Epidermis-specific pathogen-inducible promoter for cereals
Challenge
In plant breeding specific advantageous properties such as pathogen resistance are transferred to useful plants by means of recombinant DNA technology in order to increase yields or improve the properties of the products. As ubiquitous gene expression often has negative effects on normal physiology in some tissues, and presence of transgenic products shall be prevented in harvested plant parts, tissue specific expression of the transferred genes is desired. With regard to pathogen resistance especially the epidermis as intrusion border for pathogens is the relevant organ for expression of resistance genes. So far, in particular for monocotyledons such as cereal plants, only few suitable epidermis-specific constitutive promoters are available. As constitutive expression may cause undesired side effects in the transgenic plants, epidermis-specific and preferably pathogen-inducible promoters are needed.
Technology
The invention relates to a promoter region that enables and controls expression of transgenes in monocotyledon plants in an epidermis-specific and pathogen-induced manner. The inventive GER4c promoter provides a promising tool to study signal transduction (cis-elements and trans-acting factors) of pathogen-associated molecular patterns (PAMP)-triggered immunity and to engineer strictly localized and pathogen-regulated disease resistance in transgenic cereal crops.
Commercial Opportunity
The technology is offered for co-development of pathogen-resistant transgenic plants or in-licensing.
Development Status
The promoter was validated in transgenic barley plants for powdery mildew and scald as inducing pathogens. Expression data for transgenic maize are also available.
Patent Situation
Granted European and US patent (EP1888754, US7,834 243), Canadian application pending.
Further Reading
Himmelbach et a. 2010 : Promoters of the Barley Germin-Like GER4 Gene Cluster
Enable Strong Transgene Expression in Response to Pathogen Attack. The Plant Cell, Vol. 22: 937–952.