Protein
View in Explore- Genbank accession
- AXH68759.1 [GenBank]
- Protein name
- minor tail protein
- RBP type
-
TSP
- Protein sequence
-
MSRILLRDLEPGRLYHIQARATNGEQSSQWSQLWDLQTTSDIMPPAVPSALSWVVEGTAFKAVWTGPTTNQDGSDLRDFKDFQVKIYSPANPGVIATYYTTSARFDLPFELNVNALGTPRAQVVIEVRARDNTGNLSVAATATATNPAPANVTGFTATGITDAISLKWDANPDTDLKYYQVYQGTSSGAENTLVYTGLSNSFVFDTISTNPQYFKIFAVDVFNTQSATAATANATAKSSLAVDVNPPNAPTGVTVTSALDTSDPSGGRVYIDVSWTGVADTDLQNYSVRYSTGTTWEYINVPEGVTTARINGLRPNTNYNVAVAAVDYSGNSSSYTNAGTYPILTAKDTSAPVAPTGVTVGAGVTTMTVYWNENAENDVKGGVGYYEIQLDTANTFNTANLISKQTSGTITSFSNLTSNTAYYTRVRAVDASGNVGAYSSIVSGTPRYIANADIQAGTINGDRITAATINGDRVIANSLDANTIKANTTFSQNLTVGSTFTIGTSGIMKSANYVAGSAGWQLTNNTLEINQGTIRAAALQLQNGHNMLHPAYADFEFVKSWYTSNLITFNDGGVSTWAISDAVDVVGKYNSQCIKTSWTGVGTFSRVYLGPTFTTYNVQLEANTDYIFSGWVYVKTGAGAKTAALGIKLADATFPGPVGNTSIPATSTWTRIWGTFNSGTQTSAELYLSQYTSGDMYWDGLQLEKKVTADTTPSQWKPPGSTSIDGGIIRTGSIQSTASANGLGGQPAWSINMAGNAQLGDANIRGRLVVGDPSNPSADGANSRIHSANYSAGTTGWIIRNDGYAEFRQLAVNSIKVTAFDSPFQNAANAKLFDYMQDATLWLTYGAVTQKTDPGAYSAESLFEFTGPGVVLRNGTGVQRIAYDPTILYRISARIRAYDVATLNANSGFETNLTGWWNYASTTITRDTAKKFAGVASMAMAQAGSSVGVYGAGTTVSVKAGRTYTFSARVLPNTTVARDNLKMNISWLNSGGTEIAVTYNDMAPPVDGSGNPIPIDGTTWVQFSSQGVAPAGAVTANFELQTGLAGVATTGTLAWFDDVTITTPPRVKIGLFGFDNSSNIIDYDFVDQATTPTKIHAMPSDLSLLDDYAPSQYMMVANDEEVQIATGSSSTTSDWITVTGYIKGRGGSGATGKFGTNARAGDPFNPAAFNQEVRYMVPYVEWDIAAGSKAQLDQFSIEAFENGAPAKVDTNGEAATMKSVSIENIQDGTEFDHALRFYSGEIDEKQPGMIGHITDGEMNDAGHLRIVPPLLNRLSDYNSGPYIGIWDQNPNYLYDASFKNGITGWTGMANTTVSHETSVGREDTNALKITAIGTISNPATTELLGKYSVSTLANQELIGQVVTVSGYAMMGTATGRNVRLVVKFMNEAGSMINGYFIEKAVTNTAWTYYAFYTPIPVPDTCYNIEFSFSWFNGATGDIVYVDDVQLEANTDKTDFRSASASRIELNAEVIRSRGPIIIGDTDFSLPTNVIGSTGKPDVGSYRGIIAQSEYGTAGWRMVGYTDSNGTRASNSMAFFGPDGDEQSKVVMYGLNDASFPGQVAITSPNGAFTLVTQPAADGAYPYDVRVYGSLIVDGPLQWQSLTSSAVTPFDSGRALGVAKQNGMLIFRGAGSWSGTAGSSGTVIFTLPVGYRPASPQYMCALMWNGNSWSSGVAFHVKTNGECILWSPPEGAGLGTSLSIEGLHCNMTAMTTITPPGTDTTAPAVPTGFAISAVSSGTSTGSYKLSWTNPSTSDVKGVKIIWRSDRYPTVTIAGSGTKTLTTDGTVVTVAGTASQAKTYTHSGLPVNKTIYYRVVSYDAAGNHSTYVSASRYLLASPITISPSSSGSYRLGYGGMWRNDGDEVYQGDWTGNDNHRGLYFYGSNIYSKLSTGGVVRTPTKVTIYLKRLNTSHGNNAGVGINLRGHLYQSKPSGDPVGGMTNEGSDGDDIVFLSRGEAATVTVPSSWYNNIVDATAANRIEGFGVYGSTTSDYAVLFGKSSGSSYGKLTIYHNG
- Physico‐chemical
properties -
protein length: 2011 AA molecular weight: 213758,16440 Da isoelectric point: 5,02703 aromaticity: 0,10194 hydropathy: -0,19622
Domains
Domains [InterPro]
IPR003961
STR
1–41
STR
1–41
DC_2195
ATT
2–44
ATT
2–44
IPR036116
STR
4–213
STR
4–213
IPR050713
Unmapped
5–437
Unmapped
5–437
IPR003961
STR
149–332
STR
149–332
IPR003961
STR
247–332
STR
247–332
DC_0960
STR
263–455
STR
263–455
IPR003961
STR
271–332
STR
271–332
1
2011
Architecture
ATT 1-243 | STR 244-1288 | STR 1290-1448 | RBD 1521-1721 | STR 1722-1832 | RBD 1833-2001 |
Legend:
ATT
STR
RBD
CBM
LEC
ENZ
CHP
LNK
TAS
TTP
UNK
Unmapped
Tail Spike Domain Segmentation
Tail Spike Domain Segmentation
This protein has been segmented into three structural domains: N-terminal, central domain, and C-terminal.
Domain Layout
1
2011
| Domain | Start | End | Length (AA) | Confidence |
|---|---|---|---|---|
| N-terminal | 1 | 248 | 248 | 0,5907 |
| Central domain | 249 | 568 | 321 | 0,6056 |
| C-terminal | 569 | 2011 | 1442 | 0,2904 |
Note: Constraints were applied during segmentation.
Fixed 8 C-terminal predictions appearing before Central domain
Fixed 8 C-terminal predictions appearing before Central domain
Legend:
N-terminal
Central domain
C-terminal
3D Structure with Domain Coloring
The structure is colored according to the domain segmentation: N-terminal (blue), Central (green), C-terminal (pink).
Domain Coloring
N-terminal
1-248
1-248
Central
249-568
249-568
C-terminal
569-2011
569-2011
Taxonomy
| Name | Taxonomy ID | Lineage | |
|---|---|---|---|
| Phage |
Streptomyces phage SparkleGoddess [NCBI] |
2283305 | Viruses > Duplodnaviria > Heunggongvirae > Uroviricota > Caudoviricetes |
| Host | No host information | ||
Coding sequence (CDS)
Coding sequence (CDS)
Genbank protein accession
AXH68759.1
[NCBI]
Genbank nucleotide accession
MH590589
[NCBI]
CDS location
range 35792 -> 41827
strand +
strand +
CDS
ATGAGTAGAATTCTTCTAAGAGACCTAGAGCCTGGCAGGCTGTATCACATTCAGGCGAGAGCCACGAATGGTGAGCAGTCTTCTCAGTGGTCCCAGTTGTGGGACCTTCAGACTACCAGCGACATTATGCCACCAGCCGTACCTTCCGCCCTTTCTTGGGTTGTTGAGGGAACGGCTTTTAAGGCTGTCTGGACTGGTCCAACAACAAATCAGGATGGTTCTGACCTTCGTGATTTCAAGGACTTTCAGGTAAAGATTTATTCACCTGCAAATCCGGGGGTTATTGCAACATACTACACAACCTCTGCTCGATTCGACCTCCCCTTTGAACTTAACGTAAATGCTCTAGGAACCCCAAGAGCACAGGTTGTTATTGAGGTGCGTGCTAGAGACAATACAGGCAATCTATCTGTTGCTGCAACTGCGACAGCCACAAATCCGGCTCCAGCAAATGTTACTGGATTTACTGCCACTGGAATCACTGACGCCATTTCCCTCAAGTGGGATGCTAATCCTGATACAGACCTAAAGTATTACCAGGTTTATCAGGGCACTTCTTCGGGTGCCGAAAACACACTCGTATACACAGGACTTTCTAATTCCTTTGTATTTGATACCATCTCCACTAACCCACAATACTTCAAGATTTTTGCGGTTGACGTATTCAATACACAGTCAGCAACTGCGGCAACAGCCAACGCAACCGCAAAATCATCTTTGGCAGTAGACGTTAATCCACCGAATGCTCCAACAGGTGTAACAGTTACTTCAGCTCTAGACACTTCTGACCCTTCTGGTGGAAGGGTTTATATTGACGTGTCATGGACTGGCGTTGCTGATACAGACCTGCAAAACTATAGTGTTCGATACAGTACCGGAACAACCTGGGAGTACATTAACGTTCCCGAAGGTGTTACGACTGCTCGCATTAATGGTCTTCGTCCAAATACCAATTACAACGTTGCGGTTGCTGCCGTAGACTATTCTGGAAATTCTAGCTCATACACGAATGCCGGAACATATCCAATTCTGACAGCAAAGGACACTTCCGCACCTGTTGCCCCTACTGGAGTAACTGTTGGCGCGGGTGTTACAACAATGACTGTCTACTGGAATGAGAATGCAGAAAATGACGTTAAGGGTGGAGTCGGCTATTACGAAATTCAGCTAGACACAGCTAACACGTTCAATACAGCCAATCTAATTTCTAAGCAGACCAGCGGAACAATTACTTCGTTCTCCAATCTGACATCCAACACGGCTTACTACACGCGCGTGCGCGCGGTAGATGCTTCTGGAAATGTTGGTGCGTATTCTTCTATTGTTTCTGGAACTCCTCGCTACATTGCTAATGCAGATATCCAGGCCGGTACCATTAACGGTGACCGTATTACTGCTGCGACAATTAATGGTGATAGAGTAATCGCAAACAGCCTTGATGCAAATACCATCAAGGCTAATACGACATTCTCTCAGAACCTCACTGTTGGTTCTACCTTCACCATCGGTACCAGCGGTATTATGAAGAGCGCAAATTATGTTGCGGGCTCTGCGGGATGGCAGCTAACAAACAACACTCTGGAAATTAACCAGGGTACTATTCGGGCTGCTGCGCTTCAGCTTCAGAATGGTCACAACATGCTCCATCCTGCCTACGCAGACTTTGAGTTTGTAAAGTCATGGTACACAAGCAACCTCATCACATTCAATGATGGAGGAGTTTCGACGTGGGCTATTTCAGATGCCGTAGACGTAGTTGGAAAGTATAACAGTCAGTGTATCAAGACTTCATGGACTGGTGTTGGAACGTTCTCAAGAGTTTACCTTGGTCCGACATTTACAACTTACAATGTCCAGCTTGAGGCTAACACAGATTACATCTTTTCCGGGTGGGTTTATGTAAAGACTGGTGCTGGTGCAAAGACGGCTGCCCTAGGAATCAAGCTAGCAGATGCTACATTCCCTGGTCCAGTTGGAAATACTTCAATTCCGGCAACATCAACATGGACCCGAATTTGGGGTACATTTAATTCTGGAACTCAGACAAGTGCCGAGCTTTATCTGTCACAGTACACTTCAGGAGATATGTACTGGGATGGTCTACAGCTTGAAAAGAAGGTCACTGCTGACACAACTCCTTCTCAGTGGAAGCCACCGGGCTCTACCTCTATTGATGGTGGAATTATTCGCACGGGTTCTATTCAGTCAACTGCTTCAGCAAATGGTCTAGGTGGTCAGCCAGCATGGTCAATTAACATGGCTGGTAATGCTCAGCTTGGTGATGCGAATATTCGTGGACGCCTTGTTGTTGGTGACCCAAGCAACCCATCAGCCGATGGTGCTAATAGCCGAATTCATTCTGCCAACTATTCTGCCGGTACGACTGGATGGATTATTCGTAATGACGGATATGCTGAATTCCGTCAGCTAGCAGTCAACTCAATCAAGGTTACCGCTTTTGACTCTCCATTCCAGAATGCAGCAAATGCCAAGTTGTTCGACTACATGCAGGATGCGACTCTATGGCTGACTTATGGTGCTGTGACTCAGAAGACCGACCCTGGTGCTTATTCCGCAGAGTCTCTATTTGAGTTCACTGGACCGGGTGTTGTTCTTCGTAATGGTACTGGTGTTCAGAGAATCGCTTATGACCCAACCATTCTATATAGAATTTCAGCCCGTATTCGTGCTTATGATGTAGCTACGCTAAACGCTAACTCTGGATTTGAAACTAACCTTACTGGTTGGTGGAATTATGCTAGCACAACCATTACACGCGATACCGCAAAGAAGTTTGCCGGTGTGGCTTCTATGGCTATGGCTCAGGCTGGTTCTTCTGTTGGTGTTTATGGTGCTGGAACAACAGTTTCCGTTAAGGCTGGTAGGACTTACACATTCAGTGCTCGTGTTCTACCGAATACCACAGTCGCTCGTGACAACCTCAAGATGAATATCTCATGGTTGAATTCTGGCGGTACGGAGATTGCTGTAACCTATAATGACATGGCACCACCTGTTGATGGTTCTGGTAACCCAATTCCAATTGATGGAACAACTTGGGTTCAGTTCTCATCTCAGGGAGTTGCGCCTGCTGGTGCGGTTACTGCTAACTTTGAATTGCAGACTGGTCTTGCTGGAGTTGCTACGACTGGAACTCTGGCTTGGTTTGATGATGTAACAATCACCACTCCTCCTAGAGTAAAGATTGGTCTTTTTGGATTCGACAACTCAAGCAATATCATTGATTATGATTTTGTTGACCAGGCCACTACTCCTACCAAGATTCACGCGATGCCATCGGACTTGAGCTTGCTAGATGATTATGCGCCTAGCCAGTACATGATGGTCGCAAATGATGAGGAAGTTCAGATTGCTACTGGTTCATCATCTACTACCTCTGACTGGATTACTGTAACAGGTTATATCAAGGGTCGCGGTGGTTCTGGTGCTACTGGTAAGTTTGGTACTAATGCCCGAGCTGGTGACCCGTTCAATCCTGCTGCCTTTAACCAGGAAGTTCGATACATGGTTCCTTATGTGGAATGGGATATTGCGGCGGGTTCTAAGGCTCAGCTTGACCAGTTCTCTATTGAAGCATTCGAGAATGGTGCCCCAGCAAAGGTAGACACTAATGGTGAAGCGGCTACCATGAAGTCTGTTTCCATTGAGAATATCCAGGATGGTACAGAGTTTGACCATGCTTTGAGATTCTACAGTGGAGAAATTGACGAAAAGCAGCCGGGTATGATTGGTCATATCACCGATGGTGAAATGAACGATGCTGGACATCTAAGAATTGTACCGCCATTGCTTAACCGTCTATCCGACTACAATTCAGGACCATACATTGGTATTTGGGACCAGAACCCTAACTACCTATATGATGCTTCATTCAAGAATGGCATTACTGGTTGGACTGGAATGGCTAACACAACAGTTTCTCACGAGACTTCTGTTGGTAGAGAGGATACAAACGCTCTTAAGATTACAGCAATTGGAACTATCTCCAATCCGGCTACAACCGAATTGCTAGGAAAGTATTCAGTGTCTACTTTGGCTAATCAGGAATTGATTGGTCAGGTTGTTACCGTTTCCGGTTATGCAATGATGGGAACTGCTACTGGACGAAATGTTCGCTTGGTTGTTAAGTTCATGAATGAAGCCGGTTCTATGATTAACGGTTACTTCATTGAAAAGGCAGTAACAAACACTGCCTGGACTTACTATGCCTTCTACACACCAATTCCTGTCCCAGATACTTGTTACAACATTGAATTCTCATTCTCATGGTTCAATGGTGCTACTGGAGACATTGTTTATGTAGATGACGTACAGCTTGAGGCTAACACTGATAAAACTGATTTCCGCTCTGCTTCTGCAAGTCGAATTGAGCTAAATGCGGAAGTTATCAGAAGTCGCGGTCCAATTATCATTGGTGATACTGACTTCAGCCTGCCAACGAATGTTATTGGTTCAACTGGTAAGCCAGACGTTGGTAGTTACCGAGGAATCATTGCTCAGTCTGAGTATGGAACTGCTGGTTGGAGAATGGTTGGTTACACAGACTCCAATGGTACCCGTGCTTCAAATAGTATGGCGTTCTTTGGTCCGGATGGTGATGAACAGTCTAAGGTTGTTATGTATGGTCTTAACGATGCATCATTCCCTGGACAGGTTGCTATTACAAGCCCTAACGGTGCATTCACTCTGGTTACCCAGCCAGCAGCAGACGGAGCTTATCCATATGATGTAAGAGTTTACGGCTCTCTAATCGTTGACGGACCTCTTCAGTGGCAGTCTTTGACTTCCAGTGCGGTTACGCCATTCGACTCCGGTCGTGCTCTTGGTGTGGCAAAGCAGAATGGTATGCTGATTTTCCGTGGTGCTGGTTCATGGTCTGGAACAGCCGGTTCTTCGGGAACGGTTATCTTTACCCTTCCTGTTGGATATCGTCCTGCTTCTCCTCAGTACATGTGTGCTCTTATGTGGAATGGTAATTCATGGTCATCTGGTGTTGCTTTCCACGTCAAGACGAATGGTGAATGTATTCTTTGGTCTCCTCCTGAGGGTGCTGGTCTTGGAACTTCACTTTCAATTGAGGGTCTTCACTGTAACATGACAGCAATGACAACTATCACTCCTCCGGGAACTGATACAACGGCTCCAGCAGTACCTACCGGATTCGCGATTTCTGCGGTATCCTCTGGAACATCTACTGGTTCTTACAAGTTGTCTTGGACTAACCCAAGCACATCTGACGTGAAGGGTGTCAAGATTATTTGGAGGTCTGACCGTTATCCGACTGTAACAATCGCGGGTTCTGGTACAAAGACCTTGACAACTGATGGAACAGTCGTTACAGTTGCCGGTACAGCTTCACAGGCAAAGACGTACACACACTCTGGTCTTCCAGTTAATAAGACCATTTACTACCGCGTGGTATCATACGATGCTGCTGGTAACCACTCAACGTATGTCAGTGCTTCTCGTTACCTACTTGCAAGCCCGATTACCATCAGCCCTTCTAGCTCTGGTTCTTACCGTCTAGGATATGGTGGTATGTGGCGTAACGATGGTGACGAAGTTTACCAGGGTGACTGGACTGGAAACGACAACCACCGTGGTTTGTACTTCTACGGTAGCAACATTTACAGCAAGTTGTCAACGGGTGGTGTTGTTCGTACTCCAACCAAGGTGACGATTTACCTGAAGCGTCTGAATACTTCCCACGGTAACAATGCCGGGGTCGGTATTAATCTACGCGGACACCTTTACCAGAGCAAGCCTTCGGGTGACCCTGTGGGAGGTATGACCAACGAGGGAAGCGATGGAGACGACATCGTATTCTTGAGTCGTGGTGAGGCAGCAACGGTAACTGTTCCTTCTTCGTGGTACAATAACATTGTTGATGCAACAGCCGCAAACCGCATTGAAGGTTTTGGTGTATATGGTAGCACAACCTCTGACTACGCCGTACTGTTCGGCAAGAGCAGTGGTTCAAGTTACGGAAAGCTAACTATCTACCACAACGGTTGA
Genome Context
Genome Context
Tertiary structure
PDB ID
3bca29a12d69445b18d957466d8756d490653787bbd2c87d69021484470ce4ac
Model Confidence
Very high
pLDDT > 90
pLDDT > 90
High
90 > pLDDT > 70
90 > pLDDT > 70
Low
70 > pLDDT > 50
70 > pLDDT > 50
Very low
pLDDT < 50
pLDDT < 50