Provided herein are engineered bialaphos resistance acetyltransferase variants having a modified acetyltransferase activity against tryptophan or aminoadipate, or both, as compared to a wildtype bialaphos resistance acetyltransferase (e.g., BAR or PAT). Also provided are transgenic plants comprising a bialaphos resistance acetyltransferase variant as well as methods of making such transgenic plants.

The present disclosure provides glufosinate-tolerant turfgrasses (e.g., Kentucky bluegrass), methods of making glufosinate-tolerant turfgrasses, and methods of controlling weeds in a field comprising glufosinate-tolerant turfgrasses by treating the field with an effective amount of an herbicide comprising glufosinate.

This disclosure concerns compositions and methods for increasing the expression of a polynucleotide of interest. Some embodiments concern novel transactivation polypeptides and variants thereof that have been identified in plants, and methods of using the same. Particular embodiments concern the use of at least one DNA-binding polypeptide in a fusion protein to target at least one transactivation polypeptide or variant thereof to a specific binding site on a nucleic acid comprising the polynucleotide of interest, such that its expression may be increased.

Compositions and methods comprising polynucleotides and polypeptides that confer glufosinate resistance to a host cell are provided. Further provided are nucleic acid constructs, host cells, plants, plant cells, explants, seeds and grain having the sequence that confer glufosinate resistance. Various methods of employing these sequences are provided. Such methods include, for example, methods for producing a host cell, plant, plant cell, explant or seed having glufosinate resistance, and methods of controlling weeds in a field containing a crop employing the plants and/or seeds disclosed herein.

This invention relates to soybean event pDAB8264.42.32.1 and includes novel expression cassettes and transgenic inserts comprising multiple traits conferring resistance to glyphosate, aryloxyalkanoate, and glufosinate herbicides. This invention also relates in part to methods of controlling resistant weeds, plant breeding and herbicide tolerant plants. In some embodiments, the event sequence can be “stacked” with other traits, including, for example, other herbicide tolerance gene(s) and/or insect-inhibitory proteins. This invention further relates in part to endpoint TAQMAN PCR assays for the detection of Event pDAB8264.42.32.1 in soybeans and related plant material. Some embodiments can perform high throughput zygosity analysis of plant material and other embodiments can be used to uniquely identify the zygosity of and breed soybean lines comprising the event of the subject invention. Kits and conditions useful in conducting these assays are also provided.

This disclosure concerns compositions and methods for increasing the expression of a polynucleotide of interest. Some embodiments concern novel transactivation polypeptides and variants thereof that have been identified in plants, and methods of using the same. Particular embodiments concern the use of at least one DNA-binding polypeptide in a fusion protein to target at least one transactivation polypeptide or variant thereof to a specific binding site on a nucleic acid comprising the polynucleotide of interest, such that its expression may be increased.

The present invention is drawn to compositions and methods for improving transformation frequency. The compositions, synthetic selectable marker genes, are used in transformation methods and result in increased transformation frequency.

Certain embodiments of the invention pertain to a method of treating an infection in a subject caused by an infectious agent other than Escherichia coli, the method comprising administering to the subject arsinothricin or a salt thereof. The infectious agent other than E. coli can be a bacterium, protozoan, helminth, archaebacterium, or a fungus. In preferred embodiments, the infectious agent is Mycobacterium tuberculosis, Mycobacterium bovis, or Enterobacter cloacae. The invention also pertains to a method of treating an infection in a subject caused by an infectious agent, comprising administering to the subject arsinothricin or a salt thereof in combination with an inhibitor of phosphinothricin N-acetyltransferase or arsinothricin N-acetyltransferase. In certain such embodiments, the infectious agent expresses phosphinothricin N-acetyltransferase or arsinothricin N-acetyltransferase. Further embodiments provide compositions comprising arsinothricin or a salt thereof and an inhibitor of phosphinothricin N-acetyltransferase or arsinothricin N-acetyltransferase.

Certain embodiments of the invention pertain to a method of treating an infection in a subject caused by an infectious agent other than Escherichia coli, the method comprising administering to the subject arsinothricin or a salt thereof. The infectious agent other than E. coli can be a bacterium, protozoan, helminth, archaebacterium, or a fungus. In preferred embodiments, the infectious agent is Mycobacterium tuberculosis, Mycobacterium bovis, or Enterobacter cloacae. The invention also pertains to a method of treating an infection in a subject caused by an infectious agent, comprising administering to the subject arsinothricin or a salt thereof in combination with an inhibitor of phosphinothricin N-acetyltransferase or arsinothricin N-acetyltransferase. In certain such embodiments, the infectious agent expresses phosphinothricin N-acetyltransferase or arsinothricin N-acetyltransferase. Further embodiments provide compositions comprising arsinothricin or a salt thereof and an inhibitor of phosphinothricin N-acetyltransferase or arsinothricin N-acetyltransferase.

Methods and compositions are provided which allow for genetic modification of host cells including, plants and plant cells. The various methods and composition employ a recombinant DNA construct comprising SEQ ID NO: 1 and/or 2 or active variants and fragments thereof. Such polynucleotides find use in facilitating integration of polynucleotides of interest into the DNA of a host cell, including a plant or plant cell. Vectors, host cells, bacterium and plants comprising the recombinant DNA construct or fragments thereof are provided. Further provided are methods of introducing into a host cell or a plant cell a polynucleotide of interest. The method comprises contacting the host cell with a bacterium competent for the transformation of the host cell, wherein the bacterium comprises a transformation vector comprising a recombinant DNA construct.