Search Results (255)

In this study, two new species, Lecidella biformis Y. S. Feng & Y. Y. Zhang and L. versicolor Y. S. Feng & Y. Y. Zhang, are described from Anhui Province, China, based on morphological, chemical, and molecular evidence. Phylogenetic analyses show that these two new species, together with L. albida Hafellner, form a well-supported clade characterized by small apothecia (less than 0.5 mm in diameter), a hyaline, yellowish-brown or nut-brown hypothecium, and the presence of atranorin. Lecidella biformis is distinguished by dimorphic apothecia, ranging from brown with a paler margin to entirely brown, a blackish-brown or nut-brown epithecium, a yellowish-brown or nut-brown hypothecium, and the presence of atranorin and methyl 2′-O-methylmicrophyllinate. Lecidella versicolor is characterized by apothecia that are yellow to reddish-brown when young and nut-brown at maturity, an orange-brown epithecium, a hyaline to yellowish-brown hypothecium, anastomosed paraphyses, and the presence of atranorin only. Detailed descriptions, discussions, and illustrations are provided for the new species, along with a key to all known Lecidella species from China. Full article

Almonds are widely cultivated in Mediterranean regions, and their processing generates by-products such as almond skins, which are often discarded or used in low-value applications, leading to economic and environmental concerns. These skins are rich in bioactive compounds like polyphenols and flavonoids, with putative protective effects against toxins. Fungi such as Aspergillus and Penicillium species can contaminate nuts and their by-products and produce neurotoxic metabolites, like cyclopiazonic acid (CPA). This study aimed to characterize the phenolic compounds in aqueous extracts of almond skin and evaluate their cytoprotective effects on the viability of human neuroblastoma cells (SH-SY5Y) under individual CPA exposure and simultaneous co-exposure with almond skin extract. The extracts were optimized for extraction conditions, and UPLC-Triple-TOF-MS/MS analysis identified epicatechin, quercetin and kaempferol as the predominant phenolic compounds. Also, cell viability results showed that CPA induced cytotoxic effects on SH-SY5Y cells in a concentration-dependent manner. However, cells exposed to almond skin extract, at various dilutions (from 1/4 to 1/16), significantly increased cell viability from 43% to 57% relative to the control. Moreover, when SH-SY5Y cells were simultaneously co-exposed to CPA (400–600 nmol/L) and almond skin extract (1/4 dilution), a partial attenuation of CPA-induced toxicity (from 9% at 400 nmol/L to 20% at 600 nmol/L) was observed when compared with CPA alone. These findings suggest cytoprotective potential of almond skin extract in an in vitro neuronal-like model which may be associated with their content of phenolic compounds, providing new insights into their action against the emerging mycotoxin CPA, which remains underexplored in food safety research. Full article

Fruit endocarp and seed coat are essential protective structures that influence key agronomic and mechanical traits in species with lignified protective tissues, yet their regulatory mechanisms remain incompletely understood. Here, we conducted a comprehensive genome-wide analysis of the MADS-box gene family in four angiosperm species: Juglans sigillata, Carya illinoinensis, Macadamia integrifolia, and Ricinus communis. A total of 58, 55, 57, and 57 MADS-box genes were identified, respectively, and systematically characterized through phylogenetic, structural, and evolutionary analyses. Comparative results revealed that MIKCc-type genes are highly conserved and primarily expanded via segmental duplication under strong purifying selection. Co-expression network analysis identified MADS-box genes as high-connectivity hub candidates that are strongly associated with genes involved in tissue specification, hormone signaling, and secondary cell wall biosynthesis. Promoters analysis indicated that these genes contain diverse cis-regulatory elements; however, these results are based on sequence prediction and do not demonstrate functional regulatory interactions. Across species, MADS-box genes exhibited analogous temporal expression dynamics during lignified endocarp and seed coat development, consistent with a potentially conserved transcriptional framework. Collectively, this study provides new insights into the evolutionary diversification and putative functions of MADS-box genes, and proposes a putative hierarchical regulatory framework for lignified endocarp and seed coat development. These findings supply valuable candidate target genes for future molecular breeding aimed at improving shell thickness, hardness, and related agronomic traits in woody nut and oilseed species. Full article

The Andean walnut (Juglans neotropica Diels), locally known as tocte, is a keystone tree species of major socio-ecological importance in South American mountain ecosystems, facing severe anthropogenic pressure associated with genetic erosion, habitat fragmentation, and unregulated selective logging. This article presents a case study applying a qualitative phenomenological approach to examine the power relations and institutional failures shaping the sustainable management of its value chain in Imbabura Province, Ecuador. Drawing on 21 in-depth semi-structured interviews with key actors (including woodcarvers, sawyers, traders, and environmental authorities) conducted between March and September 2025 until theoretical saturation was achieved, and supported by thematic analysis in ATLAS.ti, we identified five thematic categories revealing the tension between cultural valuation and market pressure. The findings confirm the existence of a value paradox, whereby high timber demand paradoxically accelerates resource depletion rather than incentivizing conservation, as premature harvesting of young trees undermines the viability of non-timber forest products such as nuts and accelerates the loss of local genetic resources. We conclude that the long-term conservation of the species requires a transition toward polycentric stewardship, community forestry enterprises, and integrated landscape management in which the standing tree is formally recognized as carrying greater ecological and economic value than harvested timber. Full article

Almond (Prunus dulcis (Mill.) D.A. Webb) is one of the most economically important nut crops worldwide, valued for its nutritional properties and adaptability to diverse agroecological environments. This review summarizes current knowledge on almond domestication, genetic diversity, production trends, and improvement strategies, with a focus on drought tolerance under climate change. Archaeobotanical and molecular evidence indicate central Asia and the eastern Mediterranean as key centers of origin, where recurrent introgression from wild Prunus species contributed to the high genetic variability of cultivated almond. Global production trends reveal increasing challenges due to prolonged drought, climate variability, and rising water and energy costs, particularly affecting major producers such as the United States. Mediterranean regions are transitioning from traditional low-density orchards to intensive systems, where cultivar and rootstock choice are crucial for sustainability. Self-fertile and late-blooming cultivars improve yield stability, while interspecific hybrid rootstocks enhance water use efficiency and tolerance to drought and poor soils. Drought stress impacts almond physiology and yield, although moderate deficit irrigation can maintain productivity and improve kernel quality. Future improvement relies on germplasm conservation, marker-assisted selection, and genomic tools to develop climate-resilient cultivars integrated with sustainable water management strategies. Full article

The American chestnut (Castanea dentata (Marsh.) Borkh.) was a foundation species whose loss reshaped eastern North American forests. Ongoing breeding with blight-resistant Chinese chestnut (Castanea mollissima Blume) represents the leading strategy for its restoration. However, breeding programs have focused almost exclusively on pathogen resistance, leaving susceptibility to native seed predators unexamined—a critical gap, because nut production underpins the ecological function that restoration seeks to recover. Here, we investigate how hybridization level affects infestation by the lesser chestnut weevil (Curculio sayi (Gyllenhal, 1836)), monitoring 25 genetic lines across four genetic categories (Chinese, F₁, backcross, and American) for larval emergence, weight loss, damage, and emergence timing over eight weeks. Hybridization dramatically altered susceptibility: F₁ hybrids were the most susceptible category. No larval emergence was observed from American chestnuts, and backcross hybrids remained substantially susceptible despite three–four generations of backcrossing. These results expose a fundamental trade-off for restoration: blight resistance derives from the Chinese genome, whereas weevil resistance appears to be associated with the American genome. Backcross lines bred for blight resistance retain weevil susceptibility, and F₁ hybrids risk functioning as pest sinks that amplify local weevil populations. Incorporating weevil resistance screening into breeding programs could help us to ensure that restored chestnuts can fulfill their historical role as mast-producing foundation trees. Full article

The walnut cultivar ‘Yunxin No. 14’ is an early fruiting, high-yielding, and widely adaptable fruit tree with compact growth and superior nuts. Establishing a successful tissue culture system for this cultivar is crucial for its rapid clonal propagation and as a foundation for future genetic transformation. Using young fruits as explants, 3% NaClO sterilization for 20 min effectively controlled contamination and browning. Somatic embryos induced from zygotic embryos cultured on DKW medium with 30 g·L⁻¹ sucrose showed high proliferation and minimal browning. After a 4-day dehydration treatment using saturated NH₄NO₃, mature somatic embryos germinated rapidly on differentiation medium (DKW containing 1 mg·L⁻¹ 6-BA and 0.1 mg·L⁻¹ IBA), reaching 90.0% germination. Optimal shoot multiplication was achieved on DKW medium supplemented with 2 mg·L⁻¹ 6-BA and 0.3 mg·L⁻¹ IBA, yielding a proliferation rate of 91.1% and a proliferation index of 3.1. For rooting, shoots (~3 cm) treated with Clonex^® rooting gel were transferred to a low-cost, sugar-free vermiculite medium with gaseous CO₂ as the sole carbon source. Root initiation occurred within two weeks at a rate of 54.2%, significantly shortening the rooting phase. Rooted plantlets were acclimatized in a peat:perlite:vermiculite (2:2:1, v/v/v) mixture under high humidity for two weeks before outdoor transfer, achieving an 88.6% survival rate. This study provides a reliable protocol for the micropropagation of ‘Yunxin No. 14’ and a valuable reference for other difficult-to-root woody species. Full article

The natural resources and local communities of Madre de Dios, Peru, face severe environmental degradation due to illegal mining, deforestation, and the expansion of agricultural activities, threatening one of the most ecologically sensitive regions of the Amazon. This research proposes a low-carbon and bioclimatic architectural design for a Sustainable Interpretation and Research Center dedicated to the conservation of the ecosystems of Manu National Park. The study is based on an analysis of the surrounding environment in terms of flora, fauna, and climate, applying bioclimatic strategies focused on sustainability and supported by specialized digital tools (Revit 2024, Canva, Global Mapper 2024, SketchUp 2024, Photoshop 2022, and Illustrator 2022). The project presents a bioclimatic architectural design that integrates constructive techniques ensuring thermal comfort in a warm-humid climate, while promoting the use of clean technologies such as photovoltaic solar systems generating 15,571.8 kWh per year and a rainwater harvesting system collecting 70,675 L annually. The infrastructure is built with bamboo and locally sourced wood, renewable materials that ensure durability and low environmental impact. In addition, the design includes the reforestation of 17.92% of the total area and 3.46% of public spaces, incorporating native species such as Brazil nut, rosewood, and capirona to reinforce local biodiversity. Overall, this research demonstrates how low-carbon construction, renewable materials, and bioclimatic design can contribute to sustainable development, environmental awareness, and the preservation of natural ecosystems in tropical regions. Full article

Orchids exhibit remarkable diversity in terms of form, color, and fragrance, and are highly valued for their ornamental potential. In the Brazilian Cerrado, several native epiphytic species, including Cattleya cernua (Lindl.), are increasingly threatened by habitat loss and uncontrolled wild harvesting, leading to significant genetic erosion. In this context, conservation strategies and the development of optimized in vitro culture protocols are essential for preserving these species. This study optimized in vitro growth and established an acclimatization protocol for C. cernua by evaluating the effects of salt and sucrose concentrations, plant flour supplementation, and substrate types and fertilizer levels on acclimatization performance. Results indicated that the MS medium at 25% supplemented with 10 g L⁻¹ sucrose promoted the greatest shoot growth, number of leaves, and pseudobulb formation. The addition of cashew nut flour at 10 g L⁻¹ significantly enhanced both shoot and root development, increasing leaf and root numbers compared to other treatments. Data showed that coconut fiber, even without fertilization, supported high survival rates and robust plant growth. Collectively, these findings demonstrate that the in vitro growth of Cattleya cernua is most effectively achieved using MS medium at 25% strength supplemented with 10 g L⁻¹ sucrose and 10 g L⁻¹ cashew flour, followed by acclimatization in coconut fiber without additional fertilization. This protocol represents an efficient, sustainable strategy for propagating and conserving this native Cerrado orchid species. Full article

Non-specific lipid transfer proteins (nsLTPs) constitute a widely distributed family of plant allergens with substantial clinical relevance, particularly in food allergy. Their marked thermal and proteolytic stability enables them to provoke reactions ranging from mild local symptoms to severe anaphylaxis. This narrative review synthesises current knowledge on nsLTP allergens, focusing on their molecular characteristics, taxonomic distribution, exposure routes, and clinical impact. Major allergenic sources include fruits, nuts and seeds, vegetables and cereals, as well as various pollens. Across these sources, Pru p 3 has emerged as the central and most extensively studied allergen, frequently acting as the primary sensitiser and exhibiting broad cross-reactivity with homologous nsLTPs from diverse plant species. Despite growing evidence, significant knowledge gaps remain regarding sensitisation pathways, environmental modifiers, and phenotype stratification. Continued research is required to improve diagnostic precision and guide the development of targeted therapeutic strategies for patients with nsLTP-mediated allergy. Full article

Korean pine (Pinus koraiensis) is a vital woody oil tree species native to Northeast Asia, with its pine nuts serving as the primary global source of edible pine nuts globally due to their rich nutritional content. Currently, seed yield from Korean pine is low and unstable, failing to meet the market demand. The limited number of female cones is the primary factor restricting its yield. MADS-box family members are crucial in regulating the initiation, differentiation, and morphogenesis of floral organs. However, systematic identification and characterization of MADS-box proteins in Korean pine have not been reported. This study utilized transcriptome data from reproductive and vegetative buds during the flower bud differentiation stage of Korean pine to comprehensively identify MADS-box family members through bioinformatics analysis and molecular biology approaches. A total of 37 PkMADS-box genes were identified, including 6 type I and 31 type II (MIKC) genes, which were classified into 8 subfamilies. The physicochemical properties, conserved domains, conserved motifs, protein structures, gene expression profiles, and protein–protein interaction networks of these genes were analyzed. Key genes associated with physiological differentiation (flower induction) and sexual organogenesis were identified based on expression patterns during flower bud differentiation and flower organ development. Among these, PkMADS4 and PkMADS26 are likely involved in positively regulating flower induction, while PkMADS9 plays a role in the morphological differentiation of sexual organs in a dose-dependent manner and overexpression of PkMADS9 promoting early flowering in transgenic Arabidopsis. These genes were also identified as key candidates for regulating reproductive phase changes and strobilus development. This study provides a theoretical foundation for further investigation of MADS-box genes in reproduction and offers insights into genetic improvements aimed at enhancing the seed yield of Korean pine. Full article

Castanea henryi is an important economic tree species in China. Its nutrient-rich nuts play a key role in raising farmers’ income in mountainous areas, promoting forestry industry development, and maintaining ecological balance, thereby providing significant economic and ecological value. To systematically elucidate the genetic characteristics of major C. henryi cultivars in China, this study conducted phenotypic trait measurements on 42 cultivars collected from Taining and Jian’ou in Fujian Province. Combined with whole-genome resequencing technology and using the C. henryi genome as a reference, systematic analyses were carried out. The results indicated that the Jian’ou group (HJO) generally exhibited superior performance in key fruit phenotypic traits compared to the Taining group (HTNC), with greater phenotypic diversity observed within the HJO group. Clustering analysis of phenotypic traits further revealed a cross-geographic convergent clustering pattern among the 42 C. henryi cultivars. Further analysis revealed that the overall genetic diversity of the 42 C. henryi cultivars was relatively low (observed heterozygosity: HJO = 0.0275, HTNC = 0.0194). Notably, parameters such as heterozygosity, minor allele frequency, nucleotide polymorphism, and polymorphic information content were slightly higher in the Jian’ou group compared to the Taining group. Divergent selection signal analysis (Fst top 5%) identified 3129 genomic regions under divergent selection. Genes within these regions showed homology to 1205 Arabidopsis thaliana genes, reflecting adaptive divergence driven by differential historical selection pressures between the two groups. Population genetic structure analysis indicated that the two regional groups exhibit high genetic similarity and low differentiation. This study reveals low genetic diversity and high genetic background homogeneity among C. henryi cultivars, findings that could inform the design of future breeding strategies. Full article

Vitellaria paradoxa subsp. paradoxa C.F.Gaertn., is one of the most important components of sub-Saharan agroforestry systems, providing to rural communities, especially women, with socio- economic, environmental, and nutritional benefits. Despite its importance, the species is threatened and remains semi-domesticated. To better preserve and improve this resource, the genetic diversity and structure of 88 mother trees originated from Senegal and Burkina Faso were studied by analysing 17 phenotypic traits and 3196 SNP markers. The results revealed similar level of observed heterozygosity (Ho) between the Senegalese and Burkinabe populations (Ho = 0.16), whereas the average number of alleles per population (Na) and the expected heterozygosity (He) ranged from 0.33 to 0.34 and 0.38 to 0.39, respectively, indicating moderate to low genetic diversity. Furthermore, the polymorphic information content ranged from 0.15 for Senegal to 0.25 for Burkina Faso. Both ADMIXTURE and cluster analysis delineated our collection into two groups depending on the origin. The AMOVA showed that the highest fraction of variation was within individual, indicating a very low genetic differentiation (Fst = 0.0006) between population. At the phenotypic level, the G2 cluster representing the Senegalese genepool recorded the highest performance in terms of nut and kernel attributes, cariten and unsaponifiable matters contents, while higher crude fat, Diglyceride, Triglyceride, and Triacylglycerol Mono Stearoyl Olein Stearin contents were observed in the Burkina Faso collection (G1). The present findings on the species’ genetic diversity and genetic structure constitute a good start to strengthen the species tree improvement and conservation programs. Full article

Bartonella henselae is a flea-borne zoonotic bacterium for which domestic cats constitute the principal reservoir. However, contemporary molecular epidemiological data from Portugal remain scarce. This retrospective laboratory study analysed EDTA-stabilised blood samples from apparently healthy cats submitted for routine screening by 74 veterinary centres across mainland Portugal and autonomous regions over an 11-year period (2015–2025). DNA extracts were tested using a species-specific TaqMan qPCR assay for B. henselae with an internal extraction control, and a subset of samples was subsequently confirmed by nested PCR followed by Sanger sequencing (ribC). Among 270 cats, 47 tested positive, yielding a qPCR prevalence of 17.4% (95% confidence interval [CI] 13.1–22.5). Submissions were predominantly from Northern Portugal, and infection status was not statistically associated with the Nomenclature of Territorial Units for Statistics (NUTS) level 2 region (p = 0.478). Infection was more frequent in younger cats (median age 2 years, interquartile range [IQR] 1–5; p = 0.037), while sex (p = 0.103) and breed (p = 0.730) were not significantly associated with infection status. These findings support endemic circulation of B. henselae in Portuguese cats at levels comparable to other temperate European regions. The detection of subclinical infection in apparently healthy cats is relevant to transfusion medicine and supports the inclusion of B. henselae qPCR screening in donor selection protocols. Full article

Background/Objectives: Chagas disease, caused by Trypanosoma cruzi, remains a major neglected tropical disease with limited therapeutic options restricted to benznidazole and nifurtimox, both associated with significant toxicity and reduced efficacy during chronic infection. Seeking novel, safe, and sustainable chemotherapeutic candidates, two new saturated cardanol-derived phospholipid analogs—LDT10 and LDT119—were rationally designed based on the molecular scaffold of miltefosine and biosourced from cashew nut shell liquid (CNSL). This study aimed to evaluate the pharmacokinetic properties of these compounds in silico and assess their antiparasitic activity, cytotoxicity, and morphological and ultrastructural effects on all developmental forms of T. cruzi in vitro. Materials and Methods: In silico ADMET predictions (SwissADME, pkCSM) were performed to determine bioavailability, pharmacokinetic behavior, CYP inhibition, mutagenicity, and hepatotoxicity. Antiproliferative activity was evaluated in epimastigotes, trypomastigotes, and intracellular amastigotes using dose–response assays and flow cytometry. Cytotoxicity was assessed in HEPG2 and HFF-1 cells using resazurin-based viability assays. Morphological and ultrastructural alterations were investigated through scanning (SEM) and transmission (TEM) electron microscopy. Reactive oxygen species (ROS) generation was quantified with H₂DCFDA after 4 h and 24 h of exposure. Results: In silico analyses indicated favorable drug-like profiles, high intestinal absorption (>89%), absence of mutagenicity or hepatotoxicity, and non-penetration of the blood–brain barrier. LDT10 was not a P-gp substrate, and LDT119 acted as a P-gp inhibitor, suggesting reduced efflux and higher intracellular retention. Both compounds inhibited epimastigote proliferation with low IC₅₀ values (LDT10: 0.81 µM; LDT119: 1.2 µM at 48 h) and reduced trypomastigote viability (LD₅₀ LDT10: 2.1 ± 2 µM; LDT119: 1.8 ± 0.8 µM). Intracellular amastigotes were highly susceptible (IC₅₀ LDT10: 0.48 µM; LDT119: 0.3 µM at 72 h), with >90% inhibition at higher concentrations. No cytotoxicity was observed in mammalian cells up to 20 µM. SEM revealed membrane wrinkling, pore-like depressions, rounded cell bodies, and multiple flagella, indicating cell division defects. TEM showed Golgi disorganization, autophagic vacuoles, mitochondrial vesiculation, and abnormal kinetoplast replication, while host cells remained structurally preserved. Both compounds induced significant ROS production in trypomastigotes after 24 h in a dose-dependent manner. Conclusions: LDT10 and LDT119 exhibited potent and selective in vitro activity against all developmental stages of T. cruzi, with low micromolar to submicromolar IC₅₀/LD₅₀ values, minimal mammalian cytotoxicity, and extensive morphological and ultrastructural damage consistent with disruption of phospholipid biosynthesis pathways. Combined with favorable in silico pharmacokinetic predictions, these CNSL-derived phospholipid analogs represent promising candidates for future Chagas disease chemotherapy and warrant further in vivo evaluation. Full article