Backcross versus forward breeding in the development of transgenic maize hybrids : theory and practice
Mumm, R.F.
Backcross versus forward breeding in the development of transgenic maize hybrids : theory and practice - Madison (USA) : CSSA, 2007.
Peer review
Key factors affecting the choice of breeding methods employed in the development of transgenic maize (Zea mays L.) hybrids are identified and evaluated, particularly as these pertain to the use and balance of backcross and forward breeding in the overall design of a breeding program. These factors are type of trait, population(s) under selection, the predicted response to selection, stewardship of transgenic events, costs, and risks. Analysis suggested that simultaneous hybrid improvement and event integration via a forward breeding approach is not practical, given that some level of backcrossing is basic to event integration and the need to contain events not fully authorized by the local government for cultivation, food, and feed. Considering event integration conducted in a stream separate from hybrid improvement, a forward breeding component to event integration may be warranted, particularly if a threshold level of expression of the transgenic trait of interest is dependent on endogenous alleles that interact with the event, some of which may be influenced by the environment. For this situation, directives are given for determining the number of generations of backcrossing to be conducted to create partial conversions from which to select for favorable endogenous alleles via forward breeding. In addition, ways to maximize the advantages of a backcross‐only approach to event integration are discussed.
Text in English
0011-183X 1435-0653 (Online)
https://doi.org/10.2135/cropsci2007.04.0014IPBS
Backcrossing
Transgenic plants
Plant breeding
Maize
Hybrids
Backcross versus forward breeding in the development of transgenic maize hybrids : theory and practice - Madison (USA) : CSSA, 2007.
Peer review
Key factors affecting the choice of breeding methods employed in the development of transgenic maize (Zea mays L.) hybrids are identified and evaluated, particularly as these pertain to the use and balance of backcross and forward breeding in the overall design of a breeding program. These factors are type of trait, population(s) under selection, the predicted response to selection, stewardship of transgenic events, costs, and risks. Analysis suggested that simultaneous hybrid improvement and event integration via a forward breeding approach is not practical, given that some level of backcrossing is basic to event integration and the need to contain events not fully authorized by the local government for cultivation, food, and feed. Considering event integration conducted in a stream separate from hybrid improvement, a forward breeding component to event integration may be warranted, particularly if a threshold level of expression of the transgenic trait of interest is dependent on endogenous alleles that interact with the event, some of which may be influenced by the environment. For this situation, directives are given for determining the number of generations of backcrossing to be conducted to create partial conversions from which to select for favorable endogenous alleles via forward breeding. In addition, ways to maximize the advantages of a backcross‐only approach to event integration are discussed.
Text in English
0011-183X 1435-0653 (Online)
https://doi.org/10.2135/cropsci2007.04.0014IPBS
Backcrossing
Transgenic plants
Plant breeding
Maize
Hybrids