The invention relates to plants with an improved organ phenotype. In particular, the invention relates to rice plants which have better grain quality and altered seed phenotype due to increased expression of GW7 (LOC_Os07g41200) or due to a combination of increased expression of GW7 and reduced expression of GS3 (OsSPL16). Grains show increased length and increased slenderness.

The present disclosure provides a method for treating rice. The method comprises the steps of: providing a domestic rice crop plant and at least one ACCase-inhibiting aryloxyphenoxypropanoate herbicide selected from the group consisting of quizalofop or an ester thereof, haloxyfop, fluazifop or an ester thereof, clodinafop, clodinafop-propargyl, diclofop, and diclofop-methyl; applying an effective amount (measured in g AI/Ha) of the at least one aryloxyphenoxypropanoate herbicide to the domestic rice crop plant, post-emergence; thereby creating a treated rice plant; and growing the resulting treated rice plant.

A rice cultivar designated CLM05 is disclosed herein. The present invention provides seeds, plants, and plant parts derived from rice cultivar CLM05. Further, it provides methods for producing a rice plant by crossing CLM05 with itself or another rice variety. The invention also encompasses any rice seeds, plants, and plant parts produced by the methods disclosed herein, including those in which additional traits have been transferred into CLM05 through the introduction of a transgene or by breeding CLM05 with another rice cultivar.

The present invention relates to rice grain with thickened aleurone. Also provided is a rice plant comprising at least one genetic variation which reduces the activity of at least one ROS1a gene in the plant. Grain of the invention, or aleurone therefrom, has improved nutritional properties, and hence is particularly useful for human and animal feed products.

The disclosure isolates and identifies a peptide PEP1 that regulates plant root development and a gene OsPEP1 encoding the same. Exogenous application of PEP1 could inhibit the plant root development. A recombinant expression vector containing the gene or part of the DNA of the gene is obtained, and a transgenic plant with altered root growth and development is obtained by transforming with the recombinant expression vector. Therefore, the peptide can be used as a plant growth regulator, and the gene encoding the same and precursor protein thereof can be used as a potential molecular breeding target for crop improvement, for example, improving crop yield by regulating the growth and development of crop roots.

The present disclosure provides a method for treating rice. The method comprises the steps of: providing a domestic rice crop plant and at least one ACCase-inhibiting aryloxyphenoxypropanoate herbicide selected from the group consisting of quizalofop or an ester thereof, haloxyfop, fluazifop or an ester thereof, clodinafop, clodinafop-propargyl, diclofop, and diclofop-methyl; applying an effective amount (measured in g AI/Ha) of the at least one aryloxyphenoxypropanoate herbicide to the domestic rice crop plant, post-emergence; thereby creating a treated rice plant; and growing the resulting treated rice plant.

A rice cultivar designated M-209 is disclosed. The invention relates to the seeds of rice cultivar M-209, to the plants of rice M-209 and to methods for producing a rice plant produced by crossing the cultivar M-209 with itself or another rice variety. The invention further relates to hybrid rice seeds and plants produced by crossing the cultivar M-209 with another rice cultivar.

A rice cultivar designated M-209 is disclosed. The invention relates to the seeds of rice cultivar M-209, to the plants of rice M-209 and to methods for producing a rice plant produced by crossing the cultivar M-209 with itself or another rice variety. The invention further relates to hybrid rice seeds and plants produced by crossing the cultivar M-209 with another rice cultivar.

An inbred rice line designated 133008 is disclosed. Seeds of inbred rice line 133008, plants of rice line 133008 and methods for producing a rice plant by crossing line 133008 with itself or hybrid rice by crossing with another rice line, are also disclosed.

According to the invention, there is provided a novel rice cultivar, designated LSUAC Hi Protein Rice. LSUAC Hi Protein Rice has up to an average 53% improvement in protein content with levels averaging 11%. The variety is described as semi-dwarf, and very early maturing. The invention relates to the seeds of rice cultivar LSUAC Hi Protein Rice, to the plants of rice cultivar LSUAC Hi Protein Rice, to plant parts of rice cultivar LSUAC Hi Protein Rice, to methods for producing a rice cultivar by crossing the rice cultivar LSUAC Hi Protein Rice with another rice cultivar, and to methods for producing a rice cultivar containing in its genetic material one or more backcross conversion traits or transgenes and to the backcross conversion rice plants and plant parts produced by those methods.