KEGG   Anas platyrhynchos (mallard): 101792282
Entry
101792282         CDS       T02816                                 
Symbol
TOP2A
Name
(RefSeq) DNA topoisomerase 2-alpha isoform X1
  KO
K03164  DNA topoisomerase II [EC:5.6.2.2]
Organism
apla  Anas platyrhynchos (mallard)
Brite
KEGG Orthology (KO) [BR:apla00001]
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03032 DNA replication proteins [BR:apla03032]
    101792282 (TOP2A)
   03036 Chromosome and associated proteins [BR:apla03036]
    101792282 (TOP2A)
Enzymes [BR:apla01000]
 5. Isomerases
  5.6  Isomerases altering macromolecular conformation
   5.6.2  Enzymes altering nucleic acid conformation
    5.6.2.2  DNA topoisomerase (ATP-hydrolysing)
     101792282 (TOP2A)
DNA replication proteins [BR:apla03032]
 Eukaryotic type
  DNA Topoisomerases
   101792282 (TOP2A)
Chromosome and associated proteins [BR:apla03036]
 Eukaryotic type
  Chromosome condensation proteins
   Other regulators of chromosome condensation
    101792282 (TOP2A)
  Centrosome formation proteins
   Centriole proteins
    101792282 (TOP2A)
SSDB
Motif
Pfam: DNA_topoisoIV TOPRIM_C DNA_gyraseB DTHCT HATPase_c Toprim Microp_apicomplexa_20
Other DBs
NCBI-GeneID: 101792282
NCBI-ProteinID: XP_038024755
Ensembl: ENSAPLG00000006390
LinkDB
Position
28:2857813..2878186
AA seq 1557 aa
MELAESPAPLRPTDENPRLPKGDGAKKRLSVERIYQKKTQLEHILLRPDTYIGSVETVTQ
QMWVFDEDVGLNCRDVTFVPGLYKIFDEILVNAADNKQRDKNMSCIKVTIDPENNTISVW
NNGKGIPVVEHKVEKVYVPALIFGQLLTSSNYDDDEKKVTGGRNGYGAKLCNIFSTKFTV
ETACREYKKLFKQTWTDNMGKAGEMKLKYFDGEDYTCVTFQPDLSKFKMTILDKDIVALM
SRRAYDIAGSTKDVKVFLNGKRLPVKGFRSYVDLYLKDKVDETGNALKVIHEEVNSRWEV
CLTLSEKGFQQVSFVNSIATTKGGRHVDYVADQIVNKLIEVVKKKNKNGVGVKPFQVKNH
MWIFVNALIENPTFDSQTKENMTLQAKSFGSTCKLSEKFIKGAVGCGIVESILNWVKFKA
QTQLNKKCSAVKHTKIKGVPKLDDANDAGSKNSIDCTLILTEGDSAKTLAVSGLGVVGRD
KYGVFPLRGKILNVREASHKQIMENAEINNIIKIVGLQYKKNYEDRESLKTLRYGKIMIM
TDQDQDGSHIKGLLINFIHHNWPSLLRHNFLEEFITPIIKASKNKEEIAFYSIPEFEEWK
NSTQNYNSWKIKYYKGLGTSTSKEAKEYFADMAKHRIGFKYSGPEDDAAITLAFSKKKVE
ERKEWLTNFMEDRRQRKLHGLPEEYLYGKDTNYLTYNDFINKELVLFSNSDNERSIPSLV
DGLKPGQRKVLFTCFKRNDKREVKVAQLAGSVAEMSSYHHGEASLMMTIINLAQNFVGSN
NLNLLQPIGQFGTRLHGGKDSASPRYIFTMLSPLARLLFPPMDDNVLKFLYDDNQRVEPE
WYIPIIPMVLINGAEGIGTGWSCKIPNFDIRETVNNIRRLMDGEEPLPMLPSYKNFKGTI
DELGPNQYVISGEVSILDSTTIEITELPVRTWTQTYKEQVLEPMLNGTEKTPPLITDYKE
YHTDTTVKFVVKMSEEKLAEAEAVGLHKVFKLQTNLTCNSMVLFDHVGFLKKYESPQDIL
KEFFELRLRYYGLRKEWLIGMLSAESAKLSNQARFILEKIDGKIVIENKPKKELIQVLIQ
RGYESDPVKAWKELQNKEEEEEEEDESNKESAAATGPDFNYLLNMPLWYLTKEKKDELCK
QRDNKEKELENLKCKSPCDLWKEDLAAFVEELDAVEAKQMQDEMAGIAGKPLKVKGGKTK
VKKAQLPEVMPSAHGIRVVPRVTAEMKADAEKRAKKKVKSEKNELDENQEGNSSGDKESS
SLKQRIAQKRNVVQGTKRQATLPFKPVKKTKKRNPWSDSGSDSESDDFEVLPQRERVVRQ
AAAKIKPMISSDSDENFISSDEESEFQGHSEGSSESDTNSKEKPAPKPRAAPKETSEKTA
KAPKQKSVKGDIPVKGQAVADEDVSQAPAGPSVSIPPSKAVPKKPAATKKASAAKDNQPS
IMDILAKKKAVPKSSKTAVKEEPLDSDARAADVKKPGPTKGRKLTKRQPSSSDSDSDFGV
KPSKSVAAKKPKQEDSDSFTAELTARADSPTEAAPRARPGRLKKPVQYLESSDDDMF
NT seq 4674 nt   +upstreamnt  +downstreamnt
atggagctcgcggagtccccggcgcctctccggcccacagatgagaacccccggctgccc
aagggcgatggcgccaagaagcggctctcggtggagcgcatctaccagaagaaaacgcag
ctggagcacatcctgctccggcccgacacctacatcggctccgtggagaccgtgacccag
caaatgtgggtttttgatgaggacgtgggcctgaactgcagagatgtgacctttgtgcct
ggcttgtacaaaatctttgatgagattctggtcaatgctgcggacaacaagcagagggat
aaaaacatgtcgtgcattaaagttaccattgatccagagaataacacaatcagtgtatgg
aacaatggcaaaggcattccagttgttgaacacaaagtggaaaaggtctatgtgcctgct
ctcatcttcggacagctactaacatccagtaactacgatgatgatgaaaagaaagtcaca
ggtgggcgaaatggttatggagccaaactgtgcaacatatttagcacaaaatttactgtg
gaaactgcatgtcgcgaatacaaaaagttattcaagcagacctggacagacaacatggga
aaggctggtgaaatgaaactgaagtattttgatggagaagattacacgtgtgtcactttc
caacctgatctgtcaaaattcaaaatgacgattctcgataaagacattgtagcactaatg
tcccgaagagcatatgatattgctggatccacgaaagacgtcaaagttttcctaaatgga
aagaggctgcctgtcaaaggattccgcagttatgtggacctctatctgaaggacaaagta
gatgaaacgggtaatgcacttaaggttatccatgaggaagtaaattctcggtgggaagtg
tgtttgactttaagtgaaaaaggcttccagcaagtcagctttgtcaacagtattgccacc
acaaagggtggcaggcacgttgattatgtagctgaccagattgtgaataaactcattgaa
gttgtgaaaaagaagaacaaaaacggagttggagtgaagccatttcaggtgaagaaccac
atgtggatatttgtgaatgccttgattgaaaacccaacctttgactctcagactaaggag
aacatgactctgcaggcaaagagctttggctcaacatgtaaactgagtgagaaatttatc
aagggtgcagttggctgtggcattgttgaaagtatcctaaactgggtaaaatttaaagct
cagacccagctgaataagaaatgttcagctgtgaaacacacgaagattaagggcgttcct
aagctggatgatgccaatgatgctggcagcaagaattctatagattgtacactcattctg
actgaaggagactcagccaaaacactggctgtctctggtctaggagtggttggtagagac
aaatatggagtatttccccttcgtgggaaaatactcaacgtcagagaagcttctcataag
cagattatggaaaatgctgaaatcaacaacatcatcaagattgtgggtttacagtataaa
aagaactatgaagatcgagaatctttaaagactcttcgctatggaaagattatgattatg
acagatcaggatcaagatggatctcatatcaaaggtttgctgattaacttcatccatcac
aactggccttctcttctaagacacaacttcttggaggaatttattactcccatcataaag
gcctctaaaaacaaagaagaaattgcattctacagcattccggagtttgaggaatggaaa
aacagtacacagaactacaattcctggaaaatcaagtactacaaaggtttgggtaccagc
acgtcaaaggaagctaaggaatactttgccgatatggctaaacatcgaattggcttcaaa
tattctggtcctgaagatgatgctgcgatcaccctggcctttagtaagaagaaagtagaa
gagcgaaaggagtggctgactaatttcatggaggatagaagacaacggaagctccatggc
ctgccagaggaatacctgtatgggaaagatactaattacttgacatacaacgacttcatc
aacaaggagttagtcctgttctcaaactcggataatgaaagatcaatcccatcactggtt
gatggtttgaagccaggtcaaaggaaagttctgttcacgtgtttcaaaagaaacgataag
cgggaggtgaaggttgctcagctggctggttctgtagctgagatgtcctcataccatcat
ggtgaagcatcactgatgatgaccattattaacttagctcagaactttgtgggcagtaac
aacctcaacttgctgcagcccattggtcagtttggcacaaggctgcacggtgggaaagac
tctgcaagccctcgatacatcttcacaatgctcagcccgctagcacggttgctgttccca
ccaatggatgacaatgtcctgaagttcttatatgatgacaatcaacgtgtggagccagag
tggtacatccctattattccaatggtgctgataaatggggcagaagggattggtactggc
tggtcctgcaagatccccaactttgatatcagggaaactgtgaataatatccgtcgtctg
atggatggagaagagcctttgccaatgcttcctagttacaagaacttcaaaggcacaata
gatgagctgggacctaatcagtatgtgataagtggtgaagtgtctatccttgattctaca
accattgagatcactgagctgcctgtcagaacgtggacgcagacttataaagaacaagtt
ctggagccaatgctgaatgggactgagaagacgccccctctaatcacagactacaaagaa
tatcacacagacacaacggtgaagtttgtagtgaagatgagtgaagaaaaactagctgaa
gccgaagcagtgggtttgcataaagtcttcaaactccaaacaaatttaacgtgcaactcc
atggttctttttgaccacgttggctttctcaagaagtacgagtctccccaggatattctt
aaagagttctttgaactgaggctccgatactatggtttgagaaaagaatggcttattgga
atgctaagtgccgagtctgcaaaactgagcaaccaggctcgtttcatcctggagaaaata
gatggaaaaatagtgattgaaaacaaacccaagaaagagttgattcaagttcttatccaa
agaggctatgaatctgatccggtgaaggcttggaaggaattgcaaaacaaggaggaggaa
gaagaagaagaggatgagagcaacaaagaatcagctgcagctaccggaccagatttcaac
tatctactgaacatgcccctctggtatttgactaaagagaagaaagatgagctctgtaag
cagagagataacaaagaaaaggagctggaaaacctgaagtgcaagagtccctgtgacctg
tggaaagaagaccttgctgccttcgttgaagaacttgatgcagtagaagccaagcaaatg
caggatgagatggcagggatagctggcaaacctttaaaggtaaaaggagggaaaacaaaa
gtgaagaaggcacagctgccagaagtaatgccatcagctcatggcataagggttgttcct
cgggtaactgcagaaatgaaggcggatgcagagaagagagctaaaaagaaagtaaagagt
gaaaagaatgaattagatgaaaatcaagaaggaaactcatcaggggacaaggagtcttca
agccttaagcaaagaatagcgcagaagcgtaatgttgttcaaggtaccaagagacaggcc
actctgccatttaagccagtaaagaaaacgaagaaacgaaacccttggtctgactcaggg
tctgattcagagtctgatgatttcgaagtgcttcctcaaagagagagagtggttcgccaa
gcagcagccaaaatcaagcccatgatctcttcggactcggatgaaaatttcatcagctca
gatgaggagtctgaatttcaggggcacagtgaaggcagcagtgaatcagatacgaactca
aaagagaaacctgctcccaagccccgagctgccccgaaggaaaccagtgaaaaaacagct
aaagctcccaagcaaaagtcagtaaaaggtgatatccccgtcaaaggccaagctgttgct
gatgaggatgtgagtcaagctcctgcaggtccttctgtctccatacctcccagtaaagct
gtacctaaaaaacctgctgcaactaagaaggccagtgctgctaaggataaccagccgtcc
atcatggatatcctagccaagaaaaaggctgtgccaaaatccagcaagacagcagtgaag
gaggagcctctggattcggatgctagagcagcggatgtcaagaagccgggtccgaccaag
gggcggaaacttaccaaaaggcagccgagttcctcagattcggattcagattttggtgtg
aagccttccaaatcagttgcagcaaagaaacccaagcaggaagacagtgacagttttact
gctgaactaactgctcgcgcagacagtcccacagaagccgcaccccgtgccaggccagga
cgtctcaagaagcctgtccaatacttggagtcatctgatgacgacatgttttga

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