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Synthetic plant genes and method for preparation

a technology of plant genes and synthetic plants, applied in the field of synthetic plant genes, can solve the problems of difficult achievement, inability to yield insecticidal levels of expression in some plant species, and difficulty in achieving full-length lepidopteran specific b.t. genes (composed of dna from a b.t.k. isolate), so as to reduce the likelihood of hairpin structure formation

Inactive Publication Date: 2003-10-09
MONSANTO TECH LLC
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0041] All reports in the field have noted the lower than expected expression of B.t. genes in plants. In general, insecticidal efficacy has been measured using insects very sensitive to B.t. toxin such as tobacco hornworm. Although it has been possible to obtain plants totally protected against tobacco hornworm, it is important to note that hornworm is up to 500 fold more sensitive to B.t. toxin than some agronomically important insect pests such as beet armyworm. It is therefore of interest to obtain transgenic plants that are protected against all important lepidopteran pests (or against Colorado potato beetle in the case of B.t. tenebrionis), and in addition to have a level of B.t. expression that provides an additional safety margin over and above the efficacious protection level. It is also important to devise plant genes which function reproducibly from species to species, so that insect resistant plants can be obtained in a predictable fashion.
[0044] Messenger RNA levels are determined by the rate of synthesis and rate of degradation. It is the balance between these two that determines the steady state level of mRNA. The rate of synthesis has been maximized by the use of the CaMV 35S promoter, a strong constitutive plant expressible promoter. The use of other plant promoters such as nopaline synthase (NOS), mannopine synthase (MAS) and ribulose bisphosphatecarboxylase small subunit (RUBISCO) have not led to dramatic changes in the levels of B.t. toxin protein expression indicating that the effects determining B.t. toxin protein levels are promoter independent. These data imply that the coding sequences of DNA genes encoding B.t. toxin proteins are somehow responsible for the poor expression level, and that this effect is manifested by a low level of accumulated stable mRNA.

Problems solved by technology

The expression of B.t. genes in plants is problematic.
Although the expression of B.t. genes in plants at insecticidal levels has been reported, this accomplishment has not been straightforward.
In particular, the expression of a full-length lepidopteran specific B.t. gene (comprising DNA from a B.t.k. isolate) has been reported to be unsuccessful in yielding insecticidal levels of expression in some plant species (Vaeck et al., 1987 and Barton et al., 1987).
In fact, it was suggested that expression of the full length gene is toxic to tobacco callus (Barton et al., 1987).

Method used

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  • Synthetic plant genes and method for preparation
  • Synthetic plant genes and method for preparation
  • Synthetic plant genes and method for preparation

Examples

Experimental program
Comparison scheme
Effect test

example 2

Fully Synthetic B.t.k. HD-1 Gene

[0089] A synthetic B.t.k. HD-1 gene was designed using the preferred plant codons listed in Table V below.

[0090] Table V lists the codons and frequency of use in plant genes of dicotyledonous plants compared to the frequency of their use in the wild type B.t.k. HD-1 gene (amino acids 1-615) and the synthetic gene of this example. The total number of each amino acid in this segment of the gene is listed in the parenthesis under the amino acid designated.

6TABLE V Codon in Usage Synthetic B.t.k. HD-1 Gene Percent Usage in Amino Acid Codon Plants / Wt B.t.k. / Syn ARG CGA 7 11 2 (43) CGC 11 5 5 CGG 5 2 0 CGU 25 14 27 AGA 29 55 41 AGG 23 14 25 LEU CUA 8 16 4 (49) CUC 20 0 20 CUG 10 2 6 CUU 28 22 24 UUA 5 50 0 UUG 30 10 45 SER UCA 14 27 5 (64) UCC 26 9 28 UCG 3 8 0 UCU 21 19 31 AGC 21 6 32 AGU 15 31 5 THR ACA 21 31 14 (42) ACC 41 19 53 ACG 7 14 0 ACU 31 36 33 PRO CCA 45 35 53 (34) CCC 19 6 12 CCG 9 21 3 CCU 26 38 32 ALA GCA 23 38 26 (31) GCC 32 9 29 GCG 3 3 0 G...

example 3

Synthetic B.t.k. HD-73 Gene

[0092] The crystal protein toxin from B.t.k. HD-73 exhibits a higher unit activity against some important agricultural pests. The toxin protein of HD-1 and HD-73 exhibit substantial homology (.about.90%) in the N-terminal 450 amino acids, but differ substantially in the amino acid region 451-615. Fusion proteins comprising amino acids 1-450 of HD-1 and 451-615 of HD-73 exhibit the insecticidal properties of the wild-type HD-73. The strategy employed was to use the 5'-two thirds of the synthetic HD-1 gene (first 1350 bases, up to the SacI site) and to dramatically modify the final 590 bases (through amino acid 645) of the HD-73 in a manner consistent with the algorithm used to design the synthetic HD-1 gene. Table VI below lists the oligonucleotides used to modify the HD-73 gene in the order used in the gene from 5' to 3' end. Nine oligonucleotides were used in a 590 base pair region, each nucleotide ranging in size from 33 to 60 bases. The only regions lef...

example 4

Expression of Modified and Synthetic B.t.k. HD-1 and Synthetic HD-73

[0101] A number of plant transformation vectors for the expression of B.t.k. genes were constructed by incorporating the structural coding sequences of the previously described genes into plant transformation cassette vector pMON893. The respective intermediate transformation vector is inserted into a suitable disarmed Agrobacterium vector such as A. tumefaciens ACO, supra. Tissue explants are cocultured with the disarmed Agrobacterium vector and plants regenerated under selection for kanamycin resistance using known protocols: tobacco (Horsch et al., 1985); tomato (McCormick et al., 1986) and cotton (Trolinder et al., 1987).

[0102] a) Tobacco.

[0103] The level of B.t.k. HD-1 protein in transgenic tobacco plants containing pMON9921 (wild type truncated), pMON5370 (modified HD-1, Example 1, FIG. 2) and pMON5377 (synthetic HD-1, Example 2, FIG. 3) were analyzed by Western analysis. Leaf tissue was frozen in liquid nitro...

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Abstract

A method for modifying structural gene sequences to enhance the expression of the protein product is disclosed. Also disclosed are novel structural genes which encode insecticidal proteins of B.t.k. HD-1, B.t.k. HD-73, B.t. tenebrionis, B.t. entomocidus, 2 protein of B.t.k. HD-1, and the coat protein of potato leaf roll virus.

Description

[0001] The present invention relates to genetic engineering and more particularly to plant transformation in which a plant is transformed to express a heterologous gene.[0002] Although great progress has been made in recent years with respect to transgenic plants which express foreign proteins such as herbicide resistant enzymes and viral coat proteins, very little is known about the major factors affecting expression of foreign genes in plants. Several potential factors could be responsible in varying degrees for the level of protein expression from a particular coding sequence. The level of a particular mRNA in the cell is certainly a critical factor.[0003] The potential causes of low steady state levels of mRNA due to the nature of the coding sequence are many. First, full length RNA synthesis might not occur at a high frequency. This could, for example, be caused by the premature termination of RNA during transcription or due to unexpected mRNA processing during transcription. S...

Claims

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Application Information

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IPC IPC(8): A01H5/10C07K14/08C07K14/325C07K14/415C12N5/02C12N5/10C12N15/09C12N15/29C12N15/32C12N15/40C12N15/67C12N15/82C12R1/07A01H5/00
CPCC07K14/005C07K14/325C07K14/415C07K2319/00C07K2319/02C07K2319/036C12N2770/00022C07K2319/08C12N15/67C12N15/8216C12N15/8283C12N15/8286C07K2319/06Y02A40/146
Inventor FISCHHOFF, DAVID A.PERLAK, FREDERICK J.
Owner MONSANTO TECH LLC
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