We have not yet seen the worst damage that genetic engineering may do. Australia's governmental agency, Commonwealth Scientific and Industrial Research Organisation (CSIRO), is developing a wheat species that is engineered to turn off genes permanently.
Professor Jack Heinemann at the University of Canterbury's Centre for Integrated Research in Biosafety has studied the wheat's potential. Digital Journal reports that he says1:
The implications are clarified by Professor Judy Carman of Flinders University:What we found is that the molecules created in this wheat, intended to silence wheat genes, can match human genes, and through ingestion, these molecules can enter human beings and potentially silence our genes. The findings are absolutely assured. There is no doubt that these matches exist.
Silencing the equivalent gene in humans that is silenced in this genetically modified wheat holds the potential of killing people. But it gets worse. Silenced genes are permanently silenced and can be passed down the generations.If this silences the same gene in us that it silences in the wheat—well, children who are born with this enzyme not working tend to die by the age of about five.
The wheat genes involved are called SEI. The specific sequences of those genes are being termed classified confidential information. CSIRO, which is part of the Australian government, is developing a commercial application, but refuses to divulge the information that's most significant to the people of Australia! The government is apparently more interested in profits than in the people's safety.
RNA is similar to DNA, which is the molecule that carries genetic inheritance. There are several types of RNA, but a particular group called double stranded RNA (dsRNA) is of concern. Heinemann writes:
He delineates research documenting that once dsRNA is taken through an animal's skin or digestive tract, it can wreak havoc. It circulates throughout the body and has been known to be amplified or cause a secondary reaction that:dsRNAs are remarkably stable in the environment. Insects and worms that feed on plants that make dsRNA can take in the dsRNA through their digestive system, where it remains intact.
Heinemann points out that a silencing effect on a gene, once initiated, can be inherited. Though it's known to happen, little is yet known about the process.... leads to more and different dsRNAs ("secondary" dsRNAs) with unpredictable targets.
dsRNA is known to be a tough molecule. It survives readily, even through digestion. Worse, though, it's known to pass into the body through digestion. Then, as Dr. Heinemann writes:
That is, gene expression can be altered as the result of eating a food with dsRNA altered by genetic engineering. Judy Carman, of Flinders University, who also provided an expert opinion, wrote in "Expert Scientific Opinion on CSIRO GM Wheat Varieties"3:Once taken up, the dsRNA can circulate throughout the body and alter gene expression in the animal.
There can be no question that dsRNA can be transferred to humans by eating.In fact, employees from the world's largest GM company, Monsanto, have written at least one paper about how to commercially exploit the fact that dsRNA survives digestion in insects, in their attempts to try to control insect pests of plants. That is, the plant is genetically engineered to produce a dsRNA, which insects ingest when they eat the plant; the dsRNA survives digestion in the insect and then silences genes in the insect to stunt its growth and kill it.
The RisksHeinemann makes these three points:
- Plant-derived microRNA [a type of dsRNA] precursors have been detected in human blood, thus demonstrating that they can survive the human digestive tract and be passed into the body through it. He emphasizes: "There is strong evidence that siRNAs [a type of dsRNA and the one of particular concern here] produced in the wheat will transfer to humans through food."
- dsRNA that have been shown to transmit to humans through food have also been shown to survive cooking! He points out: "There is strong evidence that siRNAs produced in the wheat will remain in a form that can transmit to humans even when the wheat has been cooked or processed for use in food."
- Plant-derived dsRNA was able to silence a human gene in cultured cells. He wrote: "There is strong evidence that once transmitted, siRNA produced in wheat would have the biological capacity to cause an effect."
The wheat genes involved are called SEI. They have extensive similarities with the human GBE gene, which controls glycogen storage. If the GBE gene is defective, it leads to certain death from liver cirrhosis at a very young age. Another defect in the gene results in adult polyglucosan body disease (APBD) in adults over age 40, causing cognitive impairment, pyramidal quadriplegia, peripheral neuropathy, and neurogenic bladder.As a result, there is a chain of evidence to show that there is a risk that the dsRNA from this GM wheat may survive digestion, enter the tissues of people that eat it and silence a gene or genes in those people. There is also evidence that any genetic changes so produced may be stable and become established in many cells of an organ. Furthermore, there a possibility that these changes may be passed-on to future generations.
Dr. Heinemann investigated and found that sections of the two genes, SEI and GBE, are a perfect match. Because CSIRO is saying that the specific SEI sequence that's modified is classified confidential information, we cannot know for certain what harm might be done to humans. However, it's obvious that shutting down a section of the GBE gene holds the potential of death—yet, Heinemann showed that it's not only possible, it's likely!
Lack of Adequate Risk AssessmentJudy Carman focused more on the lack of appropriate or adequate risk assessment for the modified wheat. She is very concerned that no consideration was given to checking for:
- Whether there are adverse effects on animals or humans who eat it.
- Whether there is any uptake of dsRNA in animals or humans who eat it.
- Silencing of genes in animals or people.
- Silencing of the branching enzyme.
- Toxic effects, such as damage to the liver, kidneys, or any other organ.
- Increase in reproductive problems.
- Whether dsRNA changes are inherited.
- Increased risk of cancer.
- Increased risk of wheat allergies
The Australian government appears to have become nothing more than another Agribusiness corporate entity. They're using the people's money to fund a massive profit-making venture in genetic engineering without any consideration for the potential harm that may be done to either the environment or the welfare of the people. Not only are they willing to risk mass deaths from products they're hoping to put on the market, they also seem to have no concern for whether they might be doing permanent damage to generations that follow.It appears that neither organisation has appreciated or properly safety assessed this wheat in the light of the fact that the dsRNA produced in these GM wheat varieties may survive digestion, enter the tissues of the body and silence a gene or genes in the recipient. It also appears that neither organisation has "joined the dots" to appreciate that, of all the genes that could be silenced, the most likely one is a similar branching enzyme in animals and people and that silencing it could seriously impair or even kill those that eat it.
- Scientists: New GMO wheat may 'silence' vital human genes
- Evaluation of risks from creation of novel RNA molecules in genetically engineered wheat plants and recommendations for risk assessment
- Expert Scientific Opinion on CSIRO GM Wheat Varieties
- CSIRO SEI/SEII SHRNA GM WHEAT FOR PRODUCING GRAINS WITH A LOWER
CONTENT OF BRANCHED STARCH MOLECULES, Appraisal of statements by Prof Jack Heinemann and Assoc Prof Judy Carman
- The GMOs, nature and effect of the genetic modification
- GBE Antibodies