001/* 002 * BioJava development code 003 * 004 * This code may be freely distributed and modified under the 005 * terms of the GNU Lesser General Public Licence. This should 006 * be distributed with the code. If you do not have a copy, 007 * see: 008 * 009 * http://www.gnu.org/copyleft/lesser.html 010 * 011 * Copyright for this code is held jointly by the individual 012 * authors. These should be listed in @author doc comments. 013 * 014 * For more information on the BioJava project and its aims, 015 * or to join the biojava-l mailing list, visit the home page 016 * at: 017 * 018 * http://www.biojava.org/ 019 * 020 * Created on DATE 021 * 022 */ 023package org.biojava.nbio.core.sequence; 024 025 026//import java.util.logging.Logger; 027 028/** 029 * A gene contains a collection of Exon sequences 030 * @author Scooter Willis 031 */ 032public class ExonSequence extends DNASequence { 033 034 //private static final Logger log = Logger.getLogger(ExonSequence.class.getName()); 035 036 /** 037 * Need a parent gene sequence and the bioBegin and bioEnd. An Exon sequence doesn't actually imply what the 038 * protein coding sequence will be. This is a little difficult to model and have it make sense. 039 * A gene has a collection of Exon and Intron sequences where the Exon sequences will join up. A gene 040 * sequences has a collection of different possible isoform proteins based on the transcription rules. 041 * A TranscriptionSequence will contain CDSSequence where the CDSSequence will be contained in the ExonSequence. 042 * Thus a ExonSequence is the union of overlapping CDSSequences. 043 * @param parentGeneSequence 044 * @param bioBegin 045 * @param bioEnd 046 */ 047 public ExonSequence(GeneSequence parentGeneSequence, int bioBegin, int bioEnd) { 048 this.setParentSequence(parentGeneSequence); 049 setBioBegin(bioBegin); 050 setBioEnd(bioEnd); 051 052 } 053 054 @Override 055 public int getLength() { 056 return Math.abs(this.getBioEnd() - this.getBioBegin()) + 1; 057 } 058 059 060}