluation of 107 HLB samples (94 citrus and 13 ACP) showed that 4CP-PCR was more sensitive than HLBas-PCR and shared similar sensitivity with RNR-PCR.

An obligately anaerobic, Gram-stain-positive and coccus-shaped bacterium, designated strain YH-panp20T, was isolated from pig faeces. Phylogenetic analysis based on 16S rRNA gene sequencing indicated that the isolate belongs to the family Erysipelotrichaceae , and is most closely related to Catenisphaera adipataccumulans KCTC 15517T (93.5 % sequence similarity), followed by Faecalitalea cylindroides KCTC 5815T (92.2 %), Faecalicoccus acidiformans KCTC 15521T (90.2 %) and Holdemanella biformis KCTC 5969T (89.6 %). Average nucleotide identity values between YH-panp20T and its closest relatives were lower than 71 %. The G+C content of the isolate was 38.4 mol%, and its cell-wall peptidoglycan was found to be of A1γ type and contained meso-diaminopimelic acid. The predominant fatty acids were C18 : 1 cis 9, C18 : 0 DMA and C16 : 0. The major end-products of glucose fermentation were lactate, acetate and formate. Therefore, based on the phenotypic, phylogenetic and chemotaxonomic properties, a novel genus and species, Absicoccus porci gen. nov., sp. nov., is proposed for isolate YH-panp20T (=KCTC 15747T=JCM 32769T).

Genome analysis is one of the main criteria for description of new taxa. Availability of genome sequences for all the actinobacteria with a valid nomenclature will, however, require another decade’s works of sequencing. This paper describes the rearrangement of the higher taxonomic ranks of the members of the phylum ‘ Actinobacteria ’, using the phylogeny of 16S rRNA gene sequences and supported by the phylogeny of the available genome sequences. Based on the refined phylogeny of the 16S rRNA gene sequences, we could arrange all the members of the 425 genera of the phylum ‘ Actinobacteria ’ with validly published names currently in use into six classes, 46 orders and 79 families, including 16 new orders and 10 new families. The order Micrococcales Prévot 1940 (Approved Lists 1980) emend. Nouioui et al. 2018 is now split into 11 monophyletic orders: the emended order Micrococcales and ten proposed new orders Aquipuribacterales , Beutenbergiales , Bogoriellales , Brevibacteriales , Cellulomonadales , Demequinales , Dermabacterales , Dermatophilales , Microbacteriales and Ruaniales . Further, the class ‘ Actinobacteria ’ Stackebrandt et al. 1997 emend. Nouioui et al. 2018 was described without any nomenclature type, and therefore the name ‘ Actinobacteria ’ is deemed illegitimate. In accordance to Rule 8 of the International Code of Nomenclature of Prokaryotes, Parker et al. 2019, we proposed the name Actinomycetia which is formed by using the stem of the name Actinomycetales Buchanan 1917 (Approved Lists 1980) emend. Zhi et al. 2009, to replace the name ‘ Actinobacteria ’. The nomenclature type of the proposed new class Actinomycetia is the order Actinomycetales Buchanan 1917 (Approved Lists 1980) emend. Zhi et al. 2009.

AbstractA previously unknown haplotype of the plant pathogen ‘CandidatusLiberibacter solanacearum’ (Lso) was found in cultivated carrots and parsnips in eastern Finland. That same haplotype was found in western Finland, over 300 km away, in the family Polygonaceae, the speciesFallopia convolvulus(wild buckwheat) andPersicaria lapathifolia(pale persicaria) growing as weeds within carrot and parsnip fields. The infected plants, both apiaceous and polygonaceous, showed symptoms of foliar discolouration. This is the first report of Lso bacteria in plants of the family Polygonaceae. The finding that the polygonaceous plants infected with a previously unknown haplotype of Lso were growing among the apiaceous plants infected with Lso haplotype C suggests that these two haplotypes might be transmitted by different vectors. Phylogenetic analyses showed that the new haplotype, called haplotype H, is distinct from the previously characterized haplotypes and appears to have diverged early from their common ancestor. Multi-locus sequence analysis revealed four different sequence types (strains) within the haplotype H. These findings suggest that the haplotype H is likely to be endemic in northern Europe and that the genetic diversity within the Lso species is higher than previously assumed.

Abstract“Candidatus Liberibacter solanacearum” (Lso) are phloem‐restricted and unculturable Gram‐negative bacteria. Presently five haplotypes have been identified worldwide; but only haplotypes A and B are associated with the vector Bactericera cockerelli (Šulc.) in the Americas. Previous studies showed that Lso‐infection reduces B. cockerelli reproductive output and that Lso haplotype B is more pathogenic than Lso haplotype A. To understand the interaction of Lso haplotype B and B. cockerelli, the fitness of Lso‐free and Lso B‐infected insects, and the expression of vitellogenin (BcVg1‐like), a gene involved directly in the insect reproduction were analyzed. Statistical differences in the number of eggs oviposited, and the total number of progeny nymphs and adults were found among crosses of insects with or without Lso. Significant differences in sex proportions were found between Lso B‐infected and Lso‐free crosses: a higher proportion of F1 adult females were obtained from Lso B‐infected mothers. A significant reduction of BcVg1‐like was observed in crosses performed with Lso B‐infected females compared to the Lso‐free insects. In female cohorts of different age, a significant reduction of BcVg1‐like expression was measured in 7‐d‐old Lso B‐infected females (virgin and mated) compared with 7‐d‐old Lso‐free females (virgin and mated), respectively. The reduction of BcVg1‐like transcript was associated with a lower number of developing oocytes observed in female's reproductive systems. Overall, this study represents the first step to understand the interaction of Lso B with B. cockerelli, highlighting the effect of Lso B infection on egg production, BcVg1‐like expression, and oocyte development.