Protein

UniProt accession
A0A6J5LQ93_9CAUD [UniProt]
Protein name
Collagen triple helix repeat
RBP type
TF

evidence: RBPdetect

probability: 0,9159

TF

evidence: RBPdetect2

probability: 0,9500

Protein sequence
MTAPIMIDSVELKPSSRESSDQHGSCTDGCFGSPPQPGPTGYQGSQGYQGIQGLQGTNPGVQGSQGTQGLQGYQGEQGAQGIQGLQGTNPGVQGPQGTQGSDGYIGLDGPQGIQGLQGTNPGVQGAQGAQGAQGANGYIGLDGPQGWQGLQGTNPGVQGPQGIAGIQGNQGSVGDTGTQGNQGNQGNQGLQGNQGLQGRQGSQGLQGNQGNQGLQGLQGNQGTQGNQGQQGNQGGQGSTGTQGSQGTIGLVGTQGSQGNQGNIGAIGTQGNQGNQGIQGTQGNAGVVGSQGNVGSAGTQGNVGSTGSQGNQGTQGNQGNQGTQGNQGLQGRQGNQGNQGLQGNQGVQGSQGLQGNQGQQGNQGIQGNQGNQGNQGNQGQQGNQGLQGVQGNQGNQGRQGAQGIQGLQGTNPGVQGPQGLAGYVGTDGAQGAQGIQGVQGLQGTNPGVQGFQGSAGYIGSDGAQGRQGLQGGQGLQGNQGNQGTQGNVGSAGIQGNQGLQGNQGAQGNQGAIGTGAQGNQGNQGVQGSQGNQGSAGGAGTQGNQGLQGNQGNQGNTGTQGNQGNQGVQGTQGNQGRQGNQGNQGTAGSTGVQGNQGAQGNQGSAGSIGTQGLQGWQGAQGNQGNVGSSGAQGNQGVQGNQGNQGTVGTQGNQGSSGTVGSQGNVGSIGTQGSVGTQGNQGNQGLQGLAGTSGGAGSQGNQGNQGSVGVQGLQGLQGNQGSQGSGIQGSQGVQGNQGLQGTNPGVQGSQGTQGAQGIGYIGSDGPQGWQGLQGTNPGVQGPQGNQGNQGAGAALVNSQSGTTYTLQTSDANNVVAFTNGSSITCTVPTNAAAAIPIGSIIVIEQRGAGVVTLSPFDGTVTINGQLTTAAQWKSVTLIKQDVNTWDSIGSVGPTGAQGYQGTGAQGNQGQQGNQGLQGNQGPISAQGSQGSQGNAGIQGFQGNQGLVGIQGNQGSQGLQGLTGTQGNQGFQGNQGRQGNQGLQGNQGNQGNQGLQGNQGLQGNQGNQGNQGNQGWQGLAGVQGNQGVQGNQGSQGNQGLQGNVGLQGNQGNQGLQGPQGNQGAQGNQGQQGNQGNQGVQGLQGLQGNQGQQGNQGLQGNQGVQGNQGRQGFQGFQGTTAGLQPLHGFVDQASSSLTMSGSTFQLAPTSGSFDLWIEGVKYTYSTTQTVSIATDNTLHYVYFDSAGVLQVAISPWSILSSNSPVATVYRNGSIYLIGDERHHYDRNREWHAWAHATLHAQYASGGTGAFTDTTLSIDQGVIRDEDIIIDSGGTKTTCLLMYRDPTLAYMVVGNLTSSTVYKATASKLQWDNGGALADVSNGNYGVHFVYQTNDVNNPIYSVLGQAQYTSSALAQAAAVPTTFPAYLTREWKLLYIVVYKQQGANTITFDSQVDLRSSVSGVGATGATGFQGNQGIQGSQGLQGNQGNQGLIGVQGFQGNQGQQGNQGNQGNQGQQGNQGTQGNVGLQGQQGNQGVQGNQGQQGNQGNQGNQGNQGSQGNQGLQGWQGLQGLQGLQGNQGRQGNQGSQGNQGQQGLQGLVGTQGQQGNQGLQGNQGAQGIQGSGAQGSQGYQGSGIQGFQGVSANGAQGLQGLQGLQGTGTNGVQGVQGLQGTNPGVQGNQGLQGNQGAGAASIDPQSGTTYTLALVDANNIVAFTNSGAIVCTVPTNAVAAFSVGTIIVIEQRGTGTVTLSPFDGSVTINGQLTTAAQWKSVTLIKQGTNTWDSVGSVGPTGPQGMQGFQGTGTNGVQGVQGPQGCQGLQGAGTNGAQGIQGLQGTNPGVQGPQGCQGLQGTGTAGVQGIQGLQGTNPGVQGPQGIQGLQGTGTNGVQGVQGLQGTNPGVQGYQGIQGSGAATVNTQSGSPYTLVLTDANNIVYFTSNSAVSCVVPANGTVAIPVGSITLLEQAGTGTVTVSPFDGTVTVNGQLTTVGQYTALSLVKTATNVWDSLRSVGPTGLQGLQGLQGNQGRQGNQGSQGNQGNQGNQGLQGNQGRQGNQGSQGNQGQQGLQGLQGQQGLQGLQGNQGRQGNQGQQGNQGNQGQQGNQGNQGPTTSPEAGSTYAPSSGSQTVALDCAGHNIHIVTGNASGTAITFTVTGATNNQAFIVSILQGSTVSTIAGWFATVRWAGGVTPTLTAVANKRDTFGFIRTGTNTYDGFIVGQNC
Physico‐chemical
properties
protein length:2155 AA
molecular weight: 213061,34460 Da
isoelectric point:5,19687
aromaticity:0,03944
hydropathy:-0,69202

Domains

Domains [InterPro]
IPR008160
514–569
IPR008160 IPR050149
A0A6J5LQ93_9CAUD
1 2155
Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Taxonomy

  Name Taxonomy ID Lineage
Phage uncultured Caudovirales phage
[NCBI] 		2100421 Uroviricota > Caudoviricetes > environmental samples >
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
CAB4130877.1 [NCBI]
Genbank nucleotide accession
LR796249 [NCBI]
CDS location
range 38426 -> 44893
strand -
CDS
ATGACCGCCCCGATAATGATAGATTCTGTTGAATTAAAACCCTCCTCAAGGGAGTCGTCAGATCAACACGGATCTTGTACCGATGGGTGCTTTGGTTCACCACCGCAACCGGGGCCTACAGGCTATCAGGGGAGTCAGGGCTATCAGGGCATTCAAGGACTTCAAGGCACGAACCCTGGTGTACAAGGCAGTCAGGGTACGCAGGGCCTGCAGGGCTATCAAGGCGAGCAGGGTGCCCAAGGTATTCAAGGCCTTCAAGGAACAAATCCTGGTGTTCAAGGGCCACAAGGAACACAGGGTAGCGACGGCTATATAGGCCTAGATGGCCCTCAGGGAATCCAAGGGTTACAAGGAACCAACCCTGGTGTGCAGGGCGCTCAAGGCGCTCAGGGAGCCCAGGGAGCCAACGGGTATATAGGTTTAGACGGTCCTCAAGGATGGCAGGGCCTACAAGGGACCAACCCCGGCGTACAAGGGCCACAGGGCATTGCTGGCATACAAGGAAATCAGGGAAGTGTTGGGGATACTGGTACACAAGGTAATCAGGGGAATCAAGGCAACCAAGGGCTACAGGGAAACCAGGGGCTACAAGGACGTCAGGGTAGCCAAGGATTGCAGGGCAATCAAGGTAATCAAGGCTTACAGGGACTACAGGGAAATCAAGGAACACAAGGGAACCAGGGCCAACAAGGGAATCAGGGAGGACAAGGCTCCACCGGTACCCAAGGCTCACAAGGAACCATTGGGTTGGTTGGTACTCAAGGGAGCCAAGGCAATCAAGGCAACATTGGCGCAATAGGTACACAGGGTAACCAAGGGAATCAAGGCATACAAGGAACGCAGGGCAATGCTGGTGTTGTCGGTTCTCAAGGCAATGTTGGTTCTGCGGGAACGCAAGGTAACGTCGGCTCTACTGGTAGCCAGGGTAACCAGGGCACTCAAGGGAACCAGGGTAACCAAGGCACGCAAGGCAATCAAGGTCTCCAAGGTCGGCAAGGTAATCAGGGTAACCAAGGCCTGCAAGGTAACCAGGGAGTCCAAGGAAGTCAGGGGCTGCAGGGTAACCAAGGGCAACAGGGCAATCAAGGCATACAAGGTAACCAAGGAAATCAAGGAAACCAGGGGAACCAGGGACAGCAAGGTAATCAAGGCCTTCAAGGAGTACAGGGAAACCAGGGTAACCAAGGTAGGCAGGGCGCGCAAGGCATTCAAGGACTTCAAGGTACTAATCCTGGCGTACAAGGCCCTCAAGGACTAGCAGGGTATGTAGGTACTGATGGAGCTCAAGGTGCTCAAGGCATACAGGGTGTTCAGGGTCTTCAAGGAACTAATCCCGGTGTACAAGGTTTTCAGGGCTCTGCTGGTTATATAGGGAGTGATGGTGCGCAAGGCAGACAGGGTCTTCAAGGCGGCCAAGGTCTTCAGGGGAACCAGGGTAATCAAGGAACGCAGGGCAATGTCGGGTCAGCCGGAATTCAAGGTAACCAGGGGCTTCAAGGAAATCAAGGCGCACAAGGTAATCAAGGAGCCATAGGAACCGGCGCTCAAGGAAACCAAGGCAATCAGGGAGTACAAGGGAGCCAAGGCAATCAAGGTAGTGCGGGAGGGGCTGGGACTCAGGGTAATCAAGGCCTACAGGGTAACCAAGGCAACCAGGGCAATACCGGAACACAAGGGAATCAAGGAAACCAGGGTGTTCAAGGAACTCAGGGCAATCAAGGTCGGCAGGGTAACCAGGGGAATCAGGGCACCGCCGGGTCTACAGGAGTGCAAGGAAACCAGGGCGCACAAGGAAATCAAGGGAGTGCAGGTTCTATAGGGACTCAGGGACTTCAGGGCTGGCAGGGAGCACAAGGTAATCAGGGTAATGTTGGATCGTCGGGAGCTCAGGGTAATCAAGGAGTTCAAGGCAATCAGGGTAACCAAGGAACAGTAGGTACGCAGGGTAATCAAGGTAGTAGCGGTACAGTTGGCAGTCAAGGTAACGTTGGCTCAATAGGCACGCAAGGTAGTGTAGGAACACAAGGTAACCAGGGGAATCAAGGTCTGCAGGGACTAGCAGGAACTTCTGGTGGTGCAGGTTCTCAGGGAAATCAGGGTAACCAAGGCAGTGTCGGGGTTCAAGGATTACAAGGTCTTCAGGGGAACCAAGGATCTCAGGGCTCTGGTATACAAGGAAGCCAAGGAGTTCAAGGCAACCAGGGTCTGCAGGGCACTAATCCCGGTGTTCAGGGGTCTCAGGGAACACAGGGCGCCCAAGGTATTGGGTATATTGGGTCGGATGGTCCTCAAGGGTGGCAAGGTCTACAAGGAACAAATCCGGGGGTTCAAGGACCACAAGGCAACCAAGGAAACCAAGGAGCTGGCGCAGCGTTAGTTAATTCTCAGAGCGGAACTACTTACACGTTACAGACTTCTGATGCGAATAACGTCGTTGCTTTTACGAATGGCAGCTCTATTACTTGTACCGTTCCGACGAACGCAGCTGCAGCTATTCCGATAGGCAGTATCATAGTTATAGAGCAGAGGGGGGCTGGCGTAGTCACTCTCTCGCCTTTCGATGGAACTGTTACTATAAACGGCCAGTTAACTACTGCAGCTCAGTGGAAATCCGTAACCCTAATTAAGCAAGACGTTAATACGTGGGATTCGATTGGCTCTGTAGGCCCCACTGGAGCTCAAGGTTATCAAGGTACCGGAGCTCAGGGAAATCAAGGTCAACAAGGAAACCAGGGTCTCCAGGGTAATCAGGGGCCAATTAGTGCGCAGGGGTCTCAAGGCAGTCAAGGCAACGCCGGTATTCAAGGATTTCAAGGTAACCAGGGCCTGGTGGGTATACAAGGAAATCAGGGAAGTCAGGGATTACAAGGCTTAACCGGTACTCAAGGAAATCAAGGATTTCAGGGGAATCAAGGACGCCAGGGTAACCAGGGTCTGCAGGGCAACCAAGGTAACCAGGGAAATCAAGGTCTGCAAGGAAATCAGGGTCTGCAGGGGAATCAGGGCAATCAAGGAAATCAGGGTAATCAAGGATGGCAAGGTCTGGCCGGAGTTCAGGGGAACCAAGGGGTACAAGGAAATCAAGGTAGTCAGGGAAATCAAGGTCTGCAGGGTAATGTAGGACTGCAAGGGAACCAGGGAAATCAGGGGCTACAAGGACCACAGGGTAACCAGGGCGCACAAGGTAATCAAGGGCAACAGGGAAATCAAGGAAACCAGGGCGTACAAGGGCTACAGGGTCTTCAAGGAAATCAAGGGCAGCAAGGGAATCAGGGCCTTCAAGGCAACCAAGGGGTACAAGGAAATCAGGGAAGACAAGGATTTCAGGGTTTTCAAGGAACAACGGCGGGGCTACAGCCGCTCCATGGGTTCGTAGATCAAGCTAGTTCCTCTTTGACCATGTCTGGGTCAACATTCCAACTTGCTCCGACAAGTGGCTCGTTTGATTTGTGGATTGAGGGGGTAAAATACACATACTCGACTACTCAGACTGTCTCGATTGCTACGGACAACACCCTTCACTATGTGTATTTCGATAGTGCTGGAGTGCTACAGGTCGCGATATCACCTTGGAGTATTCTTTCTAGCAATTCTCCTGTCGCGACTGTTTATCGCAACGGTTCAATTTATCTGATAGGGGATGAGAGGCACCATTACGATAGAAATCGTGAATGGCACGCTTGGGCGCATGCGACCCTGCATGCTCAGTATGCTTCCGGAGGTACTGGAGCATTTACAGACACGACTTTGTCTATAGATCAGGGAGTAATTCGCGACGAAGACATAATTATTGATAGTGGTGGGACTAAGACAACGTGTCTTCTCATGTATCGAGATCCGACTCTTGCGTACATGGTTGTGGGTAACCTAACTAGTTCGACGGTGTATAAAGCCACGGCTAGTAAGTTACAGTGGGATAACGGAGGGGCACTTGCTGACGTTTCCAACGGAAACTATGGAGTGCATTTCGTATATCAGACCAACGACGTAAATAATCCGATCTACTCCGTACTAGGTCAGGCTCAGTATACGTCTTCCGCATTAGCCCAAGCTGCCGCAGTTCCGACTACTTTTCCTGCCTATCTCACGCGAGAGTGGAAGCTGCTATATATTGTCGTTTACAAGCAGCAGGGCGCTAATACGATTACCTTCGATAGCCAAGTAGATCTTAGGAGTAGTGTTAGTGGCGTAGGGGCTACAGGTGCAACTGGATTCCAAGGAAATCAGGGGATACAGGGGTCGCAAGGATTACAGGGTAATCAAGGAAATCAAGGATTAATCGGTGTTCAGGGTTTTCAAGGTAACCAAGGACAGCAGGGTAACCAAGGGAATCAAGGAAATCAGGGGCAACAGGGAAATCAAGGTACACAGGGCAATGTAGGCCTCCAAGGACAACAAGGAAACCAAGGCGTACAAGGTAACCAAGGGCAACAAGGGAATCAGGGCAATCAAGGAAATCAGGGTAATCAAGGAAGTCAGGGCAACCAGGGTCTTCAAGGTTGGCAAGGACTTCAAGGGCTACAGGGTCTTCAAGGAAACCAAGGACGTCAGGGAAATCAGGGTTCTCAAGGAAATCAGGGACAGCAAGGTCTACAGGGATTAGTCGGAACTCAAGGTCAGCAGGGAAATCAGGGACTACAGGGAAACCAAGGGGCACAAGGAATTCAAGGGTCTGGGGCCCAAGGTAGCCAGGGATATCAGGGTTCAGGCATACAAGGTTTTCAAGGAGTTTCTGCAAATGGGGCGCAGGGGTTACAGGGTCTGCAGGGACTTCAAGGTACAGGTACAAACGGGGTACAGGGCGTTCAGGGCCTACAAGGAACCAACCCAGGAGTACAAGGCAACCAGGGTTTACAGGGAAATCAAGGTGCTGGAGCTGCTTCTATAGATCCTCAAAGCGGCACCACATACACACTTGCTCTAGTTGACGCCAATAATATTGTAGCCTTTACAAACAGTGGGGCCATTGTCTGTACTGTTCCTACGAATGCAGTGGCAGCATTCTCTGTCGGGACTATTATAGTTATCGAACAGAGAGGGACTGGTACCGTTACTCTTTCTCCGTTTGATGGGTCCGTTACTATAAACGGTCAGTTAACTACTGCAGCTCAGTGGAAATCCGTAACTCTTATAAAGCAAGGTACCAATACTTGGGATTCGGTCGGTTCTGTAGGTCCTACTGGACCTCAGGGAATGCAAGGTTTTCAAGGAACGGGTACAAACGGAGTACAGGGAGTACAAGGACCACAAGGCTGTCAAGGTCTTCAAGGAGCAGGTACAAATGGGGCCCAAGGTATTCAGGGCTTACAGGGGACTAACCCCGGAGTACAAGGACCACAAGGCTGTCAAGGTCTTCAAGGAACTGGTACAGCTGGAGTACAAGGTATTCAGGGCTTACAGGGGACTAACCCTGGAGTACAAGGACCTCAGGGAATTCAAGGTCTTCAAGGAACAGGTACAAACGGAGTACAGGGCGTTCAGGGCCTACAAGGAACCAATCCTGGAGTACAGGGATACCAGGGTATCCAGGGTTCTGGGGCTGCTACGGTCAACACCCAAAGTGGGTCTCCCTACACGTTGGTATTGACGGATGCCAACAACATCGTTTACTTCACCTCTAATAGCGCTGTTAGTTGTGTTGTCCCTGCTAACGGAACTGTTGCAATTCCCGTAGGCAGCATAACACTGTTAGAGCAGGCGGGAACAGGTACTGTCACCGTCTCTCCTTTTGACGGGACAGTTACCGTTAATGGACAACTTACTACGGTCGGACAGTATACGGCCTTATCTTTGGTGAAGACGGCGACTAACGTATGGGACTCTCTAAGATCTGTAGGACCAACTGGACTTCAAGGGCTACAGGGTCTTCAAGGAAACCAAGGACGTCAGGGAAATCAGGGTTCTCAAGGAAACCAGGGTAACCAAGGCAATCAGGGTCTTCAAGGTAATCAAGGACGTCAGGGAAATCAGGGTTCTCAAGGAAATCAGGGACAGCAAGGGCTACAGGGTCTTCAAGGACAGCAAGGGCTACAGGGTCTTCAAGGTAATCAAGGACGCCAGGGAAATCAAGGACAGCAAGGTAACCAGGGAAATCAAGGACAGCAAGGTAACCAGGGAAATCAAGGACCGACAACGTCTCCAGAAGCCGGGTCTACTTACGCCCCTTCATCGGGATCTCAAACAGTTGCCCTGGATTGTGCGGGACATAACATCCATATTGTTACGGGTAATGCCAGCGGTACTGCCATAACGTTTACTGTTACCGGAGCTACAAACAATCAGGCATTTATTGTTTCAATCCTACAGGGGTCTACTGTCTCAACAATTGCTGGTTGGTTTGCTACAGTCAGATGGGCCGGTGGTGTAACTCCAACATTAACTGCTGTTGCAAACAAACGGGATACGTTCGGATTCATCAGAACTGGGACTAATACTTATGATGGGTTTATTGTTGGTCAGAACTGCTAG
Genbank protein accession
CAB4135180.1 [NCBI]
Genbank nucleotide accession
LR796294 [NCBI]
CDS location
range 119637 -> 126104
strand -
CDS
ATGACCGCCCCGATAATGATAGATTCTGTTGAATTAAAACCCTCCTCAAGGGAGTCGTCAGATCAACACGGATCTTGTACCGATGGGTGCTTTGGTTCACCACCGCAACCGGGGCCTACAGGCTATCAGGGGAGTCAGGGCTATCAGGGCATTCAAGGACTTCAAGGCACGAACCCTGGTGTACAAGGCAGTCAGGGTACGCAGGGCCTGCAGGGCTATCAAGGCGAGCAGGGTGCCCAAGGTATTCAAGGCCTTCAAGGAACAAATCCTGGTGTTCAAGGGCCACAAGGAACACAGGGTAGCGACGGCTATATAGGCCTAGATGGCCCTCAGGGAATCCAAGGGTTACAAGGAACCAACCCTGGTGTGCAGGGCGCTCAAGGCGCTCAGGGAGCCCAGGGAGCCAACGGGTATATAGGTTTAGACGGTCCTCAAGGATGGCAGGGCCTACAAGGGACCAACCCCGGCGTACAAGGGCCACAGGGCATTGCTGGCATACAAGGAAATCAGGGAAGTGTTGGGGATACTGGTACACAAGGTAATCAGGGGAATCAAGGCAACCAAGGGCTACAGGGAAACCAGGGGCTACAAGGACGTCAGGGTAGCCAAGGATTGCAGGGCAATCAAGGTAATCAAGGCTTACAGGGACTACAGGGAAATCAAGGAACACAAGGGAACCAGGGCCAACAAGGGAATCAGGGAGGACAAGGCTCCACCGGTACCCAAGGCTCACAAGGAACCATTGGGTTGGTTGGTACTCAAGGGAGCCAAGGCAATCAAGGCAACATTGGCGCAATAGGTACACAGGGTAACCAAGGGAATCAAGGCATACAAGGAACGCAGGGCAATGCTGGTGTTGTCGGTTCTCAAGGCAATGTTGGTTCTGCGGGAACGCAAGGTAACGTCGGCTCTACTGGTAGCCAGGGTAACCAGGGCACTCAAGGGAACCAGGGTAACCAAGGCACGCAAGGCAATCAAGGTCTCCAAGGTCGGCAAGGTAATCAGGGTAACCAAGGCCTGCAAGGTAACCAGGGAGTCCAAGGAAGTCAGGGGCTGCAGGGTAACCAAGGGCAACAGGGCAATCAAGGCATACAAGGTAACCAAGGAAATCAAGGAAACCAGGGGAACCAGGGACAGCAAGGTAATCAAGGCCTTCAAGGAGTACAGGGAAACCAGGGTAACCAAGGTAGGCAGGGCGCGCAAGGCATTCAAGGACTTCAAGGTACTAATCCTGGCGTACAAGGCCCTCAAGGACTAGCAGGGTATGTAGGTACTGATGGAGCTCAAGGTGCTCAAGGCATACAGGGTGTTCAGGGTCTTCAAGGAACTAATCCCGGTGTACAAGGTTTTCAGGGCTCTGCTGGTTATATAGGGAGTGATGGTGCGCAAGGCAGACAGGGTCTTCAAGGCGGCCAAGGTCTTCAGGGGAACCAGGGTAATCAAGGAACGCAGGGCAATGTCGGGTCAGCCGGAATTCAAGGTAACCAGGGGCTTCAAGGAAATCAAGGCGCACAAGGTAATCAAGGAGCCATAGGAACCGGCGCTCAAGGAAACCAAGGCAATCAGGGAGTACAAGGGAGCCAAGGCAATCAAGGTAGTGCGGGAGGGGCTGGGACTCAGGGTAATCAAGGCCTACAGGGTAACCAAGGCAACCAGGGCAATACCGGAACACAAGGGAATCAAGGAAACCAGGGTGTTCAAGGAACTCAGGGCAATCAAGGTCGGCAGGGTAACCAGGGGAATCAGGGCACCGCCGGGTCTACAGGAGTGCAAGGAAACCAGGGCGCACAAGGAAATCAAGGGAGTGCAGGTTCTATAGGGACTCAGGGACTTCAGGGCTGGCAGGGAGCACAAGGTAATCAGGGTAATGTTGGATCGTCGGGAGCTCAGGGTAATCAAGGAGTTCAAGGCAATCAGGGTAACCAAGGAACAGTAGGTACGCAGGGTAATCAAGGTAGTAGCGGTACAGTTGGCAGTCAAGGTAACGTTGGCTCAATAGGCACGCAAGGTAGTGTAGGAACACAAGGTAACCAGGGGAATCAAGGTCTGCAGGGACTAGCAGGAACTTCTGGTGGTGCAGGTTCTCAGGGAAATCAGGGTAACCAAGGCAGTGTCGGGGTTCAAGGATTACAAGGTCTTCAGGGGAACCAAGGATCTCAGGGCTCTGGTATACAAGGAAGCCAAGGAGTTCAAGGCAACCAGGGTCTGCAGGGCACTAATCCCGGTGTTCAGGGGTCTCAGGGAACACAGGGCGCCCAAGGTATTGGGTATATTGGGTCGGATGGTCCTCAAGGGTGGCAAGGTCTACAAGGAACAAATCCGGGGGTTCAAGGACCACAAGGCAACCAAGGAAACCAAGGAGCTGGCGCAGCGTTAGTTAATTCTCAGAGCGGAACTACTTACACGTTACAGACTTCTGATGCGAATAACGTCGTTGCTTTTACGAATGGCAGCTCTATTACTTGTACCGTTCCGACGAACGCAGCTGCAGCTATTCCGATAGGCAGTATCATAGTTATAGAGCAGAGGGGGGCTGGCGTAGTCACTCTCTCGCCTTTCGATGGAACTGTTACTATAAACGGCCAGTTAACTACTGCAGCTCAGTGGAAATCCGTAACCCTAATTAAGCAAGACGTTAATACGTGGGATTCGATTGGCTCTGTAGGCCCCACTGGAGCTCAAGGTTATCAAGGTACCGGAGCTCAGGGAAATCAAGGTCAACAAGGAAACCAGGGTCTCCAGGGTAATCAGGGGCCAATTAGTGCGCAGGGGTCTCAAGGCAGTCAAGGCAACGCCGGTATTCAAGGATTTCAAGGTAACCAGGGCCTGGTGGGTATACAAGGAAATCAGGGAAGTCAGGGATTACAAGGCTTAACCGGTACTCAAGGAAATCAAGGATTTCAGGGGAATCAAGGACGCCAGGGTAACCAGGGTCTGCAGGGCAACCAAGGTAACCAGGGAAATCAAGGTCTGCAAGGAAATCAGGGTCTGCAGGGGAATCAGGGCAATCAAGGAAATCAGGGTAATCAAGGATGGCAAGGTCTGGCCGGAGTTCAGGGGAACCAAGGGGTACAAGGAAATCAAGGTAGTCAGGGAAATCAAGGTCTGCAGGGTAATGTAGGACTGCAAGGGAACCAGGGAAATCAGGGGCTACAAGGACCACAGGGTAACCAGGGCGCACAAGGTAATCAAGGGCAACAGGGAAATCAAGGAAACCAGGGCGTACAAGGGCTACAGGGTCTTCAAGGAAATCAAGGGCAGCAAGGGAATCAGGGCCTTCAAGGCAACCAAGGGGTACAAGGAAATCAGGGAAGACAAGGATTTCAGGGTTTTCAAGGAACAACGGCGGGGCTACAGCCGCTCCATGGGTTCGTAGATCAAGCTAGTTCCTCTTTGACCATGTCTGGGTCAACATTCCAACTTGCTCCGACAAGTGGCTCGTTTGATTTGTGGATTGAGGGGGTAAAATACACATACTCGACTACTCAGACTGTCTCGATTGCTACGGACAACACCCTTCACTATGTGTATTTCGATAGTGCTGGAGTGCTACAGGTCGCGATATCACCTTGGAGTATTCTTTCTAGCAATTCTCCTGTCGCGACTGTTTATCGCAACGGTTCAATTTATCTGATAGGGGATGAGAGGCACCATTACGATAGAAATCGTGAATGGCACGCTTGGGCGCATGCGACCCTGCATGCTCAGTATGCTTCCGGAGGTACTGGAGCATTTACAGACACGACTTTGTCTATAGATCAGGGAGTAATTCGCGACGAAGACATAATTATTGATAGTGGTGGGACTAAGACAACGTGTCTTCTCATGTATCGAGATCCGACTCTTGCGTACATGGTTGTGGGTAACCTAACTAGTTCGACGGTGTATAAAGCCACGGCTAGTAAGTTACAGTGGGATAACGGAGGGGCACTTGCTGACGTTTCCAACGGAAACTATGGAGTGCATTTCGTATATCAGACCAACGACGTAAATAATCCGATCTACTCCGTACTAGGTCAGGCTCAGTATACGTCTTCCGCATTAGCCCAAGCTGCCGCAGTTCCGACTACTTTTCCTGCCTATCTCACGCGAGAGTGGAAGCTGCTATATATTGTCGTTTACAAGCAGCAGGGCGCTAATACGATTACCTTCGATAGCCAAGTAGATCTTAGGAGTAGTGTTAGTGGCGTAGGGGCTACAGGTGCAACTGGATTCCAAGGAAATCAGGGGATACAGGGGTCGCAAGGATTACAGGGTAATCAAGGAAATCAAGGATTAATCGGTGTTCAGGGTTTTCAAGGTAACCAAGGACAGCAGGGTAACCAAGGGAATCAAGGAAATCAGGGGCAACAGGGAAATCAAGGTACACAGGGCAATGTAGGCCTCCAAGGACAACAAGGAAACCAAGGCGTACAAGGTAACCAAGGGCAACAAGGGAATCAGGGCAATCAAGGAAATCAGGGTAATCAAGGAAGTCAGGGCAACCAGGGTCTTCAAGGTTGGCAAGGACTTCAAGGGCTACAGGGTCTTCAAGGAAACCAAGGACGTCAGGGAAATCAGGGTTCTCAAGGAAATCAGGGACAGCAAGGTCTACAGGGATTAGTCGGAACTCAAGGTCAGCAGGGAAATCAGGGACTACAGGGAAACCAAGGGGCACAAGGAATTCAAGGGTCTGGGGCCCAAGGTAGCCAGGGATATCAGGGTTCAGGCATACAAGGTTTTCAAGGAGTTTCTGCAAATGGGGCGCAGGGGTTACAGGGTCTGCAGGGACTTCAAGGTACAGGTACAAACGGGGTACAGGGCGTTCAGGGCCTACAAGGAACCAACCCAGGAGTACAAGGCAACCAGGGTTTACAGGGAAATCAAGGTGCTGGAGCTGCTTCTATAGATCCTCAAAGCGGCACCACATACACACTTGCTCTAGTTGACGCCAATAATATTGTAGCCTTTACAAACAGTGGGGCCATTGTCTGTACTGTTCCTACGAATGCAGTGGCAGCATTCTCTGTCGGGACTATTATAGTTATCGAACAGAGAGGGACTGGTACCGTTACTCTTTCTCCGTTTGATGGGTCCGTTACTATAAACGGTCAGTTAACTACTGCAGCTCAGTGGAAATCCGTAACTCTTATAAAGCAAGGTACCAATACTTGGGATTCGGTCGGTTCTGTAGGTCCTACTGGACCTCAGGGAATGCAAGGTTTTCAAGGAACGGGTACAAACGGAGTACAGGGAGTACAAGGACCACAAGGCTGTCAAGGTCTTCAAGGAGCAGGTACAAATGGGGCCCAAGGTATTCAGGGCTTACAGGGGACTAACCCCGGAGTACAAGGACCACAAGGCTGTCAAGGTCTTCAAGGAACTGGTACAGCTGGAGTACAAGGTATTCAGGGCTTACAGGGGACTAACCCTGGAGTACAAGGACCTCAGGGAATTCAAGGTCTTCAAGGAACAGGTACAAACGGAGTACAGGGCGTTCAGGGCCTACAAGGAACCAATCCTGGAGTACAGGGATACCAGGGTATCCAGGGTTCTGGGGCTGCTACGGTCAACACCCAAAGTGGGTCTCCCTACACGTTGGTATTGACGGATGCCAACAACATCGTTTACTTCACCTCTAATAGCGCTGTTAGTTGTGTTGTCCCTGCTAACGGAACTGTTGCAATTCCCGTAGGCAGCATAACACTGTTAGAGCAGGCGGGAACAGGTACTGTCACCGTCTCTCCTTTTGACGGGACAGTTACCGTTAATGGACAACTTACTACGGTCGGACAGTATACGGCCTTATCTTTGGTGAAGACGGCGACTAACGTATGGGACTCTCTAAGATCTGTAGGACCAACTGGACTTCAAGGGCTACAGGGTCTTCAAGGAAACCAAGGACGTCAGGGAAATCAGGGTTCTCAAGGAAACCAGGGTAACCAAGGCAATCAGGGTCTTCAAGGTAATCAAGGACGTCAGGGAAATCAGGGTTCTCAAGGAAATCAGGGACAGCAAGGGCTACAGGGTCTTCAAGGACAGCAAGGGCTACAGGGTCTTCAAGGTAATCAAGGACGCCAGGGAAATCAAGGACAGCAAGGTAACCAGGGAAATCAAGGACAGCAAGGTAACCAGGGAAATCAAGGACCGACAACGTCTCCAGAAGCCGGGTCTACTTACGCCCCTTCATCGGGATCTCAAACAGTTGCCCTGGATTGTGCGGGACATAACATCCATATTGTTACGGGTAATGCCAGCGGTACTGCCATAACGTTTACTGTTACCGGAGCTACAAACAATCAGGCATTTATTGTTTCAATCCTACAGGGGTCTACTGTCTCAACAATTGCTGGTTGGTTTGCTACAGTCAGATGGGCCGGTGGTGTAACTCCAACATTAACTGCTGTTGCAAACAAACGGGATACGTTCGGATTCATCAGAACTGGGACTAATACTTATGATGGGTTTATTGTTGGTCAGAACTGCTAG

Gene Ontology

Description Category Evidence (source)
GO:0005615 extracellular space Cellular Component IEA:TreeGrafter (UniProt)
GO:0030020 extracellular matrix structural constituent conferring tensile strength Molecular Function IEA:TreeGrafter (UniProt)
GO:0030198 extracellular matrix organization Biological Process IEA:TreeGrafter (UniProt)

Enzymatic activity

No enzymatic activity data available.

Tertiary structure

No tertiary structures available.

Literature

No literature entries available.