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7.S: Linkage and Mapping (Summary)

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    • Recombination is defined as any process that results in gametes with combinations of alleles that were not present in the gametes of a previous generation.
    • The recombination frequency between any two loci depends on their relative chromosomal locations.
    • Unlinked loci show a maximum 50% recombination frequency.
    • Loci that are close together on a chromosome are linked and tend to segregate with the same combinations of alleles that were present in their parents.
    • Crossovers are a normal part of most meioses, and allow for recombination between linked loci.
    • Measuring recombination frequency is easiest when starting with pure-breeding lines with two alleles for each locus, and with suitable lines for test crossing.
    • Because recombination frequency is usually proportional to the distance between loci, recombination frequencies can be used to create genetic maps.
    • Recombination frequencies tend to underestimate map distances, especially over long distances, since double crossovers may be genetically indistinguishable from non-recombinants.
    • Three-point crosses can be used to determine the order and map distance between of three loci, and can correct for some of the double crossovers between the two outer loci.

    Key Terms



    independent assortment


    recombinant genotype

    parental genotype


    recombination frequency (RF)

    complete (absolute) linkage

    incomplete (partial) linkage



    coupling (cis) configuration

    repulsion(trans) configuration


    map units (mu)

    centiMorgans (cM)

    genetic map

    conserved synteny


    three-point cross

    This page titled 7.S: Linkage and Mapping (Summary) is shared under a CC BY-SA 3.0 license and was authored, remixed, and/or curated by Todd Nickle and Isabelle Barrette-Ng via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.