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Biological Containment System

a biological containment and biological technology, applied in the field of biological containment systems, can solve the problems of inability to produce offspring, cumbersome methods, and inability to cultivate transgenic plants,

Inactive Publication Date: 2009-03-26
CERES INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0012]The present invention features methods and materials useful for controlling the transmission and expression of transgenic traits. The methods and materials of the invention facilitate the cultivation of transgenic plants without the undesired transmission of transgenic traits to other plants.

Problems solved by technology

While physical isolation and pollen trapping border rows have been employed to control transgenic plants under study conditions, these methods are cumbersome and are not practical for many cultivated transgenic plants.
Overexpression or timely expression of such a nucleic acid results in the production of infertile seeds, i.e., seeds that are incapable of producing offspring.
Disruption of the function of polypeptides involved in seed development can result in the production of infertile seeds.
Mutations in INO and ANT reportedly can affect ovule development, resulting in incomplete megasporogenesis.
Moreover, the embryo does not synthesize seed storage proteins.

Method used

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  • Biological Containment System

Examples

Experimental program
Comparison scheme
Effect test

example 1

Chimeric LEC2 Nucleic Acid Construct

[0147]A chimeric LEC2 gene construct, designated pLEC2, was made using standard molecular biology techniques. The construct contains the coding sequence for the Arabidopsis LEC2 polypeptide. pLEC2 contains 5 binding sites for the DNA binding domain upstream activation sequence of the Hap1 transcription factor (UASHaP1) located 5′ to and operably linked to a CaMV35S minimal promoter. The CaMV35S minimal promoter is located 5′ to and operably linked to the LEC2 coding sequence. The construct contains an OCS polyA transcription terminator sequence operably linked to the 3′ end of the LEC2 coding sequence. The binding of a transcription factor that possesses a Hap1 DNA binding domain to the UASHap1 is necessary for transcriptional activation of the LEC2 chimeric gene.

example 2

Transgenic Rice Plants

[0148]The pLEC2 plasmid was introduced into the Japonica rice cultivar Kitaake by Agrobacterium tumefaciens mediated transformation using techniques similar to those described in U.S. Pat. No. 6,329,571. Transformants were selected based on resistance to the herbicide bialophos, conferred by a bar gene present on the introduced nucleic acid. After selfing to homozygosity for 3 generations, several transformed plants, designated pLEC2-3-11-10, pLEC2-3-11-12, pLEC2-3-11-13, pLEC2-3-12-2, pLEC2-3-12-4, were selected for further study.

[0149]A construct designated pCR19, containing a chimeric Hap1-VP16 gene and a green fluorescent protein (GFP) reporter gene was introduced into the Kitaake cultivar by the same technique. The chimeric Hap1-VP16 gene contained a rice ubiquitin minimal promoter operably linked to the 5′ end of the Hap1-VP16 coding sequence and an NOS polyA terminator operably linked to the 3′ end of the Hap1-VP16 coding sequence. The amino acid sequenc...

example 3

Transgenic Soybean Plants

[0156]A soybean plant homozygous for a transgene comprising the LEC2 coding sequence operably linked to 5 copies of a UASHap1 and a 35S minimal promoter is crossed as a female, using pollen from a soybean plant homozygous for a transgene comprising a HAP1-VP16 polypeptide operably linked to an embryo-targeted regulatory sequence. The soybean plant used as a female also is homozygous for a transgene comprising the coding sequence for a tumor necrosis factor receptor polypeptide, operably linked to 5 copies of a UASHap1 and a 35S minimal promoter. See, e.g., U.S. Pat. No. 6,541,610.

[0157]At maturity, F1 seeds are collected and stored under standard conditions. Any tumor necrosis factor receptor expressed in the F1 seeds is extracted. At 7, 14, and 21 days after pollination, some of the embryos and seeds developing on F1 plants are examined under a microscope. Mature seed also are scored for viability and germination and tested for the presence of tumor necrosi...

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Abstract

The invention relates to materials and methods useful for controlling the unwanted spread of transgenic traits. The methods involve an apomictic plant containing a transgene for a desired trait and a transgene causing seed infertility. The methods also involve one or more transcription activators that activates expression of both transgenes carried by the apomictic plant. The transcription activator(s) activates expression of both transgenes in the female. Seeds that are formed on such plants are infertile.

Description

CROSS REFERENCE TO RELATED APPLICATION[0001]This application is a continuation of and claims priority under 35 U.S.C. § 120 to U.S. application Ser. No. 10 / 873,679 filed Jun. 22, 2004, which is a continuation-in-part of and claims priority to U.S. application Ser. No. 10 / 667,295, filed on Sep. 17, 2003, now abandoned, which claims priority to U.S. Provisional Application No. 60 / 411,823, filed Sep. 17, 2002, all of which are incorporated by reference in their entirety.REFERENCE TO TABLE SUBMITTED ON A COMPACT DISC[0002]This application includes a compact disc (Disc 1 of 2, submitted in duplicate) containing Tables. The entire contents of the Tables are herein incorporated by reference. The Tables are identified on the compact disc as follows.[0003]The compact disc contains Reference Tables designated: reference_table1—4565.710-0004-55300-US-U-36440.01—1.txt; reference_table2—3847.710-0004-55300-US-U-36440.01—1.txt; reference_table3—3769.710-0004-55300-US-U-36440.01—1.txt; reference_t...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A01H1/00A01H5/10C12N15/82
CPCC12N15/8257C12N15/8265C12N15/829C12N15/8289C12N15/8267
Inventor MASCIA, PETER N.
Owner CERES INC
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