Dynamic evolution of small signaling peptide compensation in plant stem cell control

Gene duplications are a hallmark of plant genome evolution and a foundation for genetic interactions that shape phenotypic diversity. Compensation is a major form of paralog interaction, but how compensation relationships change as allelic variation accumulates is unknown. Here, we leveraged genomics and genome editing across the Solanaceae family to capture the evolution of compensating paralogs. Mutations in the stem cell regulator CLV3 cause floral organs to overproliferate in many plants. In tomato, this phenotype is partially suppressed by transcriptional upregulation of a closely related paralog. Tobacco lost this paralog, resulting in no compensation and extreme clv3 phenotypes. Strikingly, the paralogs of petunia and groundcherry nearly completely suppress clv3, indicating a potent ancestral state of compensation. Cross-species transgenic complementation analyses show this potent compensation partially degenerated in tomato due to a single amino acid change in the paralog and cis-regulatory variation that limits its transcriptional upregulation. Our findings show how genetic interactions are remodeled following duplications, and suggest that dynamic paralog evolution is widespread over short time scales and impacts phenotypic variation from natural and engineered mutations.

Chemical Composition, Biological Activity, and Health-Promoting Effects of Withania somnifera for Pharma-Food Industry Applications

The Withania genus comes from the Solanaceae family and includes around 23 species, spread over some areas of the Mediterranean, Asia, and East Africa. Widely used in traditional medicine for thousands of years, these plants are rich in secondary metabolites, with special emphasis on steroidal lactones, named withanolides which are used as ingredients in numerous formulations for a plethora of diseases, such as asthma, diabetes, arthritis, impotence, amnesia, hypertension, anxiety, stress, cancer, neurodegenerative, and cardiovascular diseases, and many others. Among them, Withania somnifera (L.) Dunal is the most widely addressed species from a pharmacological and agroindustrial point of view. In this sense, this review provides an overview of the folk uses, phytochemical composition, and biological activity, such as antioxidant, antimicrobial, anti-inflammatory, and cytotoxic activity of W. somnifera, although more recently other species have also been increasingly investigated. In addition, their health-promoting effects, i.e., antistress, anxiolytic, adaptogenic, antirheumatoid arthritis, chemoprotective, and cardiorespiratory-enhancing abilities, along with safety and adverse effects are also discussed.

Ethnobotany of indigenous (Traditional) vegetables in Adi tribe of East Siang region of Arunachal Pradesh, India

Arunachal Pradesh is known as land of rising Sun which is the biggest in terms of area-wise amongst the state of north east India.The region has 26 major tribe; each tribe has its own enormous indigenous knowledge on the uses of wild plants. Among the tribe, Adi community is one of the major tribe inhabited in the region which has its own habitual way of using horticultural (vegetables) resources for sustaining livelihood. Most of the plants are also ethnically important without wich diverse rituals and festivals (Solung) of adi community remain unfinished. The current servey was under taken interviewed through planned questionaire. In our investigation among 25 wild species, 5 species belong to the Solanaceae family which was found to be most widely used family followed by Apiaceae, Rutaceae, Urticaceae and Araceae. Investigation on the basis of plant parts used reveals that the edible parts of the plants such as 6 species found to be widely used though leaves followed by 3 species fruits and 3 species whole plants besides these other plant parts like young tender leaves, tender stalks, petioles, rhizome also has been observed. This study is aim to initiated the basic information of these valuable herbs vegetable species for popularizing in future. These can compete with the best vegetables if appropriate study is initiated for production and ethanomedicine improvement.

ROLE OF PLANT SECONDARY METABOLITES IN COMBATING PEST INDUCED STRESS IN BRINJAL (SOLANUM MELONGENA L.)

Brinjal or eggplant (Solanum melongena L.) is known as a vegetable of diet because it contains high moisture and low calorific value. It is also a good source of antioxidants and phytonutrients. Brinjal is widely grown in the South and South-East Asian countries and is the second most important vegetable in India. It belongs to the Solanaceae family. Shoot and fruit borer (Leucinodes orbonalis) pest of brinjal is the most widespread one and it has the ability to affect any of the developmental stages of brinjal. Plants and their insect herbivores have had a long and intimate evolutionary association that has resulted in many complex interactions mediated by specialized plant metabolites like phenolics, alkaloids, terpenoids, cyanogenic glycosides etc. Frequent and excessive use of insecticides has become a common practice now which only increases the probability of resistance development and resurgence of pest. Hence to develop an effective approach to combat this pest understanding of its feeding mechanism and chemistry of its interaction with the fruit is necessary. The importance of the secondary metabolites in the field of chemical biology and in pest management is discussed in this study.

Solanum Fruits: Phytochemicals, Bioaccessibility and Bioavailability, and Their Relationship With Their Health-Promoting Effects

The Solanum genus is the largest in the Solanaceae family containing around 2,000 species. There is a great number of edibles obtained from this genus, and globally, the most common are tomato (S. lycopersicum), potato (S. tuberosum), and eggplant (S. melongena). Other fruits are common in specific regions and countries, for instance, S. nigrum, S. torvum, S. betaceum, and S. stramonifolium. Various reports have shown that flavonoids, phenolic acids, alkaloids, saponins, and other molecules can be found in these plants. These molecules are associated with various health-promoting properties against many non-communicable diseases, the main causes of death globally. Nonetheless, the transformations of the structure of antioxidants caused by cooking methods and gastrointestinal digestion impact their potential benefits and must be considered. This review provides information about antioxidant compounds, their bioaccessibility and bioavailability, and their health-promoting effects. Bioaccessibility and bioavailability studies must be considered when evaluating the bioactive properties of health-promoting molecules like those from the Solanum genus.

Detection, Identification and Molecular Characterization of a 16SrII-V subgroup Phytoplasma Associated with Nicotiana plumbaginifolia Viviani

Nicotiana plumbaginifolia Viviani or commonly known as curl-leaved tobacco is an annual herbaceous plant belonging to Solanaceae family. This plant is native to Mexico, South America, and parts of the Caribbean and has been reported to be present in Taiwan since 2006. In March 2021, N. plumbaginifolia Viviani found in Yunlin County, Taiwan was observed to have phyllody, virescence, and witches’-broom which is consistent with the disease symptoms caused by phytoplasma infection. Samples of the healthy and symptomatic plants were collected for analysis of the causal agent associated with the diseased N. plumbaginifolia Viviani. Under transmission electron microscopy, the phytoplasma-like pleomorphic bodies were found in the sieve tubes of the diseased plants. The 16S rRNA-based phylogenetic analysis and the iPhyClassifier-based virtual RFLP study demonstrated that the phytoplasma identified in this study can be classified into the 16SrII-V subgroup, which is similar to the peanut witches’-broom phytoplasma, a ‘Candidatus phytoplasma aurantifolia’-related strain. Further identification of SAP54/PHYL1 and SAP11 homologues in the phytoplasma explain the disease symptoms of phyllody, virescence, and witches’-broom observed in diseased N. plumbaginifolia Viviani. The discovery of new phytoplasma plant hosts has gained scientific importance in light of the attempt to unravel an efficient strategy to fight the rapid spread of this disease which poses threat to the agricultural sector and food security in Taiwan.

Chemical Characterization, Nutritional and Bioactive Properties of Physalis peruviana Fruit from High Areas of the Atacama Desert

Physalis peruviana L. belongs to the Solanaceae family and produces a spherical fruit used to treat various diseases. However, the chemical composition, nutritional characterization, and bioactive properties of the P. peruviana growing in the Andean region of the Atacama Desert have not been conducted so far. The results showed clear differences in the nutritional and bioactive characteristics of the fruits grown in arid environmental conditions, which were comparable to those from countries with a production tradition. The fruits studied showed a higher Ca, Cu, Mn, P, and Zn content and bioactive compounds such as flavonoids and tannins than those reported in the literature. UHPLC was performed to determine the main phenols. Gallic acid was identified as the predominant phenolic compound in this species (303.63 mg/100 g FW), of which to our knowledge no previous study has reported similar concentrations in this species. Moreover, Cape gooseberry extract has antioxidant and antimicrobial activity against Gram-positive and Gram-negative bacteria. Pseudomonas syringae (MIC 0.313 mg/mL and MBC 1.25 mg/mL) was the most susceptible bacterium. Meanwhile, Erwinia rhapontici was the most resistant bacterium (MIC and MIB 5.00 mg/mL). Furthermore, it was found to inhibit α-amylase activity with an IC50 value (39.28 µg/mL) similar to that of acarbose (35.74 µg/mL). These results expand the knowledge of the species cultivated in arid environmental conditions and suggest an alternative for the potential use of this fruit to manage chronic diseases such as diabetes.

Phytoplasma testing in sweet pepper in Moldova

Phytoplasma infects a wide variety of crops, causing considerable economic losses. About half of the vegetable crops damaged by phytoplasma belong to the Solanaceae family including tomato, eggplant and pepper which play an important role in the agriculture economics of Moldova. Our previous research confirmed the presence of ‘Candidatus Phytoplasma solani’ (16SrXII-A subgroup) in tomatoes and also identified insect vectors. In this communication, we present for the first time in Moldova the results of molecular diagnosis of association of ‘Ca. P. solani’ in 4% of the analyzed sweet pepper samples. ‘Ca. P. asteris’ group was absent in the pepper field.

CRISPR/Cas9-mediated disruption of the PYRROLIDINE KETIDE SYNTHASE gene reduces the accumulation of tropane alkaloids in Atropa belladonna hairy roots

Tropane alkaloids, including clinically important hyoscyamine and scopolamine, are produced in the roots of medicinal plant species, such as Atropa belladonna, from the Solanaceae family. Recent molecular and genomic approaches have advanced our understanding of the metabolic enzymes involved in tropane alkaloid biosynthesis. A non-canonical type III polyketide synthase (PKS), pyrrolidine ketide synthase (PYKS), catalyzes a two-step decarboxylative reaction, which involves imine-ketide condensation indispensable to tropane skeleton construction. In this study, we generated pyks mutant A. belladonna hairy roots via CRISPR/Cas9-mediated genome editing and analyzed the metabolic consequences of the loss of PYKS activity on tropane alkaloids, providing insights into a crucial role of the scaffold-forming reaction in the biosynthetic pathway.

Development of CE-C4D Method for Determination Tropane Alkaloids

A fast method for the determination of tropane alkaloids, using a portable CE instrument with a capacitively coupled contactless conductivity detector (CE-C4D) was developed and validated for determination of atropine and scopolamine in seeds from Solanaceae family plants. Separation was obtained within 5 min, using an optimized background electrolyte consisting of 0.5 M acetic acid with 0.25% (w/v) β-CD. The limit of detection and quantification was 0.5 µg/mL and 1.5 µg/mL, respectively, for both atropine and scopolamine. The developed method was validated with the following parameters—precision (CV): 1.07–2.08%, accuracy of the assay (recovery, RE): 101.0–102.7% and matrix effect (ME): 92.99–94.23%. Moreover, the optimized CE-C4D method was applied to the analysis of plant extracts and pharmaceuticals, proving its applicability and accuracy.