Protein

Protein accession
A0A0K0NKU9 [UniProt]
Representative
5nCFz
Source
UniProt (cluster: phalp2_3732)
Protein name
Putative tape measure protein
Lysin probability
100%
PhaLP type
VAL
Probability: 99% (predicted by ML model)
Protein sequence
MTPAELRILVTVRSAEAKKSLDGLRLMMGKIAAQTTLASTEMKAFNGVVASSVAPLKSSSAAAADLAAHLALIGKSKAAATLSGIDASASKAQRSVGLLGKNATTAATGLKAINTGSQNAAVGINRLNKSSAGIERLGTVFKGTATGVRSLNTALNQNTVSSARAVGGLNSASAAAERAAAAATASATGFSSSAAAMGAMGAAGAVAGRAATAATTGAAAGAAAQGTFAQRLAGTSEALRKQGSRAQWAGRQISMMFTAPVALAIGMGAKWQLDLEKQQTQLAKVYGRIGEDQDALGVETQKLNKYFRLLSDELGNSQEEITSIGAAWAQAGKSGAALAEYTRLTTEAMILGDITADQAQQSMTALSLQWNLGAKASKITATEFMNMKDAIAAINVASNETQVSYADLLQVMGQAGSIARTSGASFKETLAMATSITRVTGNAAKTGNALKSILTNALKPPKGGGTEWMKKLGVDLESVEGRALTSSQRIEVLAENLSKLDQQGQVEAIGSMFTKWQINAFAQLGKDIRQARIQLLGWSKDITGSERAAQGLYDSMTRALGSPMQSRAAQNAFKGLEIDIKAADYQSMNANARFIRLADSMRGMDEQARKVKLEQIFGPANVGALDKLVQKTNENTEALGNYNREIASTGDKAKNLEQYKKELDKFLESNPQKFKIAGTMMKNALMDVAVILLPYILALAKSIAKMAQAFANMNPTLQKVVIGFLVFLALVGPLAILIASFKVLFGVLGGGMAKLIGFFTVTSTSATGATTSLFRFSAAGRAAARANKAAAAEIAGSSKVGFGAAAKSAMTSARTTVREFATGAKAAAASWKAGIRGIPVSTRINGAQTAAVQTQNNAIMLARINGGMAAIRAAQARGEQARISTIRLYGNLAAIEQSMGMKKQAAAVTAGGAGVVAAQKGVGAAQVAAAGKSGTAAGAAAGAGAARGMKGKLPGILGILATVLFFIPPSWFKAGGDAAKSLGKGLMDGIKNLGGSIKSLMGRMGITSARSFGSAIARTLGGKGGLIGAAIASVVSGIAFAWDDIKKITQKVFGGDSNVPLLARPFVWAVEVIVAAVKKLPDVIVAVFQGIVSFITKAAKKIYEAFSYINPFARHSPSLVENVTNGMAIVTSIFGDASRSIQQDMRNAYGAIYKFGSATAGLNMKAANIKRDDDLGAIKKADPSGAATKGYLELERNAKKLEANSVRLNAALQKQQRIVDALSNKVKIADRNIDQMQKTMESLQKIADATGKALDYAKEQLEYYANAPIKGMRAMSDAIFENEMAQKRLQLEMMKLEDAGGSIDEITDKYARLQGQIETLSGQRADLQQKGAGSDILATYDKMIADLKAQQGAAISSGPAKEIEELNKSLDDLKRKGEMLDLENSLKFDPLTRQIDQLVNTEKELDFSTIVTGVTTYKAQVEGLTIANNLATGAVQAQQAAIDAASASRDALNQRLTLEQEKLDGIKSVYDQNQQAITDVRAAMDELVSSAGTVNQKMEEVAQKAKDAADKAGELGDKLGELGDADIEAPDLSEVGNSLDDMISDMEKKFEGAGLFDGLGEKIKNFFGGLPGKIGGFLGKAMGVIWDFIKKLPGELVRGISYLAGFLVGAAAKLVVAIIVGLYKLSGKIVELVDKAFGWIWEVGIPKLWQKLKDIDWGGMLAGIFTGETWAKLAIALWDAGVWLIKGLFNGIKSMLTNVWDWVFENIIRPIIDGVRDGFGIASPSTVFAEIGNWLVEGLLKGLVDNIVKVFTWFMELPARVITAIGDLAGFLGRKFGEAIQWVRDRLPEWWEKINNFFGGIPGKVGELLGGIGRAIGDKFKGAWDWVSSKMEDWARPVVDWFKRLPDLIGGIFDTVKEKLKTPINFVIGTVYNNGLRKVWNNTAGKVGLPEMGEVQQLAKGGSVGNRIVGPGTGTSDSILTTAKPGSEIFTAREVANAGGFKALESLLGRMGVRSFMSSGTGGVPVALSNGEFRLDPTQIAQIGGSAKVKQLRAQLAAGNVPGHDVGGDIMDVVTGSISNVKQGAKNVAAFGVDKALDAVDALIPDMLTPPGGDIGRYPQKVFDTFREKIINALKGADDVKRSGKKLNAPSVRKSGFATGGTIPSTTGGTGATPSTADTSTGASAAAPGIDPATGAGLVESVTGATAAAQAVWQSYYAAIEEEQLTNATTMQAQQLTADTAMLAQQTATIATMQTASASFRASEIAADAAYQTTLAAQDLASKTLLNSQLATFVSAQTTQWAALRKSVVDTATGMNADVSNQFELLSENIRRTIEDGINPTIGSLEELLNRTVGWFEAASNDIGAMWSQTVPKVQDPTRVIINDVYNNGVRVAWSKVHTWLDLPELDQFVAPFAKGGQLGPEGMVSVNSLSNPNSPKSVKNGGPLRAASSSRDSTLFAGMRGEYVMNRKMVQGAGGISNLEAWRKATLSGRKPIETGGTVNFDAVPGFASGGVLGMDKRPENQALPGVIQEVPERLRPYYNRTYDYGGGGQPGRGYDCSGWTGAVHQILTGGSHVGRIWSTEVNFSSYGYKRGNDGYWSMGVHNGGGGMSSHTAGTLAGVNYESGGAHNTSTWGGPAAGTINPQFENQYYLPSLGGKFIGTPGGGGAVAITPMLLEMWDKEMTRVKEGISGLAFGGTIGQNPPKAYDKFNLLRGVIEKKGKEKDAAAAASAAANYGQGPEGSYGGGVERWRSVVHDALARVGQPKSLDEITLRRMNQESRGNPRAINLWDSNAAQGTPSKGLMQVIDPTFQANRDPSLPNDIWDPMANIVASMRYTLGRYGSLPAGYGRAGGYDSGGWLEPGLTAAVNATGKPEAILTNTDWKAVYKAAMKPTLSIDDIANGYAKGMAKVFGLNTDKEVQKSIQGATEVALQGQNSKWNPMVVDATEDVKAEATKTTEAVYKVTDTVKGTGNIMTGILGATEDNKKVLDQMLAVMNAGAGTLGQIGAKWVKGEDGKEGKWEYNVTFGAFAPLIESIAGLVENLPDAEPTYVSWAGTNREVTKEMQREKQMNDLANSSKGLYYAFKTIAPPVLRSTAKIGAAIETLVQQDGEAWAMISAQLAAGNPTAYLAAAVLSLKAILTILPLVIEAIMSIGPAIIESLIAYFTKFEPDSVYAYGTYEAANDAVVKNQNAIRNGATGPVFETPSVQQEQQSYNFNFYGDVVVPNVTNESGVDTLVGNLLGLAGV
Physico‐chemical
properties
protein length:3186 AA
molecular weight:335214,2 Da
isoelectric point:9,14
hydropathy:-0,09
Representative Protein Details
Accession
5nCFz
Protein name
5nCFz
Sequence length
2378 AA
Molecular weight
250342,02420 Da
Isoelectric point
8,50875
Sequence
MAPPIGYQAGTAWIQVLASFDGTQKDIADFADRQVMRVRVTPLINAQQFSKDLDDAARKAAHAVNLPVHVDPKQLTEGVSDAAKKAKPKVTLTPEVDAKDVEKRADSAARKAKPKIVYKSVINPSDTKKALSALPDVHRVSVIADADRLKLTVRQILNRRDLSVLQMDLDISKIQERLKLLEKVKLHKSVDVDANIAAYKGQVKSLTKERAEATINVDADIQKATVALDDLEKTLAFRIVQAERGIERAQKGLTKLRQEAQQAADDGIELDISVKEAQFRKEIDHFAARIPKLPIEFEPKISGAKNQLAELLATKQRKVIEIDADIAGVKAKLAELEAVRPHINVDVDGETAALESKLRYLETNRQTVVIKADADIVAAQTKLAAVKSQADTLGSLNTSIGVEAEDASRALAVMGSLIIAVSTLGFIAPAAAAAVALIPAAVIAAGTGLAATAMGFKGVSTAVKALQTVEDEQVSKSSANAEKRAQAAQRVTDANRSLQKAQSDADRTSEQGAAQVKAAREGVADAQSAANRRVEDAERSLSRAQADAQVAQESLNQARKEAKERLEDLRLSVAGAALDEEDAVLGVERARARLAEAQKKAKDESAAFAKSPKTAKITVSGLDLKELSLSVRQAEQSLVEVRERYGDLRQEATAASRAGIEGSQGVVAAQRAVGEANTRVGDQERALRQARSDGTRQVAKAQAQVAQAQAQAAYAAQAATERVTDAQRKLAEVSAEVGKESTGSIDKLSLAMSKLSPAGQQFATFLQDDLKPGLQGVGAAAAEEMLPKVENALTTLMELAPLAERIFADTGRVVGTLAEDFANMLTTTEWQQDLEKMGSSSNRVLLSMGDAGLGLADTFRHLSVASGPFVEGLAQSIAVGTENLATWVEMKRESGELSVWFVEMGTRIREIWADFKDLASGIWDVIEAIAPLGRIFLDVFAAFAQFIGALASANPTLFTIIAAAALLFSGFVSLFRMVGGLRKAVHDSVGVFNQMKTSLFGVKGASAEAAKAADGMTTATGKAAGATEAQIGVVGRARQRFRDFRTAIKDAYTLGADSAGKWAATTAGAAHQATGALNSVVPASQNATGALGRLQGVAQTTFVGIARGAGGAASAIGRGLGRAVGGIVGALGGLGGVALTAAVVGLGFLAQAQAEAARKAAEHEANLEELEQALVDSGGAIDDDVKQKIVDNLATASLIDNTENLGLSTEDLIRNISEGAGPTGDFAKSLEGVADEMLANNEITEDGARVLKRLVRQLVDSGGSAKENEGNIKRLGSEYQRLTGASNESTAAFESQITQLLDLAAGYHNTGKDLEGTQEEARLTTAAMEAAGLETGEFAGELDGVGDEAAGTTTPLEDMQTAITDLGDESKTAQEKVDGFKDALAELEDQSFTTEEASQEINDGMRPLPELFAAAKAAAEKLGKPLIDASGAINTTTEEGSQLQDALRDLSTSFQGEFAAALEEGRKKFKTEGEAMVYASKKTAISRDRLIDLAKQAGLTGVEVDKLIGHYRLVPSIIQSAIVTPGMNRAIIDALNLKSAVVEVPNQWQIVMSSTSPQEIELLKSLGFLVKTLPNGNILVQVDSAAARKELKYLAATDVKTIKVALQLDPRFASMTPAQRQAALKAIKFSSGGSVIPVASKAKPKPKPKPKASSRRSGVLPNADGGIREYWATGGMRPMSGRLADIVGSFSKTGVQRVIGDNPRTDEAFIPLEKTKRSLAILAEAAARLGYALKPMAAGGVIPMAGGGISGGGAAQAGNVDANPVIALGAAVDKLSANSLPALTNEVTTSTVPTLAKFEEHTGVLAVGSVGRLANSMVPLRAGFTQTTATAQGSWTKMSTSAGMSAAGQGRALGGLRSGMASTRQAMTNTASWAVTQYGRIQSAAATPIRWVLANPMNRGIIAAWNKLNTDFGLRKPIKPVPIPFAEGGRVPGFGNEDKVRAMLTPGEIVFDRTAITNLGGIAQVERFRRMARAGIVGPNKRLGGEPGDAGLRQRLMRTVPLDGLGFGFGGVQPHVARAGEEIMHKFGSLPGGIGGIGSRPNASDHPSGHALDFMTMTNVNLGNRIAGYMQANAKRLLLKYLIWQQKINQGSGWDPMEDRGSVTANHFDHVHASFLKMGAAGRDFTGAGLMGDPADYFKAAFKMLGQTNSMFPGNNAAGAAAGMARQAIAALTQYANTAALSSGTPGNVESWRPLVIRALRMLGLNPGWADITLRRMAQESGGNPRAINLWDSNAAKGTPSKGLMQTIDPTFQAYRDPRAPNDVYNPLANILASMKYAMSRYGSLPAAYGRPGGYDGGGLLPYGLQTIFHGARKPDKVLTDNQWSALISLAANNSGGGAGGDFTGNLYLSSGEFMGVVRGEIDKANTTSGLTLARRIR
Other Proteins in cluster: phalp2_3732
Total (incl. this protein): 2 Avg length: 2782,0 Avg pI: 8,83
Protein ID Length (AA) pI
5nCFz 2378 8,50875
Similar Clusters (pHMM search)
# Cluster # Members Identity (%) Alignment Length E-value
1 phalp2_18621
2XmQ
 3 29,8% 2372 7.416E-175
2 phalp2_6553
11DGv
 4 26,1% 2061 8.742E-84
3 phalp2_14941
8N0Ls
 31 23,7% 2610 6.070E-62
4 phalp2_29973
7of38
 4 24,3% 2057 1.053E-48
5 phalp2_6456
hsjD
 15 25,9% 2096 1.475E-46

Domains

Domains [InterPro]

No domain annotations available.

Taxonomy

  Name Taxonomy ID Lineage
Phage Gordonia phage GMA3
[NCBI] 		1647284 Gamtrevirus > Gamtrevirus GMA3
Host Gordonia malaquae
[NCBI] 		410332 Actinobacteria > Actinobacteria > Corynebacteriales > Gordoniaceae > Gordonia >

Coding sequence (CDS)

Coding sequence (CDS)
CDS Source ID
[NCBI]
CDS Source
KR063279 [NCBI]
CDS location
range 14859 -> 24419
strand +
CDS
ATGACTCCAGCAGAACTTAGAATTCTTGTTACGGTTCGATCGGCTGAGGCTAAAAAGTCTCTTGATGGTCTTCGTCTTATGATGGGCAAGATCGCCGCGCAGACGACGCTTGCCTCTACTGAAATGAAGGCATTCAATGGCGTTGTCGCCAGCTCGGTTGCTCCGCTTAAGAGTTCCAGTGCAGCAGCCGCAGACCTCGCGGCTCATCTGGCACTAATCGGAAAGAGTAAGGCAGCCGCAACCCTTAGCGGAATTGACGCCTCTGCATCCAAGGCTCAGCGTTCCGTTGGGCTTCTTGGTAAAAACGCAACGACAGCAGCGACCGGCCTCAAGGCAATTAATACGGGATCGCAGAATGCAGCCGTTGGCATAAACCGACTCAATAAGAGTTCGGCAGGAATCGAGCGACTTGGCACGGTATTCAAGGGTACCGCAACTGGTGTCAGGTCGCTTAATACTGCCCTAAACCAGAACACCGTTTCGAGCGCTCGCGCTGTCGGTGGACTGAATTCCGCGAGCGCAGCAGCAGAGCGTGCAGCAGCCGCCGCGACGGCATCGGCCACCGGGTTTTCCAGCAGCGCAGCCGCCATGGGCGCGATGGGCGCAGCAGGGGCGGTAGCCGGACGGGCAGCCACCGCCGCGACTACCGGCGCAGCAGCGGGTGCAGCGGCGCAGGGAACATTTGCACAGCGACTCGCTGGCACGTCCGAGGCGCTGAGAAAACAGGGTTCGCGCGCACAGTGGGCCGGTCGCCAGATTTCAATGATGTTCACTGCCCCTGTGGCGCTTGCTATTGGCATGGGCGCAAAGTGGCAGCTCGATCTTGAAAAGCAGCAGACTCAGCTCGCCAAGGTTTACGGTAGAATTGGCGAGGACCAGGACGCCCTCGGAGTCGAGACACAAAAGCTGAATAAATACTTCCGTCTTCTGTCGGATGAGCTTGGTAATTCTCAGGAAGAAATTACCTCTATCGGTGCGGCATGGGCGCAGGCTGGCAAGAGTGGCGCAGCACTCGCTGAATATACTCGCCTCACTACTGAGGCAATGATTCTCGGCGATATTACCGCCGATCAGGCTCAGCAGTCGATGACCGCTTTGAGCTTGCAGTGGAATCTTGGTGCAAAGGCATCAAAGATTACCGCTACAGAATTCATGAACATGAAGGACGCAATTGCAGCGATTAACGTTGCGTCTAACGAGACTCAGGTTTCTTACGCCGACCTTCTCCAAGTCATGGGCCAGGCCGGTTCAATTGCGCGAACTTCGGGTGCGTCGTTCAAGGAAACCCTTGCAATGGCGACCTCGATTACTCGTGTTACGGGCAACGCTGCAAAGACCGGTAATGCGCTTAAGTCGATTTTGACTAATGCCCTTAAGCCGCCAAAGGGTGGCGGCACGGAGTGGATGAAAAAGCTCGGCGTTGACCTGGAAAGTGTTGAGGGTCGAGCACTCACTTCTTCTCAGCGTATTGAAGTTCTTGCCGAAAATCTTTCTAAGCTGGATCAGCAGGGCCAGGTCGAGGCAATTGGCTCGATGTTTACCAAGTGGCAGATCAATGCTTTTGCCCAGCTTGGCAAAGATATTCGTCAGGCTCGCATTCAGCTTTTGGGATGGTCGAAAGATATTACGGGAAGCGAAAGGGCTGCACAGGGTCTATACGACTCCATGACCAGGGCTCTTGGCTCGCCGATGCAAAGTCGTGCAGCGCAGAATGCGTTCAAGGGACTGGAAATCGATATCAAGGCTGCCGATTACCAGTCCATGAATGCTAATGCCAGGTTCATTCGACTTGCCGATTCTATGCGCGGAATGGATGAGCAGGCACGCAAGGTTAAGCTGGAGCAGATTTTCGGTCCGGCTAATGTTGGTGCGCTTGATAAGCTGGTTCAGAAGACCAACGAAAATACCGAAGCTCTGGGTAATTATAATCGCGAGATTGCATCCACCGGAGATAAGGCAAAAAATCTTGAGCAGTATAAGAAGGAGCTTGACAAGTTCCTAGAGTCGAATCCACAGAAGTTTAAAATTGCTGGCACAATGATGAAGAACGCCCTCATGGACGTTGCTGTCATTCTTCTGCCATATATTCTTGCGCTGGCTAAGTCTATTGCGAAAATGGCGCAAGCCTTTGCGAATATGAATCCGACTCTCCAAAAGGTCGTTATTGGCTTCCTGGTGTTCCTTGCCCTTGTTGGTCCGCTCGCAATACTGATCGCGAGCTTCAAGGTTCTGTTCGGCGTCCTCGGCGGCGGAATGGCAAAGCTGATCGGATTTTTTACGGTCACCAGCACGTCGGCAACGGGTGCGACTACATCGCTTTTCCGGTTCAGTGCAGCCGGTCGCGCAGCCGCGCGCGCCAATAAGGCCGCAGCAGCCGAGATAGCGGGGTCGTCAAAGGTTGGCTTTGGTGCAGCGGCCAAATCTGCAATGACTAGTGCCCGTACTACCGTTCGGGAATTTGCAACTGGCGCAAAGGCGGCTGCTGCATCATGGAAGGCCGGAATTCGAGGAATTCCAGTATCTACCAGGATTAATGGCGCTCAGACCGCCGCTGTTCAGACTCAAAATAATGCAATCATGTTGGCGCGAATCAATGGCGGAATGGCCGCGATTCGTGCTGCACAGGCGCGCGGTGAGCAGGCTCGCATTTCCACCATCCGCCTTTACGGAAACCTTGCTGCAATTGAGCAGTCGATGGGAATGAAAAAGCAGGCTGCCGCAGTTACCGCCGGTGGCGCAGGTGTTGTTGCTGCGCAAAAGGGCGTTGGCGCTGCACAGGTTGCTGCTGCCGGTAAATCTGGAACGGCTGCTGGTGCCGCCGCTGGCGCTGGTGCCGCCCGTGGAATGAAGGGCAAGTTGCCTGGCATTCTTGGAATTCTTGCAACAGTTCTTTTCTTCATTCCTCCAAGCTGGTTTAAGGCCGGTGGCGATGCCGCGAAGAGCCTTGGCAAGGGTCTTATGGATGGAATCAAGAATCTTGGTGGAAGCATCAAGAGCCTTATGGGCAGGATGGGAATTACTTCTGCTCGTAGCTTTGGGTCCGCAATTGCTAGAACGCTTGGCGGAAAGGGCGGTCTGATTGGTGCTGCGATTGCATCAGTTGTTTCCGGCATCGCATTTGCATGGGACGATATCAAGAAGATTACCCAAAAGGTCTTTGGCGGGGATTCAAATGTTCCCCTTTTGGCGCGTCCTTTCGTGTGGGCCGTTGAGGTAATCGTTGCTGCTGTTAAGAAGCTGCCTGACGTAATTGTGGCGGTTTTCCAGGGAATCGTTAGCTTTATCACTAAGGCTGCGAAGAAAATCTACGAGGCATTTAGCTACATTAACCCGTTTGCGCGTCACTCACCTTCCCTGGTTGAGAATGTGACAAATGGTATGGCTATCGTCACCAGTATTTTTGGTGACGCTTCACGTTCGATTCAGCAGGATATGCGTAATGCATATGGTGCTATCTACAAGTTCGGTAGTGCAACTGCTGGCCTGAATATGAAGGCCGCAAATATCAAGCGCGATGACGACCTCGGTGCAATAAAAAAGGCTGATCCTTCTGGCGCAGCAACAAAGGGTTATCTTGAACTTGAGCGCAACGCCAAGAAGCTCGAAGCTAATTCTGTTCGTCTGAACGCGGCATTGCAGAAGCAGCAGCGAATTGTTGATGCCCTGTCGAACAAGGTGAAGATTGCTGATCGCAATATCGATCAGATGCAGAAGACCATGGAGTCTTTGCAGAAGATTGCAGACGCAACCGGCAAGGCTCTTGATTATGCAAAGGAGCAGCTAGAGTACTACGCGAATGCCCCAATTAAGGGTATGCGCGCAATGTCTGACGCTATTTTCGAGAACGAAATGGCACAGAAGCGTCTACAGCTTGAAATGATGAAGCTGGAAGATGCTGGCGGTAGCATTGATGAAATTACGGATAAGTACGCACGTTTGCAGGGGCAGATTGAAACCCTGTCCGGCCAGCGTGCGGACCTCCAGCAAAAGGGTGCTGGTAGCGATATTCTTGCCACTTACGACAAGATGATCGCTGATCTTAAAGCCCAGCAGGGCGCTGCAATTTCCAGCGGACCCGCAAAGGAAATTGAAGAACTGAATAAGTCGCTTGATGATTTGAAGCGCAAGGGTGAAATGCTCGACCTTGAGAATTCTCTCAAGTTCGATCCGCTTACGCGACAGATTGATCAGCTCGTAAACACAGAGAAAGAGCTTGACTTCTCGACCATCGTTACCGGTGTGACAACCTATAAGGCGCAGGTCGAAGGTCTGACGATTGCAAATAATCTTGCAACCGGCGCTGTTCAGGCTCAGCAGGCTGCAATTGATGCCGCGTCCGCAAGTCGCGATGCGCTTAATCAGCGGTTGACTCTTGAGCAGGAAAAGCTCGATGGAATCAAGTCTGTTTACGATCAGAATCAGCAGGCCATTACTGACGTACGCGCAGCAATGGATGAGCTTGTCTCTTCTGCTGGCACGGTTAATCAGAAGATGGAAGAGGTTGCCCAAAAGGCCAAGGATGCCGCCGATAAGGCTGGTGAGCTTGGTGACAAGTTGGGCGAGCTTGGTGATGCGGATATTGAGGCACCAGACCTTAGCGAGGTTGGTAATTCTCTTGACGACATGATCAGCGACATGGAAAAGAAGTTTGAGGGCGCTGGACTTTTTGATGGTCTTGGCGAAAAAATCAAGAACTTCTTTGGGGGATTGCCAGGTAAAATTGGCGGATTCCTCGGTAAGGCCATGGGTGTTATCTGGGACTTCATTAAGAAGCTCCCCGGCGAGCTGGTGCGAGGTATTTCGTATCTGGCAGGCTTCCTGGTTGGCGCAGCCGCGAAACTCGTCGTGGCTATTATAGTCGGCCTGTACAAGCTGAGCGGAAAGATTGTTGAACTTGTAGACAAGGCTTTTGGATGGATTTGGGAAGTGGGAATTCCCAAGCTGTGGCAGAAGCTAAAGGACATTGACTGGGGCGGAATGCTGGCCGGTATTTTCACTGGCGAGACATGGGCAAAGCTGGCAATCGCGCTCTGGGATGCCGGGGTGTGGCTGATCAAGGGCCTGTTCAACGGCATTAAGAGTATGCTGACCAATGTTTGGGACTGGGTCTTTGAAAATATCATCAGGCCAATCATTGACGGCGTTCGGGACGGCTTTGGTATTGCATCCCCGTCGACGGTCTTTGCCGAAATTGGCAACTGGCTGGTGGAGGGCCTTCTTAAGGGGCTTGTTGACAATATTGTCAAGGTCTTCACCTGGTTTATGGAGCTGCCTGCAAGGGTTATCACCGCAATTGGAGACTTGGCTGGATTCCTTGGGCGAAAGTTTGGCGAAGCAATTCAATGGGTTCGCGATCGACTTCCCGAATGGTGGGAGAAGATCAACAACTTCTTCGGCGGAATTCCCGGAAAGGTTGGCGAACTTCTTGGTGGAATTGGTCGAGCAATTGGCGACAAGTTCAAGGGTGCCTGGGATTGGGTTTCCAGCAAAATGGAAGACTGGGCGCGCCCGGTTGTGGACTGGTTTAAGCGACTCCCGGACCTTATCGGAGGAATCTTCGATACGGTCAAGGAAAAGCTCAAGACTCCGATTAACTTTGTTATCGGAACTGTCTACAACAACGGTCTCCGTAAGGTCTGGAATAATACAGCTGGCAAGGTTGGTCTTCCGGAAATGGGAGAAGTCCAGCAGCTCGCAAAGGGCGGAAGCGTCGGCAACCGCATAGTCGGACCGGGAACGGGTACTAGTGACTCTATTCTCACGACCGCAAAGCCGGGTAGTGAGATTTTCACTGCTCGTGAAGTTGCTAACGCTGGTGGATTTAAGGCACTGGAATCGCTGCTCGGTCGGATGGGTGTCCGGTCGTTTATGAGCAGCGGCACCGGTGGAGTTCCTGTTGCTCTTAGTAATGGTGAATTCCGTCTTGATCCGACGCAAATTGCGCAAATTGGTGGCAGCGCAAAGGTTAAGCAGCTTCGCGCTCAGCTTGCCGCTGGTAATGTTCCTGGTCATGATGTTGGTGGCGATATTATGGACGTCGTTACCGGATCGATCAGTAATGTGAAGCAGGGTGCGAAGAACGTTGCGGCATTTGGTGTCGATAAGGCGCTTGATGCTGTTGACGCCCTGATTCCGGATATGCTGACGCCTCCCGGTGGAGACATTGGCCGTTACCCGCAAAAGGTTTTCGATACGTTCCGCGAGAAGATCATTAATGCGCTTAAGGGTGCGGATGATGTTAAGCGGTCTGGCAAGAAATTGAATGCGCCTTCTGTTCGGAAATCCGGCTTTGCAACTGGTGGAACCATCCCGTCAACAACCGGCGGAACTGGCGCTACGCCTTCGACCGCCGATACGTCTACCGGCGCGTCGGCGGCGGCTCCTGGAATTGACCCGGCAACCGGTGCCGGTCTCGTGGAGTCCGTTACCGGCGCAACAGCGGCGGCGCAAGCAGTCTGGCAGTCGTATTACGCGGCAATTGAGGAAGAACAGCTTACAAATGCAACAACAATGCAGGCTCAGCAGCTTACCGCTGATACTGCAATGTTGGCGCAGCAGACGGCCACCATCGCCACAATGCAAACTGCGAGCGCGTCTTTCCGTGCCAGCGAAATTGCAGCAGATGCCGCGTATCAAACGACTCTTGCTGCTCAGGATTTGGCAAGTAAGACCCTGCTGAATTCGCAGCTTGCGACTTTTGTTTCAGCGCAGACCACTCAGTGGGCCGCGTTGCGAAAGTCGGTTGTGGATACTGCAACCGGAATGAATGCCGACGTTAGCAATCAATTCGAGCTGCTTTCGGAGAACATTCGTAGAACAATTGAAGATGGAATCAACCCGACCATCGGTTCGCTGGAGGAATTGCTGAATCGAACGGTTGGCTGGTTTGAGGCTGCATCCAATGATATTGGTGCAATGTGGAGCCAGACTGTTCCGAAGGTTCAGGACCCGACTCGCGTCATCATTAACGACGTTTACAATAATGGAGTTCGTGTCGCGTGGAGCAAGGTTCATACTTGGCTCGATTTGCCAGAGCTTGACCAGTTCGTTGCGCCGTTTGCAAAGGGTGGTCAGCTTGGGCCTGAGGGCATGGTTTCGGTTAACTCGCTGAGCAACCCGAATAGCCCGAAGTCCGTGAAGAATGGTGGTCCACTTAGGGCCGCTAGCTCGTCGCGAGATTCAACACTGTTCGCTGGTATGCGTGGCGAGTACGTGATGAACAGGAAGATGGTTCAGGGTGCCGGTGGTATTTCTAACCTGGAGGCATGGCGCAAGGCCACGCTTTCTGGTCGAAAGCCCATCGAGACCGGCGGAACGGTCAATTTCGATGCAGTGCCAGGATTCGCTTCTGGCGGTGTTCTCGGAATGGATAAGCGTCCAGAGAACCAGGCCCTTCCCGGCGTTATTCAGGAAGTTCCGGAACGTCTTCGTCCGTATTACAACCGCACGTATGACTACGGCGGTGGCGGTCAGCCTGGTCGTGGTTATGACTGCTCGGGCTGGACTGGTGCCGTTCACCAGATTCTTACCGGCGGAAGTCATGTCGGTCGAATTTGGTCCACTGAGGTTAATTTCAGTAGCTACGGCTATAAGCGAGGCAATGACGGATACTGGTCGATGGGCGTTCATAACGGCGGCGGCGGAATGAGTTCGCACACCGCAGGAACGCTCGCTGGCGTTAACTACGAGTCGGGCGGCGCACACAATACGTCCACATGGGGTGGACCTGCCGCCGGTACTATTAACCCGCAATTCGAGAATCAGTACTACCTCCCCAGCTTGGGTGGTAAGTTTATCGGAACGCCGGGTGGCGGTGGCGCAGTTGCCATTACTCCGATGCTTCTCGAAATGTGGGACAAGGAAATGACTCGCGTCAAGGAGGGCATTTCCGGACTCGCGTTTGGGGGAACTATTGGTCAGAATCCGCCTAAGGCATACGATAAGTTCAATCTTCTCCGTGGGGTTATCGAGAAGAAGGGCAAGGAAAAGGACGCTGCCGCTGCCGCATCCGCAGCAGCTAATTACGGTCAGGGTCCGGAAGGTTCGTACGGCGGTGGCGTGGAGCGCTGGCGCTCGGTTGTTCATGACGCGCTCGCTCGCGTTGGACAGCCGAAGAGCCTGGACGAAATTACTCTTCGTCGCATGAACCAGGAATCGCGCGGCAATCCGCGAGCGATTAACCTGTGGGATTCAAATGCTGCACAAGGAACTCCATCAAAGGGCCTTATGCAGGTTATCGATCCTACATTCCAGGCTAATCGCGACCCGTCTTTGCCGAACGATATTTGGGACCCAATGGCGAATATCGTTGCATCGATGCGCTACACGCTCGGTCGTTACGGTTCGCTTCCGGCTGGTTATGGTCGAGCTGGTGGATATGATTCCGGCGGCTGGCTGGAGCCGGGTCTCACGGCGGCGGTTAATGCAACCGGCAAGCCTGAGGCTATTCTCACGAATACCGACTGGAAGGCCGTTTACAAGGCCGCAATGAAGCCGACGCTTTCCATTGACGATATCGCCAATGGATACGCAAAGGGCATGGCAAAGGTATTCGGGTTGAATACCGACAAGGAGGTTCAGAAGTCGATTCAGGGCGCAACAGAGGTTGCTCTCCAGGGTCAGAATTCTAAGTGGAATCCGATGGTTGTTGACGCAACCGAAGATGTTAAGGCAGAGGCAACAAAGACGACCGAAGCTGTCTATAAGGTGACAGATACGGTTAAGGGTACTGGAAATATCATGACCGGTATTCTCGGGGCAACCGAGGATAACAAGAAGGTTCTTGATCAAATGCTCGCGGTTATGAATGCGGGTGCCGGTACTCTTGGTCAAATTGGAGCCAAGTGGGTTAAGGGCGAAGACGGCAAGGAAGGTAAGTGGGAATATAACGTCACCTTCGGAGCCTTCGCGCCGCTGATCGAATCGATAGCCGGACTGGTCGAGAACCTTCCGGATGCAGAGCCGACATATGTTTCTTGGGCTGGTACTAACCGAGAAGTTACCAAGGAAATGCAGCGCGAAAAGCAGATGAATGATCTTGCTAATAGCTCTAAGGGCTTGTATTACGCCTTTAAGACTATTGCGCCTCCGGTTCTCAGGAGCACGGCAAAGATTGGTGCTGCAATTGAGACGCTGGTTCAGCAAGACGGTGAAGCATGGGCGATGATTTCGGCGCAGCTTGCGGCAGGTAATCCTACGGCTTATCTTGCGGCGGCGGTGCTTTCGCTCAAGGCTATTCTCACTATTCTGCCGCTGGTTATCGAGGCAATCATGTCGATTGGTCCTGCAATTATTGAGTCGCTGATCGCGTACTTCACTAAGTTTGAACCTGACTCGGTCTATGCGTATGGTACTTATGAGGCAGCTAACGATGCTGTTGTCAAGAACCAGAACGCGATTCGGAATGGAGCCACCGGCCCCGTTTTCGAGACCCCTTCGGTTCAGCAGGAACAGCAGAGCTACAATTTCAATTTCTACGGAGATGTTGTGGTTCCGAATGTCACTAATGAGTCCGGCGTCGATACGCTGGTCGGTAACCTTCTTGGATTGGCAGGTGTCTAG

Gene Ontology

Description Category Evidence (source)
GO:0016020 membrane cellular component None (UniProt)
GO:0098003 viral tail assembly biological process None (UniProt)

Enzymatic activity

No enzymatic activity data available.

Tertiary structure

No tertiary structures available for this protein.

The structures below correspond to the cluster representative (5nCFz) rather than this protein.
PDB ID
5nCFz
Method AlphaFoldv2
Resolution 51.68
Chain position -
Model Confidence
Very high
pLDDT > 90
High
90 > pLDDT > 70
Low
70 > pLDDT > 50
Very low
pLDDT < 50