A new and distinct variety of grapevine plant named ‘SV35-186-427’ particularly characterized by its very sweet, crisp, red berries with flavor similar to spun sugar. Natural cluster size is medium with well-filled, loose clusters. Fruitfulness is high with shoots on spur pruned vines usually producing two flower clusters per shoot. Vine vigor is very high with canes producing 365.5 cm of growth per shoot.

Aspects of the disclosure relate to plants containing one or more of a mutant sler (Solyc08g061560) gene or a homolog thereof, a mutant sp5g (Solyc05g053850) gene or a homolog thereof and a mutant sp (Solyc06g074350) gene or a homolog thereof, as well as methods of producing such plants. In some aspects, such plants have one or more improved traits, such as modified stem length and modified time for flowering and fruit production.

Description and specifications of a new and distinct cultivar of grapevine which originated from a hand-pollinated cross of ‘Gewürztraminer’ (female parent) x ‘Melody’ (male parent) made in 1991. The seedlings fruited in the summer of 1992 in a vineyard near Clarksville, Ark. and one was selected for its potential as a wine grape for utilization in the Mid-South of the United States. The original vine was tested as ‘Ark. 2574’. The new cultivar of grapevine is intended for wine production and provides advancements in cold hardiness.

Description and specifications of a new and distinct cultivar of blackberry plant named ‘APF-268’ which originated from seed produced by a hand-pollinated cross of Arkansas selections ‘APF-45’ (U.S. Plant Pat. No. 22,449) x ‘APF-158’ (non-patented, unreleased genotype) is provided. This new cultivar of blackberry plant can be distinguished by its large fruit with consistent size and sweet flavor. The plants have consistently good plant health and primocane-fruiting habit.

The ‘S-54’ fig tree is a common-type fig tree, characterized by high vigor, precocious growth, and abundant production of large yellow to yellow-green figs. ‘S-54’ figs have a very small, closed eye that restricts the entrance of insects and spores that may cause internal decay or unwanted pollination. The skin of ‘S-54’ figs is moderately thick and durable, making the fruit well-suited for packing and shipping as a fresh market product. The fruit pulp is an attractive red color, has fine texture and is sweet and rich in flavor.

The present invention relates to Solanum lycopersicum (S. lycopersicum) plants with resistance to Tomato Yellow Leaf Curl Virus (TYLCV), powdery mildew (PM) and nematodes. According to the invention, the resistances are provided by coupling in cis on the same chromosome the OL4 gene conferring resistance to PM and nematodes and TY1 gene conferring resistance to TYLCV, without coupling the Mi-1 gene conferring resistance to nematodes in cis with said OL4 gene conferring resistance to PM and nematodes and TY1 gene conferring resistance to TYLCV. The genes can be present homozygously or heterozygously in the genome of the S. lycopersicum plants, and they confer resistance to TYLCV, PM and nematodes. The present invention also provides methods for making such plants, and to methods of detecting and/or selecting such plants.

The present invention relates to Solanum lycopersicum (S. lycopersicum) plants with resistance to Tomato Yellow Leaf Curl Virus (TYLCV), powdery mildew (PM) and nematodes. According to the invention, the resistances are provided by coupling in cis on the same chromosome the OL4 gene conferring resistance to PM and nematodes and TY1 gene conferring resistance to TYLCV, without coupling the Mi-1 gene conferring resistance to nematodes in cis with said OL4 gene conferring resistance to PM and nematodes and TY1 gene conferring resistance to TYLCV. The genes can be present homozygously or heterozygously in the genome of the S. lycopersicum plants, and they confer resistance to TYLCV, PM and nematodes. The present invention also provides methods for making such plants, and to methods of detecting and/or selecting such plants.

The disclosure relates to melon variety NUN 16058 MEM as well as seeds and plants and fruits thereof. NUN 16058 MEM is a Cantaloupe non-sutured, long shelf life melon variety comprising resistance to Fusarium oxysporum f. sp. melonis Race 0, Race 1 and Race 2, Podosphaera xanthii Race 1, Race 2, and Race 5, Golovinomyces cichoracearum (Gc), and Aphis gossypii (Ag).

The disclosure relates to melon variety NUN 16058 MEM as well as seeds and plants and fruits thereof. NUN 16058 MEM is a Cantaloupe non-sutured, long shelf life melon variety comprising resistance to Fusarium oxysporum f. sp. melonis Race 0, Race 1 and Race 2, Podosphaera xanthii Race 1, Race 2, and Race 5, Golovinomyces cichoracearum (Gc), and Aphis gossypii (Ag).

A new and distinct blackberry cultivar that originated from seed produced from a cross between the thornless maternal blackberry plant ‘ORDS 2707-1’ (unpatented) and the thornless paternal blackberry plant ‘ORDS 2785-2’ (unpatented)). This new blackberry cultivar can be distinguished by its high yields of small-to-medium sized, uniformly shaped, glossy, and distinctly conical berries that can be machine harvested with good firmness and quality for a trailing type of blackberry. The berries are well suited for processing, with an excellent flavor characterized by mild sweetness, and a good sugar/acid balance. The new and distinct blackberry variety has fruit that are borne on vigorous canes which combine two distinct sources of genetic thornlessness (‘Austin Thornless’, ‘Lincoln Logan’) from the respective female and male parent.