Linkage and Recombination I - Lecture 9 Flashcards
Androgenic alopecia
Male pattern baldness
Trait is stimulated by male sex hormones (androgens)
Androgen-receptor gene on the X chromosome
Androgen receptor encodes a protein that binds male sex hormones
Linked genes
Genes located close together on the same chromosome
Do not assort independently
Linkage
Keeps particular genes together
Crossing over
Mixes genes up
Nonrecombinant Progeny
Gametes that contain only original combinations of alleles present in the parents
Recombinant Progeny
Progeny display original combinations of traits found in parents
For each meiosis in which a single crossover takes place:
Two nonrecombinant gametes and two recombinant gametes will be produced
*Same result as ind assortment
When crossover between two loci takes place in every meiosis
It is impossible to determine whether the genes are on the same chromosome and crossing over took place or whether the genes are on different chromosomes
For closely linked genes
Crossing over does not take place in every meiosis
Maximum proportion of recombinant gametes is
50%
Recombination Frequency
The percentage of recombinant progeny in a cross
(# of recombinant progeny/total number of progeny) x 100%
Coupling
Wild type alleles are found on one chromosome and mutant on the other
AKA cis configuration
p+b+/pb
Repulsion
One chromosome carries wild allele and a mutant and other carries other mutant and wild.
AKA trans
p+b/pb+
Intermediate Linkage
In between the two extremes of ind assort and complete linkage. Occasional crossovers break up the linkage and allow genes to recombine.
Interchromosomal Recombination
Between genes on different chromosomes. It arises from independent assortment occurring in anaphase I
