A key factor in acceleration of functional genomic applications using virus vectors can be attributed to recent progress in genome editing technologies. The basic premise for gene editing is shown in Fig. 7.1, highlighting that, in contrast to traditional genetic engineering technologies, no new genetic material is added to the plant genome. Therefore, the plant is not considered a GMO or having undergone transgenesis while gene editing allows for defined alterations to achieve a desirable phenotype.

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Custom Engineering with Viruses

  • Herman B. Scholthof

摘要

A key factor in acceleration of functional genomic applications using virus vectors can be attributed to recent progress in genome editing technologies. The basic premise for gene editing is shown in Fig. 7.1, highlighting that, in contrast to traditional genetic engineering technologies, no new genetic material is added to the plant genome. Therefore, the plant is not considered a GMO or having undergone transgenesis while gene editing allows for defined alterations to achieve a desirable phenotype.