Provided is a tobacco plant which is suitable for cultivation for harvesting leaf tobaccos. The present invention encompasses (i) a tobacco plant into which a mutation for suppressing the development of primary axillary buds is introduced, (ii) a method of obtaining the tobacco plant, (iii) a harvest from the tobacco plant, and (iv) a processed product of the harvest.

Disclosed are methods of producing plants with an improved regeneration efficiency using Growth-Regulating Factor (GRF), GRF-Interacting Factor (GIF), or chimeric GRF-GIF genes and proteins. The disclosure also provides plants with an improved regeneration efficiency that are produced by the disclosed methods, methods of reducing the use of exogenous cytokinins in the regeneration of plants, and methods of improving the regeneration efficiency of plants.

The present invention includes an expression cassette containing a polynucleotide encoding a polypeptide; and a host cell, transgenic plant (e.g., a dicot or monocot), transformed seed, and transgenic rootstock containing said expression cassette. Methods for desensitizing a plant to endogenous cytokinin; increasing seed, embryo or cotyledon size or weight; increasing the seed yield of a plant; and/or increasing the size of the root or root meristem or formation of lateral or adventitious roots are provided. In some embodiments, expression of the polypeptide is under control of a seed-preferred, embryo-preferred or root-preferred promoter.

The present invention relates to a genetic construct comprising a nucleic acid sequence encoding cytokinin biosynthetic isopentenyl-transferase enzyme (IPT) operable linked to a promoter allowing expression of said nucleic acid sequence in cambial cells. The invention relates also a method for producing a transgenic plant capable of increased biomass production and/or increased stem volume growth compared to wild type plant and a method for improving the production of biomass and/or increased stem volume growth in trees, as well as to a tree that over expresses an endogenous or exogenous nucleic acid sequence encoding IPT in cambial cells and a wood product obtainable from the transgenic tree.

The invention relates to methods and compositions for modifying a characteristic of a plant without modifying the plant's genome using one or more cells comprising one or more phytohormone genes and at least one polynucleotide of interest, which one or more phytohormone genes and the at least one polynucleotide of interest are expressed in the one or more cells.

This disclosure provides a number of sequences involved in axillary bud growth in tobacco, methods of using such sequences, tobacco plants carrying modifications to such sequences or transgenes of such sequences, and tobacco products made from tobacco leaf harvested from such plants.

This disclosure provides a number of sequences involved in axillary bud growth in tobacco, methods of using such sequences, tobacco plants carrying modifications to such sequences or transgenes of such sequences, and tobacco products made from tobacco leaf harvested from such plants.

Aspects of the present disclosure relate to genetically modified plants comprising NODULE INCEPTION (NIN) and NIN-LIKE PROTEIN (NLP) that have been genetically altered to be responsive to cytokinin so that the NIN or NLP protein can induce root nodulation upon appropriate signaling.

The present disclosure belongs to the technical field of plant genetic engineering, and discloses a gene for controlling the rice grain number per panicle and its use. Nucleotide sequence of OsCKX11 is SEQ ID NO. 1, nucleotide sequence for coding protein region is SEQ ID NO. 2, amino acid sequence of the encoded protein is SEQ ID NO. 3. The disclosure constructs an OsCKX11-knocked-out vector using CRISPR/Cas9, and identifies multiple independent homozygous lines through PCR amplification and sequencing methods, and provides a mutant in which specific knockout of gene OsCKX11 of the rice leads to an increase in cytokinin levels and an increase in grain number per panicle. Based on the biological function of OsCKX11 to increase the rice grain number per panicle, methods such as gene editing, natural allele replacement, RNA interference, or molecular assisted breeding can be used to improve existing rice varieties.

The invention provides a genetically modified plant or plant cell transformed with an isolated nucleic acid, wherein the isolated nucleic acid encodes a SYAC1 protein or a protein related to the SYAC1 protein or a protein with at least about 80%, 85%, 90%, 95%, 98%, 99% or more sequence identity protein with a SYAC1 protein. The invention also provides a genetically modified plant or plant cell engineered to express a reduced level, or no, SYAC1 protein. A genetically modified plant according to the invention may be more resistant to infection by Plasmodiophora brassicae. Alternatively, the invention provides a genetically modified plant with increased levels of SYAC1 protein or related protein which is more receptive to beneficial microorganisms and/or grows more effectively on land contaminated with heavy metals.