Targets multiple exon skipping with size difference of 147
Short product(s): 101
Long product(s): 248
Isoform sequences

Targets single exon skipping with size difference of 75
Short product(s): 101
Long product(s): 176
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 143
Short product(s): 244
Long product(s): 387, 390
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 71
Short product(s): 244
Long product(s): 315
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 142
Short product(s): 173
Long product(s): 315
Isoform sequences

Targets intron retention with size difference of 598
Short product(s): 244
Long product(s): 931
Isoform sequences

Targets alternative donor with size difference of 142
Short product(s): 173, 245, 248
Long product(s): 315, 387, 390
Isoform sequences

Targets single exon skipping with size difference of 72
Short product(s): 101
Long product(s): 173
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 3
Short product(s): 173
Long product(s): 176
Isoform sequences

Targets alternative acceptor with size difference of 3
Short product(s): 173, 244, 245, 387
Long product(s): 176, 248, 390, 931
Isoform sequences

Targets multiple exon skipping with size difference of 143
Short product(s): 101
Long product(s): 244
Isoform sequences

Targets single exon skipping with size difference of 71
Short product(s): 173, 176
Long product(s): 244
Isoform sequences

Targets intron retention with size difference of 86
Short product(s): 244
Long product(s): 931
Isoform sequences

Targets intron retention with size difference of 127
Short product(s): 315, 387, 390
Long product(s): 931
Isoform sequences

Targets multiple exon skipping with size difference of 286
Short product(s): 101
Long product(s): 387
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 0
Short product(s): 173
Long product(s): 173
Isoform sequences

Targets single exon skipping with size difference of 214
Short product(s): 173, 176
Long product(s): 387, 390
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 71
Short product(s): 173
Long product(s): 244
Isoform sequences

Targets intron retention with size difference of 414
Short product(s): 245, 248, 387, 390
Long product(s): 931
Isoform sequences

Targets single exon skipping with size difference of 75
Short product(s): 173, 315
Long product(s): 248, 390
Isoform sequences

Targets intron retention with size difference of 269
Short product(s): 173, 245, 248
Long product(s): 931
Isoform sequences

Targets single exon skipping with size difference of 72
Short product(s): 173, 315
Long product(s): 245, 387
Isoform sequences

Targets multiple exon skipping with size difference of 289
Short product(s): 101
Long product(s): 390
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 1
Short product(s): 244
Long product(s): 245, 248
Isoform sequences

Targets mutually exclusive exon skipping with size difference of 139
Short product(s): 176
Long product(s): 315
Isoform sequences

Targets single exon skipping with size difference of 72
Short product(s): 173, 176
Long product(s): 245, 248
Isoform sequences

Targets alternative acceptor with size difference of 489
Short product(s): 173, 315
Long product(s): 931
Isoform sequences

Targets alternative acceptor with size difference of 830
Short product(s): 101
Long product(s): 931
Isoform sequences

Targets multiple exon skipping with size difference of 144
Short product(s): 101
Long product(s): 245
Isoform sequences

Targets single exon skipping with size difference of 72
Short product(s): 101
Long product(s): 173
Isoform sequences

Targets intron retention with size difference of 755
Short product(s): 173, 176
Long product(s): 931
Isoform sequences

Targets single exon skipping with size difference of 214
Short product(s): 101
Long product(s): 315
Isoform sequences