Embodiments disclosed herein relate to the field of plant molecular biology, specifically to DNA constructs for conferring insect resistance to a plant. Embodiments disclosed herein relate to insect resistant corn plant containing event DP-915635-4, and to assays for detecting the presence of event DP-915635-4 in samples and compositions thereof

The invention relates to a lettuce plant (Lactuca sativa L.) which may comprise a resistance allele which confers a broad spectrum resistance to Bremia lactucae, wherein the resistance allele is located on linkage group 9, and which resistance allele is as found in the genome of plants grown from seeds of which a representative sample was deposited under accession number NCIMB 42141. The invention further provides seeds, progeny, propagation material and food products from the plant.

Pepper plants exhibiting resistance to root knot nematode species are provided, together with methods of producing, identifying, or selecting plants or germplasm with a root knot nematode resistance phenotype. Such plants include pepper plants comprising introgressed genomic regions conferring pest resistance. Compositions, including novel polymorphic markers for detecting plants comprising introgressed pest resistance alleles, are further provided.

The invention relates to a single nucleotide polymorphism (SNP) marker related to a Chinese horse short stature trait. The SNP molecular marker is located at the 501.sup.th position of a sequence shown in SEQ ID NO.1, polymorphism is G/A, and the SNP marker corresponds to base pair 18,205,998 on chromosome 8 in a horse. The SNP marker related to the Chinese horse short stature trait and use thereof provided by the present invention have the following advantages that: (1) the molecular marker is not restricted by the age, sex and the like of Chinese horses, is used in early breeding of the Chinese horses, performs accurate screening immediately at birth, and significantly promotes the breeding process of dominant pony varieties of the Chinese horse; (2) a method for detecting SNP of a Chinese horse TBX3 gene is accurate, reliable, and easy to operate.

Lettuce (Lactuca sativa) plants exhibiting resistance to Nasonovia ribisnigri biotype Nr:1 are provided, together with methods of producing, identifying, or selecting plants or germplasm with a Nasonovia ribisnigri biotype Nr:1 resistance phenotype. Such plants include lettuce plants comprising introgressed genomic regions conferring pest resistance. Compositions, including novel polymorphic markers for detecting plants comprising introgressed loci, are further provided.

Provided are compositions and methods for the detection of a chromosomal location in Brassica napus. This disclosure is generally related to the field of plant molecular biology, and in particular embodiments, to the field of detecting a chromosomal translocation within plants. In certain embodiments, the chromosomal translocation occurs between the N7 and N16 chromosomes of Brassica napus. In other embodiments, the chromosomal translocation is a homologous chromosomal reciprocal translocation. Accordingly, this disclosure provides compositions and methods for the identification, detection and utilization of such a chromosomal translocation.

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.

A method of selecting a plant variety for cultivation in a target area includes selecting a selection score function; estimating values of a first set of environmental parameters for a predefined future period of time for the target area and receiving a set of phenotype information including phenotypic trait measurements for a first sub-set of a plurality of plant varieties and a set o environmental parameters for said first sub-set. Furthermore, the method includes determining a prediction model for the phenotypic traits; using the prediction model to output predictions for phenotypic traits for the plurality of chosen plant varieties; using the selection score function to compute selection score values; and selecting at least one plant variety to be cultivated in the target area from the plurality of chosen plant varieties, based the computed selection score values of the plurality of chosen plant varieties.

Methods for increasing or decreasing Nitrogen (N) uptake/assimilation and/or usage in plants comprising over-expressing or repressing one or more transcription factors that have been identified by evaluating temoporal transcription of the TFs in response to N signaling and validated based on TF perturbation studies in plant cells and plants. Combinations of TFs may be used, where each TF may be independently induced or repressed to achieve a desired increase or decrease in N uptake/assimilation.

The present invention relates to a modified CCA gene which encodes a CCA-adding enzyme, which modified CCA gene leads to resistance against a positive-strand RNA virus having a transfer RNA-like structure (TLS). The invention further relates to plants and seeds comprising the modified genes, methods for making and identifying such plants and use of the gene.