Saturday, September 28, 2019
Physical anthropology - A Feline Paternity Suit Assignment
Physical anthropology - A Feline Paternity Suit - Assignment Example Then if the kitten #1 has GG or Gg then it will have short tail but when gg then it will have long tail. Therefore possible genotypes are GG, Gg and gg. From the information provided, Kitten #2 is almost exactly like its mother meaning that in almost every aspect, the motherââ¬â¢s gene was dominant over the neighborsââ¬â¢ cat. It therefore means that the illustrated traits and phenotypes is exactly as that of the mother. For ticking, the kitten will give birth to two kids having agouti and the other one non-agouti since it has two dominant genes inherited from the mother who is also agouti. Therefore the ratio will be 2:1. Looking at the phenotypes of the Kitten#3 there is high chance that the gene of the father and mother was at balance in almost every aspect, especially when comparing it with Kitten#2 which resemble the mother but has different phenotypes as that of Kitten#3. In the case of agouti, the Kitten does not resemble the mother therefore the trait resulting into this phenotype was from the father. In this case, the gene for non-agouti is N and that for agouti is n. For color density, the Kitten must have taken the trait of the father because we already know that the mother has dense color. Therefore in this case, let the gene for dilute color be D and d for dilute color. The kitten is different from the mother based on the stripe color. The genetic information provided above shows that the mother has a stripe color of black which contradicts with information regarding Kitten#2 who we were told resemble the mother but still has brown stripes. Since the mother is an all black cat, it therefore means that during crossing over, the gene of the mother was recessive over that of the father and could not result in all black cat. It therefore stands that fatherââ¬â¢s gene for all white cat was dominant. Alternatively, there could be a possibility of co-dominant allele which will alter phenotype when they exist in heterozygous state. Letââ¬â¢s refer to the
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