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Science Biology Introduction to Genetic Analysis

The possible explaination of the presence of low density of ascospores at the edge of the colony plate. Introduction: The mutation is the change in the nucleotide sequence of the gene, which results in either the formation of a defective protein or no protein at all. The mutation can also alter the regulation of certain genes leading to their hyperactivity or hypoactivity.

The possible explaination of the presence of low density of ascospores at the edge of the colony plate. Introduction: The mutation is the change in the nucleotide sequence of the gene, which results in either the formation of a defective protein or no protein at all. The mutation can also alter the regulation of certain genes leading to their hyperactivity or hypoactivity.

Solution Summary: The author explains that the mutation in the colony producing sparse population is a receesive trait that when crossed with dominant wild type allele produces heterozygous colonies.

Introduction to Genetic Analysis

Introduction to Genetic Analysis

11th Edition

ISBN: 9781464109485

Author: Anthony J.F. Griffiths, Susan R. Wessler, Sean B. Carroll, John Doebley

Publisher: W. H. Freeman

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Inheritance and Mendelian Genetics

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Chapter 2, Problem 38P

Summary Introduction

To determine: The possible explaination of the presence of low density of ascospores at the edge of the colony plate.

Introduction: The mutation is the change in the nucleotide sequence of the gene, which results in either the formation of a defective protein or no protein at all. The mutation can also alter the regulation of certain genes leading to their hyperactivity or hypoactivity.

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Chapter 2, Problem 37P

Chapter 2, Problem 39P

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When two plants belonging to the same genus but different species are crossed, the F1 hybrid is more viable and has more ornate flowers. Unfortunately, this hybrid is sterile and can only be propagated by vegetative cuttings. Explain the sterility of the hybrid and what would have to occur for the sterility of this hybrid to be reversed.

Neurospora of genotype a + c are crossed withNeurospora of genotype + b +. (Here, + is shorthandfor the wild-type allele.) The following tetrads areobtained (note that the genotype of the four sporepairs in an ascus are listed, rather than listing alleight spores):a + c a b c + + c + b c a b + a + ca + c a b c a + c a b c a b + a b c+ b + + + + + b + + + + + + c + + ++ b + + + + a b + a + + + + c + b +137 141 26 25 2 3a. In how many cells has meiosis occurred to yieldthese data?b. Give the best genetic map to explain these results.Indicate all relevant genetic distances, both betweengenes and between each gene and the centromere.c. Diagram a meiosis that could give rise to oneof the three tetrads in the class at the far right inthe list

From a cross between e+ f+ g+ and e− f − g− strains ofNeurospora, recombination between these linkedgenes resulted in a few octads containing the followingordered set of spores:e+ f+ g+e+ f+ g+e+ f − g+e+ f − g+e− f − g−e− f − g−e− f − g−e− f − g−a. Where was recombination initiated?b. Did crossing-over occur between genes e and g?Explain.c. Why do you end up with 2 f+ : 6 f − but 4 e+: 4 e−and 4g+: 4g−?d. Could you characterize these unusual octads as MIor MII for any of the three genes involved?Explain.

Chapter 2 Solutions

Introduction to Genetic Analysis

Ch. 2 - Prob. 1P Ch. 2 - Prob. 2P Ch. 2 - Prob. 3P Ch. 2 - Prob. 4P Ch. 2 - Prob. 6P Ch. 2 - Prob. 7P Ch. 2 - Prob. 8P Ch. 2 - Prob. 9P Ch. 2 - Prob. 10P Ch. 2 - Prob. 11P

Ch. 2 - Prob. 12P Ch. 2 - Prob. 13P Ch. 2 - Prob. 14P Ch. 2 - Prob. 15P Ch. 2 - Prob. 16P Ch. 2 - Prob. 17P Ch. 2 - Prob. 18P Ch. 2 - Prob. 19P Ch. 2 - Prob. 20P Ch. 2 - Prob. 21P Ch. 2 - Prob. 22P Ch. 2 - Prob. 23P Ch. 2 - Prob. 24P Ch. 2 - Prob. 25P Ch. 2 - Prob. 26P Ch. 2 - Prob. 27P Ch. 2 - Prob. 28P Ch. 2 - Prob. 31P Ch. 2 - Prob. 32P Ch. 2 - Prob. 33P Ch. 2 - Prob. 34P Ch. 2 - Prob. 35P Ch. 2 - Prob. 36P Ch. 2 - Prob. 37P Ch. 2 - Prob. 38P Ch. 2 - Prob. 39P Ch. 2 - Prob. 40P Ch. 2 - Prob. 41P Ch. 2 - Prob. 42P Ch. 2 - Prob. 43P Ch. 2 - Prob. 44P Ch. 2 - Prob. 44.1P Ch. 2 - Prob. 44.2P Ch. 2 - Prob. 44.3P Ch. 2 - Prob. 44.4P Ch. 2 - Prob. 44.5P Ch. 2 - Prob. 44.6P Ch. 2 - Prob. 44.7P Ch. 2 - Prob. 44.8P Ch. 2 - Prob. 44.9P Ch. 2 - Prob. 44.10P Ch. 2 - Prob. 44.11P Ch. 2 - Prob. 44.12P Ch. 2 - Prob. 44.13P Ch. 2 - Prob. 44.14P Ch. 2 - Prob. 44.15P Ch. 2 - Prob. 45P Ch. 2 - Prob. 47P Ch. 2 - Prob. 48P Ch. 2 - Prob. 49P Ch. 2 - Prob. 50P Ch. 2 - Prob. 51P Ch. 2 - Prob. 52P Ch. 2 - Prob. 53P Ch. 2 - Prob. 56P Ch. 2 - Prob. 57P Ch. 2 - Prob. 58P Ch. 2 - Prob. 59P Ch. 2 - Prob. 60P Ch. 2 - Prob. 61P Ch. 2 - Prob. 62P Ch. 2 - Prob. 63P Ch. 2 - Prob. 64P Ch. 2 - Prob. 65P Ch. 2 - Prob. 66P Ch. 2 - Prob. 67P Ch. 2 - Prob. 68P Ch. 2 - Prob. 69P Ch. 2 - Prob. 70P Ch. 2 - Prob. 71P Ch. 2 - Prob. 72P Ch. 2 - Prob. 73P Ch. 2 - Prob. 74P Ch. 2 - Prob. 75P Ch. 2 - Prob. 76P Ch. 2 - Prob. 77P Ch. 2 - Prob. 78P Ch. 2 - Prob. 79P

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