KEGG   Salmo trutta (river trout): 115175684
Entry
115175684         CDS       T08542                                 
Name
(RefSeq) DNA topoisomerase 2-beta-like isoform X1
  KO
K03164  DNA topoisomerase II [EC:5.6.2.2]
Organism
stru  Salmo trutta (river trout)
Brite
KEGG Orthology (KO) [BR:stru00001]
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03032 DNA replication proteins [BR:stru03032]
    115175684
   03036 Chromosome and associated proteins [BR:stru03036]
    115175684
Enzymes [BR:stru01000]
 5. Isomerases
  5.6  Isomerases altering macromolecular conformation
   5.6.2  Enzymes altering nucleic acid conformation
    5.6.2.2  DNA topoisomerase (ATP-hydrolysing)
     115175684
DNA replication proteins [BR:stru03032]
 Eukaryotic type
  DNA Topoisomerases
   115175684
Chromosome and associated proteins [BR:stru03036]
 Eukaryotic type
  Chromosome condensation proteins
   Other regulators of chromosome condensation
    115175684
  Centrosome formation proteins
   Centriole proteins
    115175684
SSDB
Motif
Pfam: DNA_topoisoIV TOPRIM_C DNA_gyraseB DTHCT HATPase_c Toprim
Other DBs
NCBI-GeneID: 115175684
NCBI-ProteinID: XP_029590980
Ensembl: ENSSTUG00000047167
LinkDB
Position
36:23646637..23692363
AA seq 1645 aa
MSNGAAGSGGLTWVTLFDKKNAAKKREEEAAAAANGRGDGGKAEGGGGGAKKKGGEKMSV
ERVYQKKTQLEHILLRPDTYIGSVEPVTQQMWVFDEDLGMNLREITYVPGLYKIFDEILV
NAADNKQRDKNMSTIKISIDPESNTITIWNNGKGIPVVEHKDEKMYVPALIFGHLLTSSN
YDDEQKKVTGGRNGYGAKLCNIFSTKFTVETACKEYKHSFKQTWQNNMGKTSDPKIKFFD
GDDFTCVTFQPDLSKFKMEKLDKDIVALLTKRAYDIAGSCKGVKVMLNGKKLPVTGFRSY
VELYVKDKLDEVGVALKVVNESVNERWEVCLTMSEKGFQQISFVNSIATTKGGRHIDYVV
DQIVAKLIEVVKKKNKAGVSVKPFQVKNHIWVFVNALIENPTFDSQTKENMTLQTKSFGS
KCPLSEKFIRAATNCGIVESILNWVKFKAQTQLNKKCSSVKYSKIKGIPKLDDANDAGGK
HSSECTLILTEGDSAKSLAVSGLGVIGRDRYGVFPLRGKILNVREATHKQIMENAEINNI
IKIVGLQYKKSYDDPESLRSLRYGKIMIMTDQDQDGSHIKGLLINFFHHNWPSLLKHTFL
EEFITPIVKVNKNKQEHAFYSIPEFDEWKKQTVNFKTWHIKYYKGLGTSTSKEAKEYFAD
MEKHRIMFRYAGTEDDAAITLAFSKKKTDDRKEWLTNFMEDRRQRRMHGLPEQYLYGTQA
KHLSYNDFINKELILFSNSDNERSIPSLVDGLKPGQRKVLFTCMKRNDKREVKVAQLAGS
VAEMSAYHHGEQSLLMTIVNLAQNFVGSNNVNILQPLGQFGTRINGGKDAASPRYIFTML
SPLAKMLFPAMDSSLLKFLFDDNQKVEPEWYIPILPLVLVNGAEGIGTGWACKIPNYDHR
EIVNNLYRMLNMQDPLPMLPSYKNFRGVIHELGQNQYMVSGEISVLDKNTIEITELPVRT
WTQAYKESVLEPMLQGTEKTPALINDYKEYHTDQTVKFVVRMSEEKLAQAEAAGLHKVFK
LQSSLTCNSMVLFDHMGCLKRYDSVQDILKEFFELRLHYYKLRKDWLVGSLGAEASKLSN
QARFVLEKIEGKITIENKSKRDLIRMLVQKGFESDPVAAWTKAQEKALEEDDRDGNDSDG
SVDSGSLSGPNFNYILNMPLWCLSKEKVDELLRQRDIKKGELNELQRKSPEDLWKEDLAV
FIEELDKIEAQEQADMSAGKGTKLVKGKVGKPKVKKLHLEETLPSPYGRRVVPTITQAMK
TDASKKMTKKKKGDADLVMKLEFDDEMGVLGSDGGTGENSSSNTPAPTPTKPKAPRIKQE
KKESGTPRARKPPTPKGSSGKKVKRRNPWSEDESKSESDLEDSEPVVIPRDTKSQRASAA
KPKYTFDFSEEEYGGEEEDDDDAASLPAEPCKDDFTASSETKDRYNDHSNDEDIFPPPKQ
TTTTVSPAKKKEPESIFSSSKSASSEKSNDSDDLKLDSDEEEKAFSYSSSSAFDKPVPAK
KAVKKPSDAAPKPRKAPVPKEPPKQKLDTSVWDSDSDTGSKKPATPLKGKGGGRKRKQSE
SEEDDFSPKKTPGKTPKAPTSRKPSKKAAVTPPPMSDDDDDDVDSNRFSQSGTASRDRLC
RSRTKKEVKYFAESGSDDYQYDMFD
NT seq 4938 nt   +upstreamnt  +downstreamnt
atgtccaacggcgcagcaggaagtgggggtctgacttgggtgaccctctttgataagaag
aatgctgccaagaagagggaggaggaggcagcagcggcggcgaacggcaggggcgatggg
ggcaaggcggagggaggaggtggaggagccaagaagaagggaggagagaagatgtcagtg
gagagggtgtaccagaagaagacccagctggagcacatcctactgaggcccgacacctac
atcggctctgtggaaccggtcacccagcaaatgtgggttttcgatgaagaccttgggatg
aatctacgagaaatcacctacgtccctggattatacaaaatctttgatgaaattcttgtc
aacgcggccgacaacaaacagcgggataagaacatgtcgaccataaagatctccattgat
cctgagtccaacaccatcaccatctggaacaatggtaaaggcatccccgtggtggaacac
aaagatgagaagatgtacgttcccgctctcatcttcggacacctcctcacctccagtaac
tacgacgacgagcagaagaaagtcacaggtggaaggaacgggtacggtgctaaactctgc
aacatcttcagcacaaagttcacagtggaaactgcctgcaaagagtacaaacacagcttc
aaacagacctggcagaacaacatggggaagacgagcgaccccaagatcaagttctttgac
ggggacgactttacgtgcgtgaccttccagccggacctgtccaagttcaagatggagaag
ctggacaaggacatcgtggctctgctcaccaagagggcttatgacattgctggctcctgc
aagggcgtcaaagtcatgctcaacgggaagaaactccctgtgaccgggttccggagctac
gtggagctgtacgtgaaggacaagctggatgaggtgggcgtggccctaaaggtggtcaac
gagtccgtcaacgagcgctgggaggtgtgtctcaccatgagtgagaagggattccaacag
atcagcttcgtcaacagtatcgccaccaccaagggtggcagacacattgattacgtggtg
gaccagatcgtagccaagctgatagaagtggtgaagaagaagaacaaagctggtgtctca
gtcaaacccttccaggtgaagaaccacatctgggtgtttgtgaatgcgttgatcgagaac
ccgacttttgactcccagaccaaggagaacatgaccctccagaccaagagctttggttct
aagtgtcctctgtctgagaagttcatcagagcggcgactaactgtggcattgtggagagt
atcctgaactgggtgaagttcaaggcccagacacaactcaacaagaagtgttcttcagtg
aagtacagcaagattaaaggcatccccaagctggacgacgccaatgatgccggtggtaaa
cactcgtctgaatgcactctgatcctgactgagggagactcagccaagtccctggccgtc
tccgggctcggcgtcattgggcgagatcgctatggtgtcttcccactaagaggaaagatc
ctgaatgtacgagaggccacacacaaacagatcatggagaacgcagagatcaacaacatc
atcaagatcgtgggtctgcagtacaagaagagctacgacgacccagagtctctgagatcc
ctacgctacggcaagatcatgatcatgaccgatcaggatcaggatggctcccatatcaag
ggtttgctcatcaacttcttccatcacaactggccatccctgctcaaacacaccttcctg
gaggagttcatcacgcccatcgttaaggtgaacaagaataaacaggagcatgctttctac
agcattccagagtttgacgaatggaagaaacagacggtcaactttaaaacctggcatata
aagtactacaaaggtttgggtaccagcacaagcaaggaggccaaggagtacttcgcagac
atggagaaacatcggatcatgtttagatacgccgggacagaggacgatgctgccatcaca
ctggcgttcagtaagaagaagactgacgacaggaaggagtggctcactaacttcatggag
gacaggagacagaggaggatgcacggcctgccagagcaatacctgtacggcacgcaggcc
aaacacctctcctacaacgacttcatcaacaaagaactcatcctcttctccaactccgac
aacgagagatccatcccatccttggtggacggtctgaagccaggccagaggaaagtgctg
ttcacctgtatgaagaggaatgataagagggaggtgaaggtggctcagctggctggttca
gtagcagagatgtctgcctaccatcacggagagcaatccctgttgatgacgattgtgaac
ttggcccagaactttgtgggcagcaacaacgtgaacatcctgcagccgctgggtcagttt
ggtacccgcatcaacggtggcaaggacgctgccagcccccgttacatcttcaccatgctc
agtcccctggccaagatgttgttcccagcgatggactccagcctgctgaagttcctgttt
gatgacaaccagaaggtggagccagagtggtacatccccatcctccctttggtgctggtg
aacggggccgagggcatcgggacgggctgggcctgcaagatccccaactacgaccacaga
gagatagtcaacaacctgtatcgcatgctcaacatgcaggaccctctgcccatgctgccc
agctataagaacttcagaggagtgatccatgagttgggtcagaaccagtacatggtcagt
ggagagatctctgtcctggacaagaacaccattgagatcactgagctgcccgttcgcacc
tggacacaggcctacaaagagtcggtactagagcccatgctccaggggacagagaagact
ccagctctgattaatgactataaggagtaccacacagaccaaaccgtcaagtttgtggtc
cgtatgtcagaggagaagctggcccaggcagaggctgctggactgcacaaagtcttcaag
ctacagtccagcctcacctgcaactccatggtgttgtttgaccacatgggctgtctgaag
aggtatgactcggtccaggacattctcaaggagttctttgagctgcggttgcactactac
aagctgaggaaggattggctagtggggagcctgggggcggaggcttccaaactgtccaat
caggcacgatttgtactggagaagatcgaaggaaagatcacaatcgagaacaagtctaag
agggatctgatcaggatgctggtgcagaaaggctttgagtcggaccccgtggcggcatgg
accaaagcacaggaaaaggctctggaggaggacgatcgtgacggtaatgacagtgacggc
tctgtggactctgggtcgttgtcgggaccaaacttcaactacatcctcaacatgcctctg
tggtgcctgtccaaggagaaggtggacgagctgctccgacagagagacatcaagaaagga
gagttgaatgagctgcagaggaagtctcctgaggacctgtggaaggaggacctggcggtc
ttcattgaagaactggataaaatcgaggcccaggagcaggcagacatgagtgcaggtaaa
ggtaccaagctggtgaagggcaaggtgggcaagcccaaggtgaagaaactccacctggag
gagacgttaccctcgccgtacggccgcagggtcgtacccaccatcacacaggccatgaag
actgacgcctccaagaagatgaccaagaagaagaagggtgatgcggacctggtgatgaag
ctggagtttgatgatgagatgggagtgctggggtcagatgggggaacaggggagaactcc
tcctcgaatacaccagccccaaccccaaccaagcccaaggccccccggatcaaacaggag
aagaaggagtcaggtactcccagagccaggaaaccccccacacccaaaggatcgtctggt
aagaaggtgaagaggcgtaacccctggtcggaggatgagtccaaatcagagagcgacctg
gaggacagtgaacctgtggtcatcccccgagacaccaagtcacaacgggcctcagcggcc
aagcccaagtacacatttgactttagtgaggaagagtatggaggagaggaagaggatgat
gatgatgctgcatccttgccagccgagccctgcaaagacgacttcactgcctcctccgaa
actaaagaccgatacaacgaccacagcaatgatgaagatatcttcccaccgcccaaacag
accaccaccaccgtctcaccagcgaagaagaaggaaccagagagtatattctcctcctcc
aaatcagcctcctctgaaaagagcaatgacagtgacgatctgaagttggacagtgacgag
gaagaaaaggccttctcatactccagcagctctgccttcgacaaacctgtcccagctaag
aaagcagtgaagaagccttcggatgcagctcccaaacccaggaaagcaccagtacccaaa
gagccaccaaaacagaagttggacacgtccgtttgggactccgactcagataccggctcc
aagaagcctgcgacaccactcaaaggtaaaggcggagggaggaagaggaagcagtctgaa
tctgaagaggatgatttcagtcccaagaagactcctgggaaaacacccaaagcccctacc
agcaggaaaccgtcaaagaaagcagccgtgaccccaccccccatgtcagatgatgatgat
gatgatgtagactccaaccgtttcagccaatccggcacggcatcccgagaccgactgtgc
agaagcaggaccaagaaggaagtgaagtactttgctgagtcagggtcagacgactatcag
tacgacatgttcgactag

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