Protein

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Genbank accession
AAU05273.1 [GenBank]
Protein name
tail protein pb3
RBP type
TSP
Evidence RBPdetect
Probability 0,72
TF
Evidence Phold
Probability 1,00
Protein sequence
MKKILDSAKNYLNTHDKLKTACLIALELPSSSGSAATYIYLTDYFRDVTYNGILYRSGKVKSISSHKQNRQLSIGSLSFTITGTAEDEVLKLVQNGVSFLDRGITIHQAIINEEGNILPVDPDTDGPLLFFRGRITGGGIKDNVNTSGIGTSVITWNCSNQFYDFDRVNGRYTDDASHRGLEVVNGTLQPSNGAKRPEYQEDYGFFHSNKSTTILAKYQVKEERYKLQSKKKLFGLSRSYSLKKYYETVTKEVDLDFNLAAKFIPVVYGVQKIPGIPIFADTELNNPNIVYVVYAFAEGEIDGFLDFYIGDSPMICFDETDSDTRTCFGRKKIVGDTMHRLAAGTSTSQPSVHGQEYKYNDGNGDIRIWTFHGKPDQTAAQVLVDIAKKKGFYLQNQNGNGPEYWDSRYKLLDTAYAIVRFTINENRTEIPEISAEVQGKKVKVYNSDGTIKADKTSLNGIWQLMDYLTSDRYGADITLDQFPLQKVISEAKILDIIDESYQTSWQPYWRYVGWNDPLSENRQIVQLNTILDTSESVFKNVQGILESFGGAINNLSGEYRITVEKYSTNPLRINFLDTYGDLDLSDTTGRNKFNSVQASLVDPALSWKTNSITFYNSKFKEQDKGLDKKLQLSFANITNYYTARSYADRELKKSRYSRTLSFSVPYKFIGIEPNDPIAFTYERYGWKDKFFLVDEVENTRDGKINLVLQEYGEDVFINSEQVDNSGNDIPDISNNVLPPRDFKYTPTPGGVVGAIGKNGELSWLPSLTNNVVYYSIAHSGHVNPYIVQQLENNPNERMIQEIIGEPAGLAIFELRAVDINGRRSSPVTLSVDLNSAKNLSVVSNFRVVNTASGDVTEFVGPDVKLAWDKIPEEEIIPEIYYTLEIYDSQDRMLRSVRIEDVYTYDYLLTYNKADFALLNSGALGINRKLRFRIRAEGENGEQSVGWATI
Physico‐chemical
properties
protein length:949 AA
molecular weight: 107164,75280 Da
isoelectric point:5,32345
aromaticity:0,11275
hydropathy:-0,44215

Domains

Domains [InterPro]
IPR032876
601–686
IPR032876
AAU05273.1
1 949
Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Taxonomy

  Name Taxonomy ID Lineage
Phage Escherichia phage T5
[NCBI] 		2695836 Viruses > Duplodnaviria > Heunggongvirae > Uroviricota > Caudoviricetes
Host No host information

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
AAU05273.1 [NCBI]
Genbank nucleotide accession
AY692264 [NCBI]
CDS location
range 80509 -> 83358
strand -
CDS
ATGAAGAAAATACTCGATAGTGCTAAAAATTACCTGAATACCCATGATAAATTAAAGACAGCATGTCTTATAGCTCTTGAATTGCCAAGTTCATCTGGTTCCGCAGCTACTTATATCTACTTAACAGATTATTTTAGAGATGTTACATATAATGGTATTTTGTACAGATCAGGTAAAGTAAAAAGTATAAGCTCCCATAAACAGAACCGTCAATTATCTATTGGTAGTCTATCCTTCACAATAACTGGTACTGCCGAAGATGAGGTACTAAAGCTAGTTCAAAATGGAGTATCTTTCCTAGATAGGGGTATAACTATCCATCAGGCAATAATCAATGAAGAAGGAAATATTCTTCCTGTAGATCCTGATACAGATGGCCCTTTATTATTCTTCCGCGGTAGAATTACCGGAGGCGGAATAAAAGATAACGTTAATACTTCCGGAATAGGTACATCAGTTATTACTTGGAACTGTTCTAATCAATTTTATGATTTTGATAGAGTAAACGGCAGGTATACAGATGATGCATCTCATAGAGGTCTTGAAGTTGTTAATGGAACTCTTCAGCCATCAAATGGGGCTAAACGTCCTGAGTACCAAGAAGACTATGGATTCTTCCACTCTAATAAAAGTACAACTATTCTAGCTAAATACCAAGTTAAAGAAGAACGATATAAATTACAGTCTAAGAAAAAGTTATTTGGTCTGTCTAGAAGCTACAGCCTTAAAAAATACTATGAGACTGTAACTAAAGAAGTTGACCTAGACTTTAACTTAGCAGCTAAATTTATACCTGTAGTATATGGTGTTCAGAAAATTCCTGGTATACCTATTTTTGCAGATACGGAACTAAATAACCCTAATATAGTATACGTAGTATATGCTTTTGCAGAAGGTGAGATAGATGGATTTCTAGATTTCTATATCGGAGATAGCCCTATGATATGTTTTGATGAAACAGACTCCGATACTAGAACTTGTTTTGGACGTAAAAAGATAGTCGGTGATACAATGCACCGTCTAGCTGCTGGTACAAGTACATCTCAACCTTCTGTTCATGGACAAGAATATAAGTATAACGATGGTAATGGGGATATAAGAATCTGGACCTTTCATGGAAAACCAGACCAGACTGCTGCACAAGTACTTGTAGACATTGCTAAGAAAAAAGGATTTTATCTACAGAATCAGAACGGCAACGGACCGGAATACTGGGATTCTCGTTATAAGTTATTGGATACAGCTTATGCTATAGTTAGATTTACTATTAATGAGAATAGAACTGAAATTCCTGAAATTAGCGCAGAAGTGCAGGGTAAGAAAGTTAAAGTATACAACTCTGATGGTACTATAAAAGCAGATAAGACTAGCTTAAATGGTATCTGGCAACTTATGGATTACCTGACTTCAGATCGTTATGGTGCTGATATTACTTTAGATCAGTTCCCGCTACAAAAAGTAATATCAGAGGCAAAAATACTTGATATAATTGACGAGTCCTACCAGACTAGTTGGCAGCCCTACTGGCGTTACGTTGGGTGGAATGACCCCCTATCTGAGAATCGTCAAATAGTTCAACTAAATACTATACTGGATACTTCTGAATCAGTTTTTAAAAACGTTCAAGGTATATTAGAATCCTTTGGTGGAGCTATAAATAACCTATCAGGTGAGTATAGAATAACAGTAGAAAAATATTCTACGAATCCTCTGAGAATAAATTTTCTAGATACTTATGGAGATTTAGACTTATCTGATACTACTGGTAGAAATAAGTTTAACTCAGTACAGGCATCCTTAGTAGACCCTGCACTAAGCTGGAAAACAAACTCTATTACGTTCTATAACTCGAAGTTTAAAGAGCAGGATAAAGGTCTTGACAAGAAACTTCAGTTATCTTTTGCTAATATTACTAATTACTACACTGCTAGGAGTTACGCAGATAGGGAACTTAAGAAATCTAGATACTCCCGTACTTTAAGTTTTTCCGTACCCTATAAATTTATAGGTATAGAGCCTAACGATCCTATTGCTTTCACATATGAACGTTACGGCTGGAAGGACAAATTCTTCCTGGTTGACGAAGTAGAAAATACTCGTGATGGTAAAATTAATCTAGTCCTCCAAGAGTATGGAGAAGATGTATTTATTAATTCCGAACAGGTAGATAATAGTGGTAATGATATTCCTGATATTAGTAATAACGTTCTACCGCCTAGAGACTTTAAGTACACCCCTACTCCAGGTGGCGTAGTTGGTGCTATAGGTAAGAATGGTGAGCTATCCTGGCTTCCTAGTCTTACAAATAACGTAGTATACTATTCTATTGCACATTCTGGACATGTTAATCCCTACATAGTTCAACAACTGGAAAATAATCCTAATGAGAGAATGATTCAGGAGATTATAGGGGAGCCTGCTGGTTTAGCTATTTTTGAGCTACGCGCAGTAGATATTAATGGTAGACGTAGTTCTCCAGTTACACTATCTGTAGATCTTAACTCCGCAAAGAACTTAAGCGTAGTTAGTAACTTTAGGGTTGTTAATACTGCTTCAGGAGACGTAACTGAATTTGTTGGACCGGATGTTAAACTTGCTTGGGATAAGATTCCAGAGGAAGAAATAATTCCTGAAATTTACTATACTTTGGAAATTTATGATTCTCAAGATAGAATGCTTCGTAGTGTTAGAATAGAAGATGTCTATACCTATGATTATCTATTAACATATAATAAGGCGGATTTTGCTTTACTAAACTCGGGGGCTCTAGGTATCAATCGTAAATTACGGTTTAGAATACGAGCTGAAGGGGAAAACGGAGAGCAATCTGTTGGTTGGGCTACTATTTAA

Tertiary structure

PDB ID
7ZHJ
PDB
Source PDB
Method EM
Resolution 1,0000
Oligomeric State monomer
View on RCSB Download PDB
PDB ID
7ZN2
PDB
Source PDB
Method EM
Resolution 1,0000
Oligomeric State monomer
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PDB ID
7ZN4
PDB
Source PDB
Method EM
Resolution 1,0000
Oligomeric State monomer
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PDB ID
7ZQB
PDB
Source PDB
Method EM
Resolution 1,0000
Oligomeric State monomer
View on RCSB Download PDB
PDB ID
7ZQP
PDB
Source PDB
Method EM
Resolution 1,0000
Oligomeric State monomer
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PDB ID
9IOZ
PDB
Source PDB
Method EM
Resolution 1,0000
Oligomeric State monomer
View on RCSB Download PDB
PDB ID
7caafb829beb06d8f8a4e538c78b78c9f9289a4ab54dcc0e1b65411fcaa9d479
ESMFold
Source ESMFold
Method ESMFold
Resolution 0,8141
Oligomeric State monomer
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Model Confidence (pLDDT)
Very high (>90)
High (70-90)
Low (50-70)
Very low (<50)