The present invention discloses a method for obtaining glyphosate-resistant rice by a site-directed nucleotide substitution, and also relates to a method capable of generating a site-directed nucleotide substitution and a fragment substitution. The method for obtaining a glyphosate-resistant plant provided by the present invention comprises the following steps: only substituting threonine (T) at position 8 of the amino acid sequence of a conserved region of endogenous EPSPS protein of a target plant with isoleucine (I), and substituting proline (P) at position 12 with serine (S) to obtain a plant, i.e., a glyphosate-resistant plant. The method provided by the present invention is of great significance in breeding new herbicide-resistant plant varieties. The present invention also discloses a method for utilizing a CRISPR-mediated NHEJ pathway to substitute a region between two gRNA sites by designing the two gRNA sites, thereby realizing a site-directed mutation of a target nucleotide and site-directed substitution of a fragment.

The invention relates to a method, to a surface, to a particle, and to a kit for the detection of low molecular weight analytes such as crop protection agents in samples. In particular, the invention relates to a method for the detection of glyphosate through protein-functionalised surfaces and functionalised particles by means of reflection interference contrast microscopy (RICM).

The present invention relates to a method for controlling bolters in Beta vulgaris growing areas, comprising planting Beta vulgaris plants or sowing Beta vulgaris seed comprising an endogenous allele encoding an epsp synthase having at position 179 an amino acid different from proline and applying a glyphosate herbicide to the growing plants.

The technology relates in part to biological methods for modifying carbon flux in cells, engineered cells and organisms in which cellular carbon flux has been modified, and methods of using engineered cells and organisms for production of organic molecules.

The invention provides specific transgenic cotton plants, plant material and seeds, characterized in that these products harbor a specific herbicide tolerance transformation event at a specific location in the cotton genome. Tools are also provided which allow rapid and unequivocal identification of the event in biological samples.

The present invention relates to the production of a non-transgenic plant resistant or tolerant to a herbicide of the phosphonomethylglycine family, e.g., glyphosate. The present invention also relates to the use of a recombinagenic oligonucleobase to make a desired mutation in the chromosomal or episomal sequences of a plant in the gene encoding for 5-enol pyruvylshikimate-3-phosphate synthase (EPSPS). The mutated protein, which substantially maintains the catalytic activity of the wild-type protein, allows for increased resistance or tolerance of the plant to a herbicide of the phosphonomethylglycine family, and allows for the substantially normal growth or development of the plant, its organs, tissues or cells as compared to the wild-type plant irrespective of the presence or absence of the herbicide. The present invention also relates to a non-transgenic plant cell in which the EPSPS gene has been mutated, a non-transgenic plant regenerated therefrom, as well as a plant resulting from a cross using a regenerated non-transgenic plant having a mutated EPSPS gene.

The invention provides for an expression cassette comprising a gibberellic acid 2-oxidase gene, and turfgrass plants comprising said cassette.

This invention relates in part to soybean event pDAB8264.44.06.1 and includes a 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 pDAB8264.44.06.1 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 invention relates in part to soybean event pDAB8264.44.06.1 and includes a 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 pDAB8264.44.06.1 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.

The invention provides specific transgenic cotton plants, plant material and seeds, characterized in that these products harbor a specific herbicide tolerance transformation event at a specific location in the cotton genome. Tools are also provided which allow rapid and unequivocal identification of the event in biological samples.