A hybrid mint plant characterized by an essential oil composition profile, methods of cultivating the hybrid mint plant, and methods of producing an essential oil composition with the essential oil composition profile using the hybrid mint plant are disclosed.

The invention refers to standardized plant extract from biomass of in vitro cultures of Haberlea rhodopensis Friv. (HR), containing bioactive compounds and their primary secondary metabolites, containing in weight %, as follows: organic acid from 4.0 to 6.0, fatty acids from 0.5 to 1.5, amino acids from 8.0 to 12.0, sterols from 0.5 to 1.0, free phenols from 3.0 to 6.0, sugars from 45 to 55, and polyphenols from 25.0 to 35.0, with a predominant myconoside content of 70% to 96% in the polyphenolic fraction, constituting 18% to 35% of the total extract, and to a composition containing the standardized extract and glycerol as well as to a method for the preparation of a standardized plant extract.

The method according this invention, along with its optimally chosen steps, specific conditions, parameters such as temperature, duration, stirring, light, growth factors, etc. achieves both maximum volumetric productivity of the target substances and myconoside, as well as stable productivity of the plant in vitro cultures and is a reliable efficient 24/7 continuous system for production of NPs.

Dependence on natural factors, limited availability and protection of HR rare wild plant populations are eliminated. The limitations posed by seasonality and slow HR growth are also avoided by developing a renewable, ecologically method. The developed method provides alternative, renewable and sustainable sources of raw plant material necessary to obtain the target extract. The resulting extract standardized in myconoside is especially valuable with its protective action on human health and can successfully be used with its pharmacological, cosmetic effects as well as in functional foods.

The present invention relates to a Lactuca sativa seed designated 79-791 RZ. The present invention also relates to a Lactuca sativa plant produced by growing the 79-791 RZ seed. The invention further relates to methods for producing the lettuce cultivar, represented by lettuce variety 79-791 RZ.

The process described herein may provide the benefit of selectively generating plant-based materials with tunable cellular compositions and material properties in controlled forms without necessarily requiring whole-plant cultivation or harvest. An example process may include extracting and maintaining live plant cells via leaf maceration and liquid culturing, transferring cells from the liquid culture to a gel medium, integrating the cells into a hydrogel scaffold, and shaping the scaffold. This process, using the disclosed tissue engineering-style approach, may further allow for localized and high-density biomass production, eliminate energy intensive harvest and hauling, reduce processing, and inherently foster climate resilience.

A device for directionally placing a plant propagule (2) inside a hollow member (3), as exemplarily illustrated in FIGS. 4-7, comprising a platform element (20) arranged such that a foldable member (1) can be placed thereon; an actuating dispensing arrangement (90a, 90b, 100) for placing a foldable member (1) on the platform element (20); an arrangement (40)/(40a)for placing a plant propagule (2) on a foldable member (1) placed on the platform element (20); optionally, means (150) for identifying an imaginary line (9) on the foldable member (1) stretching through the root forming end (7) to the shoot forming end (8) of the propagule (2) being directionally placed during operation; an actuating folding arrangement (30, 80)/(120/80) for folding the foldable member (1) along said imaginary line (9) to form a folded foldable member (1a); an actuating dispensing arrangement (180) for providing a hollow member (3) having a first open end (4); and an actuating placing arrangement (30, 80)/(120/80) for placing said folded foldable member (1a) into the hollow member (3) through the first open end (4). Related methods for handling plant propagules, in particular somatic plant embryos.

An in vitro rescue method for immature embryo of avocado includes: collecting immature avocado hybrid fruits, stripping immature zygotic embryos from the sterilized fruits; inducing maturation of zygotic embryos in different media selected according to the maturities of zygotic embryos; and avocado seed embryos growing to normal plants under light conditions after germination. Provided is a technology for the in vitro culture rescue of immature embryo of avocado, wherein the zygotic embryos at different developmental stages are induced to maturation under in vitro conditions, and after maturation, the seed embryos are induced to germinate and form healthy plants. The present invention can effectively improve the survival rate of hybrid avocado zygotic embryo, increase the success rate of hybrid avocado, rescue the hybrid offspring, reduce the loss of hybrid offspring, ensure the genetic integrity of hybrid group, and provide the key technology for hybrid breeding and genetic research of avocado.

A Stevia extract made from leaves of the Stevia rebaudiana plant is described. The extract has desired levels of steviol glycosides and is useful in food, beverage, and other consumable products.

Provided is a method of producing plant embryos having improved embryo quality or germination frequency comparing to embryos developed by conventional methods. The method entails the steps of (a) incubating plant embryogenic suspensor mass (ESM) in, or on, a standard development medium supplied with glucose for a first incubation period to develop immature somatic embryos; (b) mass transferring the immature somatic embryos to a modified development medium near or at cotyledon stage; and (c) incubating the immature somatic embryos in, or on, the modified development medium for a second incubation period to develop mature somatic embryos. The modified development medium contains reduced concentration of glucose or is glucose-free and the osmolality of the modified development medium is adjusted to compensate for the loss of osmolality due to reduction or removal of glucose.

The present application relates to methods for the production of plant material suitable for the extraction and purification of saponins, through plantations of clone plants of defined chemotype, including ultrahigh density plantations of Quillaja saponaria Molina, and methods to increase the recovery of saponins by solid/liquid extraction of the harvested plant material.

Disclosed are methods of obtaining clonal seeds, methods of plant cloning, methods of screening for maternal plants that produce clonal seeds asexually and methods of increasing yield of clonal seeds. Also disclosed are constructs comprising a nucleic acid that may silence the activity of a RNA-dependent DNA methylation pathway gene. Further disclosed are maternal plants comprising a construct wherein the construct comprises an exogenous nucleic acid sequence, wherein the construct renders the maternal plant defective for RNA-dependent DNA methylation.