Using RepeatMasker to Identify Repetitive Elements in Genomic Sequences

Tarailo‐Graovac, Maja; Chen, Nansheng

doi:10.1002/0471250953.bi0410s25

Cited by 2,058 publications

(1,508 citation statements)

References 7 publications

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“…To identify repeat sequences, we used RepeatMasker version open-4.0.1 [26,34,35] in default mode run with RMBLAST version 2.2.27+ against the customized library of M. acuminata repeats (1903 sequences) from Hřibová and colleagues [36,37]. This is the same library of banana-specific repeats used in the M. balbisiana genome re-sequencing project [12].…”

Section: Methodsmentioning

confidence: 99%

A Draft Genome Sequence for Ensete ventricosum, the Drought-Tolerant “Tree Against Hunger”

et al. 2014

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We present a draft genome sequence for enset (Ensete ventricosum) available via the Sequence Read Archive (accession number SRX202265) and GenBank (accession number AMZH01. Enset feeds 15 million people in Ethiopia, but is arguably the least studied African crop. Our sequence data suggest a genome size of approximately 547 megabases, similar to the 523-megabase genome of the closely related banana (Musa acuminata). At least 1.8% of the annotated M. acuminata genes are not conserved in E. ventricosum. Furthermore, enset contains genes not present in banana, including reverse transcriptases and virus-like sequences as well as a homolog of the RPP8-like resistance gene. We hope that availability of genome-wide sequence data will stimulate and accelerate research on this important but neglected crop.

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Section: Methodsmentioning

confidence: 99%

A Draft Genome Sequence for Ensete ventricosum, the Drought-Tolerant “Tree Against Hunger”

et al. 2014

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“…Other noncoding RNAs, including microRNA (miRNA), small RNA (sRNA), and small nuclear RNA (snRNA), were analyzed by using the software Infernal (12) based on the Rfam database (6). Transposons were determined based on the Repbase transposable elements library or using RepeatMasker and RepeatProteinMasker (16). Tandem repeats were predicted using TRF software (2).…”

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confidence: 99%

Draft Genome Sequence of Serratia marcescens Strain LCT-SM213

et al. 2012

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“…RepeatMasker finds repetitive sequence by performing an alignment of the input sequence against a library of known repeats (Smit and Green, 2002;Tarailo-Graovac and Chen, 2009). …”

Section: Repeatmaskermentioning

confidence: 99%

BengaSaVex: A new computational genetic sequence extraction tool for DNA repeats

Oluwagbemi¹,

Imolorhe²,

Agozie³

2014

Afr. J. Biotechnol.

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The scourge of infectious diseases is one of the problems contending with humanity. All infectious diseases are caused by pathogens. A major problem in biological research is the creation of enormous and redundant amounts of genomic data. From this large volume of generated data, biologists select a subset of each sequence known as DNA nucleotide subsequences "words", for extended scientific analysis. Computational biology aids this pruning process by providing computerized tools to generate vital information with biological significance from these data. This research aimed to develop new tools for extracting DNA repeats from the gene sequences and also to perform a comparative analysis with existing tools having similar or closely-related functions. We were able to develop BengaSaVex (GBenga Samuel Victor genetic sequence extraction tool) and provide a sequential in-silico geneticsequence-filtering functionality to identify repeated DNA nucleotide subsequences within the genes of some microorganisms, evaluated the potential benefits and applications of identifying such repeated sequences, and finally, performed an in-silico comparative analysis between BengaSaVex and tandem repeat finder.

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Using RepeatMasker to Identify Repetitive Elements in Genomic Sequences

Cited by 2,058 publications

References 7 publications

A Draft Genome Sequence for Ensete ventricosum, the Drought-Tolerant “Tree Against Hunger”

A Draft Genome Sequence for Ensete ventricosum, the Drought-Tolerant “Tree Against Hunger”

Draft Genome Sequence of Serratia marcescens Strain LCT-SM213

BengaSaVex: A new computational genetic sequence extraction tool for DNA repeats

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