Chloroplast capture

In plant breeding and evolution, chloroplast capture is a process through which inter-species hybridization and subsequent backcrosses yield a plant with a new combination of nuclear and chloroplast genomes. For instance: Species A's (having chloroplast genome a and nuclear genome AA) pollen hybridizes to species B's (b and BB) ovule, yielding the 1st hybrid (F1) with chloroplast genome b and nuclear genome A (50%) and B (50%); Species A's pollen hybridizes (backcross) to F1's ovule, yielding the 2nd hybrid (F2) with chloroplast genome b and nuclear genome A (75%) and B (25%); Species A's pollen again backcrosses to F2's ovule, yielding the 3rd hybrid (F3) with chloroplast genome b and nuclear genome A (87.5%) and B (12.5%); After further backcross generations, a plant is obtained with the new genetic combination (chloroplast genome b and nuclear genome AA).

Source: Wikipedia — Chloroplast capture (CC BY-SA 4.0)

Chloroplast capture

In plant breeding and evolution, chloroplast capture is a process through which inter-species hybridization and subsequent backcrosses yield a plant with a new combination of nuclear and chloroplast genomes. For instance: Species A's (having chloroplast genome a and nuclear genome AA) pollen hybridizes to species B's (b and BB) ovule, yielding the 1st hybrid (F1) with chloroplast genome b and nuclear genome A (50%) and B (50%); Species A's pollen hybridizes (backcross) to F1's ovule, yielding the 2nd hybrid (F2) with chloroplast genome b and nuclear genome A (75%) and B (25%); Species A's pollen again backcrosses to F2's ovule, yielding the 3rd hybrid (F3) with chloroplast genome b and nuclear genome A (87.5%) and B (12.5%); After further backcross generations, a plant is obtained with the new genetic combination (chloroplast genome b and nuclear genome AA).

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Source: Wikipedia "Chloroplast capture" · CC BY-SA 4.0

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