Protein
View in Explore- Genbank accession
- ANZ49262.1 [GenBank]
- Protein name
- putative virion structural protein
- RBP type
-
TSP
- Protein sequence
-
MVSYPYDWKGTSPANAFKEERIITNEKTDDRVVILKNRPFFEVSLVVTASGSTTPLTRGVDYEITYQMPELNESVATPVACGIQLINPKIGGSLTFVGQALGDTFYSPFIDILDELIKYLNNPVDADWFKVDNRPTFFPPKPAATSWHDLLNKKYVASAVHDVELDSEAANNAVKAKLAALKVTVAGLAKEITTFNYPAHIAAHNPHGTTSAQANAHPANLKTPDTFLAYGKTLRTLTAEIRALGLQQSDIDKYIEKWACKDVSGVFIQQLAANRSLFKSKSGTSEITFTDTAFTIKSNGAVILAAGYDANDTTTRFMEWTSGTNTLRIESSGNALGMDKLTLNGKVLLTTTLLMKYQPTESGQTSDPDDQKIYVQGRGGISVTGKGSKADPVKASLTLPSATTTVKGTAVLKSGVGDEVSGVASTPDSLQPYEGKASGYVAKTTMLNSKPMDDGARVMTKSDIGLSQADNTADVNKPVSADQSTAMDGLSDKGHKHTFASLNLPLATNATEGLGRYTDLDDGLSGSKGVTPNVMKRLSDRLDAISDALKSVKTGVSTDFSIIDASTWSVASGRILQVKDLQYFYLRGNDRAEGKVSGSINLETTPMFNWFSPNNTMERNWTPAVKNTAANFDFSAISSKPNFALKATPIGLSANGMGNLSVISLLSKLRLKSYTGTLRLYIVAGGKVTVYLDGQEVGTGNSPFFLEVDVDSAKQSACLGIRADCNDATKAAAMAFEVYDESLPIYRSDVGTPITQLGEFMTPTFGNRHFLYLNMVTQSMYSRAEPQPTNEVSPETALIGVVDVPAGGITTPTVSFPMMRDYGISNEASDHIASLQQHIPAARDWTLTDNLAMLPIGKLRFNSPSALYGEVTAGAETVYGLAQMSRNSTTKKAYMLLETTEQTPQWWFTPSNPKANGAPTFQGGLVYEEYQTNGLFAQPLPALLFASPTLGSVPADYRNRYLRVPLDGVTEPDYGYVNAIATHAGVNTTLPTFESNILYSKTTSLRKNEASAVLGVMDLTTLKAGSPRLAVRYSYNVTLRKLSVFSVYFAGNPNDVDGSLLINELEIQFDVDVRGLMGGFVGLELPPLGGGTSVCSLLGSVAPLDGIGFVEDAYQYLRSLFESYADSGVLPNTSVKNATVVLPAGVFVPDVRYTEYQLVPMGCRSFHASHAGYLPLAFNRDALLQSVHSVDTNGNWFGKPGSSDGTNFLISGMLVEYNLPQSSKVAKLKIVKGTQANAVRQLAIGGQVINVAYASSLGGELGVPVPARRGDLKLQLAYLPGYTSDPLKLEFTYELYDAGGTLLTTITENTVADAMWFVADRYTAKRINPLHMTTRLWNVLQAKMDAERTTDGTDFGQWV
- Physico‐chemical
properties -
protein length: 1359 AA molecular weight: 146559,91770 Da isoelectric point: 5,64942 aromaticity: 0,08683 hydropathy: -0,15835
Taxonomy
Phage
Erwinia phage vB_EamM_Huxley
[NCBI]
· taxon 1883373
Host
No host information
Coding sequence (CDS)
Genbank protein accession
ANZ49262.1
[NCBI]
Genbank nucleotide accession
KX397368
[NCBI]
CDS location
range 148760 -> 152839
strand -
strand -
CDS
ATGGTTTCGTATCCTTACGACTGGAAGGGTACTAGCCCCGCAAATGCGTTCAAGGAAGAACGCATCATCACAAACGAGAAGACCGATGACCGGGTGGTGATTCTGAAAAACCGCCCGTTCTTCGAAGTCAGCTTAGTGGTGACTGCGTCCGGCAGTACGACCCCGCTTACCCGTGGGGTCGATTATGAAATAACCTACCAGATGCCAGAACTGAATGAGTCGGTGGCCACACCTGTTGCGTGCGGTATCCAACTCATCAATCCGAAAATCGGTGGGTCTTTGACCTTTGTAGGTCAAGCGTTGGGGGATACGTTCTATTCGCCGTTCATTGACATCCTCGATGAACTGATTAAATACCTGAATAACCCTGTGGATGCAGATTGGTTTAAGGTTGATAATCGCCCGACGTTCTTCCCCCCTAAACCGGCTGCCACTTCATGGCATGACCTGCTGAATAAAAAATACGTGGCGTCAGCCGTGCATGACGTTGAGCTGGATTCTGAGGCCGCGAACAATGCCGTTAAGGCAAAGCTTGCGGCACTGAAAGTCACCGTTGCCGGATTAGCAAAGGAAATCACCACCTTTAACTACCCTGCACACATTGCGGCACACAACCCCCACGGGACGACGTCCGCACAAGCGAACGCACATCCTGCGAACCTGAAGACCCCAGACACGTTCTTAGCTTACGGGAAGACCTTGCGTACCCTGACGGCTGAAATCCGCGCCTTGGGGCTCCAGCAAAGCGATATCGATAAGTATATCGAGAAGTGGGCGTGCAAAGATGTCTCCGGTGTCTTTATTCAGCAACTTGCTGCCAACCGGTCGTTGTTCAAGTCGAAAAGCGGAACATCGGAAATCACCTTCACCGATACAGCCTTTACGATTAAAAGCAACGGGGCGGTTATTCTGGCCGCAGGTTACGACGCCAACGATACCACTACCCGTTTCATGGAGTGGACGTCGGGAACGAACACCCTGCGTATCGAGTCATCAGGTAATGCGCTCGGGATGGACAAGCTGACCCTGAACGGGAAAGTGTTGCTCACGACCACGTTACTGATGAAATACCAACCGACTGAGAGCGGACAAACCAGCGACCCGGACGACCAGAAGATTTACGTTCAGGGGCGTGGTGGTATTTCAGTCACTGGTAAAGGTTCAAAAGCCGACCCGGTTAAAGCCTCACTGACGCTACCGTCTGCCACCACCACCGTAAAAGGTACCGCGGTGTTAAAGTCGGGTGTGGGCGACGAAGTCAGTGGTGTTGCTTCGACCCCAGACTCGTTGCAGCCGTATGAAGGTAAGGCGTCGGGCTATGTGGCGAAAACCACCATGCTCAACTCCAAACCAATGGACGACGGGGCGCGTGTGATGACCAAGTCAGATATTGGTCTGAGCCAAGCAGATAACACTGCTGACGTCAACAAACCGGTCTCTGCTGACCAATCTACCGCAATGGATGGGTTGAGTGATAAAGGACACAAGCACACATTTGCATCCTTAAACTTGCCACTGGCAACGAACGCCACTGAGGGTCTGGGACGGTACACCGATTTGGACGATGGTCTGTCCGGCAGTAAAGGTGTGACACCGAACGTCATGAAGCGCTTGAGCGATCGTTTGGATGCGATTAGTGATGCGTTGAAGTCGGTGAAAACCGGAGTGTCAACAGATTTCTCCATCATCGATGCTTCAACGTGGTCGGTTGCATCTGGCCGTATCCTTCAAGTCAAAGACCTCCAGTATTTCTATCTGCGGGGGAATGACCGGGCTGAGGGGAAGGTAAGTGGGTCGATTAACCTCGAAACCACCCCGATGTTCAACTGGTTCAGTCCGAACAACACGATGGAGCGTAACTGGACGCCTGCGGTGAAGAACACCGCAGCGAACTTTGACTTCTCCGCCATTTCCTCCAAACCCAACTTCGCCTTAAAAGCGACGCCTATCGGCTTGAGTGCCAATGGGATGGGTAACCTGTCCGTTATCTCTCTGCTGTCCAAACTACGCTTAAAATCGTACACAGGAACGCTGAGGCTGTATATCGTGGCGGGTGGTAAGGTGACGGTCTATCTGGATGGTCAGGAAGTGGGGACGGGCAACTCGCCGTTCTTCTTGGAAGTCGATGTGGACTCCGCAAAACAATCTGCCTGCTTGGGGATTCGTGCGGACTGCAATGACGCGACGAAAGCTGCGGCGATGGCCTTTGAGGTTTATGACGAATCTCTGCCGATTTACCGCAGTGACGTCGGGACGCCGATCACCCAGCTTGGGGAGTTCATGACCCCAACGTTCGGTAATCGTCACTTCCTGTATCTGAACATGGTAACTCAATCCATGTACAGTCGTGCTGAACCGCAACCGACAAATGAGGTTTCACCGGAAACCGCCTTGATTGGTGTGGTTGATGTCCCTGCGGGCGGCATCACTACCCCGACCGTCAGTTTCCCGATGATGCGCGATTACGGGATTTCCAACGAGGCGTCCGACCATATAGCCAGTTTGCAACAACATATCCCAGCGGCCCGTGATTGGACACTGACGGATAATCTGGCGATGTTGCCGATTGGTAAACTGCGGTTCAATTCACCATCGGCCCTCTACGGTGAAGTCACTGCCGGAGCCGAGACGGTGTACGGACTGGCGCAGATGTCACGCAACAGCACCACGAAAAAAGCGTACATGCTGCTGGAGACGACGGAGCAAACACCGCAATGGTGGTTCACCCCATCCAACCCGAAGGCGAATGGGGCACCGACGTTCCAAGGTGGGTTAGTGTACGAAGAATACCAGACCAACGGACTGTTCGCACAACCGTTACCGGCCTTGTTGTTTGCCAGCCCAACCCTTGGGAGTGTGCCTGCGGATTACCGAAACCGCTATCTGCGCGTGCCACTCGATGGTGTGACTGAACCGGATTACGGCTACGTTAACGCTATCGCTACCCATGCGGGTGTCAATACGACATTGCCAACGTTTGAATCCAACATCCTGTATTCCAAGACGACGTCACTTCGGAAGAATGAAGCGTCAGCGGTCTTGGGGGTGATGGATTTGACCACACTGAAAGCAGGCTCTCCGAGATTGGCGGTGCGTTACTCGTACAACGTCACGCTTCGGAAACTGTCGGTGTTCAGCGTGTACTTCGCGGGCAATCCAAACGACGTCGATGGCTCTTTGCTCATTAATGAGCTGGAGATTCAGTTCGATGTTGATGTCCGGGGACTGATGGGTGGCTTCGTTGGACTTGAACTGCCACCGTTGGGTGGTGGTACGAGTGTCTGTAGCCTTCTGGGGTCTGTGGCTCCGCTGGACGGGATTGGGTTTGTTGAAGATGCCTACCAGTACCTTCGTTCGCTGTTCGAGTCGTATGCCGATTCGGGTGTGCTGCCGAACACGTCGGTGAAGAATGCGACCGTGGTGTTACCTGCGGGAGTGTTCGTACCTGACGTGCGGTATACCGAATACCAGTTAGTCCCGATGGGGTGTCGTTCCTTCCATGCGTCACACGCAGGTTACCTGCCACTGGCGTTTAACCGGGATGCGCTGCTCCAGTCGGTTCACTCTGTCGACACGAACGGCAACTGGTTCGGAAAACCCGGCAGCTCTGACGGCACGAACTTCCTTATCTCAGGCATGCTGGTTGAGTACAATCTCCCGCAGTCCTCCAAAGTGGCCAAACTGAAAATCGTCAAAGGCACACAAGCCAATGCGGTGCGTCAGCTTGCCATTGGTGGACAGGTGATAAATGTGGCTTACGCTTCATCCCTTGGCGGTGAACTCGGCGTTCCGGTACCGGCCCGTCGTGGGGATTTGAAACTTCAGCTGGCGTACCTTCCGGGGTACACATCCGATCCGTTGAAACTGGAGTTCACGTACGAACTCTACGATGCGGGCGGTACACTACTCACCACGATAACGGAAAATACCGTAGCGGATGCGATGTGGTTTGTCGCTGACCGCTATACAGCGAAAAGGATAAACCCGCTACACATGACCACGAGGCTGTGGAATGTGTTGCAGGCTAAGATGGACGCTGAGCGCACCACAGATGGAACTGACTTCGGTCAGTGGGTATAA
Genome Context
Tertiary structure
No tertiary structures available.