{"response":{"status":"ok","message_type":"publications","count":4550,"current_page":1,"total_pages":455,"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":4559,"citation":"Boyer et al., 2026, Phytopathology Research","doi":"10.1186/s42483-026-00427-8","url":"https://api.seqco.de/v1/publications/4559.json"},{"id":4537,"citation":"Peterse et al., 2026, 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solanacearum","url":"https://api.seqco.de/v1/names/34.json","uri":"https://seqco.de/i:34"}],"subjects":[]},{"id":4559,"citation":"Boyer et al., 2026, Phytopathology Research","doi":"10.1186/s42483-026-00427-8","url":"https://api.seqco.de/v1/publications/4559.json","link_ext":"https://doi.org/10.1186/s42483-026-00427-8","title":"Spatial distribution and genetic diversity of ‘Candidatus Liberibacter asiaticus’ and ‘Ca. L. africanus’ in Mauritius","journal":"Phytopathology Research","journal_loc":"8 (1)","journal_date":"2026-05-14","pub_type":"journal-article","abstract":"\u003cjats:title\u003eAbstract\u003c/jats:title\u003e\n                  \u003cjats:p\u003e\n                    Mauritius is one of the two countries where two huanglongbing (HLB)-associated bacteria, ‘\n                    \u003cjats:italic\u003eCandidatus\u003c/jats:italic\u003e\n                    Liberibacter asiaticus’ (CLas) and ‘\n                    \u003cjats:italic\u003eCa\u003c/jats:italic\u003e\n                    . Liberibacter africanus’ (CLaf), have coexisted since at least the 1990s, offering insights into their interactions, particularly given their divergent thermal tolerances. The objective of the study was to revisit the unique HLB epidemiological situation in Mauritius using modern diagnostic and genotyping techniques in the broader context of global warming. Using multiple-locus variable number tandem repeat analysis (MLVA), multilocus sequence analysis (MLSA), a real-time PCR assay, and a loop-mediated isothermal amplification (LAMP) assay, we detected both species. While CLas was commonly detected from sea level up to 580 m above sea level (masl), CLaf was commonly detected between 300 and 600 masl, where temperatures appear higher than in African regions where CLaf has been reported, suggesting putative adaptation to warmer temperatures of Mauritian CLaf. LAMP data also identified some limitations in inclusivity in Keremane’s system. Based on tandem-repeat (TR) data, a single population of CLas was identified whose level of diversity did not differ statistically from that of Réunion, a geographically proximate island with a similar epidemiological situation. These two populations were only weakly differentiated, consistent with the detection of very few private alleles in Mauritius. Prophage- and miniature inverted-repeat transposable element (MITE)-based genotyping confirmed the high genetic relatedness between samples from these islands. Altogether, our results suggest a putative identical source for CLas and/or epidemiological links between these islands. We discuss the implications of our results for surveillance and management of HLB.\n                  \u003c/jats:p\u003e","long_citation_html":"Boyer et al. (2026). Spatial distribution and genetic diversity of ‘Candidatus Liberibacter asiaticus’ and ‘Ca. 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Agronomy","doi":"10.3390/agronomy16090936","url":"https://api.seqco.de/v1/publications/4553.json"},{"id":4551,"citation":"Płecha et al., 2026, ","doi":"10.3897/imafungus.17.177891.figure8","url":"https://api.seqco.de/v1/publications/4551.json"},{"id":4548,"citation":"Hagenbeek et al., 2026, BMC Genomics","doi":"10.1186/s12864-026-12881-x","url":"https://api.seqco.de/v1/publications/4548.json"},{"id":4549,"citation":"Atta et al., 2026, Journal of Citrus Pathology","doi":"10.5070/c4.41452","url":"https://api.seqco.de/v1/publications/4549.json"}],"url":"https://api.seqco.de/v1/authors/15191.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":4537,"citation":"Peterse et al., 2026, mBio","doi":"10.1128/mbio.02975-25","url":"https://api.seqco.de/v1/publications/4537.json","link_ext":"https://doi.org/10.1128/mbio.02975-25","title":"Robust ammonia oxidation by “\n                    \u003ci\u003eCandidatus\u003c/i\u003e\n                    Nitrosacidococcus tergens” across a broad pH range","journal":"mBio","journal_loc":"17 (5)","journal_date":"2026-05-13","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                      Acidophilic ammonia-oxidizing bacteria (AOB) have only recently been discovered. These organisms hold great promise for acidic wastewater treatment; however, their physiology remains poorly understood compared to that of neutrophilic AOB. Here, we investigated the physiology of the acidophilic AOB\n                      \u003cjats:italic toggle=\"yes\"\u003e“Candidatus\u003c/jats:italic\u003e\n                      Nitrosacidococcus tergens\n                      \u003cjats:italic toggle=\"yes\"\u003e”\u003c/jats:italic\u003e\n                      sp. RJ19 across a broad pH range (2.5–7.0) using a specialized bioreactor system. We monitored nitrogen (N) transformations combined with microbial community composition and transcriptomic profiles, focusing on nitrogen metabolism and proton stress responses. Our results show that above pH 6.0, “\n                      \u003cjats:italic toggle=\"yes\"\u003eCa\u003c/jats:italic\u003e\n                      . Na. tergens\n                      \u003cjats:italic toggle=\"yes\"\u003e”\u003c/jats:italic\u003e\n                      performs complete and stoichiometric conversion of ammonium to nitrite, coinciding with isotopic fractionation effects specific for ammonia oxidation and increased expression of key ammonia oxidation genes. The apparent absence of\n                      \u003cjats:italic toggle=\"yes\"\u003enirK\u003c/jats:italic\u003e\n                      and\n                      \u003cjats:italic toggle=\"yes\"\u003ecycA\u003c/jats:italic\u003e\n                      did not impede ammonia oxidation, suggesting that these genes are non-essential in this context. Below pH 6.0, nitric oxide and nitrate accumulated, and nitrous oxide (N₂O) levels, although negligible compared to the other N-compounds, peaked near pH 4.0. Stable isotope analysis, including the site-specific\n                      \u003cjats:sup\u003e15\u003c/jats:sup\u003e\n                      N-enrichment at the inner (α) and outer (β) nitrogen positions of the N\n                      \u003cjats:sub\u003e2\u003c/jats:sub\u003e\n                      O molecule, indicated nitrifier-denitrification as the source of N₂O, supported by the highest\n                      \u003cjats:italic toggle=\"yes\"\u003enorB\u003c/jats:italic\u003e\n                      expression at this pH. These findings provide new insights into the acid-tolerant physiology of “\n                      \u003cjats:italic toggle=\"yes\"\u003eCa\u003c/jats:italic\u003e\n                      . Na. tergens\n                      \u003cjats:italic toggle=\"yes\"\u003e”\u003c/jats:italic\u003e\n                      and advance its potential application in engineered nitrogen removal systems under acidic conditions.\n                    \u003c/jats:p\u003e\n                  \u003c/jats:sec\u003e\n                  \u003cjats:sec\u003e\n                    \u003cjats:title\u003eIMPORTANCE\u003c/jats:title\u003e\n                    \u003cjats:p\u003e\n                      The world is facing a climate crisis intensified by human-driven nutrient pollution. Ammonia and the bacteria that oxidize it are central both to the global nitrogen cycle and to wastewater treatment. The acidophilic ammonia oxidizer “\n                      \u003cjats:italic toggle=\"yes\"\u003eCandidatus\u003c/jats:italic\u003e\n                      Nitrosacidococcus tergens” was previously shown to oxidize ammonia under highly acidic conditions; however, a complete understanding of its metabolism is lacking. Our study now shows that “\n                      \u003cjats:italic toggle=\"yes\"\u003eCa\u003c/jats:italic\u003e\n                      . Na. tergens” performs canonical ammonia oxidation across a broad pH range. At pH values below 6, however, a combination of chemical and biological processes leads to the production of nitrate, nitric oxide, and the greenhouse gas nitrous oxide. In addition, we show that these bacteria adapt to proton stress through mechanisms beyond transcriptional mechanisms. Our study highlights the robust metabolism of acidophilic ammonia oxidizers and expands our understanding of nitrification under acidic conditions.\n                    \u003c/jats:p\u003e\n                  \u003c/jats:sec\u003e","long_citation_html":"Peterse et al. (2026). 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","doi":"10.3897/imafungus.17.177891.figure8","url":"https://api.seqco.de/v1/publications/4551.json"},{"id":4548,"citation":"Hagenbeek et al., 2026, BMC Genomics","doi":"10.1186/s12864-026-12881-x","url":"https://api.seqco.de/v1/publications/4548.json"},{"id":4549,"citation":"Atta et al., 2026, Journal of Citrus Pathology","doi":"10.5070/c4.41452","url":"https://api.seqco.de/v1/publications/4549.json"}],"url":"https://api.seqco.de/v1/authors/5440.json"}],"names":[{"id":43354,"name":"Nitrosacidococcus tergens","url":"https://api.seqco.de/v1/names/43354.json","uri":"https://seqco.de/i:43354"}],"subjects":[]},{"id":4558,"citation":"Levy et al., 2026, Crop Health","doi":"10.1007/s44297-026-00075-6","url":"https://api.seqco.de/v1/publications/4558.json","link_ext":"https://doi.org/10.1007/s44297-026-00075-6","title":"Tomato ubiquitinome in response to ‘Candidatus Liberibacter solanacearum’ haplotypes A and B","journal":"Crop Health","journal_loc":"4 (1)","journal_date":"2026-05-11","pub_type":"journal-article","abstract":"\u003cjats:title\u003eAbstract\u003c/jats:title\u003e\n                  \u003cjats:p\u003e\n                    ‘\n                    \u003cjats:italic\u003eCandidatus\u003c/jats:italic\u003e\n                    Liberibacter solanacearum’ (Lso) is a devastating bacterial pathogen of crops transmitted by psyllids. Previously, a link between changes in ubiquitination and the progression of diseases caused by Lso was established. Among the Lso haplotypes, LsoA and LsoB infect solanaceous crops. LsoA induces chlorosis and stunting in tomato, while LsoB infection leads to more severe symptoms, including plant death. To better characterize the molecular basis of the differences in the diseases caused by these haplotypes, we cataloged the ubiquitinome of tomato leaves four weeks after LsoA and LsoB-infection and following infestation with Lso-free psyllids. Our analysis revealed haplotype-specific changes in the plant ubiquitinome. Gene Ontology (GO) terms related to glucose metabolism and proteasome-mediated ubiquitin-dependent protein catabolism were enriched among the differentially ubiquitinated proteins between LsoA-infected and Lso-free infested plants. Additionally, a KEGG pathway analysis determined an overrepresentation of proteins involved in carbon metabolism and fixation via the Calvin cycle. In contrast, the comparison of LsoB-infected and Lso-free infested plants revealed a broader range of enriched GO terms and KEGG pathways, including those associated with carbohydrate and energy metabolism, proteasome activity, and oxidative stress. These results contribute to our understanding of the development of Liberibacter-related diseases and reveal the importance of ubiquitin-related pathways in Lso infection. They also contribute to the expanding inventory of ubiquitinated proteins.\n                  \u003c/jats:p\u003e","long_citation_html":"Levy et al. (2026). Tomato ubiquitinome in response to ‘Candidatus Liberibacter solanacearum’ haplotypes A and B. \n\u003ci\u003eCrop Health\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1007/s44297-026-00075-6\" target=\"_blank\"\u003eDOI:10.1007/s44297-026-00075-6\u003c/a\u003e\n","created_at":"2026-05-12T00:00:21.012Z","updated_at":"2026-05-15T00:00:11.540Z","authors":[{"id":4705,"given":"Julien G.","family":"Levy","created_at":"2019-04-15T19:27:48.949Z","updated_at":"2019-04-15T19:27:48.949Z","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":4559,"citation":"Boyer et al., 2026, Phytopathology Research","doi":"10.1186/s42483-026-00427-8","url":"https://api.seqco.de/v1/publications/4559.json"},{"id":4537,"citation":"Peterse et al., 2026, mBio","doi":"10.1128/mbio.02975-25","url":"https://api.seqco.de/v1/publications/4537.json"},{"id":4558,"citation":"Levy et al., 2026, 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Agronomy","doi":"10.3390/agronomy16090936","url":"https://api.seqco.de/v1/publications/4553.json"},{"id":4551,"citation":"Płecha et al., 2026, ","doi":"10.3897/imafungus.17.177891.figure8","url":"https://api.seqco.de/v1/publications/4551.json"},{"id":4548,"citation":"Hagenbeek et al., 2026, BMC Genomics","doi":"10.1186/s12864-026-12881-x","url":"https://api.seqco.de/v1/publications/4548.json"},{"id":4549,"citation":"Atta et al., 2026, Journal of Citrus Pathology","doi":"10.5070/c4.41452","url":"https://api.seqco.de/v1/publications/4549.json"}],"url":"https://api.seqco.de/v1/authors/811.json"}],"names":[{"id":34,"name":"Liberibacter solanacearum","url":"https://api.seqco.de/v1/names/34.json","uri":"https://seqco.de/i:34"}],"subjects":[]},{"id":4555,"citation":"Bharsakale et al., 2026, World Journal of Microbiology and Biotechnology","doi":"10.1007/s11274-026-04935-9","url":"https://api.seqco.de/v1/publications/4555.json","link_ext":"https://doi.org/10.1007/s11274-026-04935-9","title":"Draft genome sequence CR-NGP1 strain of ‘Candidatus Liberibacter asiaticus’ (CLas) from the host Citrus reticulata (Nagpur mandarin) from Central India","journal":"World Journal of Microbiology and Biotechnology","journal_loc":"42 (6)","journal_date":"2026-05-08","pub_type":"journal-article","abstract":null,"long_citation_html":"Bharsakale et al. (2026). Draft genome sequence CR-NGP1 strain of ‘Candidatus Liberibacter asiaticus’ (CLas) from the host Citrus reticulata (Nagpur mandarin) from Central India. \n\u003ci\u003eWorld Journal of Microbiology and Biotechnology\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1007/s11274-026-04935-9\" target=\"_blank\"\u003eDOI:10.1007/s11274-026-04935-9\u003c/a\u003e\n","created_at":"2026-05-09T00:00:17.266Z","updated_at":"2026-05-15T00:00:11.504Z","authors":[{"id":16944,"given":"Rushikesh D.","family":"Bharsakale","created_at":"2025-10-25T00:00:26.871Z","updated_at":"2025-10-25T00:00:26.871Z","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":4559,"citation":"Boyer et al., 2026, Phytopathology Research","doi":"10.1186/s42483-026-00427-8","url":"https://api.seqco.de/v1/publications/4559.json"},{"id":4537,"citation":"Peterse et al., 2026, 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asiaticus","url":"https://api.seqco.de/v1/names/1.json","uri":"https://seqco.de/i:1"}],"subjects":[]},{"id":4553,"citation":"Jarausch et al., 2026, Agronomy","doi":"10.3390/agronomy16090936","url":"https://api.seqco.de/v1/publications/4553.json","link_ext":"https://doi.org/10.3390/agronomy16090936","title":"Genetic Diversity of ‘Candidatus Phytoplasma solani’ in Plant Hosts and Insect Vectors in Winegrowing Regions in Germany","journal":"Agronomy","journal_loc":"16 (9)","journal_date":"2026-05-05","pub_type":"journal-article","abstract":"\u003cjats:p\u003eThe bois noir (BN) disease of grapevines is widespread in German winegrowing regions. It is associated with ‘Candidatus Phytoplasma solani’, which affects not only grapevines but also other wild and cultivated plants. This pathogen has a complex epidemiology including different insect vectors and various host plants. A study was carried out to investigate the genetic variability of ‘Ca. P. solani’ in different winegrowing regions in Germany. Between 2017 and 2023, samples of grapevine, stinging nettle, bindweed, and other herbaceous plants as well as specimens of different planthopper species colonizing viticultural habitats were analyzed for infection with ‘Ca. P. solani’. All positive tested samples were further characterized by multilocus sequence typing (MLST) based on the genes tuf, stamp, secY, and vmp1. The genetic variability was assessed by RFLP analyses of the tuf and vmp1 PCR products, coupled with sequencing of the stamp and secY amplification products. A total of 1274 grapevines, 35 bindweed, and 18 stinging nettle samples were infected with ‘Ca. P. solani’ but also five samples of other weed species. Among the known and putative insect vectors, specimens of Hyalesthes obsoletus, Reptalus spp., and Dictyophara europaea harbored the phytoplasma. In both plants and insects, two genotype combinations were predominantly associated with the classical bindweed and stinging nettle cycle, respectively. The MLST analysis revealed considerable differences between German isolates and data reported from other European regions and new genotype combinations were identified, indicating new host plant–vector associations.\u003c/jats:p\u003e","long_citation_html":"Jarausch et al. (2026). Genetic Diversity of ‘Candidatus Phytoplasma solani’ in Plant Hosts and Insect Vectors in Winegrowing Regions in Germany. \n\u003ci\u003eAgronomy\u003c/i\u003e. \u003ca href=\"https://doi.org/10.3390/agronomy16090936\" target=\"_blank\"\u003eDOI:10.3390/agronomy16090936\u003c/a\u003e\n","created_at":"2026-05-06T00:00:16.197Z","updated_at":"2026-05-15T00:00:11.431Z","authors":[{"id":1870,"given":"Barbara","family":"Jarausch","created_at":"2019-04-15T18:46:57.108Z","updated_at":"2019-04-15T18:46:57.108Z","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":4559,"citation":"Boyer et al., 2026, Phytopathology Research","doi":"10.1186/s42483-026-00427-8","url":"https://api.seqco.de/v1/publications/4559.json"},{"id":4537,"citation":"Peterse et al., 2026, 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(2026). Genome-resolved metagenomics reveals unexpected diversity and host range of Candidatus Lariskella (Rickettsiales: Midichloriaceae). \n\u003ci\u003eBMC Genomics\u003c/i\u003e. \u003ca href=\"https://doi.org/10.1186/s12864-026-12881-x\" target=\"_blank\"\u003eDOI:10.1186/s12864-026-12881-x\u003c/a\u003e\n","created_at":"2026-05-05T00:00:12.161Z","updated_at":"2026-05-15T00:00:11.220Z","authors":[{"id":18517,"given":"Arno","family":"Hagenbeek","created_at":"2026-05-05T00:00:12.168Z","updated_at":"2026-05-05T00:00:12.168Z","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":4559,"citation":"Boyer et al., 2026, Phytopathology Research","doi":"10.1186/s42483-026-00427-8","url":"https://api.seqco.de/v1/publications/4559.json"},{"id":4537,"citation":"Peterse et al., 2026, 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Lariskella","url":"https://api.seqco.de/v1/names/23820.json","uri":"https://seqco.de/i:23820"}],"subjects":[]},{"id":4549,"citation":"Atta et al., 2026, Journal of Citrus Pathology","doi":"10.5070/c4.41452","url":"https://api.seqco.de/v1/publications/4549.json","link_ext":"https://doi.org/10.5070/c4.41452","title":"Update on ‘Candidatus Liberibacter asiaticus’ incidence in five districts of the Punjab province of Pakistan","journal":"Journal of Citrus Pathology","journal_loc":"12 (1)","journal_date":"2026-05-02","pub_type":"journal-article","abstract":"\u003cp\u003e‘Candidatus Liberibacter asiaticus’ (CLas) is a devastating pathogen of citrus associated with Huanglongbing (HLB, citrus greening disease). HLB is economically significant in Asia and has destroyed millions of citrus trees worldwide during the last century. Since 2007, when the first molecular evidence for the presence of CLas in North-West Frontier Province of Pakistan (Khyber Pakhtunkhwa) were presented, there have been a limited number of studies reporting the pathogen in different citrus growing districts of the Punjab Province, one of the major citrus producing areas of the country. In this study, a small-scale survey was conducted in citrus groves exhibiting HLB-like symptoms in different districts of Punjab Province. The aim was to obtain current information on the incidence of CLas in the area and complement the previous studies. Conventional and real time quantitative polymerase chain reaction (PCR and qPCR) assays were used for the detection of CLas in the 94 samples tested, followed by sequencing of the PCR amplicons. Overall CLas was detected in 43% (40/94) of the tested samples from Kinnow mandarin (n= 22), sweet orange (n= 12), grapefruit (n= 3) and Feutrell’s early mandarin (n= 3). In agreement with previous reports, this survey confirmed the presence of HLB in the Punjab Province of Pakistan and provided updated molecular evidence for the presence of CLas and disease incidence for four citrus cultivars from five citrus growing districts of the province.\u003c/p\u003e","long_citation_html":"Atta et al. (2026). Update on ‘Candidatus Liberibacter asiaticus’ incidence in five districts of the Punjab province of Pakistan. \n\u003ci\u003eJournal of Citrus Pathology\u003c/i\u003e. \u003ca href=\"https://doi.org/10.5070/c4.41452\" target=\"_blank\"\u003eDOI:10.5070/c4.41452\u003c/a\u003e\n","created_at":"2026-05-06T00:00:14.296Z","updated_at":"2026-05-15T00:00:11.270Z","authors":[{"id":7261,"given":"Sagheer","family":"Atta","created_at":"2020-03-01T07:30:39.157Z","updated_at":"2020-03-01T07:30:39.157Z","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":4559,"citation":"Boyer et al., 2026, Phytopathology Research","doi":"10.1186/s42483-026-00427-8","url":"https://api.seqco.de/v1/publications/4559.json"},{"id":4537,"citation":"Peterse et al., 2026, mBio","doi":"10.1128/mbio.02975-25","url":"https://api.seqco.de/v1/publications/4537.json"},{"id":4558,"citation":"Levy et al., 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