Search Results (168)

Galactomannans are a typical reserve polysaccharide in the endosperm of leguminous seeds; they turn the endosperm hard when dry and gelatinous and swollen when hydrated. Although galactomannans of several species have been biochemically characterized, little is known about their deposition within the endosperm. This study aimed to clarify how polysaccharides, galactomanans according to the literature, are produced and stored in the endosperm of Caesalpinia pulcherrima seeds by describing its structural and ultrastructural features throughout development. Samples of seeds at different developmental stages were collected and processed for study under light and electron microscopy. During development, the endosperm of C. pulcherrima undergoes substantial anatomical modifications associated with cellular cycles of polysaccharide release that gradually accumulates in the intercellular spaces. Endosperm cells exhibit an active Golgi apparatus with intense polysaccharide production, confirming their secretory function. In the mature endosperm, polysaccharides are stored in periplasmic and intercellular spaces rather than in thickened cell walls, as previously reported for other Leguminosae. By showing that galactomannans accumulate in periplasmic and intercellular spaces rather than in cell walls, our findings expand current understanding of endosperm diversity in Leguminosae and provide a foundation for future comparative studies on galactomannan synthesis and deposition across the family. Full article

12-oxo-phytodienoic acid reductase (OPR) is a core component of the jasmonic acid (JA) biosynthetic pathway and participates in JA synthesis by catalyzing the reduction in the precursor 12-oxo-phytodienoic acid (OPDA), as well as broadly regulating plant development, stress response, and hormone signaling networks. This study analyzed the OPR gene family using 28 soybean genomes. A total of 15 OPR gene family members in soybean were identified, including 14 core genes and one variable gene. Analysis of gene duplication types showed that whole-genome duplication (WGD)/segmental duplication was the main mode of duplication in GmOPRs. The phylogenetic tree constructed from multiple species showed that the OPRs in subgroup VII were functionally important OPR genes and that the OPRs underwent Leguminosae and Cruciferae divergence, and large-scale duplication occurred in Leguminosae. Analysis of natural selection pressures on 28 soybean accessions indicated that the overall evolutionary pressures on GmOPRs were dominated by purifying selection, but there were also potential positive selection signals. Analysis of cis-acting elements revealed a large number of light- and hormone-responsive cis-acting elements in the GmOPRs. Some specific cis-acting elements were only present in a few genes or accessions. The protein interaction network consisted of 12 GmOPR proteins, 4 allene oxide synthase (AOS) proteins, and 6 allene oxide cyclase (AOC) proteins, where AOCs interact with GmOPRs and AOSs. Tissue transcriptome expression profiling showed that GmOPR3, GmOPR7, and GmOPR15 were specifically expressed in roots, whereas GmOPR2, GmOPR10, and GmOPR14 were specifically expressed in leaves, suggesting that these genes play an important role in the growth and development of the tissues. Moreover, GmOPRs usually responded to salt stress, and GmOPR3, GmOPR8, GmOPR9, GmOPR10, and GmOPR11 were significantly up-regulated in roots and leaves under salt stress. This suggests that these genes may be involved in biological processes such as osmoregulation, ion homeostasis, and scavenging of reactive oxygen species, thus helping soybeans to resist salt stress. This study comprehensively analyzed the OPR gene family in soybean based on the 28 soybean accessions and clarified the salt stress response pattern, which provides a new and more effective and reliable way to analyze the soybean gene family. Full article

Background/Objectives: Bauhinia cheilantha Bong. Steud. (Leguminosae; “pata-de-vaca”) is traditionally used in folk medicine for its antidiabetic, anti-inflammatory, and sedative properties. This study aimed to evaluate aqueous leaf extracts of B. cheilantha, non-delipidated and delipidated, regarding their phytochemical composition, phenolic profile, antioxidant potential, and cytotoxic, genotoxic, and antigenotoxic effects. Methods: Phytochemical screening was performed by TLC, and phenolic compounds were determined by HPLC. Antioxidant activity was assessed using DPPH, ABTS, and phosphomolybdenum assays. Cytotoxicity, genotoxicity, and antigenotoxicity were evaluated in L929 murine fibroblast cells using MTT and cytokinesis-block micronucleus (CBMN) assays. Results: Both extracts contained anthocyanins, phenolics, lignans, saponins, and hydrolyzable tannins. The delipidated extract showed higher total phenolic content (17.54 mg/kg) than the non-delipidated (13.76 mg/kg). Major constituents included kaempferol 3-glucoside, quercetin, hesperidin, naringenin, and t-cinnamic acid. Antioxidant assays revealed EC₅₀ values of 25.84, 13.60, and 66.09 µg/mL for the non-delipidated extract, and 26.19, 16.34, and 52.78 µg/mL for the delipidated extract in the DPPH, ABTS, and phosphomolybdenum assays, respectively. No cytotoxicity was observed, except at 1600 µg/mL for the non-delipidated extract and 800–1600 µg/mL for the delipidated extract. Genotoxicity occurred only at 400 µg/mL. Antigenotoxic evaluation showed that the non-delipidated extract (100 µg/mL) reduced methyl methanesulfonate-induced chromosomal damage in simultaneous and post-treatment conditions, while the delipidated extract was only effective for post-treatment. Conclusions: Aqueous extracts of B. cheilantha exhibit antioxidant and antigenotoxic properties. At active concentrations, they were non-cytotoxic and non-genotoxic. The non-delipidated extract, in particular, showed the strongest genome-protective potential, supporting its traditional use and highlighting its relevance in the development of natural therapeutic agents. Full article

A new species of Bauhinia from the Brazilian Cerrado is described. Based on floral morphology, it can be assigned to Bauhinia sect. Pauletia ser. Cansenia, but its vegetative characters distinguish it from all other known members of the group. To elucidate its taxonomic position, we conducted detailed morphological comparisons, and molecular phylogenetic analyses using the nuclear ribosomal ITS region and two plastid markers (matK and trnL–F). Bayesian Inference (BI) and Maximum Likelihood (ML) analyses were performed. Our results support (both PP from BI and BP from ML) the placement of this new species within Bauhinia ser. Cansenia. The new species named B. latistipulata sp. nov. is easily distinguished from other species of Bauhinia ser. Cansenia by its reniform stipules and cymbiform bracts. The species shows morphological similarities to B. ungulata, sharing elliptic to ovate leaf blades with obtuse apices, tomentose ovaries, and clavate stigmas. However, it differs by its hirsute abaxial leaf surface (vs. tomentose), tubular and ribbed flower buds (vs. clavate or subclavate and smooth), tomentose staminal tube (vs. pubescent), and distinct color of the ovary indumentum (white vs. ferruginous). Full article

Salinity is a major stress factor that limits tomato yield and fruit quality. The aim of this study was to evaluate whether vegetal-derived protein hydrolysates (PHs) can alleviate salt stress in tomato plants and how they affect sugar metabolism at the molecular level. A greenhouse experiment was carried out to test three PHs, containing mainly peptides and aminoacids and derived from the enzymatic hydrolysis of protein sources belonging to Leguminosae (PH1), Malvaceae (PH2), and Solanaceae (PH3) plants under non-saline (1 mM NaCl) and saline (50 mM NaCl) conditions. PH1 and PH3 increased marketable yield under non-saline conditions, while no yield improvement was observed under salinity. Nevertheless, all PHs reduced leaf Cl⁻ accumulation and improved fruit nutritional quality by increasing antioxidant activity and total phenol content. Under salt stress, PH1 and PH2 raised the content of total soluble solids, whereas PH3 enhanced titratable acidity. Gene expression analysis revealed that PHs modulated sugar metabolism, shifting it towards starch synthesis and accumulation in fruits, consistent with the observed increase in soluble solids. These results demonstrate that PHs exert family-specific effects on tomato fruit quality and provide molecular evidence of their role in metabolic adjustment under salinity. Practically, vegetal-derived PHs can represent a sustainable agronomic strategy to enhance fruit quality traits and improve tomato marketability in salt-affected cultivation systems. Full article

Astragalus membranaceus (AM), also known as Huangqi in Chinese, refers to the dried root of two Leguminosae species: AM (Fisch.) Bge. and its variety AM (Fisch.) Bge. var. mongholicus (Bge.) Hsiao. In recent years, research on AM has been published in many papers. Its role in treating metabolic syndrome (MetS) has attracted increasing attention. This review summarizes the research progress over the past five years on the chemical constituents of AM and its therapeutic potential in MetS-related diseases. Chemical analyses of AM have gradually expanded from its roots to its stems, leaves, and entire plant. The major compounds isolated from AM include flavonoids, saponins, and polysaccharides. Extraction methods include ultra-performance liquid chromatography coupled with tandem mass spectrometry and in vitro intestinal absorption models combined with high-performance liquid chromatography–photodiode array–tandem mass spectrometry. AM and its active components exert beneficial effects on metabolic disorders such as type 2 diabetes mellitus, non-alcoholic fatty liver disease, obesity, hypertension, and cardiovascular diseases. These effects are achieved mainly through mechanisms such as reducing oxidative stress and inflammation, modulating gut microbiota, regulating lipid metabolism, improving insulin resistance, and protecting pancreatic β-cell function. This review provides a reference for further studies on treatment of MetS of AM. Full article

Isoliquiritigenin (ISL) is a type of chalcone that widely exists in medicinal plants of the Leguminosae family and exhibits a remarkable anti-ischemic stroke (IS) effect. However, the anti-IS mechanisms of ISL remain to be systematically elucidated. In this study, network pharmacology was used to predict potential targets related to the anti-IS effect of ISL. The binding ability of ISL to potential core targets was further analyzed by molecular docking and molecular dynamics (MD) simulations. By establishing an oxygen–glucose deprivation/reoxygenation (OGD/R)-induced HT22 cell model, the anti-IS mechanisms of ISL were investigated via RT-qPCR and Western Blot (WB). As a result, network pharmacology analysis revealed that APP, ESR1, MAO-A, PTGS2, and EGFR may be potential core targets of ISL for anti-IS treatment. Molecular docking and molecular dynamics simulation results revealed that ISL can stably bind to the five potential core targets and form stable complex systems with them. The results of the cell experiments revealed a significant anti-IS effect of ISL. Additionally, mRNA and protein expression levels of APP, MAO-A and PTGS2 or ESR1 in the ISL treatment group were significantly lower or higher than those in the OGD/R group In conclusion, ISL may improve IS by regulating the protein expression levels of APP, ESR1, MAO-A, and PTGS2. Full article

The Desmodium group is one of the three groups in the tribe Desmodieae distinguished by their lomentaceous fruits, trifoliolate leaves, presence of stipels, and hooked hairs. Due to recent generic circumscription in the Desmodium group, a taxonomic synopsis of the Nigerian members of Desmodium s.l. is presented, including an updated checklist, diagnostic characters, morphological descriptions, and distribution records. The Nigerian taxa of the Desmodium s.l. comprise six genera and nineteen species, of which six species are insufficiently known. Grona and Desmodium each include seven species, while Pleurolobus includes two species. The genera Sohmaea, Polhillides, and Hylodesmum are each represented by a single species. This synopsis aims to consolidate the available taxonomic information on the nineteen species and provide a foundation for future studies on the taxonomic revision, diversity, ecology, and conservation of the tribe Desmodieae in Nigeria. Full article

The genus Vigna Savi (Leguminosae Juss.) comprises approximately 150 species, classified into five subgenera, most of which exhibit a diploid chromosome number of 2n = 22. However, the wild species Vigna lasiocarpa (Benth) Verdc. (V. subg. Lasiospron) is notable for its dysploid chromosome number of 2n = 20. This study aimed to elucidate the chromosomal events involved in the karyotype evolution of V. lasiocarpa (Vla). We used oligopainting probes from chromosomes 1, 2, 3, and 5 of Phaseolus vulgaris L. and two barcode probes from the genome of V. unguiculata (L.) Walp. Additionally, bacterial artificial chromosomes (BACs) from V. unguiculata and P. vulgaris, along with a telomeric probe from Arabidopsis thaliana (L.) Heynh., were hybridized to V. lasiocarpa metaphase chromosomes to characterize Vla3, Vla7/5, and Vla9. Our findings revealed conserved oligo-FISH patterns on chromosomes 2, 6, 8, 10, and 11 between V. unguiculata and V. lasiocarpa. Paracentric and pericentric inversions were identified for Vla3 and Vla9, respectively. Our integrative approach revealed that the dysploid chromosome originated from an “end-to-end fusion” of homoeologous chromosomes 5 and 7. This is the first report on the chromosomal mechanisms underlying descending dysploidy in Vigna, providing new insights into the evolutionary dynamics of the genus. Full article

A taxonomy of the genus Phyllodium Desv. in Cambodia, Laos, and Vietnam is presented. The plant specimens collected from the fields and herbarium specimens kept at Asian and European herbaria are examined. The IUCN conservation status of each species at regional and national levels is assessed. Five species are enumerated, viz., Phyllodium elegans (Lour.) Desv., P. kurzianum (Kuntze) H.Ohashi, P. longipes (Craib) Schindl., P. pulchellum (L.) Desv., and P. vestitum Benth. Lectotypification of two names, Desmodium longipes Craib and D. tonkinense Schindl., is performed. A key to the species, description, distribution, ecology, phenology, vernacular names, full list of specimens examined, and photographs are provided. The conservation status of five Phyllodium species varies across Cambodia, Laos, Vietnam, and Indochina. Phyllodium elegans and P. pulchellum are consistently Least Concern (LC) in all regions. Phyllodium kurzianum is Data Deficient (DD) in Laos, Near Threatened (NT) in Vietnam, and LC in Indochina. Phyllodium longipes is EN in Cambodia but LC elsewhere. Phyllodium vestitum is NT in Cambodia, Vulnerable (VU) in Laos and Vietnam, and LC in Indochina. The taxonomic information provided in this work will contribute to the advancement of the Flora of Cambodia, Laos, and Vietnam and the conservation status of each species proposed in this paper can be used for future conservation planning. Full article

This study explored the beta diversity patterns of tenebrionid beetles and their driving factors across four grassland types in Ningxia. A total of 32 monitoring sites were surveyed, capturing 5328 individuals from 47 tenebrionid species. Permutation multivariate dispersion (PERMDISP) and non-metric multidimensional scaling (NMDS) revealed significant differences in community composition among the four grassland types (Stress = 0.091). Beta diversity decomposition indicated that species replacement primarily drives beta diversity among four temperate grassland types. Canonical Correspondence Analysis (CCA) showed that mean temperature, field water holding capacity, total soil phosphorus, biomass of Asteraceae, biomass of Leguminosae, and frequency of Leguminosae significantly explained variations in dominant species abundance (p < 0.05). Mantel tests revealed that beta diversity was positively correlated with differences in mean temperature, field water holding capacity, total soil phosphorus, and Asteraceae biomass (p < 0.01), but negatively correlated with Leguminosae frequency (p < 0.05). Overall, daily mean temperature was the primary driver of diversity, with synergistic effects from climate, elevation, soil, and vegetation. This study provides a comprehensive analysis of environmental factors influencing tenebrionid diversity, offering insights for grassland biodiversity conservation. Full article

Frankliniella intonsa (Thysanoptera: Thripidae) is a polyphagous pest that causes significant economic agricultural losses by damaging flowers, vegetables, and fruit trees. We performed an age-stage two-sex life table analysis to evaluate the performance and adaptability of F. intonsa against nine common vegetable crops cultivated in Guangxi: cowpea (Vigna unguiculata) (Fabales: Leguminosae), green beans (Phaseolus vulgaris) (Fabales: Leguminosae), soybean (Glycine max) (Fabales: Leguminosae), catjang cowpea (Vigna cylindrica) (Fabales: Leguminosae), courgette (Cucurbita pepo) (Cucurbitales: Cucurbitaceae), wax gourd (Benincasa hispida) (Cucurbitales: Cucurbitaceae), bitter gourd (Momordica charantia) (Cucurbitales: Cucurbitaceae), cucumber (Cucumis sativus) (Cucurbitales: Cucurbitaceae), and chieh-qua (Benincasa hispida) (Cucurbitales: Cucurbitaceae). Among the tested host crops, green beans, cowpea, and courgette significantly accelerated the growth rate and favored the reproductive success of F. intonsa. Green beans, cowpea, and courgette facilitated rapid growth and reproductive success. The mean generation times (T) and net reproductive rates (R₀) were as follows: 14.90 d, 17.09 d, 21.03 d, and 104.04, 45.51, 32.61. Bitter gourd and chieh-qua significantly suppressed population growth (T: 49.49 d, 0 d; R₀: 0.73, 0). Wax gourd, catjang cowpea, cucumber, and soybean exhibited moderate effects characterized by delayed development and lower reproductive output (T: 22.30 d, 20.30 d, 19.51 d, 32.73 d; R₀: 7.17, 25.22, 13.74, and 12.54). These findings highlight the critical role of crop type in F. intonsa population dynamics. Therefore, the agricultural production of green beans, cowpea, and courgette crops necessitates improved control measures and monitoring. Similar measures are needed for cucumber, catjang cowpea, soybeans, and wax gourds because they pose risks as potential hosts. Full article

Determining the optimal harvest time for Pentaclethra macroloba seeds is essential to preserve germination potential and ensure high-quality oil production, valued in the pharmaceutical and cosmetic industries. This study aimed to identify the maturation phase that maximizes seed physiological quality and oil yield. Fruits and seeds were collected from 44 mother plants in Belém and São Domingos do Capim, Brazil, during three final maturation phases: P1 (dark green pericarp, beige seeds), P2 (yellowish-green pericarp, light-brown seeds), and P3 (black pericarp, dark brown seeds). Germination, vigor tests, and gas chromatography analyses revealed that seeds from P3 exhibited the highest vigor (93–99% germination) and oil yield (up to 13.1%). Major fatty acids were oleic (up to 65.23%), linoleic (up to 8.45%), and behenic acids (up to 17.22%). The ripening period ranged from 7 to 8 months, influenced by environmental factors. Optimal seed quality and oil yield are achieved when harvesting occurs before dispersal, targeting fruits with yellowish-green pericarp transitioning to black. Post-harvest drying enhances oil extraction efficiency. These findings support the conservation of P. macroloba through viable seeds and promote economic sustainability by optimizing oil production, benefiting biodiversity and local extractive communities. Full article

Members of the Leguminosae family are important crops that provide food, animal feed and vegetable oils. Legumes make a substantial contribution to sustainable agriculture and the nitrogen cycle through their unique ability to fix atmospheric nitrogen in agricultural ecosystems. Over the past three decades, Medicago truncatula and Lotus japonicus have emerged as model plants for genomic and physiological research in legumes. The advancement of innovative molecular and genetic tools, particularly insertional mutagenesis using the retrotransposon Tnt1, has facilitated the development of extensive mutant collections and enabled precise gene tagging in plants for the identification of key symbiotic and developmental genes. Building on these resources, twelve years ago, our research team initiated the establishment of a platform for functional genomic studies of legumes in Bulgaria. In the framework of this initiative, we conducted systematic sequencing of selected mutant lines and identified genes involved in plant growth and development for detailed functional characterization. This review summarizes our findings on the functions of selected genes involved in the growth and development of the model species, discusses the molecular mechanisms underlying important developmental processes and examines the potential for the translation of this fundamental knowledge to improve commercially important legume crops in Bulgaria and globally. Full article

The tribe Loteae (Papilioniodeae-Leguminosae), according to plastid data, belongs to the Robinioid clade, which also includes the tribes Robinieae and Sesbanieae. The tribe Loteae contains 16 genera and about two hundred seventy-five species, of which the plastid genomes of five species have been studied to date. The main objectives of our study were to obtain new information on the plastid genome structure of the Loteae representatives in order to assess plastid genome variability and reconstruct phylogenetic relationships within the tribe Loteae. We performed sequencing, assembly, structural and phylogenetic analyses of the Loteae plastid genomes. All assembled Loteae plastomes showed a quadripartite structure with an overall length ranging from 150,069 to 152,206 bp and showed relative stability of inverted repeat borders. The Loteae plastomes demonstrated full collinearity; the most variable sites of the studied plastomes were found in petN-trnC and rps16-accD spacers from the LSC region and in the ycf1 gene within the SSC. All inferred relationships attained maximal support with the Hippocrepis lineage separated first, followed by Coronilla and Anthyllis; Lotus is a sister group to the clade Acmispon + Ornithopus. In this study, completely resolved relationships representing a backbone of plastid phylogeny were produced. The obtained results demonstrated that plastid genomes in the tribe Loteae are structurally conservative in contrast to the closely related tribes Robinieae and Sesbanieae. Full article