Search Results (103)

Zeugodacus tau Walker (Diptera: Tephritidae) is a quarantine pest of cucurbit crops in China. In recent years, the damage it has caused to Trichosanthes kirilowii (Cucurbitales: Cucurbitaceae) has increased, but evidence for host adaptation and population growth on this plant remains limited. We investigated the suitability of T. kirilowii as a host plant for Z. tau, compared with the known suitable host Cucurbita moschata, by examining adult olfactory preference, oviposition choice, and demographic performance using an age–stage, two-sex life table. Females preferred T. kirilowii significantly more than C. moschata in cases of both peeled and unpeeled fruits, whereas males showed no significant difference. Oviposition was also higher on T. kirilowii and further increased on peeled fruit. Developmental duration, total longevity, ovipositing days, oviposition period, and hatching rate did not differ between the two host species. However, Z. tau reared on T. kirilowii exhibited significantly shorter APOP and TPOP, along with higher fecundity and increased pupal weight. Life table parameters indicated higher intrinsic (r = 0.1028 ± 0.0040 d⁻¹) and finite rates of increase (λ = 1.1083 ± 0.0044 d⁻¹) on T. kirilowii, whereas R₀ was similar and mean generation time was shortened by 11.61 d. A 100-day projection predicted 11,980 adults from T. kirilowii compared to 1231 from C. moschata. Overall, T. kirilowii is a highly suitable host that supports the rapid population growth of Z. tau. Full article

A comprehensive annotated checklist of the members of the phytophagous ladybird beetle tribe Epilachnini (Coccinellinae) in China is compiled based on existing published sources and incorporates the latest taxonomic and nomenclatural updates. The checklist documents 176 extant species across 10 genera and provides analyses of regional species richness, distribution, and host plant associations. Regarding regional species richness, Yunnan Province is home to the highest number of species (76), followed by Taiwan (50), Sichuan (48), Guizhou (48), Guangxi (43), Tibet (43), Guangdong (25), Hainan (17), Hubei (17), Hunan (13), Shaanxi (13), Fujian (12), Henan (10), Jiangsu (10), Anhui (7), Shandong (7), Zhejiang (7), Jiangxi (5), Hong Kong (5), Gansu (5), Beijing (4), Hebei (4), Liaoning (3), Shanxi (2), and Chongqing, Jilin, Heilongjiang, Ningxia, and Xinjiang (each with one species). Among the recognized genera, Epilachna Chevrolat, 1837, is currently the most species-rich genera, with 59 species, followed by Afissa Dieke, 1947 (34), Uniparodentata Wang & Cao, 1993 (28), Henosepilachna Li, 1961 (29), Afidentula Kapur, 1958 (10), Diekeana Tomaszewska & Szawaryn, 2015 (9), and Epiverta Dieke, 1947 (4). Additionally, Afidenta Dieke, 1947, Cynegetis Chevrolat, 1837, and Subcoccinella Agassiz & Erichson, 1845 are each represented by a single species. Host plant data are currently available for only 72 species (approximately 41% of the species recorded in China), which are associated with 177 plant species across 34 families. The most frequently recorded host plant families are Solanaceae (43 species), Cucurbitaceae (32), Urticaceae (15), Fabaceae (14), Asteraceae (14), and Poaceae (10), whereas each of the remaining 28 families comprises fewer than 10 host species. For 104 species (59% of the Chinese members of the tribe), host plant associations remain unknown, highlighting a substantial gap in our understanding of their feeding habits. Full article

Zeugodacus tau, an economically important fruit fly species, exhibits a preference for infesting the fruits of cucurbitaceae, but it has also been reared from the fruits of several other plant families. Phytosanitary treatments are needed to ship the fruit from some of these host plants out of areas where populations of the fruit fly exist. Based on the guidelines for the development of cold disinfestation treatments for fruit fly host commodities, proposed by the International Plant Protection Convention (IPPC), the cold disinfestation trials were carried out with Z. tau infesting oranges through artificial infestation. The results showed that the third instar of Z. tau was the most tolerant stage among all developmental stages. No survivors were found among 106,204, 96,168, and 9180 individuals of Z. tau in oranges treated at 1.75 °C for 23 d, 2.34 °C for 25 d, and 1.8 °C for 22 d, respectively. These results support for the application of the 22-day treatment at ≤1.67 °C as an additional safety measure. Such a measure mitigates the risk of introduction and establishment of Z. tau through imported citrus. However, for other susceptible hosts of Z. tau, the cold treatment schedules against Z. tau required to achieve quarantine security with larval endpoint would need to be 23 d at 1.75 °C or 25 d at 2.34 °C. These results also indicated that Z. tau exhibits the highest cold tolerance among the other tephritid species for which cold treatment have been reported. Full article

Cucurbitaceous plants comprise a wide range of economically important vegetable and fruit crops. In this study, Alternaria species associated with Cucurbitaceae were investigated using an integrative approach combining multilocus phylogenetic analyses and morphological characterization. Two novel species, Alternaria charantiicola sp. nov. and A. cucumicola sp. nov., were identified from Momordica charantia and Cucumis sp., respectively. In addition, five Alternaria species, namely A. zeae, A. lycopersici, A. sanguisorbae, A. pulvinifungicola, and A. solanicola, are reported for the first time from cucurbitaceous hosts. These findings expand the known species diversity of Alternaria associated with Cucurbitaceae in China and provide a taxonomic basis for the accurate diagnosis of Alternaria-related diseases in cucurbit crops. Full article

Background/Objectives: Momordica charantia L. (Cucurbitaceae) (MC), commonly known as bitter melon, is a prominent therapeutic and edible species deeply rooted in traditional medicine for the management of diverse metabolic and infectious pathologies. Increasing evidence suggests that MC is a significant source of antiviral compounds that could act against many different types of viruses in humans. This narrative review summarizes the current knowledge regarding the antiviral properties of MC, with a focus on molecular mechanisms and therapeutic perspectives. Methods: A comprehensive literature search was conducted across the PubMed, Scopus and Web of Science databases, using the keywords “Momordica charantia”, “bitter melon”, “antiviral” and “MAP30”. Original in vitro, in vivo, in silico and mechanistic studies were included. Results: MC harbors diverse antiviral molecules acting through conserved and virus-specific mechanisms. Ribosome-inactivating proteins (RIPs) purified from MC display potent antiviral activity by catalyzing the depurination of viral RNA and DNA, inactivating host ribosomes and blocking protein synthesis. RIPs, especially MAP30, are among the most potent natural antiviral proteins described to date. Cucurbitane-type triterpenoids and other phytochemicals from MC also show antiviral activity. Conclusions: MC emerges as a promising candidate for the prevention/treatment of viral diseases through nutraceutical, topical and pharmaceutical applications. MC extracts could represent a resource to support the immune system and provide broad-spectrum benefits against viral infections or a tool for local treatments. Moreover, MC is a valuable source of various bioactive compounds that, after thorough pharmacological characterization, could be further developed into specific antiviral agents. Full article

Background: Gynostemma pentaphyllum (Thunb.) Makino is an important medicinal plant within the Cucurbitaceae family. Despite its economic and pharmacological importance, genomic resources for this species remain limited. Methods: We sequenced and assembled the complete mitochondrial genome of G. pentaphyllum. Comparative analyses were conducted to investigate the genomic structure, gene content, RNA editing events, and intracellular gene transfer (IGT) from chloroplasts. Additionally, phylogenomic relationships, synteny, and the selective pressure on mitochondrial genes were evaluated against related species within Cucurbitaceae. Results: The ~324 kb mitogenome has a multipartite architecture of six circular-mapping molecules. It encodes the typical complement of mitochondrial protein-coding genes, tRNAs, and rRNAs found in angiosperms. Extensive C-to-U RNA editing, including events that generate functional start and stop codons, points to substantial post-transcriptional regulation. We also detected multiple chloroplast-derived fragments, including several intact genes, indicating active intracellular gene transfer. Phylogenomic analyses of conserved mitochondrial genes place G. pentaphyllum firmly within Cucurbitaceae, clustering it with Thladiantha cordifolia and Momordica charantia, whereas synteny comparisons reveal pronounced structural rearrangements with respect to these close relatives. While most genes evolve under strong purifying selection, rps1, sdh3, and sdh4 show signatures of accelerated evolution; furthermore, haplotype networks based on conserved loci further corroborate the close affinity with T. cordifolia. Conclusions: This study provides the first high-resolution mitogenome resource for G. pentaphyllum and candidate mitochondrial markers for species authentication, evolutionary studies, and breeding in Gynostemma and related cucurbits. Full article

Fusarium wilt of melon, caused by Fusarium fungi, results in sizeable economic losses worldwide. In Russia, data on the species composition of the causative pathogens of this disease on melon are lacking. From 2022 to 2025, 19 Fusarium isolates from the Volgograd and Rostov regions were included in a study that included species identification using molecular phylogenetic analysis of the tef1 and rpb2 loci, morphological description, and pathogenicity assessment against the host plant and other members of the Cucurbitaceae family. Four Fusarium species were found to be involved in the pathogenesis of Fusarium wilt of melon in Russia: F. clavus (37% of the total number of isolates), F. annulatum (21%), F. cf. inflexum (21%), and F. brachygibbosum (21%). All identified species were isolated in the Volgograd Region, while only F. cf. inflexum and F. brachygibbosum were isolated in the Rostov Region. This study reports for the first time the high pathogenicity of F. cf. inflexum and F. brachygibbosum species associated with melon wilt. Morphological variability and different aggressiveness of isolates of the species F. brachygibbosum and F. clavus, isolated in the Volgograd (-V) and Rostov (-R) regions in different years, were observed. The isolate F. brachygibbosum-V showed high aggressiveness both at the sprout and seedling stages, while the isolate F. brachygibbosum-R was characterized by moderate aggressiveness only at the sprout stage. High pathogenicity of the species isolated from melons was established for other cucurbit crops. F. cf. inflexum was also pathogenic for watermelon and pumpkin, and F. brachygibbosum was pathogenic for pumpkin. The obtained data will have practical value for the development of biological control measures against Fusarium fungi and will be used in a melon breeding program for resistance to Fusarium wilt. Full article

Synthetic anthelmintic drugs not only contribute to the development of pathogen resistance and environmental pollution but also to the development of pathogen resistance. Therefore, identifying the anthelmintic properties of widely used medicinal plants could be of great practical interest to veterinary and human medicine. In our experiment, we evaluated the in vitro survivability of the noninvasive and invasive (L_1–2 and L_3, respectively) larvae of Strongyloides papillosus and Haemonchus contortus subject to aqueous solutions of ethanolic tinctures of traditional medicinal plants (46 species). Most of the plant species we studied belonged to the families Asteraceae (Achillea millefolium, Arctium lappa, Artemisia absinthium, Bidens tripartita, Calendula officinalis, Cynara cardunculus var. scolymus, Echinacea purpurea, Helichrysum arenarium, Inula helenium, Matricaria chamomilla, Silybum marianum, Tanacetum vulgare, Taraxacum officinale, Tragopogon porrifolius), Rosaceae (Agrimonia eupatoria, Fragaria vesca, Sanguisorba officinalis), and Lamiaceae (Leonurus cardiaca, Mentha × piperita, Origanum vulgare, Salvia officinalis, Thymus vulgaris). Other plant families were represented by 1–3 species: Fabaceae (Glycyrrhiza glabra, Hedysarum alpinum, Trifolium pratense), Salicaceae (Populus nigra, P. tremula, Salix alba), Fagaceae (Quercus robur), Betulaceae (Betula pendula), Juglandaceae (Juglans regia), Rhamnaceae (Frangula alnus), Acoraceae (Acorus calamus), Apiaceae (Foeniculum vulgare), Caprifoliaceae (Valeriana officinalis), Cucurbitaceae (Cucurbita pepo), Equisetaceae (Equisetum arvense), Ericaceae (Vaccinium vitis-idaea), Gentianaceae (Centaurium erythraea), Hypericaceae (Hypericum perforatum), Malvaceae (Althaea officinalis), Plantaginaceae (Linaria vulgaris, Plantago major), Poaceae (Zea mays), Polygonaceae (Polygonum aviculare), and Ranunculaceae (Nigella sativa). We determined Artemisia absinthium, Inula helenium, Matricaria chamomilla, Salvia officinalis, and Populus nigra, whose aqueous solutions of alcohol tinctures demonstrated nematocidal properties. The other plants we studied did not affect the viability of parasitic nematode larvae. Full article

Plants inhabiting arid regions often harbor microbial communities that contribute to their resilience under extreme conditions. Yet, the genomic diversity and functional potential of bacterial endophytes associated with desert-adapted plants, particularly in Africa, remain largely unexplored. In this study, we investigated Microbacterium endophytes from the xerophytic cucurbit Citrullus colocynthis L. (Cucurbitaceae), collected in a semi-arid environment in central Morocco. Using culture-based isolation, phenotypic characterization, and whole-genome sequencing, we analyzed three representative isolates from leaf and root tissues. Genome-based taxonomy combined with polyphasic analyses identified two novel species, Microbacterium xerophyticum sp. nov. and Microbacterium umsixpiens sp. nov., with genome sizes of approximately 4.0 Mb and 3.9 Mb, respectively. Functional annotation revealed traits consistent with endophytism in water-limited ecosystems, including oxidative and osmotic stress responses, metal homeostasis, and high-affinity phosphate uptake. Differences in siderophore acquisition and nitrogen metabolism suggest niche partitioning between the two species. These findings document two novel bacterial species from a medicinal plant native to arid ecosystems, broaden the known diversity of plant-associated Microbacterium, and provide region-specific genomic references with adaptive traits relevant to host resilience under arid conditions. Full article

This review highlights the significant therapeutic properties of four indigenous plants in the United Arab Emirates. These include Capparis spinosa L. (family: Capparaceae), commonly known as caper and locally referred to as Kabir; Citrullus colocynthis (L) Schrad. (family: Cucurbitaceae), known in English as bitter apple and locally as Alhanzal; Morus alba L. (family: Moraceae), referred to as white mulberry and locally named Firsad; and Rhazya stricta Decne. (family: Apocynaceae), commonly called harmal-e-shami and known locally as Alhi-rimi. These species are traditionally used for various ethnobotanical purposes and are important components of the region’s flora, such as managing diabetes and associated metabolic disorders. These plants contain diverse bioactive compounds with notable pharmacological activities. For example, caper exhibits antidiabetic effects through flavonoids such as quercetin and kaempferol, which enhance insulin sensitivity and lower blood glucose levels. Bitter apple is rich in cucurbitacins and alkaloids that lower glycated hemoglobin and support pancreatic β-cell function. White mulberry contains chlorogenic acid, rutin, and 1-deoxynojirimycin, which improve glucose uptake, inhibit α-glucosidase, and reduce oxidative stress. Harmal-e-shami exhibits variable antidiabetic activity, including dipeptidyl peptidase-IV inhibition and enhancement of glucagon-like peptide-1 secretion, which is influenced by the type and dosage of the extract. Despite these promising effects, challenges remain in standardization, phytochemical variability, and clinical validation. This review underscores the therapeutic potential of these plants and recommends further research for their integration into sustainable, plant-based diabetes management strategies. Full article

RNA silencing regulates diverse cellular processes in plants. Argonaute (AGO), Dicer-like (DCL), and RNA-dependent RNA polymerase (RDR) proteins are core components of RNA interference (RNAi). Despite their functional significance, the systematic identification and characterization of these families have remained largely unexplored in Siraitia grosvenorii. Using HMMER and Pfam analyses, we identified six SgAGO, four SgDCL, and six SgRDR genes. Phylogenetic analysis classified SgAGOs, SgDCLs, and SgRDRs into five, four, and four clades, respectively, all of which clustered closely with homologs from other Cucurbitaceae species, demonstrating lineage-specific evolutionary conservation. Promoter cis-element analysis revealed the significant enrichment of hormonal (methyl jasmonate, abscisic acid) and stress-responsive (light, hypoxia) elements, indicating their roles in environmental adaptation. Tissue-specific expression profiling showed that most SgAGO, SgDCL, and SgRDR genes were highly expressed in flowers and mid-stage fruits (35 days after pollination), while SgAGO10.1 exhibited stem-specific expression. By contrast, SgRDR1.2 displayed no tissue specificity. Notably, sex-biased expression patterns in dioecious flowers suggested the RNAi-mediated regulation of gametophyte development and their potential roles in reproductive and secondary metabolic processes. This study lays the foundation for further exploration of RNAi machinery’s role in coordinating mogroside biosynthesis and stress resilience in S. grosvenorii while providing potential targets for genetic improvement. Full article

Wild edible fruits are important for ensuring food and nutritional security, especially in developing countries like South Africa. Globally, wild edible fruits are widely distributed, and they are consumed in different parts of the world; however, they are undervalued. This systematic review consolidates existing knowledge addressing the utilization of wild edible fruits, and their nutritional benefits. A total of 74 wild edible fruit species belonging to 29 families found in South Africa were documented in this study. The nutritional composition was reported only in 41 (55.4%) fruit species. The Anacardiaceae family had the most cited species (n = 11) (14.86%), followed by the Moraceae (n = 6) (8.1%), and Cucurbitaceae and Ebenaceae, of which each had five species, each contributing 5.4% to the total documented species. Sclerocarya birrea. (A.Rich.) Hochst., Mimusops zeyheri Sond., and Strychnos spinosa Lam. are three of the most important wild fruit species contributing to food and nutritional security. This review revealed that there is a dearth of literature studies that have substantially documented the contribution of wild edible fruits in food and nutritional security. In this regard, a study on ethnobotanical evaluation incorporating wild edible fruits used by local people could significantly provide insights and enhance our understanding of indigenous and technological knowledge that could be utilized to strengthen rural food security. Full article

Phosphorus, as an essential nutrient, plays an important role in plant growth and development. Although Phosphate Starvation Response 1 (PHR1) or PHR1-like have been recognized as central regulators of phosphorus (Pi) homeostasis in several plants, they have not been systematically studied in Cucurbitaceae. In this study, 11, 10, 8, 12, 12, and 22 PHR genes were identified in cucumber, melon, bottle gourd, watermelon, wax gourd, and pumpkin, respectively, by genome-wide analysis. Phylogenetic analysis showed that the Cucurbitaceae PHR genes were divided into seven distinct subfamilies. These genes were further phylogenetically analyzed for their chromosomal localization, gene structure, protein structure, and synteny. Genomic homology analysis showed that many PHR genes existed in the corresponding homology blocks of six Cucurbitaceae species. qRT-PCR analysis showed that the CmoPHR genes exhibited differential expression under different concentrations of phosphate treatment. Transcriptional self-activation assays showed that CmoPHR2, CmoPHR9, CmoPHR16, and CmoPHR17 proteins had transcriptional self-activating activity. The results of this study provide a basis for the further cloning and functional validation of genes related to the phosphate regulatory network in pumpkin. Full article

The Mildew Resistance Locus (Mlo) gene family is reported in various species as regulators of powdery mildew (PM) resistance. However, the Mlo genes in cucurbit crops remain limited. In this study, a genome-wide investigation of Mlo genes was conducted in eight Cucurbitaceae species and in rice, maize, arabidopsis, and barley, and a total of 202 Mlo genes were identified. The phylogenetic analysis showed that 202 Mlo genes can be classified into six clades, and the Mlo genes from clades I and III are likely pivotal in regulating PM resistance in dicotyledonous and monocotyledonous plants, respectively. The Ka/Ks ratios for these homologous Mlo gene pairs ranged from 0 to 0.6, revealing that they underwent substantial purifying selection during evolution. Among 12 crops, there were the most Mlo genes (22 Cm-mlo) in melon. An expression analysis revealed that six Cm-mlo genes showed expression responses to PM infection in which Cm-mlo38 and Cm-mlo44 were phylogenetically close to Mlo genes that regulated PM resistance. Using the VIGS system for silencing, Cm-mlo38 and Cm-mlo44 enhanced resistance to PM in susceptible material. A protein interaction analysis indicated that Cm-mlo38 might regulate PM resistance through interactions with PR5 and CML proteins. These results provide a comprehensive understanding of the Mlo family in Cucurbitaceae and pave the way for future functional analysis and genetic improvement for improving PM resistance in Cucurbitaceae. Full article

Squash leaf curl China virus (SLCCNV) belongs to the species Begomovirus cucurbitachinaense in the genus Begomovirus and can infect some Cucurbitaceae crops except for watermelon (Citrullus lanatus). In this study, watermelon plants showing symptoms typical to begomovirus infection in field were observed in Zhejiang Province of China, and SLCCNV presence was identified through PCR and next-generation sequencing (NGS). The pairwise sequence identity of the DNA-A genome shows that SLCCNV watermelon isolate belongs to the SLCCNV/CN strain and shares 96% nucleotide identity with the previously sequenced SLCCNV/CN. An infectious clone of SLCCNV watermelon isolate was constructed using the tandem repeat fragment method. Through agrobacterium-mediated inoculation, the clone could induce systemic infection with typical symptoms in watermelon, melon (Cucumis melo), squash (Cucurbita pepo), pumpkin (Cucurbita maxima), wax gourd (Benicasa hispida), cucumber (Cucumis sativus), and N. benthamiana. It was further demonstrated that the progeny virions derived from the cloned watermelon isolate could be transmitted by whitefly rather than the sap. To the best of our knowledge, this is the first report of a natural infection of SLCCNV on watermelon in China, and the first complete report on the molecular characteristics and pathogenicity of watermelon-infecting SLCCNV in the world. Full article