Protein

UniProt accession
Q6UAW1_BPKO2 [UniProt]
Protein name
Gp21
RBP type
TF

evidence: RBPdetect2

probability: 0,8468

Protein sequence
MANNIIKGRKGGSSSQRTPTEQPDDLQSVAKAKILIALGEGEFAGELTGKDIYLDGTPLLNADGSENFSGVAWEFRPGTQAQKYIQGIPGTENEISVGTEISSETAWSHTFTNTQLSAVRVRLKWPSLMKQEDDGDVVGNTVKYAIDLQTDGGAWQTVLETAVTGKTTSGYERSHRIDLPQAGSTWTLRLRKVSPDANSVKIGDVMTLQSYTEVIDAKLRYPHTALLYVEFDSSQFNGSIPQISCEPRGRVIRVPDNYNPESREYTGTWTGGFKWAWTDNPAWIYYDIVVSDRFGLGNRLTSANISKWTLYQIAQYCDQMVPDGKGGDGMEPRYLCNVYVQERNDAYTVLRDFAAIFRGMTCWSGEQIVVQADMPRDVDFNYTRANIIGKPRYSSSTSKARYTNALVSWSDPANAYADAMEPAFVPELVSRYSFNQLEVTAIGCTRQSEAHRKGLWGILTNNKDRMVEIDVGLDGKIPQPGYIIGLADELLAGRVNGGRISAVNGRVITLDRDTDAKAGDRLQLNLPSGISQARTIQSVNGLRQVTVTTAYSETPEVECVWVIESDDLYVQQYRVIGVKDNNNATYTITGVAHDPDKFPRIDTGAIIDQRPISVIPPGSQQPPESIVISSYSVVNQGISVETMQVHWNAVKDAISYEAQWRRNDGNWINVPRSSTTSFEVSGIYAGRYLARVRAINAAEVSSGWAYSEEKTLTGKIGLPSAPLALTTTSLLHGVQLNWEFPEGSGDTQKTELQYSPNPNGNGAMALSDVAYPGKTYQQMGLQIAAMFWYRARIVDRIGNESPWTAWVQGMASDDIGEYYDKLTDAIKDTEAWQEAQRDIEETHKELIKTAEAIREEVAQQVTDINQSIDDSASEIRQQVDGQIESVNKSITENINSVNQTLSDNITAVNKSITDAVSDINTSVDQQIADVNKTLTEGDAALKSQLQAVENSLKQSIAQANTGWDKAVKQETADRIADVNAKAAQAADQLLNEKNERVAAIESTQQIIQNVNDSLATQMAKISAGTGEQFDSQAIWYFDNGREGWTSNGGTPSVVENGWLRPANHATDAYITSPGISISGSAYHFLKLRLKKTGTPAWSGQIRWRYEGQSFNDSRMLTVAEPDYDSSGRAVLSIQDIPWGSDDSKPVVQFRLDLTVDQSDDNFIIIDWIAVGRPTPGASTAALREESTARANADTAEANKRATLATQMRGTSESNNLADLRSGLLFQEMNARITADKAEVTARESLQTQFNDNKASVADELSSISTAQSAQASKISGLETSLGKKADASAVQSLTQKVEQQGTTLTSQGNTLTSLSNRVGKTESGVAANSSAITGLQSTVSQQGDKLTSQGQSLTKLTNDLSTTNANVNKKADATALQSLQNIVTQQGGTLSTQGNAITSLENSLNALDVGGTNQIPDSGSLARYGNVSAEKYNGNGVMAFTLKAGAAYRDLISIDLSAPVDGTEYVLSFYAKAAANGQKVRSHFYSPNSTKRSVSSQGNTFTNSDGLCDFTLTTEWQRYWVKWTQSAGSGSKKLIVARINPGSTDQTVYLSSPKFERGNVPTAWSEAPEDNASAAAVSALTSRVDSAEGTLTSQGQAITKLNSDLATTNASVNKKADATALNALTTRVSSAEGKLESQGQSITSLQNGLTTANQNIGKKADSSAVNTLTNRVSQVENTLTTQSESITSLSGSISTLRNQVSNPWFDGSLESYADGQELYGSAAVVTTAQKFNGSRSLRLRREANNGGNSDKQIGPWSSIRENAVYSIELWAMMPEDQSPSSGWQTTVGIQGQNAAGQNSWQGAVTITESGLGERGKWVKFSGKARMNGAGRTRGVVWISTRGATGSGTPGYDLYIDDVVITDITDAQDALNVADATASAVDSLTTKVSQQDNTISSIGSRTTALENGLSTTNADVSKKADASTVQTLQNTVTQQGKDLTAANSAITKLTSDLSTTNANVSKKADSTALQTLQNTVTQQGKDLSSQGASLTQLTSRLSESNASADADGKIPGNLITNASFERGTDGFSGWSDRASVVTLQAPYNGTRAARLTAGGAVGIGQDVDFVKGRTYQIGVRAKQDSGTTIADGNRTKFRIADSTGLIGSSVYGPFTSDWQEVKFTWKAPKDVRAAVQFTAYLGAGAMYFDDFYVVDITDRVDIDAAANAIGSLTTRVTSAEGSITSQGSSITKLTNDLATTNGNVNKKADAAALQTLQNTVTQQGNTITSQGTSITSLDNKVTQAQKDINTKANASAVDSLSNRVTTTEKSISAQSDSITKLANDLATTNGNVSKKAEQSALNSLTGRVEKTESGLSAANSSITSLNAAVRAGNASSGDLIPNPTFDPAFGQLGLAVVSTTSDGVPSGCPFANAVKLTGRDHHPDMAAIPATLGDVFEMSALVSCGAGTADFNFYLGTTTSSNANTNQALFTGGNTKATAQWKRVTWRFTVNQEMVNRGYIRPFLQISQSSPFGTVWYVTDWHLRNITAAASAQDAADATAKAVDSLTTTVNQQGSTLTSIGNRTTTLENGLSTTNADVNKKADASTVQTLQNTVTQQGKDLTATNSAITKLTSDLSTTNASVNKKADATALQSLQNTVTQQGGTLSTQGNAITSLENSLNALDVGGTNQIPDSGGLARYGNVSAEKYNGNGVMAFTLKAGAAYRDLISINLSAPVDGTEYVLSFYAKAAANGQKVRSHFYSPNSTKRSVSSQGNTFTNSDGLCDFTLTTEWQRYWVKWTQSAGSGSKNLIVARINPGSTDQTVYLSSPKFERGNVPTAWSEAPEDNASAAAVSALTSRVDSAEGTLTSQGQAITKLNSDLATTNASVNKKADATALNALTTRVSSAEGKLESQGQSITSLQNGLTTANQNIGKKADSSAVNTLTNRVSQVENTLTTQSESITSLSGSISTLRNQVSNPWFDGSLESYADGQELYGSAAVVTTAQKFNGSRSLRLRREANNGGNSDKQIGPWSSIRENAVYSIELWAMMPADQSPSSGWQTIVGIQGQNAAGQNSWQGAVTITESGLGERGKWVKFSGKARMNGTGRTRGVVWISTRGATGSGTPGYDLYIDDVVITDITDAQDALNVADASTTAVNSLTTRVTNAENKITAQSQQLTSLQSSLNGKADAGALNSLTSRVTSAEGNITSTANSLTSLNSTVGTLSSTVQAQGNTLVDTNNKISSMYSIKVETNNGKKVGAGIVLGSDGDTSDMILYADRFSLFNRNNNTAVPVMIAEGNELYIDSARIKNGSIDNGKIGNVIQSNNYVGGSSGWRVTKDGGSEFNNVVVRGEIQASSGTFNGTVYATDGRFNGTVYAEKIEGDVVRCYTVSSNGGVDIPAAPFNRAIFVPHVSVAIAPFNGAQTYTAVVTVRVIINGNATNVTDTVSSAANARNSGGVSGVWLLPANQTARIEYTSGQNTPNPINARMPATIGVLVTKN
Physico‐chemical
properties
protein length:3433 AA
molecular weight: 365654,54070 Da
isoelectric point:5,23774
aromaticity:0,06350
hydropathy:-0,40618

Domains

Domains [InterPro]
IPR055385
91–217
IPR055385 IPR032876 IPR013783 IPR053171 IPR008979 IPR015406
IPR003961
622–713
IPR003961
IPR003961
622–716
IPR003961
IPR036116
640–702
IPR036116
Q6UAW1_BPKO2
1 3433
Legend: Pfam SMART CDD TIGRFAM HAMAP SUPFAM PRINTS Gene3D PANTHER Other

Taxonomy

  Name Taxonomy ID Lineage
Phage Klebsiella oxytoca phage phiKO2
[NCBI] 		255431 Uroviricota > Caudoviricetes >
Host Klebsiella oxytoca
[NCBI] 		571 Bacteria > Proteobacteria > Gammaproteobacteria > Enterobacteriales > Enterobacteriaceae > Klebsiella

Coding sequence (CDS)

Coding sequence (CDS)
Genbank protein accession
AAR83037.1 [NCBI]
Genbank nucleotide accession
AY374448 [NCBI]
CDS location
range 15332 -> 25633
strand +
CDS
ATGGCAAATAACATAATCAAAGGGCGCAAAGGTGGCAGCTCAAGCCAGCGCACGCCGACGGAGCAGCCGGATGATTTACAGTCCGTAGCAAAAGCCAAAATTCTCATCGCGCTGGGCGAGGGAGAATTTGCAGGTGAATTAACGGGCAAGGATATTTATCTAGATGGTACCCCGCTATTAAATGCCGATGGGTCAGAGAACTTTTCCGGCGTGGCGTGGGAATTTCGTCCCGGAACACAGGCCCAAAAATATATTCAAGGCATTCCCGGCACTGAAAATGAAATCAGTGTCGGAACAGAAATATCCAGCGAAACCGCCTGGAGCCATACGTTTACAAATACTCAGCTATCTGCCGTCCGAGTCCGTCTGAAGTGGCCTTCACTGATGAAGCAGGAAGACGACGGGGACGTGGTGGGGAATACCGTTAAATACGCCATTGATTTACAGACCGATGGCGGTGCCTGGCAGACCGTGCTGGAAACGGCGGTTACCGGGAAAACCACTTCCGGCTATGAGCGCAGCCACCGCATCGACCTGCCGCAAGCGGGGAGCACCTGGACGCTCCGCCTGCGGAAAGTCTCTCCGGACGCCAACAGCGTCAAAATCGGCGATGTGATGACGCTGCAGAGCTACACAGAAGTGATTGACGCGAAGCTGCGCTATCCCCACACAGCGCTGCTTTATGTCGAATTTGATTCCAGTCAGTTTAACGGCTCCATTCCACAGATTTCCTGCGAACCGCGTGGACGAGTTATCCGCGTTCCTGATAACTACAACCCGGAGAGCCGCGAATATACCGGCACATGGACAGGTGGCTTTAAGTGGGCCTGGACGGATAACCCGGCATGGATTTATTACGATATCGTTGTTTCAGACCGGTTTGGCCTAGGCAACCGTCTGACCAGCGCGAATATCTCTAAATGGACGCTGTACCAGATCGCACAATACTGCGATCAGATGGTCCCCGATGGTAAGGGAGGCGATGGCATGGAGCCTCGCTATCTCTGTAACGTCTACGTGCAGGAACGCAACGATGCGTACACCGTGCTGCGCGATTTTGCCGCCATTTTCCGGGGGATGACCTGCTGGAGCGGTGAGCAGATTGTCGTACAGGCTGATATGCCGCGTGATGTCGACTTTAACTACACGCGGGCGAACATTATTGGCAAACCGCGCTATTCAAGCAGCACCAGTAAGGCTCGTTACACCAACGCGCTGGTCTCGTGGTCAGACCCGGCAAACGCCTACGCCGACGCAATGGAACCGGCGTTCGTCCCGGAGCTGGTCAGCAGGTACAGCTTTAACCAGCTGGAAGTGACGGCCATCGGGTGTACTCGACAGAGCGAAGCCCACCGTAAGGGCCTGTGGGGCATACTGACCAACAACAAAGACCGCATGGTTGAGATTGATGTGGGGCTGGACGGTAAAATCCCGCAGCCGGGCTACATCATTGGACTGGCTGATGAACTTCTGGCCGGACGCGTGAACGGCGGGCGTATCAGCGCAGTTAATGGACGGGTGATTACCCTTGACCGGGATACTGATGCAAAAGCTGGTGACCGGCTGCAGCTGAACCTGCCGTCAGGCATATCTCAGGCCCGGACGATCCAGTCAGTCAACGGTCTCCGACAGGTCACGGTTACGACGGCGTACAGTGAGACGCCGGAGGTGGAATGTGTCTGGGTGATTGAGTCTGACGATCTGTATGTTCAGCAGTACCGCGTTATCGGGGTCAAGGACAACAACAACGCCACGTATACAATCACCGGCGTGGCCCACGATCCGGACAAATTCCCGCGTATCGATACCGGCGCGATCATCGACCAGCGCCCGATAAGCGTTATCCCTCCAGGGAGTCAGCAGCCGCCGGAAAGCATCGTTATCAGCTCGTATTCTGTGGTGAATCAGGGCATCAGCGTCGAAACGATGCAGGTGCACTGGAATGCGGTGAAAGATGCGATTTCGTATGAAGCGCAGTGGCGACGTAATGACGGTAACTGGATTAACGTGCCGCGCAGCTCGACCACCTCGTTCGAGGTCAGCGGCATTTACGCCGGTCGTTATCTGGCCCGTGTCCGGGCGATCAACGCTGCAGAGGTCTCCAGCGGCTGGGCATATTCAGAAGAGAAAACGCTGACAGGAAAAATCGGTTTGCCGTCGGCACCGCTGGCGCTGACCACCACTTCCCTGCTGCATGGCGTGCAGCTGAACTGGGAGTTCCCGGAGGGGAGCGGCGATACGCAGAAAACCGAGCTGCAGTACAGTCCTAATCCCAACGGCAACGGGGCGATGGCGCTGTCTGATGTGGCGTATCCGGGCAAAACCTATCAGCAGATGGGCCTGCAGATTGCGGCGATGTTCTGGTACCGCGCGCGGATCGTTGACCGTATCGGCAATGAAAGTCCGTGGACGGCCTGGGTGCAGGGGATGGCCAGCGACGATATCGGTGAGTATTACGACAAGCTGACCGATGCGATTAAGGACACGGAAGCCTGGCAGGAAGCCCAGCGGGATATTGAGGAGACTCATAAGGAGCTGATAAAAACCGCCGAGGCTATTCGTGAAGAAGTCGCGCAGCAGGTCACCGATATTAACCAGAGTATTGATGATTCTGCGTCTGAGATCCGCCAGCAGGTTGACGGTCAGATAGAGTCCGTCAACAAGTCGATAACGGAGAATATCAACAGCGTAAATCAGACGCTCAGTGACAATATCACGGCAGTCAACAAGAGCATCACCGATGCCGTGAGCGATATTAATACCTCCGTTGACCAGCAGATCGCTGACGTTAACAAAACCCTCACCGAGGGGGATGCTGCGTTAAAATCCCAGCTGCAGGCGGTTGAAAACAGTCTGAAACAGTCCATCGCCCAGGCGAATACAGGCTGGGACAAAGCGGTAAAACAGGAGACTGCCGACCGCATTGCGGACGTCAACGCGAAAGCGGCGCAGGCGGCAGACCAGCTGCTGAATGAAAAAAACGAGCGTGTTGCAGCTATCGAGTCGACACAGCAAATCATCCAGAATGTGAATGATTCTCTGGCCACACAGATGGCTAAGATTTCGGCGGGAACCGGGGAGCAGTTTGACAGCCAGGCTATCTGGTACTTTGATAACGGCCGGGAAGGCTGGACATCTAACGGCGGCACGCCTTCGGTTGTTGAAAACGGCTGGCTGAGACCGGCAAACCATGCGACAGATGCTTACATTACATCTCCTGGAATCAGTATCAGTGGCTCAGCGTACCACTTTCTGAAACTGCGTCTTAAGAAAACGGGGACGCCCGCGTGGAGTGGTCAAATCCGCTGGCGCTATGAAGGTCAGTCGTTCAACGACAGTCGCATGCTGACCGTCGCAGAGCCGGATTATGACAGCAGTGGCAGGGCTGTTCTCAGTATTCAGGACATTCCCTGGGGAAGCGATGACAGCAAGCCGGTTGTCCAGTTTCGCCTCGATTTAACGGTGGATCAGTCTGATGATAATTTCATCATCATTGACTGGATTGCCGTAGGTCGACCGACGCCGGGAGCCAGCACTGCAGCATTGCGCGAAGAATCGACAGCCCGTGCGAATGCCGATACGGCAGAAGCGAATAAGCGAGCCACGCTGGCCACGCAGATGCGGGGGACGAGTGAAAGCAATAATCTGGCAGACCTGCGCTCTGGCCTGTTGTTTCAGGAGATGAATGCGCGTATTACCGCCGATAAAGCGGAAGTGACCGCGAGAGAATCCCTTCAGACGCAGTTCAATGACAATAAGGCCTCTGTCGCTGATGAACTGAGTTCCATCTCCACGGCACAAAGTGCGCAGGCCAGTAAAATCAGCGGGCTGGAAACCAGCCTGGGGAAAAAGGCTGATGCCAGTGCCGTACAGTCTCTGACACAAAAAGTGGAGCAGCAGGGCACCACATTAACCAGTCAGGGCAACACGCTGACCTCCCTGTCCAACCGTGTCGGAAAAACCGAATCAGGTGTGGCCGCAAACAGTAGTGCCATTACGGGCCTGCAGTCTACTGTCAGCCAGCAGGGAGATAAGCTCACCAGTCAGGGCCAGTCTCTGACAAAACTGACGAACGATCTTTCGACGACGAATGCTAACGTCAATAAAAAAGCGGATGCCACGGCGCTGCAAAGCCTGCAGAACATTGTGACGCAACAGGGGGGCACGCTGTCCACCCAGGGCAACGCGATCACCTCGCTGGAAAACTCGCTGAATGCGCTGGACGTTGGCGGGACGAACCAGATCCCCGATTCTGGCAGTCTGGCCAGATATGGCAATGTGAGCGCGGAAAAATACAACGGCAACGGGGTGATGGCATTCACGCTGAAAGCCGGAGCCGCATACCGCGATCTCATCAGTATTGACCTGTCCGCGCCGGTGGACGGAACGGAGTACGTGCTGAGTTTTTACGCGAAGGCGGCGGCAAACGGGCAGAAGGTCCGGAGCCATTTCTACAGCCCGAACAGCACGAAAAGGTCGGTAAGCAGCCAGGGCAACACGTTCACCAACTCAGACGGGCTGTGTGATTTCACCCTGACAACGGAATGGCAGCGTTACTGGGTGAAATGGACGCAGAGTGCGGGTAGCGGCAGTAAAAAGCTGATTGTTGCGCGTATTAATCCTGGTTCAACAGACCAGACGGTGTACCTGAGTTCGCCGAAGTTCGAGCGGGGAAATGTGCCGACGGCGTGGAGCGAAGCGCCGGAGGACAACGCCAGCGCGGCGGCAGTGAGCGCCCTGACATCCCGGGTGGATTCAGCAGAGGGTACGCTGACCAGCCAGGGGCAGGCGATCACGAAGCTGAATAGCGACCTGGCCACGACGAACGCCAGCGTCAATAAGAAAGCGGATGCGACAGCGCTGAACGCGCTGACCACACGGGTGAGCAGTGCGGAAGGGAAGCTGGAGAGTCAGGGACAGTCGATAACGAGCCTGCAGAACGGGCTGACGACGGCGAACCAGAATATAGGCAAGAAAGCGGACAGCAGCGCGGTGAACACGCTGACGAACCGGGTCAGCCAGGTGGAAAATACACTGACCACGCAGTCAGAGAGCATCACCTCGCTGTCAGGCAGTATCAGCACGCTGCGCAACCAGGTGTCTAATCCGTGGTTTGACGGCTCGCTGGAAAGTTATGCGGATGGCCAGGAGCTATACGGCAGCGCCGCAGTCGTGACGACGGCGCAGAAATTTAATGGCAGCAGGAGCCTGCGGCTGCGCCGTGAAGCGAACAACGGGGGCAACAGCGACAAGCAGATAGGTCCGTGGTCGAGTATCCGCGAGAACGCGGTGTACAGCATTGAGCTGTGGGCGATGATGCCTGAGGACCAGTCCCCGTCGTCTGGGTGGCAGACGACAGTCGGTATTCAGGGGCAGAATGCGGCGGGGCAGAACAGCTGGCAGGGGGCTGTCACGATAACGGAAAGTGGTCTGGGCGAGCGCGGGAAGTGGGTGAAATTCAGTGGTAAGGCCCGGATGAACGGTGCCGGAAGAACGCGAGGGGTAGTGTGGATCTCCACACGCGGTGCGACGGGCAGCGGCACGCCGGGCTACGACCTGTATATCGATGACGTTGTCATTACAGATATCACTGATGCCCAGGATGCGCTGAATGTAGCTGATGCCACCGCCTCTGCCGTGGATTCTCTGACGACGAAAGTCAGCCAGCAGGACAACACCATCAGTAGCATCGGGAGCCGGACCACTGCGCTGGAAAACGGGCTGTCAACGACGAATGCTGACGTCAGCAAAAAAGCGGATGCCAGCACGGTGCAGACGCTGCAGAACACGGTTACGCAGCAAGGAAAGGATCTTACTGCCGCCAACAGCGCCATCACAAAGCTGACCAGTGACCTGTCGACGACAAATGCGAACGTCAGCAAGAAGGCAGACTCAACGGCGCTGCAGACGTTACAGAATACGGTGACGCAACAGGGGAAAGACCTCTCCAGCCAGGGGGCATCGCTGACGCAACTGACCAGCCGCCTGAGTGAATCAAATGCCAGTGCTGACGCGGACGGGAAAATCCCCGGCAACCTGATCACTAATGCCTCATTTGAAAGGGGAACTGACGGATTCAGCGGCTGGAGTGACCGGGCTTCAGTCGTGACGTTACAGGCTCCGTACAACGGCACCCGTGCCGCCAGACTGACCGCAGGAGGGGCGGTCGGTATCGGACAGGATGTTGATTTTGTTAAAGGCCGCACGTATCAGATTGGCGTCCGGGCAAAACAGGATAGCGGCACCACGATTGCGGACGGGAATAGAACAAAATTTCGTATCGCCGACAGCACCGGACTGATTGGCTCTTCAGTTTATGGTCCGTTCACCAGCGACTGGCAGGAAGTTAAATTTACCTGGAAGGCACCGAAAGACGTCAGGGCGGCAGTACAATTCACAGCTTATCTCGGCGCAGGCGCCATGTATTTTGATGACTTCTATGTTGTCGATATTACCGACCGCGTGGACATTGATGCCGCAGCTAACGCCATCGGCAGCCTCACCACGCGGGTGACGAGTGCGGAGGGCAGTATCACCAGCCAGGGTAGCAGCATCACGAAGCTGACGAATGACCTGGCGACCACCAATGGGAATGTGAATAAAAAGGCTGACGCAGCGGCTCTGCAGACGCTGCAGAATACCGTCACGCAGCAGGGCAACACAATCACTTCTCAGGGAACCTCGATCACCTCCCTGGATAACAAAGTGACTCAGGCTCAGAAGGACATTAACACCAAGGCAAACGCTTCAGCCGTGGATTCTCTCAGCAACCGTGTAACGACCACTGAGAAGTCAATCAGCGCTCAAAGTGACTCAATAACGAAGCTGGCAAATGACCTGGCGACCACCAATGGTAACGTGTCGAAAAAAGCTGAACAATCAGCGCTGAACAGTCTGACGGGGCGGGTCGAGAAGACGGAGAGCGGTCTCAGTGCAGCCAACAGCAGTATAACGTCGCTGAATGCAGCCGTTCGGGCCGGAAACGCCTCCAGCGGAGACTTAATCCCTAATCCGACGTTTGATCCGGCATTTGGTCAGCTGGGGCTGGCCGTTGTATCCACCACGTCGGATGGCGTGCCATCGGGTTGTCCGTTTGCAAATGCGGTGAAGCTGACGGGGCGCGATCATCATCCTGACATGGCGGCTATTCCTGCCACTTTGGGAGATGTGTTTGAAATGTCAGCCCTGGTCTCCTGCGGTGCGGGTACGGCAGATTTTAATTTTTACCTTGGTACAACGACATCCTCAAACGCGAATACAAACCAGGCGTTATTCACCGGCGGAAACACCAAAGCAACAGCGCAATGGAAGCGAGTCACCTGGCGATTCACGGTCAACCAGGAGATGGTCAACCGCGGGTATATCCGTCCGTTCCTGCAGATTAGCCAGAGTTCACCGTTTGGCACCGTCTGGTATGTGACAGACTGGCATTTGCGTAACATCACTGCTGCGGCCAGCGCTCAGGATGCGGCAGATGCGACAGCAAAAGCCGTTGATTCTCTGACGACGACCGTCAACCAGCAGGGCAGCACGCTCACCAGTATCGGAAACAGGACTACGACGCTGGAAAACGGGCTGTCAACGACGAATGCTGACGTCAACAAAAAAGCGGACGCCAGCACGGTGCAGACGCTGCAGAACACCGTGACGCAGCAAGGGAAGGACCTTACTGCCACCAACAGCGCCATTACAAAGCTGACCAGTGACCTGTCGACGACCAACGCCAGCGTCAACAAGAAAGCAGATGCCACGGCGCTGCAAAGCCTGCAGAACACGGTGACGCAGCAGGGGGGCACGCTGTCCACCCAGGGCAACGCGATCACCTCGCTGGAAAACTCCCTGAATGCGCTGGACGTGGGCGGGACGAACCAGATCCCCGACTCCGGCGGCCTGGCCAGATATGGCAATGTGAGCGCGGAAAAATACAATGGCAACGGGGTGATGGCATTCACGCTGAAAGCCGGAGCCGCATACCGCGATCTCATCAGTATTAACCTGTCCGCGCCGGTGGACGGAACGGAGTACGTGCTGAGTTTTTACGCGAAGGCGGCGGCAAACGGGCAGAAGGTCCGGAGCCATTTCTACAGCCCGAACAGCACGAAAAGGTCGGTAAGCAGCCAGGGCAACACGTTCACCAACTCAGACGGGCTGTGTGATTTCACCCTGACAACGGAATGGCAGCGTTACTGGGTGAAATGGACGCAGAGTGCGGGTAGCGGCAGTAAAAATCTGATTGTTGCGCGTATTAATCCTGGTTCAACAGACCAGACGGTGTACCTGAGTTCGCCGAAGTTCGAGCGGGGAAATGTGCCGACGGCGTGGAGCGAAGCGCCGGAGGACAACGCCAGCGCGGCGGCAGTGAGCGCCCTGACATCCCGGGTGGATTCAGCAGAGGGTACGCTGACCAGCCAGGGGCAGGCGATCACGAAGCTGAATAGCGACCTGGCCACGACGAACGCCAGCGTCAATAAGAAAGCGGATGCGACAGCGCTGAACGCGCTGACCACACGGGTGAGCAGTGCGGAAGGGAAGCTGGAGAGTCAGGGACAGTCGATAACGAGCCTGCAGAACGGGCTGACGACGGCGAACCAGAATATAGGCAAGAAAGCGGACAGCAGCGCGGTGAACACGCTGACGAACCGGGTCAGCCAGGTGGAAAATACACTGACCACGCAGTCAGAGAGCATCACCTCGCTGTCAGGCAGTATCAGCACGCTGCGCAACCAGGTGTCTAATCCGTGGTTTGACGGCTCGCTGGAAAGTTATGCGGATGGCCAGGAGCTATACGGCAGCGCCGCAGTCGTGACGACGGCGCAGAAATTTAACGGCAGCAGGAGCCTGCGGCTGCGCCGTGAAGCGAACAACGGGGGCAACAGCGACAAGCAGATAGGCCCGTGGTCGAGTATCCGCGAGAACGCGGTGTACAGCATTGAGCTGTGGGCAATGATGCCTGCGGACCAGTCCCCGTCGTCTGGGTGGCAGACGATAGTCGGTATTCAGGGGCAGAATGCGGCGGGGCAGAACAGCTGGCAGGGGGCTGTCACGATAACGGAAAGTGGTCTGGGCGAGCGCGGGAAGTGGGTGAAATTCAGTGGTAAGGCCCGGATGAACGGAACGGGCAGGACACGCGGGGTGGTGTGGATCTCCACACGCGGGGCGACGGGCAGCGGAACGCCGGGTTACGACCTGTATATCGATGATGTTGTCATCACGGATATCACCGACGCCCAGGATGCGCTGAATGTGGCTGATGCCAGTACCACAGCGGTCAACAGCCTCACCACGCGGGTAACAAATGCAGAGAACAAAATCACGGCGCAGAGTCAGCAGCTCACCAGCCTGCAGAGTTCGCTGAACGGTAAAGCCGATGCCGGGGCTTTGAATTCACTGACCAGCCGGGTGACCAGTGCAGAAGGGAATATCACCTCAACGGCAAACAGCCTCACGAGCCTGAACAGCACCGTTGGTACGTTGTCCTCAACTGTACAGGCTCAGGGTAACACCCTGGTCGATACCAACAATAAAATCAGCTCCATGTATTCCATCAAAGTTGAAACCAACAACGGGAAGAAGGTGGGGGCCGGTATTGTGTTGGGCAGCGATGGTGATACCAGCGACATGATCCTCTATGCCGACCGTTTCTCGCTGTTTAACCGCAACAACAATACTGCTGTACCGGTGATGATTGCGGAAGGAAACGAGCTGTACATCGATTCGGCCCGGATTAAAAACGGCTCAATTGACAACGGGAAGATCGGCAACGTCATTCAGTCCAATAACTACGTTGGCGGCTCCAGCGGCTGGCGCGTCACCAAAGATGGTGGGAGTGAGTTTAATAACGTAGTCGTACGTGGTGAAATCCAGGCCAGCAGCGGTACTTTCAATGGCACGGTCTATGCCACGGATGGGCGCTTTAACGGCACAGTGTACGCGGAGAAAATCGAAGGCGACGTGGTGAGATGTTACACCGTCTCGAGCAACGGGGGTGTTGATATTCCGGCAGCGCCATTCAACCGCGCAATCTTCGTTCCACACGTGTCAGTGGCGATCGCCCCATTTAACGGCGCACAGACGTATACGGCGGTCGTTACCGTCCGCGTGATCATTAACGGCAATGCCACCAACGTGACTGACACGGTTTCGAGCGCCGCAAATGCGCGTAACTCTGGAGGTGTAAGTGGGGTGTGGTTGCTTCCTGCGAACCAGACAGCGCGGATTGAGTACACGTCGGGTCAAAATACACCTAACCCCATTAACGCGAGGATGCCAGCAACTATCGGTGTGCTGGTCACTAAAAATTAA

Gene Ontology

No Gene Ontology terms available.

Enzymatic activity

No enzymatic activity data available.

Tertiary structure

No tertiary structures available.

Literature

Title Authors Date PMID Source
The pKO2 linear plasmid prophage of Klebsiella oxytoca. Casjens SR, Gilcrease EB, Huang WM, Bunny KL, Pedulla ML, Ford ME, Houtz JM, Hatfull GF, Hendrix RW 2004-03 14996813 PubMed
The pKO2 Linear Plasmid Prophage of<i>Klebsiella oxytoca</i> Sherwood R. Casjens, Eddie B. Gilcrease, Wai Mun Huang, Kim L. Bunny, Marisa L. Pedulla, Michael E. Ford, Jennifer M. Houtz, Graham F. Hatfull, Roger W. Hendrix 2004-03-15 10.1128/JB.186.6.1818-1832.2004 DOI