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Chapter 3: Problem 9

Which of Mendel's postulates can only be demonstrated in crosses involving at least two pairs of traits? State the postulate.

Short Answer

Expert verified
Answer: The Law of Independent Assortment.

Step by step solution

01

Review Mendel's Postulates

Mendel's postulates are a set of principles that form the basis of the modern understanding of genetics. They are derived from the work of Gregor Mendel, who performed breeding experiments with pea plants. The four postulates are: 1. The Law of Segregation: Each inherited characteristic is determined by a pair of factors (genes), which are passed on to offspring as separate units. In the formation of gametes, the factors segregate from each other. 2. The Law of Dominance: In a pair of factors, one factor may mask the expression of the other. The factor that masks the other is called dominant, while the masked factor is called recessive. 3. The Law of Independent Assortment: Factors that determine different traits are inherited independently of each other, as long as they are not on the same chromosome. 4. The Law of Unit Characters: Each trait is determined by a distinct pair of factors (genes).
02

Identify the Appropriate Postulate

We need to find which of these postulates can only be demonstrated in crosses involving at least two pairs of traits. The Law of Independent Assortment concerns the inheritance of multiple pairs of traits. Thus, the correct postulate is: The Law of Independent Assortment: Factors that determine different traits are inherited independently of each other, as long as they are not on the same chromosome.

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Most popular questions from this chapter

Mendel crossed peas having round green seeds with peas having wrinkled yellow seeds. All \(\mathrm{F}_{1}\) plants had seeds that were round and yellow. Predict the results of testcrossing these \(\mathrm{F}_{1}\) plants.

Draw all possible conclusions concerning the mode of inheritance of the trait portrayed in each of the following limited pedigrees. (Each of the four cases is based on a different trait.) a. b. c. d.

Albinism in humans is inherited as a simple recessive trait. For the following families, determine the genotypes of the parents and offspring. (When two alternative genotypes are possible, list both.) (a) Two normal parents have five children, four normal and one albino. (b) A normal male and an albino female have six children, all normal. (c) A normal male and an albino female have six children, three normal and three albino. (d) Construct a pedigree of the families in (b) and (c). Assume that one of the normal children in (b) and one of the albino children in (c) become the parents of eight children. Add these children to the pedigree, predicting their phenotypes (normal or albino).

The basis for rejecting any null hypothesis is arbitrary. The researcher can set more or less stringent standards by deciding to raise or lower the \(p\) value used to reject or not reject the hypothesis. In the case of the chi- square analysis of genetic crosses, would the use of a standard of \(p=0.10\) be more or less stringent about not rejecting the null hypothesis? Explain.

Two true-breeding pea plants were crossed. One parent is round, terminal, violet, constricted, while the other expresses the respective contrasting phenotypes of wrinkled, axial, white, full. The four pairs of contrasting traits are controlled by four genes, each located on a separate chromosome. In the \(\mathrm{F}_{1}\) only round, axial, violet, and full were expressed. In the \(\mathrm{F}_{2},\) all possible combinations of these traits were expressed in ratios consistent with Mendelian inheritance. (a) What conclusion about the inheritance of the traits can be drawn based on the \(\mathrm{F}_{1}\) results? (b) In the \(\mathrm{F}_{2}\) results, which phenotype appeared most frequently? Write a mathematical expression that predicts the probability of occurrence of this phenotype. (c) Which \(\mathrm{F}_{2}\) phenotype is expected to occur least frequently? Write a mathematical expression that predicts this probability. (d) In the \(F_{2}\) generation, how often is either of the \(P_{1}\) phenotypes likely to occur? (e) If the \(F_{1}\) plants were testcrossed, how many different phenotypes would be produced? How does this number compare with the number of different phenotypes in the \(\mathrm{F}_{2}\) generation just discussed?
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