Your search keyword '"Eschscholzia"' showing total 257 results

1. California Poppy Eschscholzia californica Family: Papaveraceae.

Author

Williams, Marisa, McKinsey, Erin, and Jenks, Aaron

Subjects

PLANT extracts, FLOWERS, COSMETICS, FOOD, MEDICINAL plants, MEDICINE, SEROTONIN receptors, CATECHOLAMINES, DIETARY supplements, GABA

Abstract

The article discusses the California poppy (Eschscholzia californica), a prominent wildflower in western North America recognized for its vibrant flowers and significant role in Indigenous healing traditions, as well as its status as the state flower of California. Topics include its cultural significance among Native Americans, its medicinal uses and cultivation, and its historical introduction to Europe and the connection to California's identity. 4o mini.

Published

2024

2. Comparative study on the morpho-physiological responses and alkaloids content in Eschscholzia californica cham to foliar applied α-Fe2O3 NPs and ferric ions

Author

Ghorbanpour, Mansour and Askary, Fatemeh

Published

2024

3. Comparative case study of evolutionary insights and floral complexity in key early-diverging eudicot Ranunculales models.

Author

Sharma, Bharti, Pandher, Mankirat Kaur, Alcaraz Echeveste, Ana Quetzali, Bravo, Marianellie, Romo, Rene Kenny, and Ramirez, Sarah Christine

Subjects

CROPS, ANGIOSPERMS, RANUNCULALES, PLANT genomes, CORN

Abstract

Famously referred to as "Darwin's abominable mystery," the rapid diversification of angiosperms over the last ~140 million years presents a fascinating enigma. This diversification is underpinned by complex genetic pathways that evolve and rewire to produce diverse and sometimes novel floral forms. Morphological innovations in flowers are shaped not only by genetics but also by evolutionary constraints and ecological dynamics. The importance of model organisms in addressing the long-standing scientific questions related to diverse floral forms cannot be overstated. In plant biology, Arabidopsis thaliana , a core eudicot, has emerged as a premier model system, with its genome being the first plant genome to be fully sequenced. Similarly, model systems derived from crop plants such as Oryza sativa (rice) and Zea mays (maize) have been invaluable, particularly for crop improvement. However, despite their substantial utility, these model systems have limitations, especially when it comes to exploring the evolution of diverse and novel floral forms. The order Ranunculales is the earliest-diverging lineage of eudicots, situated phylogenetically between core eudicots and monocots. This group is characterized by its exceptional floral diversity, showcasing a wide range of floral morphologies and adaptations that offer valuable insights into the evolutionary processes of flowering plants. Over the past two decades, the development of at least five model systems including, Aquilegia , Thalictrum , Nigella , Delphinium and Eschscholzia within the Ranunculales order has significantly advanced our understanding of floral evolution. This review highlights the conservation and divergence of floral organ identity programs observed among these models and discusses their importance in advancing research within the field. The review also delves into elaborate petal morphology observed in Aquilegia , Nigella , and Delphinium genera, and further discusses the contributions, limitations, and future research directions for Ranunculales model systems. Integrating these diverse models from the early-diverging eudicot order has enhanced our understanding of the complex evolutionary pathways that shape floral diversity in angiosperms, bridging the knowledge gaps essential for a comprehensive understanding of floral evolution. [ABSTRACT FROM AUTHOR]

Published

2024

4. Identification and characterization of Entyloma eschscholziae, a recently introduced pathogen in Europe, and its segregate Entyloma dendromeconis sp. nov.

Author

Piątek, Marcin, Lutz, Matthias, Kruse, Julia, and Stryjak‐Bogacka, Monika

Subjects

*INTRODUCED species, *GENETIC barcoding, *HOST plants, *GRASSLAND soils, *NATURE reserves, *PHYLOGENY, *PLATEAUS

Abstract

Entyloma includes pathogenic and saprobic species that infect or colonize dicotyledonous host plants. Although most Entyloma species are known only from native areas of occurrence, some species were introduced with their host plants and spread outside their natural areas. The identification of introduced species is important for detection and management of invasive species. In this study, the morphology, phylogeny and species boundaries of Entyloma eschscholziae, recently introduced from North America to Europe, are revisited. Morphology was similar among the type and other specimens of E. eschscholziae analysed on Eschscholzia californica. Both asexual and sexual morphs were observed. The rDNA ITS1‐5.8S‐ITS2 sequences of the E. eschscholziae specimens from Europe and New Zealand and the environmental sequence obtained from grassland soil in California, United States, were identical. Morphological and molecular analyses confirm that the causative agents of white smut on E. californica in native (North America) and introduced (Europe, New Zealand) areas belong to the same species. DNA barcodes obtained in this study (especially ITS sequence from the designated epitype specimen) could be used to facilitate its molecular identification. Specimens on Dendromecon rigida, previously assigned to E. eschscholziae, are morphologically distinct. An attempt to obtain DNA barcode data from degraded holotype material was not successful and no more recent material is available. However, based on the morphological differences and high host specificity found in Entyloma spp., it is appropriate to describe a new species, Entyloma dendromeconis, for this smut pathogen. [ABSTRACT FROM AUTHOR]

Published

2024

5. ПЕРВИННА ДИСМЕНОРЕЯ: ПАТОФІЗІОЛОГІЯ, УДОСКОНАЛЕННЯ МОЖЛИВОСТЕЙ ДІАГНОСТИКИ ТА ЛІКУВАННЯ.

Author

Фартушок, Т. В. and Фартушок, Н. В.

Abstract

Primary dysmenorrhea is one of the types of gynecological pathology, the frequency of which is 45-53% in girls and young women aged 13 to 45 years, which is not given enough attention in diagnosis and treatment. The pathogenesis takes into account the increased secretion of prostaglandins F2α and E2 in the period from the beginning of pregnancy to birth, which cause pelvic pain. The diagnosis is based on the patient's history, symptoms, examination, the treatment is aimed at improving the quality of life by prescribing nonsteroidal antiinflammatory drugs, hormonal contraceptives and the use of non-medicinal means. Purpose: to specify some links in the pathogenesis of primary dysmenorrhea and, taking into account its multicomponent nature, to evaluate the effectiveness of the proposed treatment. Under observation there were 68 women who were divided into 2 groups: 34 women with primary dysmenorrhea (main group) and 34 healthy women (control group). The diagnosis of primary dysmenorrhea was established on the basis of complaints of patients about painful menstruation and accompanying symptoms during consultations with a gynecologist and endocrinologist. Treatment of patients in the main group was carried out with the drug, which includes Vitex agnus castus L, indinol-3-carbinol, 3,3-diindolyl-methane, extract of passionflower, California Eschscholzia. In women with typical symptoms, dysmenorrhea can be diagnosed on the basis of medical information without physical pelvic examination, empirical treatment should be initiated, including nonsteroidal anti-inflammatory drugs and/or oral contraceptives, because it is a functional condition resulting from an imbalance in the hormonal regulation of myometrial contraction. As a result of the proposed treatment, pain disappeared completely in 70% of patients (23/34), as well as vegetative-vascular (from 18 to 2% of patients), vegetative (from 10 to 1% of patients), metabolic and endocrine disorders (from 15 to 2% female patients), disorders of the emotional and mental sphere (from 25 to 10% of patients). Improvement in quality of life was noted by 80% (26/34) of patients, improvement in working capacity – by 70% (23/34) of patients, after 2 months – by 95% (31/34) and 85% (28/34), respectively, after 3 months all examined patients with primary dysmenorrhea noted an improvement in the quality of life and an increase in work capacity. Sexually active women with symptoms of inflammatory processes of the genital tract, severe dysmenorrhea should undergo pelvic examination. In view of safety and high therapeutic efficiency, the drug based on Vitex agnus castus can be offered for the treatment over the period lasting at least for3 months for girls and young women aged 13 to 45 years with primary dysmenorrhea. [ABSTRACT FROM AUTHOR]

Published

2024

6. UCSB Restoration Register - March 2024

Author

Bender, Jeremiah, Bender, Jeremiah, Chapman, Wayne, Stratton, Lisa, Bender, Jeremiah, Bender, Jeremiah, Chapman, Wayne, and Stratton, Lisa

Abstract

The Cheadle Center at UCSB manages more than 340 acres of open space between Ellwood Mesa and Goleta Slough, carrying out ecological restoration, research, and education projects at these sites. Characterized by a rich complex of oak woodland, coastal sage scrub, grassland, and wetland ecosystems, the area is known for its relatively high level of biodiversity. The Cheadle Center’s project sites and management areas serve to protect and strengthen the region’s ecology and ecosystems through habitat conservation, upland restoration, wetland creation and enhancement, and the implementation of sustainable stormwater management solutions. Through careful integration with local watersheds and surrounding natural areas, The Cheadle Center's management areas provide an important corridor and refuge for wildlife, ensure the long term preservation of the region's natural resources, and serve as outdoor classrooms, research sites, and recreational areas for the campus community and the public. This archived version of the March 2024 newsletter includes updates on wildlfowers, Ellwood Marine Terminal restoration, and the Ocean Meadows housing project. The feature story focuses on Genetic Diversity and California Poppy (Eschscholzia californica). Community photos include Belted Kingfisher (Megaceryle alcyon), Surf Scoter (Melanitta perspicillata), American Bittern (Botaurus lentiginosus), and more!

Published

2024

7. Correction: Plant cytochrome P450s directing monoterpene indole alkaloid (MIA) and benzylisoquinoline alkaloid (BIA) biosynthesis.

Author

Williams, Danielle and De Luca, Vincenzo

Abstract

This correction notice addresses an error in a review article about the biosynthesis of plant alkaloids. The original article incorrectly suggested that colchicine is a benzylisoquinoline alkaloid, when in fact it is a quinoline alkaloid derived from a different precursor. The correction provides accurate information about the pathways and enzymes involved in the biosynthesis of benzylisoquinoline alkaloids and colchicine. It also mentions the importance of studying other plants that produce these alkaloids for potential pharmaceutical applications. The correction notice includes a graph and references for further reading. [Extracted from the article]

Published

2024

8. Top jobs for... APRIL.

Author

CONWAY, TERESA

Subjects

FLOWERING of plants, SPRING

Abstract

This article from Country Homes & Interiors provides a list of top gardening tasks for the month of April. It suggests increasing watering and feeding of houseplants, soaking new perennials and shrubs before planting, clearing weeds in paths, deadheading bedding plants, and ordering summer flower varieties. The article also recommends sowing runner bean seeds, installing a water butt to collect rainwater, continuing to feed garden birds, and planting flower pouches. Additionally, it provides information on three seeds that can be sown in April: sunflowers, calendula, and eschscholzia. [Extracted from the article]

Published

2024

9. POPPY DAYS.

Author

CLAPP, LEIGH

Subjects

PAPAVERACEAE, SPRING, OILSEEDS, OPIUM poppy, PLANT succession

Abstract

This article from Country Homes & Interiors provides information on growing poppies in a garden. It explains that poppies come in various species and varieties, including annuals, perennials, and biennials. The article recommends planting poppies in the spring for a summer display, but also mentions that bare-root oriental poppies can be planted in late autumn or winter. The article provides tips on when and how to sow poppy seeds, as well as the ideal growing conditions for poppies. It also includes a list of specialist suppliers for poppy seeds and plants. [Extracted from the article]

Published

2024

10. Papaver rhoeas corn poppy, common poppy, the flanders poppy

Author

Dwyer, John

Published

2024

11. The transcriptomic and metabolomic profiles of E. californica revealed pathways related to drought stress response and close association with alkaloid biosynthesis.

Author

Song, Li, Jian, Linli, Yan, Bihan, Deng, Xihong, Qing, Long, Pu, Yue, Huang, Furong, Jiao, Zhiyao, Liu, Shuang, Zhou, Meng, Fu, Yujia, Gao, Yuan, and Huang, Zhuo

Subjects

*TRANSCRIPTION factors, *REACTIVE oxygen species, *DROUGHT tolerance, *GENETIC transcription regulation, *SUSTAINABLE agriculture, *ALKALOIDS

Abstract

Understanding the adaptability of plants to the environment will help us address the challenges posed by the constantly changing climate to sustainable agriculture and industry. The California poppy (Eschscholzia californica Cham.) of Papaveraceae is an ornamentally and medicinally valuable plant species, not only due to its beautiful flower, but also the strong abiotic stress tolerance and production of pharmacologicallly active alkaloids. However, little is known about the mechanisms of its drought tolerance and association with the alkaloids biosynthesis. In this study, significant morphological and physiological changes of E. californica under early and late drought stress were found. Subsequently, the transcriptomic and metabolomic dynamics between normal and drought conditions were independently and jointly analyzed. Transcriptome analysis identified 24,176 differentially expressed genes (DEGs), which were enriched in alkaloid biosynthesis, phytohormone synthesis and signal transduction pathways, amino acid biosynthesis, and reactive oxygen species scavenging, etc. A large number of DEGs encoding transcription factor represent a reservoir for transcriptional regulation of drought stress responses of E. californica. Metabolomic analysis detected 393 drought responsive differentially expressed metabolites (DEMs), predominant in alkaloids and phenolic acids. Consistency between DEGs and DEMs identified by joint analysis revealed critical pathways in response to drought in E. californica and its close association with alkaloid biosynthesis. This study provides new insights into the drought response mechanisms of E. californica. The contribution of alkaloids to drought tolerance is particularly worthy of further in-depth research. [Display omitted] • The first transcriptomic and metabolomic study of drought response in E. californica. • Essential pathways responding to drought were identified in E. californica. • Drought stress promotes biosynthesis of alkaloid , especially isoquinoline alkaloids. • A large number of drought responsive transcription factors were identified. [ABSTRACT FROM AUTHOR]

Published

2024

12. Rapid shifts in grassland communities driven by climate change.

Author

Zhu, Kai, Song, Yiluan, Lesage, Josephine C., Luong, Justin C., Bartolome, James W., Chiariello, Nona R., Dudney, Joan, Field, Christopher B., Hallett, Lauren M., Hammond, Michele, Harrison, Susan P., Hayes, Grey F., Hobbs, Richard J., Holl, Karen D., Hopkinson, Peter, Larios, Loralee, Loik, Michael E., and Prugh, Laura R.

Published

2024

13. Jean-Baptiste Payer (1818–1860), prolific botanist and enlightened French citizen: his legacy in flower development and a need for a new, global compendium.

Author

Sokoloff, Dmitry D., Remizowa, Margarita, Ronse De Craene, Louis P., Bachelier, Julien B., and Jabbour, Florian

Published

2024

14. Antidiabetic Phytoconstituents: From Traditional Medicine to Modern Drug Discovery.

Author

Albratty, Mohammed and Halawi, Maryam

Subjects

SYNTHETIC drugs, INSULIN secretagogues, DRUG discovery, INSULIN sensitivity, PANCREATIC secretions

Abstract

Background: The simplest form of carbohydrate that the human body can utilize efficiently to fuel various functions in our body is glucose. The food that is consumed by us in any form is acted upon by pancreatic juices, bile, and several other digestive enzymes and is converted into its simplest form, which is absorbed by the small intestine and is diffused into the circulatory system; from there, it is transported to other organs via GLUT-2 and GLUT-4 transporters. This process is very important, and so are the hormones involved in it. One such major hormone responsible for glucose homeostasis in the body is insulin. Its malfunction or that of either of its signaling components leads to a metabolic disorder termed "diabetes." Hyperglycemia is a grave condition associated with this complex disease and is of global concern. The impact of this disease can be life threatening if adequate precaution, medication, and therapy are overlooked. A plethora of synthetic drugs are available in the market, and the main goals of these antidiabetic medicines are to improve insulin sensitivity and/or production as well as to lower blood glucose levels. In all cases, frequent use of antidiabetic medication causes several after-effects. Results: Numerous studies in this field demonstrate that antidiabetic phytomolecules are highly effective against diabetes patients and are almost completely without side effects. Almost all classes of phytomolecules have been thoroughly evaluated to develop the noble plant-based drug. Conclusion: The current review discusses diabetes, its classification and management, worldwide occurrence, and the most crucial class of antidiabetic phytomolecules, for example, alkaloids, and terpenenoids as well as the parent molecule responsible for the bioactivity, subclasses, their mechanisms of action, plant sources and part, their superiority over synthetic drug, and new advances in this area. [ABSTRACT FROM AUTHOR]

Published

2024

15. Development of a Molecular Detection System for Argemone spp.

Author

Slishchuk, H. I., Volkova, N. E., and Zakharova, O. O.

Abstract

The analysis of nucleotide sequences of the Argemone genus samples by bioinformatics methods was aimed at the study of phylogenetic relationships of species within the genus, at the development of genus-specific primer pairs, and TaqMan-probe and their verification in silico. Molecular genetic studies by the polymerase chain reaction method in the "real-time" mode (RT-PCR) were devoted to checking the "performance" and specificity of the developed system of primers and TaqMan-probe using samples of eight species of Argemone and 11 species of other plants. Phylogenetic analysis using internal transcribed spacer 1 (ITS1) sequences confirmed previous phylogenetic studies and improved understanding of relationships within the genus. Before the in vitro test of the developed system of primers and TaqMan-probe, the ability of the extracted DNA to be amplified by the RT-PCR method using the system of primers and the TaqMan-probe to the 18S rRNA gene of eukaryotes was checked to exclude pseudo-negative results during the further verification of specificity. The conditions for RT-PCR were selected, namely, temperatures and times of denaturation, hybridization, elongation, and the number of cycles. The developed system of primers and TaqMan-probe for the RT-PCR method demonstrated high species specificity and sensitivity. Amplification was noted only in DNA samples of eight Argemone species, while PCR analysis of other plant species and negative controls showed no amplification. The detection limit of the developed system was determined to be 0.01%. It is proposed that this marker system be used to detect falsification in food and other products, particularly Argemone contamination in mustard or coconut oil. [ABSTRACT FROM AUTHOR]

Published

2024

16. Genome-wide identification, structural characterization and expression profiling of AP2/ERF gene family in bayberry (Myrica rubra).

Author

Liu, Yumeng, Cai, Linqi, Zhu, Jiali, Lin, Yue, Chen, Minghui, Zhang, Huiling, Fan, Xiurun, Xu, Kai, and Wu, Boping

Subjects

TRANSCRIPTION factors, GENE families, GENE expression, BLACK cottonwood, GENE expression profiling

Abstract

Background: Bayberry is the most economically significant fruit within the Myricaceae family, having high nutritional and medicinal value. The AP2/ERF family is a class of transcription factors found mainly in plants. However, the bayberry AP2/ERF gene family has not previously been studied. Results: In this study, 113 members of the bayberry AP2/ERF gene family were identified. According to the phylogenetic tree, the members of this group are divided into three subfamilies, namely AP2, ERF, and DREB. The gene structure and conserved motifs were analyzed. Chromosome localization showed that 95 genes were unevenly distributed on 8 chromosomes and 18 genes were located on the skeleton. Gene collinearity analysis of the bayberry AP2/ERF gene family showed 12 segmental duplication events, involving 21 AP2/ERFs. In addition, we further investigated the evolutionary relationship of the AP2/ERF gene family between bayberry and six other species. It was found that bayberry was most closely related to Populus trichocarpa and Malus pumila, with 153 and 141 homologous gene pairs, respectively. Cis-acting elements indicated that AP2/ERFs were related to phytohormone responses, light response, abiotic and biotic stress tolerance. Transcriptomic data showed that the expression pattern of AP2/ERF gene was different in bayberry space electric field treatment and at different stages of fruit development. The results of GO annotation revealed the biological processes, cellular component and molecular function that the AP2/ERF genes were involved. And KEGG enrichment analysis indicated that these genes were mainly clustered in genetic information processing and metabolism pathways. Conclusions: The AP2/ERF gene was identified in the genome of bayberry, and its structure, conserved motif, and phylogenetic relationship were analyzed. These findings of this study serve as a reference for the genome-wide identification of the AP2/ERF gene family in other species and groundwork for future research on the function of AP2/ERF genes in bayberry. [ABSTRACT FROM AUTHOR]

Published

2024

17. Cytosolic alkalinization in guard cells: an intriguing but interesting event during stomatal closure that merits further validation of its importance.

Author

Bharath, Pulimamidi, Gahir, Shashibhushan, and Raghavendra, Agepati S.

Subjects

SECOND messengers (Biochemistry), ABSCISIC acid, MEMBRANE potential, STOMATA, CELLULAR signal transduction

Abstract

Stomatal closure is essential to conserve water and prevent microbial entry into leaves. Alkalinization of guard cells is common during closure by factors such as abscisic acid, methyl jasmonate, and even darkness. Despite reports pointing at the role of cytosolic pH, there have been doubts about whether the guard cell pH change is a cause for stomatal closure or an associated event, as changes in membrane potential or ion flux can modulate the pH. However, the importance of cytosolic alkalinization is strongly supported by the ability of externally added weak acids to restrict stomatal closure. Using genetically encoded pH sensors has confirmed the rise in pH to precede the elevation of Ca2+ levels. Yet some reports claim that the rise in pH follows the increase in ROS or Ca2+. We propose a feedback interaction among the rise in pH or ROS or Ca2+ to explain the contrasting opinions on the positioning of pH rise. Stomatal closure and guard cell pH changes are compromised in mutants deficient in vacuolar H+-ATPase (V-ATPase), indicating the importance of V-ATPase in promoting stomatal closure. Thus, cytosolic pH change in guard cells can be related to the rise in ROS and Ca2+, leading to stomatal closure. We emphasize that cytosolic pH in stomatal guard cells deserves further attention and evaluation. [ABSTRACT FROM AUTHOR]

Published

2024

18. Evaluating Sorghum bicolor resistance to Solidago canadensis invasion under different nitrogen scenarios.

Author

Anas, Muhammad, Khan, Irfan Ullah, Alomrani, Sarah Owdah, Nawaz, Mohsin, Huang, Zhi-Yun, Alshehri, Mohammed Ali, Al-Ghanim, Khalid A., Qi, Shan-Shan, Li, Jian, Dai, Zhi-Cong, Ali, Shafaqat, and Du, Dao-Lin

Subjects

NATIVE species, PLANT biomass, BIOLOGICAL invasions, PLANT invasions, PRINCIPAL components analysis, BIOLOGICAL extinction

Abstract

Ecosystem exposure to a biological invasion such as plant invasion could contribute to the extinction of native species and loss of productivity and ecosystem balance. Solidago canadensis (S. canadensis) is a highly invasive species that has formed monocultures in China, Europe, Asia, Australia, and New Zealand. It was designated as a notorious invasive species by the Chinese government. It has adversely affected the agroecosystem's ability to germinate various plant seeds, including wheat, lettuce, and pepper, which could lead to food insecurity. This study was conducted to control the invasive species S. canadensis by utilizing a competitive species, Sorghum bicolor (S. bicolor) as a cover plant. Sorghum bicolor exudes allelochemicals such as sorgoleone from its roots which suppress the photosystem II activity of nearby plants. The synthesis of sorgoleone depends on a supply of nitrogen. The present study involved the cultivation of S. bicolor alongside the invasive species S. canadensis , with three different invasion levels (high, medium, and low) and three different nitrogen forms (ammonical, nitrate, and combined ammonical and nitrate nitrogen) applied as a modified Hogland solution. S. bicolor expressed higher performance over the invasive species under ammonical and combined nitrogen forms under low and medium invasion levels. Furthermore, even at greater levels of invasion, S. bicolor was not suppressed by S. canadensis. However, the plant height and dry biomass of S. bicolor were significantly high across both nitrogen forms. Leaf area, CO2 uptake, and photosystem II activity of S. canadensis were unable to sustain its growth under the low invasion condition. The plant biomass of S. canadensis was suppressed by up to 80% and the relative dominance index of S. bicolor was 5.22 over S. canadensis. There was a strong correlation between CO2 uptake, leaf area, and plant biomass. Principal component analysis showed that the first four components had a total variance of 96.89%, with principal component 1 (PC1) having the highest eigenvalue at 18.65. These promising findings suggested that S. bicolor , whose high intensity might be employed to control the invasion process for environmental safety, might be able to recover the barren ground that S. canadensis had invaded. [ABSTRACT FROM AUTHOR]

Published

2024

19. Unraveling the genetic basis of oil quality in olives: a comparative transcriptome analysis.

Author

Asadi, AliAkbar, Tavakol, Elahe, Shariati, Vahid, and Hosseini Mazinani, Mehdi

Subjects

SATURATED fatty acids, UNSATURATED fatty acids, OLIVE oil, BINDING sites, RNA sequencing

Abstract

Introduction: The balanced fatty acid profile of olive oil not only enhances its stability but also contributes to its positive effects on health, making it a valuable dietary choice. Olive oil's high content of unsaturated fatty acids and low content of saturated fatty acids contribute to its beneficial effects on cardiovascular diseases and cancer. The quantities of these fatty acids in olive oil may fluctuate due to various factors, with genotype being a crucial determinant of the oil's quality. Methods: This study investigated the genetic basis of oil quality by comparing the transcriptome of two Iranian cultivars with contrasting oil profiles: Mari, known for its high oleic acid content, and Shengeh, characterized by high linoleic acid at Jaén index four. Results and discussion: Gas chromatography confirmed a significant difference in fatty acid composition between the two cultivars. Mari exhibited significantly higher oleic acid content (78.48%) compared to Shengeh (48.05%), while linoleic acid content was significantly lower in Mari (4.76%) than in Shengeh (26.69%). Using RNA sequencing at Jaén index four, we analyzed genes involved in fatty acid biosynthesis. Differential expression analysis identified 2775 genes showing statistically significant differences between the cultivars. Investigating these genes across nine fundamental pathways involved in oil quality led to the identification of 25 effective genes. Further analysis revealed 78 transcription factors and 95 transcription binding sites involved in oil quality, with BPC6 and RGA emerging as unique factors. This research provides a comprehensive understanding of the genetic and molecular mechanisms underlying oil quality in olive cultivars. The findings have practical implications for olive breeders and producers, potentially streamlining cultivar selection processes and contributing to the production of high-quality olive oil. [ABSTRACT FROM AUTHOR]

Published

2024

20. The combination of nanoparticles and endophytes boosts Thyme (Thymus vulgaris L.) resistance to drought stress by elevating levels of phenolic compounds, flavonoids, and essential oils.

Author

Kamyab, Afsoun, Samsampour, Davood, Ahmadinasab, Navid, and Bagheri, Abdonnabi

Subjects

FACTORIAL experiment designs, ESSENTIAL oils, FERULIC acid, ENDOPHYTIC bacteria, WATER shortages, CARVACROL, POLYPHENOL oxidase

Abstract

Background: As climate change and water scarcity increasingly threaten agricultural productivity, enhancing plant resilience to drought has attracted great attention. This study explored the potential of combining Fe2O3 nanoparticles (FeNPs), endophytic bacteria (EB), and endophytic fungi (EF) to boost drought tolerance in Thymus vulgaris. The research aimed to assess how these combined treatments affect the plant's physiological responses and chemical composition under drought stress. Results: A factorial experiment was designed using completely randomized design (CRD) method, incorporating four irrigation levels [100%, 75%, 50%, and 25% field capacity (FC)], four FeNPs concentrations (0, 0.5, 1, and 1.5 mg L−1), and three endophyte types (control, bacteria, and fungi). After extracting, purifying, identifying, and screening EB and EF from nine Lamiaceae species, the endophytes Azospirillum lipoferum and Aspergillus oryzae isolated from Salvia mirzayanii exhibited the highest drought resistance. The highest amounts of TFM (45.45 g) and TDM (21.56 g) were obtained using the combination of EB and FeNPs at 1 mg L−1 under irrigation with 100% FC. At 25% FC, EB treatment increased the activities of polyphenol oxidase (PPO) and phenylalanine ammonia-lyase (PAL) by 62.12% and 18.23% compared to the control, respectively. In addition, under optimal humidity conditions, FeNP concentrations were higher than 0.5 mg L−1 leading to a decrease in PPO activity. At 25% FC, the highest content of total phenols was observed with a 37.5% increase under EB treatment using 1 mg L−1 of FeNPs, while the highest content of total flavonoids showed a 62.72% increase under EF treatment with 0.5 mg/L of FeNPs. The highest level of p-coumaric acid was obtained under EF (34.27% compared to control). At 25% FC, EB and FeNPs (1 mg L−1) increased the level of caffeic acid in thyme plants by 24.70% and 10.08%, respectively. In addition, inoculation with EB increased (11.9%) the content of ferulic acid in plants and the application of FeNPs as a foliar spray decreased the level of ferulic acid in thyme plants. The highest essential oil percentage at 25% FC was observed after inoculation with EF and FeNPs (0.5 mg L−1), resulting in significant increases of 14.7% and 82.12%, respectively, compared to the control. A decrease in irrigation level led to an increase in the percentage of essential oil in thyme plants while decreasing dominant essential oil compounds, thymol, and carvacrol. The levels of thymol and carvacrol in the essential oil were not affected by the interaction effects of drought stress, endophytes, and FeNPs. EF and FeNPs (1.5 mg L−1), respectively, caused significant increases of 17.44% and 29.87% compared to the control in the amount of thymol and significant increases of 13.75% and 31.01% in the amount of carvacrol. All FeNPs concentrations decreased the concentrations of ferulic acid, FeNPs (1.5 mg L−1) and PPO; these particles act as abiotic stressors at sub-toxic levels and become phytotoxic at higher concentrations. Conclusions: It seems that combining endophytes with FeNPs showed promise in enhancing drought tolerance in T. vulgaris. These treatments have significantly contributed to the production of enzymatic antioxidants, flavonoids, and phenolic compounds, leading to a reduction in the amounts of oxidants. At the same time, they have improved both the quality and quantity of essential oils. This highlights the importance of establishing an effective antioxidant system in response to environmental stresses. [ABSTRACT FROM AUTHOR]

Published

2024

21. Discovery of Alanomyces manoharacharyi : A Novel Fungus Identified Using Genome Sequencing and Metabolomic Analysis.

Author

Rana, Shiwali and Singh, Sanjay K.

Subjects

GENOMICS, SINGLE nucleotide polymorphisms, PHYLOGENY, METABOLITES, BIOMASS

Abstract

In this study, a new species of Alanomyces was isolated as an endophyte from the bark of Azadirachta indica from Mulshi, Maharashtra. The identity of this isolate was confirmed based on the asexual morphological characteristics as well as multi-gene phylogeny based on the internal transcribed spacer (ITS) and large subunit (LSU) nuclear ribosomal RNA (rRNA) regions. As this was the second species to be reported in this genus, we sequenced the genome of this species to increase our knowledge about the possible applicability of this genus to various industries. Its genome length was found to be 35.01 Mb, harboring 7870 protein-coding genes as per Augustus and 8101 genes using GeMoMa. Many genes were annotated using the Clusters of Orthologous Groups (COGs) database, the Kyoto Encyclopedia of Genes and Genomes (KEGG), Gene Ontology (GO), Swiss-Prot, NCBI non-redundant nucleotide sequences (NTs), and NCBI non-redundant protein sequences (NRs). The number of repeating sequences was predicted using Proteinmask and RepeatMasker; tRNA were detected using tRNAscan and snRNA were predicted using rfam_scan. The genome was also annotated using the Pathogen–Host Interactions Database (PHI-base) and AntiSMASH. To confirm the evolutionary history, average nucleotide identity (ANIb), phylogeny based on orthologous proteins, and single nucleotide polymorphisms (SNPs) were carried out. Metabolic profiling of the methanolic extract of dried biomass and ethyl acetate extract of the filtrate revealed a variety of compounds of great importance in the pharmaceutical and cosmetic industry. The characterization and genomic analysis of the newly discovered species Alanomyces manoharacharyi highlights its potential applicability across multiple industries, particularly in pharmaceuticals and cosmetics due to its diverse secondary metabolites and unique genetic features it possesses. [ABSTRACT FROM AUTHOR]

Published

2024

22. Evolutionary History and Ecology of Andrena (Foveoandrena) androfovea: A New Nearctic Mining Bee (Hymenoptera, Andrenidae) Species and Subgenus.

Author

Bossert, Silas, Hung, Keng‐Lou James, and Neff, John L.

Subjects

FORAGING behavior, PLANT communities, HOST plants, BIOGEOGRAPHY, PHYLOGENY, PHYLOGEOGRAPHY

Abstract

With about 1700 described species, the mining bee genus Andrena is a rapidly diversifying lineage and one of the most species‐rich groups of bees. Recent phylogenomic advances have greatly improved our understanding of the phylogeny of the genus, yet many species still await description, subgeneric assignments that are in line with their evolutionary history, as well as study of their morphology and behavior. Here we provide a comprehensive account of a newly discovered species, Andrena androfovea n. sp. We sequence the genome of the new species and include it in the presently most comprehensive phylogenomic analysis of Andrena using ultraconserved element (UCE) sequence data, comprising 264 samples and 249 species. Given the recovered phylogenetic position of the new species, we establish a new subgenus, Foveoandrena, provide a detailed morphological description, and discuss the antiquity and historical biogeography of the lineage in light of molecular divergence time estimates. Lastly, we study and document the foraging behavior of the new species with photos and video footage, and discuss the species' unusual host plant associations with Chamaesaracha and Quincula, both Solanaceae. Being likely oligolectic on these plants, we present the first documented case of an Andrena species being narrowly associated with members of this plant family. By integrating multiple lines of documentation, our study provides a particularly detailed account of species discovery and description. [ABSTRACT FROM AUTHOR]

Published

2024

23. Structural diversity, evolutionary origin, and metabolic engineering of plant specialized benzylisoquinoline alkaloids.

Author

Tian, Ya, Kong, Lingzhe, Li, Qi, Wang, Yifan, Wang, Yongmiao, An, Zhoujie, Ma, Yuwei, Tian, Lixia, Duan, Baozhong, Sun, Wei, Gao, Ranran, Chen, Shilin, and Xu, Zhichao

Subjects

BIOLOGICAL evolution, OPIUM poppy, PLANT evolution, DRUG development, PHYTOGEOGRAPHY

Abstract

Covering: up to June 2024 Benzylisoquinoline alkaloids (BIAs) represent a diverse class of plant specialized metabolites derived from L -tyrosine, exhibiting significant pharmacological properties such as anti-microbial, anti-spasmodic, anti-cancer, cardiovascular protection, and analgesic effects. The industrial production of valuable BIAs relies on extraction from plants; however, challenges concerning their low concentration and efficiency hinder drug development. Hence, alternative approaches, including biosynthesis and chemoenzymatic synthesis, have been explored. Model species like Papaver somniferum and Coptis japonica have played a key role in unraveling the biosynthetic pathways of BIAs; however, many aspects, particularly modified steps like oxidation and methylation, remain unclear. Critical enzymes, e.g., CYP450s and methyltransferases, play a substantial role in BIA backbone formation and modification, which is essential for understanding the origin and adaptive evolution of these plant specialized metabolites. This review comprehensively analyzes the structural diversity of reported BIAs and their distribution in plant lineages. In addition, the progress in understanding biosynthesis, evolution, and catalytic mechanisms underlying BIA biosynthesis is summarized. Finally, we discuss the progress and challenges in metabolic engineering, providing valuable insights into BIA drug development and the sustainable utilization of BIA-producing plants. [ABSTRACT FROM AUTHOR]

Published

2024

24. Comprehensive Review on Plant Cytochrome P450 Evolution: Copy Number, Diversity, and Motif Analysis From Chlorophyta to Dicotyledoneae.

Author

Fang, Yuanpeng, Tai, Zheng, Hu, Keyi, Luo, Lingfeng, Yang, Sanwei, Liu, Mengmeng, and Xie, Xin

Subjects

PLANT genes, GENE families, CYTOCHROME P-450, PLANT proteins, CHROMOSOME duplication

Abstract

Cytochrome P450 enzymes (CYPs) are widely distributed among various plant groups and constitute approximately 1% of the total number of protein-coding genes. Extensive studies suggest that CYPs are involved in nearly all molecular processes that occur in plants. Over the past two decades, the identification of CYP genes has expanded rapidly, with more than 40,000 CYP genes and 819 CYP families being discovered. Copy number variation is a significant evolutionary characteristic of gene families, yet a systematic characterization of the copy evolution patterns in plant CYP gene families has been lacking, resulting in confusion and challenges in understanding CYP functions. To address these concerns, this review provides comprehensive statistics and analyses of the copy number and diversity of almost all plant CYP gene families, focusing on CYP evolution from Chlorophyta to Dicotyledoneae. Additionally, we examined the subfamily characteristics of certain CYP families with restricted copy changes and identified several CYP subfamilies that play pivotal roles in this event. Furthermore, we analyzed the structural conservation of CYPs across different taxa and compiled a comprehensive database to support plant CYP studies. Our analysis revealed differences in the six core conserved motifs of plant CYP proteins among various clans and plant taxa, while demonstrating similar conservation patterns for the ERR (glutamic acid-arginine-arginine) triad motifs. These findings will significantly facilitate the understanding of plant CYP gene evolution and metabolic diversity and serve as a valuable reference for researchers studying CYP enzymes. [ABSTRACT FROM AUTHOR]

Published

2024

25. Evolution and development of complex floral displays.

Author

Khojayori, Farahnoz N., Ponraj, Udhaya, Buch, Kristina, Yi Zhao, Herrera-Ubaldo, Humberto, and Glover, Beverley J.

Subjects

FLOWERING of plants, PLANT evolution, ANGIOSPERMS, POLLINATION, FLOWERS, INFLORESCENCES

Abstract

Flowering plants - angiosperms - display an astounding diversity of floral features, which have evolved in response to animal pollination and have resulted in the most species-rich plant clade. Combinations of macroscale (e.g. colour, symmetry, organ number) and microscale (e.g. cell type, tissue patterning) features often lead to highly elaborate floral displays. Most studies have focused on model species with simple floral displays to uncover the genetic and evolutionary mechanisms involved in flower evolution, yet few studies have focused on complex floral displays. Here, we review current knowledge on the development and evolution of complex floral displays. We review gene regulatory networks involved in four developmental pathways contributing to overall floral display (inflorescence architecture, organ identity, flower symmetry and flower colour) in classical plant models. We then discuss how evolutionary modification of one or more of these pathways has resulted in the production of a range of complex floral displays. Finally, we explore modular systems in which multiple pathways have been modified simultaneously, generating the most elaborate floral displays. [ABSTRACT FROM AUTHOR]

Published

2024

26. Functional and Physiological Characterization of Tyrosine Decarboxylases from Olea europaea L. Involved in the Synthesis of the Main Phenolics in Olive Fruit and Virgin Olive Oil.

Author

Luaces, Pilar, Sánchez, Rosario, Expósito, Jesús, Pérez-Pulido, Antonio J., Pérez, Ana G., and Sanz, Carlos

Subjects

PHENOLIC acids, OLIVE oil, AMINO acids, DOPA, FRUIT quality, OLIVE

Abstract

The phenolic composition of virgin olive oil (VOO) primarily depends on the phenolic content of the olive fruit. The purpose of this work was to characterize the first metabolic step in the synthesis of tyrosol (Ty) and hydroxytyrosol (HTy), whose derivatives are by far the predominant phenolics in both olive fruit and VOO. To this end, two genes encoding tyrosine/DOPA decarboxylase enzymes, OeTDC1 and OeTDC2, have been identified and functionally and physiologically characterized. Both olive TDC proteins exclusively accept aromatic amino acids with phenolic side chains, such as tyrosine and 3,4-dihydroxyphenylalanine (DOPA), as substrates to produce tyramine and dopamine, respectively. These proteins exhibited a higher affinity for DOPA than for tyrosine, and the catalytic efficiency of both proteins was greater when DOPA was used as a substrate. Both olive TDC genes showed a fairly similar expression profile during olive fruit ontogeny, with OeTDC1 consistently expressed at higher levels than OeTDC2. Expression was particularly intense during the first few weeks after fruit set, coinciding with the active accumulation of Ty and HTy derivatives. The data suggest that both olive TDCs are responsible for the initial step in the synthesis of the most important phenolics, both quantitatively and functionally, in VOO. [ABSTRACT FROM AUTHOR]

Published

2024

27. Genome-wide identification of AP2/ERF gene family in Coptis Chinensis Franch reveals its role in tissue-specific accumulation of benzylisoquinoline alkaloids.

Author

Zhang, Mengyu, Lu, Pingping, Zheng, Yating, Huang, Xue, Liu, Junnan, Yan, Han, Quan, Huige, Tan, Rui, Ren, Fengming, Jiang, Hezhong, Zhou, Jiayu, and Liao, Hai

Subjects

TRANSCRIPTION factors, GENE families, CHROMOSOME duplication, CHROMOSOMES, PROTEIN-protein interactions

Abstract

Background: The Plant-specific AP2/ERF gene family encodes proteins involved in various biological and physiological processes. Although the genome of Coptis chinensis Franch, a plant producing benzylisoquinoline alkaloids (BIAs), has been sequenced at the chromosome level, studies on the AP2/ERF gene family in C. chinensis are lacking. Thus, a genome-wide identification of AP2/ERF gene family in C. chinensis was conducted to explore its role in BIAs biosynthesis. Results: A total of 96 CcAP2/ERF genes were identified and categorized into five subfamilies, including 43 ERFs, 32 DREBs, 17 AP2s, 3 RAVs, and 1 Soloist, based on their structural domains. These CcAP2/ERF genes were unevenly distributed across nine chromosomes. Analysis of gene duplication events identified 17 CcAP2/ERF gene pairs in the genome, with 7 involved in tandem duplication events and 10 involved in segmental duplicate events, indicating that both types of duplications contributed to the expansion of the AP2/ERF gene family. The Ka/Ks ratio analysis suggested that the CcAP2/ERF gene family underwent strong purifying selection. Two phytohormones, methyl jasmonate and abscisic acid, were identified as potential key inducers of BIAs biosynthesis due to the cis-acting element prediction. Analysis of the spatial transcriptomic data revealed that 28 differentially expressed AP2/ERF genes had the highest or relatively higher expression levels in the rhizome, 17 of which positively correlated with the tissue-specific accumulation of BIAs. Further real-time PCR verification and protein-protein interaction analysis indicated that DREB1B might be one of the central regulators in a highly complex BIAs biosynthesis network. Conclusion: These findings provide significant insight into the function of AP2/ERF genes in C. chinensis, particularly in the regulatory network of BIAs biosynthesis in C. chinensis. This study also identifies candidate genes for metabolic engineering to increase BIAs content in C. chinensis. [ABSTRACT FROM AUTHOR]

Published

2024

28. Study of the effect of substrates on the ornamental traits of crops used in vertical gardening.

Author

Kozlova, Elena, Orlova, Elena, Zubik, Inna, Makarov, Sergey, and Chudetsky, Anton

Published

2024

29. One for all.

Author

JONES, JODIE

Published

2024

30. NATURAL SETTING.

Author

SEMMLER, JAC

Published

2024

31. Biology and chemical weed management of Cynanchum acutum L.

Author

Bar, Oeri, Lati, Ran Nisim, Schäckermann, Jessica, Kapiluto, Omer, Spodek, Malkie, Gamliel, Abraham, and Matzrafi, Maor

Subjects

WEED control, ROOT formation, TEMPERATE climate, CHEMICAL biology, PLANT adaptation, HERBICIDES

Abstract

Cynanchum acutum L. (Asclepiadaceae) is a perennial vine weed widespread in the Mediterranean region. In Israel, it is native to areas such as the Golan Heights, Galilee, and the northern Negev. Recently, its range has expanded to the Arava Valley in the southern part of Israel. In this study, we investigate the biology and phenology of C. acutum plants originating from both native and invasive populations. To achieve this, we utilized rhizomes from the invasive area in the southern region characterized by a hyper-arid desert climate (Yahel), and from the northern region characterized by a temperate climate (Gvat). Additionally, we examine chemical-based weed management approaches for controlling C. acutum. Rhizomes collected from the northern region showed higher emergence rates at temperatures between 15-30°C, whereas at 35°C, rhizomes from the southern region exhibited a higher emergence rate. Phenology experiments conducted simultaneously at southern and northern locations revealed that plants from the northern location flowered first at both sites. However, flowering initiation occurred ~20 days earlier on average when plants from both populations were grown at the southern site. Pre-emergence herbicide treatments using indaziflam and pyroxasulfone were effective in inhibiting C. acutum root formation. According to the percentage of emergence, pendimethalin showed higher emergence (93% and 100%) in comparison to indaziflam (10% and 93%) and pyroxasulfone (72% and 70%) (2020 and 2021, respectively). Treatments including the herbicide fluroxypyr, as well as the treatment of glyphosate + saflufenacil + surfactant were highly effective in controlling C. acutum plants. These results offer valuable insights into effective weed management strategies for addressing C. acutum infestations. Moreover, our findings underscore the remarkable plasticity of this species and shed light on how populations originating from diverse habitats may have adapted to distinct environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2024

32. Genome-wide analysis of the ERF Family in Stephania japonica provides insights into the regulatory role in Cepharanthine biosynthesis.

Author

Hanting Yang, Baimei Liu, Haiyan Ding, Zhaoyu Liu, Xiaodong Li, Tianxing He, Ya Wu, Yuxuan Zhang, Can Wang, Liang Leng, Shilin Chen, and Chi Song

Subjects

NICOTIANA benthamiana, GENE clusters, CHIMERIC proteins, BIOSYNTHESIS, TRANSCRIPTION factors

Abstract

Introduction: Cepharanthine (CEP), a bisbenzylisoquinoline alkaloid (bisBIA) extracted from Stephania japonica, has received significant attention for its anti-coronavirus properties. While ethylene response factors (ERFs) have been reported to regulate the biosynthesis of various alkaloids, their role in regulating CEP biosynthesis remains unexplored. Methods: Genome-wide analysis of the ERF genes was performed with bioinformatics technology, and the expression patterns of different tissues, were analyzed by transcriptome sequencing analysis and real-time quantitative PCR verification. The nuclear-localized ERF gene cluster was shown to directly bind to the promoters of several CEP-associated genes, as demonstrated by yeast one-hybrid assays and subcellular localization assays. Results: In this work, 59 SjERF genes were identified in the S. japonica genome and further categorized into ten subfamilies. Notably, a SjERF gene cluster containing three SjERF genes was found on chromosome 2. Yeast one-hybrid assays confirmed that the SjERF gene cluster can directly bind to the promoters of several CEP-associated genes, suggesting their crucial role in CEP metabolism. The SjERFs cluster-YFP fusion proteins were observed exclusively in the nuclei of Nicotiana benthamiana leaves. Tissue expression profiling revealed that 13 SjERFs exhibit high expression levels in the root, and the qRTPCR results of six SjERFs were consistent with the RNA-Seq data. Furthermore, a co-expression network analysis demonstrated that 24 SjERFs were highly positively correlated with the contents of various alkaloids and expression levels of CEP biosynthetic genes. Conclusion: This study provides the first systematic identification and analysis of ERF transcription factors in the S.japonica genome, laying the foundation for the future functional research of SjERFs transcription factors. [ABSTRACT FROM AUTHOR]

Published

2024

33. Exploring the Diversity and Potential Use of Flower-Derived Lactic Acid Bacteria in Plant-Based Fermentation: Insights into Exo-Cellular Polysaccharide Production.

Author

Khiabani, Azadeh, Xiao, Hang, Wätjen, Anders Peter, Tovar, Miguel, Poulsen, Vera Kuzina, Hansen, Egon Bech, and Bang-Berthelsen, Claus Heiner

Subjects

LACTIC acid bacteria, FOOD fermentation, LEUCONOSTOC mesenteroides, POLYSACCHARIDES, SOYMILK, MICROBIAL exopolysaccharides

Abstract

Isolation of new plant-derived lactic acid bacteria (LAB) is highly prioritized in developing novel starter cultures for plant-based fermentation. This study explores the diversity of LAB in Danish flowers and their potential use for plant-based food fermentation. A total of 46 flower samples under 34 genera were collected for LAB isolation. By introducing an enrichment step, a total of 61 LAB strains were isolated and identified using MALDI-TOF and 16S rRNA sequencing. These strains represent 24 species across 9 genera, predominantly Leuconostoc mesenteroides, Fructobacillus fructosus, Apilactobacillus ozensis, and Apilactobacillus kunkeei. Phenotypic screening for exo-cellular polysaccharide production revealed that 40 strains exhibited sliminess or ropiness on sucrose-containing agar plates. HPLC analysis confirmed that all isolates produced exo-cellular polysaccharides containing glucose, fructose, or galactose as sugar monomers. Therefore, the strains were glucan, fructan, and galactan producers. The suitability of these strains for plant-based fermentation was characterized by using almond, oat, and soy milk. The results showed successful acidification in all three types of plant-based matrices but only observed texture development in soy by Leuconostoc, Weissella, Lactococcus, Apilactobacillus, and Fructobacillus. The findings highlight the potential of flower-derived LAB strains for texture development in soy-based dairy alternatives. [ABSTRACT FROM AUTHOR]

Published

2024

34. Phytocapping for Municipal Solid Waste Landfills: A Sustainable Approach.

Author

Arifuzzaman, Rahman, Md Mizanur, Karim, Md Rajibul, Hewa, Guna Alankarage, Rawlings, Robyn, and Iqbal, Asif

Abstract

This paper reviews the historical developments in landfill technology and its drawbacks. It introduces phytocapping, in light of previous research, as a promising, eco-friendly and sustainable technology for municipal solid waste (MSW) landfill covers in order to reduce landfill gas and leachate generation. This paper highlights the challenges to successful phytocapping, such as selection criteria for appropriate plants and growth media, and the importance of new research into overcoming these challenges. It also presents a database of plants used in landfill phytocapping studies worldwide. In addition, the performance, economics, and sustainability of phytocapping technology are evaluated in comparison to ordinary MSW landfill methods. [ABSTRACT FROM AUTHOR]

Published

2024

35. Sedative and anxiolytic effects of Capparis sicula Duhamel: in vivo and in silico approaches with phytochemical profiling.

Author

Ağören, Büşra Karpuz, Akkol, Esra Küpeli, Çelik, Ismail, and Sobarzo-Sánchez, Eduardo

Subjects

PROTEIN-ligand interactions, GABA receptors, MOLECULAR docking, ETHYL acetate, TRADITIONAL medicine, FLAVONOID glycosides

Abstract

The World Health Organization reports that 30% of adults worldwide suffer from insomnia, while 10% of people worldwide suffer with various forms of anxiety. The significant negative effects of conventional medications used to treat anxiety and insomnia, such as abuse, addiction, amnesia, and cognitive and sexual dysfunction, have led to an increased preference for naturally derived substances with fewer side effects. Accordingly, in this study, the sedative and anxiolytic effects of n-hexane, ethyl acetate (EtOAc), methanol (MeOH) and water extracts of the aerial parts of Capparis sicula Duhamel., which is used for sedative purposes in folk medicine, were evaluated. To evaluate the sedative and anxiolytic effects of each extract, bioassay systems were used including traction and hole-board tests. The MeOH extract of C. sicula was the most active extract on in vivo traction and hole-board tests compared to Diazepam. From the MeOH extract, major components were isolated, and their structures were identified as three flavonoid glycosides [rutin (1), quercetin-3-O-glucoside (2), and quercetin 3-O-rhamnoside (3)] using spectral techniques. The most abundant component was determined to be rutin, comprising 8mg/100mg dry extract in MeOH extract and 76.7 mg/100 mg dry fraction in fraction C using HPLC. The molecular docking studies evaluated the interaction of isolated flavonoid glycosides with the interaction energies and protein-ligand interaction details of the anxiety-related receptors GABAA and GABAB. For the GABAA receptor, quercetin-3-O-glucoside demonstrated the highest docking score. Quercetin-3-O-rhamnoside and rutin also show promising interactions, particularly with the GABAB receptor, highlighting their potential as modulators of these receptors. In conclusion, the use of C. sicula for sedative purposes in folk medicine has been confirmed for the first time by in vivo studies, and its possible active compounds and sedative-anxiolytic mechanism have been determined through phytochemical and in silico studies. [ABSTRACT FROM AUTHOR]

Published

2024

36. Floral morphology and development of Pteridophyllum racemosum Siebold & Zucc. (Papaveraceae).

Author

Kong, Doudou, Ehlers, Katrin, and Becker, Annette

Published

2024

37. Predicting undetected native vascular plant diversity at a global scale.

Author

Daru, Barnabas H.

Subjects

PLANT diversity, SPECIES distribution, VASCULAR plants, PHYTOGEOGRAPHY, RANDOM forest algorithms

Abstract

Vascular plants are diverse and a major component of terrestrial ecosystems, yet their geographic distributions remain incomplete. Here, I present a global database of vascular plant distributions by integrating species distribution models calibrated to species' dispersal ability and natural habitats to predict native range maps for 201,681 vascular plant species into unsurveyed areas. Using these maps, I uncover unique patterns of native vascular plant diversity, endemism, and phylogenetic diversity revealing hotspots in underdocumented biodiversity-rich regions. These hotspots, based on detailed species-level maps, show a pronounced latitudinal gradient, strongly supporting the theory of increasing diversity toward the equator. I trained random forest models to extrapolate diversity patterns under unbiased global sampling and identify overlaps with modeled estimations but unveiled cryptic hotspots that were not captured by modeled estimations. Only 29% to 36% of extrapolated plant hotspots are inside protected areas, leaving more than 60% outside and vulnerable. However, the unprotected hotspots harbor species with unique attributes that make them good candidates for conservation prioritization. [ABSTRACT FROM AUTHOR]

Published

2024

38. Advancing virus-induced gene silencing in sunflower: key factors of VIGS spreading and a novel simple protocol.

Author

Mardini, Majd, Kazancev, Mikhail, Ivoilova, Elina, Utkina, Victoria, Vlasova, Anastasia, Demurin, Yakov, Soloviev, Alexander, and Kirov, Ilya

Subjects

COMMON sunflower, BOTANY, GENE silencing, PLANT cells & tissues, SUNFLOWERS

Abstract

Virus-Induced Gene Silencing (VIGS) is a versatile tool in plant science, yet its application to non-model species like sunflower demands extensive optimization due to transformation challenges. In this study, we aimed to elucidate the factors that significantly affect the efficiency of Agrobacterium-VIGS in sunflowers. After testing a number of approaches, we concluded that the seed vacuum technique followed by 6 h of co-cultivation produced the most efficient VIGS results. Genotype-dependency analysis revealed varying infection percentages (62–91%) and silencing symptom spreading in different sunflower genotypes. Additionally, we explored the mobility of tobacco rattle virus (TRV) and phenotypic silencing manifestation (photo-bleaching) across different tissues and regions of VIGS-infected sunflower plants. We showed the presence of TRV is not necessarily limited to tissues with observable silencing events. Finally, time-lapse observation demonstrated a more active spreading of the photo-bleached spots in young tissues compared to mature ones. This study not only offers a robust VIGS protocol for sunflowers but also provides valuable insights into genotype-dependent responses and the dynamic nature of silencing events, shedding light on TRV mobility across different plant tissues. [ABSTRACT FROM AUTHOR]

Published

2024

39. The complete chloroplast genome sequence of Hypecoum erectum L. (Papaveraceae).

Author

Mano, Haruto, Boltenkov, Eugeny V., Marchuk, Elena A., Nakamura, Koh, and Yoichi, Watanabe

Subjects

WHOLE genome sequencing, NUCLEOTIDE sequencing, MEDICINAL plants, GENETIC code, TRANSFER RNA, CHLOROPLAST DNA

Abstract

Hypecoum erectum L., a widespread species in northern Eurasia, is a valuable medicinal plant, but its chloroplast genome has not previously been reported. We determined its complete chloroplast genome using a high-throughput sequencing technique. Its total length was 169,241 bp, consisting of a large single-copy region of 93,301 bp and a small single-copy region of 17,316 bp, separated by a pair of inverted repeat regions of 29,312 bp. A total of 140 genes were annotated, including 91 protein coding genes, 41 tRNA genes, and eight rRNA genes. The phylogenetic analysis shows that H. erectum and H. zhukanum of the subfamily Hypecoideae are monophyletic with the highest support. [ABSTRACT FROM AUTHOR]

Published

2024

40. New plants on the block: a comparison of the neophyte flora in Banja Luka, Mostar and Sarajevo (Bosnia and Herzegovina).

Author

Maslo, Semir, Lubarda, Biljana, and Sarajlić, Nermina

Subjects

BOTANY, URBAN plants

Abstract

Copyright of Phytologia Balcanica is the property of Bulgarian Academy of Sciences, Institute of Biodiversity & Ecosystem Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

41. 向日葵 YABBY 基因家族鉴定及表达分析.

Author

王茜, 周家燕, 王倩, 邓玉萍, 张敏慧, 陈静, 杨军, and 邹建

Abstract

Copyright of Biotechnology Bulletin is the property of Biotechnology Bulletin Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

42. 藜麦配子发育相关基因 CqSTK 的筛选及功能分析.

Author

林彤, 袁程, 董陈文华, 曾孟琼, 杨燕, 毛自朝, and 林春

Abstract

Copyright of Biotechnology Bulletin is the property of Biotechnology Bulletin Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. Structural color in fruits: Biomaterials to inspire physical optics.

Author

Middleton, R. and Sinnott-Armstrong, M.

Subjects

STRUCTURAL colors, PHYSICAL optics, BIOMIMETICS, OPTICAL materials, PLANT products

Abstract

This Tutorial introduces structural color in fruits as a phenomenon of diverse optical materials. Originally best known in abiotic materials and animals, structural colors are being increasingly described in plants. Structural colors have already inspired a variety of useful products, and plants are especially attractive as models to develop new bioinspired technologies thanks to the comparative ease of working with them compared with animal systems. Already, human-engineered structural colors modeled after plant cellulose-based architectures have shown promising applications in colorants and sensors. However, structural colors include a far broader group of materials and architectures beyond cellulose. Understanding the new and diverse structures that have recently been described in plants should provoke research into new bioinspired products based on plant optical structures and biomaterials. In this Tutorial, we focus on fruits as new structures have recently been discovered, leading to new opportunities for bioinspired technologies. We bring together a review of optical structures found in fruits from a physical optics perspective, with a consideration of each structure as an opportunity in bioinspired and biomimetic design. [ABSTRACT FROM AUTHOR]

Published

2024

44. Exogenously applied silver nanoparticles (AgNPs) differentially affect bacterial blight disease control in twenty-seven wheat cultivars.

Author

Fatemifard, Seyyedeh Zahra, Masoumiasl, Asad, Fazeli-Nasab, Bahman, Piri, Ramin, Mirzaei, Ali Reza, Salehi Sardoei, Ali, and Ghorbanpour, Mansour

Subjects

SILVER nanoparticles, BACTERIAL diseases, CULTIVARS, WHEAT seeds, WHEAT

Abstract

The bacterial blight of wheat is an important global disease causing a significant decline in crop yield. Nanotechnology offers a potential solution for managing plant diseases. Therefore, this research aimed to investigate the effectiveness of silver nanoparticles (AgNPs) in controlling bacterial blight in 27 locally grown wheat cultivars. The study examined the impact of AgNPs at three distinct time points: 1, 3, and 5 days after the onset of the disease. Biochemical assay revealed that one day after applying the disease stress, the Inia cultivar had the highest amount of soluble protein (55.60 μg.g−1FW) content in the treatment without AgNPs. The Azadi cultivar, without AgNPs treatment, had the lowest amount of soluble protein content (15.71 μg.g−1FW). The Tabasi cultivar had the highest activity of the superoxide dismutase (SOD) (61.62 mM.g−1FW) with the combination treatment of AgNPs. On the other hand, the Karchia cultivar had the lowest SOD activity (0.6 mM.g−1FW) in the treatment of disease without AgNPs. Furthermore, three days after the application of stress, the Mahdavi cultivar had the highest amount of soluble protein content (54.16 μg.g−1FW) in the treatment of disease without AgNPs. The Niknejad cultivar had the highest activity of the SOD (74.15 mM.g−1FW) with the combined treatment of the disease without AgNPs. The Kavir cultivar had the lowest SOD activity (1.95 mM.g−1FW) and the lowest peroxidase (POX) activity (0.241 mM g−1FW min−1) in the treatment of the disease with AgNPs. Five days after exposure to stress, the Mahooti cultivar had the highest SOD activity (88.12 mM.g−1FW) with the combined treatment of the disease with AgNPs, and the Karchia cultivar had the lowest SOD activity (2.39 mM.g−1FW) in the treatment of the disease with AgNPs. Further, the results indicated that exposure to AgNPs could improve the antioxidant properties of wheat seeds in blight-infected and disease-free conditions in some cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

45. SlCRCa is a key D‐class gene controlling ovule fate determination in tomato.

Author

Wu, Junqing, Li, Pengxue, Zhu, Danyang, Ma, Haochuan, Li, Meng, Lai, Yixuan, Peng, Yuxin, Li, Haixiao, Li, Shuang, Wei, Jinbo, Bian, Xinxin, Rahman, Abidur, and Wu, Shuang

Subjects

OVULES, CELL determination, TOMATOES, CARPEL, SEED yield, HETERODIMERS

Abstract

Summary: Cell fate determination and primordium initiation on the placental surface are two key events for ovule formation in seed plants, which directly affect ovule density and seed yield. Despite ovules form in the marginal meristematic tissues of the carpels, angiosperm carpels evolved after the ovules. It is not clear how the development of the ovules and carpels is coordinated in angiosperms. In this study, we identify the S. lycopersicum CRABS CLAW (CRC) homologue SlCRCa as an essential determinant of ovule fate. We find that SlCRCa is not only expressed in the placental surface and ovule primordia but also functions as a D‐class gene to block carpel fate and promote ovule fate in the placental surface. Loss of function of SlCRCa causes homeotic transformation of the ovules to carpels. In addition, we find low levels of the S. lycopersicum AINTEGUMENTA (ANT) homologue (SlANT2) favour the ovule initiation, whereas high levels of SlANT2 promote placental carpelization. SlCRCa forms heterodimer with tomato INNER NO OUTER (INO) and AGAMOUS (AG) orthologues, SlINO and TOMATO AGAMOUS1 (TAG1), to repress SlANT2 expression during the ovule initiation. Our study confirms that angiosperm basal ovule cells indeed retain certain carpel properties and provides mechanistic insights into the ovule initiation. [ABSTRACT FROM AUTHOR]

Published

2024

46. BERBERYNA - ZWIĄZEK BIOAKTYWNY POZYSKIWANY Z ROŚLIN LECZNICZYCH.

Author

SOKOŁOWSKA, GABRIELA, JABŁOŃSKA-TRYPUĆ, AGATA, and NAUMOWICZ, MONIKA

Subjects

ALZHEIMER'S disease, BERBERINE, BACTERIAL diseases, VIRUS diseases, DRUG development, ANTINEOPLASTIC agents, ISOQUINOLINE alkaloids

Abstract

Copyright of Zywnosc is the property of Polish Society of Food Technologists - Scientific Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

47. Comparative case study of evolutionary insights and floral complexity in key early-diverging eudicot Ranunculales models

Author

Bharti Sharma, Mankirat Kaur Pandher, Ana Quetzali Alcaraz Echeveste, Marianellie Bravo, Rene Kenny Romo, and Sarah Christine Ramirez

Subjects

Ranunculales, floral evolution, evo-devo, petal elaboration, organ identity, key model systems, Plant culture, SB1-1110

Abstract

Famously referred to as “Darwin’s abominable mystery,” the rapid diversification of angiosperms over the last ~140 million years presents a fascinating enigma. This diversification is underpinned by complex genetic pathways that evolve and rewire to produce diverse and sometimes novel floral forms. Morphological innovations in flowers are shaped not only by genetics but also by evolutionary constraints and ecological dynamics. The importance of model organisms in addressing the long-standing scientific questions related to diverse floral forms cannot be overstated. In plant biology, Arabidopsis thaliana, a core eudicot, has emerged as a premier model system, with its genome being the first plant genome to be fully sequenced. Similarly, model systems derived from crop plants such as Oryza sativa (rice) and Zea mays (maize) have been invaluable, particularly for crop improvement. However, despite their substantial utility, these model systems have limitations, especially when it comes to exploring the evolution of diverse and novel floral forms. The order Ranunculales is the earliest-diverging lineage of eudicots, situated phylogenetically between core eudicots and monocots. This group is characterized by its exceptional floral diversity, showcasing a wide range of floral morphologies and adaptations that offer valuable insights into the evolutionary processes of flowering plants. Over the past two decades, the development of at least five model systems including, Aquilegia, Thalictrum, Nigella, Delphinium and Eschscholzia within the Ranunculales order has significantly advanced our understanding of floral evolution. This review highlights the conservation and divergence of floral organ identity programs observed among these models and discusses their importance in advancing research within the field. The review also delves into elaborate petal morphology observed in Aquilegia, Nigella, and Delphinium genera, and further discusses the contributions, limitations, and future research directions for Ranunculales model systems. Integrating these diverse models from the early-diverging eudicot order has enhanced our understanding of the complex evolutionary pathways that shape floral diversity in angiosperms, bridging the knowledge gaps essential for a comprehensive understanding of floral evolution.

Published

2024

48. Primary dysmenorrhea: pathophysiology, improvement of diagnostic and treatment possibilities

Author

T.V. Fartushok and N.V. Fartushok

Subjects

primary dysmenorrhea, pathophysiology, diagnosis, treatment, combined herbal remedies, Medicine

Abstract

Primary dysmenorrhea is one of the types of gynecological pathology, the frequency of which is 45-53% in girls and young women aged 13 to 45 years, which is not given enough attention in diagnosis and treatment.The pathogenesis takes into account the increased secretion of prostaglandins F2α and E2 in the period from the beginning of pregnancy to birth, which cause pelvic pain.The diagnosis is based on the patient's history, symptoms, examination, the treatment is aimed at improving the quality of life by prescribing nonsteroidal anti-inflammatory drugs, hormonal contraceptives and the use of non-medicinal means. Purpose: to specify some links in the pathogenesis of primary dysmenorrhea and, taking into account its multicomponent nature, to evaluate the effectiveness of the proposed treatment. Under observation there were 68 women who were divided into 2 groups: 34 women with primary dysme­norrhea (main group) and 34 healthy women (control group).The diagnosis of primary dysmenorrhea was established on the basis of complaints of patients about painful menstruation and accompanying symptoms during consultations with a gynecologist and endocrinologist.Treatment of patients in the main group was carried out with the drug, which includes Vitex agnus castus L, indinol-3-carbinol, 3,3-diindolyl-methane, extract of passionflower, California Eschscholzia. In women with typical symptoms, dysmenorrhea can be diagnosed on the basis of medical information without physical pelvic examination, empirical treatment should be initiated, including nonsteroidal anti-inflammatory drugs and/or oral contraceptives, because it is a functional condition resulting from an imbalance in the hormonal regulation of myometrial contraction. As a result of the proposed treatment, pain disappeared completely in 70% of patients (23/34), as well as vegetative-vascular (from 18 to 2% of patients), vegetative (from 10 to 1% of patients), metabolic and endocrine disorders (from 15 to 2% female patients), disorders of the emotional and mental sphere (from 25 to 10% of patients). Improvement in quality of life was noted by 80% (26/34) of patients, improvement in working capacity – by 70% (23/34) of patients, after 2 months – by 95% (31/34) and 85% (28/34), respectively, after 3 months all examined patients with primary dysmenorrhea noted an improvement in the quality of life and an increase in work capacity. Sexually active women with symptoms of inflammatory processes of the genital tract, severe dysmenorrhea should undergo pelvic examination. In view of safety and high therapeutic efficiency, the drug based on Vitex agnus castus can be offered for the treatment over the period lasting at least for3 months for girls and young women aged 13 to 45 years with primary dysmenorrhea.

Published

2024

49. Sweet Sleep.

Author

DUPREE, RACHAEL

Subjects

SLEEP interruptions, SLEEP, SCUTELLARIA, ORNAMENTAL plants, SLEEP quality

Abstract

This article from Hobby Farms provides information on seven herbs that can help promote a restful night's sleep. The article highlights the importance of good sleep for physical and mental health and discusses the prevalence of insomnia in the United States. The herbs mentioned include passionflower, California poppy, hops, valerian, chamomile, skullcap, and wild lettuce. Each herb is described in terms of its sleep-inducing properties and recommended uses. The article also emphasizes the importance of addressing underlying causes of insomnia, such as stress and anxiety, and suggests additional relaxation techniques to promote a healthy lifestyle. [Extracted from the article]

Published

2024

50. SUPER powers.

Author

WILSON, ELIZABETH

Published

2024