The present disclosure provides compositions and methods for altering gibberellin (GA) content in corn or other cereal plants. Methods and compositions are also provided for altering the expression of genes related to gibberellin biosynthesis through editing of specific subtypes of GA20 oxidase genes to introduce an antisense sequence or segment into the gene. Modified plant cells and plants having a dominant allele reducing the expression or activity of one or more GA oxidase genes are further provided comprising reduced gibberellin levels and improved characteristics, such as reduced plant height and increased lodging resistance, but without off-types.

The present disclosure provides compositions and methods for altering gibberellin (GA) content in corn or other cereal plants. Methods and compositions are also provided for altering the expression of genes related to gibberellin biosynthesis through editing of a specific GA20 oxidase gene or locus to produce a genomic deletion or disruption that brings an antisense sequence of the GA20 oxidase gene under the control of a neighboring SAMT gene promoter. Modified plant cells and plants having a dominant allele reducing the expression or activity of one or more GA oxidase genes are further provided comprising reduced gibberellin levels and improved characteristics, such as reduced plant height and increased lodging resistance, but without off-types.

Methods for delayed harvesting of corn fields are provided herein. These methods provide an extended, flexible period of time to harvest corn. The methods allow growers to harvest their corn at the optimal time for drying down or accessing seed, without increasing the risk of losing yield to lodging.

The present invention relates to a cucumber plant (Cucumis sativus L.) that is resistant to Pseudomonas syringae pv. lachrymans, a pathogen that causes angular leaf spot disease in cucumber. The invention further relates to markers linked to the resistance and the use of markers to identify resistant plants. The invention also relates to seed and progeny of such plants and to propagation material derived from such plants and for obtaining such plants. Furthermore, the invention relates to methods for producing, identifying and selecting Pseudomonas resistant cucumber plants, and for producing hybrid plant seed. The invention further relates to the use of a gene and/or QTLs and sequences thereof to identify/select Pseudomonas resistant cucumber plants.

The present disclosure provides modified, transgenic, or genome edited/mutated corn plants that are semi-dwarf and have one or more improved ear traits and yield relative to a control plant, such as increased ear area, increased ear volume, increased single kernel weight, increased ear fresh weight, increased ear diameter, increased ear length, increased yield, increased kernels per ear, decreased ear tip void, and decreased ear void. The modified, transgenic, or genome edited/mutated corn plants comprise a transgene encoding one or more CONSTANS (CO) or CONSTANS-like (COL) polypeptides and a transgene encoding one or more MADS-box polypeptides, and can also have a reduced expression of one or more GA20 or GA3 oxidase genes. Also provided are methods for producing the modified, transgenic, or genome edited/mutated corn plants.

Methods for providing compositions to corn fields prior to harvesting are provided herein. These methods provide an extended time period for the use of lower height or standard height farm equipment in-season in corn fields, while reducing the risk of damage to the corn plants. These methods also allow for late season access with lower height or standard height farm equipment, while reducing the risk of damage to the corn plants.

Methods for improving the efficiency and productivity of hybrid corn seed production are provided herein. Various methods to improve the transfer of pollen from male corn plants to female corn plants, and thus increase yield, are provided herein. Without being limiting, these methods include varying the height of male and female corn plants in a field, as well as varying the number, arrangement, and ratio of male-to-female rows in a field.

The present invention relates to a cucumber plant (Cucumis sativus L.) that is resistant to Pseudomonas syringae pv. lachrymans, a pathogen that causes angular leaf spot disease in cucumber. The invention further relates to markers linked to the resistance and the use of markers to identify resistant plants. The invention also relates to seed and progeny of such plants and to propagation material derived from such plants and for obtaining such plants. Furthermore, the invention relates to methods for producing, identifying and selecting Pseudomonas resistant cucumber plants, and for producing hybrid plant seed. The invention further relates to the use of a gene and/or QTLs and sequences thereof to identify/select Pseudomonas resistant cucumber plants.

The present disclosure provides compositions and methods for altering gibberellin (GA) content in corn or other cereal plants. Methods and compositions are also provided for altering the expression of genes related to gibberellin biosynthesis through editing of specific subtypes of GA20 oxidase genes to introduce an antisense sequence or segment into the gene. Modified plant cells and plants having a dominant allele reducing the expression or activity of one or more GA oxidase genes are further provided comprising reduced gibberellin levels and improved characteristics, such as reduced plant height and increased lodging resistance, but without off-types.

Methods for improving the efficiency and productivity of hybrid corn seed production are provided herein. Various methods to improve the transfer of pollen from male corn plants to female corn plants, and thus increase yield, are provided herein. Without being limiting, these methods include varying the height of male and female corn plants in a field, as well as varying the number, arrangement, and ratio of male-to-female rows in a field.