| Microexon ID | Vv_7:16144825-16144838:+ |
| Species | Vistis vinifera | Coordinates | 7:16144825..16144838 |
| Microexon Cluster ID | MEP35 |
| Size | 14 |
| Phase | 0 |
| Pfam Domain Motif | Tudor-knot |
| Structure of Microexon-tag (flanking exon, microexon, flanking exon sizes) | 48,14,46 |
| Microexon location in the Microexon-tag | 2 |
| Microexon-tag DNA Seq | AARGCTGARHTYCRRAAGAAKGARTGGARATAYTTYGTYCATTAYCTTGGTTGGAAYAAAAATTGGGATGAATGGGTWGGYRYKGAYCGYYTGWTGAARYWYACTGAR |
| Logo of Microexon-tag DNA Seq |  |
| Alignment of exons |  |
| Microexon DNA seq | GGATGGAATAAAAA |
| Microexon Amino Acid seq | GWNKN |
| Microexon-tag DNA Seq | AAGGCTGAATTTCGAAAGAAGGAGTGGAGATACTTTGTTCATTACCTTGGATGGAATAAAAATTGGGATGAATGGGTGGGGATGGACCGTCTGATGAAACATACTGAA |
| Microexon-tag Amino Acid Seq | KAEFRKKEWRYFVHYLGWNKNWDEWVGMDRLMKHTE |
| Microexon-tag spanning region | 16144571-16146456 |
| Microexon-tag prediction score | 0.9806 |
| Overlapped with the annotated transcript (%) | 100 |
| New Transcript ID | VIT_07s0129g01020.t01x |
| Reference Transcript ID | VIT_07s0129g01020.t01 |
| Gene ID | VIT_07s0129g01020 |
| Gene Name | NA |
| Transcript ID | VIT_07s0129g01020.t01 |
| Protein ID | VIT_07s0129g01020.t01 |
| Gene ID | VIT_07s0129g01020 |
| Gene Name | NA |
| Pfam domain motif | Tudor-knot |
| Motif E-value | 4.1e-11 |
| Motif start | 32 |
| Motif end | 82 |
| Protein seq | >VIT_07s0129g01020.t01 MGSSNTGVKDDSTTDADTSTGDLPASNSGTFSEGEKVLAYHGPRIYEAKVQKAEFRKKEWRYFVHYLGWNKNWDEWVGMD RLMKHTEENVLKQQALDKKQGAEKNPKSGRSAQAKPKSSTDAKVEKEDLKSYVARGKRRKSDSGIEKDNASTEKLVKIPI PATLKKQLVDDWDFVTQQDKLVKLPRIPNVDAILIKYLEYRIKKDGTMTDYVAEILNGLRSYFDRALPMMLLYKKERQQF QEAIYHPDLSPSTVYGAEHLLRLFVKLPELLACVNIEEETLIGMQQKFIDFLKFLQKNQSTFFLSAYEGSKSSEGSGRGK G* |
| CDS seq | >VIT_07s0129g01020.t01 ATGGGAAGCTCCAACACCGGAGTCAAGGACGACTCCACCACCGACGCCGACACGTCCACCGGCGACCTTCCGGCATCCAA TTCCGGCACCTTCTCTGAAGGTGAGAAGGTCCTCGCTTATCACGGGCCCCGCATCTACGAAGCGAAGGTCCAAAAGGCTG AATTTCGAAAGAAGGAGTGGAGATACTTTGTTCATTACCTTGGATGGAATAAAAATTGGGATGAATGGGTGGGGATGGAC CGTCTGATGAAACATACTGAAGAAAATGTTCTGAAGCAGCAGGCCCTTGACAAAAAACAAGGTGCAGAAAAGAATCCAAA ATCAGGGCGTTCAGCACAGGCGAAGCCAAAAAGCTCTACTGATGCAAAAGTGGAGAAGGAGGATCTCAAGAGCTACGTGG CTAGAGGGAAGAGGCGAAAAAGTGACTCTGGCATTGAGAAGGACAATGCATCAACAGAAAAGCTTGTCAAGATCCCAATT CCAGCGACACTAAAGAAGCAACTTGTTGATGATTGGGATTTTGTTACTCAGCAGGATAAGCTTGTTAAACTTCCGCGCAT TCCAAATGTCGATGCAATATTGATAAAGTATCTTGAGTACAGGATAAAGAAGGATGGCACGATGACTGATTATGTTGCAG AAATATTGAATGGGCTTCGATCTTACTTTGATAGAGCATTGCCAATGATGCTTTTATATAAAAAAGAGCGTCAACAATTT CAAGAAGCAATTTACCACCCTGATCTCTCTCCATCAACTGTATATGGCGCAGAGCATCTGCTGCGCCTCTTTGTTAAGTT GCCTGAGTTGTTAGCATGCGTGAACATCGAAGAGGAGACTTTGATTGGCATGCAGCAGAAATTCATTGACTTTCTCAAGT TTCTGCAGAAAAACCAGAGTACTTTCTTCCTTTCTGCCTACGAGGGCTCTAAATCTTCTGAAGGAAGTGGTAGGGGAAAA GGCTGA |
| Microexon DNA seq | GGATGGAATAAAAA |
| Microexon Amino Acid seq | GWNKN |
| Microexon-tag DNA Seq | AAGGCTGAATTTCGAAAGAAGGAGTGGAGATACTTTGTTCATTACCTTGGATGGAATAAAAATTGGGATGAATGGGTGGGGATGGACCGTCTGATGAAACATACTGAA |
| Microexon-tag Amino Acid seq | KAEFRKKEWRYFVHYLGWNKNWDEWVGMDRLMKHTE |
| Transcript ID | Vv.29301.1 |
| Gene ID | Vv.29301 |
| Gene Name | NA |
| Pfam domain motif | Tudor-knot |
| Motif E-value | 5.1e-11 |
| Motif start | 32 |
| Motif end | 82 |
| Protein seq | >Vv.29301.1 MGSSNTGVKDDSTTDADTSTGDLPASNSGTFSEGEKVLAYHGPRIYEAKVQKAEFRKKEWRYFVHYLGWNKNWDEWVGMD RLMKHTEENVLKQQALDKKQGAEKNPKSGRSAQAKPKSSTDAKVEKEDLKSYDGNGYPIKDTLVKSGDIDTNERELKVYS RQKKGPSNVVSQEPCPSSVARGKRRKSDSGIEKDNASTEKLVKIPIPATLKKQLVDDWDFVTQQDKLVKLPRIPNVDAIL IKYLEYRIKKDGTMTDYVAEILNGLRSYFDRALPMMLLYKKERQQFQEAIYHPDLSPSTVYGAEHLLRLFVKLPELLACV NIEEETLIGMQQKFIDFLKFLQKNQSTFFLSAYEGSKSSEGSGRGKG* |
| CDS seq | >Vv.29301.1 ATGGGAAGCTCCAACACCGGAGTCAAGGACGACTCCACCACCGACGCCGACACGTCCACCGGCGACCTTCCGGCATCCAA TTCCGGCACCTTCTCTGAAGGTGAGAAGGTCCTCGCTTATCACGGGCCCCGCATCTACGAAGCGAAGGTCCAAAAGGCTG AATTTCGAAAGAAGGAGTGGAGATACTTTGTTCATTACCTTGGATGGAATAAAAATTGGGATGAATGGGTGGGGATGGAC CGTCTGATGAAACATACTGAAGAAAATGTTCTGAAGCAGCAGGCCCTTGACAAAAAACAAGGTGCAGAAAAGAATCCAAA ATCAGGGCGTTCAGCACAGGCGAAGCCAAAAAGCTCTACTGATGCAAAAGTGGAGAAGGAGGATCTCAAGAGCTACGATG GTAATGGTTATCCTATTAAAGATACACTTGTTAAAAGTGGTGATATTGACACAAATGAAAGAGAATTAAAAGTGTATTCA AGGCAAAAGAAAGGACCTAGTAATGTCGTATCTCAAGAGCCTTGCCCTTCTTCAGTGGCTAGAGGGAAGAGGCGAAAAAG TGACTCTGGCATTGAGAAGGACAATGCATCAACAGAAAAGCTTGTCAAGATCCCAATTCCAGCGACACTAAAGAAGCAAC TTGTTGATGATTGGGATTTTGTTACTCAGCAGGATAAGCTTGTTAAACTTCCGCGCATTCCAAATGTCGATGCAATATTG ATAAAGTATCTTGAGTACAGGATAAAGAAGGATGGCACGATGACTGATTATGTTGCAGAAATATTGAATGGGCTTCGATC TTACTTTGATAGAGCATTGCCAATGATGCTTTTATATAAAAAAGAGCGTCAACAATTTCAAGAAGCAATTTACCACCCTG ATCTCTCTCCATCAACTGTATATGGCGCAGAGCATCTGCTGCGCCTCTTTGTTAAGTTGCCTGAGTTGTTAGCATGCGTG AACATCGAAGAGGAGACTTTGATTGGCATGCAGCAGAAATTCATTGACTTTCTCAAGTTTCTGCAGAAAAACCAGAGTAC TTTCTTCCTTTCTGCCTACGAGGGCTCTAAATCTTCTGAAGGAAGTGGTAGGGGAAAAGGCTGA |