KEGG   Talpa occidentalis (Iberian mole): 119250669
Entry
119250669         CDS       T07495                                 
Name
(RefSeq) LOW QUALITY PROTEIN: ubiquitin-like modifier-activating enzyme 1
  KO
K03178  ubiquitin-activating enzyme E1 [EC:6.2.1.45]
Organism
tod  Talpa occidentalis (Iberian mole)
Pathway
tod04120  Ubiquitin mediated proteolysis
tod05012  Parkinson disease
tod05022  Pathways of neurodegeneration - multiple diseases
Brite
KEGG Orthology (KO) [BR:tod00001]
 09120 Genetic Information Processing
  09123 Folding, sorting and degradation
   04120 Ubiquitin mediated proteolysis
    119250669
 09160 Human Diseases
  09164 Neurodegenerative disease
   05012 Parkinson disease
    119250669
   05022 Pathways of neurodegeneration - multiple diseases
    119250669
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   04121 Ubiquitin system [BR:tod04121]
    119250669
  09183 Protein families: signaling and cellular processes
   04147 Exosome [BR:tod04147]
    119250669
Enzymes [BR:tod01000]
 6. Ligases
  6.2  Forming carbon-sulfur bonds
   6.2.1  Acid-thiol ligases
    6.2.1.45  E1 ubiquitin-activating enzyme
     119250669
Ubiquitin system [BR:tod04121]
 Ubiquitin-activating enzymes (E1)
  Ubiquitin activating enzyme
   119250669
Exosome [BR:tod04147]
 Exosomal proteins
  Exosomal proteins of haemopoietic cells  (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
   119250669
  Exosomal proteins of other body fluids (saliva and urine)
   119250669
  Exosomal proteins of colorectal cancer cells
   119250669
SSDB
Motif
Pfam: UBA_E1_SCCH ThiF E1_UFD E1_FCCH E1_4HB BilD_C DUF7243
Other DBs
NCBI-GeneID: 119250669
NCBI-ProteinID: XP_037374228
LinkDB
Position
Unknown
AA seq 1058 aa
MSSLPPSKKHCVSGPAPKPNSNCSSSCSVMFKMPLAPTNEMPKKGNEADIDEGLYSRQLY
VLGHEAMKHLQTSSVLVSGLRGLGVEIAKNIILGGVKAVTLHDQGTAQWTDLSSQFYLRE
EDIGKNRAEVSQPRLAELNSYVPVSTYTGALVEDFLSGFQVVVLTNTPLEDQLQVGEFCH
SHGIKLVVADTRGLFGQLFCDFGEEMILTDSNGEQPLSAMVSMVTRDNPGIVTCLDEAQH
GFESGDFVSFTEVQGMNELNGAYPIEIKVLGPYTFSICDTSSFSDYICGGIVSQVKVPKK
ISFKPLLASLAEPDFVISDFAKYSCPAVLHIGFQALHQFWAQYGRLPRPRNEEDATELVS
LAQAVNTRALPAVQQDNLDEDLIRKLAYVAAGDLAPINAFIGGLAAQEVMKACSGKFMPV
MQWLYFDALECLPEDKEALTEDKCLPCQNRYDGQVAVFGSDLQEKLGNQKYFLVGAGAIG
CELLKNFAMIGLGCGEHGEVTITDMDTIEKSNLNRQFLFRPWDITKFKSDTAATAVRQIN
PHIRVMSHQNRVGPDTEHIYDDDFFQNLDGVANALDNVDTRMYMDQRCVYYRKPLVESGT
LGTKGNVQVVIPFLTESYSSSRDPPEKSIPICTLKNFPNAIEHTLQWARDEFEGLFKQPA
ENVNQYLTDPKFMEQTIRLAGTQPLEVLEALQRSLVLQRPQNWVDCVTWAFHHWHAQYSD
TIQQLLHNFPEQVTSSGVPFWSGPKRCPHPLVFDVSNSLHLDYVMAAANLFAQTYGLMGS
QDRAAVAILLQSVQIPEFTPKSGVKIHVSDQEFQNTSSASFDDSRLRELKLMLPSPEALT
GFKMYPINFEKDDDSNSHMDFIVAASNLRAENYNIAPADRHKSKLIAGKIIPAIATTTAA
IVGLVCLEMYKVVQGHQKLESYKNSFINLAALPFFSFSEPLAPLRHQYYNQEWTLWDRFE
VQGLQPNGEEMTLKQFLSYFKTQHKLEITMLSQGVCMLYSFFMPATKLNERLDQPMTQVV
SRVSKQKLGHHVRTLVLELCCNKSGEDIEVPYVRYTIR
NT seq 3177 nt   +upstreamnt  +downstreamnt
atgtccagcttgccaccgtccaagaaacactgtgtttctgggcctgctccaaagccaaac
tctaactgctcctcctcctgttctgtgatgttcaaaatgcccttggctccaaccaacgaa
atgccaaaaaagggcaatgaggcagacatagatgagggtctttactcccggcagctgtac
gttctgggtcatgaagcaatgaagcatctccagacatccagtgtgctggtgtcaggcctt
cgaggcctaggtgtagagattgccaagaatatcatccttggtggggtgaaagcggtgacc
ttacatgaccaggggactgcccagtggactgacctctcctcccagttctacctgcgggag
gaggacattggtaaaaaccgggctgaagtatcacagccgcgccttgctgagcttaacagc
tacgtgcctgtcagtacctacactggggcccttgttgaggacttccttagtggtttccag
gtagtggtcctcactaacaccccgctggaggaccagctgcaggtcggtgagttctgtcat
agccatggaatcaagctggtggtggcagatactcggggcctttttgggcagctgttctgt
gactttggagaggaaatgatcctcacagattccaatggggagcagcccctcagtgctatg
gtttctatggtaaccagggataatcctggaattgttacctgtttggatgaggcccagcat
gggttcgagagtggtgattttgtctccttcacagaggtccagggcatgaatgaactcaat
ggtgcctatcccatagagatcaaagtactgggtccctatacctttagtatctgcgatacc
tccagcttctctgactatatctgtggcggcattgtcagtcaggtcaaagtgcctaagaag
atcagctttaaacccttgctggcctcgttggcagagccagactttgtgatatcagacttt
gccaagtattcgtgccctgctgtgctgcacattggatttcaggccctacaccagttctgg
gctcagtatggccggcttcctcggccccgcaatgaggaggatgcaacagaactagtgagc
ctagcacaggctgtgaatactcgagctctgccagcagtgcagcaggacaacctggatgaa
gaccttatccggaagctggcttatgtggctgctggggacctggcacccataaatgccttc
attgggggtctggctgcacaggaggttatgaaggcatgctctgggaagtttatgcctgta
atgcagtggctgtactttgatgcccttgagtgtctcccggaggacaaagaggccctcaca
gaagacaagtgcctcccgtgccagaaccgctacgatgggcaggtggctgtttttggctca
gaccttcaagagaagctaggcaaccagaagtatttcttggtgggtgcaggtgccattggc
tgtgagctgctcaagaactttgccatgattgggctaggctgtggagaacatggagaagtc
accattacagacatggacactattgagaaatccaatctgaatcggcagtttttgttccgg
ccatgggatatcacaaaatttaagtctgacacagctgctacagctgtgcgtcagataaat
ccacatatccgggttatgagccatcagaaccgtgtgggccctgacacagagcatatctat
gatgatgatttcttccagaatctggatggtgtggccaatgccctggataacgtggatacc
cgcatgtacatggatcaacgctgtgtgtactaccgtaagccactagtggagtcgggcacg
ttgggcactaaaggaaatgtgcaagtggttatcccctttctgacagagtcatacagctcc
agccgggaccctcctgagaagtccatccccatctgcacactgaagaactttcccaatgcc
attgagcacacccttcagtgggctcgggacgagtttgaaggcctcttcaagcagccagct
gaaaatgtcaaccagtatctcacagaccccaagtttatggaacaaacaatacgattggca
ggcacccagcccctcgaggtgctagaggccctgcagcgcagcctggtgctacaacggcca
cagaactgggttgactgtgttacttgggctttccaccattggcacgcccagtactctgac
accattcagcagctgctgcataactttcctgaacaggtgacaagctctggagttccattc
tggtctggtcccaaacgctgtccacaccctctagtctttgatgtcagcaattccttgcat
ctggactatgtgatggctgctgccaacctgtttgcccagacttatgggctgatgggctct
caggaccgcgctgctgtggccattcttctgcagtctgtgcaaatcccggaattcaccccc
aaatctggtgtcaagatccatgtctctgaccaggaattccaaaacactagcagtgcctct
tttgatgatagccgcctacgggagctcaagttgatgctgcccagcccagaggctctcact
gggttcaagatgtaccccatcaactttgagaaggatgatgacagcaactcccatatggat
ttcattgttgctgcatccaacctccgggcagagaactataacattgcccctgcggaccgg
cataagagtaaactgattgcagggaagatcatcccagccattgctacgactacagcagct
attgttggccttgtgtgtctggagatgtacaaggtggtacagggacaccagaagcttgag
tcctataagaacagcttcatcaacttggccgccctgcccttcttcagcttctctgagcca
cttgccccgctccgtcatcagtactataaccaagaatggacattatgggatcgctttgag
gtacagggactgcagcctaatggtgaagagatgacactcaagcagttcctcagctacttc
aagacacagcacaagttagagatcaccatgctgtcccaaggtgtatgcatgctgtactcc
tttttcatgccagccaccaagctcaacgaacgcttggatcagccgatgacacaagttgtg
agccgcgtgtcaaagcaaaagctcggccaccacgtgcggacactggtgcttgagctgtgc
tgcaataagagtggtgaggacatcgaagtcccctatgtacgatacactatccgctga

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