Answer:
Genes that are relatively close to one another on a chromosome will move with one another during the process of fertilization and meiosis. Thus, there will be a lined inheritance for these genes. On the other hand, genes that are found on different chromosomes will have independent inheritances because every pair of the homologous chromosomes will be positioned differently when the
y are arranged at the middle of the cell during the first meiotic division.
Explanation:
Genes that are relatively close to one another on a chromosome will move with one another during the process of fertilization and meiosis. Thus, there will be a lined inheritance for these genes. On the other hand, genes that are found on different chromosomes will have independent inheritances because every pair of the homologous chromosomes will be positioned differently when the
y are arranged at the middle of the cell during the first meiotic division.
They start at the dendrite is the correct answer...
They cannot travel backwards
And they are found in both the autonomic AND the somatic nervous system
Answer;
The offsprings will be such that , a normal vision female, a heterozygous female, normal male and a colorblind male.
Explanation;
-Most X-linked traits in humans are recessive. One example of an X-linked trait is red-green colorblindness. Let (Xc) represent the recessive allele that causes colorblindness and (XC) represent the normal dominant allele. Females that are XCXC or XCXc have normal color vision, while XcXc females are colorblind. For males with; XcY are color blind, while those with XCY are have normal color vision.
Heterozygous female, XcXC
Normal male, XCY
The offspring of the parents, XcXC x XCY, are: XcXC (heterozygous female), XCXC( normal vision female), XCY (normal vision male), XcY (color blind male).
<span> part of the human brain seems to be the most distinct from the brains of nonhuman animals is </span><span>a. hypothalamus
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