home / WtMTA

introns

Data license: ODbL · Data source: Larue & Roy, 2023 · About: Minor Intron Database (WtMTA)

id
INTEGER (primary key), globally unique identifier for each intron
dinucleotide_pair
TEXT, terminal dinucleotide sequences of the intron
is_minor
INTEGER, indicates if the intron is a minor intron (1) or not (0)
score
REAL, score representing the probability (0-100%) of the intron being minor
length
INTEGER, length of the intron in base pairs
transcript_id
INTEGER (foreign key referencing transcripts(id)), parent transcript
ordinal_index
INTEGER, ordinal position of the intron within the transcript (e.g., 3 for the third intron)
start
INTEGER, start position of the intron in the genome
end
INTEGER, end position of the intron in the genome
taxonomy_id
INTEGER (foreign key referencing genomes(taxonomy_id)), NCBI taxonomy identifier for species
scored_motifs
TEXT, motifs scored for the intron
phase
INTEGER, phase of the intron in coding sequence (0, 1, or 2 or null for introns outside of coding sequence)
in_cds
INTEGER, indicates if the intron is within the coding sequence (1) or not (0; e.g., UTR introns)
relative_position
REAL, relative position of the intron within the transcript (as a percentage of coding length)

13 rows where transcript_id = 23361011

✎ View and edit SQL

This data as json, CSV (advanced)

Suggested facets: score, phase

id ▼ dinucleotide_pair is_minor score length transcript_id ordinal_index start end taxonomy_id scored_motifs phase in_cds relative_position
127148357 GT-AG 0 1.000000099473604e-05 158 rna-XM_021705342.1 23361011 1 213777626 213777783 Neomonachus schauinslandi 29088 AAG|GTGCGGGTGG...GTGCTCTTTCCC/AGTGGGCTTATG...CTTAG|GAG 0 1 2.074
127148358 GT-AG 0 1.000000099473604e-05 114 rna-XM_021705342.1 23361011 2 213777421 213777534 Neomonachus schauinslandi 29088 AAG|GTGAGGGCCC...TCTCCCTCCATG/GCAGCGCTGACC...TACAG|CCC 1 1 3.413
127148359 GT-AG 0 1.000000099473604e-05 914 rna-XM_021705342.1 23361011 3 213776326 213777239 Neomonachus schauinslandi 29088 ACG|GTGAGAGACC...CCCCCCTCTGCG/GCTGCGCCCACC...CCCAG|GTG 2 1 6.075
127148360 GT-AG 0 1.000000099473604e-05 77 rna-XM_021705342.1 23361011 4 213776140 213776216 Neomonachus schauinslandi 29088 ACG|GTGAGCGGCC...GCGCCCTCACCG/CGCGCCCTCACC...CCCAG|CAG 0 1 7.679
127148361 GT-AG 0 1.000000099473604e-05 527 rna-XM_021705342.1 23361011 5 213775496 213776022 Neomonachus schauinslandi 29088 CAG|GTGAGGCGGT...GCATCTTTCTCT/CCAGCGTGCATC...CTCAG|ATC 0 1 9.4
127148362 GT-AG 0 1.000000099473604e-05 165 rna-XM_021705342.1 23361011 6 213775253 213775417 Neomonachus schauinslandi 29088 CAG|GTACTGGGAT...TGCTCCCCAGTC/CCCAGTCGAACC...CACAG|GCC 0 1 10.547
127148363 GT-AG 0 1.000000099473604e-05 577 rna-XM_021705342.1 23361011 7 213774577 213775153 Neomonachus schauinslandi 29088 AAG|GTGAGGGGGT...CCCACCTTGACT/CCCACCTTGACT...CCTAG|GTG 0 1 12.004
127148364 GT-AG 0 1.000000099473604e-05 383 rna-XM_021705342.1 23361011 8 213773809 213774191 Neomonachus schauinslandi 29088 GCG|GTGAGCACGT...AGGGTCTGACCC/GAGGGTCTGACC...CACAG|CCC 1 1 17.667
127148365 GT-AG 0 1.000000099473604e-05 2353 rna-XM_021705342.1 23361011 9 213771360 213773712 Neomonachus schauinslandi 29088 TGG|GTGAGTGCCC...CTGTCCGCAGCC/CCTGTCCGCAGC...CGTAG|GTG 1 1 19.079
127148366 GT-AG 0 1.000000099473604e-05 465 rna-XM_021705342.1 23361011 10 213770755 213771219 Neomonachus schauinslandi 29088 AAG|GTGCCTGGGG...ACTTCCCTCTCT/CCCTCTCTCACA...AACAG|GCC 0 1 21.139
127148367 GT-AG 0 0.0029448795583799 216 rna-XM_021705342.1 23361011 11 213770461 213770676 Neomonachus schauinslandi 29088 CAG|GTACCTGGCT...TGCCCCTTCTCT/CCTAGGTCCACC...CCCAG|GTG 0 1 22.286
127148368 GT-AG 0 1.000000099473604e-05 307 rna-XM_021705342.1 23361011 12 213770037 213770343 Neomonachus schauinslandi 29088 AAG|GTGGGTGCCA...CCCTCCTTCCCC/GTGGGGCTGACC...TCCAG|GAG 0 1 24.007
127148369 GT-AG 0 1.000000099473604e-05 1240 rna-XM_021705342.1 23361011 13 213768582 213769821 Neomonachus schauinslandi 29088 CAG|GTCAGCCCCT...GCCGGCCTGACG/GCCGGCCTGACG...TGCAG|ACA 2 1 27.17

Advanced export

JSON shape: default, array, newline-delimited, object

CSV options:

CREATE TABLE "introns" (
"id" INTEGER,
  "dinucleotide_pair" TEXT,
  "is_minor" INTEGER,
  "score" REAL,
  "length" INTEGER,
  "transcript_id" INTEGER,
  "ordinal_index" INTEGER,
  "start" INTEGER,
  "end" INTEGER,
  "taxonomy_id" INTEGER,
  "scored_motifs" TEXT,
  "phase" INTEGER,
  "in_cds" INTEGER,
  "relative_position" REAL
  ,PRIMARY KEY ([id]),
   FOREIGN KEY([transcript_id]) REFERENCES [transcripts]([id]),
   FOREIGN KEY([taxonomy_id]) REFERENCES [genomes]([taxonomy_id])
);
CREATE INDEX [idx_introns_transcript_id]
    ON [introns] ([transcript_id]);
CREATE INDEX [idx_introns_taxonomy_id]
    ON [introns] ([taxonomy_id]);
CREATE INDEX [idx_introns_phase]
    ON [introns] ([phase]);
CREATE INDEX [idx_introns_is_minor]
    ON [introns] ([is_minor]);
CREATE INDEX [idx_introns_dinucleotide_pair]
    ON [introns] ([dinucleotide_pair]);
CREATE INDEX [idx_introns_score]
    ON [introns] ([score]);
CREATE INDEX [idx_introns_in_cds]
    ON [introns] ([in_cds]);
Powered by Datasette · Queries took 110.443ms · Data license: ODbL · Data source: Larue & Roy, 2023 · About: Minor Intron Database (WtMTA)