Presenter Information

H.L. Jernigan, University of Wyoming

Department

Sheridan Research and Extension Center

First Advisor

Sadanand Dhekney

Description

Precision breeding (PB) is a newly-enabled approach to plant genetic improvement that transfers only specific desirable traits among sexually-compatible relatives via the mitotic cell division pathway to avoid the genetic disruption imposed by meiosis. PB builds upon decades of both fundamental and applied research aimed at bypassing the disruption of sexual reproduction (meiosis) by allowing gene insertion to be accomplished via the significantly more stable and predictable mitotic cell division pathway. Recent advances in the development of cell culture protocols for efficient plant regeneration combined with crop genome sequencing have opened new avenues for the movement of specific functional traits among sexually compatible crop cultivars. A grapevine derived MybA1 transcription factor was recently studied and characterized for its use as a reporter gene in plant transformation. We are currently studying the grape-derived tolerant acetolactate synthase gene, VvALS2f, that might potentially confer herbicide resistance and can be used as a marker gene for selection of modified events in cell culture. In the current study, the effect of different herbicides including Monument and Image, on inhibition of tobacco shoot cultures and grape embryogenic cultures will be studied to determine the optimum levels of herbicide that can be used for selection at the cell culture level. These studies will enable the use of the acetolactate synthase gene for the recovery of modified events in cell culture and regeneration of whole plants with traits of interest.

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The role of a grapevine-derived acetolactate synthase gene as a selectable marker for precision breeding of Vitis.

Precision breeding (PB) is a newly-enabled approach to plant genetic improvement that transfers only specific desirable traits among sexually-compatible relatives via the mitotic cell division pathway to avoid the genetic disruption imposed by meiosis. PB builds upon decades of both fundamental and applied research aimed at bypassing the disruption of sexual reproduction (meiosis) by allowing gene insertion to be accomplished via the significantly more stable and predictable mitotic cell division pathway. Recent advances in the development of cell culture protocols for efficient plant regeneration combined with crop genome sequencing have opened new avenues for the movement of specific functional traits among sexually compatible crop cultivars. A grapevine derived MybA1 transcription factor was recently studied and characterized for its use as a reporter gene in plant transformation. We are currently studying the grape-derived tolerant acetolactate synthase gene, VvALS2f, that might potentially confer herbicide resistance and can be used as a marker gene for selection of modified events in cell culture. In the current study, the effect of different herbicides including Monument and Image, on inhibition of tobacco shoot cultures and grape embryogenic cultures will be studied to determine the optimum levels of herbicide that can be used for selection at the cell culture level. These studies will enable the use of the acetolactate synthase gene for the recovery of modified events in cell culture and regeneration of whole plants with traits of interest.