Protein

View in Explore

Genbank accession

QXO10129.1 [GenBank]

Protein name

tail fiber protein

RBP type

Evidence Phold

Probability 1,00

Protein sequence

MADNFELDFGDFSPDFDLDYDFGGSNSGQQKKPKKKGEVIKEFTSGLWEGFSDGMTGYGVPQRLIKSMLPRSYGPAMDSVDRTLRFKDDLYDKVRENTKEAVAEFKGLTREALGAHGKKVPEKLAKRLEDWANSSSSEASWRDYVSKDEEGLDIDSDSTELLDAFTHGSAASAELSQAQHEELMATLAAGAVSNQKDTAKQSILLDQIVGLQRRLVGFNENFTSTFQRRSLELQYRHYKLDISIAKMQEQYYKRSLEAFSGLVANSAKTEIEKANQSTNHQKLIRKNYGGGALKSTFSRYGNHLYDSMYGLVDNASQNANNRWASTAGGIAAAMRSAQQARMSGAMSGARNRGAMIGGMAASAMPFLLQQLVRSRMERSGAANGLGHNLSYYAESAPGLVNGWLRNRKQFDEHYNEFDPNNKWYTRLQKGVLNPLMNNALFSIPITQGNKTRVSTPGIKDLTQPAQWDMMQRRTLVEVIPGLLTQQLTVQQKLYEVWGGEAKPEEAFNHKQGAFTTKARVKADIRSSIFNRNEFQSAAGSFNGMVETLDPDEELSPNARVALAMRFARDADAGDGFNINNYLGESGWVNTDKDTIREINDFLHARFKTKEATGKAKAFGKFQIGDGADVAELRKKVATNMQSQMNYMPDVQESVNALANGGQRAMLKEMGIIQRINGQEVFNHDMYWDMMKKFIANPNFRPDLEEGADGEKKRELTDRVDTGAIDELKNKAKDKLKGKADDLGLTDVASNARDRVNDVLGRGKDAAGEATRRLRETMTKEALNKLFDTALDKYDDLVSQLQRLARSGSEVDIRAGIAEVKERAEASIRHIRKQLAGLDREALGEEAYKAATERAEEIIQSLNRQIDTLNVGTLRSGIESGPDAPAPNLADSKVLDTGSKQDRSITPSTSTPIDEEPSAELTVASETNELLKELISISASSRDQIAAAKDATIAQITGDPQAINNGTEERKGFLKSLGTRMKSYESGKYAKVFGLAKLYNSGVVTLTKWATIGPAIVGWKGAKMLYKFFRKKKDGEVGDVDGDGIRENSWMDRLRRKKEKLQKEKVDKDGVPKEKPTSLFGMLGGIFTAVTGMFSGFKKHGILGGLASFLGLGWVGDLIGGIGSAITGLGKLIMGKKALETASDALGDVGDVGGDERKGKRGRGRRGRGGVPKKRGFLNRMARKVVGGTARAIKNEPGRMAGRASWLIKGGAKTLARRIPMVGAVGLGAFEMYESYKDNDGLGMADSAGGMAGGLAGAAAGAAIGSVVPIVGTFIGGVVGGALGAMGGSSIGSALYKWIRSPGPLQQMRLYQYGLDSINGDFTGKIFNLEQACLKYVKVTDSGKAMLDPKLPMAELARPFIENPDSRDEVESFGGWFVQRFKPVFLTHVAVAKQLFPGVDFMNLDDSKDAAAKYEMAKRCQQFDESIDHPYRWTGVLFNTQPAMNYEQTTEAVQGVVEKLKKELKSADKNAKSTSIMTLGNEDKVRAESMDKGVVDAIKPMDGSKLKGANLDGHTVSGGWGQEVTVVSVQDVLGKLLPKKGEPLDDLTAARMKIYGLNNLDISKVSVLLQLELVMQNRITFNGRGCHFSGKTKEVFDVMASSFGHGWLSIGAFNSWSKWFSRRFLPAYLAFATTVKNQVGDDQPTMAAANLPPETKLMIIQSMTGQTYNDGRNELSIWTVADNPWSDSSTSNTDATILDVHINNLKQLAKQAQYEAKPVKGGIKQSEDGTTDKDWRKDNSTGQQATNAVRGTDGLVRSSQRQETLYDPKTGQTNGSYGGGQFGDNKGAAASGSGGGLDTTGKVEPLKMGPGTEEGVRAMIREAAKNGITDKKELAIMLANTHHETGGFKNVEENLRYKPQTLMKLWPHRFPTMDKASQVASGGPVTVANTIYGNRMGNDQPGDGWKYRGRGFIQLTGKDNYTRASKALGVDLVDDPDAVAEDPTMAAASALYFWKANKNIGEKAKAGDVAGVRKIVNGGTIGLEDTQKLASQYAKMLDGGEYDDILSGKDKGDTGTTSEGGDSMEDLMGQSAQEQAAQQGVAATPQPGSENANTPAAKPPGSETNAAPAAGESPTPPTMTSTTGPSAKATDNATSVTPNAPDSSASADPDALNKSSLQTQQSAPSANSTVNPVPVTMQMDDTHAKSTAQNTATTNEKLDQMIDALNKIAGSNQEMAEKEVAPATAQAAPAPASTQKAASDFRSAPIGQNNANVSFQRSY

Physico‐chemical properties

protein length:	2218 AA
molecular weight:	239927,90580 Da
isoelectric point:	8,40727
aromaticity:	0,06763
hydropathy:	-0,55252

Domains

Domains [InterPro]

DC_0124
STR
1–1026

DC_0124 Coil Coil G3DSA:1.10.530.10

Coil
Unmapped
820–840

Coil Coil DC_0593 IPR023346

cd00325
ENZ
1828–1978

cd00325

IPR000726
ENZ
1828–1958

IPR000726

PTHR22595
Unmapped
1828–1977

PTHR22595

QXO10129.1

1 2218

Architecture

STR

STR 1-1998 |

Legend: ATT STR RBD CBM LEC ENZ CHP LNK TAS TTP UNK Unmapped

Domains [InterPro]

Domain ID	Category	Cluster	Start	End	Layer	Name	Pref Zone	Confidence	Evidence	Support
DC_0124	STR	DC_0124	1	1026	Novel HMM	DC_0124	Central	Low	Positional only	152 proteins / 152 hits
Coil	Unmapped	-	820	840	Coils	Coil	-	-	-	-
Coil	Unmapped	-	844	864	Coils	Coil	-	-	-	-
DC_0593	STR	DC_0593	871	1813	Novel HMM	DC_0593	Central	Low	Positional only	5 proteins / 5 hits
Coil	Unmapped	-	1050	1070	Coils	Coil	-	-	-	-
Coil	Unmapped	-	1449	1476	Coils	Coil	-	-	-	-
G3DSA:1.10.530.10	RBD	G3DSA:1.10.530.10	1813	1997	Merged direct domain	G3DSA:1.10.530.10	C-terminal	Low	Positional only	95 proteins / 95 hits
IPR023346	STR	IPR023346	1819	1998	Merged direct domain	Lysozyme-like domain superfamily	Central	Low	Positional only	29 proteins / 29 hits
cd00325	ENZ	DC_0654	1828	1978	InterPro cluster	chitinase_GH19	C-terminal	High	Text match	13 proteins / 13 hits
IPR000726	ENZ	DC_0328	1828	1958	InterPro cluster	Glycoside hydrolase, family 19, catalytic	C-terminal	High	Text match	27 proteins / 27 hits
PTHR22595	Unmapped	-	1828	1977	PANTHER	CHITINASE-RELATED	-	-	-	-

Taxonomy

	Name	Taxonomy ID	Lineage
Phage	Erwinia phage pEa_SNUABM_37 [NCBI]	2859246	Viruses > Duplodnaviria > Heunggongvirae > Uroviricota > Caudoviricetes
Host	Erwinia amylovora [NCBI]	552	cellular organisms > Bacteria > Pseudomonadati > Pseudomonadota > Gammaproteobacteria > Enterobacterales

Coding sequence (CDS)

Genbank protein accession

QXO10129.1 [NCBI]

Genbank nucleotide accession

MW845760.1 [NCBI]

CDS location

range 130789 -> 137445
strand -

CDS

ATGGCTGACAATTTTGAACTTGACTTTGGTGACTTCTCACCTGACTTCGATCTCGACTACGACTTCGGCGGATCGAACTCTGGGCAGCAGAAGAAACCAAAAAAGAAAGGCGAGGTAATTAAAGAGTTTACCTCTGGCCTGTGGGAAGGATTCTCAGACGGAATGACCGGGTACGGTGTTCCTCAACGTCTGATCAAATCCATGCTCCCGCGTTCGTACGGTCCGGCCATGGACTCCGTCGATCGTACGCTACGCTTCAAAGATGACCTATACGATAAAGTTCGCGAGAATACCAAAGAGGCGGTTGCTGAGTTCAAAGGCCTGACTCGTGAAGCATTAGGTGCACACGGGAAGAAAGTTCCTGAGAAATTAGCGAAGCGTTTGGAGGACTGGGCGAACAGTTCCAGCTCTGAAGCAAGCTGGCGTGACTACGTCTCCAAGGATGAAGAAGGTCTCGATATCGATTCTGATTCCACTGAACTGTTGGATGCGTTTACCCACGGTAGCGCTGCAAGTGCCGAGCTGTCCCAGGCGCAACACGAAGAGTTGATGGCGACGTTAGCAGCCGGTGCGGTGTCCAACCAAAAAGACACGGCTAAACAATCTATCCTGCTGGATCAGATCGTTGGTTTGCAACGTCGCCTGGTTGGCTTCAATGAAAACTTCACCTCTACGTTCCAACGTCGTTCGCTTGAACTCCAGTACCGTCATTATAAGCTGGACATCTCAATTGCCAAAATGCAGGAGCAGTACTACAAGCGCTCGCTTGAAGCCTTCTCCGGCTTAGTGGCTAACTCCGCCAAAACAGAGATTGAGAAAGCGAACCAATCCACCAACCACCAGAAGCTGATTCGTAAAAACTACGGTGGCGGTGCGTTGAAGTCCACGTTCTCTCGCTACGGTAACCACCTGTACGATTCCATGTACGGTCTGGTTGACAATGCGTCACAGAATGCGAACAACCGTTGGGCATCTACGGCGGGTGGTATTGCGGCAGCTATGCGTTCAGCGCAGCAAGCCCGTATGTCGGGTGCGATGTCGGGTGCGCGTAACCGTGGTGCAATGATTGGTGGGATGGCAGCTTCGGCAATGCCGTTCCTGTTGCAGCAGCTGGTGCGTAGTCGGATGGAACGCAGTGGTGCGGCAAATGGTCTCGGTCACAACCTGAGCTATTATGCGGAGTCTGCCCCAGGGTTGGTTAACGGCTGGTTGCGTAACCGTAAACAGTTTGATGAGCATTACAATGAGTTCGACCCCAACAACAAATGGTACACCCGTTTGCAGAAAGGTGTTCTGAACCCGTTAATGAACAACGCCCTGTTCAGCATTCCAATTACCCAGGGGAACAAGACCCGTGTCTCTACTCCAGGGATCAAGGATCTGACTCAGCCGGCTCAATGGGATATGATGCAGCGCCGTACGTTGGTTGAAGTCATTCCTGGTTTACTGACCCAGCAGCTTACCGTGCAGCAGAAACTGTACGAAGTATGGGGTGGCGAAGCGAAGCCAGAAGAAGCCTTTAACCACAAACAAGGCGCCTTCACTACGAAAGCCCGTGTTAAGGCGGATATCCGTTCCAGCATCTTCAACCGCAACGAGTTCCAATCCGCAGCCGGTTCCTTTAATGGGATGGTGGAAACACTTGACCCGGATGAAGAGCTGTCGCCGAATGCCCGTGTAGCCTTAGCCATGCGCTTTGCCCGAGATGCCGATGCCGGTGACGGTTTCAACATCAACAACTACCTCGGTGAGAGTGGCTGGGTCAATACCGATAAAGACACCATCCGTGAGATCAACGACTTCCTGCATGCGCGCTTCAAAACCAAAGAAGCGACAGGGAAAGCGAAGGCCTTCGGTAAGTTCCAAATCGGTGACGGTGCAGACGTCGCAGAACTGCGTAAGAAAGTCGCTACCAATATGCAGTCGCAGATGAACTACATGCCTGACGTGCAGGAGTCTGTGAACGCTTTGGCCAACGGCGGTCAACGTGCGATGCTGAAGGAGATGGGGATCATCCAGCGCATCAATGGTCAAGAAGTCTTTAACCATGACATGTACTGGGATATGATGAAGAAATTCATCGCGAACCCGAACTTCCGTCCTGATCTGGAAGAAGGCGCTGACGGTGAGAAGAAGCGTGAGCTCACTGATCGTGTTGACACTGGTGCCATCGACGAACTGAAGAACAAGGCCAAGGACAAGCTGAAAGGCAAAGCCGATGACCTGGGTCTGACGGATGTTGCAAGTAACGCCAGGGACCGTGTGAACGATGTCCTCGGTCGTGGGAAAGATGCGGCAGGGGAAGCAACCCGTCGTTTGCGTGAGACCATGACCAAAGAAGCCCTGAACAAACTGTTTGATACCGCGCTCGACAAGTACGATGACCTGGTGTCACAGTTGCAGCGTTTAGCCCGTTCAGGTTCTGAGGTGGATATTCGTGCAGGCATCGCTGAAGTCAAAGAGCGTGCAGAAGCGTCTATCCGTCATATCCGTAAACAGCTGGCTGGTTTAGACCGTGAAGCATTAGGTGAAGAAGCCTACAAGGCTGCCACGGAACGGGCTGAAGAAATCATTCAGTCACTGAACCGTCAGATCGATACTTTGAACGTCGGTACGTTGCGCAGTGGGATTGAATCAGGTCCTGATGCCCCGGCACCGAATCTTGCTGACAGTAAGGTCCTGGATACTGGATCGAAGCAAGACCGTTCAATCACTCCATCAACATCCACCCCGATCGACGAAGAGCCATCGGCCGAACTGACTGTTGCATCTGAGACCAATGAATTACTGAAAGAGCTGATCTCCATCTCAGCCTCTTCACGTGATCAGATTGCAGCAGCCAAGGATGCGACGATTGCACAGATCACCGGTGACCCACAGGCGATCAACAACGGCACCGAGGAACGTAAAGGTTTCTTGAAATCGTTGGGGACACGCATGAAGTCTTACGAAAGCGGTAAGTACGCCAAAGTCTTTGGGCTGGCTAAACTGTACAACAGCGGTGTCGTCACCTTAACCAAATGGGCAACCATTGGACCAGCGATCGTTGGTTGGAAAGGAGCGAAGATGCTGTACAAGTTCTTCCGTAAGAAGAAGGACGGTGAGGTGGGTGATGTCGATGGTGACGGTATCCGTGAAAACTCCTGGATGGACCGTTTACGTCGTAAGAAAGAAAAGCTTCAGAAGGAGAAGGTAGATAAGGACGGTGTACCGAAAGAGAAACCGACTTCTCTGTTTGGCATGCTTGGCGGAATCTTCACTGCCGTGACAGGTATGTTCAGCGGATTCAAGAAGCACGGTATCCTCGGTGGACTGGCAAGCTTCCTCGGCTTAGGCTGGGTTGGTGACCTCATCGGCGGTATTGGGTCAGCCATTACGGGACTCGGTAAGCTGATCATGGGTAAGAAGGCCCTGGAGACAGCCTCAGACGCTCTGGGTGACGTTGGCGATGTTGGTGGCGACGAACGTAAGGGTAAACGTGGTCGTGGTCGTAGAGGCCGTGGCGGAGTGCCTAAGAAGCGTGGGTTCTTAAATCGCATGGCTCGCAAAGTCGTGGGCGGAACCGCACGGGCCATTAAGAACGAACCGGGTCGTATGGCGGGTCGTGCTTCGTGGTTGATCAAAGGCGGTGCGAAGACCTTAGCGCGTCGCATCCCGATGGTCGGTGCTGTTGGCCTGGGTGCATTTGAGATGTACGAATCGTACAAGGATAATGACGGTCTGGGTATGGCCGATTCCGCAGGCGGGATGGCAGGTGGCTTAGCCGGTGCAGCAGCCGGTGCAGCGATCGGTTCTGTTGTGCCAATCGTCGGTACCTTTATTGGTGGCGTGGTTGGTGGCGCTCTCGGTGCGATGGGTGGCTCCTCTATCGGTTCTGCGCTGTACAAGTGGATTCGTTCACCGGGTCCGTTGCAACAGATGCGCCTGTACCAGTACGGTCTTGATTCCATCAACGGCGACTTCACCGGCAAGATCTTCAACCTTGAACAAGCGTGTTTGAAATACGTGAAAGTGACCGACTCCGGTAAAGCCATGTTGGATCCAAAACTTCCAATGGCTGAGCTGGCTCGTCCGTTCATTGAGAACCCAGACAGCCGCGATGAAGTTGAATCGTTCGGTGGCTGGTTCGTGCAGCGTTTCAAACCGGTGTTCCTGACTCACGTTGCGGTAGCCAAGCAGTTGTTCCCTGGTGTCGATTTCATGAATCTTGATGATTCTAAAGACGCAGCAGCGAAATACGAAATGGCAAAACGGTGTCAGCAGTTCGATGAGTCTATTGACCACCCGTATCGTTGGACCGGTGTGTTGTTCAATACCCAGCCTGCTATGAATTACGAGCAGACCACCGAAGCTGTACAGGGTGTTGTTGAGAAGCTCAAGAAAGAGCTGAAGTCGGCTGATAAGAACGCCAAGTCCACGTCTATCATGACACTGGGTAACGAAGACAAAGTTCGTGCCGAGTCCATGGACAAGGGCGTGGTCGACGCGATCAAACCGATGGACGGGTCGAAGCTGAAAGGTGCAAACCTGGATGGTCATACCGTCTCTGGCGGTTGGGGTCAAGAAGTCACGGTGGTGTCGGTGCAGGATGTATTAGGTAAACTGCTACCGAAGAAAGGTGAACCGTTAGATGACCTGACTGCTGCCCGTATGAAGATCTACGGGCTGAACAACCTCGACATCAGTAAAGTGTCCGTGCTGCTACAGTTGGAACTGGTAATGCAGAACCGCATTACCTTCAACGGTCGCGGTTGTCACTTCTCTGGTAAGACGAAGGAAGTCTTCGATGTCATGGCCAGTTCGTTTGGTCACGGTTGGTTGTCCATTGGTGCATTCAACTCTTGGTCTAAATGGTTCTCTCGTCGCTTCCTGCCTGCGTACCTGGCCTTCGCTACCACGGTGAAAAACCAAGTGGGTGATGACCAGCCTACCATGGCAGCAGCAAACCTCCCGCCAGAAACGAAACTGATGATCATCCAGTCGATGACCGGTCAGACGTATAATGACGGGCGTAACGAGTTGAGCATCTGGACCGTAGCGGATAATCCGTGGAGTGACTCTAGCACGTCTAACACAGACGCAACGATCCTCGACGTTCACATCAACAACCTGAAGCAGTTGGCTAAGCAGGCGCAGTACGAAGCCAAGCCGGTCAAAGGCGGTATTAAACAGAGTGAAGATGGAACCACGGATAAAGACTGGCGTAAAGACAACAGCACCGGACAGCAGGCAACCAATGCGGTTCGCGGTACTGATGGCTTGGTCCGTTCTTCACAGCGCCAAGAAACGCTGTATGATCCGAAGACGGGACAGACTAACGGCAGTTACGGCGGTGGTCAATTCGGCGATAATAAAGGTGCGGCTGCTTCCGGCTCCGGTGGTGGTTTGGATACCACCGGCAAAGTCGAACCGCTGAAGATGGGTCCGGGTACCGAAGAAGGCGTTCGTGCCATGATCCGTGAAGCAGCGAAGAACGGCATCACCGATAAGAAAGAACTCGCAATCATGCTGGCAAACACCCACCATGAAACCGGGGGCTTTAAGAACGTCGAAGAGAACCTGCGTTACAAACCGCAGACGCTGATGAAGCTTTGGCCTCATCGTTTCCCTACCATGGATAAAGCATCCCAGGTAGCAAGTGGTGGCCCGGTTACGGTGGCGAACACCATCTACGGCAACCGCATGGGGAATGATCAGCCGGGTGACGGTTGGAAATACCGTGGTCGTGGCTTTATCCAGTTAACGGGTAAAGACAACTACACGCGTGCTTCTAAAGCACTGGGTGTTGACCTGGTAGACGATCCAGATGCAGTAGCGGAAGATCCGACAATGGCGGCTGCTTCGGCATTGTACTTCTGGAAAGCCAACAAGAACATCGGTGAGAAAGCGAAAGCGGGTGACGTAGCGGGCGTGCGTAAAATCGTCAACGGTGGCACCATCGGCCTTGAAGATACGCAGAAGCTGGCATCTCAGTACGCGAAGATGTTGGATGGCGGTGAGTACGATGACATCCTGTCTGGTAAAGACAAAGGTGATACAGGTACCACGTCAGAAGGCGGGGATTCCATGGAAGACCTGATGGGTCAATCTGCTCAAGAGCAGGCTGCTCAGCAGGGTGTGGCGGCAACGCCTCAACCAGGCAGTGAAAACGCCAATACACCGGCGGCTAAACCGCCTGGCTCTGAAACCAACGCAGCTCCGGCAGCGGGTGAATCTCCAACACCTCCAACAATGACATCCACCACGGGCCCAAGTGCTAAGGCAACTGACAACGCAACATCGGTCACGCCAAACGCACCTGATTCCTCGGCTTCTGCTGATCCAGATGCTCTGAATAAGAGCAGCCTGCAAACGCAGCAGTCTGCACCATCAGCTAACTCCACAGTTAACCCTGTGCCGGTTACGATGCAGATGGATGACACGCATGCGAAGTCTACAGCGCAGAACACCGCGACGACGAATGAGAAGCTGGACCAGATGATCGATGCGCTTAACAAGATCGCTGGCAGTAACCAGGAGATGGCAGAGAAAGAAGTAGCCCCTGCAACGGCACAAGCGGCACCTGCCCCTGCGTCGACGCAGAAAGCGGCTTCGGACTTCCGCTCCGCTCCAATCGGTCAGAACAACGCTAACGTGTCGTTCCAACGTTCTTACTAA

Genome Context

Tertiary structure

PDB ID

e812cd1427c3e1682e8be19489b3e4854b3cd137c4a79afb4fe00d26461f24b2

ColabFold

Source ColabFold

Method ColabFold

Resolution 0,4404

Oligomeric State monomer

Download PDB

Model Confidence

Very high
pLDDT > 90

High
90 > pLDDT > 70

Low
70 > pLDDT > 50

Very low
pLDDT < 50

Literature

Title	Authors	Date	PMID	Source
Complete genome sequence of Erwinia phage pEa_SNUABM_37	Kim,S.G., Lee,S.B. and Park,S.C.	2021-01-07	—	GenBank

Protein

Domains

Domains [InterPro]

Domains [InterPro]

Taxonomy

Coding sequence (CDS)

Coding sequence (CDS)

Genome Context

Genome Context

Tertiary structure

Predicted Aligned Error (PAE)

Model Confidence

Literature