The dominant phenotypes are not always more frequent than the recessive phenotypes
Let us examine a typical (thus rare) character of a single gene:
dominant allele + dominant allele = dominant phenotype
dominant allele + recessive allele = dominant phenotype
recessive allele + recessive allele = phenotype Recessive
Looking at this, you might conclude that the dominant phenotype is more common. But recessive alleles could be present in a high frequency in a certain population.
For example: in the color of the eyes, people with clear eyes tend to carry recessive alleles of key genes. Dark-eyed people tend to have dominant alleles.
In Scandinavia, most people have clear eyes, implying that recessive alleles of these genes are much more common in this region than dominant alleles.
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The image will not be transferred to the back of the eye.
Answer:
<h2>Short word, "Pee/Urine" </h2>
Explanation:
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If your drinking water then color of your Pee is based what you drink.</h3>
Answer:
The changes I observed in the moth populations result from the best-hidden moths surviving and reproducing, passing on their colors to their offspring. Why? Because individuals NEVER evolve, populations do. The second option fits best with Darwin's theory of natural selection, in which he stated that individuals with the most favorable traits are the ones to survive and reproduce, thus passing their traits onto the future population. The first choice incorrectly believes in Lamarck's theory of evolution in which he incorrectly believed that individual organisms in the population developed a trait that would help them survive (e.g. longer necks in giraffes).
The vestibulocerebellum helps regulate balance and eye movement. Moreover, the spinocerebellum helps regulate body and limb movement and the cerebrocerebellum helps regulate in planning movements.
The vestibulocerebellum is a region of the cerebellum which involved in balance and body position in space.
The spinocerebellum is involved in controlling lateral descending systems in order to regulate distal limb muscles.
The cerebrocerebellum is involved in motor planning by connecting the motor and premotor cortices.
Learn more about the cerebellum here:
brainly.com/question/763962
