Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals
Many countries have launched genomic studies for aquatic farming animals since the Agriculture Ministry of America initiated genomic studies for five kinds of aquatic farming animals in 1997. At the end of 2005, genetic linkage maps of approximately 17 briny or limnetic farming animals have been pub...
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Kunming Institute of Zoology, Chinese Academy of Sciences
2007
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ftbiolineint:cria:bioline:zr:zr06076 2023-05-15T15:10:39+02:00 Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals CHANG Yu-mei, SUN Xiao-wen Origin of publication: China 2007-04-13 html http://www.bioline.org.br/abstract?id=zr06076 cn chi Kunming Institute of Zoology, Chinese Academy of Sciences http://www.zoores.ac.cn/; http://www.bioline.org.br/zr http://www.bioline.org.br/abstract?id=zr06076 Copyright 2006 Kunming Institute of Zoology, the Chinese Academy of Sciences Zoological Research (ISSN: 2095-8137) Vol 27 Num 5 Aquatic model animals Aquatic farming animals Genetic linkage map; QTL mapping AA 2007 ftbiolineint 2015-11-02T21:31:13Z Many countries have launched genomic studies for aquatic farming animals since the Agriculture Ministry of America initiated genomic studies for five kinds of aquatic farming animals in 1997. At the end of 2005, genetic linkage maps of approximately 17 briny or limnetic farming animals have been published. Of these 17 species, the rainbow trout and the Atlantic salmon have high-density linkage maps with over 1 000 markers; the tilapia, the channel catfish, the black tiger shrimp, the Japanese flounder and the European sea bass have middle-density linkage maps with 400-1 000 markers; the remaining 10 species, including the Thailand walking catfish, the Chinese Zhikong scallop, the common carp, the Japanese yellowtail amberjack and the American oyster, have low-density linkage maps with less than 400 markers. The framework and development of genetic linkage maps of aquatic farming animals facilitated QTL mapping associated with interesting economic traits, such as growth, resistance and development. However, QTL mapping was only studied preliminarily in a few species with middle or high density linkage maps, such as salmonids (the rainbow trout, the Atlantic salmon and the Arctic char), the tilapia, the channel catfish and the Japanese flounder. Genetic linkage maps with higher resolution and fine QTLs mapping are the keys to implementing genetic technology in interesting economic traits and also have the power to successfully carry out molecular marker or gene assistant selection breeding in aquatic farming animals. Other/Unknown Material Arctic Atlantic salmon Bioline International (Reference Center on Environmental Information, Brazil) Arctic |
institution |
Open Polar |
collection |
Bioline International (Reference Center on Environmental Information, Brazil) |
op_collection_id |
ftbiolineint |
language |
Chinese |
topic |
Aquatic model animals Aquatic farming animals Genetic linkage map; QTL mapping |
spellingShingle |
Aquatic model animals Aquatic farming animals Genetic linkage map; QTL mapping CHANG Yu-mei, SUN Xiao-wen Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals |
topic_facet |
Aquatic model animals Aquatic farming animals Genetic linkage map; QTL mapping |
description |
Many countries have launched genomic studies for aquatic farming animals since the Agriculture Ministry of America initiated genomic studies for five kinds of aquatic farming animals in 1997. At the end of 2005, genetic linkage maps of approximately 17 briny or limnetic farming animals have been published. Of these 17 species, the rainbow trout and the Atlantic salmon have high-density linkage maps with over 1 000 markers; the tilapia, the channel catfish, the black tiger shrimp, the Japanese flounder and the European sea bass have middle-density linkage maps with 400-1 000 markers; the remaining 10 species, including the Thailand walking catfish, the Chinese Zhikong scallop, the common carp, the Japanese yellowtail amberjack and the American oyster, have low-density linkage maps with less than 400 markers. The framework and development of genetic linkage maps of aquatic farming animals facilitated QTL mapping associated with interesting economic traits, such as growth, resistance and development. However, QTL mapping was only studied preliminarily in a few species with middle or high density linkage maps, such as salmonids (the rainbow trout, the Atlantic salmon and the Arctic char), the tilapia, the channel catfish and the Japanese flounder. Genetic linkage maps with higher resolution and fine QTLs mapping are the keys to implementing genetic technology in interesting economic traits and also have the power to successfully carry out molecular marker or gene assistant selection breeding in aquatic farming animals. |
format |
Other/Unknown Material |
author |
CHANG Yu-mei, SUN Xiao-wen |
author_facet |
CHANG Yu-mei, SUN Xiao-wen |
author_sort |
CHANG Yu-mei, SUN Xiao-wen |
title |
Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals |
title_short |
Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals |
title_full |
Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals |
title_fullStr |
Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals |
title_full_unstemmed |
Advancements in Genetic Linkage Maps and Quantitative Trait Locations of Aquatic Farming Animals |
title_sort |
advancements in genetic linkage maps and quantitative trait locations of aquatic farming animals |
publisher |
Kunming Institute of Zoology, Chinese Academy of Sciences |
publishDate |
2007 |
url |
http://www.bioline.org.br/abstract?id=zr06076 |
op_coverage |
Origin of publication: China |
geographic |
Arctic |
geographic_facet |
Arctic |
genre |
Arctic Atlantic salmon |
genre_facet |
Arctic Atlantic salmon |
op_source |
Zoological Research (ISSN: 2095-8137) Vol 27 Num 5 |
op_relation |
http://www.zoores.ac.cn/; http://www.bioline.org.br/zr http://www.bioline.org.br/abstract?id=zr06076 |
op_rights |
Copyright 2006 Kunming Institute of Zoology, the Chinese Academy of Sciences |
_version_ |
1766341630767398912 |