Title: Informing the public about modern biotechnology and biosafety
1Informing the public about modern biotechnology
and biosafety
- Sixth Dubai international Food safety Conference
Session -
- Moving with the trends and developments in food
safety." - Dubai, 28 February 2011
- Piet van der Meer,
- Horizons sprl, Belgium
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2Topics
- Frequently asked questions
- What is genetic modification/engineering? How is
it different from conventional breeding? - What are the potential benefits of GM crops?
- How is safety of GM crops addressed ?
- What are the experiences with GM crops to date?
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3Conventional breeding
- Since humans started farming about 10,000 years
ago, farmers have used crossing and selection to
improve crops so that they - - produce more
- - taste better
- - are stronger in the field
- - have a longer shelf life
- - etc
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4Conventional breeding
- For 1000s of years, breeding was largely trial
and error - 19th century Gregor Mendeldiscovered the rules
of cross breeding. - Early 20th century discovery of inducing
mutations by radiation and chemicals. - Early 20th century discovery of hybrids
- Crop breeding has made major achievements and is
- crucially important for food security
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5Conventional breeding
- Teosinthe
-
-
- Todays sugar maize
6Conventional breeding
- Breeding and induced mutation also have some
limitations - Â
- Cross breeding only works between related
plants. - For some species breeding is extremely difficult.
- Breeding can take very long, e.g. apples.
- Linkage drag not only the desired genes go
across. - Induced mutation is undirected and unpredictable.
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7Genetic Modification of Plants
- Scientific discoveries in the 20th century to
overcome - these limitations
- Discovery of DNA and genes located on
chromosomes - Discovery of special enzymes to cut and paste
genes,restriction enzymes, ligases, etc. - Discovery of transfer of genes into plant cells
8Genetic Modification of Plants
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9Genetic Modification of Plants
- Technical characteristics of GM compared with
breeding - Highly specific
- Faster
- Possible with plants that do not cross sexually
- Much greater reservoir of genes
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10Genetic Modification
- New technology
- Is it useful?
- Is it safe?
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11Biotechnology - the broader context
- Escalating global challenges
- Growing world population (9 billion in 2050)
- Increased consumption of food, feed, and fiber
- Increasing demand for renewable fuels
- Loss of agricultural land
- Shortage of water for irrigation.
- Climate change
- Reduced agrobiodiversity
- Environmental degradation
- Loss of natural habitats and biodiversity
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12Biotechnology - the broader context
- Escalating global challenges
- Growing world population (9 billion in 2050)
- Increased consumption of food, feed, and fiber
- Increasing demand for renewable fuels
- Loss of agricultural land
- Shortage of water for irrigation.
- Climate change
- Reduced agrobiodiversity
- Environmental degradation
- Loss of natural habitats and biodiversity
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13Genetic engineering - the broader context
- The world will not be able to feed itself without
destroying the planet unless a fundamental
transformation of agricultural production takes
place. - Farmers have to produce more while having less
impact on the environment. - Need for Sustainable intensification (FAO)
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14Genetic engineering - the broader context
- Farmers need the availability of crop plants
that - -Â Â produce more per hectare,
- -Â Â produce more per litre of water,
- -Â are less dependent on pesticides and
fertilisers, Â - - can grow on marginal land,
- -Â Â have enhanced nutritional value
- -Â have reduced post harvest losses,
- -Â Â reduce soil erosion,
- - etc.
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15Genetic engineering - the broader context
- These immense challenges cannot be solved by
conventional - techniques alone.
- Modern biotechnology can contribute significantly
to - finding solutions for these challenges (Earth
Summit - Agenda 21, 1992 World Summit 2005)
- The future of the agriculture is not a matter of
either this or - that technology but rather of combining the most
suitable - approaches of each available technology.
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16Situation with GM crops to date
- Since the early 80s, a massive biotechnology
research effort is conducted in many research
institutions all over the world to improve crop
plants. - In Agenda 21 (1992) a detailed blueprint was
agreed for international collaboration in
biotechnology research - Many thousands of research trials with GM plants,
trees, and micro-organisms have been conducted
over the last decades.
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17Situation with GM crops to date
- Since 1996, GM crops  have been grown
commercially by farmers over more than 1 billion
hectares world wide. - In 2010, 15.4 million farmers planted 148 million
hectares of biotech crops in 29 countries - The GM crops grown commercially today are mainly
soybean, cotton, maize and canola with insect
resistance and/or herbicide tolerance. - Source www.isaaa.org. Â
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18(No Transcript)
19Genetic Modification
- New technology
- Is it useful?
- Is it safe? - for the environment- as food and
feed
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20Biosafety - History 1972 First publication
recombinant DNA 1974 Berg Letter hopes and
concerns - moratorium 1975 Asilomar end of
moratorium - safety case by case 1986 first
transgenic plants 1986 OECD rDNA safety
recommendations - Blue Book 1986 US
coordinated framework for regulation 1986
European Directives on GMOs
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21Biosafety History 1992 UNCED, Rio De
Janeiro 1992 Agenda 21 - maximise benefits
- minimise risks 1992 Convention on
Biological Diversity - art 19 international
collaboration on biotechnology - art 8g
national biosafety systems
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22- Biosafety - History
- 2000 The Cartagena Protocol on Biosafety.
- Procedures for transboundary movement of living
modified organisms in absence of national
regulations - Agreed principles and methodology for risk
assessment - Mechanism for information sharing - Biosafety
Clearing House
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23National biosafety systems
- Different systems
- Guidelines and standards, e.g Good Laboratory
Practices - Regulations
- Pre-market regulations
- Post-market regulations
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24National biosafety systems
25Environmental Safety Food/feed Safety
- Often different bodies involved, e.g - US
USDA, EPA, FDA - - EU EFSA plus national authorities
- Internationally agreed principles and
methodology - Environmental safety Cartagena Protocol on
Biosafety - Food/Feed safety Codex Alimentarius
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26- Environmental Risk Assessment - Methodology
- Methodology
- Procedure Follow a number of steps
- Substance Take into account a number of
parameters
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27- Environmental Risk Assessment - Methodology
- Identification of relevant phenotypic and
genotypic changes that may have adverse effects - Likelihood estimation
- Evaluation of the consequences
- Estimation of overall risk
- Are identified risks acceptable or manageable?
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28- Environmental Risk Assessment - Methodology
- Take into account the relevant characteristics
of - The recipient (host) or parental organism(s).
- Inserted sequences.
- The resulting GMO
- The intended use (e.g field trial, commercial
use) - The receiving environment.
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29Environmental risk assessment
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30Food Safety Assessment
Codex Alimentarius Foods derived from
biotechnology
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31Guidance European Food Safety Authority (EFSA)
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32Comparative GMO food/feed safety assessment
- Two main elements
- Intended changes
- The inserted genes and related traits
- Assess intrinsic properties and functions of the
gene-product tiered approach - Possible unintended changes in the GMO
- as result of insertion or expression
- Assess composition
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331. Intrinsic properties and functions of the gene
products
- Assessment of
- Possible changes in toxicity
- Possible changes in allergenicity
- Case-specific topics, such as nutritional changes
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34Toxicity
- Step 1 For each newly expressed protein
- Molecular and biochemical characterisation
- Computer-aided comparison of homology with known
toxins - Digestibility in laboratory assay
Codex Standard "Weight of Evidence Approach"
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35Toxicity
- Step 2 In cases indicated by step 1, and in
specific cases whereby the composition of the GM
plant is modified substantially. - Animal toxicity tests with pure protein
- Whole food/feed testing
- Laboratory animal toxicity tests (e.g. 90 days
test) - Complex mixtures - More difficult to test than
purified chemicals
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36Allergenicity
- General
- Not an intrinsic, fully predictable property of a
given protein - Airway-, contact-, and food-allergies
- Food
- "Big eight food allergens (90)
- All food allergens are proteins
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37Assessment of possible allergenicity
- Is the donor of the novel gene a known allergen?
- Comparison with known allergens - databases
- In vitro digestibility and processing stability
- When indicated by the above (weight of
evidence) further testing, case by case - Reaction with antisera from allergic patients
- Clinical tests, such as skin prick test
- Animal models
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38Case-specific issue Nutritional assessment
- Food/feed contains nutrients, antinutrients which
may be target of modification - In those cases assessment of nutritional value
- Calculated from compositional data
- Domestic and laboratory animal feeding
studies(NB these are not toxicity studies) - Animal models
- Chicken (rapidly growing)
- Others, such as milk cows
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392. Unintended changes compositional analysis
- Macro/micronutrients, anti-nutrients, toxins, and
compounds from relevant metabolic pathways - Key parameters differ between organisms
- Parameters in OECD consensus documents
- Assessment
- Comparison with appropriate comparator(s)
- Multiple seasons and locations (crop)
- Identify differences that are relevant to
food/feed safety
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40Experiences with GM crops to date
- 87-fold increase in hectares since 1996.
- Aggregated data indicate
- Reduced production costs (50),
- Yield gains of 167 million tons equivalent with
 62.6 million additional hectares  - pesticide reduction estimated at 356 million kg
of active ingredient - Reduction of fossil fuel use
- Source ISAAA
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41Experiences with GM crops to date
- No verifiable reports of adverse effects of GM
crops on human health or the environment - NB Less mycotoxin contaminations in insect
resistant crops due to reduced damage by pest
insects
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42Summary
- Genetic modification is tool that allows traits
to be introduced in crop plants in a very
targeted way and with a much greater reservoir of
genes - Although not a silver bullet, GM can help
developing crops that produce more, that are less
dependent on water, pesticides and fertilisers,
that are more nutritious, and that have a longer
shelf life
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43Summary
- Internationally agreed methodologies are applied
to assess the environmental and food safety of GM
crops. - The GM crops that are on the market to day are as
safe as their non modified counterparts. - Data show rapid global expansion of the adoption
of GM crops by farmers, and substantial increases
in yield, and reduction of use of pesticide and
fossil fuels.
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