1	embl_acc	European Nucleotide Archive (was EMBL) accession	\N
2	status	Status	\N
3	synonym	Synonym	\N
4	name	Name	Alternative/long name
5	type	Type of feature	\N
6	toplevel	Top Level	Top Level Non-Redundant Sequence Region
7	GeneCount	Gene Count	Total Number of Genes
8	KnownGeneCount	Known Gene Count	Total Number of Known Genes
9	PseudoGeneCount	PseudoGene Count	Total Number of PseudoGenes
10	SNPCount	Short Variants	Total Number of SNPs
11	codon_table	Codon Table	Alternate codon table
12	_selenocysteine	Selenocysteine	\N
13	bacend	bacend	\N
14	htg	htg	High Throughput phase attribute
15	miRNA	Micro RNA	Coordinates of the mature miRNA
16	non_ref	Non Reference	Non Reference Sequence Region
17	sanger_project	Sanger Project name	\N
18	clone_name	Clone name	\N
19	fish	FISH location	\N
21	org	Sequencing centre	\N
22	method	Method	\N
23	superctg	Super contig id	\N
24	inner_start	Max start value	\N
25	inner_end	Min end value	\N
26	state	Current state of clone	\N
27	organisation	Organisation sequencing clone	\N
28	seq_len	Accession length	\N
29	fp_size	FP size	\N
30	BACend_flag	BAC end flags	\N
31	fpc_clone_id	fpc clone	\N
32	KnwnPCCount	protein_coding_KNOWN	Number of Known Protein Coding
33	NovPCCount	protein_coding_NOVEL	Number of Novel Protein Coding
34	NovPTCount	processed_transcript_NOVEL	Number of Novel Processed Transcripts
35	PutPTCount	processed_transcript_PUTATIVE	Number of Putative Processed Transcripts
36	PredPCCount	protein_coding_PREDICTED	Number of Predicted Protein Coding
37	IGGeneCount	IG_gene	Number of IG Genes
38	IGPsGenCount	IG_pseudogene	Number of IG Pseudogenes
39	TotPsCount	total_pseudogene	Total Number of Pseudogenes
42	KnwnPCProgCount	protein_coding_in_progress_KNOWN	Number of Known Protein Coding in progress
43	NovPCProgCount	protein_coding_in_progress_NOVEL	Number of Novel Protein Coding in progress
44	AnnotSeqLength	Annotated sequence length	Annotated Sequence
45	TotCloneNum	Total number of clones	Total Number of Clones
46	NumAnnotClone	Fully annotated clones	Number of Fully Annotated Clones
47	ack	Acknowledgement	Acknowledgement for manual annotation
48	htg_phase	High throughput phase	High throughput genomic sequencing phase
49	description	Description	A general descriptive text attribute
50	chromosome	Chromosome	Chromosomal location for supercontigs that are not assembled
51	nonsense	Nonsense Mutation	Strain specific nonesense mutation
52	author	Author	Group resonsible for Vega annotation
53	author_email	Author email address	Author email address
54	remark	Remark	Annotation remark
55	transcr_class	Transcript class	Transcript class
56	KnwnPTCount	processed_transcript_KNOWN	Number of Known Processed Transcripts
57	ccds	CCDS	CCDS identifier
58	CCDS_PublicNote	CCDS Public Note	Public Note for CCDS identifier, provided by http://www.ncbi.nlm.nih.gov/CCDS
59	Frameshift	Frameshift	Frameshift modelled as intron
60	PTCount	processed_transcript	Number of Processed Transcripts
61	PredPTCount	processed_transcript_PREDICTED	Number of Predicted Processed Transcripts
62	ncRNA	Structure	RNA secondary structure line
63	skip_clone	skip clone  Skip clone in align_by_clone_identity.pl	\N
64	coding_cnt	Coding genes	Number of protein coding Genes
65	GeneNo_novCod	novel protein_coding Gene Count	Number of novel protein_coding Genes
66	GeneNo_rRNA	rRNA Gene Count	Number of rRNA Genes
67	pseudogene_cnt	Pseudogenes	Number of pseudogenes
68	GeneNo_snRNA	snRNA Gene Count	Number of snRNA Genes
69	GeneNo_snoRNA	snoRNA Gene Count	Number of snoRNA Genes
70	GeneNo_miRNA	miRNA Gene Count	Number of miRNA Genes
71	GeneNo_mscRNA	misc_RNA Gene Count	Number of misc_RNA Genes
72	GeneNo_scRNA	scRNA Gene Count	Number of scRNA Genes
73	GeneNo_MTrRNA	Mt_rRNA Gene Count	Number of Mt_rRNA Genes
74	GeneNo_MTtRNA	Mt_tRNA Gene Count	Number of Mt_tRNA Genes
75	GeneNo_RNA_pseu	RNA_pseudogene Gene Count	Number of RNA_pseudogene Genes
76	GeneNo_tRNA	tRNA Gene Count	Number of tRNA Genes
77	GeneNo_rettran	retrotransposed Gene Count	Number of retrotransposed Genes
78	GeneNo_snlRNA	snlRNA Gene Count	Number of snlRNA Genes
79	GeneNo_proc_tr	processed_transcript Gene Count	Number of processed transcript Genes
80	supercontig	SuperContig name	\N
81	well_name	Well plate name	\N
82	bacterial	Bacterial	\N
83	NovelCDSCount	Novel CDS Count	\N
84	NovelTransCount	Novel Transcript Count	\N
85	PutTransCount	Putative Transcript Count	\N
86	PredTransCount	Predicted Transcript Count	\N
87	UnclassPsCount	Unclass Ps count	\N
88	KnwnprogCount	Known prog Count	\N
89	NovCDSprogCount	Novel CDS prog count	\N
90	bacend_well_nam	BACend well name	\N
91	alt_well_name	Alt well name	\N
92	TranscriptEdge	Transcript Edge	\N
93	alt_embl_acc	Alt European Nucleotide Archive (was EMBL) acc	\N
94	alt_org	Alt org	\N
95	intl_clone_name	International Clone Name	\N
96	embl_version	European Nucleotide Archive (was EMBL) Version	\N
97	chr	Chromosome Name	Chromosome Name Contained in the Assembly
98	equiv_asm	Equivalent EnsEMBL assembly	For full chromosomes made from NCBI AGPs
99	GeneNo_ncRNA	ncRNA Gene Count	Number of ncRNA Genes
100	GeneNo_Ig	Ig Gene Count	Number of Ig Genes
109	HitSimilarity	hit similarity	percentage id to parent transcripts
110	HitCoverage	hit coverage	coverage of parent transcripts
111	PropNonGap	proportion non gap	proportion non gap
112	NumStops	number of stops	\N
113	GapExons	gap exons	number of gap exons
114	SourceTran	source transcript	source transcript
115	EndNotFound	end not found	end not found
116	StartNotFound	start not found	start not found
117	Frameshift Fra	Frameshift modelled as intron	\N
118	ensembl_name	Ensembl name	Name of equivalent Ensembl chromosome
119	NoAnnotation	NoAnnotation	Clones without manual annotation
120	hap_contig	Haplotype contig	Contig present on a haplotype
121	annotated	Clone Annotation Status	\N
122	keyword	Clone Keyword	\N
123	hidden_remark	Hidden Remark	\N
124	mRNA_start_NF	mRNA start not found	\N
125	mRNA_end_NF	mRNA end not found	\N
126	cds_start_NF	CDS start not found	\N
127	cds_end_NF	CDS end not found	\N
128	write_access	Write access for Sequence Set	1 for writable , 0 for read-only
129	hidden	Hidden Sequence Set	\N
130	vega_name	Vega name	Vega seq_region.name
131	vega_export_mod	Export mode	E (External), I (Internal) etc
132	vega_release	Vega release	Vega release number
133	atag_CLE	Clone_left_end	Clone_lef_end feature marked in GAP database
134	atag_CRE	Clone_right_end	Clone_right_end feature marked in GAP database
135	atag_Misc	Misc	miscellaneous feature marked in GAP database
136	atag_Unsure	Unsure	region of uncertain DNA sequence marked in GAP database
137	MultAssem	Multiple Assembled seq region	Part of Seq Region is part of more than one assembly
140	wgs	WGS contig	WGS contig integrated into the map
141	bac	AGP clones	tiling path of clones
142	GeneGC	Gene GC	Percentage GC content for this gene
143	TotAssemblyLeng	Finished sequence length	Length of the assembly not counting sequence gaps
144	amino_acid_sub	Amino acid substitution	Some translations have been manually curated for amino acid substitiutions. For example a stop codon may be changed to an amino acid in order to prevent premature truncation, or one amino acid can be substituted for another.
145	_rna_edit	rna_edit	RNA edit
146	kill_reason	Kill Reason	Reason why a transcript has been killed
147	strip_UTR	Strip UTR	Transcript needs bad UTR removing
148	TotAssLength	Finished sequence length	Finished Sequence
149	PsCount	pseudogene	Number of Pseudogenes
152	TotPTCount	total_processed_transcript	Total Number of Processed Transcripts
153	TotPCCount	total_protein_coding	Total Number of Protein Coding
154	NovNcCount	novel_non_coding	Number of Novel Non Coding
155	KnwnPolyPsCount	known_polymorphic	Number of Known Polymorphic Pseudogenes
156	PolyPsCount	polymorphic_pseudogene	Number of Polymorphic Pseudogenes
157	TotIGGeneCount	total_IG_gene	Total Number of IG Genes
158	ProcPsCount	proc_pseudogene	Number of Processed Pseudogenes
159	UnPsCount	unproc_pseudogene	Number of Unprocessed Pseudogenes
160	TPsCount	transcribed_pseudogene	Number of Transcribed Pseudogenes
161	TECCount	TEC	Number of TEC Genes
162	KnwnIGGeneCount	IG_gene_KNOWN	Number of Known IG Genes
163	KnwnIGPsGeCount	IG_pseudogene_KNOWN	Number of Known IG Pseudogenes
164	IsoPoint	Isoelectric point	Pepstats attributes
165	Charge	Charge	Pepstats attributes
166	MolecularWeight	Molecular weight	Pepstats attributes
167	NumResidues	Number of residues	Pepstats attributes
168	AvgResWeight	Ave. residue weight	Pepstats attributes
170	initial_met	Initial methionine	Set first amino acid to methionine
171	NonGapHCov	NonGapHCov	\N
172	otter_support	otter support	Evidence ID that was used as supporting feature for building a gene in Vega
173	enst_link	enst link	Code to link a OTTT with an ENST when they both share the CDS of ENST
174	upstream_ATG	upstream ATG	Alternative ATG found upstream of the defined as start ATG for the transcript
175	TPPsCount	transcribed_processed_pseudogene	Number of Transcribed Processed Pseudogenes
176	TUPsCount	transcribed_unprocessed_pseudogene	Number of Transcribed Unprocessed Pseudogenes
177	UniPsCount	unitary_pseudogene	Number of Unitary Pseudogenes
178	KnwnTECCount	TEC_KNOWN	Number of Known TEC genes
179	TotTECGeneCount	TEC_all	Total number of TEC genes
180	TUyPsCount	transcribed_unitary_pseudogene	Number of Transcribed Unitary Pseudogenes
181	PolyCount	polymorphic	Number of Polymorphic Genes
182	KnwnPolyCount	polymorphic	Number of Known Polymorphic Genes
183	KnwnTRCount	TR_gene_known	Number of Known TR Genes
184	TRGeneCount	TR_gene	Number of TR Genes
185	TRPsCount	TR_pseudo	Number of TR Pseudogenes
186	tp_ott_support	otter protein transcript support	Evidence ID that was used as supporting feature for building a gene in Vega
187	td_ott_support	otter dna transcript support	Evidence ID that was used as supporting feature for building a gene in Vega
188	ep_ott_support	otter protein exon support	Evidence ID that was used as supporting feature for building a gene in Vega
189	ed_ott_support	otter dna exon support	Evidence ID that was used as supporting feature for building a gene in Vega
190	GeneNo_lincRNA	lincRNA Gene Count	Number of lincRNA Genes
191	StopGained	SNP causes stop codon to be gained	This transcript has a variant that causes a stop codon to be gained in at least 10 percent of a HapMap population
192	StopLost	SNP causes stop codon to be lost	This transcript has a variant that causes a stop codon to be lost in at least 10 percent of a HapMap population
193	GeneNo_class_I_	class_I_RNA Gene Count	Number of class_I_RNA Genes
194	GeneNo_SRP_RNA	SRP_RNA Gene Count	Number of SRP_RNA Genes
195	GeneNo_class_II	class_II_RNA Gene Count	Number of class_II_RNA Genes
196	GeneNo_P_RNA	RNase_P_RNA Gene Count	Number of RNase_P_RNA Genes
197	GeneNo_RNase_MR	RNase_MRP_RNA Gene Count	Number of RNase_MRP_RNA Genes
198	lost_frameshift	lost_frameshift	Frameshift on the query sequence is lost in the target sequence
199	AltThreePrime	Alternate three prime end	The position of other possible three prime ends for the transcript
216	GeneInLRG	Gene in LRG	This gene is contained within an LRG region
217	GeneOverlapLRG	Gene overlaps LRG	This gene is partially overlapped by a LRG region (start or end outside LRG)
218	readthrough_tra	readthrough transcript	Havana readthrough transcripts
300	CNE	Constitutive exon	An exon that is always included in the mature mRNA, even in different mRNA isoforms
301	CE	Cassette exon	One exon is spliced out of the primary transcript together with its flanking introns
302	IR	Intron retention	A sequence is spliced out as an intron or remains in the mature mRNA transcript
303	MXE	Mutually exclusive exons	In the simpliest case, one or two consecutive exons are retained but not both
304	A3SS	Alternative 3' sites	Two or more splice sites are recognized at the 5' end of an exon. An alternative 3' splice junction (acceptor site) is used, changing the 5' boundary of the downstream exon
305	A5SS	Alternative 5' sites	Two or more splice sites are recognized at the 3' end of an exon. An alternative 5' splice junction (donor site) is used, changing the 3' boundary of the upstream exon
306	AFE	Alternative first exon	The second exons of each variant have identical boundaries, but the first exons do not overlap
307	ALE	Alternative last exon	Penultimate exons of each splice variant have identical boundaries, but the last exons do not overlap
308	II	Intron isoform	Alternative donor or acceptor splice sites lead to truncation or extension of introns, respectively
309	EI	Exon isoform	Alternative donor or acceptor splice sites leads to truncation or extension of exons, respectively
310	AI	Alternative initiation	Alternative choice of promoters
311	AT	Alternative termination	Alternative choice of polyadenylation sites
312	patch_fix	Assembly Patch Fix	Assembly patch that will, in the next assembly release, replace the corresponding sequence found in the current assembly
313	patch_novel	Assembly Patch Novel	Assembly patch that will, in the next assembly release, be retained as an alternate non-reference sequence in a similar way to haplotypes
314	LRG	Locus Reference Genomic	Locus Reference Genomic sequence
315	NoEvidence	Evidence for transcript removed	Supporting evidence for this projected transcript has been removed
316	circular_seq	Circular sequence	Circular chromosome or plasmid molecule
317	external_db	External database	External database to which seq_region name may be linked
318	split_tscript	split_tscript	split_tscript
319	Threep	Three prime end	Alternate three prime end
320	gene_cluster	Gene cluster	Havana annotated gene cluster
328	_rib_frameshift	Ribosomal Frameshift	Position and magnitude of frameshift
345	vega_ref_chrom	Vega reference chromosome	Haplotypes reference a regular chromosome (indicated in the value of the attribute)
346	PutPCCount	protein_coding_PUTATIVE	Number of Putative Protein Coding
347	proj_alt_seq	Projection altered sequence	Projected sequence differs from original
348	hav_gene_type	Havana gene biotype	Gene biotype assigned by Havana
349	GeneNo_asense	antisense Gene Count	Number of antisense Genes
350	GeneNo_sense_in	sense_intronic Gene Count	Number of sense_intronic Genes
351	GeneNo_amb_orf	ambiguous_orf Gene Count	Number of ambiguous_orf Genes
352	GeneNo_ret_int	retained_intron Gene Count	Number of retained_intron Genes
353	noncoding_cnt	Non coding gene count	Number of non coding genes
354	GeneNo_ncrna_h	ncrna_host Gene Count	Number of ncrna_host Genes
355	GeneNo_sens_ov	sense_overlapping Gene Count	Number of sense_overlapping Genes
356	GeneNo_3prime	3prime_overlapping Gene Count	Number of 3prime_overlapping Genes
357	GeneNo_tmRNA	tmRNA Gene Count	Number of tmRNA Genes
358	PHIbase_mutant	PHI-base mutant	PHI-base phenotype of the mutants
359	GeneNo_ribozyme	ribozyme Gene Count	Number of ribozyme Genes
360	ncrna_host	ncrna_host	Havana ncrna_host gene
361	peptide-class	Peptide classification	The classification of the gene or transcript based on alignment to NR (values: TE WH NH)
362	working-set	Working Gene Set	High-confidence set of genes, composed of evidence-based genes and non-overlapping protein-coding ab initio gene models
363	filtered-set	Filtered Gene Set v1	Working genes that are screened for TE content and orthology with sorghum and rice.
364	super-set	Super Working Gene Set	Set of all working gene set loci from both Builds 4a and 5a
365	projected4a2	Projected by alignment	Temporary (Monday, August 23, 2010)
366	merged	Merged species	\N
367	karyotype_rank	Rank in the karyotype	For a given seq_region, if it is part of the species karyotype, will indicate its rank
368	noncoding_acnt	Alternate non coding gene count	Number of non coding genes on alternate sequences
369	coding_acnt	Coding genes	Number of protein coding genes on alternate sequences
370	pseudogene_acnt	Pseudogenes	Number of pseudogenes on alternate sequences
371	clone_end	Clone end	Side of the contig on which a vector lies (enum:RIGHT, LEFT).
372	contig_scaffold	Contig Scaffold	Scaffold that contains mutually ordered contigs.
373	current_version	Current Accession Version	Identifies the most recent version of an accession.
374	seq_status	Sequence Status	Sequence status.
375	clone_vector	Vector sequence	A clone-end vector associated with a contig (enum:SP6, T7).
376	creation_date	Creation date	Creation date of annotation
377	update_date	Update date	Last update date of annotation
378	seq_date	Sequence date	Sequence date
379	has_stop_codon	Contains stop codon	Translation attribute
380	havana_cv	Havana CV term	Controlled vocabulary terms from Havana
381	TlPPsCount	translated_processed_pseudogene	Number of Translated Processed Pseudogenes
382	NoTransRefError	No translations due to reference error	This gene is believed to include protein coding transcripts, but no transcript has a translation due to a reference assembly error making specifying the translation impossible.
383	parent_exon_key	parent_exon_key	The exon key to identify a projected transcript's parent transcript.
386	parent_sid	parent_sid	The parent stable ID to identify a projected transcript's parent transcript. For internal statistics use only since this method does not work in all cases.
387	snoncoding_acnt	Small non coding genes	Number of small non coding genes on alternate sequences
388	lnoncoding_acnt	Long non coding genes	Number of long non coding genes on alternate sequences
389	snoncoding_cnt	Small non coding genes	Number of small non coding genes
390	lnoncoding_cnt	Long non coding genes	Number of long non coding genes
391	TlUPsCount	translated_unprocessed_pseudogene	Number of Translated Unprocessed Pseudogenes
393	AFFYMETRIXCount	AFFYMETRIX Count	Total Number of AFFYMETRIX features
394	RFLPCount	RFLP Count	Total Number of RFLP features
395	xref_id	Xref ID	ID of associated database reference
396	vega_chr_type	Vega chrom type	Type of chromosome - haplotype, other, etc
397	GeneNo_MRP_RNA	MRP_RNA Gene Count	Number of MRP_RNA Genes
398	genscan	Genscan gene predictions	Number of prediction genes generated by Genscan
399	gsc	GSC gene prediction	Number of prediction genes generated by gsc
400	snap	Snap gene prediction	Number of prediction genes generated by Snap
401	fgenesh	FGENESH gene prediction	Number of prediction genes generated by FGENESH
402	genefinder	Genefinder gene prediction	Number of prediction genes generated by Genefinder
403	transcript_cnt	Gene transcripts	Number of transcripts
404	transcript_acnt	Gene transcripts	Number of transcripts on the alternate sequences
405	ref_length	Golden Path Length	Length of the primary assembly
406	total_length	Base Pairs	Total length of the assembly
407	refseq_compare	refseq_compare	This attribute can be applied to both gene and transcript. It is supposed to give an indication of whether the annotation in the ensembl database is matched by annotation that we have imported from refseq. At the gene level, the match is unlikely to be an exact match because all or some of the transcripts may differ. Also, the biotype e.g. coding potential may differ. therefore, matching is a bit fuzzy and is done primarily on genomic location and then also takes gene length and gene name into consideration.
408	coding_rcnt	Readthrough coding genes	Number of readthrough coding genes
409	coding_racnt	Readthrough coding genes	Number of readthrough coding genes on alternate sequences
410	lnoncoding_racnt	Readthrough long non coding genes	Number of readthrough long non coding genes on alternate sequences
411	snoncoding_racnt	Readthrough small non coding genes	Number of readthrough small non coding genes on alternate sequences
412	snoncoding_rcnt	Readthrough small non coding genes	Number of readthrough small non coding genes
413	lnoncoding_rcnt	Readthrough long non coding genes	Number of readthrough long non coding genes
414	pseudogene_rcnt	Readthrough pseudogenes	Number of readthrough pseudogenes
415	pseudogene_racnt	Readthrough pseudogenes	Number of readthrough pseudogenes on alternate sequences
416	gencode_level	GENCODE annotation level	level 1 (verified loci), level 2 (manually annotated loci), level 3 (automatically annotated loci)
417	gencode_basic	GENCODE basic annotation	GENCODE Basic is a view provided by UCSC for users. It includes a subset of the GENCODE transcripts. In general, for protein coding genes it will show only the full length models (unless a protein coding genes has no full-length models, in which case other rules apply). For noncoding genes, it will also only show the full-length (mRNA start and end found) models (unless there are no full-length models, in which case other rules apply).
418	struct_var	Structural variants	Total Number of structural variants
419	genblast	GenBlastG gene predictions	Number of prediction genes generated by GenBlastG
420	syn_gene_pairs	Syntenic gene pairs	Syntenic gene relationship from Gramene pipeline
421	vectorbase_adar	VectorBase gene predictions	Number of prediction genes generated with MAKER, by VectorBase.
422	trnascan	tRNAscan-SE predictions	Number of predicted tRNA genes generated by tRNAscan-SE
423	tgac_pred_supp7	T. turgidum RNA-seq alignments	Number of T. turgidum RNA-seq alignments from Krasileva et al.
424	tgac_pred_supp17	T. aestivum RNA-seq alignments	Number of T. aestivum RNA-seq alignments from Krasileva et al.
425	genome_component	Genome Component Name	For polyploid genome, the genome component name the seq_region belongs to.
426	transcript_whl	RNA-seq transcripts	RNA-seq transcripts from EchinoBase
428	TSL	Transcript Support Level	Transcription Support Level (TSL) is a method to highlight the well-supported and poorly-supported transcript models for users. The method relies on the primary data that can support full-length transcript structure and data are provided by UCSC.  The following categories are assigned to each of the evaluated annotations. tsl1 - all splice junctions of the transcript are supported by at least one non-suspect mRNA. tsl2 - the best supporting mRNA is flagged as suspect or the support is from multiple ESTs. tsl3 - the only support is from a single EST. tsl4 - the best supporting EST is flagged as suspect. tsl5 - no single transcript supports the model structure. tslNA - the transcript was not analyzed for one of the following reasons: pseudogene annotation, including transcribed pseudogenes.Human leukocyte antigen (HLA) transcript. Immunoglobin gene transcript.  T-cell receptor transcript. Single-exon transcript (will be included in a future version)
429	protein_coverage	Protein Coverage	Protein coverage for this gene derived from geneTree in compara
430	consensus_coverage	Consensus Coverage	Consensus coverage for this gene derived from geneTree in compara
431	has_start_codon	Contains start codon	Translation attribute
432	appris_pi	APPRIS principal isoform	Transcript expected to code for the main functional isoform based on a range of protein features. APPRIS is a system that deploys a range of computational methods to provide value to the annotations of the human genome. http://appris.bioinfo.cnio.es/ http://nar.oxfordjournals.org/content/41/D1/D110.long. Icon is {APPRIS} in green.
433	appris_ci	APPRIS candidate principal isoform	APPRIS candidate principal isoform: Where there is no single 'appris_principal' variant the main functional isoform will be translated from one of the 'appris_candidate' genes. APPRIS is a system that deploys a range of computational methods to provide value to the annotations of the human genome. http://appris.bioinfo.cnio.es/ http://nar.oxfordjournals.org/content/41/D1/D110.long. Icon is {APPRIS} in amber.
434	appris_ci1	APPRIS candidate principal isoform (longest coding sequence)	APPRIS candidate principal isoform (longest coding sequence): Where there is no single 'appris_principal' variant the main functional isoform will be translated from one of the 'appris_candidate' genes. Where there is no 'appris_candidate_ccd' or 'appris_candidate_longest_ccds' variant, the longest protein of the 'appris_candidate' variants is selected as the primary variant. APPRIS is a system that deploys a range of computational methods to provide value to the annotations of the human genome. http://appris.bioinfo.cnio.es/ http://nar.oxfordjournals.org/content/41/D1/D110.long. Icon is {APPRIS*} in amber.
435	appris_ci2	APPRIS candidate principal isoform (longest CCDS)	APPRIS candidate principal isoform (longest CCDS): Where there is no single 'appris_principal' variant the main functional isoform will be translated from one of the 'appris_candidate' genes. When there are several 'appris_candidate' transcripts in CCDS, APPRIS labels the longest CCDS. APPRIS is a system that deploys a range of computational methods to provide value to the annotations of the human genome. http://appris.bioinfo.cnio.es/ http://nar.oxfordjournals.org/content/41/D1/D110.long. Icon is {APPRIS**} in amber.
436	appris_ci3	APPRIS candidate principal isoform (CCDS)	APPRIS candidate principal isoform (CCDS): Where there is no single 'appris_principal' variant the main functional isoform will be translated from one of the 'appris_candidate' genes. This 'appris_candidate' transcript is unique in being part of CCDS. APPRIS is a system that deploys a range of computational methods to provide value to the annotations of the human genome. http://appris.bioinfo.cnio.es/ http://nar.oxfordjournals.org/content/41/D1/D110.long. Icon is {APPRIS***} in amber.
