Recommendations from the workshop on Comparative Approaches to Safety Assessment of GM Plant Materials: A road toward harmonized criteria?

Bartholomaeus, Andrew; Batista, Juan C.arlos; Burachik, Moisés; Parrott, W. A.

doi:10.1080/21645698.2015.1011886

Cited by 7 publications

(4 citation statements)

References 24 publications

(39 reference statements)

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“…vegetatively propagated crops), this framework can aid to perform RA for specialty or ornamental crops, tree species, etc., including the so called “orphan crops”, of regional or local interest (Falck Zepeda and Cohen 2006 ). In this sense, initiatives like inter-agency collaborations, joint reviews or mutual recognition of RA reviews could greatly facilitate the use of this approach, in particular in developing countries (Bartholomaeus et al 2015 ).…”

Section: Discussionmentioning

confidence: 99%

Development of a construct-based risk assessment framework for genetic engineered crops

Beker¹,

Boari²,

Burachik

et al. 2016

Transgenic Res

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Experience gained in the risk assessment (RA) of genetically engineered (GE) crops since their first experimental introductions in the early nineties, has increased the level of familiarity with these breeding methodologies and has motivated several agencies and expert groups worldwide to revisit the scientific criteria underlying the RA process. Along these lines, the need to engage in a scientific discussion for the case of GE crops transformed with similar constructs was recently identified in Argentina. In response to this need, the Argentine branch of the International Life Sciences Institute (ILSI Argentina) convened a tripartite working group to discuss a science-based evaluation approach for transformation events developed with genetic constructs which are identical or similar to those used in previously evaluated or approved GE crops. This discussion considered new transformation events within the same or different species and covered both environmental and food safety aspects. A construct similarity concept was defined, considering the biological function of the introduced genes. Factors like environmental and dietary exposure, familiarity with both the crop and the trait as well as the crop biology, were identified as key to inform a construct-based RA process.

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Section: Discussionmentioning

confidence: 99%

Development of a construct-based risk assessment framework for genetic engineered crops

Beker¹,

Boari²,

Burachik

et al. 2016

Transgenic Res

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“…Currently there are 185 Codex Members and 1 member organization (EU). Most countries with official regulations on genetically modified organisms base their regulations on the Codex requirements (Codex Alimentarius 2003;Privalle et al 2012;Bartholomaeus et al 2015).…”

Section: Status Of Regulation Todaymentioning

confidence: 99%

The Story Behind the Approval of the First Bt Maize Product

Privalle

2017

Women in Sustainable Agriculture and Food Biotechnology

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“…Whether other US federal regulatory agencies such as FDA (Food and Drug Administration) and EPA (Environmental Protection Agency) will rule in a similar fashion to APHIS is unknown, as are the responses of foreign countries. Initial thoughts and opinions in regard to these weighty matters have already surfaced (Nagamangala Kanchiswamy et al ., ; Ricroch and Henard‐Damave, ) and public dialogues (Bartholomaeus et al ., ; http://nabc.cals.cornell.edu/Publications/NewsArchive/NABC-26-Overview.pdf) are underway. If, in the future, the federal regulatory agencies (and perhaps similar agencies of foreign countries) decide to evaluate genetically enhanced plants based not on the process by which they are produced, but rather on whether or not they vary significantly in safety and nutrition from their conventional progenitors, it is possible that the distinction between standard GMOs and crops enhanced with designer nucleases will be of less consequence.…”

Section: Regulation Of Non‐gmo Crop Plants Produced With Designer Nucmentioning

confidence: 99%

Use of designer nucleases for targeted gene and genome editing in plants

Weeks

Spalding

Yang

2015

Plant Biotechnology Journal

205

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Summary The ability to efficiently inactivate or replace genes in model organisms allowed a rapid expansion of our understanding of many of the genetic, biochemical, molecular and cellular mechanisms that support life. With the advent of new techniques for manipulating genes and genomes that are applicable not only to single‐celled organisms, but also to more complex organisms such as animals and plants, the speed with which scientists and biotechnologists can expand fundamental knowledge and apply that knowledge to improvements in medicine, industry and agriculture is set to expand in an exponential fashion. At the heart of these advancements will be the use of gene editing tools such as zinc finger nucleases, modified meganucleases, hybrid DNA/RNA oligonucleotides, TAL effector nucleases and modified CRISPR/Cas9. Each of these tools has the ability to precisely target one specific DNA sequence within a genome and (except for DNA/RNA oligonucleotides) to create a double‐stranded DNA break. DNA repair to such breaks sometimes leads to gene knockouts or gene replacement by homologous recombination if exogenously supplied homologous DNA fragments are made available. Genome rearrangements are also possible to engineer. Creation and use of such genome rearrangements, gene knockouts and gene replacements by the plant science community is gaining significant momentum. To document some of this progress and to explore the technology's longer term potential, this review highlights present and future uses of designer nucleases to greatly expedite research with model plant systems and to engineer genes and genomes in major and minor crop species for enhanced food production.

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Recommendations from the workshop on Comparative Approaches to Safety Assessment of GM Plant Materials: A road toward harmonized criteria?

Cited by 7 publications

References 24 publications

Development of a construct-based risk assessment framework for genetic engineered crops

Development of a construct-based risk assessment framework for genetic engineered crops

The Story Behind the Approval of the First Bt Maize Product

Use of designer nucleases for targeted gene and genome editing in plants

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