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 | LotjaGi5g1v0028400 |
Transcript ID | LotjaGi5g1v0028400.2 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Alpha-amylase; TAIR: AT4G25000.1 alpha-amylase-like protein; Swiss-Prot: sp|P17859|AMYA_VIGMU Alpha-amylase; TrEMBL-Plants: tr|A0A151S7Y0|A0A151S7Y0_CAJCA Alpha-amylase; Found in the gene: LotjaGi5g1v0028400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:4702867..4712342) extracted from Lotus japonicus Gifu genome v1.2.
ATGAAGTCTCTCCCTTCACTTTGCTTCCTTTGCCTTTGCATTTCACTTTTCCCCTCTTTCTCCTCATCTGCCATACTATT TCAGGTATCACCACCATTCATGATTCAGTCTCAACCTTCCTTTGTCTTTAGACACATATGAAACTGTGATTTCTTATTTG GAAAATATGAGTTTACCATTGATCTGATACTCACTCTTGTGGGAGTTTTGAACCACCACAAAGTGAAAATAAAAAGTGTT TTCCACTTAAAAACTGTCGTAAAGTAAGTGTCCTCGGGTGCCTCCCACTATCAAGCGGTTCAAGTATCAGGGTTGTTTCG TATTATGCAAAATGCTAGTAAAATTTATTTAACACTCATTTATCGGTTGAAATTCATGTGGTGTCTACTAAAATATGAGG TTCACTTTAGTGAAACTCACATGAATTTCAATCGATCAATAAAAGACTTTTGAAAAGGAAGTGTCAAAGTGACTATTACT AGCACTCATCTTATTATAGTGAAGAGTTTAGTAAGATGAACATGAACATGTATGTGTGTTCTAGGGTTTCAACTGGGCAT CAAGGGAAAAGGCAGGAGGATGGTACAACTTCCTAAAGACCAAGGTCCCTGACATAGCAGATGCTGGAGTTGACTATGTT TGGCTTCCTCCTCCCTCTAACTCTCACAATGACGGTCCTCAAGGTAAACAACTTCTTGTGTCCTTGAATAAGTTTTAGTG CATGTTTAGATGTAAGATAAAAAACACACAAAATTACACTTCGAGTGAGGCTAAACTTAAAGAAAATTGCTTATATTGAG TCATAGACCCTGAAATTTAAGTTGTGGTACAATATTAACATAAAAATGTAACATATTTCTATTTTTTAAGTTGCTTATAT CTTAACATTTGTATTCTGTTGAAGGTTACTTGCCGAAGAGGCTATATGACCTGGACACATCAAAGTATGGCAACAAGGCG GAATTGAAGTCCCTAGTGGCTGCATTCCGTGAAAGAGGAGTGAAATCCATATCGGACATAGTCATAAACCACAGAACAGC AGAGAGGGTAGACAACAGAGGACTTAGCATCTTCGAAGGTGGTACTCCAGACAACCGTCTGGACTGGGATGTCTCCTACA TTTGCAGCACCGACACTCGTTTCAATGGTACAGGAAACCCCGACACAGGTGATGACTGGTGGGGTGCTCCTGACATCGAC CACACCAATCCCAAGGTGCCATGATGAACTAACTATCTCAAAAACTTAAGTTGCAGATTAAAACATGTGAATGATTCTAT ATTATATGTCTAACGTGCATCTTTAGAAAAATTAAAACATGGACAATGCACTAGCACAAATAGGGTCGGAATCAGAAAAA TTATGTAAAGGTGATGAAATTTAACTTTTTATTCGAAAATTAAAACATGGACAATGCACGGGGACAATCAGGTTGGAATA AGAAAAGTTATGTAAAGGTGATAAAATTATATAACATGCTCGGCACAATCAGGGGTCGGAATTGGACTTAGAATAAAAAA TTTGAGGGCAAATCCAACTTTTGAATTTTATTTTAGTAAGAAAAAACTACTCTTGGGAGGCGGCCGCCCCATTTTTACAT CACCTAGGTCTATCCTTGGCACAATACTCACATATTTTGTGTTGAAATTCAACTTTTTATTTGAATAATAAGGGTAACAA GGATAGAATTCTAGTCTACTCGGTACTAACTACCCTAAAAGTTTACTCATGAATCATGAATGATTTTATGTTATACTTAC AACAGGTACAGCAAGAGCTCTCAGATTGGATGAACTGGTTGAAAACAGAGGTTGGTTTTGTTGGATGGAGATTTGACATG GTTGTTGGGTATGCTCCAAGGTTCACCAAAATCTACATGGAGAAAACCTCACCTGATTTTGCAGTTGGGGAGCTTTATCA GAATGTAACAAGAGGACAAGATGGAAGACCCTTAGCCAATCAGGACAAGCACCGTTCCACCTTGGTGAAGTGGGTGGATG ATGCAGGTGGTGCTGTCACTGCTTTTGACTTCACAACCAAAATGGTTCTGGGTGCTGCTGTCCAAGGTGAACTCTGGAGG ATGAAGGATGCTAATGGCAAGCCACCAGGTATGATTGGAACAAAGCCATCTAATGCTGTTACCTTTGTGGACAACCATGA TACCTGGTCTCAGAGAACTTGGCCTTTCCCAGATGATAAAGTCATGTTGGGTTATGTTTACATTCTCACTCATCCTGGTC ACCCTACAATTGTAAGTACATGCATGTTTGCTTTTGTTGCTTCCAATCACTCGAAATCAGTTCTTCTTAGAAGCTATAAA GTGCATGTTTGAAAATCCTTTTATAATTAATTTTGAGGTTAAAATCAATATTAGGTTAGTAGCCACTAAGTTTAAAAATT TTAACTTAGAAAAGAGAAGTTGATTCAAACATGATAAAATAGTCGTTTCTCCTGCATAACTAGAACCCAAAATCAATCTT TCTTCTTAGAAGTTACAAATAGCTGGTTGGAGTCAAATTATATCTCCTCATAATCAATTCTAAAACCAAAATTGATTCTA GCTCTATAATCAATCATTCAATTGTAAAAGAATTTCTAAACATACACAAAGAGCAATATGGATCTTCAGCAGTTATATTC TTGACAACTCTCTGTTGCAAAATCTTAGCACGTAATTTTTATATTAAATGGTTCAGAATTCAGATTGATTTGTAAAACGT TAAATTGATCAAAACTTTTATGCACTTAATATTTTAGTGCTGCTGACTGCAGAAAGACCGCAGATGCAGCAGAGAATCCA AATTTGCACAGAGAGTAGTTTTTTCTACGTAACTAAAACGTGAAATCCATTCTGCAAAATTGGAACATGAGTTTCCAAAC ACGATGTAAATAAGTGCATGCAACGCACTCAAAATCATTGTCGTTTATACATATGCTACAAGCTATTTAGTATTTACTTT GGAAACCAATCATAGCTTCTTTAAACATGTCATAGATTCTTTGCCAATTCGTGAAACCAAACATACCCTACAGTACACAC ATAGATTCTTATTTGACTTTATTCTTATACTTTCTTTATTATTTTTGTTGAGAAGATTATTTACAGTTGACATTATATGT TGTTTATTCATCCAGTTCTACGATCACTATATCGAATGGGGGCTAATGGAACCAATAAAGAAATTAACAGAAATAAGGAA AAGGAATGGAATTAAGCCTACAAGCACAGTGAATATTCTGGCTGCTGAAGCTGATCTCTACATGGCTGAGATAGACAACA AGATCATTACGAAAATTGGACCTAAACAAGATCTTGGGAATCTTCTTCCACCAAACGTTCAGGTTGCTACCAGTGGACAA GACTATGCTGTGTGGGAAAGAAAGTGAAGCACAAAAAATTGATCATATATATGTATTTTTAGTATTTAATATTTAATAAA GTAAGACATAGCAAGAATAATATGGCATGCCCATTGTAGAAAAGCTAGAAATAAATCTTTGTGGGCTATGTACAAAATGG CTGATAGCCAATATCATGTGTGTTGTTGGATGAATAATGTTCATTGAAAGTTATATCAATCAAGCCTTTATGAACCTATG TTAACACTTATTCATTGTTGTGAATTTACAAAGCTGATAATTATATGACTAAGTAACAACGACCCTCTACCACCATTCTA CTTGGCCCTCCATTATCCTGTCGCTGCTAAAAACCTACCATTCATTGTTGTGAATTTACAAAGCTGATAATTATTATGAC TAGTGTAGATTTATAAAGTTGAAAACAACTTTTTTTAAAACTAAAATCCACAAAATACTGAAGCTGGAGTTATAAAACCG AAAATTAGTTTTGGATTTTAAAATTTCAAAACATAAAACTAAAAACCACCCCAAACGAGGTCTTACATTTCATGACATTC ATTATACTTTTATAGGGTTGCATTAGGGTTAAGTTAGGTTGGGTCGGTTTTTCGGCGGTTATTGGTTCTAAACCCGAAAT GACCCGAACGGACTTTAATCCGGTAGAGTCGGGTTAAAAATACACTTATACTTTCATCCAATACGATCATACAAAATAAA CATATTGCATTGACAATCGTTTAAAGCACAACAATCTTAACCATTTAGAAACTACTTACTTTCAGACTTCAGTGTGTCAA ATCAATGACTTGCTTCAAATATGCACAAATCATGCCAATATACTACAAATATCAAACCCAGGGGGGGGAAAATTGATTTG ATCAAATCTTACACAGATTTTACAGAAGCCGAAGTTCAACATATCTTAAGGCTATACACAAAACAGAATCACTCTTTCTC TTTTCTCACCAAGGATGGTGAACTTATTTGTATTTACTCACAAGGTGCTGAGAAGGAGACCATTCACAACCCACATTTAG ATGGAGTACAATCCAATCAACCATACATACAGCAATCAGAAACATGTACAAGTATGGTATAATTTCGAATAATCGCCGAA AGGATGAGATGTTTAGAAAACTGCAGCATCACACAATGCTCATTGTTTCTAAAGGGATTACCCTGAATGGGTTGGATGTG ATTTTTTTCTTGCAAAGAACATCAAAATTCGCGGGAAAAAGGACTTCTTCTTCTTCTTTCCAGTTTTTGTATCTCGGAAT GATCCAGTTTCATTGTTTGCATGGACATAAGCCTTTGGACTCGACATGTAATGTCCAGAAATAAGTGCATTATGAGCATG GTCAAAGCTATAAGCTTCCTTGCTCCTGTCAAAGCTAACATTTGAACTCATGTTCTGGTTTGTTCCCCCAGCTTTTCTCC GTTGCTCGTGTTCCGCCCTCCACTTTCTCAATTCTTGTTCTACACCCAGTTTCCCTTCTCGCGCTTTCTCGGCCTTATCC ATTGCAACCTTCAGAGACTCCCTTCTAGCAGCGATTTCTTGAGTCACTTCATTCAACTTCTCCAAGGTTTTCAATTCAGA CTCCTTAGCTATCTCAATTTCAGAATTGGCAGCTGCAACCCTCACATTGGCATGCTCTTCTGCCTCATGGGCTTGTTTGC TAAGCTTATAGTACTCCTCCAAAGAAAGTGTCACCCCAGCTGACGAATCCACTTCATTGTTGCTTCGAGCAGACTCACTC TCTTGCAGTGCTTTAACTGCTGATAATGCCAACCTTTCAGAAGCCCTTGCAGCTTCTATCTCCTTCTGAGCTGCAAGTAG TTTACTTTGCATTGTGCTTGCACCGGCCTTGGCTTGCTCCGCCTCCTCCTTCACCCTTCGCAGCTCTTCACGAGCTGCTT CGGCATGTAAATTTGCCTGATTAGCCTCTTCAGCCGCTTCTTTTAGTTTCTTTGGTAGCTCGATGATCATCTCTCTTCCA TCATTTTCCTTCGCCTGAGCCAAAACTATGTCAGATCTAGTTTTGTCCAGTTCAGCTTCAAGAGATGAAACTGTAATGGA GGCCATTCCTTCTCTTTGCCTAATGGAGGCGAGCGATGATTTCTCTTGCTCAAGTTCCGATTTTAACGATACTGCAGCCA CCTTTAAGTCATTTATCTCAGCAGTAGCTTTTTCTATGTTGAGCTTTACTTCCTCAAGTTCCTTTTTGGCTGATGCAACT GCTGCTTGTATTTCATTCTGTGTCGTCTTCTCCGTTTTCTCCATGTCTCCTTCTGAGATTCCTTCTTCATCACCTTTATG GTTTGAGTTGTATTCCGAATAAGCCTTTAATTCAGCTTTCAACTGAAGCAGTAACGCGGAAGCTGTGCTGAGTTTAGATT TGAGATCCTTAGCAGACAAAATTTTCTTGTTGAGTCTCTGGAGTTCTTCTTCTGCCTGTCTAAGTTCTTTCTCCCAATTG AGAGAATCTTGATCTCTTGCCATGACTGTTCCGATTCTGTGCTCCTCGGCTTCCATATGAGCAGTGTGCGCCGCTTCCAA AGACTCCTTTGTGGCAATTAGCTCAATAGTCAAATCTTCCACTGCCTTCTCTACCTGCTTTGATGCAGTAACAGCCTCTT CAGCTTTCCTAATAGCTTCATCTTTATCAACAGCTAAGGAAGTGTATTCCTTACGCAATGCTTCGAGCTCCTCCTTCACG GAGGTTAACTCTGTGATTGCAGCCGTGTACCTGGCTTTAGCAACCTCGAGTTGCGCCTTAGCCGCGACACTAGAATGATC TGCGATGCCTTGCTCCATCTCTTCCACTCTGAGCTTTGCGAGTTCTGAGTCCTGTCTTGCCTGACACTCTTCTGTTTGTG CCCTTTCTAAGTTGAGTTTTAGTTCTTCTATTAGCCTCTTGGTGCTGTCCAGCTCCTGCAGTACTTGGACCTTCCCATGT TCGGCTGCCTCTGATCTTTTTCTGAACTCCGGGATCTCCTCCTGCGCTTTTTCAAGTTCTTTTTCTACTTGCTTACGCCT CTGTACATCCATTGAAAAAAAATGCCACCAAGTATATTCATGAGCACCTAATGATCAATGGCTTTCATTGTTGTTGTTAT TGTTTGCAGGAAGCAAGCATGGAAGGAAAATCATAATTTCTCAATTTTGTACTGCAAGGATGACAATTTACTGGAAAGAC AGAAATTGGGACCAAATGACTTAATTTTAGTTTCTCTCATGTTTCTGTCCAAAATCAATCAATGAACATGTAAATCATAA AAAACCAAAACTCTGTATTTTGAGGGCTGCAATTACTTTGGTGTTGAATCAGAAATATTTTAACTTCCAGAACAAAATTC ATAGTTTCATTCTAGATAATATTCAAGAAATAAACTTTATAGTATAGTTTTTTCACAAATATATATATAATACACTCTTC ACCGGCCAGAAGAGTTTATAGGGAAATACTTGTTGACAGAAAGAGGACAAGTTACACATAAAACCAAGAAATAAAGAATT AGGATAGTAAATTTCACAGATACATTTTTAAGGTAACTTTTGTTGATATCCCATATGACTATAGTCTATAGTTGAGAGAA TTTACAGCAAATACTGTCATGTTTTCTGATTTAGGTGTTCATGCTTCTTCAAGGCAGCACAAAGGGTATGATTCAACTTT GACTCAACAGATAATGAGTTTCCCAGTGTGATCAATAACATCAACATGAAAACAGTCATCAAAGGTTGTTGTTTCTTAAC TACTATAAGTCTATAACTTAGACAATAACCAAATAATAATGAAGATTGTTGATATCATAATTTTATCTCTTATCTTAGCA TTTTCCTGCTTATAAAAAAAAATCTTAGCATTTTCCTCATAGCATATCATCTAATGGATGTTTGCTTTATCTTTAAGAAG AAATTAAAAACTTCAAAAGAATTATATCCTCGTCAAGCGCTAAAGCAATGAAGTAAGGAAATTTTAAGCAAATCGGCAAT AGAAGGAAGACAGACATACCTCCACAGTCTGGATTCTATGAGCCTTCCAATCCACAATTCCTCCAAACTTGGAAACAGCT TCCTTGACAGATTCAAATGGAGCCGCAGTATCAATTATGCCTCTTCTTAAGGCAGTTGTAGGAGAGTCAACAACTCCAGC AGCAACATCAGTAATCTTGGTTTGAGGAAAATTTATCTTTAGTTCCTTATGGTCATCCTGCAACTCTTTCTTTTCAGAAG AAGAAGCCAAGAGTTCCATCTGACTAACAACATCGCCGCCATCACCAGAAGTAGAACCACCATCATGCTGCCTATTAAAT GCATCTTCTAAAACTGCAAGTTTAGAATCTTCAGCCACAGCTTCCTTGTGGCTTTGTTCTGTTACATCAACTGCAGCATT TGGTGTTGAACCTGAATTATCTATGGGAACATCACTATGAGGTGGGTCAATTTGCAACTCTTTTGGTTCAGAAGAGGAAG TGGAGAGATTCATCAGATTATCAACATCACTTGTCGCCGCATTCGCGGTTGAACCACCATCCTGCTGCCTGTTAAAGATA TCTTCTAAAGCTCCTGGTGAAGAATCTGCGGCTATGGTTCCCTGGTTACTTTCTTCTGTTCCATGAACTTTTGGGGTTGA AGTTGAATTATCTATGGGAGGATGTTCATCCTGTCCTACAGTTTCAACATCAGAAGCATTTGTCGAAAACTCTGTCACCG GCAAACGAATGCCAGGCTCTACTTCACTGTTATTACCAAGTGGGTTGATGGAAGCTTCATTGGAAGAAAGATTATTGGGT GGATTTATTGCTACAAAATTTTCTTGAGGGGTTTCTGCTGGTGGCTTCAGTTCAGCATTTCTTGTGGAGGATTCTGAGTG TGGCTTGTTTTCAATATCCTCCATTAGCTAAAAGCCTAAAGGTAGATAAAGGAAAACAAAAAAGCAAAATCAATCAGTGA AAATCCAATGAGAATTAGAAATAAAAAAAATGCCCAAGTCAAAGTTTCAAATTTGAAAGATGTGTCTGGCAGTTGATTCT TTATGCAAAATGCAAAATTCCCAAAACCTAAATGAAATAACACAAATTGGAACCACAGATATGAAACAGAATATTCAGAA GTTACTGTAATGTGATGAACTTTAATAAGTTACTTCAAGTATCCATGATGGTTGAACATCAACAATCAATGGAAAGAAAA GAAAACAGCATTGTATAATACATGAAAAGCAAGTAATTCTTCCCTACATAAACATTCCCATGGCAATCAAAATTACTGTC AAGAGCACAAAAGAAGACAGAATATCTGGGTAGATCAATAATATTTAAATAATAATTACAACAGAAAATAAATACCATGC ATATATGATGACACAAAAGCAAGTTCATATCTTTGTATTGAAAGCCAGGTTTAACTCTCTTTTTACCTGAGAGAATTCAT ACCCATACATCAAACAATTTGTGAACATGTGAACATGTTTGCAATAACCAGGCAAATTCTTCAGTAAACAAAGTTTAGCC AATAACTGGGTTTTGGAAAATTCTTCTCATCAAGGGAGAACATTAATAACTTGTGGAAAATTCCAAATAGGGAAGTTAAC AAAGGCAATATTAATCATGTTCTTCAGCTTTGTTTCTATATAACTAGCTTCAGCTACAATTCATAATTAAATACTAATCC AAACTTTGCAATCCAGAAAAGATATGATTATAGGCCTTAACAATAACATAATTTTTGCTAGAACAAAGAACAGAACAAGA TTAAGCAATAACTTGGTGCGTTGAAAAAGAAAGCAGGAGGGAAAAAAATAACACAACAAATTCAAAGGAGGAAAAGTTGC AGAGAGAAGAAGCTACCTGGATTGAGCAGAAACGAAACTGATGATTTAGAATTAGCAGATATTAATGATCAGTGAAATTA AAATTAGCTTCTGCAAAAATAAATTCAAAGGATGAAAAGTTGCATCTAAAATTAGAAGAGAGAAAAACAGGGGAAAGGGG TTGAAGGGTGCACAGTTAGTGGAGCCTACCTTGTCACATAAGTCATGACATAAACAACAGGGTCCATTCTCTGCGCTCTC TTTCTGTCTCTTTCTGTCACTCGTATTTTACAAAAG
CDS sequence (LotjaGi5g1v0028400.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAGTCTCTCCCTTCACTTTGCTTCCTTTGCCTTTGCATTTCACTTTTCCCCTCTTTCTCCTCATCTGCCATACTATT TCAGGGTTTCAACTGGGCATCAAGGGAAAAGGCAGGAGGATGGTACAACTTCCTAAAGACCAAGGTCCCTGACATAGCAG ATGCTGGAGTTGACTATGTTTGGCTTCCTCCTCCCTCTAACTCTCACAATGACGGTCCTCAAGGTTACTTGCCGAAGAGG CTATATGACCTGGACACATCAAAGTATGGCAACAAGGCGGAATTGAAGTCCCTAGTGGCTGCATTCCGTGAAAGAGGAGT GAAATCCATATCGGACATAGTCATAAACCACAGAACAGCAGAGAGGGTAGACAACAGAGGACTTAGCATCTTCGAAGGTG GTACTCCAGACAACCGTCTGGACTGGGATGTCTCCTACATTTGCAGCACCGACACTCGTTTCAATGGTACAGGAAACCCC GACACAGGTGATGACTGGTGGGGTGCTCCTGACATCGACCACACCAATCCCAAGGTACAGCAAGAGCTCTCAGATTGGAT GAACTGGTTGAAAACAGAGGTTGGTTTTGTTGGATGGAGATTTGACATGGTTGTTGGGTATGCTCCAAGGTTCACCAAAA TCTACATGGAGAAAACCTCACCTGATTTTGCAGTTGGGGAGCTTTATCAGAATGTAACAAGAGGACAAGATGGAAGACCC TTAGCCAATCAGGACAAGCACCGTTCCACCTTGGTGAAGTGGGTGGATGATGCAGGTGGTGCTGTCACTGCTTTTGACTT CACAACCAAAATGGTTCTGGGTGCTGCTGTCCAAGGTGAACTCTGGAGGATGAAGGATGCTAATGGCAAGCCACCAGGTA TGATTGGAACAAAGCCATCTAATGCTGTTACCTTTGTGGACAACCATGATACCTGGTCTCAGAGAACTTGGCCTTTCCCA GATGATAAAGTCATGTTGGGTTATGTTTACATTCTCACTCATCCTGGTCACCCTACAATTTTCTACGATCACTATATCGA ATGGGGGCTAATGGAACCAATAAAGAAATTAACAGAAATAAGGAAAAGGAATGGAATTAAGCCTACAAGCACAGTGAATA TTCTGGCTGCTGAAGCTGATCTCTACATGGCTGAGATAGACAACAAGATCATTACGAAAATTGGACCTAAACAAGATCTT GGGAATCTTCTTCCACCAAACGTTCAGGTTGCTACCAGTGGACAAGACTATGCTGTGTGGGAAAGAAAGTGA
Protein sequence (LotjaGi5g1v0028400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKSLPSLCFLCLCISLFPSFSSSAILFQGFNWASREKAGGWYNFLKTKVPDIADAGVDYVWLPPPSNSHNDGPQGYLPKR LYDLDTSKYGNKAELKSLVAAFRERGVKSISDIVINHRTAERVDNRGLSIFEGGTPDNRLDWDVSYICSTDTRFNGTGNP DTGDDWWGAPDIDHTNPKVQQELSDWMNWLKTEVGFVGWRFDMVVGYAPRFTKIYMEKTSPDFAVGELYQNVTRGQDGRP LANQDKHRSTLVKWVDDAGGAVTAFDFTTKMVLGAAVQGELWRMKDANGKPPGMIGTKPSNAVTFVDNHDTWSQRTWPFP DDKVMLGYVYILTHPGHPTIFYDHYIEWGLMEPIKKLTEIRKRNGIKPTSTVNILAAEADLYMAEIDNKIITKIGPKQDL GNLLPPNVQVATSGQDYAVWERK
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 |
---|---|---|---|---|---|---|
SignalP_EUK | 1 | 23 | 23 | - | – | |
PIRSF | 1 | 423 | 423 | 3.5E-205 | ||
SignalP_GRAM_NEGATIVE | 1 | 24 | 24 | - | – | |
Phobius | 1 | 5 | 5 | - | – | |
SignalP_GRAM_POSITIVE | 1 | 23 | 23 | - | – | |
Phobius | 1 | 23 | 23 | - | – | |
PANTHER | 6 | 421 | 416 | 8.1E-203 | – | |
PANTHER | 6 | 421 | 416 | 8.1E-203 | – | |
Phobius | 6 | 17 | 12 | - | – | |
TMHMM | 7 | 29 | 23 | - | – | |
Phobius | 18 | 23 | 6 | - | – | |
Gene3D | 24 | 365 | 342 | 1.1E-128 | – | |
SMART | 24 | 361 | 338 | 7.0E-42 | ||
Phobius | 24 | 423 | 400 | - | – | |
CDD | 25 | 372 | 348 | 1.90205E-149 | – | |
SUPERFAMILY | 27 | 353 | 327 | 2.55E-68 | ||
Pfam | 48 | 342 | 295 | 1.1E-13 | ||
SMART | 362 | 422 | 61 | 1.6E-33 | ||
Pfam | 363 | 421 | 59 | 5.8E-19 | ||
Gene3D | 366 | 423 | 58 | 7.9E-27 | ||
SUPERFAMILY | 366 | 422 | 57 | 7.55E-18 | – |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Molecular function | Alpha-amylase activity | Catalysis of the endohydrolysis of (1->4)-alpha-D-glucosidic linkages in polysaccharides containing three or more alpha-(1->4)-linked D-glucose units. | ||
Molecular function | Calcium ion binding | Interacting selectively and non-covalently with calcium ions (Ca2+). | ||
Biological process | Carbohydrate metabolic process | The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule. |
Expression pattern of LotjaGi5g1v0028400.2, 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…