Textbook Question
Two parents plan to have three children. What is the probability that the children will be two girls and one boy?
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Ch. 2 - Transmission Genetics
Sanders3rd EditionGenetic Analysis: An Integrated ApproachISBN: 9780135564172
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Table of contents
- Ch. 1 - The Molecular Basis of Heredity, Variation, and Evolution64
- Ch. 2 - Transmission Genetics144
- Ch. 3 - Cell Division and Chromosome Heredity81
- Ch. 4 - Gene Interaction87
- Ch. 5 - Genetic Linkage and Mapping in Eukaryotes103
- Ch. 6 - Genetic Analysis and Mapping in Bacteria and Bacteriophages73
- Ch. 7 - DNA Structure and Replication71
- Ch. 8 - Molecular Biology of Transcription and RNA Processing79
- Ch. 9 - The Molecular Biology of Translation110
- Ch. 10 - Eukaryotic Chromosome Abnormalities and Molecular Organization100
- Ch. 11 - Gene Mutation, DNA Repair, and Homologous Recombination86
- Ch. 12 - Regulation of Gene Expression in Bacteria and Bacteriophage90
- Ch. 13 - Regulation of Gene Expression in Eukaryotes38
- Ch. 14 - Analysis of Gene Function via Forward Genetics and Reverse Genetics72
- Ch. 15 - Recombinant DNA Technology and Its Applications69
- Ch. 16 - Genomics: Genetics from a Whole-Genome Perspective49
- Ch. 17 - Organelle Inheritance and the Evolution of Organelle Genomes27
- Ch. 18 - Developmental Genetics43
- Ch. 19 - Genetic Analysis of Quantitative Traits66
- Ch. 20 - Population Genetics and Evolution at the Population, Species, and Molecular Levels105
Sanders3rd EditionGenetic Analysis: An Integrated ApproachISBN: 9780135564172Not the one you use?Change textbook
Chapter 2, Problem 6c
Consider the cross AaBbCC × AABbCc.
Use the forked-line method to predict the expected ratio of offspring phenotypes.
Verified step by step guidance1
Step 1: Break down the problem into individual gene pairs. For each gene pair, determine the possible genotypes and their probabilities. For example, for the Aa × AA cross, the possible offspring genotypes are AA and Aa, with probabilities of 1/2 and 1/2 respectively.
Step 2: Repeat the process for the Bb × Bb cross. The possible offspring genotypes are BB, Bb, and bb, with probabilities of 1/4, 1/2, and 1/4 respectively.
Step 3: Analyze the CC × Cc cross. The possible offspring genotypes are CC and Cc, with probabilities of 1/2 and 1/2 respectively.
Step 4: Use the forked-line method to combine the probabilities of each gene pair. Multiply the probabilities of each genotype across the three gene pairs to determine the overall probabilities for each combination of genotypes.
Step 5: Translate the genotypes into phenotypes based on dominance relationships for each gene. Group the offspring into phenotypic categories and sum the probabilities for each phenotype to predict the expected ratio of offspring phenotypes.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Forked-Line Method
The forked-line method is a visual tool used in genetics to predict the genotypic and phenotypic ratios of offspring from a genetic cross. It involves breaking down the inheritance of each gene independently and then combining the results to find the overall ratios. This method simplifies complex crosses by allowing for the systematic organization of possible allele combinations.
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Phenotype
A phenotype refers to the observable characteristics or traits of an organism, which result from the interaction of its genotype with the environment. In genetics, phenotypes can include physical traits like color, shape, and size, as well as behavioral traits. Understanding phenotypes is crucial for predicting the outcomes of genetic crosses, as they represent the traits that will be expressed in the offspring.
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Dihybrid Cross
A dihybrid cross involves two traits, each controlled by different genes, and examines the inheritance patterns of these traits simultaneously. In the given cross, AaBbCC × AABbCc, the presence of multiple alleles for two traits allows for a more complex analysis of offspring ratios. The expected phenotypic ratios from a dihybrid cross can often be predicted using the principles of independent assortment and segregation.
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Related Practice
Textbook Question
Consider the cross AaBbCC × AABbCc.
How many different gamete genotypes can each organism produce?
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Textbook Question
Consider the cross AaBbCC × AABbCc.
Use a Punnett square to predict the expected ratio of offspring phenotypes.
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Textbook Question
If a chi-square test produces a chi-square value of 7.83 with 4 degrees of freedom,
In what interval range does the P value fall?
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Textbook Question
If a chi-square test produces a chi-square value of 7.83 with 4 degrees of freedom,
Is the result sufficient to reject the chance hypothesis?
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Textbook Question
If a chi-square test produces a chi-square value of 7.83 with 4 degrees of freedom,
Above what chi-square value would you reject the chance hypothesis for an experiment with 7 degrees of freedom?
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