A novel technology for speeding the improvement of germplasm and varieties of tree fruits and other...
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Transcript of A novel technology for speeding the improvement of germplasm and varieties of tree fruits and other...
A novel technology for speeding the improvement of germplasm and varieties of tree fruits and other long-generation cycle crops.
‘FASTRACK’ BREEDINGA TECHNOLOGY FOR THE RAPID IMPROVEMENT OF TREE FRUIT AND OTHER LONG-GENERATION CYCLE SPECIALTY
CROPS
FRUITING TREES IN ONE YEAR !
THE PROBLEM:
•Fruit trees like peach, plum, apricot and cherry, need to grow for at least three years and sometimes more than seven years before they flower and fruit.
•That means for a breeder to improve a trait such as disease resistance, it is necessary to wait 3-7 years to see the results of each cross. Several to many generations are needed to produce an improved variety.
•In practice it can take anywhere from 15 -20 years or longer to produce a new variety.
The Solution:
‘FASTRACK’
A breeding system that uses a genetically engineered (GE) tree flowering gene that produces generation cycles of one year or less.
How does it work?
The next few slides will illustrate
STEP 1: The Early, Continual Flowering (ECF) Gene is inserted into a parent plum line through genetic engineering.
Genetic Transformation Transgenic tree regeneration
ECF inducing gene ready to be inserted into the plum tree
ECF gene is inserted into a plum plant
ECF plum
(the T indicates that it carries the ECF gene)
T
An early flowering plum parent tree is produced that can
flower and fruit within a year.
This early flowering parent is ready to enter into a breeding program to combine traits of interest.
• Instead of waiting 3-7 years for each generation, a generation can be made every year.
• Instead of waiting 20 years for each new variety, a new variety can be made in five years.
back
cross
In each generation the highest quality ECF plums with the highest sugar content are selected and used as parents
STEP 2: An exampleCrossing the ECF line for several generations with high sugar but otherwise
poor quality plums to develop sweeter plum varieties.
This can be carried out until the breeder has trees with fruitthat have a good combination of sweetness, other flavorsgood size, nice color, etc.
X
High sugar plum
EFC plum
T
X
High sugar or other high quality trait
Higher sugar high quality ECF trees
ECF Plum
T
T
SELECTHigher sugar, high quality
ECF trees as parents for the next generation
T SELECTHigher sugar, high quality
ECF trees as parents for the next generation
STEP 3:Select the best.
There are 4 types of trees to choose from in the last generation:
T T
High sugar high quality types
not GE
ECF + High sugartypes
ECF not desirable sugar and/or fruit type
Not desirable sugar and/or fruit type not GE
Only the high sugar, high quality, non-ECF (non-GE) types are selected.
Outcome:
‘FasTrack’ Breeding as outlined in this presentation can, in a relatively short time, provide improved tree fruits (in this case high quality, high sugar plums). For example, considering a generation time of 4 years for plum, 3 generations would normally require 16 years. FasTrack breeding would accomplish 3 generations in 5 years! In the end the selected FasTrack bred trees are not genetically engineered. Each tree has the potential to be a new cultivar or an improved type that can be used for continued breeding through conventional means.
Early and continuous flowering and fruiting allows ‘FasTrack’ Breeding to be carried out in green- or screen-house
The FasTrack Team:USDA-ARS, Kearneysville, West VirginiaRalph Scorza Tree fruit breeding (classical and genetic engineering) Chinnathambi Srinivasan Genetic engineering of fruit treesAnn Callahan Molecular biology of fruit quality of stone fruitsChris Dardick Molecular biology of fruit quality of stone fruits
We are collaborating with colleagues at other institutions: University of California, Davis Ted DeJong Plum breeding, variety development of dried plums
Clemson University Albert Abbott Development and testing of molecular markers for fruit trees
Pennsylvania State University Jayson Harper Agricultural economics