Classical Genetics /
Genetic linkage is the tendency of certain loci or alleles to be inherited together. Genetic loci that are physically close to one another on the same chromosome tend to stay together during meiosis, and are thus genetically linked. At the beginning of normal meiosis, a chromosome pair (made up of a...
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Format: | software, multimedia |
Language: | eng |
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Delhi, India : White Word Publications,
2012
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Online Access: | http://repository.library.utm.my/id/eprint/3839 |
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author | Ibarra, Markus, author 648211 |
author_facet | Ibarra, Markus, author 648211 |
author_sort | Ibarra, Markus, author 648211 |
collection | OCEAN |
description | Genetic linkage is the tendency of certain loci or alleles to be inherited together. Genetic loci that are physically close to one another on the same chromosome tend to stay together during meiosis, and are thus genetically linked. At the beginning of normal meiosis, a chromosome pair (made up of a chromosome from the mother and a chromosome from the father) intertwine and exchange sections or fragments of chromosomes. The pair then breaks apart to form two chromosomes with a new combination of genes that differs from the combination supplied by the parents. Through this process of recombining genes, organisms can produce offspring with new combinations of maternal and paternal traits that may contribute to or enhance survival. This recombination of genes, called the crossing over of DNA, can cause alleles previously on the same chromosome to be separated and end up in different daughter cells. The further the two alleles are apart, the greater the chance that a cross-over event may occur between them, and the greater the chance that the alleles are separated. The relative distance between two genes can be calculated by taking the offspring of an organism showing two linked genetic traits, and finding the percentage of the offspring where the two traits do not run together. |
first_indexed | 2024-03-05T16:56:57Z |
format | software, multimedia |
id | KOHA-OAI-TEST:597329 |
institution | Universiti Teknologi Malaysia - OCEAN |
language | eng |
last_indexed | 2024-03-05T16:56:57Z |
publishDate | 2012 |
publisher | Delhi, India : White Word Publications, |
record_format | dspace |
spelling | KOHA-OAI-TEST:5973292023-09-04T12:47:30ZClassical Genetics / Ibarra, Markus, author 648211 software, multimedia Electronic books 631902 Delhi, India : White Word Publications,2012engGenetic linkage is the tendency of certain loci or alleles to be inherited together. Genetic loci that are physically close to one another on the same chromosome tend to stay together during meiosis, and are thus genetically linked. At the beginning of normal meiosis, a chromosome pair (made up of a chromosome from the mother and a chromosome from the father) intertwine and exchange sections or fragments of chromosomes. The pair then breaks apart to form two chromosomes with a new combination of genes that differs from the combination supplied by the parents. Through this process of recombining genes, organisms can produce offspring with new combinations of maternal and paternal traits that may contribute to or enhance survival. This recombination of genes, called the crossing over of DNA, can cause alleles previously on the same chromosome to be separated and end up in different daughter cells. The further the two alleles are apart, the greater the chance that a cross-over event may occur between them, and the greater the chance that the alleles are separated. The relative distance between two genes can be calculated by taking the offspring of an organism showing two linked genetic traits, and finding the percentage of the offspring where the two traits do not run together.Genetic linkage is the tendency of certain loci or alleles to be inherited together. Genetic loci that are physically close to one another on the same chromosome tend to stay together during meiosis, and are thus genetically linked. At the beginning of normal meiosis, a chromosome pair (made up of a chromosome from the mother and a chromosome from the father) intertwine and exchange sections or fragments of chromosomes. The pair then breaks apart to form two chromosomes with a new combination of genes that differs from the combination supplied by the parents. Through this process of recombining genes, organisms can produce offspring with new combinations of maternal and paternal traits that may contribute to or enhance survival. This recombination of genes, called the crossing over of DNA, can cause alleles previously on the same chromosome to be separated and end up in different daughter cells. The further the two alleles are apart, the greater the chance that a cross-over event may occur between them, and the greater the chance that the alleles are separated. The relative distance between two genes can be calculated by taking the offspring of an organism showing two linked genetic traits, and finding the percentage of the offspring where the two traits do not run together.Animal geneticshttp://repository.library.utm.my/id/eprint/3839URN:ISBN:9788132341055Remote access restricted to users with a valid UTM ID via VPN |
spellingShingle | Animal genetics Ibarra, Markus, author 648211 Classical Genetics / |
title | Classical Genetics / |
title_full | Classical Genetics / |
title_fullStr | Classical Genetics / |
title_full_unstemmed | Classical Genetics / |
title_short | Classical Genetics / |
title_sort | classical genetics |
topic | Animal genetics |
url | http://repository.library.utm.my/id/eprint/3839 |
work_keys_str_mv | AT ibarramarkusauthor648211 classicalgenetics |