Novel methodologies for spectral classification of exon and intron sequences

Kwan, Hon Keung; Kwan, Benjamin Y. M.; Kwan, Jennifer

doi:10.1186/1687-6180-2012-50

Cited by 21 publications

(19 citation statements)

References 23 publications

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“…Here the circular mapping is adopted for exons and introns classifications. The exons classification (EXCLASS), introns classification (INCLASS) and the precision value are evaluated by the following three equations [22] ; EXCLASS = Where, NCEC, NCIC and TEIN are the number of correct exons and the number of correct introns classifications and the total number of exons and introns respectively. Equations (13) - (19) are applied to training and testing sequences downloaded from USCS Assembly database: Feb. 2009 (GRCh37/hg19) (Clade: Mammal, Genome: Human, Assembly: Feb.2009 (GRCh37/hg19), Group: Genes and Gene rediction Tracks, Track: UCSC Genes, Table: knownGene) [23] - [26] .…”

Section: Resultsmentioning

confidence: 99%

A Novel Circular Mapping Technique for Spectral Classification of Exons and Introns in Human DNA Sequences

Abo‐Zahhad¹,

Ahmed²,

Abd-Elrahman³

2014

IJITCS

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Signals that represent information may be classified into two forms: numeric and symbolic. Symbolic signals such as DNA symbolic sequences cannot be directly processed with digital signal processing (DSP) techniques. The only way to apply DSP in genomic field is the mapping of DNA symbolic sequences to numerical sequences. Hence, biological properties are reflected in a numerical domain. This opens a field to present a set of tools for solving genomic problems. In literature many techniques have been developed for numerical representation of DNA sequences. The main drawback of these techniques is that each nucleotide is represented by a numerical value depending on nucleotide type only ignoring its position in codon and DNA sequence. In this paper a new approach for DNA symbolic to numeric representation called Circular Mapping (CM) is introduced. It's based on graphical representation of DNA sequence that maps each nucleotide by a complex numerical value depending not only on nucleotide type but also on its position in codons. The main applications of this method are the gene prediction that aims to locate the protein-coding regions and the classification of exons and introns in DNA sequences. The proposed approach showed significant improvement in exons and introns classification as compared with the existing techniques. The efficiency of this method in classification depends on the right choice of the mapping angle () as indicated by the power spectral analysis results over the sequences of the human genome (GRch37/hg19).

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Section: Resultsmentioning

confidence: 99%

A Novel Circular Mapping Technique for Spectral Classification of Exons and Introns in Human DNA Sequences

Abo‐Zahhad¹,

Ahmed²,

Abd-Elrahman³

2014

IJITCS

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“…Eq. (3)) as introduced in (Abbasi et al, 2011;Kwan et al, 2012). Using this approach, we were able to successfully separate artefactual components from components of interest.…”

Section: Discussionmentioning

confidence: 96%

“…The component selection, however, remains difficult as it involves finding an appropriate threshold criterion for MI analysis. In this study, we introduce a novel approach by combining ICA and MI with the threshold criteria concept introduced by Abbasi and colleagues (Abbasi et al, 2011;Kwan et al, 2012). Consequently, it is possible to find a subset of components that jointly have maximal dependency on the ECG signal.…”

Section: Threshold Selectionmentioning

confidence: 98%

Time-frequency analysis of resting state and evoked EEG data recorded at higher magnetic fields up to 9.4T

Abbasi

Dammers

Warbrick

et al. 2015

Journal of Neuroscience Methods

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“…One can then define an optimum threshold MI thresh based on Gaussian variates to identify ICs attributed to brain activity (Abbasi et al, 2011;Kwan et al, 2012):…”

Section: Threshold Selectionmentioning

confidence: 99%

Rejecting deep brain stimulation artefacts from MEG data using ICA and mutual information

Abbasi

Hirschmann

Schmitz

et al. 2016

Journal of Neuroscience Methods

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Novel methodologies for spectral classification of exon and intron sequences

Cited by 21 publications

References 23 publications

A Novel Circular Mapping Technique for Spectral Classification of Exons and Introns in Human DNA Sequences

A Novel Circular Mapping Technique for Spectral Classification of Exons and Introns in Human DNA Sequences

Time-frequency analysis of resting state and evoked EEG data recorded at higher magnetic fields up to 9.4T

Rejecting deep brain stimulation artefacts from MEG data using ICA and mutual information

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