My sister-in-law shared this picture with me. I absolutely love it! Take a close look at this picture. These cereals are recognizable in the grocery store. Too bad the truth labeling in this photo doesn’t appear in the actual stores. My favorite has to be the Cereal Killer 🙂 What is yours?
This picture came from GMO Inside. I read about the pesticides they recommended that I Google….here is what I found…..
(Photo courtesy of GMO Inside)
I did, as the photo from GMO Inside suggested, Googled EPA registration#524-581. I found this link. This link contains the seed product package insert by Monsanto. On the first page at the bottom it says :
KEEP OUT OF REACH OF CHILDREN
I guess it is okay to plant the seeds, and feed the BT corn to your children in the form of Corn Flakes? ….just don’t let them touch the seeds. 😦
According to GM- Free Cymru #68467-7
“SmartStax is a genetically modified (GM) maize that has eight GM traits combined or ‘stacked’ together, six for insect resistance (Bt) and two for herbicide tolerance. Current stacked GM trait crops on the market only have up to three traits each. SmartStax was created through collaboration between Monsanto and Dow AgroSciences  SmartStax Corn: Corporate War on Bees, SiS 46), allowing the two corporations to share GM traits. The traits are combined together using crosses between existing transgenic corn lines rather than using genetic transformation of a single maize strain. USDA/APHIS (United States Department of Agriculture/Animal and Plant Health Inspection Service) the usual regulator of GM crops approved the crops without an approval process, because the transgenic traits had been granted unregulated status previously, and those traits were combined using conventional breeding. Nevertheless, USEPA (United States Environment Protection Agency) were obligated to regulate the stacked crop varieties containing plant-incorporated protectants (PIPS). EPA invited public comment prior to registration of stacked varieties of corn but they approved SmartStax corn without allowing public comment prior to its registration.”
Here is the breakdown of the 8 stacked genes in SmartStax..
“An armoury of transgenes SmartStax has been created by crossing four transgene varieties: MON89034 x 1507 x MON88017 x 59122 , which together provide eight traits. The eight traits are accompanied by an array of regulatory sequences derived from bacteria, plant viruses and other plants, are as follows, as far as one can tell, as SmartStax is very poorly characterised, and is in all probability a hybrid corn [5, 6].
Pat (events DAS-59122-7 and TC1507), phosphinothricin N- acetyltransferase (from S.viridochromogenes) for glufosinate herbicide tolerance driven by CaMV 35S promoter, with CaMV 35S 3′ polyadenylation signal as a transcription terminator; two copies of the pat gene and its promoter and terminator are present, one in each of the events DAS-59122-7 and TC1507.
CP4 epsps (event NK603), 5-enolpyruvylshikimate-3-phosphate synthase (Agrobacterium tumefaciens CP4) for glyphosate herbicide tolerance , driven by rice actin I promoter, with intron sequences, chloroplast transit peptide from A. thaliana and A. tumefaciens nopaline synthase (nos) 3′-untranslated region terminator The genome has one copy of the NK603 event containing 4 transgenes in one locus.
cry1A.105 (event MON 89034), a chimeric Cry1 delta endotoxin (Bacillus thuringiensis) for insect (Lepidopteron, moth) resistance, driven by CaMV 35S promoter, with 5’untranslated leader from wheat chlorophylla/ b-binding protein, 3′ untranslated region of wheat heat shock protein 17.3 as a transcription terminator. The genome has one copy of the event MON89034 containing 4 transgenes in one locus.
cry2Ab (event MON 89034), Cry2Ab delta endotoxin (Bacillus thuringiensis) for Lepidopteron (moth) resistance, driven by FMV35S promoter from figwort mosaic virus, with Hsp70 intron from maize heat shock protein gene, and .A. tumefaciens nopaline synthase (nos) 3′- untranslated region The genome has one copy of event 89034 containing 4 transgenes in the same locus.
cry3Bb1 (event MON 8801), Cry3Bb1 delta endotoxin (Bacillus thuringiensis subsp.kumamotoensis strain EG4691) for Coleopteran (corn rootworm) resistance, driven by the CaMV 35S promoter with duplicated enhancer region, 5′ UTR from wheat chlorophyll a/b-binding protein, and rice actin gene first intron; transcription is terminated by 3′ UTR from wheat heat shock protein (tahsp17 3′). There is one copy of of event MON8801 in the genome, containing 6 transgenes.
cry1Fa2 (event TC1507), Cry1F delta endotoxin (Bacillus thuringiensis var.aizawai) for Lepidopteron (moth) resistance, driven by the ubiquitin (ubi) ZM (Zea mays) promoter and the first exon and intron; transcription is terminated by the 3′ polyadenylation signal from ORF25 (Agrobacterium tumefaciens). There is one functional copy of the event containing 6 complete transgenes, and 2 partial copies of the event elsewhere in the genome.
cry35Ab1 (event DAS-59122-7), Cry35Ab1 delta endotoxin (Bacillus thuringiensis strain PS149B1) Insect Coleopteran (corn rootworm) Resistance The toxin gene is driven by the Triticum aestivum peroxidase gene root-preferred promoter. The transcription is terminated by the Solanum tuberosum proteinase inhibitor II (PINII) terminator. There is one copy of the cry35Ab1 transgene in the genome.
cry34Ab1(event DAS-59122-7), Cry34Ab1 delta endotoxin (Bacillus thuringiensis strain PS149B1) for Coleopteran (corn rootworm) resistance, driven by the Zea mays ubiquitin gene promoter, intron and 5’UTR; transcription is terminated by the Solanum tuberosum proteinase inhibitor II (PINII) terminator. There is one copy of cry34Ab1 transgene in the genome (note cry34Ab1 and cry 35Ab1 are combined in a single event DAS-59122-7).
The eight main traits in SmartStax corn include at least 34 transgenes. For the most part, the transgenes were developed and patented during the mid 1980s through to the mid 1990s. These old events were combined using traditional plant breeding techniques. The environmental and human safety of the transgenes have never been rigorously established while the regulatory agencies justify the safety of those many transgenes on the basis of the long time in which the transgenes have been used in GM food and feed in the Americas. However, the modified foods were never labelled in the market, making epidemiological studies impossible.”
It sounds like a lot of Franken engineering just to make some corn for cereal! According to Food Democracy Now, Kellogg’s spent $790,000 on opposing prop 37. Prop 37 would have required foods that contain GMO’s to be labeled. Corn flakes are a rather simple idea. It is hard to imagine all the GMO and bioscience that goes into a simple bowl of cereal. Opt for organic alternatives or another breakfast food altogether.
Sources: GM- Free Cymru, GMO Inside, EPA