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Chapter 12: Q. 28 (page 328)

Can a human male be a carrier of red-green color blindness?

Short Answer

Expert verified

Males are just not primarily characterized as carriers of red-green vision problems.

Step by step solution

01

Step. 1 Introduction

The most prevalent kind of color deficiency is red-green colour impairment. One may very well have trouble recognizing various shades of red, green, and yellow if you do have this form of color vision. Deuteranopia is also a term for this.

02

Step. 2 Explanation

No, males cannot be the carriers of red-green color blindness, as color blindness is X-linked. Only females with two Xc genes become colorblind in both directions. Only the combination of color-blind males and a color-blind or carrier woman may result in this case. Because males lack a second X chromosome that may conceal the characteristic, all males having an Xc gene shall become colorblind in both red and green.

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Most popular questions from this chapter

Which of the following situations does not follow the Law of Independent Assortment?

a. A blind man and a brunette woman produce three offspring over time, all of who have blind hair.

b. A white cow crossed with a brown bull produces roan cattle.

c. Mating a hog with a sow produces six female piglets.

d. Men are more likely to experience hemophilia than women.

Why is it more efficient to perform a test cross with a homozygous recessive donor than a homozygous dominant donor? How could the same information still be found with a homozygous dominant donor?

People with trisomy 21 develop Downโ€™s syndrome. What law of Mendelian inheritance is violated in this disease? What is the most likely way this occurs?

Explain epistasis in terms of its Greek-language roots โ€œstanding upon.โ€

How many different offspring genotypes are expected in a trihybrid cross between parents heterozygous for all three traits when the traits behave in a dominant and recessive pattern? How many phenotypes? a. 64 genotypes; 16 phenotypes b. 16 genotypes; 64 phenotypes c. 8 genotypes; 27 phenotypes d. 27 genotypes; 8 phenotypes
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