Abstract: Disclosed herein are seed and plants of the maize hybrid variety designated ICH19849, as well as cells and cell cultures derived therefrom. Further disclosed are methods for producing seed, commodity products, and derived progeny plants from the maize hybrid variety designated ICH19849.

Abstract: The invention relates to novel plants, seeds and compositions, as well as improvements to plant breeding and methods for creating modifications in plant genomes.

Abstract: The invention relates to novel maize plants, seeds and compositions, as well as improvements to maize plant breeding and methods for creating modifications in maize plant genomes.

Abstract: The present disclosure relates to base-editing systems including a fusion protein including a DNA-binding domain and a cytidine deaminase domain and a non-protein uracil-DNA glycosylase inhibitor, and methods of using the same. The DNA-binding domains of base-editing systems of the present disclosure include domains with a variety of target region possibilities, which increase the number and type of sequences that can be edited. The npUGIs of the base-editing systems of the present disclosure improve UDG inhibition (e.g., UDG inhibition is more complete) and are suitable for use in a wide range of organisms.

Abstract: Examples of the disclosure describe systems and methods for identifying, quantifying, and/or characterizing plant stomata. In an example method, a first set of two or more images of a plant leaf representing two or more focal distances is captured via an optical sensor. A reference focal distance is determined based on the first set of images. A second set of two or more images of the plant leaf is captured via the optical sensor, including at least one image captured at a focal distance less than the reference focal distance, and at least one image captured at a focal distance greater than the reference focal distance. A composite image is generated based on the second set of images. The composite image is provided to a trainable feature detector in order to determine a number, density, and/or distribution of stomata in the composite image.

Abstract: Disclosed herein are seed and plants of the maize hybrid variety designated ICH13881, as well as cells and cell cultures derived therefrom. Further disclosed are methods for producing seed, commodity products, and derived progeny plants from the maize hybrid variety designated ICH13881.

Abstract: Disclosed herein are seed and plants of the maize hybrid variety designated ICH72121, as well as cells and cell cultures derived therefrom. Further disclosed are methods for producing seed, commodity products, and derived progeny plants from the maize hybrid variety designated ICH72121.

Abstract: Compositions and methods useful for plant transformation without employing selection and without requiring tissue culture through a callus stage are provided. Transformed monocot plants can be obtained with the compositions and methods.

Abstract: This disclosure provides compositions, recombinant expression constructs, and engineered systems that include a polynucleotide including or encoding a Cas12a tracrRNA, and methods for their use. The materials and methods of the disclosure are especially suited to sequence-specific genome editing of eukaryotic genomic sequences.

Abstract: This disclosure provides compositions that include a polynucleotide including or encoding a Cas12a tracrRNA, and methods for their use in sequence-specific genome editing, especially of eukaryotic genomic sequences. In particular, this disclosure provides Cas12a tracrRNA-containing compositions and methods for their use in Cas12a-mediated editing of a target sequence, wherein the editing efficiency is increased in comparison to controls lacking the Cas12a tracrRNA.

Abstract: Methods and systems for transforming soybean and other leguminous plants in a hypertonic media without a transition through a callus stage are provided. In certain aspects, hypertonic media used in the methods and systems do not contain a growth hormone and/or a selection agent. In certain aspects, the transformation methods and systems provide a transformation efficiency of at least about 30%.

Abstract: Compositions and methods related to Cas proteins, nucleic acids encoding the Cas proteins, and modified host cells comprising the Cas proteins and/or encoding nucleic acids are disclosed. Cas proteins are useful in a variety of applications. Cas proteins bind guide RNAs that in turn provide functional specificity to the Cas proteins, nucleic acids encoding the Cas guide RNAs, and modified host cells comprising the Cas guide RNAs and/or encoding nucleic acids. The Cas polypeptides and corresponding guide RNAs can be used in a variety of applications.

Abstract: Provided herein are methods for assessing genetic variants for use in genetically improving organisms and in human genetics and medicine. Also provided herein are systems for implementing such methods, as well as computer-readable storage media storing instructions for performing such methods.

Abstract: Compositions and methods related to Cas proteins, nucleic acids encoding the Cas proteins, and modified host cells comprising the Cas proteins and/or encoding nucleic acids are disclosed. Cas proteins are useful in a variety of applications. Cas proteins bind guide RNAs that in turn provide functional specificity to the Cas proteins, nucleic acids encoding the Cas guide RNAs, and modified host cells comprising the Cas guide RNAs and/or encoding nucleic acids. The Cas polypeptides and corresponding guide RNAs can be used in a variety of applications.

Abstract: Transgenic INIR12 maize plants comprising a vip3Aa19 or vip3Aa20 expression cassette linked to a secondary nopaline synthase terminator element which lack a selectable marker gene and/or which comprise modifications that provide for facile excision of the INIR12 transgenic locus from the maize plant genome are provided. Genomic DNA of INIR12 transgenic plants, detection of INIR12 plants and products thereof, methods of making INIR12 plants, and use of INIR12 plants to facilitate breeding are disclosed.

Abstract: Transgenic INIR12 maize plants comprising a vip3Aa19 expression cassette linked to a secondary nopaline synthase terminator element which lack a selectable marker gene are provided. In certain embodiments such INIR12 transgenic plants comprise modifications that provide for facile excision of the INIR12 transgenic locus from the maize plant genome. Genomic DNA of INIR12 transgenic plants, detection of INIR12 plants and products thereof, methods of making INIR12 plants, and use of INIR12 plants to facilitate breeding are disclosed.

Abstract: Transgenic INIR12 maize plants comprising a vip3Aa19 expression cassette linked to a secondary nopaline synthase terminator element which lack a selectable marker gene and/or which comprise modifications that provide for facile excision of the INIR12 transgenic locus from the maize plant genome are provided. Genomic DNA of INIR12 transgenic plants, detection of INIR12 plants and products thereof, methods of making INIR12 plants, and use of INIR12 plants to facilitate breeding are disclosed.

Abstract: Plant cells and related systems, methods, and compositions for improving the capacity of the plant cells to regenerate embryogenic plant tissues, plant organs, and whole plants are provided. Such plant cells and related systems, methods, and compositions provide for increased expression of the endogenous morphoregulators BABYBOOM (ODP2) and/or WUSCHEL2 (WUS2).

Abstract: Transgenic INHT31 soybean plants comprising modifications of the MON89788 soybean locus which provide for facile excision of the modified MON89788 transgenic locus or portions thereof, methods of making such plants, and use of such plants to facilitate breeding are disclosed.

Abstract: Transgenic INIR6 maize plants comprising modifications of the DP-4114 maize locus which provide for facile excision of the modified DP-4114 transgenic locus or portions thereof, methods of making such plants, and use of such plants to facilitate breeding are disclosed.