Local Plant Research Articles

Phytoremediation Potential of Helianthus annuus L (Sunflower) for the Reclamation of Lead (Pb) Spiked Soil

Soil contamination caused by anthropogenic activities such as industrial activity, excessive waste disposal and natural disasters has become a major problem that endangers human health and the ecosystems. As a low-cost and environmentally friendly remediation method; phytoremediation of polluted soils has attracted a lot of attention. The goal of this study was to screen for the potential of Helianthus annuus L a local plant in the scope area to remediate lead-contaminated soil in a laboratory setting. Phytotolerance of the plant was determined by subjecting the plant to various concentration of Lead (Pb), where 3 kg of pristine soil is spiked with Pb in triplicate in a pots were used for (CR5%=150, CR10%=300, CR15%=450, CR20%=600, CR25%=750 mg) of Pb. The plant gowth is measured for tolerance of lead, Atomic Absorptiob spectrophotometer (AAS) was used determine uptake of lead by the plant samples. The results of phytotolerance of H. annuus show a significant growth of the in lower concentration C5% compared to the control which was not spiked with Pb though there is decrease in the plant growth at high concentration of C25% Pb. The wet and dry biomass of H. annuus in a timeframe of 15 days was analyzed shows significant effect of the heavy metal in the biomass formation. The uptake of Pb by H. annuus was measured using AAS and it show a significant accumulation of Pb in the plant root and very significant in higher concentration of Pb was accumulated and translocated .it is concluded from this study that sunflower plant can absorb and accumulate quantities of lead without affecting the production of biomass indicating the possibility of using it as good candidate in the remediation of Pb polluted soils.

In Silico Efficacy of Oleic Acid, n-Hexanoic acid, and Epiglobulol Obtained from Conocarpus Lancifolius against Class D β-lactamases

Introduction: Antimicrobial resistance poses an escalating global challenge, compounded by the sluggish pace of new antibiotic discovery. Objectives: This study undertook an in silico analysis of phytochemicals derived from Conocarpus lancifolius, a local plant in the Jazan region of Saudi Arabia, to investigate potential antibacterial agents. Methods: The 3D crystallographic structure of OXA-48 was sourced from the RCSB protein databank (PDBID: 3HBR) and pre-processed. The Lib Dock algorithm facilitated the analysis of optimal binding orientations and potential interactions between compounds and the 3HBR. Results: The docking analysis outcome revealed Oleic acid as the most active compound and the binding mode exhibited that the -OH group of the terminal carboxylic acid moiety formed hydrogen bonds with Thr197 and Ala207, and the oxygen atom showed bonding with Lys116. Moreover, N-hexanoic acid also demonstrated promising binding interactions with the 3HBR, displaying hydrogen bond interactions with Lys208, Tyr211, and Ser70, along with hydrophobic alkyl interactions with Lys208 and Met115 at the protein's active sites. Unfavourable donor-donor and acceptor-acceptor bindings were also observed with Ser70 and Arg250 residues. Conclusions: The OXA-48 and NDM-1 predominate in countries of the Arabian Peninsula. Our findings suggest oleic acid as a promising candidate for combating OXA-48 β-lactamase, pending further assessment of its atomic structure via X-ray crystallography.

Prevalence, transmission and genomic epidemiology of mcr-1-positive colistin-resistant Escherichia coli strains isolated from international airplane waste, local resident fecal and wastewater treatment plants.

The emergence and dissemination of mcr-1-positive Escherichia coli (MCRPEC) represent a critical public health threat. Here, we conducted a prospective analysis of MCRPEC isolates from wastewater treatment plants (WWTPs), local residents' fecal (LRF), and international airplane waste (IAW) to investigate their genetic characteristics and transmission patterns circulating in human-environment domains. The MCRPEC prevalence was 2.43 % in WWTPs, 1.37 % in IAW and 0.69 % in LRF. MCRPEC showed substantial genetic diversity, encompassing 61 sequence types (primarily ST1011, ST101, and ST2705), 7 plasmid types (primarily IncI2), 8 phylogroups (primarily A and B1), 9 mcr-1-flanked lineages (primarily L5), 6 clusters (primarily C2 and C4), diverse serotypes, and 61.95 % transposon-containing strains. The mcr-1 gene co-existed with 46 antibiotic resistance genes (ARGs) and 19 virulence factor genes (VFGs). Notably, 6 IncI2 plasmids carried the blaCTX-M, IS1380, and mcr-1 genes. MCRPEC from WWTPs harbored a greater number of ARGs (56.95 ± 5.99) but fewer VFGs (15.03 ± 6.40) compared to those from human-associated sources (LRF and IAW). ST1011, ST2705, IncHI2, and L7 were prevalent in WWTP-derived MCRPEC, whereas IncX4 and L3 were more common in human-derived MCRPEC. Genetic features such as ST101, ST48, IncI2, L4, L5, C2, and C4 were simultaneously present in strains from LRF, IAW, and WWTPs. Core genetic analyses also showed genetically similar MCRPEC strains across various geographic locations. The findings underscore the extensive dissemination, strong environmental adaptation, and clonal transmission of MCRPEC across diverse reservoirs, reinforcing the urgent need for coordinated multisectoral surveillance of human and environment interfaces to effectively mitigate further transmission.

Isolated Mediterranean foraging: wild greens in the matrifocal community of Olympos, Karpathos Island, Greece.

Studies on the in-depth documentation of wild greens use in the Mediterranean Diet (MD) are vital to understanding patterns of cross-geographical change in wild food ingredients in the Mediterranean context, their appreciated taste, and possible evolution. Our present study aims to document the leafy, wild-sourced plant portion of the MD in the unique and isolated matrifocal community of Olympos, North Karpathos Isle, Greece. An ethnobotanical field study focussing on traditionally wild-sourced edible greens (chórta) was conducted during the spring of 2023 via 42 semi-structured interviews with local people. Our study documented 69 wild green taxa, along with their culinary uses and linguistic labels. Half of the gathered wild greens have a bitter taste (i.e. members of Asteraceae and Brassicaceae), while 70% of the top-quoted greens are bitter. These greens were mostly consumed cooked. Nearly half of the quoted taxa had been previously recorded as used in the food system of central Crete. In contrast, one-fourth of the folk phytonyms recorded in Olympos do not match the ones found in Crete and the rest of Greece, which may be linked to the Doric culture that the community remained attached to because of its isolation. However, the plant-human interaction kernel is similar to that of surrounding areas. Moreover, the community of Olympos seems to rely less on aromatic wild greens (compared with Crete). Cross-cultural foraging comparison is crucial for better understanding the circulation, exchange, and evolution of local plant knowledge under the MD umbrella. Our study assesses, in particular, how noteworthy phytolinguistic differences indicating different ancient trajectories of cultural encounters/exchanges may not necessarily be reflected in differences in terms of plant reports. As often postulated in linguistic ethnobiology, ancient linguistic labels sometimes remain as "empty shells". Given the fragile environment and the increasing over-tourism during the summer months the study site is experiencing, the presented data could contribute to a more substantial shift towards sustainable eco-tourism initiatives involving the foraging and cooking of wild greens.

Assessment of Gold and Mercury Losses in an Artisanal Gold Mining Site in Nigeria and Its Implication on the Local Economy and the Environment

The objective of this work was to establish the gold and mercury losses in an artisanal mining deposit (Uke) in Nigeria to convince miners about their inefficiency and suggest changes in their gold extraction practices. Samples of feeds and tailings from five sluice box concentration processes previously ground in hammer mills below 1 mm (P80 = 0.5 mm) were systematically sampled every 15 min. for 4 h and sent for gold analyses by a fire assay and intensive cyanidation. Dry grain size analyses of primary and amalgamation tailings allowed us to find out in which size fraction gold and mercury are lost. Total mercury losses in sixteen operations were obtained by weighing mercury at the beginning and in all steps of the concentrates’ amalgamation. After analyses, the average gold grade in the feed resulted in 3.80 ± 1.52 ppm (two standard deviations). The gold recovery was 29.24 ± 13.24%, which is low due to a lack of liberation of the fine gold particles from the gangue (silicates). Finer grinding would be necessary. The mercury balance revealed that 42% of the mercury added is lost, in which 26% involves tailings and 16% evaporated. The HgLost-to-AuProduced ratio was found to be 3.35 ± 9.46, which is exceedingly high for this type of amalgamation process that should have this ratio around 1. One reason is the excessive amount of mercury in the amalgams, 76.5 ± 38.12%, when the normal is around 40%–50%. Mercury lost by evaporation in open bonfires is clearly contaminating amalgamation operators (usually children), neighbours, and the environment. The Hg-contaminated tailings and primary tailings are sold to local cyanidation plants, and this can form toxic soluble Hg(CN)2 in the process. The results of this research were brought to the attention of the miners and other stakeholders, including the regulatory agencies of the government. The % gold recovery by amalgamation was established in this study, but if this process recovers 50 to 60% of the liberated gold particles in a concentrate and 30% of gold was recovered in the sluice boxes, then the total gold recovery should be between 15 and 20; i.e., 80 to 85% of gold mined is lost. On average, an operation produces 8.26 g of gold/month, which is split to six miners, representing USD 69/month/miner or USD 2.3/day. It was discussed with miners, authorities, and community members (in particular female miners) how to avoid exposure to mercury, how to improve gold recovery without mercury, and the health and environmental effects of this pollutant.

Status of Heavy Metals and Remediation Potential of Indigenous Plants at Contaminated Benin City and Abudu Sites of Edo, Nigeria

Status of Heavy Metals and Remediation Potential of Indigenous Plants at Contaminated Benin City and Abudu Sites of Edo, Nigeria

Consequential life cycle assessment of urban source-separating sanitation systems complementing centralized wastewater treatment in Lund, Sweden

This study examined various source-separating sanitation systems to evaluate their environmental performance, providing decision-makers with insights for selecting an appropriate system for a newly developed neighborhood in Sweden. A full consequential LCA was conducted to account for resource recovery and substitution. The local wastewater treatment plant WWTP was modeled as a reference. Secondly, a urine recycling system was introduced to treat 75% of the collected urine, with the remainder piped to the WWTP. Thirdly, a black and greywater (BW&GW) treatment system handling all generated wastewater was examined. Finally, a hybrid source-separating system combining urine, black, and greywater was investigated. The results indicated that the four scenarios exhibited global warming potentials (GWP) of 78, 62, 32, and 24 kg CO2-eq per PE/ y. Recycling urine as fertilizer led to a 20% reduction in the GWP of the reference. It also reduced other impact categories, with a 55%, 65%, and 45% reduction in eutrophication, ozone depletion, and acidification, respectively. The BW&GW system achieved a 60% reduction over the reference GWP, mainly due to fertilizer, biogas, and cleanwater recovery. Integrating urine, black, and greywater recycling in the final scenario achieved a 25% reduction compared to the BW&GW scenario, primarily due to lowering of the ammonia stripping GWP and the additional fertilizer recovery. Based on sensitivity analyses, switching citric acid for sulfuric acid reduced the GWP of the urine stabilization unit process by 101%, from 15.47 to -0.14 kg CO2-eq per PE/ y. Ultimately, the findings suggest that the fully decentralized source-separating sanitation system incorporating urine, blackwater, and greywater recycling, particularly when combined with 70% energy recovery at the urine concentrator, is most favorable.

Exploring Local Edible Plants as Potential Prebiotic Sources for Their Synbiotic Applications

Exploring Local Edible Plants as Potential Prebiotic Sources for Their Synbiotic Applications

Responses of Local and Non-Local Tropical Plant Seedling Functional Traits to Simulated Drought

Responses of Local and Non-Local Tropical Plant Seedling Functional Traits to Simulated Drought

Phytochemical Analysis of Selected Indigenous Plants and Essential Oils by Gas Chromatography/Mass Spectrometry Dedicate Antibacterial, Anti-Proliferative and Anti-Inflammatory Activity

Phytochemical Analysis of Selected Indigenous Plants and Essential Oils by Gas Chromatography/Mass Spectrometry Dedicate Antibacterial, Anti-Proliferative and Anti-Inflammatory Activity

A Study of the Bioactive Compounds, Antioxidant Capabilities, Antibacterial Effectiveness, and Cytotoxic Effects on Breast Cancer Cell Lines Using an Ethanolic Extract from the Aerial Parts of the Indigenous Plant Anabasis aretioïdes Coss. & Moq.

Anabasis aretioïdes contain numerous bioactive compounds that provide several advantages, including antioxidant, antibacterial, anticancer, neuroprotective, anti-inflammatory, and antidiabetic characteristics. This study aimed to make a hydroethanolic extract from the aerial part of the plant, analyze its biochemical compounds, and test its biological activities. From HPLC-DAD analysis, cinnamic acid, sinapic acid, and vanillin bioactives were found to be the main compounds in the extract. The spectrometric tests revealed that the extract was rich in flavonoids (8.52 ± 0.32 mg RE/100 g DW), polyphenols (159.32 ± 0.63 mg GAE/100 g DW), and condensed tannins (8.73 ± 0.23 mg CE/100 g DW). The extract showed significant antioxidant activity. There were strong correlations between the amount of flavonoid or polyphenol and the antioxidant assays, including ABTS, DPPH, β-carotene, and TAC. The extract also showed highly effective results against Gram-positive bacteria Staphylococcus aureus and Enterococcus faecalis as well as against Gram-negative bacteria Escherichia coli and Pseudomonas aeruginosa, and showed promising cytotoxicity against breast cancer cell lines MCF-7 and MDA-MB-231. The in silico modeling of the bioactive compounds contained in the extract illustrated their interaction mode with the active sites of particular target proteins, and it showed that rutin had the strongest effect on stopping NADPH oxidase enzyme, with a glide score of −6.889 Kcal/mol. Sinapic acid inhibited E. coli beta-ketoacyl-[acyl carrier protein] synthase (−7.517 kcal/mol), and apigenin showed high binding affinity to S. aureus nucleoside di-phosphate kinase, with −8.656 kcal/mol. Succinic acid has the strongest anticancer effect for caspase-3, with a glide score of −8.102 kcal/mol. These bioactive components may be beneficial as antioxidant and antibacterial applications in medicine, foods, natural cosmetics, and breast cancer prevention in the future. As a result, the use of this indigenous plant must be considered to maximize its value and preservation.

Bio Nanoparticles as Antimicrobial Agents

One such novel technology is nanotechnology, which has been revolutionized in health care, textile, materials, information and communication technology, and energy sectors too. There are many ways depicted in various literatures to synthesize silver nanoparticles. These include physical, chemical, and biological methods. The physical and chemical methods are numerous in number, and many of these methods are expensive or use toxic substances which are major factors that make them “not so favored” methods of synthesis. An alternate, feasible method to synthesize silver nanoparticles is to employ biological methods of using microbes and plants. Biotechnology has considered a safe agricultural tool to enhance crop protection, subsequently to produce more agricultural products, improve food process, nutritional value, and better flavor. Side by side it has detrimental ecological consequences such as spreading genetically engineered genes to indigenous plants, elevated toxicity, which may transmit through food chain, disrupting nature’s system of pest control, developing new weeds or virus strains, biodiversity loss, and insecticidal resistance (Goswami et al., 2010). Hence, it is necessary to bring forth new innovative technology/methods to overcome the above mentioned problems. The potential application of biogenic nanoparticles as antimicrobial agents will be also reviewed. The mechanism of action of nanoparticles as bactericidal and antifungal agents will be highlighted in this chapter.

Ethnobotany Study Tradition Buang Abu Melayu Sambas as a Biology Learning Resource

The district of Sambas has a variety of cultures and traditions. The distinctive characteristic of the district of Sambas is embodied in the uniqueness of the buang abu tradition, which differs from the tradition in other areas. Besides, the tradition involves the use of some local plants. The research is aimed at identifying the types of plants used in the process of buang abu and identifying the suitability and validity of the potential of the plant types in the process of buang abu in Malay Sambas as a source of biological learning. The research uses qualitative descriptive methods. The quality of the potential of plants used in the buang abu tradition as a source of biological learning in the interpretation is very worthy, with a 100% presentation. The relevance of the material to the study of ethnobotany of the tradition of buang abu Melayu Sambas is consistent in achieving basic competence on the material of the high school level, namely biodiversity, classification of living creatures, plantae, growth and development of living beings, and the structure and function of tissues in plants.

The Ability of Indigenous Plants in Alleviating Rheumatoid Arthritis: A Comprehensive Review.

Rheumatoid Arthritis is a long-lasted, inflammatory, systemic autoimmune disease that predominantly manifests in people between the ages of 30 and 50 Rheumatoid arthritis is characterized by more than a half-hour of morning stiffness in the affected joints, fever, soreness, swelling, weight loss, tiredness, warm joints, and subcutaneous rheumatoid nodules. Hormonal, genetic, epigenetic, reproductive, and neuroendocrine risk factors, as well as comorbid host variables, are the categories of host-related risk factors associated with the evolution of RA. Additional risk variables that have been linked to RA include food, environmental variables, socioeconomic status, smoking, microbiome, infection agents, and other airborne exposures. The objective of RA therapies is to minimise joint deformity and destruction, minimise discomfort and inflammation in the joints, and maximise joint function.Growing data suggests that the course of Rheumatoid Arthritis is affected by the minimisation of disease activity caused by disease-modifying medications, and that patients may benefit from early antirheumatic medication delivery that modifies illness. While numerous herbs have been explored for their anti-inflammatory properties, it is important to note that not all herbs have been thoroughly researched. This review focuses on seventeen native plant species that have shown either promising or established anti-arthritic effects based on preclinical and clinical studies where available. The review highlights the biochemical and immunological attributes of these herbs, summarizing their therapeutic potential for RA management while also acknowledging the limitations and gaps in current research. This examination provides insights into the potential of these herbal treatments for RA and calls for further research to explore their efficacy and safety in greater depth.

Optimisation, Synthesis, and Characterisation of ZnO Nanoparticles Using Leonotis ocymifolia (L. ocymifolia) Leaf Extracts for Antibacterial and Photodegradation Applications.

This work presents a green synthesis route, which utilises extracts from an indigenous plant in South Africa, eastern and southern Africa that is understudied and underutilised, for preparing zinc oxide nanoparticles (ZnO NPs). This study involved optimisation of the green synthesis method using Leonotis ocymifolia (L.O.) extracts and performing comparative studies on the effects of using different zinc (Zn) salt precursors; zinc sulphate heptahydrate (Z001) and zinc acetate dihydrate (Z002) to synthesise the ZnO NPs. The comparative studies also compared the L.O-mediated ZnO NPs and chemical-mediated ZnO NPs (Z003). The as-prepared ZnO NPs were tested for their effectiveness in the photodegradation of methylene blue (MB) dye. Furthermore, antibacterial studies were conducted using the agar well diffusion method on Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus) bacteria. The structural, morphological, and optical characteristics of the synthesised ZnO NPs were analysed using XRD, FTIR, SEM, EDS, DRS, and BET techniques. The XRD results indicated that the L.O-mediated ZnO NPs had smaller crystallite sizes (18.24-19.32 nm) than their chemically synthesised counterparts (21.50 nm). FTIR confirmed the presence of biomolecules on the surface of the L.O-mediated NPs, and DRS analysis revealed bandgap energies between 3.07 and 3.18 eV. The EDS results confirmed the chemical composition of the synthesised ZnO NPs, which were made up of Zn and O atoms. Photocatalytic studies demonstrated that the L.O-mediated ZnO NPs (Z001) exhibited a superior degradation efficiency of the MB dye (89.81%) compared to chemically synthesised ZnO NPs (56.13%) under ultraviolet (UV) light for 240 min. Antibacterial tests showed that L.O-mediated ZnO NPs were more effective against S. aureus than E. coli. The enhanced photocatalytic and antibacterial properties of L.O-mediated ZnO NPs highlight their potential for environmental remediation and antimicrobial applications, thus supporting sustainable development goals.

Effect of Genotype and Altitude on the Germination of Freshly Collected Seeds from Wild-Growing Populations of Campanula pelviformis Lam. and Petromarula pinnata (L.) A. DC. (Campanulaceae)

The genetic wealth of range-restricted species is threatened by human activities such as habitat fragmentation or alteration. This research focused on the genotype effect in sexual propagation with freshly collected seeds of vulnerable local endemic plants in Crete, namely, Campanula pelviformis and Petromarula pinnata (Campanulaceae), which can be sustainably utilized for agro-alimentary, medicinal, and ornamental purposes. The morphological characteristics of seed length, width, and weight of freshly collected seeds from five wild-growing populations of C. pelviformis and seven wild-growing populations of P. pinnata from lowlands (<500 m) and semi-mountainous (>500 m) altitudes were measured and subjected to germination experiments at four incubation temperature treatments (10, 15, 20, and 25 °C). The effects of temperature, genotype, and their interactions were statistically significant for seed germination, with the results similar to those of previous studies on stored seeds of the same populations. Freshly collected seeds of both species germinated best at incubation temperatures of 10 °C and 15 °C (>68.13% for all population of C. pelviformis and >80.63% for six out of seven populations of P. pinnata), while significant differences were detected among genotypes for both species at each incubation temperature and among genotypes, even from similar altitudes. A statistically significant effect of altitude on germination percentages was observed at an incubation temperature of 20 °C between lowland and semi-mountainous genotypes for both species. The data produced in this study may enhance conservation efforts and lead to species-specific information that can be exploited in the future for their introduction as novel multi-purpose crops.

The Role of Indigenous Plants in Sustaining Food Sources in Lesten Village, Gayo Lues Regency, Indonesia

The Gayo tribe in Lesten Village has historically relied on plants to fulfill their nutritional needs. Expanding knowledge about diverse plant-based food sources offers a promising strategy for addressing future food insecurity. A dependence on conventional plant species has often resulted in inadequate food supplies, highlighting the need for alternative approaches that incorporate a broader range of plant resources to mitigate food scarcity. Located within the Leuser mountain buffer landscape, Lesten Village in Gayo Lues Regency, Aceh Province, represents a key agricultural area with significant potential to benefit the local community. This study aimed to document and analyze the plant species used as food sources by the Lesten Village community. Data collection combined qualitative and quantitative methods, including exploration, direct observation, and semi-structured interviews. The results revealed that female respondents had a higher level of knowledge about plant use as food sources. Notably, 52.9% and 55.7% of these respondents were aged 50 years or older. The community in Lesten utilized a total of 51 plant species from 26 families as food ingredients. Vegetables constituted the largest category (34%), followed by spices (30%), fruits (21%), and carbohydrates (15%). Fruits were the most frequently used plant part for food (61%). The species with the highest use value was Cacica papaya (1.07). Additionally, the traditional food with the highest fidelity level was serbet (62.82%). These findings emphasize the importance of integrating a diverse range of plant resources into food systems to enhance food security and stimulate economic development in the region.

Purification of Glucomannan from Porang (Amorphophallus oncophyllus) Tuber Flour through Hydrolysis of Hydrochloric Acid

Porang (Amorphophallus oncophyllus) is a local perennial plant that commonly grown in Indonesian forest. Its tuber contains a lot of glucomannan that has many benefits as food ingredient or as functional food. Glucomannan has a lot of health benefits, such as anti-diabetic effect, low glycemic index, prebiotic effect, etc. Despite that, the extraction is still a problem because it is difficult to get pure glucomannan extract out of Porang flour. Thus, in this study we are going to use hydrocloric acid to extract the glucomannan from the porang flour through hydrolysis extraction. This research will test the effect of hydrochloric acid concentration on the purity of glucomannan extract obtained from porang flour, to study the effect of nonsolvent, ethanol and isopropyl alcohol on glucomannan concentration, and to obtain the optimal condition to get high concentration of glucomannan using extraction with pretreatment hydrochloric acid hydrolysis.

The molecular anti-metastatic potential of CBD and THC from Lebanese Cannabis via apoptosis induction and alterations in autophagy

The medicinal plant Cannabis sativa L. (C. sativa) is currently being extensively studied to determine the full extent of its therapeutic pharmacological potential. Δ9-tetrahydocannabinol (THC) and cannabidiol (CBD) are the most thoroughly investigated compounds. We aimed to explore the anticancer activity of cannabinoids mixture isolated from the Lebanese C. sativa plant in ratios comparable to the local medicinal plant, to elucidate its mechanism of action in breast cancer cells in vitro. Cells were subjected to cytotoxicity assay, cell cycle analysis, Annexin V/PI dual staining, cell death ELISA, immunofluorescence, in addition to western blot analysis of apoptotic and autophagy markers. We further evaluated the anti-metastatic effect of cannabinoids on MDA-MB-231 using the scratch wound-healing, trans-well migration and invasion assays. Our results revealed the promising therapeutic benefits of CBD/THC on inhibiting the growth of breast cancer cells by promoting cellular fragmentation, phosphatidylserine translocation to the outer membrane leaflet and DNA fragmentation in both cell lines while inhibiting the motility of the triple negative breast cancer cells. In our study, CBD/THC mixture was found to exhibit a pro-apoptotic activity via the activation of the mitochondrial apoptotic pathway, independent from ROS production while also suggesting the activation of a caspase-dependent apoptotic pathway. Even though autophagy was altered upon exposure to the cannabinoid mixture, our data suggested that it is not the mechanism responsible of inducing cell death. In conclusion, our study demonstrates the promising therapeutic benefits of CBD and THC isolated from the Lebanese C. sativa plant on breast cancer cells in vitro.

Multiple genotypes of a quarantine plant pathogen detected in New Zealand indigenous plants located in a botanical garden overseas

AbstractXylella fastidiosa is a xylem‐limited bacterial plant pathogen transmitted by insect vectors. It infects a wide range of plant species and causes devastating diseases. Botanical gardens are global repositories of plant diversity exposed to local biotic and abiotic stresses. We used molecular diagnostic tools for the detection of X. fastidiosa in a collection of New Zealand indigenous plants grown in a X. fastidiosa‐infected Californian area to determine if any species were infected with this bacterial pathogen and to help inform biosecurity responses. To this end, 130 New Zealand indigenous plant species comprising 72 genera, growing in the University of California Botanical Garden at Berkeley, California, were screened for X. fastidiosa. Multiple PCR‐based methods were used to detect the pathogen at the subspecies and sequence‐type levels directly from plant material; nine plant species tested positive by at least two PCR‐based methods. All nine infections were identified as X. fastidiosa subsp. multiplex sequence types 6 or 7 by the amplification of seven housekeeping genes. Three strains were cultured in vitro and their whole genome sequences were obtained; these strains belonged to three distinct clades within subspecies multiplex, indicating that the infections were not transmitted among these New Zealand indigenous plant species. The information gathered in this study will help to assess the risk of X. fastidiosa to New Zealand indigenous flora and the potential spillover to crops of agricultural importance. The work also shows the applied value of botanical garden collections as sentinels for international plant pathogen biosecurity risk assessment.