A celery cultivar, designated TBG 39, is disclosed. The invention relates to the seeds of celery cultivar TBG 39, to the plants of celery cultivar TBG 39 and to methods for producing a celery plant by crossing the cultivar TBG 39 with itself or another celery cultivar. The invention further relates to methods for producing a celery plant containing in its genetic material one or more transgenes and to the transgenic celery plants and plant parts produced by those methods. This invention also relates to celery cultivars or breeding cultivars and plant parts derived from celery cultivar TBG 39, to methods for producing other celery cultivars, lines or plant parts derived from celery cultivar TBG 39 and to the celery plants, varieties, and their parts derived from the use of those methods. The invention further relates to hybrid celery seeds, plants, and plant parts produced by crossing cultivar TBG 39 with another celery cultivar.

A celery cultivar, designated TBG 39, is disclosed. The invention relates to the seeds of celery cultivar TBG 39, to the plants of celery cultivar TBG 39 and to methods for producing a celery plant by crossing the cultivar TBG 39 with itself or another celery cultivar. The invention further relates to methods for producing a celery plant containing in its genetic material one or more transgenes and to the transgenic celery plants and plant parts produced by those methods. This invention also relates to celery cultivars or breeding cultivars and plant parts derived from celery cultivar TBG 39, to methods for producing other celery cultivars, lines or plant parts derived from celery cultivar TBG 39 and to the celery plants, varieties, and their parts derived from the use of those methods. The invention further relates to hybrid celery seeds, plants, and plant parts produced by crossing cultivar TBG 39 with another celery cultivar.

A celery cultivar, designated TBG 42, is disclosed. The invention relates to the seeds of celery cultivar TBG 42, to the plants of celery cultivar TBG 42 and to methods for producing a celery plant by crossing the cultivar TBG 42 with itself or another celery cultivar. The invention further relates to methods for producing a celery plant containing in its genetic material one or more transgenes and to the transgenic celery plants and plant parts produced by those methods. This invention also relates to celery cultivars or breeding cultivars and plant parts derived from celery cultivar TBG 42, to methods for producing other celery cultivars, lines or plant parts derived from celery cultivar TBG 42 and to the celery plants, varieties, and their parts derived from the use of those methods. The invention further relates to hybrid celery seeds, plants, and plant parts produced by crossing cultivar TBG 42 with another celery cultivar.

A celery cultivar, designated TBG 42, is disclosed. The invention relates to the seeds of celery cultivar TBG 42, to the plants of celery cultivar TBG 42 and to methods for producing a celery plant by crossing the cultivar TBG 42 with itself or another celery cultivar. The invention further relates to methods for producing a celery plant containing in its genetic material one or more transgenes and to the transgenic celery plants and plant parts produced by those methods. This invention also relates to celery cultivars or breeding cultivars and plant parts derived from celery cultivar TBG 42, to methods for producing other celery cultivars, lines or plant parts derived from celery cultivar TBG 42 and to the celery plants, varieties, and their parts derived from the use of those methods. The invention further relates to hybrid celery seeds, plants, and plant parts produced by crossing cultivar TBG 42 with another celery cultivar.

A new and distinct variety of M. x piperita, ‘Columbia’ is characterized by its unique oil chemistry and sweet complex flavor profile. The new varietal offers a M. x piperita variety that has strong resistance to diseases such as Verticillium Wilt and Mint Rust.

A new and distinct variety of M. x piperita, ‘Columbia’ is characterized by its unique oil chemistry and sweet complex flavor profile. The new varietal offers a M. x piperita variety that has strong resistance to diseases such as Verticillium Wilt and Mint Rust.

The present disclosure relates generally to new Cannabis plants, including parts, extracts and uses thereof, comprising a cannabinoid profile enriched for total CBD (i.e., cannabidiol (CBD) and cannabidiolic acid (CBDA)).

The present disclosure relates to new Cannabis plants, including parts, extracts and uses thereof, comprising a cannabinoid profile enriched for total THC (i.e., Δ-9-tetrahydrocannabinol (THC) and Δ-9-tetrahydrocannabinolic acid (THCA)) and total CBG (i.e., cannabigerol (CBG) and cannabigerolic acid (CBGA)).

The present invention provides means for inhibiting the bolting and flowering of a Beta vulgaris plant, including an isolated nucleic acid, which can be used to produce a transgenic Beta vulgaris plant, where bolting and flowering is inhibited after vernalization. Furthermore, the invention discloses vectors, transgenic and non-transgenic, non-bolting plants and parts thereof, and methods for producing such plants.

An ion guide (222) is for use in transport of an ion incident from an upstream side toward a downstream side. The ion guide includes 2n rod electrodes (n is an integral number greater than or equal to 2) equally spaced and surrounding an ion optical axis (C) that is a central axis of a flight path of the ion, a voltage applying unit (30) that applies a radio-frequency voltage to the 2n rod electrodes, and a controller (43) that controls the voltage applying unit (30). The controller (43) prompts the voltage applying unit (30) to apply a radio-frequency voltage that generates, in a space surrounded by the 2n rod electrodes, an electric field which is a 2n-multipole electric field superimposed by a higher-order electric field component than the 2n-multipole electric field.