EBK CAMPBELL BIOLOGY
11th Edition
ISBN: 8220103613828
Author: Reece
Publisher: PEARSON
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Chapter 14, Problem 18TYU
SYNTHESIZE YOUR KNOWLEDGE
Just for fun, imagine that "shirt-striping" is a phenotypic character caused by a Single gene. Construct a genetic explanation for the appearance of the family in the above photograph, consistent with their "Shirt phenotypes." Include in your answer the presumed allele combinations for "shirt-striping" in each family member. Identify the inheritance pattern shown by the child.
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Just for fun, imagine that "shirt-striping" is a phenotypic
character caused by a single gene. Construct a genetic expla-
nation for the appearance of the family in the above pho-
tograph, consistent with their "shirt phenotypes." Include
in your answer the presumed allele combinations for "shirt-
striping" in each family member. Identify the inheritance
pattern shown by the child.
Hello, please answer the following Biology question correctly based on the given answer choices. Please pick the correct "answer-letter" and explain your answer. Thank you.
Biology Question: "A cross between 2 pink-flowered plants produces the following offspring: 1/4 red-flowered plants, 1/2 pink-flowered plants, and 1/4 white-flowered plants. Which of the following explains the relationship between the alleles for flower color?"
Answer Choice Options:
A - red and white are codominant
B - red is dominant to white
C - pink is dominant to white
D - red and white are incompletely dominant
Please help me with question number 4, with the question mark.
Chapter 14 Solutions
EBK CAMPBELL BIOLOGY
Ch. 14.1 - DRAW IT Pea plants heterozygous for flower...Ch. 14.1 - WHAT IF? List all gametes that could be made by a...Ch. 14.1 - MAKE CONNECTIONS In some pea plant crosses, the...Ch. 14.2 - Prob. 1CCCh. 14.2 - Two organisms, with genotypcs BbDD and BBDd, are...Ch. 14.2 - WHAT IF? Three characters (flower color, seed...Ch. 14.3 - What two properties, one structural and one...Ch. 14.3 - If a man with type AB blood marries a woman with...Ch. 14.3 - WHAT IF? A rooster with gray feathers and a hen...Ch. 14.4 - Beth and Tom each have a sibling with cystic...
Ch. 14.4 - Prob. 2CCCh. 14.4 - Prob. 3CCCh. 14.4 - MAKE CONNECTIONS In Table 14.1, note the...Ch. 14 - When Mendel did crosses of true-breeding purple-...Ch. 14 - DRAW IT Redraw the Punnett Square on The right...Ch. 14 - Inheritance patterns are often more complex than...Ch. 14 - Both members of a couple know that they are...Ch. 14 - DRAW IT Two pea plants heterozygous for the...Ch. 14 - A man with type A blood marries a woman with type...Ch. 14 - A man has six fingers on each hand and six toes on...Ch. 14 - DRAW IT A pea plant heterozygous for inflated pods...Ch. 14 - Flower position, stem length, and seed shape are...Ch. 14 - Hemochromatosis is an inherited disease caused by...Ch. 14 - The genotype of F1, individuals in a tetrahybrid...Ch. 14 - What is the probability that each of thc following...Ch. 14 - Prob. 9TYUCh. 14 - Prob. 10TYUCh. 14 - In tigers, a recessive allele of a particular gene...Ch. 14 - In maize (com) plants,a dominant allele I inhibits...Ch. 14 - The pedigree belowtraces the inheritance of...Ch. 14 - Imagine that you are a genetic counselor, and a...Ch. 14 - EVOLUTION CONNECTION Over the past half century,...Ch. 14 - SCIENTIFIC INQUIRY You are handed a mystery pea...Ch. 14 - Prob. 17TYUCh. 14 - SYNTHESIZE YOUR KNOWLEDGE Just for fun, imagine...
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, biology and related others by exploring similar questions and additional content below.Similar questions
- please helparrow_forwardHow do you figure out the geno and phenotype from the info given? 2 pages out the lab but I figured once explained I’ll be able to do understand and do the rest!arrow_forwardSuppose you could send a letter back in time to Gregor Mendel. Tell him about what you know of his own work, as well as other techniques, tools, etc. relating to the Inheritance of Traits that we have explored in class. Try to include the following terms/concepts in your response: Alleles, Chromosomes, Traits & Sex-Linked Traits, Pedigrees, Dihybrid Crosses, Homozygous Dominant, Heterozygous, Homozygous Recessive, Karyotype, Non-Disjunction. asap please typed onlyarrow_forward
- Suppose two parents, a father with the genotype AaBbccDd and a mother with the genotype aaBbCcDd, want to have children. Assume the loci are inherited independently of each other. Enter your answers as the most simplified fractions (e.g. 1/8 instead of 2/16). What proportion of the offspring are expected to have: The same genotype as the father? The same phenotype as the father? All dominant phenotypes? All recessive phenotypes?arrow_forwardJust for fun, imagine that “shirt-striping” is a phenotypic character caused by a single gene. Construct a genetic explanation for the appearance of the family in the above photograph, consistent with their “shirt phenotypes.” Include in your answer the presumed allele combinations for “shirt-striping” in each family member.arrow_forwardCan you please not type the answer can you write it on a paperarrow_forward
- The questions below all refer to the following pedigree. The locus for allele D/d determines how cilia function within the body. Mutations at this allele cause abnormal ciliary function, resulting in a clinical disorder characterized by frequent respiratory infections (including in the ears, sinuses, and lungs), as well as infertility. In the pedigree, black circles/squares represent individuals affected by the disorder. White circles/squares represent unaffected individuals. Remember, if a trait is rare in a population (such as this one), we assume individuals marrying into the family are NOT carriers unless the information provided indicates otherwise. ||| IV B1 C1_ B2 C2 D1 A1 C3 D2 Probability that D5 is a carrier: B3 A2 B4 Probability that Taylor is a carrier: org B5 O C4. D4____ Probability that two carriers will have an affected child: C5 1) What is the probability that B3 is a carrier of this disorder? Show your work with a Punnett Square in addition to stating the probability…arrow_forwardThe questions below all refer to the following pedigree. The locus for allele D/d determines how cilia function within the body. Mutations at this allele cause abnormal ciliary function, resulting in a clinical disorder characterized by frequent respiratory infections (including in the ears, sinuses, and lungs), as well as infertility. In the pedigree, black circles/squares represent individuals affected by the disorder. White circles/squares represent unaffected individuals. Remember, if a trait is rare in a population (such as this one), we assume individuals marrying into the family are NOT carriers unless the information provided indicates otherwise. A1 A2. || B1. B2. B3 B4. B5 B6. II C1_ C2. C3. C4. C5 IV D1 D2- D4 - D5_ 1) What is the probability that B3 is a carrier of this disorder? Show your work with a Punnett Square in addition to stating the probabilityarrow_forwardThe questions below all refer to the following pedigree. The locus for allele D/d determines how cilia function within the body. Mutations at this allele cause abnormal ciliary function, resulting in a clinical disorder characterized by frequent respiratory infections (including in the ears, sinuses, and lungs), as well as infertility. In the pedigree, black circles/squares represent individuals affected by the disorder. White circles/squares represent unaffected individuals. Remember, if a trait is rare in a population (such as this one), we assume individuals marrying into the family are NOT carriers unless the information provided indicates otherwise. A1 A2 II B1 B2 B3 B4. B5 B6_ II C1. C2 C3. C4. C5 IV D1. D2, D4 . D5 Individuals C2 and C3 are considering having additional children. However, having already had a child with this disorder, they visit a genetic counselor to determine what the probability is that their future child would have the disorder. If C2 and C3 have another…arrow_forward
- A student is completing a Punnett square for a trait (X/x) that is autosomal and inherited by the dominant allele. The father does not have it (xx), but the mother does (Xx). If they had two children, a son and a daughter, what would the completed Punnett square look like (i.e., would the son have the trait, would the daughter have the trait)? Both children would inherit the trait. Both children would not inherit the trait. Each child has a 50% chance of inheriting the trait. One child would inherit the trait and one child would not.arrow_forwardConstruct an imaginary pedigree that represents the inheritance pattern of Groats Disease (not a real disorder) Imagine a family tree detailing the inheritance pattern of Groats Disease (not a real disorder), a condition we'll say follows an autosomal recessive pattern. (It must follow an autosomal recessive pattern). • • In this pedigree include 5 generations, 25 individuals, and 5 affected individuals. Proper Pedigree Notation (circles, squares, shading, etc.) Names, ages, and genotypes for all represented individuals (listed beside or under the representative symbol).arrow_forwardThis pedigree (below) shows inheritance of a genetic disorder in a family. Assume the trait is rare. What is the mode of inheritance for this trait? [Select] You know this because that mode of inheritance is characterized by: [Select] individuals who have the allele express it and • An affected male parent passes the allele to [Select] and [Select] of his daughters. • An affected female parent passes the allele to sons and [Select] [Select] of her daughters. 1008 ㅇㅁㅇㄹ O ✓ of his sons of herarrow_forward
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