Patent Pending
Within the plant kingdom, a wide variety of species possess an extraordinary ability to regenerate whole organs and tissues naturally. Invasive weeds such as Japanese knotweed can regenerate from tiny root fragments in the soil, and many gardeners’ favorites can be propagated by taking cuttings from fully-grown plants. However, this flexible ability to regenerate organs is missing from most economically important crop species, and is currently the single biggest bottleneck for plant biotechnology. While there is an increasingly impressive array of tools to edit the genes of a plant cell, regenerating whole organs and body plans from edited cells via labor-intensive tissue culture remains a painstaking process – often requiring a year or more – and resulting in undesirable mutations and chromosome instability.
UCB researchers have discovered that complete genetic knockout of the DNA demethylation pathway in the model plant Arabidopsis dramatically enhances the ability of plant organs to regenerate after wounding. In many plants, including Arabidopsis, regeneration after wounding does not occur naturally and requires intensive tissue culture. By contrast, quadruple homozygous mutant plants harboring loss of function mutations to all four DNA demethylase enzymes capably regenerate all organs and complete body plans after cutting, even in the absence of exogenous plant hormones and tissue culture.