// tRNA N3
// other functional RNA N1
- out.append(">N1;" + s[i].getName() + "\n");
+ out.append(">N1;" + s[i].getName());
+ out.append(newline);
if (s[i].getDescription() == null)
{
out.append(s[i].getName() + " "
+ (s[i].getEnd() - s[i].getStart() + 1));
- out.append(is_NA ? " bases\n" : " residues\n");
+ out.append(is_NA ? " bases" : " residues");
+ out.append(newline);
}
else
{
- out.append(s[i].getDescription() + "\n");
+ out.append(s[i].getDescription());
+ out.append(newline);
}
}
else
if (useModellerOutput)
{
- out.append(">P1;" + s[i].getName() + "\n");
+ out.append(">P1;" + s[i].getName());
+ out.append(newline);
md = new ModellerDescription(s[i]);
- out.append(md.getDescriptionLine() + "\n");
+ out.append(md.getDescriptionLine());
+ out.append(newline);
}
else
{
- out.append(">P1;" + printId(s[i]) + "\n");
+ out.append(">P1;" + printId(s[i]));
+ out.append(newline);
if (s[i].getDescription() != null)
{
- out.append(s[i].getDescription() + "\n");
+ out.append(s[i].getDescription());
+ out.append(newline);
}
else
{
out.append(s[i].getName() + " "
- + (s[i].getEnd() - s[i].getStart() + 1) + " residues\n");
+ + (s[i].getEnd() - s[i].getStart() + 1) + " residues");
+ out.append(newline);
}
}
}
if (end < seq.length())
{
- out.append(seq.substring(start, end) + "\n");
+ out.append(seq.substring(start, end));
+ out.append(newline);
}
else if (start < seq.length())
{
- out.append(seq.substring(start) + "\n");
+ out.append(seq.substring(start));
+ out.append(newline);
}
}