Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi2g1v0428200 |
Transcript ID | LotjaGi2g1v0428200.2 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Kinesin-like protein; TAIR: AT1G12430.1 armadillo repeat kinesin 3; Swiss-Prot: sp|Q9FZ06|KINUA_ARATH Kinesin-like protein KIN-UA; TrEMBL-Plants: tr|A0A0B2RRT8|A0A0B2RRT8_GLYSO Kinesin-like protein; Found in the gene: LotjaGi2g1v0428200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:92545012..92552278) extracted from Lotus japonicus Gifu genome v1.2.
ATGGCATATGGGCAAACTGGTACTGGTAAAACTTATACTCTTGGACGACTTGGGGAGGAAGATACAGCTGCACGTGGAAT AATGGTGCGAGCTATGGAGGATATTTTTGCAGATGTTTCTTTGGAAACTGATTCTGTCTCGGTCTCATATTTGCAGGTAG TTAGCAATAAAACCAATTTTGTTTTGTCTTTCTGATTTTGTTTCACTGTTTCGGACTATATATATAACATTTTTATTTAT TCATATATATCCAATATTTTAAAGTATTTGTTAATTTTTTTGGCAAACTACATTCAGGCTCCATATGTTAATATAATGTT TCTTAATGTCCATGTTCAGCTTTATATGGAAACTATACAAGATCTGCTTGACCCGGCCAATGATAATATCACCATCGTAG AAGATCCCAAAACTGGTGATGTTTCGCTACCCGGAGCTAGCCTAGTTGAGATTAGGGACCAGCAGAGTTTTCTAGAACTA CTAAGATTAGGAGAAGCTCACCGCTTTGCTGCAAATACAAAACTGAATACAGAATCTTCTCGAAGTCATGCTATTCTGAT GGTGAATGAATTTGTGTATCTCTTTTATGGTGCTCATGTTCATGTCTTATGAGTTATTGTTTTAAGTGTTTAATATTTCT ATTTTAAATCTTATTGGATGATTGAATATACCTTTGATACAATAGGTTCATGTCAAGAGATCCGTCAAGGGAAGAGATCC CACTGTTTCAAGTGAAAATGGCAATCATCCGCACATGGTTAAATCATTAAAGCCTCCTGTCATTCGGAAAGCCAAGTTGG TTGTTGTAGATCTTGCTGGTTCAGAGCGAATTGATAAGTCAGGTTAGTATACTAATAAAGTTGCTTTTGTGATCTCAACA TATTCATATGTTTTTAGTGGTTTTGTGTGATCATAGGCTTTGCTTTGAGGAAAAATTTGATATTCATCGCCCATCTTTCT CCCTATATTTTATAAATCTTAATATACAAATGCTTTGAGGCAACGGAATCTTTCTAAGTGCTGGGCTAAACTAAGTTAGT CTTCCATGATCAAGGCAAATGTTGGATTCCCAAGATAGAAATATATTTCATTTCTGACTCTGGTATTTTCTAGTTTTATT GTCATAAAAATGTGAAAAAGTTATCTGGGTTTCAGTGAGATGCTTGAAAACCAAATATGGATTCTTGTCAAAATAAAACT TGAATGACATTTAAAAATTGAGCTGATAAAATCATCATATTGCCCCAAACCTATTACTCTGGAAGTCAAGGTTGTCTTGC TTGGTACAACATCCATGCTCTACTTAATGAGATCGTTTCATTATTCGTTGCTTAATAGGCAGTGAAGGACATACATTAGA AGAAGCCAAATCTATCAATCTGTCCTTGAGTGCGTTGGGGAAGTGTATCAATGCACTTGCGGAGAACAGTGCGCATGTTC CATTTCGTGACTCAAAGCTTACTAGATTGTTACGTGATTCATTTGGAGGTAAGATTCAGTGAGTATAAGAATGTGCCTCC CTTTTTCGTTTATTGGCTTAGCTTTTTTTACTATAAAACGCCAGAATCAAAATGATGGTATGTTATATAAGGGATACTGA CATAGGTATAAAGGAATGGAAACCTGTTTGGCACATAGAAAGTACACGATGAAGCATAAGTTATTTTAGGAAGAGTGCTT GCATATATTTATTAGATAAATCTTAAAGTTTTTGTGCTGAATGTCTCTGAAGTCAACATGTTTTTAATAATCATCGATAT TATAGGGAAATTTAGTTAAAAAATTCATAGATAAATCATCTCATCTAGAGTAGAGATGTTATTCTAAGATTACATATTTT GTTGAAATTTTCAAGCATCTTTAATCTTAATGAATAAAATTGGTGCAGTATGTTTTTCCTGACATCTAAAATTTGACAGG CACAGCAAGAACTTCACTGGTCATTACTATTGGACCCTCTCCGCGGCATAGGGGAGAGACTGCCAGTACTATAATGTTTG GACAGAGGGTGGGCTCCAAATTCAGTAGTTTACTTTCTTTTTTCTCCCTCTACTTGTTTGATTATACTTGTTTGATTATT GTAGCTGCTGAATTTCCCTTTGTTGTTTTTGTTGGTTGGATTGACCTCCTGTTTTATAATTATATTTTGGGTAGCATGTT TTTAGTTCCTGTAAATTTGTCAATATTTGATTTTAGCTCCTGATTTTTAAAACGCCTCATTTTGGCTCCTTATTTCTGAA ATAGCCTCATTTTAGCTCTCTACATTAATAAAAGGGTGAACCAAACCATACAAAAAAAGGTGGTATCGTGTATCAATATT TAGCATACTGCACTTGTGAGAATGATAAACACACATCAAGGACTAAAGTGAGATTATTTAAGAAAGCCTTTACCCTTATA TTTTAGTGGCATTGCTGATTTTTTCATGAGGGTATTGCGTAGAATAAGAAATTACTGGGTGTCTTGTTACCATCATTAAT GTTGGATGTTGAGTCTGATCTCAGTCTGTAAAAAGGTTACGGATCAGATTGATTTTTTCTCTGATTGTCTTTTGCTTATT ATTTTTTAATTTTGTAGATTTTATTCTGCTTCCATAATTAGTTTAGCGAACTATTTTTTTTTAATAAATAGGAATGAGGA GTGGAAATCTCTCATCTGTTACGTATTTCCAAAATTTAGGTAATTCAGTGTTGGAGTTTAGGAGAACCAATGGCAGGCCT ACTGCTATGTTCTCCACTATAGTTTCTTTTGTTTGTAATCATTATCGCATAAGAAATATCGGAGTTTTCCTCTTCGAAAA TTAACAACTAAGATGCTGAATCTTGTAGGCTATGAAGGTGGAAAACATGGTAAAGCTAAAGGAGGAATTTGATTACAAAA GCTTATCTAGAAGGCTAGAAATAGAATTAGATAAACTCATTATGGAACATGAAAGGCAGCAGAAGGCATTTGAGGATGAG ATAAAAAGGTTAGCCACCGAAGCACAACATCAGATATCTGAGACTGAAAAAAACTACATGGATTCATTGGAGGTTGGTTC TGTATAAATTTTTATATATGTGATATATATTTCAGTTTGTGTGGGTTTTTTTGACACTTCCATCTAGTACATAGTTTCTA ATAGTGTATGCATACTGCATAGTACCGCATCTTACTTGCATTTGAGATGATATTCTCGGTTTCTTGCATGTGAGGGTAAG ATGATTTGATATGGGTAGCTTGACTTCAGTAACTTACTGAAATTCAGTTAGCAAAACACGTGGTTGATTTCCCGGTGATA TGTACTGATACTTGTTAGCCCATTTTACTTCACAGAAGGAAAGAGCAAAATATCAGAAAGACTATATGGAATCAATTAAG AAGCTTGAAGAGAAGATGGTGATGAATCTTCGAAAGAATGAGGAACCTCATATGAAGTCAAGTGGAGAGGTAGTAGTTTT TAATTTTTATAATACTATATTATCTTAATTTAATTACAATAGGTGAAGTTCCTTACAACAGAGTAGAAGATCATGTCCTC TGGAAAACATAAAGAACATATATCACTTGGGGGAGGCGGCTCTCGTCTAAAGTAAAATCAGGATAATGATTTTTGTAGCT AAACTTTATAATAGCTAAATATTCAATTGTTAAATATGCTCACTTATTGATTGGGGATTTTCCCCAAACAAGCATTAGTT GTGTTAAGCTCACTTGAATTGTTGTCTCCTAGATTCCTGAGGTGTCTGCTGAGGAACTGGCTGATCTGAAAAGAAATCTA CAAAAGGAGACTCTTTTAAGAAAAGCTGCTGAAGGGGAGGTGAATAATTTGAAGATTCAAGTTGCTGAGCTAAAAAAGTC AGAGGTAGGTTTTTGTGCCTCAATATTATATTTATCACTTGCATGGCACGTTCTTTCTCCATCTCGTTGGTACCTGGATT AGTTTACTTAGATGGATGTGTTTACTGTGATAGGCATTAGGAAAGTCAGACATCTTAAAACTTCATAGGATGTTGGAAGA TGAGGCACATCAGAAAGAGAAACTTGAAGGAGAAATAGCAATATTACAAAGTCAAATGTTGCAGTTTAGTCTTGAAGCCG ATGAGGTAAGCTATACCTAAAATGCACAAATTCAATACTTAATTGACTTTTATCTAACAGATGTTTTATAAAAAGATGAC TGCTGATGAACTATATTCTGTTCCCCTCTAATGGCTGTCAATATAGAAAACCTGACTTTTTTTACTTGCTATTCATTTTC AGTTTGATTCACAACGAAATGGCTGATCCATCCCCAGTGCCTTTTTCGTAACAAAAATTCAAAATACCTATTATTTTTAA GGAAAAAATTATTTGACTTAAAAAGTTTGTGTTTGGAATCCAGCAATTTAAGTAACTACTTCGACTACACTCCAAAAGAT ACTAATTTTTTTTTCATTTGATTAGCACAAAGGGTGAGAAATTATTAAATTACGGTAGTATTTAATGTCTTCAATTCAGC TCGGGCTAGATATGATCATGTCAAATATGTTTGTATCTCCTACTGTTGATGTCAGTGTTTTGCGGTGGAATCATATTTAT GACAACAGGTGGCCATTGCATCTTCAAGCATTTGGCTTTGGGCTATTTATGGTATAGGTTGAAAACTGAGGGCTTAAAAT GTTGGTTACCTCACCTATCATAAGCTATGACTTATTTTCATTCTCGTGCCTGGGAAAACAATTAATTGGTTTTTGGTCTA TTAAAGAAGCTGTGAATTAACTGTGTGTCCTTATGATGTCTATCCAATAGAGGCCCTTATGTTGATATTGCAGAAGTTGA TACTGCAGAATGTGGATGTAACTTGATCACAAACTTTAGCTTAGTTTACCTGGTCCCTCCCCCCTATTTCTTTTATTTTT CTTTTCTCATCTCTCGTGGTAAAATTAGCGCAAATGAGTTGTATTGAGACCATATAAATGAAACAAACCAGAATTGTTGC TCTTTACCATTTCTGATCATGATGTGCACCTTTCATGCATCTTCTTGTATGATAATGTGCCAGAATCTTGTCGGGTGTTA TCTAATTGGTATTTGTCTCAGACAAGACGACAACTAGACAAGGGTGGATTTGAAAAAGAAGTGGGTTGTCATGATTCTCC TACTTCCCAAGTCAAGCATCAGCAGCAAGCTTCAGGAAATGGAGAGAAGCCCTCTATAGCCAAGCTCTTTGAGCAAGGTA GTAATGATATATATTGCTTGTGTTTACAACATGACCCTGACATATTTTGTTAATAGTCTATTTGTCTCTCTTGAAATTAT TTCTTTCTGATAAACAAAATATTCTTACAGTGGGATTGCAGAAGATTTTGTCATTGCTTGAAGCAGAAGATGCTGATGTG CGAGTCCATGCTGTGAAAGTTGTAGCAAATCTAGCTGCTGAAGGTTGTTGTTTCACCTGTTTATGTTGAAATTCTTCAGT GCAAATAATGAAAAAGAGAAAAATCAGTGTGCCCTTTAAATTATTTAATTTGGGATCAATGATCTGTGAAGAAAGTACTA TGGATTTTTGTATAAGACAAATATCACTCCGAGATCATTTTAAACCTTTGCTTCCTTATCCTTCCTATGATATAGATCAT ATATTTTTGGCTTGGTTTATATATTATGTACTGATTCAAAGGAGGAAAATCCCTCTTTCTAAACTACATTTACAAGAATT CGGTGCTATCAGAACCATTAGCCTGATATTTATTCCACACCTTACAGAAACAAATCAGGGGAAGATTGTTGAAGCTGGAG GGCTTACATCCTTGCTTACGCTGCTTAAGACCTCACAAGATGAGACCATACATAGAGTTGCTGCAGGTGCAATTGCAAAT TTGGCAATGAATGGTAAACTTGTGTTTTTTCTCTTCTTTGCAACTAATTATTTCACGAAATAAAAATATTTATTACTGAG CTGCCTTGTTTTTCCTGGTCTCTGCACCCTTATTTTGTGTCTTACAGAATCAAACCAAGAACTCATTATGGCCCAAGGGG GAATTAGTTTACTGTCAATGACTGCAGCCAATGCTGAAGATCCTCAAACCCTTAGAATGGTTGCTGGAGCCATTGCTAAT CTTTGTGGCAATGGTAAAATGCTGATCTTTTTCATGTTTGTGAAATTGTTTCAATTATCTGCGCTATACATGCATTTTAC TTAAATGTAACTAATGAATTCTACAGAGACCCAATCCTTACAAAAGATCCTTCTGATAGTAGGGATAGGAATCATGGACA ACAAATTTGTTGAGCCACTTGCTCTATGGCATGTTGCAATCTTTTACATTTTGGCTAGAGTACTACAACAAATTATTGAC CTAATCATTTGCTTCTTCTATCTATCTATAGATCATACAATTATACTTTCGTTGTTGGTTTGGTAAAATTTTCCTCTTGG TTGAAATTATTGGTTTTGATAGAATTATGAAGCCATCTGTTGATCAAATATCCTTTGATGGTCTGCATAATAACCTGCGG GTGCTAAAACTTTGATGTTCTGCACCTAGATAAGCTGCGAACAAAACTAAGGGGCGAAGGTGGTATCAAGGCACTACTGG GAATGATCAGATGCAGACATCCTGATGTGCATGCACAGGTTGCTCGCGGAATAGCAAATTTTGCGAAGTGTGAGTCGAGA GCATCTAGTCAAGGTAAACTTATACGACCAGCTTCCCAAGTCCCATATTTTGATAGTGATGAACATTCAATTGTTCATTG AAGTCACCTTTTTTTCCTTTAAAATTATATTTCTTCCCTCTTGTTCCTCCATTACTTCCGTAAATCACTTCGCATAGTTA GTTAGGACTAGGTATATTTCGGGTTTGCAATTTCATACTCGATCAACAGCGTCCATTACTTCTGAGTTAATGTTTTGCCG CATTGTGTGACAGGGACAAAGAGCGGAAGATCTTTCCTTATTGAGGATGGCGCCCTTCCATGGATTGTGCAAAATGCAAA TAACGAAGCCTCATCAATTAGGCGTCATACTGAGCTTGCACTCTGTCACTTAGCTCAACATGGTAAGTGCTAGGTAAACT CTATGTACTTGAAACTATACATTAATTGGGGTAAGTCCCTAAGACCTTCTGGTTGATGCATTCCAGAAGTAAATGCAAGA GACATGATTCGGGAGGGTGCATTATGGGAGCTAGATCGTATCGCACGAGATTGTTCAAGAGAAGACATAAAGACTCTTGC ACATCGAACACTAGTCTCCAGCCCCACTTTCCAAGCTGAAATGAGGCGTTTGCGGGTGAATTATTGA
CDS sequence (LotjaGi2g1v0428200.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCACTTGCGGAGAACAGTGCGCATGTTCCATTTCGTGACTCAAAGCTTACTAGATTGTTACGTGATTCATTTGGAGGT AAGATTCAGCACAGCAAGAACTTCACTGGTCATTACTATTGGACCCTCTCCGCGGCATAGGGGAGAGACTGCCAGTACTA TAATGTTTGGACAGAGGGCTATGAAGGTGGAAAACATGGTAAAGCTAAAGGAGGAATTTGATTACAAAAGCTTATCTAGA AGGCTAGAAATAGAATTAGATAAACTCATTATGGAACATGAAAGGCAGCAGAAGGCATTTGAGGATGAGATAAAAAGGTT AGCCACCGAAGCACAACATCAGATATCTGAGACTGAAAAAAACTACATGGATTCATTGGAGAAGGAAAGAGCAAAATATC AGAAAGACTATATGGAATCAATTAAGAAGCTTGAAGAGAAGATGGTGATGAATCTTCGAAAGAATGAGGAACCTCATATG AAGTCAAGTGGAGAGATTCCTGAGGTGTCTGCTGAGGAACTGGCTGATCTGAAAAGAAATCTACAAAAGGAGACTCTTTT AAGAAAAGCTGCTGAAGGGGAGGTGAATAATTTGAAGATTCAAGTTGCTGAGCTAAAAAAGTCAGAGGCATTAGGAAAGT CAGACATCTTAAAACTTCATAGGATGTTGGAAGATGAGGCACATCAGAAAGAGAAACTTGAAGGAGAAATAGCAATATTA CAAAGTCAAATGTTGCAGTTTAGTCTTGAAGCCGATGAGACAAGACGACAACTAGACAAGGGTGGATTTGAAAAAGAAGT GGGTTGTCATGATTCTCCTACTTCCCAAGTCAAGCATCAGCAGCAAGCTTCAGGAAATGGAGAGAAGCCCTCTATAGCCA AGCTCTTTGAGCAAGTGGGATTGCAGAAGATTTTGTCATTGCTTGAAGCAGAAGATGCTGATGTGCGAGTCCATGCTGTG AAAGTTGTAGCAAATCTAGCTGCTGAAGAAACAAATCAGGGGAAGATTGTTGAAGCTGGAGGGCTTACATCCTTGCTTAC GCTGCTTAAGACCTCACAAGATGAGACCATACATAGAGTTGCTGCAGGTGCAATTGCAAATTTGGCAATGAATGAATCAA ACCAAGAACTCATTATGGCCCAAGGGGGAATTAGTTTACTGTCAATGACTGCAGCCAATGCTGAAGATCCTCAAACCCTT AGAATGGTTGCTGGAGCCATTGCTAATCTTTGTGGCAATGATAAGCTGCGAACAAAACTAAGGGGCGAAGGTGGTATCAA GGCACTACTGGGAATGATCAGATGCAGACATCCTGATGTGCATGCACAGGTTGCTCGCGGAATAGCAAATTTTGCGAAGT GTGAGTCGAGAGCATCTAGTCAAGGGACAAAGAGCGGAAGATCTTTCCTTATTGAGGATGGCGCCCTTCCATGGATTGTG CAAAATGCAAATAACGAAGCCTCATCAATTAGGCGTCATACTGAGCTTGCACTCTGTCACTTAGCTCAACATGAAGTAAA TGCAAGAGACATGATTCGGGAGGGTGCATTATGGGAGCTAGATCGTATCGCACGAGATTGTTCAAGAGAAGACATAAAGA CTCTTGCACATCGAACACTAGTCTCCAGCCCCACTTTCCAAGCTGAAATGAGGCGTTTGCGGGTGAATTATTGA
Protein sequence (LotjaGi2g1v0428200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MHLRRTVRMFHFVTQSLLDCYVIHLEVRFSTARTSLVITIGPSPRHRGETASTIMFGQRAMKVENMVKLKEEFDYKSLSR RLEIELDKLIMEHERQQKAFEDEIKRLATEAQHQISETEKNYMDSLEKERAKYQKDYMESIKKLEEKMVMNLRKNEEPHM KSSGEIPEVSAEELADLKRNLQKETLLRKAAEGEVNNLKIQVAELKKSEALGKSDILKLHRMLEDEAHQKEKLEGEIAIL QSQMLQFSLEADETRRQLDKGGFEKEVGCHDSPTSQVKHQQQASGNGEKPSIAKLFEQVGLQKILSLLEAEDADVRVHAV KVVANLAAEETNQGKIVEAGGLTSLLTLLKTSQDETIHRVAAGAIANLAMNESNQELIMAQGGISLLSMTAANAEDPQTL RMVAGAIANLCGNDKLRTKLRGEGGIKALLGMIRCRHPDVHAQVARGIANFAKCESRASSQGTKSGRSFLIEDGALPWIV QNANNEASSIRRHTELALCHLAQHEVNARDMIREGALWELDRIARDCSREDIKTLAHRTLVSSPTFQAEMRRLRVNY
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
ProSiteProfiles | 1 | 63 | 63 | 8.658 | ||
Gene3D | 28 | 109 | 82 | 8.5E-7 | – | |
PANTHER | 31 | 547 | 517 | 1.5E-227 | ||
SUPERFAMILY | 31 | 98 | 68 | 4.94E-5 | ||
PANTHER | 31 | 547 | 517 | 1.5E-227 | ||
Coils | 79 | 143 | 65 | - | – | |
Coils | 174 | 208 | 35 | - | – | |
Gene3D | 211 | 388 | 178 | 1.2E-19 | ||
Coils | 216 | 250 | 35 | - | – | |
MobiDBLite | 264 | 287 | 24 | - | – | |
MobiDBLite | 273 | 287 | 15 | - | – | |
SUPERFAMILY | 288 | 540 | 253 | 5.42E-35 | ||
SMART | 289 | 328 | 40 | 24.0 | ||
ProSiteProfiles | 299 | 341 | 43 | 10.482 | ||
SMART | 329 | 370 | 42 | 0.02 | ||
Pfam | 336 | 369 | 34 | 9.8E-7 | ||
ProSiteProfiles | 340 | 383 | 44 | 15.277 | ||
SMART | 371 | 412 | 42 | 31.0 | ||
Gene3D | 389 | 543 | 155 | 3.4E-19 | ||
SMART | 413 | 453 | 41 | 5.2 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | Microtubule motor activity | Catalysis of movement along a microtubule, coupled to the hydrolysis of a nucleoside triphosphate (usually ATP). | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Microtubule-based movement | A microtubule-based process that results in the movement of organelles, other microtubules, or other cellular components. Examples include motor-driven movement along microtubules and movement driven by polymerization or depolymerization of microtubules. | ||
Molecular function | Microtubule binding | Interacting selectively and non-covalently with microtubules, filaments composed of tubulin monomers. | ||
Biological process | Regulation of microtubule-based process | Any process that modulates the frequency, rate or extent of any cellular process that depends upon or alters the microtubule cytoskeleton. | ||
Biological process | Root development | The process whose specific outcome is the progression of the root over time, from its formation to the mature structure. The root is the water- and mineral-absorbing part of a plant which is usually underground, does not bear leaves, tends to grow downwards and is typically derived from the radicle of the embryo. |
Expression pattern of LotjaGi2g1v0428200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…