Patent application number | Description | Published |
20090025288 | AUTOMATED SEED SAMPLER AND METHODS OF SAMPLING, TESTING AND BULKING SEEDS - An automated seed sampler includes a sampling station, a sampler for removing material from a seed in the sampling station; a seed conveyer for conveying the seed from the sampling station to a compartment in a seed tray, and a conveyor for conveying the material removed from the seed to a corresponding compartment in a sample tray. And a method for bulking up a quantity of plant seed having a desired characteristic generally includes testing each seed for the desired characteristic, cultivating plants only from seeds which tested positive for the desired characteristic, recovering seed from the cultivated plants, and repeating the processes of testing, cultivating, and recovering seed for one or multiple generations. | 01-29-2009 |
20100086963 | AUTOMATED SEED SAMPLER AND METHODS OF SAMPLING, TESTING AND BULKING SEEDS - An automated system for sampling seeds generally includes an automated sampler operable to remove a tissue sample from a seed, a seed tray configured to receive from the automated sampler the seed from which the tissue sample is removed, and a sample tray configured to receive the tissue sample removed from the seed. A table supports the seed tray and the sample tray, and an index mechanism is operable to move the table to bring the seed tray into position for receiving from the automated sampler the seed from which the tissue sample is removed, and to bring the sample tray into position for receiving the tissue sample removed from the seed. | 04-08-2010 |
20100196950 | AUTOMATED SEED SAMPLER AND METHODS OF SAMPLING, TESTING AND BULKING SEEDS - An automated seed sampler includes a sampling station; a sampler for removing material from a seed in the sampling station; a seed conveyer for conveying the seed from the sampling station to a compartment in a seed tray; and a conveyor for conveying the material removed from the seed to a corresponding compartment in a sample tray. The method of the present invention comprises feeding seeds individually to a sampling station, removing a sample from the seed in the sampling station; conveying the sample to a compartment in a sample tray, and conveying the seed to a corresponding compartment in a seed tray. The samples can be tested, and the seeds can be sorted according to the results of the testing of their corresponding samples. | 08-05-2010 |
20100263087 | METHODS OF SEED BREEDING USING HIGH THROUGHPUT NONDESTRUCTIVE SEED SAMPLING - The present invention provides for novel methods to facilitate germplasm improvement activities through the use of high throughput, nondestructive sampling of seeds. A method for analyzing a population of haploid seeds generally includes providing a population of seeds comprising haploid seeds, removing tissue samples from a plurality of the seeds in the population using an automated seed sampler system while preserving the germination viability of the sampled seeds, and analyzing the tissue samples for the presence or absence of one or more characteristics indicative of at least one genetic or chemical trait. | 10-14-2010 |
20100299790 | AUTOMATED SEED SAMPLER AND METHODS OF SAMPLING, TESTING AND BULKING SEEDS - A population of seeds wherein substantially all of the seeds in the population have a portion of seed tissue removed by an automated sampling system. Substantially all of the seeds in the population have the presence or absence of at least one transgene in common, and/or substantially all of the seeds in the population have a high recurrent parent allele frequency. The presence or absence of the at least one transgene in the seeds in the population and/or the recurrent parent allele frequency in the seeds in the population is determined by analyzing the portion of seed tissue removed from the seeds by the automated sampling system. | 11-25-2010 |
20110129836 | Automated Seed Sampler and Methods of Sampling, Testing and Bulking Seeds - An automated seed sampler includes a sampling station; a sampler for removing material from a seed in the sampling station; a seed conveyer for conveying the seed from the sampling station to a compartment in a seed tray; and a conveyor for conveying the material removed from the seed to a corresponding compartment in a sample tray. The method of the present invention comprises feeding seeds individually to a sampling station, removing a sample from the seed in the sampling station; conveying the sample to a compartment in a sample tray, and conveying the seed to a corresponding compartment in a seed tray. The samples can be tested, and the seeds can be sorted according to the results of the testing of their corresponding samples. | 06-02-2011 |
20110217700 | METHODS OF SEED BREEDING USING HIGH THROUGHPUT NONDESTRUCTIVE SEED SAMPLING - The present invention provides for novel methods to facilitate germplasm improvement activities through the use of high throughput, nondestructive sampling of seeds. A method for analyzing a population of haploid seeds generally includes providing a population of seeds comprising haploid seeds, removing tissue samples from a plurality of the seeds in the population using an automated seed sampler system while preserving the germination viability of the sampled seeds, and analyzing the tissue samples for the presence or absence of one or more characteristics indicative of at least one genetic or chemical trait. | 09-08-2011 |
20120079629 | AUTOMATED SEED SAMPLER AND METHODS OF SAMPLING, TESTING AND BULKING SEEDS - A population of seeds wherein substantially all of the seeds in the population have a portion of seed tissue removed by an automated sampling system. Substantially all of the seeds in the population have the presence or absence of at least one transgene in common, and/or substantially all of the seeds in the population have a high recurrent parent allele frequency. The presence or absence of the at least one transgene in the seeds in the population and/or the recurrent parent allele frequency in the seeds in the population is determined by analyzing the portion of seed tissue removed from the seeds by the automated sampling system. | 03-29-2012 |
20120117865 | AUTOMATED SYSTEMS FOR REMOVING TISSUE SAMPLES FROM SEEDS, AND RELATED METHODS - A seed sampling system is provided having an automated seed loading assembly including a seed bin and being operable to singulate seeds from a plurality of seeds within the seed bin. The system also includes an automated seed sampling assembly operable to remove tissue samples from the singulated seeds, and an automated seed transport assembly operable to transfer the singulated seeds from the seed loading assembly to the seed sampling assembly. The seed transport assembly includes multiple retention members. Each of the retention members is movable relative to the seed loading assembly and to the seed sampling assembly. The seed transport assembly is operable to position one of the multiple retention members adjacent to the seed loading assembly for engaging one of the singulated seeds, while positioning another of the retention members adjacent to the seed sampling assembly for presenting another of the singulated seeds to the seed sampling assembly. | 05-17-2012 |
20120131699 | METHODS AND COMPOSITIONS FOR OBTAINING MARKER-FREE TRANSGENIC PLANTS - The invention provides methods and compositions for identifying transgenic seed that contain a transgene of interest, but lack a marker gene. Use of an identification sequence that results in a detectable phenotype increases the efficiency of screening for seed and plants in which transgene sequences not linked to a gene of interest have segregated from the sequence encoding a gene of interest. | 05-24-2012 |
20130167257 | METHODS OF SEED BREEDING USING HIGH THROUGHPUT NONDESTRUCTIVE SEED SAMPLING - The present invention provides for novel methods to facilitate germplasm improvement activities through the use of high throughput, nondestructive sampling of seeds. A method of evaluating seeds for a desired trait, for example, for facilitating germplasm improvement activities, etc., generally includes removing tissue samples from individual seeds using an automated seed sampler without affecting germination viability of the seeds, analyzing the tissue samples for one or more characteristics indicative of a desired trait, and selecting the sampled seeds that include the desired trait. | 06-27-2013 |
20130198895 | METHODS AND COMPOSITIONS FOR OBTAINING MARKER-FREE TRANSGENIC PLANTS - The invention provides methods and compositions for identifying transgenic seed that contain a transgene of interest, but lack a marker gene. Use of an identification sequence that results in a detectable phenotype increases the efficiency of screening for seed and plants in which transgene sequences not linked to a gene of interest have segregated from the sequence encoding a gene of interest. | 08-01-2013 |
20140007299 | METHODS FOR PLANT TRANSFORMATION USING SPECTINOMYCIN SELECTION | 01-02-2014 |
20140283200 | PLANT REGULATORY ELEMENTS AND USES THEREOF - The invention provides recombinant DNA molecules and constructs, as well as their nucleotide sequences, useful for modulating gene expression in plants. The invention also provides transgenic plants, plant cells, plant parts, and seeds comprising a recombinant DNA molecule comprising a DNA molecule operably linked to heterologous transcribable DNA molecule, as are methods of their use. | 09-18-2014 |
20150020241 | S-ADENOSYLMETHIONINE SYNTHETASE EXPRESSION ELEMENTS IDENTIFIED FROM ARABIDOPSIS THALIANA - The present invention provides non-coding regulatory element polynucleotide molecules isolated from the S-adenosyl methionine synthetase (SAMS3) gene of | 01-15-2015 |
20150052642 | METHODS AND COMPOSITIONS FOR OBTAINING MARKER-FREE TRANSGENIC PLANTS - The invention provides methods and compositions for identifying transgenic seed that contain a transgene of interest, but lack a marker gene. Use of an identification sequence that results in a detectable phenotype increases the efficiency of screening for seed and plants in which transgene sequences not linked to a gene of interest have segregated from the sequence encoding a gene of interest. | 02-19-2015 |