234	<a href="https://www.ncbi.nlm.nih.gov/Structure/cdd/cdd.shtml">Conserved Domain Database</a> models.	CDD	1	{"type": "domain"}
27	Density of coding genes, calculated by dividing the chromosome into 150 "bins" and counting the genes in each. (For very short chromosomes, e.g. MT, some genes contribute to multiple bins.)	Coding genes (density)	1	\N
31	Dust is a program that identifies low-complexity sequences (regions of the genome with a biased distribution of nucleotides, such as a repeat). The Dust module is widely used with BLAST to prevent 'sticky' regions from determining false hits.	Low complexity (Dust)	1	\N
1	Protein coding genes annotated in <a href="http://www.ebi.ac.uk/ena/">ENA</a>	Genes	1	{"label_key": "[biotype]", "caption": "Genes", "colour_key": "[biotype]", "default": {"cytoview": "gene_label", "MultiBottom": "collapsed_label", "alignsliceviewbottom": "as_collapsed_label", "MultiTop": "gene_label", "contigviewbottom": "transcript_label", "contigviewtop": "gene_label"}, "name": "Genes", "key": "ensembl"}
18	Assembly gap feature annotated in ENA	Assembly gap (ENA)	1	\N
17	mRNA feature annotated in ENA	mRNA (ENA)	1	{"caption": "Genomic features", "key": "ena_features", "label_key": "[text_label] [display_label]", "multi_name": "Genomic features", "name": "Genomic features"}
255	<a href="http://www.cathdb.info/">CATH/Gene3D</a> families.	Gene3D	1	{"type": "domain"}
2	Cross-references attached by GenomeLoader	GenomeLoader cross-references	0	\N
261	\N	GOA annotation	0	\N
37	GO term derived transitively from a UniProt record	UniProt-derived GO term	0	\N
235	<a href="http://hamap.expasy.org/">HAMAP</a> families.	HAMAP	1	{"type": "domain"}
236	<a href="http://www.pantherdb.org/">PANTHER</a> families.	PANTHER	1	{"type": "domain"}
256	InterPro2GO mapping, defined by InterPro.	InterPro2GO mapping	0	\N
42	Density of long non-coding RNA genes, calculated by dividing the chromosome into 150 "bins" and counting the genes in each. (For very short chromosomes, e.g. MT, some genes contribute to multiple bins.)	Long non-coding genes (density)	1	\N
246	Intrinsically disordered regions predicted by <a href="http://protein.bio.unipd.it/mobidblite/">MobiDB lite</a>.	MobiDB lite	1	{"type": "feature"}
253	Coiled-coil regions predicted by <a rel="external" href="http://www.sciencemag.org/cgi/reprint/252/5009/1162">Ncoils</a>.	Coiled-coils (Ncoils)	1	{"type": "feature"}
40	Percentage of repetitive elements for top level sequences (such as chromosomes, scaffolds, etc.)	Repeats (percent)	1	\N
19	Percentage of G/C bases in the sequence.	GC content	1	\N
238	Protein domains and motifs from the <a rel="external" href="http://pfam.xfam.org">Pfam</a> database.	Pfam	1	{"type": "domain"}
257	Protein domains and motifs from the <a rel="external" href="http://prosite.expasy.org">PROSITE</a> profiles database.	PROSITE profiles	1	{"type": "domain"}
240	Protein domains and motifs from the <a rel="external" href="http://pir.georgetown.edu">PIR (Protein Information Resource)</a> Superfamily database.	PIRSF	1	{"type": "domain"}
242	Protein fingerprints (groups of conserved motifs) from the <a href="http://www.bioinf.manchester.ac.uk/dbbrowser/PRINTS/index.php">PRINTS</a> database.	Prints	1	{"type": "domain"}
41	Density of pseudogenes, calculated by dividing the chromosome into 150 "bins" and counting the genes in each. (For very short chromosomes, e.g. MT, some genes contribute to multiple bins.)	Pseudogenes (density)	1	\N
33	Repeats detected using the <a href="http://mips.helmholtz-muenchen.de/plant/recat/">MIPS Repeat Database</a> (REdat) using <a rel="external" href="http://www.repeatmasker.org">RepeatMasker</a>.	Repeats: REdat	1	\N
34	Repeats identified by <a rel="external" href="http://www.repeatmasker.org">RepeatMasker</a>, using the <a rel="external" href="http://www.girinst.org/repbase/">Repbase</a> library of repeat profiles.	Repeats: Repbase	1	\N
258	Protein domains and motifs from the <a rel="external" href="http://prosite.expasy.org">PROSITE</a> patterns database.	PROSITE patterns	1	{"type": "domain"}
251	Low complexity peptide sequences identified by <a rel="external" href="http://www.biology.wustl.edu/gcg/seg.html">Seg</a>.	Low complexity (Seg)	1	{"type": "feature"}
243	<a href="http://sfld.rbvi.ucsf.edu/">Structure-Function Linkage Database</a> families.	SFLD	1	{"type": "domain"}
39	Density of short non-coding RNA genes, calculated by dividing the chromosome into 150 "bins" and counting the genes in each. (For very short chromosomes, e.g. MT, some genes contribute to multiple bins.)	Short non-coding genes (density)	1	\N
247	Signal peptide cleavage sites predicted by <a rel="external" href="http://www.cbs.dtu.dk/services/SignalP">SignalP</a>.	Cleavage site (Signalp)	1	{"type": "feature"}
244	Protein domains and motifs from the <a rel="external" href="http://smart.embl-heidelberg.de">SMART</a> database.	SMART	1	{"type": "domain"}
248	Protein domains and motifs from the <a rel="external" href="http://supfam.org/SUPERFAMILY">SUPERFAMILY</a> database.	Superfamily	1	{"type": "domain"}
245	Protein domains and motifs from the <a rel="external" href="http://www.jcvi.org/cgi-bin/tigrfams/index.cgi">TIGRFAM</a> database.	TIGRFAM	1	{"type": "domain"}
249	Transmembrane helices predicted by <a rel="external" href="http://www.cbs.dtu.dk/~krogh/TMHMM">TMHMM</a>.	Transmembrane helices	1	{"type": "feature"}
32	<a rel="external" href="https://tandem.bu.edu/trf/trf.html">Tandem Repeats Finder</a> locates adjacent copies of a pattern of nucleotides.	Tandem repeats (TRF)	1	\N
35	UniParc mapping based on sequence checksums	UniParc cross-reference	0	\N
36	UniProt cross-reference derived transitively from a UniParc identifier	UniParc-derived cross-reference	0	\N
38	Cross-reference derived transitively from a UniProt record	UniProt-derived cross-reference	0	\N
43	Cross references to UniProt Swiss-Prot (reviewed) proteins, determined by alignment against the proteome with <em>blastp</em>.	UniProt reviewed proteins	0	\N