The present invention relates to the field of plant breeding and disease resistance. More specifically, the invention includes a method for breeding corn plants containing quantitative trait loci that are associated with diplodia ear rot (DER), a fungal disease associated with Stenocarpella spp. The invention further includes germplasm and the use of germplasm containing quantitative trait loci (QTL) conferring resistance for introgression into elite germplasm in a breeding program for resistance to DER.

The present invention provides an inbred corn line designated JII6578, methods for producing a corn plant by crossing plants of the inbred line JII6578 with plants of another corn plant. The invention further encompasses all parts of inbred corn line JII6578, including culturable cells. Additionally provided herein are methods for introducing transgenes into inbred corn line JII6578, and plants produced according to these methods.

Disclosed are methods of obtaining clonal seeds, methods of plant cloning, methods of screening for maternal plants that produce clonal seeds asexually and methods of increasing yield of clonal seeds. Also disclosed are constructs comprising a nucleic acid that may silence the activity of a RNA-dependent DNA methylation pathway gene. Further disclosed are maternal plants comprising a construct wherein the construct comprises an exogenous nucleic acid sequence, wherein the construct renders the maternal plant defective for RNA-dependent DNA methylation.

A new stevia variety is characterized by remarkably high levels of Rebaudioside C (RC), and developed by the use of non-GMO selective breeding technologies and wherein such variety is uniquely identified by RAPD gene analysis, and comprises from about 3-8% by weight RC in the leaf (leaf content) and from about 10-13% total steviol glycosides content (TSG) in in leaf (leaf content), both of which are exceptionally high.

This invention disclosure relates to novel maize starch. The starch can be made from the newly developed waxy sugary-2 double-mutant maize that has low activity of Granule Bound Starch Synthase I (GBSSI), which results in low amylose level. The starch from newly developed waxy sugary-2 double-mutant is freeze-thaw stable and has high viscosity. In comparison with the starch of the existing waxy sugary-2 double-mutant maize, the new waxy sugary-2 double-mutant maize starch showed, inter alia, improved pasting profile, starch granule integrity, larger starch granule size, and higher viscosity.

The present invention relates to methods for the screening, identification and/or application of microorganisms of use in imparting beneficial properties to plants.

The present invention relates to methods for the screening, identification and/or application of microorganisms of use in imparting beneficial properties to plants.

Methods for obtaining genetic material from plant embryos while preserving their viability are provided. In the methods, preservation of viability may be maintained by suspending the embryos in an aqueous solution surrounded by an oil matrix. Genetic material may be obtained from an aliquot of the aqueous solution and may be used directly for molecular analysis, or whole genome amplification may be performed prior to molecular analysis.

Improved molecular breeding methods include a method in which an association data set is developed by associating the phenotypes of a broad population of individuals with the individual genotypes. The association data set is used in conjunction with a growth model in order to select breeding pairs likely to generate offspring with one or more desirable traits.

Improved molecular breeding methods include a method in which an association data set is developed by associating the phenotypes of a broad population of individuals with the individual genotypes. The association data set is used in conjunction with a growth model in order to select breeding pairs likely to generate offspring with one or more desirable traits.