| Acc. |
TCMT55685 |
| Internal Acc. |
|
| Type |
TC/Unigene
|
| Annotation (Top 5 hits in Uniprot_trembl) |
Putative membrane protein ycf1 OS=Lotus japonicus E-value=0; Putative membrane protein ycf1 OS=Glycine max E-value=0; Putative membrane protein ycf1 OS=Phaseolus vulgaris E-value=0; Putative membrane protein ycf1 OS=Liriodendron tulipifera E-value=0; Putative membrane protein ycf1 OS=Morus indica E-value=0; |
| Length |
5179 nt |
| Species |
Medicago truncatula |
| Belonged EST Libraries |
MT_TRI (58 ESTs); MT_GESD (27 ESTs); GLSD (10 ESTs); MT_DFLOWER (8 ESTs); MT_PhoLEAF (5 ESTs); MT_MGHG (5 ESTs); MT_GSEED (5 ESTs); MT_JCVI-MT1 (4 ESTs); MTGIM (4 ESTs); MT_Shoots (3 ESTs); MTAMP (2 ESTs); MT_JCVI-MT2 (2 ESTs); MTUS_MIXTISSUE (2 ESTs); MT_JAS_ROOR (1 ESTs); MT_DSLC (1 ESTs); MTFLOW (1 ESTs); MT_UV-B (1 ESTs); MT_Drought (1 ESTs); MT_CDS (1 ESTs); MT_DSIL (1 ESTs); MT_DROOT (1 ESTs); MT_SROOT_KV2 (1 ESTs); |
| Sequence |
TACGTAAATTTCGTATTACCAAAGTATTCTTTAACAATCTTTTTTTCCAGTTATCAAACC
CCTTGCTTTTCCCAAGTTCAATCTTACTAAGATTAATGAACATTTATCTCTTTCGATCCA
ACAATAAATTGTTATTCTTAACAAGTAGTTTTCTTGGTTGGTTAATTGGTCATATCTTTT
TGATGAAATGTATTGGATTGATATTATTAGTTTGGTCAAAGCAAAAAAATTCGATCAAAT
CTAAGTTAACTATGCGATTTGATAAGTACATTCTATTACAATTGCGAAATTATGTGGGTC
AAATATTTGTTGTTTTTTCATTTGTTATCGTTGTCCACTATTTAGGCAGAACACCGGTTC
CATATTTATATACTTATACTGATGAAATCTTAGAATACGACGAGAAACAAAAGGATGAAA
TCAATGGTGAAACAGAAATCGATGTTGAAATAGATTCGGAACAAGAACAAAACGGCTCCA
TCGAAGACGAAGAAGATATTCTTTCTTATCTTTTTCCGAAAAAAGATAAGACTTTGGAGA
ACATTGAGCAAGATAATAATCTCTTGGCATTGGAAAAACCTCTTGTAACTACTCTTTTCG
ATTATCGAAAATGGAATAGGCCATTGCGATATATAAAAAACGATCACTTTGAAAGAGTCG
TACGAGATGAAAATTCACAGTTTTTTTTTCATATATGTCAAAGTGATGGAAAAGAACGAA
TCTCTTTCACGTATCCACCTGATTTATCTAGTTTTCTGAAAATCATGGAAAAAAAAATGG
ATCTCTTCACAAAAGATAAAATCTCCTATAATGATAATGAATTGTCTAATTATTGGAGCT
CCAATAATAAAGAAAAAAGAAAGAAACTAAGCAATGAATTTTTTAAAAGGGCAAAAGTTC
TAGATAAGAAATATAAGAAATATAAGAAATTTATTCCTGTGGATGTATTTGAAAACCGAA
TTAGATTGTCTAATGATAAGAGGAAAATAAAATATTTAACTAAAATATATGATCCTTTCT
TGAATGGACCTTTTCGTGGACAAAGCTTTTCACCATCAATTCAAAATGAAACTTACACAA
CAAATTCCATTTTGATAAATAAGATTCATGGTCTCCTTCTTATTAATAGTAATTATCCAG
AATTTGATAATAGTAATTATCCAGAATTTGATAATAGTAATTATCCAGAATTTGAACAGA
AAATAGATCAATTTGATAGAAAATTTTTATTAACTGAAATTGGTTTTTTTTTTAACTTAA
TAAGTCAATTTTCGGAAAAATCCGTATCAAGTTTTAATTTTGACGGACTTTATTTATTTC
CAGAACATGAACAAGTAAAAATATATTCCGAAGAAAAAAAAAGAAAAAAAAAATTCTTAT
TCGAGGCAATTAGAACTGATCAGAACAACCAAACCATTTTTAATAGAAAGAAATGTACTG
GAATAAACGAAATCAGTAAACAAGTTCCTCGATGGTCATACGAGTTAATCGACGAATTGG
AGCAAATGACGGAAAGACTAACAAAAGAGTTTCAGATTCGTTCCGCAAAAGCCGAACGTA
TGGTAATTTTTAATGGGAATACAGATTCACTGACTTTGAATATTGGTCCTAGAAATGACA
ATGACGCTATTCCTGAAGTGGACCTAAATCACGAATTTTTTCTAGTAAATTTTTTACGCG
AACCAGATTTTGATCGAGATATAATTAAGGGATCTATGCGCCCTCTAAGGCGTAAAATAG
CGACAACGAAACTTTCTCAAGGAAATGCACAGCCCCATTCCCCCATTTTTTTGGAGATGA
TAGACCCATTATATTTTATTTTTGGTGATCTTTTCGATGATCTATCCCAAATTTTCAAAG
AAATGTTCAGGAAACCTGGTACTGACAATTCAGAATTTGTGGAGTTTCAGGAAAGGCTCG
AACACAAATACGAAGAGGACGCCAAAGACGACGCTGAAATAAGACGTCTAAAAATAGAAG
AAGACTGGGAAAGTATTCTATATGGTCTAATAATTAGAAGTTTTGTATTACTAATCCAAT
CTTTTTTTAGAAAATATATTCTACTACCTTCATTGATAATAACTAAAAATATCATTCGTA
TCCTATTATTTCAAAATCCCGAATGGTCAGAAGATTTTAGGGATTGGAGCAGGGAAGTTC
ATATTAAATGCACCTATCAGGGCATTCCAGTATCCGACAAAGAATTGCCAAAAAACTGGT
TCGACGAGGGTATTCAGATAAGGATCTTAAACCCTTTTGTTCTGAAAGCTTGGCACAAAT
CTAAGGTACAATCTACTGAAAAAAAAAAAAAAAAAAAAGATCCACAGAAAAAAAATATAC
TGAAAACAAAAACTTCTGGTTTTTAACAGGTTATGGAACACTAGTAGAATCGTACCTTGA
TGAGGGTTTCCCAAGAGACCCACTTTCAATTTTTGGTCCCGTTTTAAAAACAATAAGAAA
ACAATTGAAAAAAGATTTGAAAAAGCATTTTTTTCTAGTTCTAAAATTTTTAAATGAAAG
AAAAAAATGGTTTCCAACTATGTTAAAAAAAATAGAAAACTGGAACATCAAAAGGATTCT
TAAAAGTATTCTATTTAGGTTCAAAATAATAGATGAACTGAGTGAAAGCAAAAAAACTTC
AACAATCAGTAAGAATAATTCAAAGATTGAGGTGATTGAGGTGATTGAGGAATCACCCGT
TAAAATGGAATCGATTAATTGGACAAATTCTTCATTCACAGAAAAAAGGATAAAAGATCT
TAATGTTAAAACAAAGACAATCATAAAACAAATAGAAACAATGACAGAAGAAAAAAAAGA
GGGGATTCTAACTTCAGAGATCAATTTGAATTCGAACAAAACTACTTATGATGCTAAAAG
ATTAGAATTACAAAAAAATAATTTGCAAATCTTACAAAGAAGATTTGTTCGATTAATACG
TAAATCCTATTCTTTTTTCAAAATTTTCATAGAAGGGGTATACATAGATATCCTTTTATG
TATCAGTAGTATTGCTAGGATCCATCGACAACGTTTTCTTGATTTTCTTGAATCAACAGA
CAAAATACTAAATGTAAAAAAACCCATTTACGACAAAAAAAAAAAAATGGAAGAAATGGA
AGAAAGATTTGAAAATCTAAGTGTAAGTAGACTTATATCGATTCTAGAGAAATCTGAGAA
TATTACGAATATGAATTCACAGAATTCTTGGGATGTATCTTCTTTGTCATCTTTGTCACA
AGAATATGTATTTTATAAATTATCACAAATCCAATTTAGTAATGGATCTAAATTTAAGAT
AAGATCTATTTTGGAATCTCCTGGAAGATCTTTTTTTCTTAAGAATGAAATAAAGGATTA
TTTTTTTAGAATGCAAGGAACATATAATTCCAAATTAAGACATAAGAAACGTTCCGATTC
GTTAATGAATCCATGGACAAATTGGTTCAAGGTTCTTTATCAATATGATTTACCTGAGAA
GAGATGGTCGAGATTAGTATCACAAAACTGGAGGAATAGAATCAATGAACATCGTGTGGC
TCAAAATAAAGATTTAGTTGAATATGATTCATATGAAAAAAATCAATTAATTTGGAAAGA
ATTAATTCTTTCCAAAAAACAAGAACAAGAAGGAGACTTATTAAAAATAGAAATTAAAAA
CAAAATTAAAAAACAATATAGATATGATCTTTTCTCCTATCAATATCTTAATTTTGCGAA
TAAGAAAAAATCCTCTATTTATGGATATAGATCACCGAATAAAAACCAAGCGATTTCTTA
TAATTACAACATCTCTATCCAAAATTATCTAGAAGAATATGATATTCTAGATATGGAAAA
AAATCTGGAAAAAAATCTGGATAGAAAGTATTTCAATTGGATGGGAATGAATGTAAAAAG
GAAAAAGACTTCTAGACCGAAGGATAAATTCCTTATTCCCGGATTTTGGTTCTTTTCAAA
ATTAAGCAAATTATATTGTGCATATAAGATGAATCCTTGGATCTTACCAATAAAATTCTT
TGTTTTGCAGCTTGATAATTTAGAGTTAACAACGGAAGAATACGTGAATACAGTAGATGA
AGATCTTAAATCTGTCTCATACTATTATAAAGGATCAGATTCTAAATACAGGACCGATCT
AAAGGGAGAACGGGATTTCTTACTATCAAAATATTTGGGTTTTTATTTGCACTGTGATAG
TTCCGACGAAGAAATAGGAATGGATAATACCAACTTATTTTGTCTCCTGCTTAGAATGAA
AAAATTCAACAAAATTGTAATAATGTCGATTAAAAAGCTAGAGCTAGATATAGAAATGCT
GGTTGATTCAAGGACGAAGGATTTTTGTTATACAGAATGTAGGGACACTGAGGACTTGAA
GGAAAGGCTAATCTTTTTTATTGAACCTATTCGCCTGCCTAGAAAAAAGCATGAACAATC
TCTTCTATATCAAACCATAAGACTACCGTTGATTCATAAGAGTAAGACGCGAAAAAGTTG
GAGTTGGAAAAAGAAAAAAAGTCGTGTTGATCAAAAGATAACAGAAAATAAAGATAAAAA
TCTTTATGATTTGTTTGTTCCTGAAAATCTTTTGTCCACTAGACGCCGTAGAGAATTGAG
AATTCTAACTTGTTTCAATCCTAGGAATAGAAATACTGTGCATAGAAAAACAATAAATGA
CAATGAGAATCAAATAAAAAATGTTTCTCAAGTTTTGACTAAAAATAAAGATCTTGATAG
CGAAACAAAAAAACTAATGAATTTTAAATTATTTCTTTGGCCAAATTATCGATTAGAAGA
TTTAGCTTGTATAAACCGCTATTGGTTTAATACCCATAATGGAAGCCATTTCAGTATATT
AAGGATACATATGTATCCTCGATTGAAAGATTAATTTAGAATCTACATTTATCTTCTATA
TTATCATTATCATAATATTTTTTGTAACATATCTGATATGTGAATAAATATATATATATA
AATATAAATTTATATATATATATTTATTTATATTTTTATATAAATAAATTTAAATAAAAA
AAGAAATGCGATGGTCTTATTTTTTTTTGAAATAGACAAGACAATAGAATTTTTTATTTA
TTCAATTAATAAATATAGTATTTATTTTTTTATCTATTTGAATTACATTCCTTAATAATA
TAATAATATAATTGATTTG
|
| EST members of Unigene |
BT053280 CA922089 CA919295 BE319406 CX542292 CX540886 CX538848 CX536109 BI268573 CX527980 CX526966 CX524367 EV262435 EV260192 EV259924 EV257713 BF005879 DY632468 AJ504363 AJ501776 AJ499934 AJ499897 AJ499699 AJ500247 CA991292 CA991205 CA991203 CA991092 CA991069 CA990654 CA990651 CA990627 CA990215 CA990177 CA918577 CA918550 CA918549 CA918544 BI311894 BI311874 BI311782 BI311513 BI311508 BI311458 BI311208 BI311063 BI311052 BI310077 BI309913 BI309880 BI309870 BQ148539 BQ148349 BQ147271 BQ147004 BI273024 BI270908 BI270405 BI270368 BF520647 AW256871 CA989440 BQ124997 BQ123638 BQ122924 BQ122800 BQ122590 BQ122523 BQ122503 BQ122407 BQ122324 BI263558 BG455498 BE323647 BE323578 BE324187 CX532816 AJ496931 BE943069 BE942248 BE941746 BE941165 BE940880 BF632109 GE351651 GE347226 EX533259 EX533161 EX533074 EX533004 EX532763 EX532738 EX532579 EX532169 EX532109 EX532003 EX531904 EX531463 EX531363 EX531291 EX531120 EX531086 EX530973 EX530864 EX530492 EX530458 EX530401 EX530327 EX530085 EX530084 EX530017 EX529853 EX529776 EX529629 EX529430 EX529360 EX529319 EX527094 EX526919 EX526803 EX526600 EX526551 EX526499 EX526483 EX526459 EX526438 EX526165 EX526101 ES613759 ES613550 ES613354 ES613262 ES612903 ES612707 ES612553 ES612180 ES612133 ES612046 ES612001 ES611887 ES611883 ES611757 ES611628 ES611532
|
| InterProScan Domain |
|
| Gene Ontology |
|
| KEGG Orthology |
|
| EC |
|
| Transcription Factor Family |
|
| Transporter Classification Family |
|
| Probeset |
Msa.2088.1.S1_s_at, Mtr.50705.1.S1_s_at
|
| Corresponding NCBI Gene |
N/A
|
| Trichome-related Gene from Literature |
N/A
|