Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing

Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing

<p>Abstract</p> <p>Background</p> <p>Bananas and plantains (<it>Musa </it>spp.) are grown in more than a hundred tropical and subtropical countries and provide staple food for hundreds of millions of people. They are seed-sterile crops propagated clonally an...

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Main Authors: Hřibová Eva, Neumann Pavel, Matsumoto Takashi, Roux Nicolas, Macas Jiří, Doležel Jaroslav
Format: Article
Language:English
Published: BMC 2010-09-01
Series:BMC Plant Biology
Online Access:http://www.biomedcentral.com/1471-2229/10/204
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spelling doaj-cb141a26ccd64cbe82165d5b982991442020-11-25T00:24:59ZengBMCBMC Plant Biology1471-22292010-09-0110120410.1186/1471-2229-10-204Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencingHřibová EvaNeumann PavelMatsumoto TakashiRoux NicolasMacas JiříDoležel Jaroslav<p>Abstract</p> <p>Background</p> <p>Bananas and plantains (<it>Musa </it>spp.) are grown in more than a hundred tropical and subtropical countries and provide staple food for hundreds of millions of people. They are seed-sterile crops propagated clonally and this makes them vulnerable to a rapid spread of devastating diseases and at the same time hampers breeding improved cultivars. Although the socio-economic importance of bananas and plantains cannot be overestimated, they remain outside the focus of major research programs. This slows down the study of nuclear genome and the development of molecular tools to facilitate banana improvement.</p> <p>Results</p> <p>In this work, we report on the first thorough characterization of the repeat component of the banana (<it>M. acuminata </it>cv. 'Calcutta 4') genome. Analysis of almost 100 Mb of sequence data (0.15× genome coverage) permitted partial sequence reconstruction and characterization of repetitive DNA, making up about 30% of the genome. The results showed that the banana repeats are predominantly made of various types of Ty1/<it>copia </it>and Ty3/<it>gypsy </it>retroelements representing 16 and 7% of the genome respectively. On the other hand, DNA transposons were found to be rare. In addition to new families of transposable elements, two new satellite repeats were discovered and found useful as cytogenetic markers. To help in banana sequence annotation, a specific <it>Musa </it>repeat database was created, and its utility was demonstrated by analyzing the repeat composition of 62 genomic BAC clones.</p> <p>Conclusion</p> <p>A low-depth 454 sequencing of banana nuclear genome provided the largest amount of DNA sequence data available until now for <it>Musa </it>and permitted reconstruction of most of the major types of DNA repeats. The information obtained in this study improves the knowledge of the long-range organization of banana chromosomes, and provides sequence resources needed for repeat masking and annotation during the <it>Musa </it>genome sequencing project. It also provides sequence data for isolation of DNA markers to be used in genetic diversity studies and in marker-assisted selection.</p> http://www.biomedcentral.com/1471-2229/10/204
collection DOAJ
language English
format Article
sources DOAJ
author Hřibová Eva
Neumann Pavel
Matsumoto Takashi
Roux Nicolas
Macas Jiří
Doležel Jaroslav
spellingShingle Hřibová Eva
Neumann Pavel
Matsumoto Takashi
Roux Nicolas
Macas Jiří
Doležel Jaroslav
Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing
BMC Plant Biology
author_facet Hřibová Eva
Neumann Pavel
Matsumoto Takashi
Roux Nicolas
Macas Jiří
Doležel Jaroslav
author_sort Hřibová Eva
title Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing
title_short Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing
title_full Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing
title_fullStr Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing
title_full_unstemmed Repetitive part of the banana (<it>Musa acuminata</it>) genome investigated by low-depth 454 sequencing
title_sort repetitive part of the banana (<it>musa acuminata</it>) genome investigated by low-depth 454 sequencing
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2010-09-01
description <p>Abstract</p> <p>Background</p> <p>Bananas and plantains (<it>Musa </it>spp.) are grown in more than a hundred tropical and subtropical countries and provide staple food for hundreds of millions of people. They are seed-sterile crops propagated clonally and this makes them vulnerable to a rapid spread of devastating diseases and at the same time hampers breeding improved cultivars. Although the socio-economic importance of bananas and plantains cannot be overestimated, they remain outside the focus of major research programs. This slows down the study of nuclear genome and the development of molecular tools to facilitate banana improvement.</p> <p>Results</p> <p>In this work, we report on the first thorough characterization of the repeat component of the banana (<it>M. acuminata </it>cv. 'Calcutta 4') genome. Analysis of almost 100 Mb of sequence data (0.15× genome coverage) permitted partial sequence reconstruction and characterization of repetitive DNA, making up about 30% of the genome. The results showed that the banana repeats are predominantly made of various types of Ty1/<it>copia </it>and Ty3/<it>gypsy </it>retroelements representing 16 and 7% of the genome respectively. On the other hand, DNA transposons were found to be rare. In addition to new families of transposable elements, two new satellite repeats were discovered and found useful as cytogenetic markers. To help in banana sequence annotation, a specific <it>Musa </it>repeat database was created, and its utility was demonstrated by analyzing the repeat composition of 62 genomic BAC clones.</p> <p>Conclusion</p> <p>A low-depth 454 sequencing of banana nuclear genome provided the largest amount of DNA sequence data available until now for <it>Musa </it>and permitted reconstruction of most of the major types of DNA repeats. The information obtained in this study improves the knowledge of the long-range organization of banana chromosomes, and provides sequence resources needed for repeat masking and annotation during the <it>Musa </it>genome sequencing project. It also provides sequence data for isolation of DNA markers to be used in genetic diversity studies and in marker-assisted selection.</p>
url http://www.biomedcentral.com/1471-2229/10/204
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