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- https://bio.libretexts.org/Courses/Roosevelt_University/Advanced_Genetics%3A_Mechanisms_of_Inheritance_and_Analysis/08%3A_Gene_Mapping_and_Recombination/8.03%3A__Linkage_Reduces_Recombination_FrequencyThis is because during meiosis they are so close that there are no crossover events between the two loci and the alleles at the two loci are physically attached on the same chromatid and so they alway...This is because during meiosis they are so close that there are no crossover events between the two loci and the alleles at the two loci are physically attached on the same chromatid and so they always segregate together into the same gamete. In this case, no recombinants will be present following meiosis, and the recombination frequency will be 0%. This is complete (or absolute) linkage and is rare, as the loci must be so close together that crossovers are never detected between them.
- https://bio.libretexts.org/Courses/Ohio_State_University/Ohio_State_University_SP22%3A_Molecular_Genetics_4606_(Chamberlin)/25%3A_Genetic_Linkage/25.03%3A__Linkage_Reduces_Recombination_FrequencyThis is because during meiosis they are so close that there are no crossover events between the two loci and the alleles at the two loci are physically attached on the same chromatid and so they alway...This is because during meiosis they are so close that there are no crossover events between the two loci and the alleles at the two loci are physically attached on the same chromatid and so they always segregate together into the same gamete. In this case, no recombinants will be present following meiosis, and the recombination frequency will be 0%. This is complete (or absolute) linkage and is rare, as the loci must be so close together that crossovers are never detected between them.
- https://bio.libretexts.org/Bookshelves/Genetics/Online_Open_Genetics_(Nickle_and_Barrette-Ng)/07%3A_Linkage_and_Mapping/7.03%3A__Linkage_Reduces_Recombination_FrequencyThis is because during meiosis they are so close that there are no crossover events between the two loci and the alleles at the two loci are physically attached on the same chromatid and so they alway...This is because during meiosis they are so close that there are no crossover events between the two loci and the alleles at the two loci are physically attached on the same chromatid and so they always segregate together into the same gamete. In this case, no recombinants will be present following meiosis, and the recombination frequency will be 0%. This is complete (or absolute) linkage and is rare, as the loci must be so close together that crossovers are never detected between them.
