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ISIS Press Release 18/02/01
Eating Cauliflower Mosaic Virus infected
vegetables does not prove that that Cauliflower Mosaic Virus Promoter in
genetically modified crops is safe
Prof. Joe Cummins
Recently researchers from the John Innes Centre (JIC) for plant research
in Great Britain have again claimed that the Cauliflower Mosaic Virus
(CaMV) promoter used to genetically modify virtually all of the transgenic
crops now marketed or being tested for marketing has been proven to be
safe for human consumption because humans have been consuming virus
infected crucifers for a long time. It is worth pointing out that virus
infected crucifers are not tasty items and they are avoided by most animal
predators including humans. JIC may be exceptional in consuming large
quantities of virus infected crops and certainly those laboring at the
institute are worthy of fuller study. Even if virus infected crucifers
could be prepared and consumed as dietary treats the fact is that the
behavior and potential hazard of the CaMV promoter in transgenic crops is
unrelated to the replication and behavior of the virus in the plant cell.
It is simply unreasonable to maintain that the the integrated CaMV
promoter in transgenic crops behaves the same way in the virus replication
cycle as it does in the chromosome of the transgenic crop.
CaMV is a pararetrovirus which means that it transmitted as a double
stranded DNA virus that replicates using reverse transcription of RNA into
DNA. The replication of CaMV is similar to the replication of a related
pararetrovirus Hepatitis B (Seeger and Mason 2000). In CaMV replication
the infecting virus enters the plant cell then transfers a copy of the
viral DNA to the plant cell nucleus where it forms a nuclear plasmid that
very rarely (possibly never) integrates into the chromosome. The viral DNA
is transcribed releasing both messenger RNA for making virus components
and RNA copies of the viral chromosome that are translocated to the
cytoplasm where the RNA copies of the viral chromosome are packaged in
virion like particles. Within the virion like particles the RNA is reverse
transcribed to make the viral DNA that is released from the plant cell in
the mature virus (reviewed in Poogin et al 1998).
When CaMV genes are inserted into the DNA of the plant chromosome those
genes may recombine with infecting CaMV virus. Wintermantel and Schoelz
(1996) found that recombination was observable in every plant when virus
invaded transgenic plants with CaMV genes inserted on plant chromosome.
They believed that most observed recombination occurred in the cytoplasm
during reverse transcription and that there was little chance for
recombination between invading virus and CaMV transgenes on the
chromosome. Genes such as human interferon have been inserted in CaMV
virus and were found to produce interferon in virion like particles but
the human genes were not reported to have recombined with plant
chromosomesDeZoeten et al (1989).Plant gene replacement vectors based on
CaMV have been discussed for nearly twenty years but have not proven
highly useful because the only small DNA inserts have proven feasible but
recently Viapana et al (2001) have experienced improved success by
employing helper virus.
Earlier we discussed the problems with CaMV promoter integrated into the
chromosome in great detail." We pointed out that the CaMV 35S
promoter is promiscuous in function, and works efficiently in all plants,
as well as green algae, yeast and E. coli. It has a modular structure,
with parts common to, and interchangeable with promoters of other plant
and animal viruses. It also has a recombination hotspot, flanked by
multiple motifs involved in recombination, and is similar to other
recombination hotspots including the borders of the Agrobacterium T DNA
vector most frequently used in making transgenic plants"(Cummins et
al 2000).
In conclusion , authorities from JIC base their belief in the safety of
CaMV promoter in transgenic crops on their belief that people and animals
massively consume virus infected crops without apparent discomfort. The
natural history of CaMV replication in plants clearly shows that the CaMV
promoter installed in crop chromosomal DNA is entirely different from CaMV
virus replication so that the presumed safety of eating CaMV in crops has
no real bearing on the safety of genetically engineered crops with CaMV
promoter. In fact JIC seems to be suffering from "tunnel vision"
and directing research away from the real problems with crop genetic
technology. The JIC argument surely impresses science administrators and
government bureaucrats who, unfortunately, control research funding and
gullible journalists who influence public opinion. Even though the
discussion between us and JIC has grown repetitious ultimately the
inappropriateness of the JIC pronouncements will be widely recognized and
then progress can be made in judging the safety of transgenic crops with
CaMV promoter.
References
- Cummins,J,Ho,M and Ryan,A "Hazardous CaMV promoter?"2000
Nature Biotechnology 18, 363
DeZoeten,G,Penswick,J,Horisberger,M,Ahl,P,Schultze,P and Hohn,T "The
expression,localization and effect of human interferon in plants"
1989 Virology 172,213-22
- Poogin,M,Hohn,T and Futterer,J "Forced evolution reveals the
importance of short open reading frame A and secondary structure in the
cauliflower mosaic virus 35S RNA leader" 1998 J. Virology
72,4157-69
- Seeger,C and Mason,W " Hepatitis B Virus Biology" 2000
Microbiology and Molecular Biology Reviews 64,51-68
- Viaplana,R,Turner,D andCovey,S "Transient expression of a GUS
reporter gene from cauliflower mosaic virus replacement vectors in the
presence and absence of helper virus" 2001 J Gen Virol 82,59-65
- Wintermantel,W and Schoetz,J "Isolation of recombinant viruses
between cauliflower mosaic virus and a viral gene in transgenic plants
under conditions of moderate selection pressure" 1996 Virology
223,156-64
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