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 | LotjaGi1g1v0399500 |
Transcript ID | LotjaGi1g1v0399500.3 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Beta-adaptin-like protein; TAIR: AT5G11490.1 adaptin family protein; Swiss-Prot: sp|Q9LDK9|APBLA_ARATH Beta-adaptin-like protein A; TrEMBL-Plants: tr|A0A151TDQ2|A0A151TDQ2_CAJCA Beta-adaptin-like protein; Found in the gene: LotjaGi1g1v0399500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:88661112..88667910) extracted from Lotus japonicus Gifu genome v1.2.
AATGTACATGTAATCTTCCGGATTAATCAACATTGGGAGATGCTATGTTTACTTCACTGAGTTGGTGCACTAGCTATTTA TGCCCTTGTTATTTATTGCTATCACAATCTCTTATGTCCATATGGTTGATTCTATATTCTTAACTTCAACTCTTGACCTA TTTAATTGAACCAGGAAGAGTGAAGTGTCCGATTTGAAATTACAGCTCCGGCAGCTGGCTGGGAGCCGAGCTCCGGGTAC TGATGATTTGAAGAGGGATCTCTTCAAGAAGGTGATATCCAACATGACTATAGGCATTGATGTATCGTCTCTCTTTGGGG AGATGGTGATGTGCTCAGCAACATCAGATATTGTTCTGAAAAAGATGTGCTACCTGTATGTTGGGAACTATGCCAAGGGC AACCCTGAACTCGCTCTTTTGACAATTAATTTTCTGCAAAGAGATTGCAAGGACATGGATCCGATGATTCGGGGACTAGC ACTGAGGAGTCTGTGTACACTCCGAGTGGAAAACTTGGTGGAGTATTTGGTTGGGCCATTAGGGTCTGGGTTGAAGGACA ATAATAGTTATGTCAGGATGGTGGCGGTTATTGGGGTTTTGAAACTATATCATATATCAGCTTCCACTTGCATCGATGCA GATTTTCCAGCAACGCTGAAGCATTTGATGCTTAATGACCCAGATACTCAGGTTAGGATTCTGTTTTTGGGATGATTTCA TTTTCTTCCTCAATCTATGATAAATCATAACAGTTCTGTTCAACTTTTTGAAGAGTTTAGAGTTTTACTTAGAAACAAGC TGATTGACTTAGCACAATGATTAATGAATTGCATAGCACACAGTCCTTAAAATAATACTATGGTTGGTTTTGCTTTCCTT TTTGGTCAGGTAAAGAATGCATTCATCTCCTAATTTCTAAATTATCATTTTCCTAAATTATATTAGTGTCCCTGGATGGT GTCTTTGTACACATATCAATATATCATGTTGGAAATTTTGTTGCATGGAAATCTTGTATGACACTTGCAAGAGAGAGAGA GAGAGAGAGAGAGAGAGAGAGAGAGCTTATCCTGCATAATAATTAATACACTGATAACCCGTTCTTTTGAAAGTTGGACT TTTATATTATCTGGCCCACTTGAAGGTAAATTTTATTTATTCAAAAGAGTGTGTTCAGTTTGTACACTTTAGAAGGCTGT AAACGGGTTGTTCCTTTGAGATCTAATTTTTTATAATATTCCTGTTCTTTTAAGAAGGGAAATGATTGATATTTTTAATG TATTTTTTGTATAGTTAGGAAATGAAATGTTTGATTTTTAGGTTAGAAGCATGTATTTGTACTTAATGAGCTTATCATGT ATTTTTGTTCTTTTAGTTAGTAATACTATTATCAAGCTCTGCAACATGTTCTGTGAGTTCTTATATTTTCATCTTTATAG CTTCATCGGAGATAATTTGATTTCCTTAACCTTAACAAACATCATAAAAGTGGGAAGCTCTTCTAAATTTTTTGTTCACT TGTCCTTTGTTTGATCTTTAAACTGAAAATTATTTACCTATTTAAGATAAACTTCTATCTACTTATTGCTTTTCATTTGT TATTCACCCATATAAGGATTTCATAAGTCTTCCTATTTCAAAAATTTAAAACAACTGCAGTCACCAAATGGCTTGTACTT CACATGTGTAAATGGTCATGTTTGTTTCATCAGGTAGTTGCAAATTGTCTGTCTGCTTTACAAGAAATCTGGACCTTAGA GTCAGGCTCGTCAGAGGAAGCAGCCAGAGAGAGAGAAGCTGTGCATAGCAAGCCAGTTATATATTATCTTTTGAATCGGT AATCTTTTTTATTTCTTGCTGTCCAATACTTTGTTAAATTATTTGGGTAAGCAGTAAGATGTGGTACTTAATTGACGGTG TTCCTTAAAGGACAGTGCTGTTTGATCTTTGAGATATTTAGCATTCACGGGCACATACCAGAGAAACTGAAGCTTCTCAA TCCTAGGATTCCCTTTAAAAGTTTTCTTTTTAATCTATTTGCCATTATGAAAAGGGCTTACAGTTACCGTATAATATGCC AGCATATTAGTTTCTTCGTCCTTGTATACATTATAACTCCATTATATGGAGTATGATTGTGGGAGTACAAGGTTGATTTG AGTAGTTTCTTTACAAATGTAAATGAGAATATTTTAATACATTTAAGTGTTAACTAAAAATCTGTCTTTCATTGTGGCAG ACATCGGAGACAAAAAGAAACCATCTGTAATATCTTGCAAAAATACTGATTTTAAACAACTTAAAAATTCATTTTCTTTG TACTTGCAGCATTAAGGAATTTAGTGAATGGTCTCAATGTGTTGTGCTTGAATTGGTGGCCAAGTATGTTCCATCAGATA ACAGTGAAATATTTGATATAATGAATCTCCTTGAAGATAGACTCCAGCATGCAAACGGTGCTGTTGTCTTGGCAACTACA AAAGTATTTCTACATTTGACTTTATCTATGGCTGATGTTCACCAGCAGGTATGTATTCTTGTGATGCCAATTTGTGTTCT CAGAAATAGGAGTGGGGTTTTCTTGTGAGCGAAGAAATAATATGATAGAGGCTTACAAATGAGGGGAAAAGTGAGAATAC TACTAGCATCTCACACTCGATAAGTAAATCTCTCCAACAGTGAGGACAATATTTTTTCGGTGGTCCTATGACCCTCCCAA AAAAATTCTCTCTCCTCTGATTGACTCTCATCCAAATCACTTACACATTTCTCTCTTAAATCTCTCCTATTTACATTTCT TCTCTGAGTCCGCCTAACGAAATGAAGCATAAACTACTTGGGCTTGGATTGTTCATTAAACGAACTGGGGACTGCAGCAT TTTACCTCAATCCTAGGTCAGCTTCAAGCATAGGTTTGGCTGTGTTTGCATATGGCTTGGCCATGCTCTGTTTGATTAGT TACCCATTTATTTGAACTACCATTGTTATGATTTAAACCTTTTAGTTTGATCTTTTAGTTATTTTGCCTGTATCTTGTCA CTTTGGCTTCTTCCCTAAAACTTGGTAATTTCTGATGCAAATTCCTTTTGTTCAGGTTTATGAGCGTATCAAAGCCCCTC TGTTAACTCAAGTGAGCTCAGGAAGTCCAGAACAATCTTATGCAATTTTAAGCCACCTACATCTTTTGGTCATGCGTGCA CCTTATATATTTTCCTCAGATTACAAACATTTCTATTGCCAGTATAATGAGCCATCATATGTCAAAAAGTTGAAGCTTGA AATGCTGACAGCAGTTGCAAATGAAAGTAACACCTATGAGATAGGTAGGTAACTCCCTGGTCTGCATTGCCCTCATTCTT TTCGGTATGACTTATTCAAGAACTTCTTGTGTCCCATTTCAGTGACAGAATTATGTGAATATGCTGCAAATGTTGACATT CCAATTGCAAGGGAATCAATACGGGCTGTTGGAAAGATAGCATTGCAACAGTATGATGTCAACGCTATTGTTGACCGTCT TCTACAGTTTCTTGAGATGGAAAAGGACTATGTTACTGCTGAAGCTCTGGTAAACATGACAATTACCTGCTACATACCCT GGAATTGGCCTAAGAGTAGTATTTTTCTGCTTCCTGTTATTATGTGAACATTTATGCAATGTATGGCATTTTAATTCGAC TTGGTTATGGTTGGATAACTAACAGAGTTTGCATTTTAATTCGACTTAGTTATGGTTGGATAACTAACAGAGTTTGAAAG TTCATTTATGCAGGTGCTTGTGAAAGATCTGTTGAGAAAATATCCACAATGGAGTCAAGATTGTATTGCTGTTGTTGGGA ATATCAGTAGCAAAAATGTCCAAGAACCCAAGGCTAAGGCAGCTCTCATATGGATGCTGGGGGAATATTCTCAAGACATG AATGATGCTCCATATGTATTGGAGAGCCTTGTTGAAAATTGGGACGAGGAGCATTCTGCTGAGGTAGTATACAAAACTTT TTATGGTTATTAGACTTGTAATGTCCAGATTTGAGATTTAGATTTCCATACTTGGTTTTGCAGTATTTATTTGTTTTCAA ATATACATTATCAATTTCTTTAGAAGGTTTAATTTCTTGTGTCCTGCCAATTTATGACATGGCATAGGCACATGCATTAT TCTCTTGATCTTTGGACACTTGAAAATCCCTCTGCTTCAAGAACTCCCTTCTGTCCCAGCAGAAACAGAAGAGAAAAATC ATTTTCGGATTTCAGGAAAAGAAAATAAAAAATCAACCAAAAGAATTAAAAGAATGGAATGTATTATTGAAAAACTGAAA GAAAATGGACAATGAAATTCTCCCCAAGGGTTTCCCCTTCACAAATGATTTCTGCTTTTACTCTCAAACCATCATTTATA CAGAATGAATCCTCTCTAATCTGATTTGCTTCTTTTTATTTACATAATCCTCTCCTACTACTCACTAACTAGTAACTATA CTATAACAGCCCTAACTACTATAAAAGCCCCTAAGTAGTTTTCCCTTCTCTTACATCCTAACATGGCATGTATCATCTTA ATATGTTTATGGAGAACATCAGGAGGAAGGAATTGACCAGTCCTTGCATCCCCTCCCTGGCCGTACCATGAATACCCACG TCTGCCATGGAATCATAGTTTGGTTTGATCAGGGTGTGATTCTAATTTGATTGTCCTATAATTATGTCCTTATAATGAAT AGAAATATGCCATTGACACCACCTGGAAGTTGCCTGTTAGTCACCAAACCTTTGTTTAATTTGAGAAAGAAAAAAGACCT ATAATGGCATCTCGTGTAAAGTATTGCAGTGGGGGGAGTATGAGCATGCCTTTATGTTACCTGATTATACCTTGAACAAT TGCTGTGTCATGATGCAGGTTCGCTTACATCTTCTTACTGCAGTTATGAAGTGTTTCTTTAAGAGACCCCCTGAGACTCA GAAAGCATTAGGAGCTGCACTAGCTGCTGGTCTTGCTGACTTTCACCAGGTTTGAGTTGTTGCTTGCTACTACTTCTTAT TTGAATTGTCCAAATAATGCAATATTAAATATTTGCTTGCAGTGTAGTCTTACATGAGCTTTTGTTGATCGCAGGATGTT CATGATAGGGCCTTATTTTATTACAGGCTTCTGCAATACAAAGTGTCAGTGGCAGAAAGCGTGGTGAATCCCCCAAAGCA AGCAGTTTCAGTATTTGCTGATACTCAGAACAGTGAAGTCAAAGATCGCATATTTGATGAATTCAACAGTTTGTCTGTTG TATACCAAAAGGTAATCAATGACTCAATCCCCCCAAGTGGTTTTGAACGATGAACCCAAATTAATCATTGAGTTCGGATG AGTTTTAATAACTTGAAGCCATTCTAAAACCTAATTTTTTAATGAAATAACTTTTTCCATTTTAAACAGATTTAAAATAA AAATGAGGGAAGATTATAATAAATGTTTCCTCCTACCATGCATAGTTATCAACTGTGTTTTTGTATGTTTCTTCCCTGTA GAATGTGTCTGACTTGAGTGAATTTGTTGTTAAGATTTGAAAAATATAAAACCTCATTCATCTAAACTTGTGCCTCAATG CGATGAGGGTTACACTACACCTTGCAACTACTGTTATTTTAAACATGTTTGTAATGATCCTTTTCAATTTTCCCTCCCTC TGTTATGAGCTGTATATTTAATTATGTTAAACTAATCATAGCAAATTCTTGCAGCCTTCTTATATGTTCACTGATAAGGA ACACCGAGGGATACTTGAATTTTCAGATGAACTTGGAAATCTATCTATTAGTGTAGAATCTGGAGATTCTGTTGTTCCAG CTCAGAGGGTGGAGGAAAATGACAAGGATCTGCTTCTAAGTACCACAGAAAAAGATGAAGTTAGAGATCCCGGTAGCAAT GGTTCTGCCTATAATGCTCCTTCCTATGATGCTGCTATTTCACAACCGCTTGCAGATTTGGCATTACCAAGTACTGGCTT AACTGGGCAAGCTCCAGCATCTAGCTTGGCAATTGATGATCTGCTTGGTTTAGGTTTTCCAGTTGGGACTGCAGCCACAC CTTCACCTCCTCCATTGAACCTCAACCCAAAAGCAGTATTGGATCCTGGCACATTTCAGCAGAAATGGCGTCAACTGCCA ATATCCTTATCAGAGGTTTGCTTTAAAATTATAATCTCAGTTTCATTAATAAAGTAGCATTGGCTTAGAATAATAATTTT AATTTGAACGCTGTTATTATAAAAAAGTTTTATACTGTTATCTAGCCACATCACTCAAACTCATTAAATAATGTGGCAAC ACATTAATGGGTGGTAGTATAAAATTGTAAATTTTTCTTTAACTGAGTGCGCTACCGTTGAACTCTAGAAATACTTTACT ATGTTTTTGATGCCATCTTTCTCTTTTGCTTCGGCTGCCTGCCCATTGACCAAAAATGTTGAGCATTTTAGTTTATTTGC AGCATTTAACATTCGTGATCTGATGCAGGAATATTCTTTAAGTCCTCAAGGAATTGTGTCGTTGACAGCTCCCAATGCAC TCCTCCGACACATGCAAAGTCATTCAATACAGTGCATTGCCTCCGGTCGTCAGTCGCCTAACTTCAAGTTCTTTTTCTTT GCTCAAAAAGCGGACGAAGCATCAGTGTACCTTGTAGAGTGTATAATCAACACATCATCGGGCAAGTCGCAGATTAATAT AAAAGCTGATGATCAAAGTTCTTCCCAGGCATTCTCAACTTTATTCCAATCAGCCTTGTCCAAATTTGGTTTGCCTTGA
CDS sequence (LotjaGi1g1v0399500.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGACTATAGGCATTGATGTATCGTCTCTCTTTGGGGAGATGGTGATGTGCTCAGCAACATCAGATATTGTTCTGAAAAA GATGTGCTACCTGTATGTTGGGAACTATGCCAAGGGCAACCCTGAACTCGCTCTTTTGACAATTAATTTTCTGCAAAGAG ATTGCAAGGACATGGATCCGATGATTCGGGGACTAGCACTGAGGAGTCTGTGTACACTCCGAGTGGAAAACTTGGTGGAG TATTTGGTTGGGCCATTAGGGTCTGGGTTGAAGGACAATAATAGTTATGTCAGGATGGTGGCGGTTATTGGGGTTTTGAA ACTATATCATATATCAGCTTCCACTTGCATCGATGCAGATTTTCCAGCAACGCTGAAGCATTTGATGCTTAATGACCCAG ATACTCAGGTAGTTGCAAATTGTCTGTCTGCTTTACAAGAAATCTGGACCTTAGAGTCAGGCTCGTCAGAGGAAGCAGCC AGAGAGAGAGAAGCTGTGCATAGCAAGCCAGTTATATATTATCTTTTGAATCGCATTAAGGAATTTAGTGAATGGTCTCA ATGTGTTGTGCTTGAATTGGTGGCCAAGTATGTTCCATCAGATAACAGTGAAATATTTGATATAATGAATCTCCTTGAAG ATAGACTCCAGCATGCAAACGGTGCTGTTGTCTTGGCAACTACAAAAGTATTTCTACATTTGACTTTATCTATGGCTGAT GTTCACCAGCAGGTTTATGAGCGTATCAAAGCCCCTCTGTTAACTCAAGTGAGCTCAGGAAGTCCAGAACAATCTTATGC AATTTTAAGCCACCTACATCTTTTGGTCATGCGTGCACCTTATATATTTTCCTCAGATTACAAACATTTCTATTGCCAGT ATAATGAGCCATCATATGTCAAAAAGTTGAAGCTTGAAATGCTGACAGCAGTTGCAAATGAAAGTAACACCTATGAGATA GTGACAGAATTATGTGAATATGCTGCAAATGTTGACATTCCAATTGCAAGGGAATCAATACGGGCTGTTGGAAAGATAGC ATTGCAACAGTATGATGTCAACGCTATTGTTGACCGTCTTCTACAGTTTCTTGAGATGGAAAAGGACTATGTTACTGCTG AAGCTCTGGTGCTTGTGAAAGATCTGTTGAGAAAATATCCACAATGGAGTCAAGATTGTATTGCTGTTGTTGGGAATATC AGTAGCAAAAATGTCCAAGAACCCAAGGCTAAGGCAGCTCTCATATGGATGCTGGGGGAATATTCTCAAGACATGAATGA TGCTCCATATGTATTGGAGAGCCTTGTTGAAAATTGGGACGAGGAGCATTCTGCTGAGGTTCGCTTACATCTTCTTACTG CAGTTATGAAGTGTTTCTTTAAGAGACCCCCTGAGACTCAGAAAGCATTAGGAGCTGCACTAGCTGCTGGTCTTGCTGAC TTTCACCAGGATGTTCATGATAGGGCCTTATTTTATTACAGGCTTCTGCAATACAAAGTGTCAGTGGCAGAAAGCGTGGT GAATCCCCCAAAGCAAGCAGTTTCAGTATTTGCTGATACTCAGAACAGTGAAGTCAAAGATCGCATATTTGATGAATTCA ACAGTTTGTCTGTTGTATACCAAAAGCCTTCTTATATGTTCACTGATAAGGAACACCGAGGGATACTTGAATTTTCAGAT GAACTTGGAAATCTATCTATTAGTGTAGAATCTGGAGATTCTGTTGTTCCAGCTCAGAGGGTGGAGGAAAATGACAAGGA TCTGCTTCTAAGTACCACAGAAAAAGATGAAGTTAGAGATCCCGGTAGCAATGGTTCTGCCTATAATGCTCCTTCCTATG ATGCTGCTATTTCACAACCGCTTGCAGATTTGGCATTACCAAGTACTGGCTTAACTGGGCAAGCTCCAGCATCTAGCTTG GCAATTGATGATCTGCTTGGTTTAGGTTTTCCAGTTGGGACTGCAGCCACACCTTCACCTCCTCCATTGAACCTCAACCC AAAAGCAGTATTGGATCCTGGCACATTTCAGCAGAAATGGCGTCAACTGCCAATATCCTTATCAGAGGAATATTCTTTAA GTCCTCAAGGAATTGTGTCGTTGACAGCTCCCAATGCACTCCTCCGACACATGCAAAGTCATTCAATACAGTGCATTGCC TCCGGTCGTCAGTCGCCTAACTTCAAGTTCTTTTTCTTTGCTCAAAAAGCGGACGAAGCATCAGTGTACCTTGTAGAGTG TATAATCAACACATCATCGGGCAAGTCGCAGATTAATATAAAAGCTGATGATCAAAGTTCTTCCCAGGCATTCTCAACTT TATTCCAATCAGCCTTGTCCAAATTTGGTTTGCCTTGA
Protein sequence (LotjaGi1g1v0399500.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MTIGIDVSSLFGEMVMCSATSDIVLKKMCYLYVGNYAKGNPELALLTINFLQRDCKDMDPMIRGLALRSLCTLRVENLVE YLVGPLGSGLKDNNSYVRMVAVIGVLKLYHISASTCIDADFPATLKHLMLNDPDTQVVANCLSALQEIWTLESGSSEEAA REREAVHSKPVIYYLLNRIKEFSEWSQCVVLELVAKYVPSDNSEIFDIMNLLEDRLQHANGAVVLATTKVFLHLTLSMAD VHQQVYERIKAPLLTQVSSGSPEQSYAILSHLHLLVMRAPYIFSSDYKHFYCQYNEPSYVKKLKLEMLTAVANESNTYEI VTELCEYAANVDIPIARESIRAVGKIALQQYDVNAIVDRLLQFLEMEKDYVTAEALVLVKDLLRKYPQWSQDCIAVVGNI SSKNVQEPKAKAALIWMLGEYSQDMNDAPYVLESLVENWDEEHSAEVRLHLLTAVMKCFFKRPPETQKALGAALAAGLAD FHQDVHDRALFYYRLLQYKVSVAESVVNPPKQAVSVFADTQNSEVKDRIFDEFNSLSVVYQKPSYMFTDKEHRGILEFSD ELGNLSISVESGDSVVPAQRVEENDKDLLLSTTEKDEVRDPGSNGSAYNAPSYDAAISQPLADLALPSTGLTGQAPASSL AIDDLLGLGFPVGTAATPSPPPLNLNPKAVLDPGTFQQKWRQLPISLSEEYSLSPQGIVSLTAPNALLRHMQSHSIQCIA SGRQSPNFKFFFFAQKADEASVYLVECIINTSSGKSQINIKADDQSSSQAFSTLFQSALSKFGLP
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 |
---|---|---|---|---|---|---|
PANTHER | 1 | 780 | 780 | 0.0 | – | |
PIRSF | 1 | 785 | 785 | 2.7E-225 | ||
SUPERFAMILY | 1 | 544 | 544 | 4.16E-94 | ||
PANTHER | 1 | 780 | 780 | 0.0 | ||
Gene3D | 1 | 555 | 555 | 7.5E-172 | ||
Pfam | 2 | 497 | 496 | 4.5E-86 | ||
MobiDBLite | 583 | 611 | 29 | - | – | |
MobiDBLite | 583 | 601 | 19 | - | – | |
Gene3D | 652 | 783 | 132 | 1.3E-25 | ||
SMART | 663 | 780 | 118 | 5.7E-27 | ||
Pfam | 667 | 779 | 113 | 1.6E-27 |
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 |
---|---|---|---|---|
Biological process | Intracellular protein transport | The directed movement of proteins in a cell, including the movement of proteins between specific compartments or structures within a cell, such as organelles of a eukaryotic cell. | ||
Biological process | Protein transport | The directed movement of proteins into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
Biological process | Vesicle-mediated transport | A cellular transport process in which transported substances are moved in membrane-bounded vesicles; transported substances are enclosed in the vesicle lumen or located in the vesicle membrane. The process begins with a step that directs a substance to the forming vesicle, and includes vesicle budding and coating. Vesicles are then targeted to, and fuse with, an acceptor membrane. | ||
Cellular component | Membrane coat | Any of several different proteinaceous coats that can associate with membranes. Membrane coats include those formed by clathrin plus an adaptor complex, the COPI and COPII complexes, and possibly others. They are found associated with membranes on many vesicles as well as other membrane features such as pits and perhaps tubules. | ||
Cellular component | Clathrin adaptor complex | A membrane coat adaptor complex that links clathrin to a membrane. | ||
Molecular function | Clathrin binding | Interacting selectively and non-covalently with a clathrin heavy or light chain, the main components of the coat of coated vesicles and coated pits, and which also occurs in synaptic vesicles. |
Expression pattern of LotjaGi1g1v0399500.3, 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…