{"response":{"status":"ok","message_type":"publications","count":4590,"current_page":1,"total_pages":459,"next":"https://api.seqco.de/v1/publications.json?page=2"},"values":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json","link_ext":"https://doi.org/10.1007/s11033-025-11417-y","title":"Accumulation and transmission dynamics of ‘Candidatus liberibacter solanacearum’ haplotypes A and B by potato psyllid nymphs: bioassay and transcriptomic insights","journal":"Molecular Biology Reports","journal_loc":"53 (1)","journal_date":"2026-12-01","pub_type":"journal-article","abstract":"\u003cjats:title\u003eAbstract\u003c/jats:title\u003e\n                  \u003cjats:sec\u003e\n                    \u003cjats:title\u003eBackground\u003c/jats:title\u003e\n                    \u003cjats:p\u003e\n                      ‘\n                      \u003cjats:italic\u003eCandidatus\u003c/jats:italic\u003e\n                      Liberibacter solanacearum’ (Lso) is a phloem-limited bacterial pathogen causing significant diseases in solanaceous crops. In the United States, haplotypes A and B are transmitted by the potato psyllid\n                      \u003cjats:italic\u003eBactericera cockerelli\u003c/jats:italic\u003e\n                      . We previously identified differences in their acquisition and transmission between adults and nymphs. The present study characterized the dynamics of LsoA and LsoB acquisition and transmission by nymphs and examined the transcriptional responses of the nymphal gut upon their acquisition.\n                    \u003c/jats:p\u003e\n                  \u003c/jats:sec\u003e\n                  \u003cjats:sec\u003e\n                    \u003cjats:title\u003eMethods and results\u003c/jats:title\u003e\n                    \u003cjats:p\u003eNymphs were exposed to LsoA- or LsoB-infected plants for 1, 3, 5, or 7 days to measure the bacterial accumulation and for 8 days to assess the transmission efficiency following sequential inoculation of tomato plants. Quantitative PCR showed that LsoB accumulated to higher levels than LsoA after 3 days of acquisition. Following the sequential inoculation, LsoB was transmitted earlier than LsoA indicating a shorter latency period. RNA-seq analysis of the guts following a 1- and 5-day acquisition access periods revealed a greater transcriptional regulation at 5 days than at 1 day. Furthermore, the responses were haplotype-specific: LsoA primarily affected genes involved in protein translation, ER stress, and cell cycle regulation, whereas LsoB regulated genes involved in autophagy, apoptosis, and immune pathways.\u003c/jats:p\u003e\n                  \u003c/jats:sec\u003e\n                  \u003cjats:sec\u003e\n                    \u003cjats:title\u003eConclusions\u003c/jats:title\u003e\n                    \u003cjats:p\u003eThis study revealed haplotype-specific gene regulation potentially leading to LsoB being transmitted more efficiently by psyllid nymphs.\u003c/jats:p\u003e\n                  \u003c/jats:sec\u003e","long_citation_html":"Oh et al. (2026). Accumulation and transmission dynamics of ‘Candidatus liberibacter solanacearum’ haplotypes A and B by potato psyllid nymphs: bioassay and transcriptomic insights. \n\u003ci\u003eMolecular Biology Reports\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1007/s11033-025-11417-y\" target=\"_blank\"\u003eDOI:10.1007/s11033-025-11417-y\u003c/a\u003e\n","created_at":"2026-01-07T00:00:12.762Z","updated_at":"2026-04-06T00:00:08.598Z","authors":[{"id":12674,"given":"Junepyo","family":"Oh","created_at":"2023-09-05T22:00:19.502Z","updated_at":"2023-09-05T22:00:19.502Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant 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M. haemobos)\u003c/jats:italic\u003e\n                    , are vector-borne pathogens that can cause significant clinical diseases in cattle. This case report from Türkiye describes the clinical findings, hematological analysis, and serum biochemistry results of a cow presenting with hemoglobinuria caused by\n                    \u003cjats:italic\u003eC. M. haemobos\u003c/jats:italic\u003e\n                    . Blood samples from the infected animal were analyzed using hematological, biochemical, microscopic, and molecular methods. Multiplex polymerase chain reaction assay confirmed the infection, and microscopic analysis revealed a parasitemia rate of 6.99%. Clinical signs included hemoglobinuria, icterus, and anemia. The treatment included fluid therapy, antibiotic (oxytetracycline), and antianemic drugs. The cattle died 1 month post-treatment, reportedly due to a lower respiratory tract infection. This case report describes the diagnostic methods, clinical findings, and laboratory results. A widescale molecular survey of\n                    \u003cjats:italic\u003eC. M. haemobos\u003c/jats:italic\u003e\n                    in cattle is warranted, with investigation of its pathogenicity and pathogenies.\n                  \u003c/jats:p\u003e","long_citation_html":"Emlik et al. (2026). Hemoglobinuria associated with Candidatus Mycoplasma Haemobos in a primiparous Holstein cow in Turkey: a case report. \n\u003ci\u003eVeterinary Research Communications\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1007/s11259-026-11262-9\" target=\"_blank\"\u003eDOI:10.1007/s11259-026-11262-9\u003c/a\u003e\n","created_at":"2026-05-17T00:00:19.579Z","updated_at":"2026-06-14T00:00:14.258Z","authors":[{"id":18552,"given":"Fikri","family":"Emlik","created_at":"2026-05-17T00:00:19.586Z","updated_at":"2026-05-17T00:00:19.586Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant 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population: exploring molecular diversity and haplotype patterns in the\n                    \u003ci\u003esap 11\u003c/i\u003e\n                    gene","journal":"Archives of Phytopathology and Plant Protection","journal_loc":"","journal_date":"2026-06-13","pub_type":"journal-article","abstract":null,"long_citation_html":"Misra et al. 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mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json","link_ext":"https://doi.org/10.1128/msystems.01768-25","title":"Distinguishing\n                    \u003ci\u003eLeptothrix\u003c/i\u003e\n                    and\n                    \u003ci\u003eSphaerotilus\u003c/i\u003e\n                    genera by an integrated genomic-phenotypic analysis supported by new\n                    \u003ci\u003eLeptothrix\u003c/i\u003e\n                    genomes","journal":"mSystems","journal_loc":"","journal_date":"2026-06-12","pub_type":"journal-article","abstract":"\u003cjats:title\u003eABSTRACT\u003c/jats:title\u003e\n                  \u003cjats:sec\u003e\n                    \u003cjats:title/\u003e\n                    \u003cjats:p\u003e\n                      The\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus-Leptothrix\u003c/jats:italic\u003e\n                      group of bacteria includes one of the first described microorganisms,\n                      \u003cjats:italic toggle=\"yes\"\u003eLeptothrix ochracea\u003c/jats:italic\u003e\n                      , an uncultured type strain, plus isolates of\n                      \u003cjats:italic toggle=\"yes\"\u003eLeptothrix\u003c/jats:italic\u003e\n                      and\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus\u003c/jats:italic\u003e\n                      . This group is unified by the ability to form sheaths and oxidize metals, although\n                      \u003cjats:italic toggle=\"yes\"\u003eL. ochracea\u003c/jats:italic\u003e\n                      exhibits obvious ecological, morphological, and functional differences from the rest of\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus-Leptothrix\u003c/jats:italic\u003e\n                      . Recently, there have been calls to combine the group into one genus,\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus\u003c/jats:italic\u003e\n                      ; however, these studies lacked adequate genomic representation of\n                      \u003cjats:italic toggle=\"yes\"\u003eL. ochracea\u003c/jats:italic\u003e\n                      . Here, we present a comprehensive comparative genomic analysis of the\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus-Leptothrix\u003c/jats:italic\u003e\n                      group, including expanded representation of\n                      \u003cjats:italic toggle=\"yes\"\u003eL. ochracea\u003c/jats:italic\u003e\n                      , a closely related novel species,\n                      \u003cjats:italic toggle=\"yes\"\u003eLeptothrix toolikensis\u003c/jats:italic\u003e\n                      , and two new isolates (\n                      \u003cjats:italic toggle=\"yes\"\u003eLeptothrix mechoopdaensis\u003c/jats:italic\u003e\n                      ). Analysis of 38 genomes resolves three phylogenetic and functional groups: the\n                      \u003cjats:italic toggle=\"yes\"\u003eochracea\u003c/jats:italic\u003e\n                      -type\n                      \u003cjats:italic toggle=\"yes\"\u003eLeptothrix\u003c/jats:italic\u003e\n                      (Group 1), the\n                      \u003cjats:italic toggle=\"yes\"\u003emobilis\u003c/jats:italic\u003e\n                      -type\n                      \u003cjats:italic toggle=\"yes\"\u003eLeptothrix\u003c/jats:italic\u003e\n                      (Group 2), and\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus\u003c/jats:italic\u003e\n                      (Group 3). Group 1 genomes form a separate genus based on average nucleotide identity and alignment fraction. The genomes clearly diverge from the rest of\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus-Leptothrix\u003c/jats:italic\u003e\n                      in phylogeny, size, and metabolic potential. Group 1 genomes are much smaller (2.59–3.04 Mb) than those of Groups 2 (4.55–6.06 Mb) and 3 (3.94–5.07 Mb), while encoding more metal oxidases and fewer carbohydrate-active enzymes. Group 2 clusters with Group 3 phylogenetically and is similar in organic carbon metabolisms but maintains more metal oxidation genes. Group 2 members lack homogeneity in phenotype and genotype, suggesting that additional isolates and genomes are needed for confident classification. However, Group 1 genomes (\n                      \u003cjats:italic toggle=\"yes\"\u003eL. ochracea\u003c/jats:italic\u003e\n                      and\n                      \u003cjats:italic toggle=\"yes\"\u003eL. toolikensis\u003c/jats:italic\u003e\n                      ) show clear divergence, precluding their inclusion in\n                      \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus\u003c/jats:italic\u003e\n                      and supporting the retention of the genus\n                      \u003cjats:italic toggle=\"yes\"\u003eLeptothrix\u003c/jats:italic\u003e\n                      .\n                    \u003c/jats:p\u003e\n                    \u003cjats:sec\u003e\n                      \u003cjats:title\u003eIMPORTANCE\u003c/jats:title\u003e\n                      \u003cjats:p\u003e\n                        Researchers have long noted differences in metal oxidation, morphology, and ecology among\n                        \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus-Leptothrix\u003c/jats:italic\u003e\n                        , but longstanding confusion over phylogeny and genus boundaries led to inconsistent taxonomic classification between the two genera. This confusion stems from previous work that used isolates that are unavailable or lost distinguishing traits in culture, and from limited genomic data. Furthermore, the\n                        \u003cjats:italic toggle=\"yes\"\u003eLeptothrix\u003c/jats:italic\u003e\n                        type strain\n                        \u003cjats:italic toggle=\"yes\"\u003eL. ochracea\u003c/jats:italic\u003e\n                        has never been isolated. This study provides molecular evidence that substantiates calls to reassign some\n                        \u003cjats:italic toggle=\"yes\"\u003eLeptothrix\u003c/jats:italic\u003e\n                        members to the genus\n                        \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus\u003c/jats:italic\u003e\n                        but adds to an emerging body of evidence that Group 1\n                        \u003cjats:italic toggle=\"yes\"\u003eL. ochracea\u003c/jats:italic\u003e\n                        and now\n                        \u003cjats:italic toggle=\"yes\"\u003eL. toolikensis\u003c/jats:italic\u003e\n                        represent a functionally distinct lineage. While genomic similarity metrics left taxonomic divisions unclear, integrating metabolic potential with phylogeny resolved genus boundaries based on clear functional groupings. This polyphasic approach for delineating genera clarifies longstanding taxonomic confusion and refines our understanding of functional diversity both across and within\n                        \u003cjats:italic toggle=\"yes\"\u003eSphaerotilus-Leptothrix\u003c/jats:italic\u003e\n                        lineages.\n                      \u003c/jats:p\u003e\n                    \u003c/jats:sec\u003e\n                  \u003c/jats:sec\u003e","long_citation_html":"Tothero et al. (2026). Distinguishing\n                    \u003ci\u003eLeptothrix\u003c/i\u003e\n                    and\n                    \u003ci\u003eSphaerotilus\u003c/i\u003e\n                    genera by an integrated genomic-phenotypic analysis supported by new\n                    \u003ci\u003eLeptothrix\u003c/i\u003e\n                    genomes. \n\u003ci\u003emSystems\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1128/msystems.01768-25\" target=\"_blank\"\u003eDOI:10.1128/msystems.01768-25\u003c/a\u003e\n","created_at":"2026-06-13T13:35:06.712Z","updated_at":"2026-06-14T00:00:20.655Z","authors":[{"id":18685,"given":"Gracee K.","family":"Tothero","created_at":"2026-06-13T13:35:06.730Z","updated_at":"2026-06-13T13:35:06.730Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research 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S.","family":"Chan","created_at":"2026-06-13T13:35:06.787Z","updated_at":"2026-06-13T13:35:06.787Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant Protection","doi":"10.1080/03235408.2026.2685557","url":"https://api.seqco.de/v1/publications/4599.json"},{"id":4598,"citation":"Tothero et al., 2026, mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json"},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant Pathology","doi":"10.1007/s42161-026-02231-x","url":"https://api.seqco.de/v1/publications/4587.json"},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json"}],"url":"https://api.seqco.de/v1/authors/18688.json"}],"names":[{"id":55891,"name":"Leptothrix toolikensis","url":"https://api.seqco.de/v1/names/55891.json","uri":"https://seqco.de/i:55891"},{"id":55905,"name":"Leptothrix mechoopdaensis","url":"https://api.seqco.de/v1/names/55905.json","uri":"https://seqco.de/i:55905"}],"subjects":[]},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json","link_ext":"https://doi.org/10.1099/mgen.0.001748","title":"Pseudogenization of the chaperonin system in ‘Candidatus Phytoplasma pruni’ revealed by genome sequencing and comparative genomics","journal":"Microbial Genomics","journal_loc":"12 (6)","journal_date":"2026-06-08","pub_type":"journal-article","abstract":"\u003cjats:p\u003e\n                    GroE is a chaperonin folding system consisting of GroEL (Cpn60, a 60 kDa chaperonin), and the smaller co-chaperonin GroES (Cpn10). Many ‘client’ proteins require GroE to fold properly, including several that are essential for cell viability. GroE is found in nearly all bacteria and eukaryotes.\n                    \u003cjats:italic\u003eMollicutes\u003c/jats:italic\u003e\n                    are the only micro-organisms that lack GroE in almost all cases. Only two clades of\n                    \u003cjats:italic\u003eMollicutes\u003c/jats:italic\u003e\n                    have retained the ancestral GroE system, or perhaps reacquired one; these exceptions include the family\n                    \u003cjats:italic\u003eAcholeplasmataceae\u003c/jats:italic\u003e\n                    , consisting of the genera\n                    \u003cjats:italic\u003eAcholeplasma\u003c/jats:italic\u003e\n                    and ‘\n                    \u003cjats:italic\u003eCandidatus\u003c/jats:italic\u003e\n                    Phytoplasma’. The role of GroEL in these unique\n                    \u003cjats:italic\u003eMollicutes\u003c/jats:italic\u003e\n                    is a source of speculation, given how many non-canonical ‘moonlighting’ roles have been ascribed to this protein. GroEL has been suggested to play a role in pathogenesis in plant and animal pathogenic\n                    \u003cjats:italic\u003eMollicutes\u003c/jats:italic\u003e\n                    by binding to host cells and facilitating invasion. However, in one further layer of exception, the phytopathogenic taxon ‘\n                    \u003cjats:italic\u003eCandidatus\u003c/jats:italic\u003e\n                    Phytoplasma pruni’ (ribosomal group 16SrIII) was reported in 2012 to lack a GroE system. This study confirms the lack of a functional GroE system in 16SrIII by providing two new, high-quality, non-fragmented genome assemblies, as well as a thorough survey of other 16SrIII genomes for genes encoding GroEL/GroES, including those that may not resemble phytoplasma GroEL (i.e. acquired by horizontal gene transfer, HGT). We discuss the implications of a clearly phytopathogenic, invasive group of\n                    \u003cjats:italic\u003eMollicutes\u003c/jats:italic\u003e\n                    that nevertheless lacks GroE, in light of the presumed role of GroEL for this species. We determined that multiple genomes of 16SrIII contain short, non-functional\n                    \u003cjats:italic\u003egroEL\u003c/jats:italic\u003e\n                    pseudogenes, while most of the reported genomes lack any semblance of a GroE system. Examination of the new assemblies allowed us to rule out HGT as a means of GroE acquisition.\n                  \u003c/jats:p\u003e","long_citation_html":"Pellegrinetti et al. (2026). Pseudogenization of the chaperonin system in ‘Candidatus Phytoplasma pruni’ revealed by genome sequencing and comparative genomics. \n\u003ci\u003eMicrobial Genomics\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1099/mgen.0.001748\" target=\"_blank\"\u003eDOI:10.1099/mgen.0.001748\u003c/a\u003e\n","created_at":"2026-06-09T00:00:31.617Z","updated_at":"2026-06-14T00:00:18.468Z","authors":[{"id":13658,"given":"Thierry Alexandre","family":"Pellegrinetti","created_at":"2024-02-24T17:32:49.735Z","updated_at":"2024-02-24T17:32:49.735Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant Protection","doi":"10.1080/03235408.2026.2685557","url":"https://api.seqco.de/v1/publications/4599.json"},{"id":4598,"citation":"Tothero et al., 2026, mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json"},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant 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The black soil region in northeast China is a key agricultural ecosystem globally, yet the classification and functional understanding of its crucial microbial groups remain underexplored. In this study, we identified three high-completeness metagenome-assembled genomes (MAGs) from the Global Mollisols Genomic Atlas (GMGA). Phylogenetic and comparative genomic analyses identified these genomes as representing a novel evolutionary branch within the genus Flavobacterium, classified under the phylum Bacteroidota. Their novel taxonomic position is further supported by average nucleotide identity (ANI) and average amino acid identity (AAI) thresholds, demonstrating significant divergence from all known reference genomes. Functional annotation indicated that this species possesses strong plant polysaccharide degradation potential and a chemoheterotrophic lifestyle, together with environmental stress tolerance and a specialized nitrogen metabolic network adapted to agricultural inputs, thereby conferring a metabolic advantage in black soil environments characterized by high organic matter input and marked seasonal fluctuations. In addition, global distribution analysis showed that this lineage is widely distributed across diverse ecosystems and is significantly enriched in soil habitats, particularly in environments with fluctuating carbon sources and high organic matter inputs. The new species is most abundant in temperate soils, with the northeast black soil region of China emerging as a key hotspot. Based on these findings, and because no pure culture is currently available, we propose Candidatus Flavobacterium genomatis based on genome-resolved metagenomic evidence and in alignment with the International Code of Nomenclature of Prokaryotes rules for uncultivated prokaryotes. Our results expand the known species diversity of the genus Flavobacterium and suggest potential ecological roles of uncultured black-soil microbes in carbon and nitrogen cycling, including possible involvement in N2O reduction under suitable environmental conditions.\u003c/jats:p\u003e","long_citation_html":"Zhang et al. (2026). Metagenome-Assembled Genomes Support the Proposal of Candidatus Flavobacterium genomatis from the Northeast Black Soil Ecosystem. \n\u003ci\u003eMicroorganisms\u003c/i\u003e. \u003ca href=\"https://doi.org/10.3390/microorganisms14061292\" target=\"_blank\"\u003eDOI:10.3390/microorganisms14061292\u003c/a\u003e\n","created_at":"2026-06-09T00:00:29.211Z","updated_at":"2026-06-14T00:00:18.554Z","authors":[{"id":18668,"given":"Xiaoyue","family":"Zhang","created_at":"2026-06-09T00:00:30.129Z","updated_at":"2026-06-09T00:00:30.129Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant 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Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant Pathology","doi":"10.1007/s42161-026-02231-x","url":"https://api.seqco.de/v1/publications/4587.json"},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json"}],"url":"https://api.seqco.de/v1/authors/18672.json"},{"id":3953,"given":"Bin","family":"Ma","created_at":"2019-04-15T19:19:46.652Z","updated_at":"2019-04-15T19:19:46.652Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant Protection","doi":"10.1080/03235408.2026.2685557","url":"https://api.seqco.de/v1/publications/4599.json"},{"id":4598,"citation":"Tothero et al., 2026, mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json"},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant Pathology","doi":"10.1007/s42161-026-02231-x","url":"https://api.seqco.de/v1/publications/4587.json"},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json"}],"url":"https://api.seqco.de/v1/authors/3953.json"}],"names":[{"id":7642,"name":"Flavobacterium","url":"https://api.seqco.de/v1/names/7642.json","uri":"https://seqco.de/i:7642"},{"id":56195,"name":"Candidatus Flavobacterium genomatis","url":"https://api.seqco.de/v1/names/56195.json","uri":"https://seqco.de/i:56195"}],"subjects":[]},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json","link_ext":"https://doi.org/10.1094/pdis-08-25-1758-re","title":"Effect of Contact Insecticides on the Transmission of ‘\n                    \u003ci\u003eCandidatus\u003c/i\u003e\n                    Liberibacter asiaticus’ by\n                    \u003ci\u003eDiaphorina citri\u003c/i\u003e\n                    During Sweet Orange Shoot Development","journal":"Plant Disease","journal_loc":"","journal_date":"2026-06-05","pub_type":"journal-article","abstract":"\u003cjats:p\u003eInsecticide applications are commonly recommended for managing Diaphorina citri, the vector of huanglongbing (HLB), but their effectiveness in reducing transmission of ‘Candidatus Liberibacter asiaticus’ (CLas), especially during continuous psyllid influx and shoot growth, remains unclear. This study evaluated the efficacy of foliar application of thiamethoxam and spinetoram in reducing CLas transmission in sweet orange seedlings. Two experiments were conducted up to 13 days after first spray. In experiment 1, CLas-positive psyllids were confined in seedlings every 2 days. Treatments were: control; S14, one spray at day 0; and S7, sprays at days 0 and 7. In experiment 2, psyllids were released for free choice within a screenhouse every 2 days. Treatments were: control, S14, S7, and S3, sprays at day 0 and every 3 days. Sprays on day 0 were over unfolded leaves (V2 stage). Psyllid mortality was assessed in experiment 1. Psyllid occupancy (percentage of seedlings with at least one psyllid) and abundance (number of psyllids per seedling) were assessed in experiment 2. After 6 months, seedlings were tested for CLas by qPCR. In experiment 1, cumulative psyllid mortality was higher in sprayed treatments than in the control for both insecticides, but HLB incidence was similar. In experiment 2, both psyllid occupancy and abundance decreased with shorter spray intervals, with the lowest HLB incidence in S3. These findings suggest that reducing spray intervals can limit CLas transmission during periods of shoot growth and continuous vector pressure. However, CLas transmission was not entirely prevented, highlighting the need for integrated, area-wide management strategies.\u003c/jats:p\u003e","long_citation_html":"Shibutani et al. (2026). Effect of Contact Insecticides on the Transmission of ‘\n                    \u003ci\u003eCandidatus\u003c/i\u003e\n                    Liberibacter asiaticus’ by\n                    \u003ci\u003eDiaphorina citri\u003c/i\u003e\n                    During Sweet Orange Shoot Development. \n\u003ci\u003ePlant Disease\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1094/pdis-08-25-1758-re\" target=\"_blank\"\u003eDOI:10.1094/pdis-08-25-1758-re\u003c/a\u003e\n","created_at":"2025-11-08T00:00:12.700Z","updated_at":"2026-06-14T00:00:17.892Z","authors":[{"id":17571,"given":"Leandro Jun Soki","family":"Shibutani","created_at":"2025-11-08T00:00:12.705Z","updated_at":"2025-11-08T00:00:12.705Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research 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","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant Pathology","doi":"10.1007/s42161-026-02231-x","url":"https://api.seqco.de/v1/publications/4587.json"},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json"}],"url":"https://api.seqco.de/v1/authors/17571.json"},{"id":17572,"given":"Isabela V.","family":"Primiano","created_at":"2025-11-08T00:00:12.716Z","updated_at":"2025-11-08T00:00:12.716Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant 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mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json"},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant Pathology","doi":"10.1007/s42161-026-02231-x","url":"https://api.seqco.de/v1/publications/4587.json"},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json"}],"url":"https://api.seqco.de/v1/authors/17573.json"},{"id":18656,"given":"Leandro J. S.","family":"Shibutani","created_at":"2026-06-06T00:00:23.884Z","updated_at":"2026-06-06T00:00:23.884Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant Protection","doi":"10.1080/03235408.2026.2685557","url":"https://api.seqco.de/v1/publications/4599.json"},{"id":4598,"citation":"Tothero et al., 2026, mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json"},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant Pathology","doi":"10.1007/s42161-026-02231-x","url":"https://api.seqco.de/v1/publications/4587.json"},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json"}],"url":"https://api.seqco.de/v1/authors/18656.json"},{"id":9838,"given":"Renato B.","family":"Bassanezi","created_at":"2022-01-14T23:00:13.592Z","updated_at":"2022-01-14T23:00:13.592Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant Protection","doi":"10.1080/03235408.2026.2685557","url":"https://api.seqco.de/v1/publications/4599.json"},{"id":4598,"citation":"Tothero et al., 2026, mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json"},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant Pathology","doi":"10.1007/s42161-026-02231-x","url":"https://api.seqco.de/v1/publications/4587.json"},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json"}],"url":"https://api.seqco.de/v1/authors/9838.json"}],"names":[{"id":1,"name":"Candidatus Liberibacter asiaticus","url":"https://api.seqco.de/v1/names/1.json","uri":"https://seqco.de/i:1"}],"subjects":[]},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json","link_ext":"https://doi.org/10.1099/acmi.0.001186.v2","title":"In vitro growth and characterization of “Candidatus Sarcina troglodytae” isolated from the brain of a chimpanzee in Sierra Leone","journal":"","journal_loc":"","journal_date":"2026-06-05","pub_type":"posted-content","abstract":"\u003cjats:p\u003e“Candidatus Sarcina troglodytae” (“Ca. S. troglodytae”), a proposed bacterial species in the family Clostridiaceae, has been epidemiologically associated with a lethal disease in sanctuary chimpanzees in Sierra Leone, epizootic neurologic and gastroenteric syndrome (ENGS). As sarcinae are known to be difficult to culture, a lack of viable in vitro growth conditions has limited further characterization of this bacterium. Such studies are critical to elucidating the relationship between “Ca. S. troglodytae” and ENGS.  Here, we isolate a Gram-stain-positive, endospore-forming, coccus and anaerobic bacterial strain, designated JB3T, from brain tissue of a western chimpanzee (Pan troglodytes verus) using a reinforced clostridial medium. We describe the growth of strain JB3T at a pH range of 6 to 9 (optimum 6) at 37°C in an atmosphere composed of 5% H2, 5% CO2, and 90% N2 and demonstrate endospore production under alkaline conditions, suggesting the possibility of an environmental reservoir. We identify ethanol as the primary non-gaseous fermentation byproduct which we hypothesize to have relevance for ENGS. Antibiotic susceptibility testing shows susceptibility to common antimicrobial agents with notable resistance to ceftriaxone. By establishing in vitro conditions for the viable culture, propagation, and storage of “Ca. S. troglodytae”, this study lays the groundwork for future infection studies to test hypotheses about pathogenic mechanisms and prevention/treatment measures for ENGS.\u003c/jats:p\u003e","long_citation_html":"Dunay et al. (2026). In vitro growth and characterization of “Candidatus Sarcina troglodytae” isolated from the brain of a chimpanzee in Sierra Leone. \n\u003ci\u003e\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1099/acmi.0.001186.v2\" target=\"_blank\"\u003eDOI:10.1099/acmi.0.001186.v2\u003c/a\u003e\n","created_at":"2026-06-06T00:00:23.624Z","updated_at":"2026-06-14T00:00:17.802Z","authors":[{"id":18153,"given":"Emily","family":"Dunay","created_at":"2026-02-19T00:00:13.691Z","updated_at":"2026-02-19T00:00:13.691Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant Protection","doi":"10.1080/03235408.2026.2685557","url":"https://api.seqco.de/v1/publications/4599.json"},{"id":4598,"citation":"Tothero et al., 2026, mSystems","doi":"10.1128/msystems.01768-25","url":"https://api.seqco.de/v1/publications/4598.json"},{"id":4595,"citation":"Pellegrinetti et al., 2026, Microbial Genomics","doi":"10.1099/mgen.0.001748","url":"https://api.seqco.de/v1/publications/4595.json"},{"id":4594,"citation":"Zhang et al., 2026, Microorganisms","doi":"10.3390/microorganisms14061292","url":"https://api.seqco.de/v1/publications/4594.json"},{"id":4335,"citation":"Shibutani et al., 2026, Plant Disease","doi":"10.1094/pdis-08-25-1758-re","url":"https://api.seqco.de/v1/publications/4335.json"},{"id":4588,"citation":"Dunay et al., 2026, ","doi":"10.1099/acmi.0.001186.v2","url":"https://api.seqco.de/v1/publications/4588.json"},{"id":4587,"citation":"Wangkhem et al., 2026, Journal of Plant 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asiaticus","url":"https://api.seqco.de/v1/names/1.json","uri":"https://seqco.de/i:1"}],"subjects":[]},{"id":4411,"citation":"Nian et al., 2026, ","doi":"10.7554/elife.109081","url":"https://api.seqco.de/v1/publications/4411.json","link_ext":"https://doi.org/10.7554/elife.109081","title":"Dopamine and its receptor DcDop2 are involved in the coevolution between ‘Candidatus Liberibacter asiaticus’ and Diaphorina citri","journal":"","journal_loc":"","journal_date":"2026-06-03","pub_type":"posted-content","abstract":"\u003cjats:p\u003e‘Candidatus Liberibacter asiaticus’ (CLas), the causal agent of citrus huanglongbing, is transmitted by the Asian citrus psyllid Diaphorina citri. While CLas-positive (CLas+) females exhibit increased fecundity and metabolic demands, their neuroendocrine regulation mechanisms remain unclear. We propose CLas manipulates dopamine (DA) signaling to enhance psyllid fecundity and CLas proliferation. Metabolomics revealed elevated DA in CLas+ females. Silencing DA synthesis genes and receptor DcDop2 via RNAi reduced lipid reserves, fecundity, and ovarian CLas titers. Through combined in vivo and in vitro experiments, we demonstrated that the microRNA miR-31a suppresses DcDop2 expression by binding to its 3’ untranslated region. Overexpression of miR-31a resulted in decreased DcDop2 expression and CLas titers in the ovaries, eliciting phenotypic defects akin to DcDop2 knockdown. Furthermore, DcDop2 knockdown and miR-31a overexpression reduced juvenile hormone (JH) levels and adipokinetic hormone (AKH) signaling in fat bodies and ovaries. Consequently, CLas regulates the DA-DcDop2 signaling axis to improve D. citri lipid metabolism and fecundity, while simultaneously promoting its replication. These findings reveal a coevolution between CLas proliferation and ovarian development in the insect host. This discovery enhances our understanding of the molecular interplay between plant pathogens and vector insects and offers novel targets and strategies for HLB field management.\u003c/jats:p\u003e","long_citation_html":"Nian et al. (2026). Dopamine and its receptor DcDop2 are involved in the coevolution between ‘Candidatus Liberibacter asiaticus’ and Diaphorina citri. \n\u003ci\u003e\u003c/i\u003e. \u003ca href=\"https://doi.org/10.7554/elife.109081\" target=\"_blank\"\u003eDOI:10.7554/elife.109081\u003c/a\u003e\n","created_at":"2026-01-24T00:00:16.918Z","updated_at":"2026-06-14T00:00:17.149Z","authors":[{"id":11653,"given":"Xiaoge","family":"Nian","created_at":"2023-05-20T22:00:17.208Z","updated_at":"2023-05-20T22:00:17.208Z","publications":[{"id":4398,"citation":"Oh et al., 2026, Molecular Biology Reports","doi":"10.1007/s11033-025-11417-y","url":"https://api.seqco.de/v1/publications/4398.json"},{"id":4560,"citation":"Emlik et al., 2026, Veterinary Research Communications","doi":"10.1007/s11259-026-11262-9","url":"https://api.seqco.de/v1/publications/4560.json"},{"id":4599,"citation":"Misra et al., 2026, Archives of Phytopathology and Plant 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