C because the arrows are pointing away from them (brainless??)
1) all the possible genotypes are also identified by color in the image below :AABBAAbB or AABbaABB or AaBBaAbB or aABb or AabB or AaBbAAbb
aAbb or AabbaaBB
aabB or aaBbaabbThere are 9 different genotypes in total. These can be achived by mixing the alleles of both genes of each parent (just like it's represented in the square).
2) there are 4 phenotypes
-one with an allele A and allele B that would dominate the other. (AABB, aAbB, for example)
- one with all alleles recessive- aabb
-one with the recessive alleles in the gene A but heterozygotic/homozigotic dominant for gene B ( for example: aaBB)
-one with the recessive alleles in the gene B but heterozygotic/homozigotic dominant for gene A ( for example: Aabb)
3) <span>probability of having offspring with the aabb genotype: 1/16
Just by looking at the punnet square, you can see that only one has the aabb genotype, in all the 16 possibilities.
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Jaundice in the liveris yellow discoloration of a newborn baby's skin and eyes.
The geological conditions.
<h2>Mutagenic characteristic of chemical</h2>
Explanation:
- The earth we live in really affects whether we experience hereditary transformations. The nature of water we drink and the air we inhale can really influence the uprightness of our DNA. Our bodies are intended to address any slip-ups, however, risks from the earth can expand our odds of winding up with a change. A natural operator that causes a transformation is known as a mutagen
- chemical mutagens are standard instruments for mutagenesis in a variety of living things, and they are a fundamental strategy for making changes in phenotype-based screens in most genetic structures. Although in the exploratory arrangement, all whole animal screens incorporate the time of lines harboring transformed chromosomes followed by the examination of the consequent phenotypes in the heterozygous or homozygous state
- Hence, the right answer is "chemical is not mutagenic in nature"