KEGG   Anolis sagrei ordinatus (Brown anole): 132778689
Entry
132778689         CDS       T09595                                 
Symbol
TOP2B
Name
(RefSeq) DNA topoisomerase 2-beta
  KO
K03164  DNA topoisomerase II [EC:5.6.2.2]
Organism
asao  Anolis sagrei ordinatus (Brown anole)
Brite
KEGG Orthology (KO) [BR:asao00001]
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03032 DNA replication proteins [BR:asao03032]
    132778689 (TOP2B)
   03036 Chromosome and associated proteins [BR:asao03036]
    132778689 (TOP2B)
Enzymes [BR:asao01000]
 5. Isomerases
  5.6  Isomerases altering macromolecular conformation
   5.6.2  Enzymes altering nucleic acid conformation
    5.6.2.2  DNA topoisomerase (ATP-hydrolysing)
     132778689 (TOP2B)
DNA replication proteins [BR:asao03032]
 Eukaryotic type
  DNA Topoisomerases
   132778689 (TOP2B)
Chromosome and associated proteins [BR:asao03036]
 Eukaryotic type
  Chromosome condensation proteins
   Other regulators of chromosome condensation
    132778689 (TOP2B)
  Centrosome formation proteins
   Centriole proteins
    132778689 (TOP2B)
SSDB
Motif
Pfam: DNA_topoisoIV TOPRIM_C DNA_gyraseB DTHCT Toprim HATPase_c
Other DBs
NCBI-GeneID: 132778689
NCBI-ProteinID: XP_060637899
LinkDB
Position
Unknown
AA seq 1645 aa
MAKSGGGGGGGGGAGGGGAGGGSGGLTWVPEDVETVIGQTLFDNQNNAAKKEEPEHTSKN
DSKKMSVERVYQKKTQLEHILLRPDTYIGSVEPVTQLMWVFDEDIGMNCREITFVPGLYK
IFDEILVNAADNKQRDKNMTCIKISIDPESNIISIWNNGKGIPVVEHKVEKMYVPALIFG
QLLTSSNYDDDEKKVTGGRNGYGAKLCNIFSTKFTVETACKEYKHSFKQTWLNNMMKTSD
PKIKHFEGDDYTCVTFQPDLSKFKMEKLDKDTVALMTRRAYDLAGACKGVKVMFNGKKLP
VNGFRSYVDLYVKDKLDETGVPLKVTHELANERWDVCLTLSEKGFQQISFVNSIATTKGG
RHVDYVVDQIVGKLIEVVKKKNKAGVSVKPFQVKNHIWVFINCLIENPSFDSQTKENMTL
QPKSFGSKCQLSEKFFKAASNCGIVESILNWVKFKAQTQLNKKCSSVKHSKIKGIPKLDD
ANDAGGKHSLDCTLILTEGDSAKSLAVSGLGVIGRDRYGVFPLRGKILNVREASHKQIME
NAEINNIIKIVGLQYKKSYEDPESLKTLRYGKIMIMTDQDQDGSHIKGLLINFIHHNWPS
LLKHGFLEEFITPIVKASKNKQELSFYSIPEFDEWKKHMENHKAWKIKYYKGLGTSTAKE
AKEYFADMERHRILFRYAGPEDDAAITLAFSKKKIDDRKEWLTNFMEDRRQRRLHGLPEQ
FLYGTATKHLTYNDFINKELILFSNSDNERSIPSLVDGFKPGQRKVLFTCCKRNDKREVK
VAQLAGSVAEMSAYHHGEQALMMTIVNLAQNFVGSNNISLLQPIGQFGTRLHGGKDAASP
RYIFTMLSPLARLLFPAVDDNLLKFLYDDNQRVEPEWYIPIIPMVLVNGAEGIGTGWACK
IPNYDTREIVNNVRRMLDGLDPLPMLPNYKNFKGGIQELGQNQYVVSGEIYVVDRNTVEI
TELPVRTWTQVYKEQVLEPMLNGTEKTPALISDYKEYHTDTTVKFVVKMTEEKLAQAEAA
GLHKVFKLQTSLTCNSMVLFDHMGCLKKYETVQDILKEFFDLRLNYYTLRKEWLAGILGA
ESTKLNNQARFILEKIQGKISIENKSKRDLIQLLVQRGYESDPVKAWKEAQEKAAEEEEM
QNLNDDSSSSSGSTSGPDFNYILNMSLWCLTKEKVEEMIKQRDSKGKDLNDLKRKSPSDL
WKEDLAAFVEELDKVEAQEREDVLAGMVGKPIKGKVGKPKMKKLHLEETMPSPFGRRIVP
QITSAMKADASKKLLKKKKGDLDTIAIKMEFDEEFGVPPVEGSGEDTLNASVPVIKTPKP
KREKKDPATRVRRTPSTTPKSSTKKIKKRNPWSDDESKSESDLEENEPVIIPRDSLLRRA
AAERPKYTFDFSEEEDADGDGDDDEDANDNNDLDDLKLKTSPINNDREDEFVPSDGLEKD
EYDFSPVKSKPSPEKVSPEKTSQDFGHLFAFPSYSRKANIDTSKFDSDEEDSAPVFSSSF
SQKQTEKPSSKPVVPKKAKLPSDTPPKPKKTPKPKKAETINSDSESEFGLPKKIVTPKVG
KGRGAKKRKASGSENEGEYNPGKKTPKAPASKKMKKASFEPDSDVDIFPSDFTSEAASTP
RTGRARKEVKYFAESDDDDDFAMFN
NT seq 4938 nt   +upstreamnt  +downstreamnt
atggcaaaatcaggaggaggaggaggaggaggaggcggcgcaggaggaggaggagcagga
ggcggcagcgggggtctaacctgggtgcctgaggatgtggagacagtcattggacagaca
ctatttgataatcagaataatgctgcaaaaaaagaagaacctgaacacacaagtaaaaat
gattcaaagaagatgtctgttgagagagtttatcagaaaaagactcaacttgagcatata
cttctccgtcctgatacatacattggttcagtggaacctgtaacccagttgatgtgggtg
tttgatgaagacataggaatgaattgtagagagattacttttgttcctggcttgtacaag
atctttgatgaaattcttgtaaatgccgctgataataagcagagggataagaatatgacc
tgcattaaaatatcaattgatccggaatcaaatatcataagtatctggaataatggaaaa
ggtattccagttgtggaacacaaagtagaaaagatgtatgttcccgccttaatttttgga
cagctattaacttctagcaattatgatgatgatgagaaaaaagttacaggtgggcgtaat
ggctatggtgcaaaactttgtaatatattcagtacaaagtttactgttgaaactgcttgc
aaagaatacaaacacagttttaaacagacttggctgaacaatatgatgaagacgtctgat
cccaagataaagcattttgaaggtgatgattacacatgtgtgacattccaaccagatctt
tctaaattcaagatggaaaaacttgacaaagatactgtggcccttatgacgagacgagct
tatgatttggctggagcatgcaaaggggtgaaagttatgtttaatggaaagaagctaccc
gtaaatggcttccgtagttacgttgatctttatgtaaaagacaagctggatgaaactgga
gtacctctgaaagttactcatgaacttgcaaatgagcgctgggatgtttgcctcacttta
agtgagaaaggtttccagcaaattagttttgtgaacagcattgctactacaaagggtggt
aggcatgttgattatgttgtagatcaaattgttggaaaattgatagaggtggtgaagaaa
aagaacaaagctggagtttcagttaaaccattccaggtgaaaaaccacatatgggttttc
attaattgtctcattgaaaacccatcttttgattctcaaacaaaagagaacatgacactc
caacctaaaagctttgggtccaaatgtcagttatcagagaagttcttcaaagccgcttct
aactgtggtattgtagagagtatcttgaattgggtgaaattcaaggcacagacacagttg
aacaaaaaatgttcctcagtgaaacatagcaaaatcaagggcattccaaaacttgatgat
gctaatgatgctggtggcaaacattccttggattgtacattgattttaactgagggagat
tcagccaaatctttagctgtatctggcttaggggtcattggaagagacagatatggagta
tttccactccggggtaaaattctcaatgttcgggaagcatctcacaaacagattatggaa
aatgcagaaattaataatatcataaaaatagtaggtctacagtataagaaaagttatgaa
gacccagagtccctgaaaacattaagatacggtaaaattatgatcatgactgatcaggat
caagatggttcccacattaaaggattgctgatcaattttattcatcacaattggccttcc
cttctgaagcacggcttccttgaggaattcattactccgattgtaaaggcaagcaaaaat
aagcaggagctttcattctatagtattcctgaatttgatgaatggaaaaagcatatggag
aatcataaagcatggaaaataaaatactacaaaggtttgggtaccagcactgctaaagaa
gcaaaagaatattttgcagatatggagagacatcgaattttattccgatatgctggtcct
gaagatgatgctgccattacactggctttcagtaagaagaaaattgatgaccgaaaagaa
tggctgacaaactttatggaagacagacggcaacgtcggttacatggattacctgagcaa
ttcctatatggtacagcaacaaagcatctcacttacaatgattttatcaacaaggaactc
attcttttctccaattcagataatgagcggtccattccatcccttgttgatggctttaaa
ccaggacagcgcaaggttttgttcacttgctgtaagagaaacgataaacgtgaggttaaa
gttgctcagttagctggatctgtagctgagatgtctgcctaccaccatggagagcaagct
ttaatgatgactattgtcaacttggctcagaacttcgttggcagtaacaacatcagtttg
ctacagcctattggtcagtttggtactaggcttcatggtggcaaagatgctgcaagtcct
cgttacatcttcactatgctaagcccgttagcaagactgctttttcctgcagtggatgat
aatctgcttaagttcctctatgatgataaccagcgtgtggagcctgagtggtatatcccc
ataattcccatggtcttagtaaatggggccgagggcatcggcacaggatgggcatgcaaa
attccaaattatgataccagggagattgtgaacaatgtcagacgaatgttggatggattg
gatcctcttcccatgcttccaaactacaaaaactttaaaggaggcatccaggaacttggt
cagaaccagtatgtagtgagtggagaaatatatgtggttgacaggaacacagtcgaaatc
acagagcttccagttagaacatggactcaggtttacaaagaacaggtgttggaaccaatg
ttgaatgggactgaaaaaacgccagcattaatttcagattacaaagaatatcacacggat
acaactgtgaaatttgttgtaaaaatgacagaagaaaagctcgctcaggcagaggctgct
ggacttcataaagtctttaagcttcagacaagtctaacttgtaattctatggtgctgttt
gatcacatgggatgtctgaagaaatatgaaactgtgcaagatattctcaaggaattcttt
gatttaaggttaaattattacaccttgcgcaaggaatggctggcaggaatattaggggca
gaatccaccaagcttaacaatcaagctcgttttattctagagaaaatacaagggaaaatt
tccattgaaaataaatcaaaaagagatttgattcagctgttagtccagagaggctatgaa
tctgaccctgtgaaagcctggaaggaagcacaagaaaaggcagcagaagaggaagaaatg
cagaatctgaatgatgacagttcctcctcctcaggatctacctcaggcccagatttcaac
tacattttaaatatgtctttgtggtgtcttactaaagagaaagtagaagagatgattaag
cagcgagattcaaaaggaaaggacctaaatgacctcaagagaaaatctccctcagatctg
tggaaagaagatctagccgcttttgtagaagagcttgataaagtagaagctcaggaaaga
gaggatgtccttgcaggaatggttggcaaacctataaaaggcaaagttggtaaacccaaa
atgaagaaacttcatttagaagagacgatgccatcaccttttggcaggagaatagtccca
cagattacttctgctatgaaagctgacgccagcaagaaactgcttaaaaaaaagaaggga
gacctcgatactatagcaataaaaatggaatttgatgaggaatttggtgtgcccccggta
gaaggttctggggaagacacgctgaatgcctctgtcccagtgattaagacccctaaacct
aagagagaaaagaaagatcctgctacgagagtgagaagaacaccatctaccaccccaaag
tccagtacaaaaaaaataaagaaacgaaatccatggtcagatgatgaatctaagtctgaa
agtgacttggaggaaaatgaacctgtgattattccaagagattcgttgcttagaagagct
gcagctgaaaggcccaagtacacctttgatttttcagaagaggaagatgctgatggtgat
ggtgatgacgatgaagatgccaatgacaataatgatctagatgacctgaaattaaaaaca
tctccaatcaataatgacagagaagatgaatttgtgccctcagatggtcttgaaaaggat
gaatatgacttttctcccgtcaaatcaaaaccttctccagagaaggtttctccagagaaa
accagtcaagactttggccatctgtttgcatttccttcttattctcggaaagcaaatatc
gatacatcaaagtttgacagtgacgaggaagattcagctcccgttttctcatcctccttt
tcccagaaacaaacggagaaaccctcaagtaaacctgtagtccctaaaaaagcaaaatta
ccatcagacaccccgccaaagccgaaaaaaacccctaaacccaagaaggcagaaacaata
aactctgattcagaatcagaatttggtcttccaaagaagattgtgactcccaaagtagga
aaaggcaggggagcgaagaaaaggaaagcatctggttctgaaaacgaaggtgaatataat
cctgggaagaaaactcccaaggcaccggcaagcaagaaaatgaagaaagcttcctttgaa
cccgactcggatgtagacatcttcccctcagactttacctctgaagctgcttccacgcca
cgaacgggtcgggctcgaaaagaagtgaaatattttgcagagtctgatgacgacgacgat
tttgctatgtttaattaa

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