Final answer:
The Total Recombinant Frequency for an individual with the genotype AABbCcDD would not differ based on sex, as it is determined by genetic makeup and recombination events, not by whether the individual is male or female.
Step-by-step explanation:
The Total Recombinant Frequency (TRC) for a male with the genotype AABbCcDD would be the same as for a female, as TRC is not determined by sex but by the genetic makeup and the crossing over events that occur during gamete formation. However, to calculate TRC accurately, one must know the distances between the genes on the chromosomes and assume they are unlinked. Without linkage data or knowing the frequency of crossover events, we cannot calculate the TRC.
Regarding the reference information, if we cross two Aa individuals, the genotype ratio for their offspring would be 1AA:2Aa:1aa, and the phenotype ratio would depend on whether 'A' is a dominant or recessive allele. A cross between AABb and Aabb individuals will have a genotype ratio of 1AABb:1AAbb:1AaBb:1Aabb for the offspring, and again the phenotype ratio depends on the dominance or recessiveness of the alleles involved. For an AAbb cross with aabb, all offspring will be Aabb, assuming 'A' is dominant over 'a'.