Your search keyword '"NEMATODES"' showing total 17,865 results

1. Meloidogyne incognita genes involved in the repellent behavior in response to ascr#9.

Author

Rao, Zhongchen, Dai, Kang, Han, Richou, Xu, Chengti, and Cao, Li

Subjects

*PLANT nematodes, *PEPTIDES, *NEMATODES, *MUCINS, *GENETIC transduction

Abstract

Meloidogyne incognita is one of the globally serious plant parasitic nematodes. New control measure is urgently needed to replace the common chemical control method. Ascarosides are pheromones regulating the nematodes' aggregation, avoidance, mating, dispersal and dauer recovery and formation. Ascr#9, one of the ascarosides, exhibits the potential to repel M. incognita. However, the nematode genes involved in the perception of ascr# 9 signal are totally unknown. In this study, the transcriptome of ascr#9-treated second stage M. incognita juveniles (J2s) was analyzed, 44 pathways were significantly affected, multiple ligand-receptor and mucin type O-glycan were induced, and olfactory transduction was disturbed. A total of 11 highly differentially expressed genes involved in neuroactive ligand-receptor interaction and FMRFamide-like peptide related process were identified and knocked down by RNAi. The dispersal rates of M. incognita with three knocked-down genes (flp-14, mgl-1 and ADOR-1) significantly decreased, respectively, when ascr#9 was present. The results demonstrate that flp-14, mgl-1, and ADOR-1 are involved in the dispersal behavior of M. incognita nematodes responding to ascr#9, which promotes the interaction study between ascarosides and M. incognita, and provides new ideas for the prevention and control of M. incognita by using pheromone ascarosides. [ABSTRACT FROM AUTHOR]

Published

2024

2. Global analysis of neuropeptide receptor conservation across phylum Nematoda.

Author

Golinelli, Luca, Geens, Ellen, Irvine, Allister, McCoy, Ciaran J., Vandewyer, Elke, Atkinson, Louise E., Mousley, Angela, Temmerman, Liesbet, and Beets, Isabel

Subjects

*G protein coupled receptors, *PEPTIDES, *CAENORHABDITIS elegans, *LIGANDS (Biochemistry), *PROTEOMICS

Abstract

Background: The phylum Nematoda is incredibly diverse and includes many parasites of humans, livestock, and plants. Peptide-activated G protein-coupled receptors (GPCRs) are central to the regulation of physiology and numerous behaviors, and they represent appealing pharmacological targets for parasite control. Efforts are ongoing to characterize the functions and define the ligands of nematode GPCRs, with already most peptide GPCRs known or predicted in Caenorhabditis elegans. However, comparative analyses of peptide GPCR conservation between C. elegans and other nematode species are limited, and many nematode GPCRs remain orphan. A phylum-wide perspective on peptide GPCR profiles will benefit functional and applied studies of nematode peptide GPCRs. Results: We constructed a pan-phylum resource of C. elegans peptide GPCR orthologs in 125 nematode species using a semi-automated pipeline for analysis of predicted proteome datasets. The peptide GPCR profile varies between nematode species of different phylogenetic clades and multiple C. elegans peptide GPCRs have orthologs across the phylum Nematoda. We identified peptide ligands for two highly conserved orphan receptors, NPR-9 and NPR-16, that belong to the bilaterian galanin/allatostatin A (Gal/AstA) and somatostatin/allatostatin C (SST/AstC) receptor families. The AstA-like NLP-1 peptides activate NPR-9 in cultured cells and are cognate ligands of this receptor in vivo. In addition, we discovered an AstC-type peptide, NLP-99, that activates the AstC-type receptor NPR-16. In our pan-phylum resource, the phylum-wide representation of NPR-9 and NPR-16 resembles that of their cognate ligands more than those of allatostatin-like peptides that do not activate these receptors. Conclusions: The repertoire of C. elegans peptide GPCR orthologs varies across phylogenetic clades and several peptide GPCRs show broad conservation in the phylum Nematoda. Our work functionally characterizes the conserved receptors NPR-9 and NPR-16 as the respective GPCRs for the AstA-like NLP-1 peptides and the AstC-related peptide NLP-99. NLP-1 and NLP-99 are widely conserved in nematodes and their representation matches that of their receptor in most species. These findings demonstrate the conservation of a functional Gal/AstA and SST/AstC signaling system in nematodes. Our dataset of C. elegans peptide GPCR orthologs also lays a foundation for further functional studies of peptide GPCRs in the widely diverse nematode phylum. [ABSTRACT FROM AUTHOR]

Published

2024

3. Rapid and Direct Detection of the Stubby Root Nematode, Paratrichodorus allius, from Soil DNA Extracts Using Recombinase Polymerase Amplification Assay.

Author

Goraya, Mankanwal and Yan, Guiping

Subjects

*SOIL sampling, *RECOMBINASES, *NEMATODES, *DNA, *SOILS

Abstract

The stubby root nematode, Paratrichodorus allius, is one of the most important plant-parasitic nematodes. Besides root feeding, P. allius also transmits the Tobacco rattle virus in potatoes, which causes corky ringspot disease. Rapid detection of P. allius is key for efficient management. This study was conducted to develop a real-time recombinase polymerase amplification (RPA) assay that is capable of detecting P. allius directly in DNA extracts from soil using a simple portable device in real time. A fluorophore-attached probe was designed to target the internal transcribed spacer (ITS)-rDNA of P. allius and was used along with primers designed previously. The real-time RPA assay had the ability to detect P. allius DNA extracted directly from infested soil with a sensitivity of one-sixteenth portion of a single nematode. This RPA assay was specific, as it did not produce positive signals from non-target nematodes tested. The real-time RPA was found to be rapid as it could even detect P. allius in as little as 7 min. Testing with 15 field soil samples validated the RPA assay developed in this study. This is the first report of P. allius detection directly from soil DNA using real-time RPA and is the fastest method for P. allius detection in soil to date. [ABSTRACT FROM AUTHOR]

Published

2024

4. Adapting and optimizing GCaMP8f for use in Caenorhabditis elegans.

Author

Liu, Jun, Bonnard, Elsa, and Scholz, Monika

Subjects

*CALCIUM antagonists, *RESEARCH funding, *NEMATODES, *NEURONS, *DYNAMICS, *PLASMIDS, *NEURAL transmission, *MICE, *PHARYNGEAL muscles, *ANIMAL experimentation, *GENETICS

Abstract

Improved genetically encoded calcium indicators (GECIs) are essential for capturing intracellular dynamics of both muscle and neurons. A novel set of GECIs with ultrafast kinetics and high sensitivity was recently reported by Zhang et al. (2023). While these indicators, called jGCaMP8, were demonstrated to work in Drosophila and mice, data for Caenorhabditis elegans were not reported. Here, we present an optimized construct for C. elegans and use this to generate several strains expressing GCaMP8f (fast variant of the indicator). Utilizing the myo-2 promoter, we compare pharyngeal muscle activity measured with GCaMP7f and GCaMP8f and find that GCaMP8f is brighter upon binding to calcium, shows faster kinetics, and is not disruptive to the intrinsic contraction dynamics of the pharynx. Additionally, we validate its application for detecting neuronal activity in touch receptor neurons which reveals robust calcium transients even at small stimulus amplitudes. As such, we establish GCaMP8f as a potent tool for C. elegans research which is capable of extracting fast calcium dynamics at very low magnifications across multiple cell types. [ABSTRACT FROM AUTHOR]

Published

2024

5. SHC-3: a previously unidentified C. elegans Shc family member functions in the insulin-like signaling pathway to enhance survival during L1 arrest.

Author

Bernardo, Mercedes Di, Guerrero, Victoria L León, Sutoski, Jacob C, Hardy, William Rod, and MacNeil, Lesley T

Subjects

*CARRIER proteins, *RESEARCH funding, *NEMATODES, *INSULIN, *CELLULAR signal transduction, *CELL cycle, *GENES, *ANIMAL experimentation, *CAENORHABDITIS elegans, *GENETIC mutation, *PHYSIOLOGICAL stress

Abstract

Shc (Src homologous and collagen) proteins function in many different signaling pathways where they mediate phosphorylation-dependent protein–protein interactions. These proteins are characterized by the presence of two phosphotyrosine-binding domains, an N-terminal PTB and a C-terminal SH2. We describe a previously unrecognized Caenorhabditis elegans Shc gene, shc-3 and characterize its role in stress response. Both shc-3 and shc-1 are required for long-term survival in L1 arrest and survival in heat stress, however, they do not act redundantly but rather play distinct roles in these processes. Loss of shc-3 did not further decrease survival of daf-16 mutants in L1 arrest, suggesting that like SHC-1, SHC-3 functions in the insulin-like signaling pathway. In the absence of SHC-3, DAF-16 nuclear entry and exit are slowed, suggesting that SHC-3 is required for rapid changes in DAF-16 signaling. [ABSTRACT FROM AUTHOR]

Published

2024

6. Biochemical Defence of Plants against Parasitic Nematodes.

Author

Meresa, Birhanu Kahsay, Matthys, Jasper, and Kyndt, Tina

Subjects

PLANT nematodes, TRANSCRIPTION factors, MITOGEN-activated protein kinases, NEMATODE infections, RECEPTOR-like kinases

Abstract

Plant parasitic nematodes (PPNs), such as Meloidogyne spp., Heterodera spp. and Pratylenchus spp., are obligate parasites on a wide range of crops, causing significant agricultural production losses worldwide. These PPNs mainly feed on and within roots, impairing both the below-ground and the above-ground parts, resulting in reduced plant performance. Plants have developed a multi-component defence mechanism against diverse pathogens, including PPNs. Several natural molecules, ranging from cell wall components to secondary metabolites, have been found to protect plants from PPN attack by conferring nematode-specific resistance. Recent advances in omics analytical tools have encouraged researchers to shed light on nematode detection and the biochemical defence mechanisms of plants during nematode infection. Here, we discuss the recent progress on revealing the nematode-associated molecular patterns (NAMPs) and their receptors in plants. The biochemical defence responses of plants, comprising cell wall reinforcement; reactive oxygen species burst; receptor-like cytoplasmic kinases; mitogen-activated protein kinases; antioxidant activities; phytohormone biosynthesis and signalling; transcription factor activation; and the production of anti-PPN phytochemicals are also described. Finally, we also examine the role of epigenetics in regulating the transcriptional response to nematode attack. Understanding the plant defence mechanism against PPN attack is of paramount importance in developing new, effective and sustainable control strategies. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effect of Silver Nanoparticles and Vermicompost on the Control of Longidorus elongatus (De Man, 1876) in Miscanthus × Giganteus and Its Growth and Development.

Author

Skwiercz, Andrzej, Stefanovska, Tatyana, Zhukov, Olexander, Zapałowska, Anita, and Masłoń, Adam

Abstract

Miscanthus × giganteus biomass plays a crucial role in producing renewable energy and bio-based products, supporting global sustainability objectives. However, its introduction into the European Union has made it susceptible to the ectoparasitic needle nematode Longidorus spp., which are known vectors of severe viral diseases. The aim of the presented research was to assess the effectiveness of the following soil amendments: vermicompost from Eisenia fetida and silver nanoparticles (Ag-NPs) applied to the soil with Miscanthus plants following artificial inoculation of Longidorus elongatus. A two-year experiment was conducted at the National Institute of Horticulture Research in Skierniewice using concrete rings filled with medium sandy soil amended with 10% peat. Treatments included: control (no amendments), vermicompost (4 L of E. fetida vermicompost), and Ag-NPs (60 mg/L soil). Each treatment was replicated four times. Application of both vermicompost and Ag-NPs positively influenced soil parameters and crop yield while suppressing nematode populations. Significant reductions in L. elongatus density were observed: vermicompost reduced nematode population by 80% and Ag-NPs by 90% compared to the control (15%). [ABSTRACT FROM AUTHOR]

Published

2024

8. Repurposing methuosis-inducing anticancer drugs for anthelmintic therapy.

Author

Rajasekharan, Satish Kumar, Ravichandran, Vinothkannan, Boya, Bharath Reddy, Jayachandran, Anirudh, and Lee, Jintae

Subjects

*ANTINEOPLASTIC agents, *DRUG therapy, *SMALL molecules, *NEMATODES, *TOMBS, *ANTHELMINTICS

Abstract

Drug-resistant parasitic nematodes pose a grave threat to plants, animals, and humans. An innovative paradigm for treating parasitic nematodes is emphasized in this opinion. This approach relies on repurposing methuosis (a death characterized by accumulation of large vacuoles) inducing anticancer drugs as anthelmintics. We review drugs/chemicals that have shown to kill nematodes or cancerous cells by inducing multiple vacuoles that eventually coalesce and rupture. This perspective additionally offers a succinct summary on Structure–Activity Relationship (SAR) of methuosis-inducing small molecules. This strategy holds promise for the development of broad-spectrum anthelmintics, shedding light on shared molecular mechanisms between cancer and nematodes in response to these inducers, thereby potentially transforming both therapeutic domains. [ABSTRACT FROM AUTHOR]

Published

2024

9. Another new ring nematode, Xenocriconemella andreae sp. nov. (Nematoda, Criconematidae), from the Iberian Peninsula.

Author

Cantalapiedra-Navarrete, Carolina, Clavero-Camacho, Ilenia, Criado-Navarro, Inmaculada, Salazar-García, Rosana, García-Velázquez, Ana, Palomares-Rius, Juan E., Castillo, Pablo, and Archidona-Yuste, Antonio

Subjects

*BIOLOGICAL classification, *GENITALIA, *SEQUENCE analysis, *ANUS, *NEMATODES

Abstract

Nematode surveys in natural environments in the Iberian Peninsula detected three unidentified Xenocriconemella populations that closely resembled the X. macrodora-species complex, but utilization of integrative taxonomy confirmed that they comprised a new taxon described in this paper as X. andreae sp. nov. Only females were detected in the new species (considered parthenogenetic) and delineated with a bare body (274–353 µm); lip region with two annuli, continuous with body delineation; second lip annulus enclosed by the first one. Flexible and thin stylet (88.0–99.0 µm), representing 30.4–47.8% of total body length. The excretory pore is positioned 2–3 annuli posterior to the level of stylet knobs, at 101.5 (87–107) µm from the lip region. Female genital tract: monodelphic, prodelphic, large, and representing 34.4–52.4% of the body length; vagina slightly ventrally curved. The anus is located at (6–9) annuli from the rear end. Tail short, conoid, and blunt round terminus. Ribosomal and mitochondrial markers (D2-D3 expansion domains of 28S, ITS , partial 18S rRNA, and COI), as well as molecular phylogenetic analyses of sequences, confirmed this new taxon, and it was clearly delineated from X. macrodora and species within the species complex (X. costaricense, X. iberica, X. paraiberica, and X. pradense). [ABSTRACT FROM AUTHOR]

Published

2024

10.  Oleaxonchium olearum gen. et sp. nov. (Nematoda, Dorylaimida) associated with an olive grove in the southern Iberian Peninsula, and new insights into the evolutionary relationships within Belondiridae.

Author

Peña-Santiago, Reyes, García-Ruiz, Miriam, Ruiz-Cuenca, Alba N., and Abolafia, Joaquín

Subjects

*GENITALIA, *VULVA, *UTERUS, *MORPHOMETRICS, *NEMATODES

Abstract

A new belondirid, dorylaimid taxon, Oleaxonchium olearum gen. et sp. nov., collected from an olive grove in the Andalusia region of Spain, is characterised, including its morphological description, morphometrics, SEM study, and molecular (18S-, 28S-rDNA) analyses. The new genus displays a unique combination of traits that distinguishes it from its closest genera: a rectangular lip region with sclerotized margins when observed in lateral view and visibly hexagonal in face view under SEM; a comparatively long cheilostom with thickened walls at its anterior part; a short isthmus-like section separating both pharyngeal regions; a mono-opistho-ovarian didelphic female genital system without pars refringens vaginae; and a short and rounded tail. The new species is characterised by its 2.44–2.87 mm long body, lip region 7–7.5 µm wide, odontostyle 10–10.5 µm long, neck 723–973 µm long, pharyngeal expansion occupying 63–72% of the total neck length, female anterior genital branch 4–6% of body length, tripartite posterior uterus 1.9–2.6 body diameters long, with a short intermediate section bearing sclerotized elements, vulva (V = 58–61) a transverse slit, caudal region 29–35 µm long (c = 74–89, c' = 0.9–1.1), and male unknown. As derived from an integrative approach combining morphological and molecular data, the new genus is close to Metaxonchium, the polyphyly of Belondiridae is confirmed, and support is provided in favour of the monophyly of Axonchiinae. [ABSTRACT FROM AUTHOR]

Published

2024

11. Seasonal Survey on Common Parasitic Diseases in Dicentrarchus labrax, Dicentrarchus punctatus and Sparus aurata Collected From Lake Timsah, Egypt.

Author

Ibrahim, Haneen E., El-Lamie, Maather M., Sallam, Nahla H., and El-Sheshtawy, Hassnaa M.

Subjects

*MARINE fishes, *EUROPEAN seabass, *SPARUS aurata, *SPRING, *AUTUMN

Abstract

This study aimed to identify parasitic species infesting marine fish collected from Lake Timsah across different seasons. A total of 480 marine fish of varying species, weights, and lengths (160 Dicentrarchus labrax, 160 Dicentrarchus punctatus, and 160 Sparus aurata) were randomly collected seasonally from September 2020 to August 2021. Most examined fish showed no pathognomonic clinical abnormalities and appeared normal. However, some D. labrax exhibited hemorrhages on the mouth, operculum, around the eyes, and at the bases of their fins, along with abdominal distension and emaciation. Infested D. punctatus showed excessive mucus and a mosaic appearance of the gills. Infested S. aurata displayed no external clinical abnormalities, except for some hemorrhagic lesions and slight abdominal distension. The total prevalence of parasitic infestation among the examined fish was 57.91%. The highest infestation rate was observed in D. punctatus (74.38%), followed by D. labrax (71.25%) and S. aurata (28.13%). The isolated parasites included nematodes (Hysterothylacium aduncum, Anisakis simplex larvae, and Contracaecum spp. larvae), digeneans (Erilepturus hamate and Tangiopsis chinensis), crustacean parasites (Lernanathropus kroyeri, Caligus minimus), and isopods (Livoneca redmanii). The total parasitic infestation rate varied significantly across different seasons (P<0.001), with the highest rate in winter (81.6%), followed by spring (70.8%), autumn (55%), and summer (24%). Several factors, such as season, fish species, and differences in body weight and length, affect the infestation rates. [ABSTRACT FROM AUTHOR]

Published

2024

12. Unveiling Novel Insights in Helminth Proteomics: Advancements, Applications, and Implications for Parasitology and Beyond.

Author

Soleymani, Nooshinmehr, Sadr, Soheil, Santucciu, Cinzia, Dianaty, Shiva, Lotfalizadeh, Narges, Hajjafari, Ashkan, Heshmati, Fatemeh, and Borji, Hassan

Subjects

*HELMINTHS, *IMMUNE response, *PROTEOMICS, *DRUG target, *DRUG development

Abstract

Helminths have developed intricate mechanisms to survive and evade the host's immune responses. Hence, understanding the excretory-secretory products (ESPs) by helminths is crucial for developing control tools, including drug targets, vaccines, and potential therapies for inflammatory and metabolic disorders caused by them. Proteomics, the large-scale analysis of proteins, offers a powerful approach to unravel the complex proteomes of helminths and gain insights into their biology. Proteomics, as a science that delves into the functions of proteins, has the potential to revolutionize clinical therapies against parasitic infections that have developed anthelminthic resistance. Proteomic technologies lay a framework for accompanying genomic, reverse genetics, and pharmacokinetic approaches to provide more profound or broader coverage of the cellular mechanisms that underlie the response to anthelmintics. With the development of vaccines against helminth infections, proteomics has brought a major change to parasitology. The proteome of helminths can be analyzed comprehensively, revealing the complex network of proteins that enable parasite survival and pathogenicity. Furthermore, it reveals how parasites interact with hosts' immune systems. The current article reviews the latest advancements in helminth proteomics and highlights their valuable contributions to the search for anthelminthic vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

13. Morphologic and Molecular Identification of Human Ocular Infection Caused by Pelecitus Nematodes, Thailand.

Author

Rujkorakarn, Ploysai, Suvannachart, Pukkapol, Patamatamkul, Samadhi, Thanchomnang, Tongjit, Pramual, Pairot, Saijuntha, Weerachai, Wanchai Maleewong, and Shigehiko Uni

Subjects

*NEMATODE infections, *NEMATODES, *MEDICAL personnel, *INFECTION, *VULVA, *RECOMBINANT DNA, *FISH parasites, *HELMINTHS

Abstract

Nematodes of the Onchocercidae family, such as Pelecitus spp., are filarial parasites of medical and veterinary importance. Although infections are widely distributed among avian species, only 2 cases of human Pelecitus ocular infection, both in South America, have been reported. We describe a 61-year-old man in northeast Thailand diagnosed with an ocular infection. Morphologic characteristics suggested the causative agent was a female Pelecitus nematode: coiled body, rounded anterior and posterior extremities, a distinct preesophageal cuticular ring, lateral alae, a postdeirid, and a protuberant vulva. Sequences of the 12S rDNA gene indicated 95%–96% identity and cox1 gene 92%–96% identity with published P. copsychi sequences. P-distance for cox1 sequences between the causative agent and P. copsychi was 6.71%. Phylogenetic trees of 12S rDNA and cox1 genes indicated the species differed from but is closely associated with P. copsychi. Healthcare providers should be aware of the threat of ocular infection from Pelecitus spp. nematodes. [ABSTRACT FROM AUTHOR]

Published

2024

14. Molecular phylogenetical identification of bear roundworms (Baylisascaris transfuga) derived from wild Japanese black bears (Ursus thibetanus japonicus) around Lake Towada.

Author

Kodai KUSAKISAKO, Nanami KANEDA, Yuichi KAMIHARAKO, Asako HARAGUCHI, Jun HAKOZAKI, Kazuhiko NAKAYAMA, HASAN, Hajar, Sakure NAKAMURA, Junji SHINDO, and Hiromi IKADAI

Subjects

CYTOCHROME oxidase, ASIATIC black bear, BLACK bear, NEMATODES, BODY size

Abstract

The bear roundworm Baylisascaris transfuga has been identified in several host bears (Ursinae). However, limited genetic information is available on the bear roundworm in Japanese populations. This study evaluated the genetic composition of bear roundworms isolated from wild Japanese black bears indigenous to Lake Towada, Japan. First, we conducted genetic and/or molecular phylogenetic analyses based on cytochrome c oxidase subunit II and internal transcribed spacer 2 among Baylisascaris species. These analyses revealed that the identified roundworms were genetically B. transfuga. In addition, the average body size of the obtained roundworms in this study was almost the same as that previously reported for B. transfuga. This study represents an important step in genetic research on the roundworm B. transfuga in Ursinae bears not only from Japan but also from the rest of the world. [ABSTRACT FROM AUTHOR]

Published

2024

15. Morphological and molecular characterisation of the nematode parasite Graphidioides affinis (Secernentea: Trichostrongylidae) in Patagonian maras, Dolichotis patagonum, kept in a zoo in Sofia, Bulgaria.

Author

Panayotova-Pencheva, Mariana, Laskowski, Zdzisław, and Pyziel, Anna Maria

Subjects

PARASITIC diseases, NEMATODES, ALBENDAZOLE, ZOOS, SPECIES

Abstract

Patagonian maras, rodents endemic to South America, are classified as a near-threatened species. Various factors affect their health including parasitic diseases. The aim of this study was to perform morphometric, molecular and phylogenetic characterisation of one such parasitic disease agent, the nematode Graphidioides affinis, specimens of which were found in captive Patagonian maras. In March 2023, 18 Patagonian maras kept at the Sofia Zoo in Bulgaria were investigated with the use of coprological methods. Following the investigation, the animals were dewormed with the use of albendazole. Dead adult nematodes found in the faeces of dewormed maras were collected and preserved in 70% ethanol, and morphometrically, molecularly and phylogenetically analysed. The morphometric analyses confirmed the nematodes to be Graphidioides affinis. The partial nucleotide sequences of the small subunit ribosomal rDNA (SSU), the internal transcribe spacer 2 (ITS2) and the large subunit ribosomal DNA (LSU) of G. affinis were obtained. These are the first available nucleotide sequences of this parasite. The phylogenetic analyses of the species showed its distinctiveness in comparison to other gastrointestinal nematodes, as it was grouped separately. The Patagonian maras kept in a European zoo retained their original parasitofauna which are related to South America. [ABSTRACT FROM AUTHOR]

Published

2024

16. Current Status of the Diagnosis of Brugia spp. Infections.

Author

Evans, Christopher C., Pilotte, Nils, and Moorhead, Andrew R.

Subjects

NUCLEIC acid amplification techniques, RESOURCE-limited settings, VETERINARY medicine, MOLECULAR diagnosis, NEMATODES

Abstract

Filarial nematodes of the genus Brugia include parasites that are significant to both human and veterinary medicine. Accurate diagnosis is essential for managing infections by these parasites and supporting elimination programs. Traditional diagnostic methods, such as microscopy and serology, remain vital, especially in resource-limited settings. However, advancements in molecular diagnostics, including nucleic acid amplification tests, offer enhanced sensitivity and specificity. These techniques are becoming increasingly field-friendly, expanding their applications in diagnostics. By refining existing methods, developing novel biomarkers, and understanding the zoonotic potential of various Brugia species, it is possible to improve control measures and better support elimination efforts. [ABSTRACT FROM AUTHOR]

Published

2024

17. A search for tomato disease resistance genes using molecular markers to create new genotypes

Author

I. N. Shamshin, A. S. Ilyichev, M. G. Fomicheva, and E. V. Grosheva

Subjects

marker-assisted selection, dna marker, nematodes, tomato bronzing virus, phytophthora infestans, Biotechnology, TP248.13-248.65

Abstract

Background. The creation of tomato cultivars and hybrids with a complex of resistance genes is the main task of a breeder. This process can be accelerated through the use of molecular markers at the stages of initial forms selection and the offspring analysis. There is a large amount of information in the literature about DNA markers of resistance genes. Their significant part was recommended for the use in marker-assisted breeding. The purpose of our work was to screen a collection of tomato varieties and hybrids using molecular markers of genes for resistance to the most common diseases of open-ground tomato (late blight, root nematodes, tomato bronzing virus (TSWV)) and to identify gene sources for breeding work. The following markers were selected for research: Sw-5-2 (Sw-5b gene of resistance to TSWV), Mi23 (Mi1.2 gene of resistance to the root-knot nematode), 2 markers NC-LB-9-78 and NC-LB-9-79 (late blight resistance gene Ph-3). During the work, a collection of 46 accessions of tomato cultivars and hybrids was analyzed. Results. The molecular genetic analysis has yielded clear, reproducible fragments that corresponded to the expected ones. All the used markers were codominant. Analysis of the studied collection accessions found the analyzed genes to be polymorphic. The cultivars and hybrids F1 of tomato identified as promising for the use in breeding have resistance to root nematodes (F1 hybrids: A-01, ‘Imitator’, ‘Manon’, cultivars ‘Elegiya’ and ‘Buoy-Tur’), to tomato spotted wilt virus (TSWV) (F1 hybrids: A-01, ‘Manon’ and cultivar ‘Buoy-Tur’), and also to late blight (hybrids F1: А-01, ‘Azhur’, ‘Barin’, ‘Vlastelin stepej’, ‘Zhirdyaj’, Luchshij SeDeK, ‘Manon’ and cultivars: ‘Buoy-Tur’, ‘Zefir v shokolade’, ‘Zolotaya kaplya’, ‘Krasavec’, ‘Lodochka’, ‘Metelitsa’, ‘Alice's Dream’, ‘Sibirskij tigr’, ‘Slavyanskij shedevr’, ‘Elegiya’). It is advisable to use these accessions as sources of resistance genes. Based on the obtained data, five initial forms were selected for breeding and assessed for the intracultivar polymorphism of the studied genes. Cultivars ‘Krasavec’ and ‘Sibirskij tigr’ were used as parent forms. Their hybridization was carried out and hybrid forms homozygous for the dominant allele of the Ph-3 gene were obtained. Conclusions. The use of molecular markers in the conducted study allowed screening the collection of tomato varieties and hybrids for the presence of resistance genes to the most common diseases. Based on the obtained data, parental pairs were selected, hybridization carried out, and hybrid forms with the late blight resistance gene obtained.

Published

2024

18. Global analysis of neuropeptide receptor conservation across phylum Nematoda

Author

Luca Golinelli, Ellen Geens, Allister Irvine, Ciaran J. McCoy, Elke Vandewyer, Louise E. Atkinson, Angela Mousley, Liesbet Temmerman, and Isabel Beets

Subjects

Neuropeptide, Peptide GPCR, Phylogenetics, Nematodes, C. elegans, Biology (General), QH301-705.5

Abstract

Abstract Background The phylum Nematoda is incredibly diverse and includes many parasites of humans, livestock, and plants. Peptide-activated G protein-coupled receptors (GPCRs) are central to the regulation of physiology and numerous behaviors, and they represent appealing pharmacological targets for parasite control. Efforts are ongoing to characterize the functions and define the ligands of nematode GPCRs, with already most peptide GPCRs known or predicted in Caenorhabditis elegans. However, comparative analyses of peptide GPCR conservation between C. elegans and other nematode species are limited, and many nematode GPCRs remain orphan. A phylum-wide perspective on peptide GPCR profiles will benefit functional and applied studies of nematode peptide GPCRs. Results We constructed a pan-phylum resource of C. elegans peptide GPCR orthologs in 125 nematode species using a semi-automated pipeline for analysis of predicted proteome datasets. The peptide GPCR profile varies between nematode species of different phylogenetic clades and multiple C. elegans peptide GPCRs have orthologs across the phylum Nematoda. We identified peptide ligands for two highly conserved orphan receptors, NPR-9 and NPR-16, that belong to the bilaterian galanin/allatostatin A (Gal/AstA) and somatostatin/allatostatin C (SST/AstC) receptor families. The AstA-like NLP-1 peptides activate NPR-9 in cultured cells and are cognate ligands of this receptor in vivo. In addition, we discovered an AstC-type peptide, NLP-99, that activates the AstC-type receptor NPR-16. In our pan-phylum resource, the phylum-wide representation of NPR-9 and NPR-16 resembles that of their cognate ligands more than those of allatostatin-like peptides that do not activate these receptors. Conclusions The repertoire of C. elegans peptide GPCR orthologs varies across phylogenetic clades and several peptide GPCRs show broad conservation in the phylum Nematoda. Our work functionally characterizes the conserved receptors NPR-9 and NPR-16 as the respective GPCRs for the AstA-like NLP-1 peptides and the AstC-related peptide NLP-99. NLP-1 and NLP-99 are widely conserved in nematodes and their representation matches that of their receptor in most species. These findings demonstrate the conservation of a functional Gal/AstA and SST/AstC signaling system in nematodes. Our dataset of C. elegans peptide GPCR orthologs also lays a foundation for further functional studies of peptide GPCRs in the widely diverse nematode phylum.

Published

2024

19. Unveiling Novel Insights in Helminth Proteomics: Advancements, Applications, and Implications for Parasitology and Beyond

Author

Nooshinmehr Soleymani, Soheil Sadr, Cinzia Santucciu, Shiva Dianaty, Narges Lotfalizadeh, Ashkan Hajjafari, Fatemeh Heshmati, and Hassan Borji

Subjects

helminths, parasites, proteomics, vaccine, cestodes, nematodes, Biology (General), QH301-705.5

Abstract

Helminths have developed intricate mechanisms to survive and evade the host’s immune responses. Hence, understanding the excretory-secretory products (ESPs) by helminths is crucial for developing control tools, including drug targets, vaccines, and potential therapies for inflammatory and metabolic disorders caused by them. Proteomics, the large-scale analysis of proteins, offers a powerful approach to unravel the complex proteomes of helminths and gain insights into their biology. Proteomics, as a science that delves into the functions of proteins, has the potential to revolutionize clinical therapies against parasitic infections that have developed anthelminthic resistance. Proteomic technologies lay a framework for accompanying genomic, reverse genetics, and pharmacokinetic approaches to provide more profound or broader coverage of the cellular mechanisms that underlie the response to anthelmintics. With the development of vaccines against helminth infections, proteomics has brought a major change to parasitology. The proteome of helminths can be analyzed comprehensively, revealing the complex network of proteins that enable parasite survival and pathogenicity. Furthermore, it reveals how parasites interact with hosts’ immune systems. The current article reviews the latest advancements in helminth proteomics and highlights their valuable contributions to the search for anthelminthic vaccines.

Published

2024

20. Therapeutic efficacy of a three-component anthelmintic drug against cestodosis and nematodosis of small domestic animals

Author

T. S. Filatova

Subjects

dogs, cats, nematodes, cestodes, oxantel, pyrantel, praziquantel, efficacy, Biology (General), QH301-705.5

Abstract

The purpose of the study therapeutic efficacy of combined anthelmintic drug on dogs and cats of different age groups naturally infected with cestodes and nematodes.Materials and methods. The study drug in the suspension form contains oxantel pamoate, pyrantel pamoate, praziquantel, and additives as active ingredients. The therapeutic efficacy of the drug was evaluated on 228 animals naturally infected with nematodes or cestodes in the Podolsk Experimental Production Base of the VNIIP – FSC VIEV. The animals were divided into experimental and control groups of 6 animals each. The experimental dogs and cats were administered the study drug while the control animals were not given the drug. Clinical examinations and laboratory tests of fecal samples were performed on days 10, 20 and 30 after the start of the experiment. The method of helminthoscopy was used to detect segments and helminthoovoscopy as per Fülleborn to detect helminth eggs/cocoons in animal fecal samples with their subsequent differentiation. The results were statistically processed by the Student method using Microsoft Excel 2016.Results and discussion. It was found that anthelmintic drug based on oxantel pamoate, pyrantel pamoate and praziquantel had high therapeutic efficacy against parasitism in dogs and cats of nematodes Toxocara spp., Toxascaris leonina, Trichuris vulpis, Uncinaria stenocephala, Ancylostoma spp. and cestodes Echinococcus spp. (except for cats), Mesocestoides spp., Taenia spp., Dipylidium caninum, and Diphyllobothrium latum. When the drug was used in the animals of different age groups, no side effects or complications were recorded.

Published

2024

21. Morphologic and Molecular Identification of Human Ocular Infection Caused by Pelecitus Nematodes, Thailand

Author

Ploysai Rujkorakarn, Pukkapol Suvannachart, Samadhi Patamatamkul, Tongjit Thanchomnang, Pairot Pramual, Weerachai Saijuntha, Wanchai Maleewong, and Shigehiko Uni

Subjects

ocular parasitosis, parasites, zoonoses, Pelecitus, nematodes, filariae, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Nematodes of the Onchocercidae family, such as Pelecitus spp., are filarial parasites of medical and veterinary importance. Although infections are widely distributed among avian species, only 2 cases of human Pelecitus ocular infection, both in South America, have been reported. We describe a 61-year-old man in northeast Thailand diagnosed with an ocular infection. Morphologic characteristics suggested the causative agent was a female Pelecitus nematode: coiled body, rounded anterior and posterior extremities, a distinct preesophageal cuticular ring, lateral alae, a postdeirid, and a protuberant vulva. Sequences of the 12S rDNA gene indicated 95%–96% identity and cox1 gene 92%–96% identity with published P. copsychi sequences. P-distance for cox1 sequences between the causative agent and P. copsychi was 6.71%. Phylogenetic trees of 12S rDNA and cox1 genes indicated the species differed from but is closely associated with P. copsychi. Healthcare providers should be aware of the threat of ocular infection from Pelecitus spp. nematodes.

Published

2024

22. Using google trends to estimate the geographic distribution of soil-transmitted helminthiasis in the United States from 2016 to 2021

Author

Adams, Steven H, Endy, Timothy P, and Larsen, David A

Published

2023

23. Seroprevalence of strongyloides stercoralis in patients about to receive immunosuppressive treatment in Gran Canaria (Spain)

Author

Carranza-Rodriguez, Cristina, Lopez-Delgado, Laura, Granados-Magan, Alvaro, and Perez-Arellano, Jose-Luis

Published

2023

24. Genome sequences of key bacterial symbionts of entomopathogenic nematodes: Xenorhabdus cabanillasii DSM17905, Xenorhabdus ehlersii DSM16337, Xenorhabdus japonica DSM16522, Xenorhabdus koppenhoeferii DSM18168, and Xenorhabdus mauleonii DSM17908.

Author

Robertson, Raegan, Conrad, Katie, Ahuja, Baarik, Göker, Markus, Hahnke, Richard, Spunde, Alex, Ivanova, Natalia, Seshadri, Rekha, and Stephens, Craig

Subjects

Xenorhabdus, entomopathogen, nematodes, secondary metabolism

Abstract

Xenorhabdus species are bacterial symbionts of entomopathogenic Steinernema nematodes, in which they produce diverse secondary metabolites implicated in pathogenesis. To expand resources for natural product prospecting and exploration of host-symbiont-pathogen relationships, the genomes of Xenorhabdus cabanillasi, Xenorhabdus ehlersii, Xenorhabdus japonica, Xenorhabdus koppenhoeferii, and Xenorhabdus mauleonii were analyzed.

Published

2023

25. Inference of essential genes in Brugia malayi and Onchocerca volvulus by machine learning and the implications for discovering new interventions

Author

Túlio L. Campos, Pasi K. Korhonen, Neil D. Young, Bill C.H. Chang, and Robin B. Gasser

Subjects

Essential genes, Machine learning, Brugia malayi, Onchocerca volvulus, Filarioid, Nematodes, Biotechnology, TP248.13-248.65

Abstract

Detailed explorations of the model organisms Caenorhabditis elegans (elegant worm) and Drosophila melanogaster (vinegar fly) have substantially improved our knowledge and understanding of biological processes and pathways in metazoan organisms. Extensive functional genomic and multi-omic data sets have enabled the discovery and characterisation of ‘essential’ genes that are critical for the survival of these organisms. Recently, we showed that a machine learning (ML)-based pipeline could be utilised to predict essential genes in both C. elegans and D. melanogaster using features from DNA, RNA, protein and/or cellular data or associated information. As these distantly-related species are within the Ecdysozoa, we hypothesised that this approach could be suited for non-model organisms within the same group (phylum) of protostome animals. In the present investigation, we cross-predicted essential genes within the phylum Nematoda – between C. elegans and the parasitic filarial nematodes Brugia malayi and Onchocerca volvulus, and then ranked and prioritised these genes. Highly ranked genes were linked to key biological pathways or processes, such as ribosome biogenesis, translation and RNA processing, and were expressed at relatively high levels in the germline, gonad, hypodermis and/or nerves. The present in silico workflow is hoped to expedite the identification of drug targets in parasitic organisms for subsequent experimental validation in the laboratory.

Published

2024

26. PRELIMINARY DATA ON NEMATODE INFECTIONS IN GUINEA PIGS IN THE PROVINCE OF CAJABAMBA (CAJAMARCA, PERU).

Author

TACILLA, K., ROJAS-MONCADA, J., TORREL, T., QUISPE, W., and VARGAS-ROCHA, L.

Subjects

*GUINEA pigs, *NEMATODE infections, *NEMATODES, *WHIPWORMS, *SUGAR

Abstract

In the absence of local studies, the current study was conducted in four villages located in the province of Cajabamba (Cajamarca, Peru) to demonstrate and determine the point prevalence of enteric nematodes in guinea pigs (Cavia porcellus) raised in a family-commercial breeding system. A total of 384 faecal samples were collected from guinea pigs and processed using the Sheather Sugar method. The eggs of P. uncinata, Trichuris spp., and Capillaria spp. were identified in guinea pigs from all four villages, resulting in an overall prevalence of 66.15±4.73%. Among the villages, the highest prevalence was observed in Naranjos, with a prevalence of 78.16±8.68% (68 out of 87 guinea pigs). This was followed by Malcas with a prevalence of 67.24±8.54% (78 out of 116 guinea pigs), Ogosgón-Paucamonte with a prevalence of 64.08±9.27% (66 out of 103 guinea pigs), and La Esperanza with a prevalence of 53.85±11.06% (42 out of 78 guinea pigs). Furthermore, it was found that 66.54±5.80% of guinea pigs had a single nematode, 28.35±5.54% had two nematodes, and 5.12±2.71% had three nematodes. Thus, the presence of enteric nematodes in guinea pigs raised in a family-commercial breeding system from four villages in the Cajabamba district was established. [ABSTRACT FROM AUTHOR]

Published

2024

27. Comparative efficacy of Levamisole, Mebendalzole and Pyrantel Pamoate against common intestinal nematodes among children in Calabar, South-South Nigeria

Author

Oringanje C, Ekenjoku AJ, and Meremikwu MM

Subjects

anthelminthic, nematodes, children, nigeria, Medicine

Abstract

Introduction: Continued endemicity of intestinal nematodes infestation in children in our environment despite availability of potent and safe anthelmintic drugs is of public health interest. Objective: This study assessed the comparative efficacy of selected anthelmintic drugs namely Mebendazole, pyrantel pamoate and levamisole-against common intestinal nematodes namely Ascaris lumbricoides, Hookworm (Ancylostoma duodenale and Necator amer icanus) and Trichuris trichuria in children in Calabar Municipality, South- South Nigeria Method: One hundred and thirty eight pupils from four primary schools in Ikot Ishie/Ikot Ansa communities of Calabar with worm infestation (Ascaris, hookworm and Trichuris including mixed infestation) were randomized by simple balloting to one of the following anthelmintic drugs (Mebendazole 500mg, Pyrantel 10mg/kg or Levamisole 2.5mg/ kg). The efficacy of the drugs was determined by the level of clearance of worm egg/ova from fresh stool samples of the pupils on post-treatment examination. Result: The study showed the three anthelmintic drugs displaying one hundred percent (100%) efficacy in respect of Ascaris and trichuris worms, but less so for hookworm. Mebendazole displayed 90.48%, Pyrantel 45.16%) and Levamisole (17.86%) efficacy level against hookworm. Conclusion: The overall result indicates that Mebendazole was the most efficacious agent against the three common intestinal worms.

Published

2024

28. High rates of benzimidazole-resistance-associated alleles in Haemonchus contortus and detection of resistance against macrocyclic lactones in strongylids from German alpaca herds

Author

Barbara Hinney, Sandra Wiedermann, Xenia Vaneev, Katharina Muhm, Anja Joachim, and Thomas Wittek

Subjects

Anthelmintic efficacy, Anthelmintic resistance, Nematodes, dPCR, Benzimidazoles, Moxidectin, Infectious and parasitic diseases, RC109-216

Abstract

Abstract The population of South American camelids (SAC) has been steadily growing in Europe, where they are confronted with the regional endoparasite population of ruminants. As there are no anthelmintic drugs registered for use against nematode infections in SACs, anthelmintics (AH) available for ruminants or horses are usually applied. Reports indicating potential failures in administered AH are increasing. However, the generally low egg counts in SACs complicate the application of resistance tests in the field. The present study reports a follow-up study on SAC farms where anthelmintic resistance (AR) was suspected. The aims were (i) to repeat faecal egg count reduction tests (FECRTs) on potentially affected farms identified in a previous study with larger sample sizes, (ii) to verify suspected AR of Haemonchus contortus against benzimidazoles (BZ) by performing a single-nucleotide polymorphism (SNP) analysis using digital polymerase chain reaction (dPCR), and (iii) to apply the mini-FLOTAC technique for more reliable results at low egg counts in line with current recommendations. Seven farms (9–46 animals each) were examined by coproscopy, larval differentiation and SNP analysis. A FECRT was performed on six of these farms with moxidectin (three farms), monepantel (two farms) and ivermectin (one farm). The FEC was calculated according to the current World Association for the Advancement of Veterinary Parasitology (WAAVP) guidelines with the clinical protocol (a newly introduced variant of FECRT which can be used for smaller sample sizes and lower egg counts on the cost of sensitivity) and an expected efficacy of 99%. A high level (> 90%) of BZ-resistance-associated SNPs on codon 200 of H. contortus was observed on all farms. With the FECRT, resistance was demonstrated for ivermectin (74% FECR), while it remained inconclusive for one farm for moxidectin treatment. Sustained efficacy was demonstrated for the remaining treatments. This study showed an advanced level of BZ resistance in H. contortus of SACs and the development of AR against macrocyclic lactones on some farms. Thus, constant monitoring of AH treatment and sustainable worm control methods both need to be applied. Graphical Abstract

Published

2024

29. Cereal production in Africa: the threat of current plant pathogens in changing climate-a review

Author

Joshua Benjamin, David Olayinka Oyedokun, Emmanuel Victor Oziegbe, Joshua Oni, Emmanuel Boluwatife Ogundare, Godswill Ofuowoichoyama Ujah, and Aminat Adebayo

Subjects

Cereals, Fungi, Bacteria, Viruses, Nematodes, Sub-Saharan Africa, Agriculture (General), S1-972, Environmental sciences, GE1-350

Abstract

Abstract In Sub-Saharan Africa, cereals are threatened by stress-inducing microbial pathogens and parasites such as fungi, bacteria, viruses and nematodes leading to significant losses. Mycotoxin-producing fungi like Fusarium graminearum induce head blight disease causing 30–70% of yield losses in wheat. In comparison, Fusarium verticillioides accounts for ear rot diseases that account for 13–70% of maize yield losses in Sub-Saharan Africa. Outbreaks of the devastating rice blast pathogen Magnaporthe oryzae have caused up to 48% yield losses of rice in Kenya. The grey leaf spot fungus, C. zeina, gradually becomes a threat to maize production, causing a 65% yield loss in South Africa. Maize smut and ergot-causing pathogens, Sporisorium ehrenbergii and Claviceps africana, under mildly humid and cold climatic conditions, impact grain quality and market value. The maize streak virus predominantly ravages maize fields all over Sub-Saharan Africa causing 30–100% yield losses while the diseases caused by the bacterium Xanthomonas oryzae pv. oryzae has led to 10 to 50% yield losses in rice production. In Nigeria, nematode pathogens like Pratylenchus spp have been reported to cause yield losses of up to 27% in maize production. This review fundamentally discusses these cereal pathogens and their current and future impact in the face of climate change in Africa. We seriously emphasize the need for more simulation studies on each of these pathogens across Sub-Saharan Africa and their potential impact under current and future climate change scenarios.

Published

2024

30. Molecular detection of gene encodes a β-tubulin protein in Haemonchus contortus in sheep in Al-Qadisiyah province, Iraq

Author

Athraa N. Abed and Monyer A. Al-Fatlawi

Subjects

anthelmintic resistance, nematodes, strongylidae, stomach worm, Veterinary medicine, SF600-1100

Abstract

β-tubulin protein is essential to parasitic resistance against widely used anthelmintic drugs. Many world countries are facing major challenges due to the failure of anthelmintic drugs, due to resistance, to eliminate parasitic infection in different animals, mainly sheep. So, there is a significant need to increase research focusing on parasites' resistance components, especially β-tubulin. Accordingly, the present study was conducted to identify and examine the genetic evolution of the β-tubulin gene responsible for synthesizing the β-tubulin protein in Haemonchus contortus in sheep. Here, 250 slaughtered sheep were explored, and 21 nematodes were collected and utilized in microscopic (10 nematodes) by placing each worm on a glass slide and exploring it under a light microscope at 10X magnification. In addition, 11 nematodes were set for molecular (PCR and sequencing) methods. The microscopic detection demonstrated the identification of the worm. The results revealed the amplification of the gene region in 11 worms. The sequencing of the nematodes showed the identification of 10 isolates closely similar to isolates from Sweden, with a similarity rate of up to 98%. The study's data report the major presence of the β-tubulin gene, which might be responsible for the drug due to drug resistance, and reveal important information about the genetic evolution of this gene that presents critical data about drug resistance development in the current study isolates of Haemonchus contortus.

Published

2024

31. Wuchereria bancrofti Lymphatic Filariasis, Barrancabermeja, Colombia, 2023

Author

José A. Suárez, Jose A. Vargas-Soler, Laura Isabel Manosalva-Arciniegas, Stephanie Becerra-González, Angie L. Ramirez, Tatiana Cáceres, Nicolas Luna, Juan David Ramírez, and Alberto Paniz-Mondolfi

Subjects

Wuchereria bancrofti, Colombia, lymphatic filariasis, parasites, nematodes, mosquito-borne, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

We describe a recent case of lymphatic filariasis in Colombia caused by Wuchereria bancrofti nematodes. Our study combines clinical-epidemiologic findings with phylogenetic data. Resurgence of lymphatic filariasis may be linked to increasing urbanization trends and migration from previously endemic regions. Fieldwork can be a beneficial tool for screening and containing transmission.

Published

2024

32. Synthesis of Nano Sulfur/Chitosan-Copper Complex and Its Nematicidal Effect against Meloidogyne incognita In Vitro and on Coffee Pots

Author

Hong Nhung Nguyen, Phuoc Tho Tran, Nghiem Anh Tuan Le, Quoc Hien Nguyen, and Duy Du Bui

Subjects

chitosan, chitosan-copper complex, nano sulfur, nematodes, Plant culture, SB1-1110

Abstract

Sulfur is one of the inorganic elements used by plants to develop and produce phytoalexin to resist certain diseases. This study reported a method for preparing a material for plant disease resistance. Sulfur nanoparticles (SNPs) stabilized in the chitosan-Cu2+ (CS-Cu2+) complex were synthesized by hydrolysis of Na2S2O3 in an acidic medium. The obtained SNPs/CS-Cu2+ complex consisting of 0.32% S, 4% CS, and 0.7% Cu (w/v), contained SNPs with an average size of ~28 nm as measured by transmission electron microscopy images. The X-ray diffraction pattern of the SNPs/CS-Cu2+ complex showed that SNPs had orthorhombic crystal structures. Interaction between SNPs and the CS-Cu2+ complex was also investigated by ultraviolet-visible. Results in vitro nematicidal effect of materials against Meloidogyne incognita showed that SNPs/CS-Cu2+ complex was more effective in killing second-stage juveniles (J2) nematodes and inhibiting egg hatching than that of CS and CS-Cu2+ complex. The values of LC50 in killing J2 nematodes and EC50 in inhibiting egg hatching of SNPs/CS-Cu2+ complex were 75 and 51 mg/l, respectively. These values were lower than those of CS and the CS-Cu2+ complex. The test results on the nematicidal effect against M. incognita on coffee pots showed that the SNPs/CS-Cu2+ complex was 100% effective at a concentration of 150 mg/l. Therefore, the SNPs/CS-Cu2+ complex could be considered as a biochemical material with potential for agricultural applications to control root-knot nematodes.

Published

2024

33. Zoonotic Ancylostoma ceylanicum Infection in Coyotes from Guanacaste Conservation Area, Costa Rica, 2021

Author

Patsy A. Zendejas-Heredia, Joby Robleto-Quesada, Alberto Solano, Alicia Rojas, and Vito Colella

Subjects

hookworms, zoonoses, parasites, enteric infections, coyotes, nematodes, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Ancylostoma ceylanicum is the second most common hookworm infecting humans in the Asia-Pacific region. Recent reports suggest presence of the parasite in the Americas. We report A. ceylanicum infections in coyotes from the Guanacaste Conservation Area, Costa Rica. Our findings call for active surveillance in humans and animals.

Published

2024

34. Differential induction of defense genes in hexaploid wheat roots by the plant-parasitic nematodes Pratylenchus neglectus and P. thornei.

Author

Okubara, Patricia A., Sharpe, Richard M., Peetz, Amy B., Li, Xianran, and Zasada, Inga A.

Subjects

*GENE expression, *POLYMERASE chain reaction, *PRATYLENCHUS, *SPECIES, *NEMATODES

Abstract

Pratylenchus neglectus and P. thornei are among the most destructive root lesion nematodes of wheat in the Pacific Northwest, United States of America and throughout the world. The aim of this study was to determine whether both nematode species were similar in their ability to induce defense genes in roots of wheat genotype Scarlet, and whether a combination of both species induced a different pattern of gene induction than each species alone. The long-term aspect of the research was to identify nematode-inducible promoters for deploying defense genes in roots in breeding programs. The root transcriptomes of genotype Scarlet were obtained after a one-week infection period with each nematode species separately, or both species combined. Root defense gene expression was induced for all three treatments relative to the no-nematode control, but P. thornei affected expression to a greater extent compared to P. neglectus. The species combination induced the highest number of defense genes. This result was not predicted from nematode enumeration studies, in which P. thornei colonization was substantially lower than that of P. neglectus, and the nematode combination did not show a significant difference. Quantitative real time polymerase chain reaction (qRT-PCR) assays for Dehydrin2, Glucan endo-1,3-beta-glucosidase, 1-cys-Peroxiredoxin, Pathogenesis-related protein 1 and Late embryogenesis-abundant proteins 76 and group 3 authenticated the induction observed in the transcriptome data. In addition, a near-isogenic line of Scarlet harboring genetic resistance to fungal soilborne pathogens, called Scarlet-Rz1, showed similar or higher levels of defense gene expression compared to fungus-susceptible Scarlet in qRT-PCR assays. Finally, transcriptome expression patterns revealed nematode-inducible promoters that are responsive to both P. neglectus and P. thornei. [ABSTRACT FROM AUTHOR]

Published

2024

35. Network pharmacology-based mechanism analysis of dauricine on the alleviating Aβ-induced neurotoxicity in Caenorhabditis elegans.

Author

Zhang, Ranran, Huang, Xiaoyan, Zhou, Chunling, Zhang, Qian, Jia, Dongsheng, Xie, Xiaoliang, and Zhang, Ju

Subjects

SYNDROMES, COMPUTER-assisted molecular modeling, PROTEINS, ALZHEIMER'S disease, ALKALOIDS, NEUROTOXICOLOGY, AUTOPHAGY, RESEARCH funding, PHARMACEUTICAL chemistry, NEMATODES, IN vivo studies, DESCRIPTIVE statistics, CELLULAR signal transduction, PLANT extracts, GENE expression, EXPERIMENTAL design, PHENOLS, ANIMAL experimentation, METABOLISM, ISOQUINOLINE, AMYLOID beta-protein precursor

Abstract

Background: Dauricine (DAU), a benzyl tetrahydroisoquinoline alkaloid isolated from the root of Menispermum dauricum DC, exhibits promising anti-Alzheimer's disease (AD) effects, but its underlying mechanisms remain inadequately investigated. This paper aims to identify potential targets and molecular mechanisms of DAU in AD treatment. Methods: Network pharmacology and molecular docking simulation method were used to screen and focus core targets. Various transgenic Caenorhabditis elegans models were chosen to validate the anti-AD efficacy and mechanism of DAU. Results: There are 66 potential DAU-AD target intersections identified from 100 DAU and 3036 AD-related targets. Subsequent protein-protein interaction (PPI) network analysis identified 16 core targets of DAU for anti-AD. PIK3CA, AKT1 and mTOR were predicted to be the central targets with the best connectivity through the analysis of "compound-target-biological process-pathway network". Molecular docking revealed strong binding affinities between DAU and PIK3CA, AKT1, and mTOR. In vivo experiments demonstrated that DAU effectively reduced paralysis in AD nematodes caused by Aβ aggregation toxicity, downregulated expression of PIK3CA, AKT1, and mTOR homologues (age-1, akt-1, let-363), and upregulated expression of autophagy genes and the marker protein LGG-1. Simultaneously, DAU increased lysosomal content and enhanced degradation of the autophagy-related substrate protein P62. Thioflavin T（Th-T）staining experiment revealed that DAU decreased Aβ accumulation in AD nematodes. Further experiments also confirmed DAU's protein scavenging activity in polyglutamine (polyQ) aggregation nematodes. Conclusion: Collectively, the mechanism of DAU against AD may be related to the activation of the autophagy-lysosomal protein clearance pathway, which contributes to the decrease of Aβ aggregation and the restoration of protein homeostasis. [ABSTRACT FROM AUTHOR]

Published

2024

36. Caracterización de la comunidad de nematodos de suelo en cuatro sistemas productivos del sudeste bonaerense, Argentina.

Author

THOUGNON ISLAS, ANDREA J., CHAVES, ELISEO, CARMONA, DORA, SAN MARTINO, SILVINA, and MONDINO, EDUARDO A.

Subjects

*SOIL nematodes, *AGRICULTURE, *AGRICULTURAL productivity, *SOIL ecology, *LIVESTOCK productivity, *ANTHROPOGENIC soils

Abstract

This work evaluates the community of soil nematodes in agricultural and livestock environments with different intensity of land use in the southeast of the province of Buenos Aires. Nematodes were extracted from sites with different intensity of land use: corn (2 consecutive years of conventional tillage [LC]), potato (1 year of LC), soybean (direct seeding), and pastures (with grazing animals). 44 genera of nematodes belonging to 5 trophic groups were identified. The most abundant genera were Helicotylenchus, Pratylenchus and Cruznema. Significant differences were found in the structure of the nematode community between land uses. The total abundance and by trophic groups was higher in soybeans and pasture. Furthermore, in relation to the composition of the community of free-living nematodes (bacteriophages, frugivores, omnivores and predators), the sites with corn and soybeans presented a higher proportion of fungivores, while the sites with potatoes and grass showed a higher proportion of bacteriophages. In relation to phytophagous nematodes, the community associated with sites with greater agricultural disturbance (corn and potatoes) presented a different and less diverse assembly than those associated with sites with less disturbance (soybean and pasture). The nematological indices showed that the successional dynamics of the nematode communities were affected due to land use practices. This was confirmed through the analysis of the faunal profile, the majority of food chains, regardless of the type of land use, were affected by agronomic practices showing mature food webs. This work constitutes the first report on the composition of soil nematode communities in agricultural and livestock production fields in southeastern Buenos Aires, and contributes to understanding the ecology of soil nematode communities impacted by different anthropogenic practices. [ABSTRACT FROM AUTHOR]

Published

2024

37. Extracellular vesicles.

Author

Wang, Juan, Barr, Maureen M, and Wehman, Ann M

Subjects

*EXTRACELLULAR vesicles, *HEALTH status indicators, *PHENOMENOLOGICAL biology, *NEMATODES, *APOPTOSIS, *CELL physiology, *ELECTRON microscopy, *CELLULAR signal transduction, *METABOLITES, *ORGANELLES, *GENETIC testing

Abstract

Extracellular vesicles (EVs) encompass a diverse array of membrane-bound organelles released outside cells in response to developmental and physiological cell needs. EVs play important roles in remodeling the shape and content of differentiating cells and can rescue damaged cells from toxic or dysfunctional content. EVs can send signals and transfer metabolites between tissues and organisms to regulate development, respond to stress or tissue damage, or alter mating behaviors. While many EV functions have been uncovered by characterizing ex vivo EVs isolated from body fluids and cultured cells, research using the nematode Caenorhabditis elegans has provided insights into the in vivo functions, biogenesis, and uptake pathways. The C. elegans EV field has also developed methods to analyze endogenous EVs within the organismal context of development and adult physiology in free-living, behaving animals. In this review, we summarize major themes that have emerged for C. elegans EVs and their relevance to human health and disease. We also highlight the diversity of biogenesis mechanisms, locations, and functions of worm EVs and discuss open questions and unexplored topics tenable in C. elegans , given the nematode model is ideal for light and electron microscopy, genetic screens, genome engineering, and high-throughput omics. [ABSTRACT FROM AUTHOR]

Published

2024

38. The Caenorhabditis elegans cuticle and precuticle: a model for studying dynamic apical extracellular matrices in vivo.

Author

Sundaram, Meera V and Pujol, Nathalie

Subjects

*NANOSTRUCTURES, *EPITHELIAL cells, *NEMATODES, *CELL physiology, *EPIDERMIS, *ANIMAL behavior, *CAENORHABDITIS elegans, *EXTRACELLULAR matrix, *COLLAGEN, *NATURAL immunity, *PHYSIOLOGICAL stress, *MOLECULAR biology, *HELMINTHS, *ZONA pellucida

Abstract

Apical extracellular matrices (aECMs) coat the exposed surfaces of animal bodies to shape tissues, influence social interactions, and protect against pathogens and other environmental challenges. In the nematode Caenorhabditis elegans , collagenous cuticle and zona pellucida protein-rich precuticle aECMs alternately coat external epithelia across the molt cycle and play many important roles in the worm's development, behavior, and physiology. Both these types of aECMs contain many matrix proteins related to those in vertebrates, as well as some that are nematode-specific. Extensive differences observed among tissues and life stages demonstrate that aECMs are a major feature of epithelial cell identity. In addition to forming discrete layers, some cuticle components assemble into complex substructures such as ridges, furrows, and nanoscale pillars. The epidermis and cuticle are mechanically linked, allowing the epidermis to sense cuticle damage and induce protective innate immune and stress responses. The C. elegans model, with its optical transparency, facilitates the study of aECM cell biology and structure/function relationships and all the myriad ways by which aECM can influence an organism. [ABSTRACT FROM AUTHOR]

Published

2024

39. Effects of military training, warfare and civilian ammunition debris on the soil organisms: an ecotoxicological review.

Author

Rodríguez-Seijo, Andrés, Fernández-Calviño, David, Arias-Estévez, Manuel, and Arenas-Lago, Daniel

Subjects

*SOIL biology, *MILITARY education, *AMMUNITION, *MILITARY explosives, *SOIL pollution, *EXPLOSIVE volcanic eruptions

Abstract

Civilian and military activities are sources of water and soil contamination by inorganic and organic contaminants caused by shooting practices, warfare, and/or mechanized military training. Lead poisoning and contaminant bioaccumulation due to spent shots or other related military contaminants have been widely studied for mammals, birds, and plants. Although there are different papers on the impact on earthworms, information on micro and mesofauna (i.e., collembola, nematodes, etc.) is still scarce. Here, we review the published data regarding the impact of civilian and military shooting activities, including war-impacted areas, focusing on soil organisms, from microbial communities to the ecotoxicological effects on terrestrial organisms. One hundred eleven studies were considered where earthworms and enchytraeids were widely studied, especially under ecotoxicological assays with Pb and energetic-related compounds from military explosives. There is a lack of information on soil organism groups, such as mites, ants, or gastropods, which play important roles in soil function. Data from combined exposures (e.g., PTEs + TNT and PTEs + PAHs) is scarce since several studies focused on a single contaminant, usually Pb, when combined contaminants would be more realistic. Ecotoxicological assays should also cover other understudied ammunition elements, such as Bi, Cu, or W. [ABSTRACT FROM AUTHOR]

Published

2024

40. The influence of habitat heterogeneity on Nematoda communities in Posidonia oceanica meadows.

Author

García-Cobo, Marta, González-Casarrubios, Alberto, García-Gómez, Guillermo, Pardos, Fernando, and Sánchez, Nuria

Subjects

*POSIDONIA, *POSIDONIA oceanica, *NEMATODES, *MEADOWS, *HABITATS, *HETEROGENEITY, *GRASSLANDS

Abstract

Nematodes typically comprise the most abundant phylum in meiofaunal communities. We aim to characterize the specific ecological conditions that influence Nematoda communities in Posidonia oceanica grasslands focusing on three habitats: leaves, matte, and unvegetated adjacent sediment. We hypothesized that the constant flux of nutrients under the canopy would result in a higher concentration of metazoans compared to the unvegetated sediment outside; however, the hypothesis was not confirmed by the obtained results. The habitat heterogeneity played an important role in shaping the community, yielding a greater richness in the matte. The resource specificity of the leaves (microepiphytes) was also expected to shape the community by favoring nematodes capable of exploiting this resource (epistratum feeders with scraping-like structures), such as the family Chromadoridae that dominated this habitat. In addition, the high light exposure of the leaves explains the higher concentration of ocellated nematodes in this habitat. Organic carbon and nitrogen contents had an impact on the Nematoda community composition, meanwhile average grain size only affected the abundance of nematodes with elongated/filiform tails. [ABSTRACT FROM AUTHOR]

Published

2024

41. Confinement and semi confinement of lambs in an integrated production system: impacts on production performance, infection by gastrointestinal nematodes, and selected blood analytes.

Author

dos Santos Schmidt, Elizabeth Moreira, Fachiolli, Daniele Floriano, de Lima Meirelles, Paulo Roberto, de Soutello, Ricardo Velludo Gomes, Magalh Pariz, Cristiano ães, Michel de Castilhos, André, Talamini do Amarante, Alessandro Francisco, Alves de Almeida, Fabiana, Martins de Souza, Daniel, da Silva Barros, Juliana, and Costa, Ciniro

Subjects

*LAMBS, *NEMATODE infections, *NEMATODES, *WEIGHT gain, *BLOOD collection, *BLOOD proteins, *CELL size, *EOSINOPHILIA

Abstract

This trial evaluated the production performance, gastrointestinal nematode infection (GIN), and selected blood analytes, in Corriedale lambs during the finishing phase in an integrated crop-livestock system (ICLS) with 2 stocking rates. Fifty-two Corriedale lambs were divided into 4 groups: a semi confinement system with a low stocking rate (T1) for 70 days; a semi confinement system with a high stocking rate (T2) for 70 days; confinement for 28 days, followed by semi confinement with a low stocking rate (T3) for 42 days; and confinement for 28 days, followed by semi confinement with a high stocking rate (T4) for 42 days. Body weight, dry matter intake, blood collection, and faecal analysis of nematode eggs were performed for each animal. The stocking rates did not influence body weight gain for the semiconfined lambs (T1 and T2) or for the confined/semiconfined lambs (T3 and T4). All treatments had lower EPG counts at the end of the experimental period. The nematode genera identified during the experiment trial were Haemonchus and Trichostrongylus. There were no significant differences (P > 0.05) for packed cell volume, total plasma protein, and eosinophil means between treatments. These results suggested that the confinement followed by semi confinement in an ICLS, was an option for lamb production during the finishing phase which could be useful in reducing GIN without affecting the production performance. [ABSTRACT FROM AUTHOR]

Published

2024

42. Recent Data on Nematode Infestation of Anchovy (Engraulis encrasicolus) on the Romanian Black Sea Coast.

Author

Țoțoiu, Aurelia, Nenciu, Magda, and Niță, Victor

Subjects

ENGRAULIS encrasicolus, MARINE fishes, FISH populations, PARASITIC diseases, ABDOMEN, PELAGIC fishes

Abstract

Marine fish populations can be affected by various infectious and parasitic diseases. The species investigated during 2021–2023 along the Romanian coast was European anchovy [Engraulis encrasicolus (Linnaeus, 1758)], a small pelagic fish with both economic and ecological value. Four species of endoparasites (nematodes) were identified, namely: Hysterothylacium sp. Ward & Magath, 1917, Contracaecum sp. Railliet & Henry, 1912, Porrocaecum sp. Railet & Henry, 1912, and Anisakis sp. Dujardin, 1845. Nematode worms were found as larvae and infested the abdominal cavity, both in the free state and enclosed in internal organs. The parameters analyzed included abundance, prevalence, and average intensity. Abundance results indicated 14 parasites/fish in length classes ranging from 11–12 cm. A prevalence of 100% was reported in the anchovy population sampled from several stations. A high level of infestation intensity was recorded in 11 cm long specimens (15 nematode worms/host). In this study, the accumulation of nematode worms was observed in large mature specimens, with a negative impact on the host organism through the presence of internal lesions, slowing of growth rate, appetite reduction, and disturbance of the reproductive process. The potential risks to anchovy stock status, threats to human health, and control measures are also tackled. [ABSTRACT FROM AUTHOR]

Published

2024

43. GallOnt: An ontology for plant gall phenotypes.

Author

Deans, Andrew R, Nastasi, Louis Frank, and Davis, Charles

Subjects

GALLS (Botany), PHENOTYPES, NEMATODES, SPECIES distribution, SPECIES diversity, CLIMATE change

Abstract

Galls are novel plant structures that develop in response to select biotic stressors. These structures, extended phenotypes of the inducer, usually serve to protect and feed the inducer or its progeny. This life history strategy has evolved dozens of times, and tens of thousands of species — including many bacteria, fungi, nematodes, mites and insects — are capable of manipulating plants in this way. The variation in gall phenotypes is extraordinary across species but usually predictable for each species of inducer. We introduce here a new ontology, GallOnt, that facilitates consistent descriptions and the semantic representation of and reasoning over plant gall phenotype data. GallOnt was largely developed from ontologies in the Open Biological and Biomedical Ontology (OBO) Foundry and stands to connect plant gall phenotypes to knowledge derived from model plant systems, including genotype-phenotype and agricultural research. We also introduce the idea of a new gall data standard — Minimum Information for the Description of Galls (MIDG version 0.1) — as a starting point for discussions regarding cecidology best practices. [ABSTRACT FROM AUTHOR]

Published

2024

44. Floxuridine supports UPS independent of germline signaling and proteostasis regulators via involvement of detoxification in C. elegans.

Author

Dubey, Abhishek Anil, Sarkar, Anwesha, Milcz, Karolina, Szulc, Natalia A., Thapa, Pankaj, Piechota, Małgorzata, Serwa, Remigiusz A., and Pokrzywa, Wojciech

Subjects

*COLD adaptation, *GERM cells, *LOW temperatures, *NEMATODES, *CELL proliferation, *LONGEVITY

Abstract

The ubiquitin-proteasome system (UPS) is critical for maintaining proteostasis, influencing stress resilience, lifespan, and thermal adaptability in organisms. In Caenorhabditis elegans, specific proteasome subunits and activators, such as RPN-6, PBS-6, and PSME-3, are associated with heat resistance, survival at cold (4°C), and enhanced longevity at moderate temperatures (15°C). Previously linked to improving proteostasis, we investigated the impact of sterility-inducing floxuridine (FUdR) on UPS functionality under proteasome dysfunction and its potential to improve cold survival. Our findings reveal that FUdR significantly enhances UPS activity and resilience during proteasome inhibition or subunit deficiency, supporting worms' normal lifespan and adaptation to cold. Importantly, FUdR effect on UPS activity occurs independently of major proteostasis regulators and does not rely on the germ cells proliferation or spermatogenesis. Instead, FUdR activates a distinct detoxification pathway that supports UPS function, with GST-24 appearing to be one of the factors contributing to the enhanced activity of the UPS upon knockdown of the SKN-1-mediated proteasome surveillance pathway. Our study highlights FUdR unique role in the UPS modulation and its crucial contribution to enhancing survival under low-temperature stress, providing new insights into its mechanisms of action and potential therapeutic applications. Author summary: In our study, we investigate the ubiquitin-proteasome system (UPS) in Caenorhabditis elegans, a crucial cellular machinery for degrading and recycling misfolded or excess proteins. The efficiency of this system is vital for cell health, particularly under stress conditions such as cold. We found that floxuridine (FUdR), commonly used to induce sterility in nematodes, also triggers an alternative UPS-stimulating or UPS-relieving pathway. This supports worms' lifespan and ability to survive at low temperatures (4°C) despite proteasome deficiencies. This enhancement occurs independently of major proteostasis regulators and does not rely on reproductive pathways or conventional stress response mechanisms. Instead, FUdR activates a distinct detoxification pathway that can boost UPS activity, with GST-24 appearing to be one of the contributing factors. Our findings reveal a novel aspect of FUdR action, suggesting potential strategies for enhancing cellular resilience to environmental stress and aging in broader biological contexts. [ABSTRACT FROM AUTHOR]

Published

2024

45. Direct and indirect costs of parasitism preceding a population decline of an Arctic ungulate.

Author

Dickinson, Eleanor R., Nwafor-Okoli, Chinyere, Checkley, Sylvia L., Elkin, Brett, Branigan, Marsha, Serrano, Emmanuel, and Kutz, Susan J.

Subjects

*EXTREME weather, *DIRECT costing, *DEMOGRAPHIC change, *UNGULATES, *NEMATODES

Abstract

Parasites negatively affect the fitness of ungulate hosts directly, and in wild ungulates, these effects may be synzootic with other stressors, such as limited nutritional resources. In the Arctic, muskoxen (Ovibos moschatus) occur in a highly seasonal environment and must rely on finite energetic resources for survival and productivity. We investigated the costs of gastrointestinal nematodes on the body condition and reproductive status of 141 muskoxen, on Banks Island, Canada, when the population was at a peak in numbers and density. Using a Partial Least Squares Path Modelling approach, we found that high adult nematode abundance was associated with lower body condition, and high parasite abundance was associated with female reproduction including the indirect effect through on body condition (n = 87). These findings suggest that individuals prioritize energetic reserves for reproduction over parasite defence. In fall 2003, a severe icing event that restricted access to forage was associated with high overwinter mortality of muskoxen and a population crash. Through direct and indirect costs of parasite infection on body condition and reproduction, the high abundance of parasites may have contributed to the effects of this extreme weather event. Understanding the mechanisms in which parasites impact fitness can help explain the ecological drivers of ungulate populations and predict the interactions between the environment and populations. [ABSTRACT FROM AUTHOR]

Published

2024

46. Application of fungi as biological control strategies for nematode management in horticultural crops.

Author

Rahman, Mati Ur, Zhong, Xiaomin, Uzair, Muhammad, and Fan, Ben

Subjects

*PLANT nematodes, *HORTICULTURAL crops, *ROOT-knot nematodes, *CROP management, *FUNGI, *NEMATOCIDES, *ROOT-knot, *NEMATODES

Abstract

Plant-parasitic nematodes are a major problem for horticultural production, causing significant economic losses. Chemical nematicides are a common nematode control strategy but can negatively impact the environment and human health. In this review, we provide an overview of the use of fungi for the biological control of plant-parasitic nematodes in horticultural crops. Fungal bio-control represents an alternative, environmentally friendly strategy for managing nematodes. The use of fungi for the bio-control of nematodes has gained increasing attention due to the potential benefits of selectivity, sustainability, and long-term control. Here, we discuss the different types of fungi used for nematode management, the mechanisms of their action, the advantages and limitations of using fungi for bio-control, and the factors affecting their efficacy. Additionally, we provide several case studies of fungal bio-control against root-knot, cyst, and lesion nematodes in horticultural crops. The review concludes with a discussion of future directions and research recommendations for implementing fungal bio-control in horticultural crops. [ABSTRACT FROM AUTHOR]

Published

2024

47. Insights into the efficient degradation mechanism of extracellular proteases mediated by Purpureocillium lilacinum.

Author

Xiujun Zhang, Yuhong Yang, Li Liu, Xin Sui, Ramon Santos Bermudez, Lushan Wang, Wenxing He, and Huilian Xu

Subjects

GATA proteins, PEPTIDASE, PROTEOLYTIC enzymes, NEMATODE-destroying fungi, CORN flour, YEAST extract, ENDOPEPTIDASES

Abstract

Protease secretion is crucial for degrading nematode cuticles using nematophagous fungus Purpureocillium lilacinum, but the secretion pattern of protease remains poorly understood. This study aimed to explore the degradation mechanism of proteases by investigating the characteristics of protease secretion under various carbon and nitrogen sources, and different carbon to nitrogen (C:N) ratios in P. lilacinum. The results showed that corn flour as a carbon source and yeast extract as a nitrogen source specifically induced protease secretion in P. lilacinum. P. lilacinum produced significant amounts of gelatinase and casein enzyme at C:N ratios of 10:1, 20:1, and 40:1, indicating that higher C:N ratios were more beneficial for secreting extracellular proteases. Proteomic analysis revealed 14 proteases, including 4 S8 serine endopeptidases and one M28 aminopeptidase. Among four S8 serine peptidases, Alp1 exhibited a high secretion level at C:N ratio less than 5:1, whereas PR1C, PR1D, and P32 displayed higher secretion levels at higher C:N ratios. In addition, the transcription levels of GATA transcription factors were investigated, revealing that Asd-4, A0A179G170, and A0A179HGL4 were more prevalent at a C:N ratio of 40:1. In contrast, the transcription levels of SREP, AreA, and NsdD were higher at lower C:N ratios. The putative regulatory profile of extracellular protease production in P. lilacinum, induced by different C:N ratios, was analyzed. The findings offered insights into the complexity of protease production and aided in the hydrolytic degradation of nematode cuticles. [ABSTRACT FROM AUTHOR]

Published

2024

48. Advanced screening methods for assessing motility and hatching in plant-parasitic nematodes.

Author

Kadlecová, Alena, Hendrychová, Romana, Jirsa, Tomáš, Čermák, Václav, Huang, Mengmeng, Grundler, Florian M.W., and Schleker, A. Sylvia S.

Subjects

*PLANT nematodes, *NEMATODES, *SUGAR beet cyst nematode, *DISSECTING microscopes, *CHITINASE, *RESEARCH personnel

Abstract

Background: Plant-parasitic nematodes are economically important pests responsible for substantial losses in agriculture. Researchers focusing on plant-parasitic nematodes, especially on finding new ways of their control, often need to assess basic parameters such as their motility, viability, and reproduction. Traditionally, these assays involve visually counting juveniles and eggs under a dissecting microscope, making this investigation time-consuming and laborious. Results: In this study, we established a procedure to efficiently determine the motility of two plant-parasitic nematode species, Heterodera schachtii and Ditylenchus destructor, using the WMicrotracker ONE platform. Additionally, we demonstrated that hatching of the cyst nematode H. schachtii can be evaluated using both the WMicrotracker ONE and by assessing the enzymatic activity of chitinase produced during hatching. Conclusions: We present fast and straightforward protocols for studying nematode motility and hatching that allow us to draw conclusions about viability and survival. Thus, these methods are useful tools for facilitating fast and efficient evaluation in various fields of research focused on plant-parasitic nematodes. [ABSTRACT FROM AUTHOR]

Published

2024

49. Function and Global Regulation of Type III Secretion System and Flagella in Entomopathogenic Nematode Symbiotic Bacteria.

Author

Huang, Xiyin, Li, Chen, Zhang, Ke, Li, Kunyan, Xie, Jiajie, Peng, Yuyuan, Quan, Meifang, Sun, Yunjun, Hu, Yibo, Xia, Liqiu, and Hu, Shengbiao

Subjects

*FLAGELLA (Microbiology), *INSECT nematodes, *INSECT hosts, *SECRETION, *GRAM-negative bacteria, *PROTEIN expression, *NEMATODES

Abstract

Currently, it is widely accepted that the type III secretion system (T3SS) serves as the transport platform for bacterial virulence factors, while flagella act as propulsion motors. However, there remains a noticeable dearth of comparative studies elucidating the functional disparities between these two mechanisms. Entomopathogenic nematode symbiotic bacteria (ENS), including Xenorhabdus and Photorhabdus, are Gram-negative bacteria transported into insect hosts by Steinernema or Heterorhabdus. Flagella are conserved in ENS, but the T3SS is only encoded in Photorhabdus. There are few reports on the function of flagella and the T3SS in ENS, and it is not known what role they play in the infection of ENS. Here, we clarified the function of the T3SS and flagella in ENS infection based on flagellar inactivation in X. stockiae (flhDC deletion), T3SS inactivation in P. luminescens (sctV deletion), and the heterologous synthesis of the T3SS of P. luminescens in X. stockiae. Consistent with the previous results, the swarming movement of the ENS and the formation of biofilms are dominated by the flagella. Both the T3SS and flagella facilitate ENS invasion and colonization within host cells, with minimal impact on secondary metabolite formation and secretion. Unexpectedly, a proteomic analysis reveals a negative feedback loop between the flagella/T3SS assembly and the type VI secretion system (T6SS). RT-PCR testing demonstrates the T3SS's inhibition of flagellar assembly, while flagellin expression promotes T3SS assembly. Furthermore, T3SS expression stimulates ribosome-associated protein expression. [ABSTRACT FROM AUTHOR]

Published

2024

50. Cereal production in Africa: the threat of current plant pathogens in changing climate-a review.

Author

Benjamin, Joshua, Oyedokun, David Olayinka, Oziegbe, Emmanuel Victor, Oni, Joshua, Ogundare, Emmanuel Boluwatife, Ujah, Godswill Ofuowoichoyama, and Adebayo, Aminat

Subjects

*CEREAL products, *PHYTOPATHOGENIC microorganisms, *CLIMATE change, *PYRICULARIA oryzae

Abstract

In Sub-Saharan Africa, cereals are threatened by stress-inducing microbial pathogens and parasites such as fungi, bacteria, viruses and nematodes leading to significant losses. Mycotoxin-producing fungi like Fusarium graminearum induce head blight disease causing 30–70% of yield losses in wheat. In comparison, Fusarium verticillioides accounts for ear rot diseases that account for 13–70% of maize yield losses in Sub-Saharan Africa. Outbreaks of the devastating rice blast pathogen Magnaporthe oryzae have caused up to 48% yield losses of rice in Kenya. The grey leaf spot fungus, C. zeina, gradually becomes a threat to maize production, causing a 65% yield loss in South Africa. Maize smut and ergot-causing pathogens, Sporisorium ehrenbergii and Claviceps africana, under mildly humid and cold climatic conditions, impact grain quality and market value. The maize streak virus predominantly ravages maize fields all over Sub-Saharan Africa causing 30–100% yield losses while the diseases caused by the bacterium Xanthomonas oryzae pv. oryzae has led to 10 to 50% yield losses in rice production. In Nigeria, nematode pathogens like Pratylenchus spp have been reported to cause yield losses of up to 27% in maize production. This review fundamentally discusses these cereal pathogens and their current and future impact in the face of climate change in Africa. We seriously emphasize the need for more simulation studies on each of these pathogens across Sub-Saharan Africa and their potential impact under current and future climate change scenarios. [ABSTRACT FROM AUTHOR]

Published

2024