Search Results (49)

Intercropping is a specific agricultural practice where multiple crops are alternately planted in the same field, focusing on optimizing crop interactions and resource use. The key advantages of this approach encompass the complementary ecological niches of crops, which facilitate efficient resource utilization, promote soil microbial diversity, and ultimately lead to enhanced crop yield and quality. Within this context, rhizosphere microorganisms play a pivotal role in plant growth, not only maintaining crop health but also augmenting resistance to various stressors through intricate mechanisms, such as colonizing the plant rhizosphere to produce phytohormones that stimulate plant growth, activating plant defense systems, and competitively excluding soil pathogens. Abelmoschus manihot (A. manihot) is widely distributed and possesses medicinal value; thus, it is utilized to treat a variety of diseases. When cultivating A. manihot, we hope to make rational use of limited planting space, while ensuring the yield of A. manihot and enhancing its medicinal quality. Therefore, a field experiment was conducted in which two planting patterns for A. manihot were designed. Monocropping plots featured A. manihot planted at 0.3 m intervals with a row spacing of 0.5 m. In the intercropping plots, A. manihot was also planted at 0.3 m intervals, maintaining a row spacing of 0.5 m. Furthermore, Eucommia ulmoides (E. ulmoides) was planted at 0.3 m intervals, with a row spacing of 0.25 m between A. manihot and E. ulmoides. Through the field experiment, we evaluated the effects of monocropping and intercropping with E. ulmoides on the quality and biomass of A. manihot, as well as the rhizosphere microbial community structure. The results showed that intercropping can promote the growth of A.manihot, especially by increasing the number of flowers and fruits, but the quality of the medicinal properties is not affected. Specifically, in 2024, the number of flowers in the intercropping plants was 20 ± 2, compared to 13 ± 2 in the monocropping; in 2023, the number of fruits in the intercropping plants was 19 ± 2, compared to 13 ± 2 in the monocropping; and in 2024, the number of fruits in the intercropping plants was 20 ± 2, compared to 13 ± 2 in the monocropping. This effect is due to the self-regulation of A. manihot in response to the biological stress from E. ulmoides. The composition and function of the A. manihot rhizosphere fungal community in the intercropping system changed significantly, which may be the reason for the growth and development of A. manihot. This discovery reveals the potential of intercropping as an agricultural practice in promoting plant growth and increasing yield. Intercropping with E. ulmoides significantly promoted the growth of A. manihot, increasing the number of its flowers and fruits without compromising the quality of its medicinal properties. This finding offers valuable insights for agricultural production: by employing rational intercropping configurations, crop yields can be increased without compromising crop quality. Full article

Parkinson’s disease (PD) is the second most common progressive neurodegenerative disorder, affecting an increasing number of older adults. Despite extensive research, a definitive cure remains elusive. Eucommia ulmoides Oliv. leaves (EUOL) have been reported to exhibit protective effects on neurodegenerative diseases, however, their efficacy, key active constituents, and pharmacological mechanisms are not yet understood. This study aims to explore the optimal constituents of EUOL regarding anti-PD activity and its underlying mechanisms. Using a zebrafish PD model, we found that the 30% ethanol fraction extract (EF) of EUOL significantly relieved MPTP-induced locomotor impairments, increased the length of dopaminergic neurons, inhibited the loss of neuronal vasculature, and regulated the misexpression of autophagy-related genes (α-syn, lc3b, p62, and atg7). Assays of key regulators involved in PD further verified the potential of the 30% EF against PD in the cellular PD model. Reverse phase protein array (RPPA) analysis revealed that 30% EF exerted anti-PD activity by activating 4E-BP1, which was confirmed by Western blotting. Phytochemical analysis indicated that cryptochlorogenic acid, chlorogenic acid, asperuloside, caffeic acid, and asperulosidic acid are the main components of the 30% EF. Molecular docking and surface plasmon resonance (SPR) indicated that the main components of the 30% EF exhibited favorable binding interactions with 4E-BP1, further highlighting the roles of 4E-BP1 in this process. Accordingly, these components were observed to ameliorate PD-like behaviors in the zebrafish model. Overall, this study revealed that the 30% EF is the key active constituent of EUOL, which had considerable ameliorative effects on PD by up-regulating 4E-BP1. This suggests that EUOL could serve as a promising candidate for the development of novel functional foods aimed at supporting PD treatment. Full article

Eucommia ulmoides Oliv., commonly known as “plant gold”, is a species of the Eucommiaceae family, native to East Asia and widely utilized in medicine, food, and the chemical industry. In Traditional Chinese Medicine, the bark of E. ulmoides plays a special role, used to nourish the liver and kidneys and to strengthen tendons and bones. Due to its extensive pharmacological profile, including anti-inflammatory, antioxidant, hypoglycemic, hypotensive, and cardio- and neuroprotective effects, there has been growing interest in elucidating the molecular mechanisms underlying its biological effects. However, many of these mechanisms remain poorly understood to date. This study analyzed the phytochemical composition of E. ulmoides bark infusions and tinctures and their dominant compounds using the HPLC-DAD-MS/MS method, and evaluated their anti-inflammatory effects in human immune cell models. The analysis identified lignans, iridoids, and caffeic acid derivatives as the dominant constituents of the tested samples. The extracts significantly inhibited the secretion of pro-inflammatory cytokines (TNF-α, IL-6, IL-8, MCP-1) in neutrophils, PBMC-derived monocytes/macrophages, and THP-1 cells. The results presented herein offer significant insights into the detailed phytochemical composition of E. ulmoides bark, and contribute to a deeper understanding of its anti-inflammatory mechanisms in human immune cells. Full article

The purpose of this research was to establish an effective method for extracting phenolic compounds from Eucommia ulmoides leaves. Seven different deep eutectic solvents (DESs) were prepared, and ultrasonic-assisted technology was employed to optimize the extraction parameters. Factors such as the DES molar ratio, water content, liquid-to-solid ratio, ultrasonic duration, temperature, and power were systematically investigated. The optimal extraction conditions were determined to include a choline-chloride-to-ethylene-glycol molar ratio of 1:4, 30% water content, a liquid-to-solid ratio of 40:1 mL/g, an ultrasonication time of 48 min, a temperature of 53 °C, and ultrasonication power of 60%. Under these optimized conditions, the yields of phenolic compounds and flavonoids reached 17.16 mg/g and 48.23 mg/g, respectively, which were significantly higher (p < 0.05) than those obtained by traditional extraction methods. These findings indicate that the use of ultrasonic-assisted DES extraction notably improved the content of active compounds and the antioxidant properties of the extracts. Fourier transform infrared spectroscopy and scanning electron microscopy analyses revealed that this method promotes the release of active compounds by disrupting the integrity of the cell walls. This research offers a theoretical foundation and practical guidance for the efficient utilization and advanced processing of E. ulmoides leaves. Full article

Ischemic stroke ranks as the second leading cause of global mortality. The limited time for effective thrombolytic treatment has prompted the exploration of alternative prevention approaches. Eucommia ulmoides (E. ulmoides) Oliv. bark has shown multiple pharmacological effects, including neuroprotection, anti-inflammation and autophagy modulation. This study aims to elucidate the neuroprotective effects of water extract of E. ulmoides (WEU) supplementation in a middle cerebral artery occlusion (MCAO) mouse model and to further explore the underlying molecular mechanisms. Seven bioactive compounds in WEU—aucubin, chlorogenic acid, geniposidic acid, quercetin, protocatechuic acid, betulin and pinoresinol diglucoside—were identified using HPLC-MS. Our results showed that WEU supplementation significantly decreased infarct volume and ameliorated neurological dysfunction in mice following MCAO/reperfusion (MCAO/R) injury. Furthermore, the administration of WEU significantly attenuated microglia activation induced by cortical ischemia in mice and inhibited the production of pro-inflammatory mediators, including interleukin-1β (IL-1β), interleukin-6 (IL-6) and tumor necrosis factor-α (TNF-α). Importantly, in contrast with the vehicle group, the protein expression levels of Toll-like receptor 4 (TLR4), phospho-p38 (p-p38) and nuclear factor kappa B (NF-κB) were reduced in the WEU group. Therefore, this present study provides evidence that E. ulmoides improves neurological behaviors by suppressing neuroinflammation and inhibiting the activation of the TLR4/ p38 MAPK and NF-κB pathways in mice after ischemia, which indicates that E.ulmoides is a promising candidate for alleviating gray matter ischemic change. Full article

Soluble inorganic pyrophosphatase (s-PPase), a pyrophosphate hydrolase, is crucial for various physiological processes including plant growth and development, metabolic functions, and responses to abiotic stresses. However, research on s-PPase in woody plants is limited. To investigate the potential role of soluble inorganic pyrophosphatase in Eucommia ulmoides Oliver (E. ulmoides) in drought stress, the E. ulmoides soluble inorganic pyrophosphatase 5 (EuSIP5) cDNA sequence was amplified via RT-PCR. A bioinformatic analysis suggested that EuSIP5 may be an unstable amphipathic protein predominantly localized in the cytoplasm. In E. ulmoides, the highest expression of the EuSIP5 gene was detected in the leaves and pericarp of male plants from April to October, and in the leaves in July and September. Under drought conditions, the expression of EuSIP5 in E. ulmoides leaves was significantly greater than that in the control. An overexpression vector containing EuSIP5 was constructed and introduced into Nicotiana tabacum L. cv. Xanthi (N. tabacum L.). Compared with that in wild-type (WT) plants, wilting in N. tabacum L. EuSIP5-overexpressing (OE) plants was delayed by 4 days under drought stress. Additionally, the expression levels of the drought-related genes DET2, CYP85A1, P5CS, ERF1, F-box, and NCED1 were elevated in the leaves of transgenic N. tabacum L. Moreover, the activities of the protective enzymes peroxidase, superoxide dismutase, and catalase were significantly greater, whereas the malondialdehyde content was lower in the transgenic plants than in the WT plants. These findings suggest that the introduction of the EuSIP5 gene into N. tabacum L. enhances drought-related gene expression, increases antioxidant capacity, and reduces oxidative stress damage, thereby improving drought resistance. Full article

An innovative iron supplement crucial for treating iron-deficiency anemia was developed in this study. Polysaccharide was extracted from Eucommia ulmoides leaves using a microwave-assisted hot water method, and subsequently, the polysaccharide–iron complex was synthesized through co-thermal synthesis with FeCl₃. The physicochemical properties, structure, and thermal stability of the complex were analyzed using FE-SEM, SEC-MALLS, FT-IR, XRD, and DSC techniques. Furthermore, the antioxidant activity of the polysaccharide–iron complex was evaluated through an experiment in vitro. The results revealed that the polysaccharide–iron complex had an iron content of 6.1% and an average particle size of 860.4 nm. The microstructure analysis indicated that the polysaccharide–iron complex possessed a flaky morphology with smooth and compact surfaces. Moreover, the formation of the Fe³⁺ complex did not alter the structural framework of the polysaccharide; instead, it enhanced the polysaccharide’s thermal stability. Compared to traditional iron supplements, the E. ulmoides-derived polysaccharide–iron complex demonstrated significant antioxidant activity. Therefore, this novel compound exhibits significant potential as a viable iron supplement. Full article

Eucommia ulmoides Oliver with rich active components, such as flavonoids, lignans, polysaccharides, is used as a medicinal plant. Unfortunately, its popularization and cultivation are limited due to its low-temperature sensitivity. In this study, we aimed to explore the effect of different doses of ultraviolet-B (UV-B) radiation (UV-1, UV-2, and UV-3) and low-temperature (LT) stress, both applied individually and in combination, on the photosynthetic properties, biochemical parameters, and the contents of salicylic acid in E. ulmoides plants. The results showed that UV-B radiation alone significantly reduced photosynthetic performance and soluble total sugar content, as well as causing increases in soluble protein, proline, and superoxide anion content and antioxidant activity including SOD, POD, CAT, total phenol, and total flavonoid content. The leaf thickness and photosynthetic parameters significantly increased, as well as a significant decrease in SOD activity and soluble sugar, proline, and superoxide anion content after 14 days of none-UV-B radiation exposure. UV-B combined with LT significantly improved photosynthetic properties, Chl content, and soluble sugar content but significantly decreased proline content. Principal component analysis showed that salicylic acid was the key factor in improving LT tolerance, and UV-2 radiation showed the best LT resistance. We aim to provide new ideas and a theoretical basis for the directional cultivation and LT stress tolerance research of E. ulmoides. Our findings demonstrate that the combined effect was more positively helpful in improving the ability to resist LT tolerance via the improvement of photosynthetic ability and the increase in soluble sugar and salicylic acid content in E. ulmoides. Full article

Although the water extract of Eucommia ulmoides leaf (WEE) promotes egg laying in hens, its palatability is poor. To improve the palatability of E. ulmoides leaf, probiotic fermentation was used, and fermented extract E. ulmoides leaf (FEE) was prepared using Lactiplantibacillus plantarum. The safety of FEE was investigated using a long-term toxicity test, and no oxidative damage, inflammatory reactions, or histological lesions were observed in the experimental rats receiving dietary supplementation of FEE at 200 mg/kg, suggesting that FEE is suitable for long-term feeding. Subsequently, dietary supplementation of FEE (group C) in comparison with dietary supplementation of WEE (group B), as well as a control (group A), was applied in the hen industry. Laying performance, egg quality, egg nutrition, egg flavor, and the gut microbiome were analyzed comparatively. Interestingly, the laying rate was observed to be four percentage points higher with dietary supplementation of FEE at 200 mg/kg compared with the control and two percentage points higher compared with the dietary addition of WEE at the same dosage. Simultaneously, a slight upregulation in daily feed consumption was determined in the FEE-supplemented group compared with the blank control and the WEE-supplemented group, indicating that the inclusion of FEE stimulated the hens’ appetite. Moreover, variations in egg amino acids, fatty acids, and volatile components were obtained with either dietary addition, FEE or WEE, implying that dietary supplementation of the fermented and water-extracted E. ulmoides leaf extracts contributed to egg flavor change. Furthermore, variations in the gut microbiota were mediated by FEE, increasing the relative abundance of the genus Lactobacillus. These alterations in gut microbiota were tightly related to improved laying performance and egg flavor changes. Our results indicate that FEE is a better alternative feed additive in the hen industry than WEE. Full article

The roots, stems, leaves, and seeds of Eucommia ulmoides contain a large amount of trans-polyisoprene (also known as Eu-rubber), which is considered to be an important laticiferous plant with valuable industrial applications. Eu-rubber used in industry is mainly extracted from leaves. Therefore, it is of great significance to identify genes related to regulating the leaf size of E. ulmoides. Plant growth-regulating factors (GRFs) play important roles in regulating leaf size, and their functions are highly conserved across different plant species. However, there have been very limited reports on EuGRFs until now. In this study, eight canonical EuGRFs with both QLQ and WRC domains and two putative eul-miR396s were identified in the chromosome-level genome of E. ulmoides. It is found that, unlike AtGRFs, all EuGRFs contain the miR396s binding site in the terminal of WRC domains. These EuGRFs were distributed on six chromosomes in the genome of E. ulmoides. Collinearity analysis of the E. ulmoides genome revealed that EuGRF1 and EuGRF3 exhibit collinear relationships with EuGRF2, suggesting that those three genes may have emerged via gene replication events. The collinear relationship between EuGRFs, AtGRFs, and OsGRFs showed that EuGRF5 and EuGRF8 had no collinear members in Arabidopsis and rice. Almost all EuGRFs show a higher expression level in growing and developing tissues, and most EuGRF promoters process phytohormone-response and stress-induced cis-elements. Moreover, we found the expression of EuGRFs was significantly induced by gibberellins (GA₃) in three hours, and the height of E. ulmoides seedlings was significantly increased one week after GA₃ treatment. The findings in this study provide potential candidate genes for further research and lay the foundation for further exploring the molecular mechanism underlying E. ulmoides development in response to GA₃. Full article

As a primary approach to nutrient propagation for many woody plants, cutting roots is essential for the breeding and production of Eucommia ulmoides Oliver. In this study, hormone level, transcriptomics, and metabolomics analyses were performed on two E. ulmoides varieties with different adventitious root (AR) formation abilities. The higher JA level on the 0th day and the lower JA level on the 18th day promoted superior AR development. Several hub genes executed crucial roles in the crosstalk regulation of JA and other hormones, including F-box protein (EU012075), SAUR-like protein (EU0125382), LOB protein (EU0124232), AP2/ERF transcription factor (EU0128499), and CYP450 protein (EU0127354). Differentially expressed genes (DEGs) and metabolites of AR formation were enriched in phenylpropanoid biosynthesis, flavonoid biosynthesis, and isoflavonoid biosynthesis pathways. The up-regulated expression of PAL, CCR, CAD, DFR, and HIDH genes on the 18th day could contribute to AR formation. The 130 cis-acting lncRNAs had potential regulatory functions on hub genes in the module that significantly correlated with JA and DEGs in three metabolism pathways. These revealed key molecules, and vital pathways provided more comprehensive insight for the AR formation mechanism of E. ulmoides and other plants. Full article

The effect of pruning treatments on growth, photosynthesis characteristics, and metabolites were was studied in Eucommia ulmoides Oliver (E. ulmoides). The experiment was carried out from March–August 2019. Three treatments were used: non-pruned trees (CK), a height of 20 cm above the top edge of the flowerpot (T1), and a height of 10 cm above the top edge of the flowerpot (T2). The results showed that the branches branch number, leaves leaf number, and stem diameter increased significantly (p < 0.05) in pruning treatments compared with CK. Similarly, the net photosynthetic rate (Pn), stomatal conductance (Gs), transpiration rate (Tr), maximum photosynthetic efficiency (Fv/Fm), and non-photochemical quenching coefficient (NPQ) increased significantly in pruning treatments (p < 0.05). Interestingly, the contents of Chl a, Chl b, Chl, Car, and the rate between the Chl a content and the Chl b content increased significantly (p < 0.05) in T2, respectively. These verified that it was a better way to enhance the plants growth of E. ulmoides for pruning treatments. The GC-MS analysis showed that 36 different primary metabolites were identified, including 11 sugars, 13 acids, 5 alcohols, and 7 other compounds, the relative content of their metabolites were was higher in the T2 treatment than that in the T1 treatment, which was mainly concentrated in four main enrichment pathways (Galactose metabolism; Citrate cycle; Glyoxylate and dicarboxylate metabolism; and starch and sucrose metabolism) via KEGG analysis. Meanwhile, correlation analysis showed there were was a positive correlation between the accumulation of D-Galactose, D-Mannose, Succinic acid, and photosynthetic pigment content, and the rate of photosynthesis in T2 treatment (p < 0.05). The pruning height above the top edge of the flowerpot changed the accumulation of primary metabolites and promoted plant regeneration ability in E. ulmoides. Finally, the yield of main secondary metabolites from leaves (Genipin, Geniposide, Geniposidic acid, and Pinoresinol diglucoside) were was increased in pruning treatments by UPLC analysis. It provided a reference for the directional ecological cultivation of E. ulmoides. Full article

This study aimed to explore the influence of temperature on the growth and isoprene metabolism pathways of Eucommia ulmoides seedlings. Growth indices and levels of rubber and total triterpenoids in leaves were assessed under three temperature treatments: low (15 °C/10 °C), control (25 °C/20 °C), and high (35 °C/30 °C). High-throughput sequencing identified 2309 differentially expressed genes, of which 1608 were upregulated and 701 were downregulated. After 40 days, leaf length, leaf width, and plant height were significantly lower in low- and high-temperature treatments compared with the control. Specific leaf weight was higher in LT-treated leaves. Chlorophyll a and b contents were 1.372 mg.g⁻¹ and 0.594 mg.g⁻¹, respectively, in control leaves, followed by low- and high-temperature treatments. Carotenoid content was the highest in LT treatment. The rubber content of LT and HT groups significantly decreased by 16.5% and 38%, respectively, compared with that of the control group. Total triterpene content was the lowest in control leaves at 1.02%, which was 30% and 20% less than that in low- and high-temperature treatments, respectively. This study provides insights into the efficient cultivation of E. ulmoides and the regulatory network of secondary metabolic pathways. Full article

The MYB transcription factor family is one of the largest families of plant transcription factors (TFs), and it plays a vital role in the entire process of a plant’s growth and development. Well known in China, Eucommia ulmoides (E. ulmoides) produces a form of natural rubber called Eucommia ulmoides gum (EUG). Nevertheless, there is little research on the evolutionary history and expression patterns of its MYBs, as well as on the regulation of EUG by MYB TFs. This research provides a comprehensive description, classification, and potential functional analysis of the EuMYB gene family. A total of 119 MYB members of E. ulmoides were identified based on the whole genome sequencing data, and their gene structure, phylogenetics, chromosome location, conserved motifs, etc., were analyzed. Based on the phylogenetic tree results, EuMYBs could be divided into 35 sub-groups. In addition, chromosomal localization and collinearity analysis revealed the heterogeneous distribution of the MYB family in the E. ulmoides’ genome, indicating the expansion of its gene family. Moreover, promoter cis-acting elements showed that the promoter contained abundant light-responsive elements, anaerobic-induction-responsive elements, and abscisic-acid-responsive elements. A co-expression regulatory network between the EUG biosynthesis genes and the EuMYBs was built. Meanwhile, regarding the six EuMYBs with high expression in the gum-forming tissues selected that correlated with the farnesyl diphosphate synthase (FPS1) structural gene, RT-qPCR experiments showed a possible regulatory relationship between EuMYBs and FPS1, which played an important role in EUG biosynthesis. In conclusion, this paper defines a research gap and lays a foundation for further studies on the biological functions of EuMYBs. Full article

Eucommia ulmoides Oliver. (E. ulmoides) is a species of small tree native to China. It is a valuable medicinal herb that can be used to treat Alzheimer’s disease, diabetes, hypertension, and other diseases. In addition, E. ulmoides is a source of rubber. It has both medicinal and ecological value. As ecological problems become increasingly prominent, accurate information on the cultivated area of E. ulmoides is important for understanding the carbon sequestration capacity and ecological suitability zoning of E. ulmoides. In previous tree mapping studies, no studies on the spectral characteristics of E. ulmoides and its remote sensing mapping have been seen. We use Ruyang County, Henan Province, China, as the study area. Firstly, using the 2021 Gao Fen-6 (GF-6) Wide Field of View (WFV) time series images covering the different growth stages of E. ulmoides based on the participation of red-edge bands, several band combination schemes were constructed. The optimal time window to identify E. ulmoides was selected by calculating the separability of E. ulmoides from other land cover types for different schemes. Secondly, a random forest algorithm based on several band combination schemes was investigated to map the E. ulmoides planting areas in Ruyang County. Thirdly, the annual NPP values of E. ulmoides were estimated using an improved Carnegie Ames Stanford Approach (CASA) to a light energy utilization model, which, in turn, was used to assess the carbon sequestration capacity. Finally, the ecologically suitable distribution zone of E. ulmoides under near current and future (2041–2060) climatic conditions was predicted using the MaxEnt model. The results showed that the participation of the red-edge band of the GF-6 data in the classification could effectively improve the recognition accuracy of E. ulmoides, making its overall accuracy reach 96.62%; the high NPP value of E. ulmoides was mainly concentrated in the south of Ruyang County, with a total annual carbon sequestration of 540.104835 t CM⁻²·a⁻¹. The ecological suitability zone of E. ulmoides can be divided into four classes: unsuitable area, low suitable area, medium suitable area, and high suitable area. The method proposed in this paper applies to the real-time monitoring of E. ulmoides, highlighting its potential ecological value and providing theoretical reference and data support for the reasonable layout of E. ulmoides. Full article