Gene
KWMTBOMO12781 Validated by peptides from experiments
Pre Gene Modal
BGIBMGA007208
Annotation
PREDICTED:_microtubule-associated_protein_futsch-like_[Bombyx_mori]
Full name
Microtubule-associated protein futsch
+ More
Microtubule-associated protein 1A
Microtubule-associated protein 1B
Electromotor neuron-associated protein 2
Electromotor neuron-associated protein 1
Microtubule-associated protein 1S
Microtubule-associated protein 1A
Microtubule-associated protein 1B
Electromotor neuron-associated protein 2
Electromotor neuron-associated protein 1
Microtubule-associated protein 1S
Alternative Name
MAP1B homolog
Proliferation-related protein p80
MAP1(X)
MAP1.2
Neuraxin
BPY2-interacting protein 1
Microtubule-associated protein 8
Variable charge Y chromosome 2-interacting protein 1
Proliferation-related protein p80
MAP1(X)
MAP1.2
Neuraxin
BPY2-interacting protein 1
Microtubule-associated protein 8
Variable charge Y chromosome 2-interacting protein 1
Location in the cell
Nuclear Reliability : 3.169
Sequence
CDS
ATGCATATAAAATTTCATAAAAATCAGTCAGAGGAGTATGCATATCTGAACCCGTACGTGGTTCCGGCTAGCTTGGAGCAACTCCTGGTTTCAAGCGACGTGGTCGGCAACATCAGGTTCAGCCACCCGACGCTGTACGTGTTCCCGGGGGGTCAAGGAGACGCCGCATTGTTCGGCATTAACGGATTTAATATGCTTGTCGACGGCGGTTTCTCCCGCAAGGCTTGCTGGTGGGACTTCGCCCGTCACCTCGATCGCCTCGACGCGGTCCTATTCACAAGACTCAACAACTGCTCCGCCTCGGGAATGTCGTCCGTGCTGCGCAGGAAGGCCACTGCTAATGTTTACCCTCAAATCGGACATTTCTTCTGTAACTTAGAGGAACGTCGAGCTCTTACGAGCCCTGATGGTGACAAGGACGCGGATCCCTTGCTGGTGTCCCTGCTCCAGGAGGGCTCGGACATGATGACAGACCTGCGCCACATCAACCTGAAGCCCCAACAATGCTACAGAAGCCCCGACCCCATCAATCTTTACCACAAAGTCGGACATGGTACCCTCGACATGTACGTCCTGAATCCGTCCAAAGACTCTAAGCACGTTCGTGAATTCCTAAAGAAATGGCATGGCAGCGATCAGAAGCTTTTCGAAGGAGCAAACATTTCTGGTCAATTCAACTTTCCCATACCAAACTTGGTATCGATTTGCGCTCTATTGGTTTGGCGACCAGCTAACCCCGACGATACTATAACAAGAATCATGTTCCCTGGGTCAACGCCCCAACATAAAATATTTGAAGGCCTTGAAAAATTAAAGCATTTGGAGTTTCTTCAACATCCGACGTGCACGGGAAGACAAATGACGCCGGCACTTCTACCACCTGCTTCAGTTTCATCAACAGCCTCAACACTAACCGCGACGAAAACTTCCAAAATAATTTCAAGGGTGGGTAAAGAACGAAATATTATCACTGAAAAATTGAAAGAAGAAAAACATGAAATAGAGTCACTAAAAGACAAAGATCTCCTCAAAGATCAAACAGATTCTAAAAATATTATAGATAACAAACTGCTTAGTGAATTAGCCGAACACGATGATAAAAAAATAGAATCAGTTCTTCATGACGCTATAACAGCGAGGCTGGAAACTAAAATTGATGAAAAGGTGTCCGAATACGAAACCACGATGACAGATGAAGTACACAAAAAGAAGGATATCAAAAAGGACATCAAAAAGGTTGTTGATAAAAAAATGAAACGTACTGATAAGACCGATGAAGTGAAAGAGACATCAATTAAAGCTACTGAAATAAAAAAGGCCGATGCCGAAATAAAAGCTAAAACTGAAACAAAAAAGAAGACGGAAACTAGGAGCAAAAATGAAATGGCAACTTCTACGAGTAGAAGTAAAATAAGTAATCGCACTACTAAAACTATTGAAAAAAAGACTACAGCCAGTACGACAGCAGATAAAAAAATTACTATGGATGAAAAGCGATCACCTGTGACTACGCCTAAAAAGACAGTTGAAACTAAAACAATAGCAACAGCACAATCTGCTATTAGAGATAAAATTAAAACGAAGACTAGAAAATTGAGTCCTGGTAGTACACCCGCTAAAAGTGCCAAAGAAGCGAGTAATCGCAGAGTGGCCGAATCTAAATACAAACAGGCTTCGCCAAAACGTGACGCTCCTCAAAAATCTAATGACAAAAAGGAATCCAAGCCAAAACGCGAACCGATTTCAAGGAGACCAAGACCAATAGCATCACCCGTTAAAGGGGTCAAAGCAATAAAGAGCCCCTCGAAATCGGTTAAGTCTATTAAAGCTGATTCATCTAAACTAAAAGGCCTCCAAAGAGTAAATTATGAAGATATCCTAAAAGATGCAAAGAAATCCGACGAAGAAACCTCTAAGTCTCTTGATGACATCAAACAACAAGAGTTTGACGAAAGAGAAGAACAAGAGATTGTGAGAGAAATTGAAGCAGTTTTTAACAGAGACAGTGAGGCTGAGGAGAAAGTGGAGTTTGTTGGGAGATCAGACATCGAAAAGATAACTTGTTTACTCGATAATACAAAAACTGAAACGACTGCCGACGGTGAATTTGAAGAAGAATATCTGATTATAGAAAAAGAAGAAGTTCCACAGTATCCTTCTGAACCTGAAATCGAACGTGAAAGTAGTCATAAACAAGAAGATGAACTACTTAAGCATCTTAAGGACAAAGAAGAATCAGAAAAGAAAAAAGATGATGTATCTGGCCTTCAAGTAGCTAAACCTGAAGAAGAACATCTTAAAGGTGAAATTAATTTAGAAATCGAAGCTAAACAAGCGGAATCTAAGGAACACTCCATCAGTGTAGAAGAAAAACAGGACATTAGCAGTGAAAAGAAAACGTCAGATAGTAAAAGCGGTCCTGTTAAGCCTAAGGACTCACTCGAGCTGGTGCCAGAATCACATCCCGATGAAAAAATTTCTACAACAGTTGAATCAGGAGCAACTACTGCACCAACTTTACCAGAAGATGAACGAATCACACTTGACGATATTAAAGAAGATCATCGAGTAGAAGAAAAGCACGTACAAGAAGAAACAAAGGAATTTGTACCACCACAAACATTAATAAACATTCCGGAGCCTTTGACGAAAGAGATGAACTTGAAAGGTGAGGTACAGTCAGTACCTATCAGAGAGATCGTTAAGACTCCTGATGAGGTGGCAGATCTACCTCTTCATGAAGAGGTAGATTACCAAACGTTTGAAGAAAAAAAGACACCTATCGAAGATGATATTTACAAACAAAAGCCCGGGCGATTTGTTTCTGAAACGAAGGTTCCAAAAGATCTACCAATTCCCGACAAAGATACTCCAATTCTTTACAAAGTTATGAAAACAATCGAAGACGACGTTATAATCAAAACTGTTGTAAAACCCTCGCATGCTGAAATTGTAACTGTGACTCCTGGTTCAGCCCCAGACTCACCAATATACCAACAGATGAAACTGTCTTTAACACCTAGTAAAGATCTTCAGCCAGTTAAGGAATATAGCGGAGAGTATGAGTATGGGCAATATACCGAGAAATTAAGAGAAACTCATATCACCACTCTAGATTCACCGATAAATGACGATGTTATAGTTATTGAAGAAATCCCTCACATGCCTGAGAAGATACCATCAATTCCTGAAGATGTTGAGAAAGAAATAGAAGAAGCTCAAAAGCTGGAAATGGCTGATAAACCTCCGCTTAGTCCAAAAGATGTAGAGAAAATTGTAGCTGACGTCGCTGAGGTTTTAAAATCGGAAAAAAGTCTCGAAGAAATCATGGCTGGAAAATCCCCAACAATGATCAGGAAATCACCGGAGGTCCACTATAAAATTGATGAAACGATAGCTAATACTGAAACAATGACAGAAATGCTTTTGTCGTCTGAAAAACAAGTAACAAATAATTTGATACAGGAAATAAAAAAATCAAAAATTGAAACAACCAGTGAAATAAGTCCTGATATAGCATGTAAAGAAGTATCACCTATAAGGTCTTTAACATCTGAAGAAGTAAGTGATGTTTCAGATAAAACTGTTTTCAGCGAAACAAACAAAGTGAAAAATGATTCACCTTTACTATTAGAGAAGGTAAAGGATGATAAAACCAAAACTACAATGAAAAAGGAACTCTTGTTAGAAGAAACAGAAAAAATAATTGAAAAACCACAAGATATGTTGAAAAATCAAGTAGGTAACGAATTGGTTCAGATTGAAAACAAACAAGACAAATTTGATAGTGATCTAGAGATAATGGAGTCAAAGTCAAAACTTAGCACAACTTTACAATCTGCCAAGACTTTAGAAAAGCTAGACGAAAAGCTAGCAAATCTAAAAAGCAGAGAGGAAATGCCAACACCTAAAGCAGAAGCCAAAGAGAAAAAAGCTGCTAAAATAATCGTTTTAACTAAAATCAAAGAATCCCAACAGATAGTCGATACTGACATTCAAGAATTCGACGCGTCTCAGTCAGGTACAATCGTGGTAGATGACAAAACGGAAAGCCACTTAGATAAAAAGGCAATAAGCTCAGTCAAGCCTGGCATGAAGACACCAAGCCCTAACAAAGATGATGAGGGCACACCAATGTCCATCAAAGAGGGTGAGAAAGTGCCGAGCTCAATCAAAGAATTTGAAAAAGTACCAATTTCTATCAAAGATGACACCAAGGTACCAAACCTTATCAAAGACGATGAGAAGGCACCAAGTCCTATAAAGATTGAAGAGAAGGCGCCAAGCTCAATCAAAAATGAAGAGAAGAAACCAGTTCCTATCACAGATGTAGAAAAGGCGCTGAGCCCAATCACAGATGATGAAAAGGCGCCAGTTCCTATCAAAGATGAAGAAAAGGCGTCAAGCCCAATCGAAGATGTTGAGAAAGAGCCAATGCACATCACAGGTGATCAGAAGGCACCGAGTCCTATTAAGGTTGGCGAGAAGGTGCTGAGCCCTGTCAAAGACGATGAGAAGGCGCCTAGCCCAATCAAAAAAGACGAGAAGGCGCCAAGTCCTATCAAAGAAGACAAGAAGGCGCCAAGCCCTATCAAGGAAGATGGGAAGGTACCAAGCTCTGTTAAAGATATGGAGACCACTCCAATATCCATCAATGAAGACGAGAAGGTGTCGAGCCCAAGAAAAGATGATGAAAAGGTACCAATTGCTATCAAAGGTGATGAGAAGTCACCGAGTTCTACAAAGGATGACGAGAAGGCACCAAGCGCTTTCAAAGATGACGAACAGGTAGCAGTTTCTATCAAAGATAGCACCAAAGCGCCAAGCCCTATCAAAGACGCTGAAAAGAGACCAGCTCTAATCGAAGACGAAAAAAAGGCGTCAAGCCCATTCGAAACTCTTGAGAAAGACGCTATGCCCATCAAAGAGGATGAGGTGTCAGTTCCTACCAAAGATGATCTTAAGGCAACAAGTCTTACCGAAGAAGTTGAGAAAGCTCCAAAACCAATAGATCTTGATGAGAAAGTAACAAGCTTAACTCACCTTGATGACATCAAAACTCTGTCATTTGATCAAACAGAAGAAGAAAGTACGATGAAGAAATTGGTTGAAAGTAGTTTTACGAGTGCCGTAACAACCGCTACTTCAGAGGACATAATTACACATAAAGACCTGGTTTCGACGTTTTTGGATATGGAACGACAACTGATCAGCAGTACAAAAACAACCCCATCTAGTCAACTTGAACAGATAATACCAAGCTATACCGAAATTAAAGAGAAGAAACCGGTGCCAATCAAAGATGATCTGAAGGAAACGAGTCCTATCAAGGACGATAAGAGCATCCCAATACCCATTAAACAAGATGAGAAGGCGCCAAGCCCAATCAAGGAAGACGAAAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCAAAATCGAAGTTGTTCAGAAAGAACCAATGCACATCACAAGTGATCAGAAGGGACTGACTCCTATAAAGATTGGCGAGAAAGTGCTGAGCTCTGTCAAGGACGATGAGAAGGCACCAAGCTCAATCAAAGACGATGAGAAGGCACGAAGCCCAATCAAAGAAGACGAAAAGGCGCTAAGCCCTATCGAAGTTGTTGAGAAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCGAGTCCTCTTAAGGTTGACGAGAAGGCGCCTAGCTTTGGCATAGACGATGAGAAGGCACCATGCCCAATCAAAGAAGTTGAGAAGGTGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCAAAATCGAAGTTGTTCAGAAAGAACCAATGCACATCACAAGTGATCAGAAGGGACTGACTCCTGCAAAGATTGGCGAGAAAGTGCTGAGCCCTGTCAAGGACGATGAGAAGGCCCCAAGCCCAATCAAAGAAGGCGAAAAGGTGCCAAGCCCAATCAAAGCTGTTGAAAAAGAACCAAAGCACATCACAGGTGATCAAAAGGCACAGAGTCCCATTAAGATAAGCGAGAAGGCTCTGAGCCCTGTCAAGGACGATGAAAAGGCACTAAGCCCAATAAAAGTTGTTGAGAAAGAACCGATGCACATCATAGGTGATCAGAAGGCAGTGAGTCCTATTAAGGTTATCGAAAAGGCGGTGAGCCCTGTCAAGGACGAGTTGGCACCAAGCCTAATCAAAGAAGTCGAAAAGGCACCAAGCCTAATCAAAAAAGACGAGAAGGTGCCAAGCCCTATTGAAGAAGAACAAAAGACGCCAACCCTAATCGAAACTCTTAAGAAAGAGCCAATGCCTATCAAAGAGGGTGAGAAGGTGTCAGTTCCTATCAAAGATCATCAGAAGGCAACAAGCCTTACGGAAGAAGTTGAGAAAGCTCCAAAACCAATAGATCTTGATGAGAAAGTAACAAGCTTAACTCACCTTGATGACATCAAAATTCAGTCATTTGATCAAACAGAAGAAGAGAGTACAATGAAGAAACTGGTTGAAAGTAGTTTTACAAGTGCCGTAACAACCACTACTTCAGAGGACGTAATTACACATAAAGACCTGATTTCGACGTTTTTGGATATGGAACGACAGCTGATCAGCAGTACAAAAACAACAGTATCTAGTCAACTTGAACAGATAATACCAAGCTATACCGAAATTAAAGAGAAGGAACCGGTGCCAATCAAAGATGATCTGAAGGAAACCAGTCCTATCAAGGACGATAAGAGCATCCCAATACCCATTAAACAAGATGAGAAGGCGCCAAGCCCAATCAAGGAAGACGAAAAGGCGCTAAGCCCTATCGAAGTTGTTGAGAAAGAACCAATGCACATCACAGGTGATCAGAAGGCACTAACTCCTATAAAGGCTGGCGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAATTCGAATCAAAGAACATGAGAAGGTGCCAAGCCCTGTCAAGGACGACGAGAAGGCACCAAGCTCAATCAAAAAATGCGACAAAGAGCCAAGCCCAATCGAAGTTGTTGAGAAAGAACCAATGTATATCATAGGTGATCAGAAGGCGCCGAGCCCTGTCGAAGAAGATAAGAAGGCGCCAAGTCCTATTAAACAAGTTGAGAAGGCGCCGAGCCCTGTCAAGGACGACGAGAAGGCACCAAGCCCTGTCAATGATGATGAAAAAGTGCCAAGCCCTGTCAAGGACGACGAGAAGGCACCGAGCTTAGTCAAGGACGATGAGAAGGCACCAAGCCCAATTAAAGAAGATGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCAAGTCCTATTAAAAAAGATGAGAAGGCGCCGAGCCCTATCAAGGAAGATGAGAAAGAGCCAAGCCCAATCAAAGAAGACGAGAAGGTGCCAAGCCCATTCGAAGCTGTTGAGAAAGAACCAATGCACATCACAGGTGATCAGAAGGCGCCGAGGCCTGTCGAAGACGATAAGAAGGCGCCAAGCACAATCAAAGAAGTTGAGAGGACGCCAAGCCCTATCAAAGAAGATGAGAAGGCGCAAAGCCCAATCAAGGAAGACGAGAAGGTGCCAAGCTCAATCGAAGAAAATGAGAAGGCGCCAGGCCATGTCAAAGATGCCGTCAAGACCCCAAGGCTTATCAAAGACGATGACAAGACACAACCTCCTATTGAAGAAGAACAAAAGACGCCAACCCTAATCGAAACTCTTAAGAAAGAGCTAACGCCTATCAAAGAGGGTGAGAAGGGGTCAGTTCCTATCAAAGATGATCAGAAGGCAACAAGCCTTACGGAAGAAGTTGAGAAAGCTCCAAAACCAATAGATCTTGATGAGAAAGTAACAAGCTTAACTCACCTTGATGACATCAAAATTCAGTCATTTGATCAAACAGAAGAAGAGAGGACAATGAAGAAACTGGTTGAAAGTAGTTTTACAAGTGCCGTAACGACCACTACTTCAGAGGACGTAATTACACATAAAGACCTGGTTTCGACGTTTTTGGATATGGAACGACAACTGATCAGCAGTACAAAAACAACCCTATCTAGTCAACTTGAACAGATAATACCAAGCTATACCGAAATTAAAGAGAAGGAACCGGTGCCAATCAAAGAAGATGAGAAGGCGCCAAGTCCTATTAAACAAGATGTGAAGGCGCCGACCTCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGATGATGAAAAAGCGCCAAGCCCTGACAAAGACGTTGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCAAGTCCTATTAAACAAGATGTGAAGGCGCCGAGCTCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGATGATGAAAAAGCGCCAAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGTCCTATTAAACAAGTTGAGAAGGTGCCGAGCCCTGTCAAGGACGACGAGAAGGCACCAAGCCCTGTCAAAGATGATGAAAAAGTGCCAAGCCCTGTCAAGGACGACGAGAAGGCACCGAGCTTAGTCAAGGACGATGAGAAGGCACCTAGCCCAATTAAAGAAGATGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGTGCCGAGCCCTCTAGAGGACGATGAGAAGGCGCCAAGCCCTATCAAAGACGTTGAGAAGGCGCCAAGTCCTATTAAACAAGTTGAGAAGGCGCCGAGCCCTGTCAAGGACGACGAGAAGGCACCAAGCCCTGTCAATGATGATGAAAAAGTGCCAAGCCCTGTCAAGGACGACGAGAAGGCACCGAGCTTAGTCAAGGACGATGAGAAGGCACCAAGCCCAATTAAAGAAGATGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCAAGTCCTATTAAAAAAGATGAGAAGGCGCCGAGCTCTTTCGAAGACGATGAGAAGGCGCCAAGCCTAGTCAAAGATGTTGAGAAGGCGCCGAGCACTGACAAGGACGATGAGAAGGCACCAAGCCTAATAAAAGAAGATGAGAAGGCACCGATCCATGTCAAGGACAATGAGAAGGCACCAAGCTCAATCAAAAAAGGTGAGAAAGCGCCCAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCTTAATCAAAGACGACGAGAAGGCGCTGAGCCCTCTCAAGGACGATGAGAAGGCACCATGCCCAATCAAAGATGTCGAGAAGGCGCCGAGCCCTATCAAGGAAGATGAGAAGGCACCAAGCCCTGTCAAAGACGACGAGAAGGCACCAAGCCCAATCAAAAAAGGTGAGAAAGCGCCCAGCCCTGTCAAAGACGTTGAGAAGGCACCAAGCTTAATCAAAGACGACGAGAAGGCGCCAAGCCCTCTCAAGGACGATGAGAAGGCACCAAGCCTAGTCAAAGAAGACGAGAAGGCACCAAGCCCTATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCATCAAGCCCAATCAAAGATGTTGAGAAGGCACGGAGCCCTGTCAAGGACGATGAGAAGACACCAAGCCAATTAAAAGAAGATGAGAAGGCACCGATCCATATCAAGGACGATGAGAAGGCATCAAGACTAATCACAGAAGACGAGAAGGTGGCAAGCTTATTCGAAGTTGTAAATAAAGAACCAATCCACATCACAGGTGATCAGAAGGCGCCGAGCCCTGTCGAAGACGATAAGAAGGTGCCAAGCCCAATCAAAGAAGTTGAGAAGGTGCCAAGCTCTATCAAGGAAGATGAGAAAGAGCCAAGCCCAATCAAAGAAGACGAGAAGGTGCCAAGCCCTATTGAAGAAGAACAAAAGACGCCAACCCTAATCAAAACTCTTAAGAAAGAGCCAATGCCTATCAAAGAGGGTGAGAAGGTGTCAGTTCCTATCAAAGATGATCAGAAGGCAACAAGCCTTACGGAAGAAGTTGAGAAAGCTCCAAAACCAATAGATCTTGATGAGAAAGTAACAAGCTTAACTCACCTTGATGACATCAAAATTCAGTCATTTGATCAAACAGAAGAAGAGAGGACAATGAAGAAACTGGTTGAAAGTAGTTTTACAAGTGCCGTAACAACCACTACTTCAGAGGACATAATACCAAGCTATACCGAAATTAAAGAGAAGGAACCGGTGCCAATCAAAGATGATCTGAAGGAAACCAGTCCTATCAAGGACGATAAGAGCATCCCAATACCCATTAAACAAGATGAGAAAGCGCCAAGCCCAATCAAGGAAGACGAAAGGGCGCAAAGCCCTATCGAAGTTGTTGAGAAAGAACTAATACACATCACAGGTGATCAGAAGGCACCGAGTCCCCTTAAAGTTGGCGAGAAGGCTCTGAGCCCTGTCAAGGACGATGAAAAGGCACCAAGCCCAATCAAAGATGATGAAAAAGCGCCAAGCCCTGTCAAAGACGTTGAGAAGGCACTAAGTCCAATCAAAGAATATGAGAAGGCACCAAGTCCTATTAAACAAGAAGAGAAGGCGCCGAGCCCTGTCAAACACGTTGAGAAGGCACCAAGCCCAATCAAAGATGTCGAGAAGGAACCGGTGCCAATCAAAGATGATCTGAAGGAAACCAGTCCTATCAAGGACGATAAGAGCATCCCAATACCCATTAAACAAGATGAGAAGGCGCCAAGCCCAATCAAGGAAGACGAAAAGGCACCTAGCCCAATCGAAGTTGTCGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAGGAAGATGAGAAGGCGCTGAGCCCTGTCAAGGACGATGAGAAGGCGCCAATCCCAATCAAAGAAGACGAGATGGCACCAAGCCCTATCGAAGTTGTTAAGGAAGAACCAATGCACATCACAGGTGATGAGAAGGCACCAAGCCCAATCAAAGATGTTGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAATACCAACCAAAGATGACGACAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGACCAACCAAAGACGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACTAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTCGAGAAGGGGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATAAAAGAAGATGAGAAGGCACCGATCCATGTCAAGGACGATGAGAAGGCACCAAGACCAACCAAAGACGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCTAATAAAAGAAGATGAGAAGGCACCGATCCATGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGATGATGAAGAAGCGCCAAGTCCTATTAAACAAGATGAGAAGGCGCCGAGCCCCGTCAAGGACGACGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGATGAAAAAGCGCCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGACAAGAAGGCACCAAGTCCTTTTAAACAAGATGAGAAGGCGCCGAGCCCCGTCAAGGACGACGAGAAGGCACCAAGTCTTATCAAAGAAGATGAGAAGGCAACGAGTCCTGTCAAGGACGTTAAGAAGGCACCAATCAAAGATGACGATAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACTAAGTCCAATCAAAGAATATGAGAAGGCACCAAGTCCTATTAAACAAGATGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGACACCAAGTCCAATCAAAGATGACGAAAAGCCGCCGAGCCATGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAAGACGACGAGAAGGCACCAAGCCCAATTAAAGAAGATGAGAAAGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAAGCACCAAGCCCAATCAAAGAAGACGAGAAGGCACCAAGTCCTCTTAAACAAGATGAGAAGGCGCCGAGCCCTGTCAAACACGTTGAGAAGGCACCAAGCCCAATCAAAGATGTCGAGAAGGAGCCGGTGCCAATCAAAGATGATCTGAAGGAAACCAGTACTATCAAGGACGATAAGAGCATCCCAATACCCATTAAACAAGATGAGAAGGCGCCAAGCCCAATCAAGGAAGACGAAAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGATGAAAAAGCGCCAAGCCCTGTCAAGGACGTTAAGAAGGCACCAATACCAACCAAAGATGACGACAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGACCAACCAAAGACGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTCGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATAAAAGAAGATGAGAAGGCACCGATCCATGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCATCAAGCCCAATCAAAGATGATGAAAAAGCGCCAAGTCCTATTAAACAAGATGAGAAGGCGCCGAGCCACGTCAAGGACGACGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTCGAGAAGGCGTCGAGTCCTGTCAAGGACGATGAGAAGGCACCAAGTCCTATTAAACAAGTTGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGCGCTGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGACAAGAAGGCACCAAGTCCTCTTAAACAAGATGAAAAGGCGCCGAGCCCCGTCAAGGACGACGAGAAGGCACCAAGTCTAATCAAAGAAGATGAGAAGGCAACGAGTCCTGTCAAGGACGTTAAGAAGGCACCAATCAAAGATGACGATAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACAAAGCCCAATCAAAGAAGACAAGAAGGCACCAAGTCCTCTTAAACAAGATGAGAAGGCGCCGAGCCCTGTAAAGTACGTTGAGAAGACACCAAGTCCAATCAAAGATGACGAAAAGCCGCCGAGCCATGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAAGACGACGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAAGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCGCCAAGTCCTATTAAACAAGATAAGAAGGCGCCGAGCTCTATCAAGGATGATAAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGCGCCGAGCCCTGTCGAGGACGTTGAGAAGGCATCAAGCCCAATCAAAGAAGACGAGAAGGCACCAAGTCCTCTTAAACAAGATGAGAAGGCGCCGAGCCCTGTCGAGGACGTTGAGAAGGCATCAAGCCCAATCAAAGATGACGAGAAGGCACCAAGCCCTATCGAAGTTGTTAAGGAAGAACCAATGCACATCACAGGTGATGAGAAGGCACCAAGCCCAACCAAAGATGACGAGAAGGCACCGAGCCCTGTCAAGGACGATGAGAAGGCATCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGACGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGACAACAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCTTGTCAAGGACGATGAGAAGGTACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGATGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCAATCAAAGATGACGGGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGTATCAAGTCCAATCAAAGATGACGAGAAGGAGCCGGTGCCAATCAAAGATGATCTGAAGGAAACCAGTCCTATCAAGGACGATAAGAGCATCCCAATACCCATTAAACAAGATGAGAAGGCGCCAAGCCCAATCAAGGAAGACGAAAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGATGAAAAAGCGCCGAGCCCTGTCAAGGACGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGACGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGACAACAAGTCCAATCAAAGATGACGAGAAAGCGCCGAGCCTTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGATGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCAATCAAAGATGACGGGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGTATCAAGTCCAATCAAAGATGACGAGAAGGTGCCGAGCTCTATCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGTATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCTCTGTCAAGGACGATGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGACAACAAGTCCAATAAAAGATGACGAGAAGGCGCCGAGCCTTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAAAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGACGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGACAACAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCTTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGATGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCAATCAAAGATGACGGGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGTATCAAGTCCAATCAAAGATGACGAGAAGGTGCCGAGCTCTATCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGTATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCTCTGTCAAGGACGATGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGACAACAAGTCCAATAAAAGATGACGAGAAGGCGCCGAGCCTTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGATGTTGAGAAAATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCAATCAAAGATGACGGGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGTATCAAGTCCAATCAAAGATGACGAGAAGGTGCCGAGCTCTATCAAGGACGATGAGAAGGCACCAAGCAGCCTAATCAAAGAATATGAGAAGGCGCCGAGCCCTGTCGAGGACGTTGAGAAGGCATCAAGCCCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAACAAGATCAGAAGGCGCTGAGCCCCGTCAAGGACGATGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTTCTGAAGGCACCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCGAGGACGTTGAGAAGGCATCAAGCCCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAACAAGATCAGAAGGCGCTGAGCCCCGTCAAGGACGATGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTTCTGAAGGCACCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATAAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGATATCAAGTCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGTGCCGAGCTCATTCAAAGACGATGAGAAGGCACCAGGCCCAATCAAAGAAGACGAGAAGGCGCCAAGCCCTATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCATCAAGCCCAATCAAAGATGTTGAGAAGGCACCGAGCCCTGTCAAGGACGATGAGAAGACACCAAGCCAATTAAAAGAAGATGAGAAGGTACCGATCCATATCAAGGACGATGAGAAGGCATCAAGACTAATCACAGAAGACGAGAAGGTGGCAAGCTTATTCGAAGTTGTAAATAAAGAACCAATCCACATCACAGGTGATCAGAAGGCGCCGAGCCCTGTCGAAGACGATAAGAAGGTGCCAAGCCCAATCAAAGAAGTTGAGAAGGTGCCAAGCTCTATCAAGGAAGATGAGAAAGAGCCAAGCCCAATCAAAGAAGACGAGAAGGTGCCAAGCCCTATTGAAGAAGAACAAAAGACGCCAACCCTAATCAAAACTCTTAAGAAAGAGCCAATGCCTATCAAAGAGGGTGAGAAGGTGTCAGTTCCTATCAAAGATGATCAGAAGGCAACAAGCCTTACGGAAGAAGTTGAGAAAGCTCCAAAACCAATAGATCTTGATGAGAAAGTAACAAGCTTAACTCACCTTGATGACATCAAAATTCAGTCATTTGATCAAACAGAAGAAGAGAGGACAATGAAGAAACTGGTTGAAAGTAGTTTTACAAGTGCCGTAACAACCACTACTTCAGAGGACGTAATTACACATAAAGACCTGGTTTCGACGTTTTTGGATATGGAACGACAACTGATCAGCAGTACAAAAACAACCCTATCTAGTCAACTTGAACAGATAATACCAAGCTATACCGAAATTAAAGAGAAGGAACCGGTGCCAATCAAAGATGATCTGAAGGAAATCAGTCCTATCAAGGACGATAAGAGCATCCCAATACCCATTAAACAAGATGAGAAAGCGCCAAGCCCAATCAAGGAAGACGAAAGGGCGCTAAGCCCTATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACAAAGCCCAATCAAAGAAGATGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCAAATAAAAGAAGATGAGAAGGCACCGATCCATGTCAAGGACGATAAGAAGGCACCAATACCAACCAAGGATAATGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAGGAAGATGAGAAGGCGCTGAGCCCTGTCAAGGACGATGAGAAGGCGCCAATCCCAATCAAAGAAGACGAGATGGCACCAAGCCCTATCGAAGTTGTTAAGGAAGAACCAATGCACATCACAGGTGATGAGAAGGCACCAAGCCCAATCAAAGATGTTGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAATACCAACCAAAGATAATGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCAACCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCAAGCCCAATCAAAGAAGACGAGAAGGCACCAAGCCCTATCAAAGTTGTTAAGGAAGAACCAATGCACATCACAGGTGATGAGAAGGCACCAAGCCCAACCAAAGATGATGAGAAGGCGCCGAGCCCTGTCAAGGTCGATGAGAAGGCAACAAGACCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCGAGGCCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGATCAGAAGGCACCAAGCCCTATCGAAGTTGTTAAGGAAGAACCAATGCATATCACAGGTGATGAGAAGGCACCAAGCCCAACCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGACGAGAAAGCGCCAAGCCTAGTCAAAGAAGACGAGAAGGCGCCAAGCGCTATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTTGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGACCAACCAAAGACGACGAGATGGCGCCGAGCCCTTTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGATAAGACGGCGACAAGCACAATAAAAGAAGATGAGAAGGCACCGAGCCCTGTCAAGGATGTTGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGCGCCAAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCTGTCAAGGACGATGAAAAGGCAACAAGCCCTGTCGTGGACGACGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCAAGCCCTGTCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAAATGATCAGAAGGCGCCAAGCCCAATAAAAGAAAATGCGAAGGCACCGAGCCCTATCAAGGATGTTGAGAAGGCACCAAGCCCAATTAAAAAAGATGAGAAGGCGCCAAGCCCTGTCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAGATGATCAGAAGGCACCAAGCCCAATCAAATATGTTGAGAAGGCGCTGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCAAATAAAAGAAGATGAGAAGGCGCCGATCCATGTCAAGGACGATGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCACCAAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCAATTAAAGAAGATGAGAAGGCGCCAAGCCCTATCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAGATGATCAGAAGGCACCAAGCCCAATCAAAGATGTTGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCGCCGAGCCCAATCAAAGAAGATGATAAGGCGCCAAGCCCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAACAAGATCAGAAGGCGCTGAGCCCCGTCAAGGACGACGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATATTGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCAAATAAAAGAAGATGAGAAGGCGCCGATCCATGTCAAGGATGATGAGAAGGCGCCAAGTCCAATCAAAGATAATGAGAAGGCGCCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAGGAAGATGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCGCCAAGCCAAATAAACGGAGATGAGAAGGCGCCGATCCATGTCAAGGACGATGAGAAGGCACCGAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCTAATCAAAGATGTTGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCGAAGCCCAATCAAAGAAGATGAGAAGGCGCGAAGCTCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAAGATGTTGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCGAAGCCCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAAGAAGATGAGAAGGCGCCAAGCCCTATCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAGATGATCAGAAGGTACCAAGCCCAATCAAAGATGTTGAGAAGGCTCCGAGCCCTGTCAAGGATGATGAGAAGGCGCCGAGCCCAATCAAAGAAGACGATAAGACGCCAAGCCCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAACAAGATCAGAAAGCGCTGAGCCCCGTCAAGGACGACGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTTCTGAAGGCGCCGATCTCTGTCAAGGACGATGAGAAGACACCAAGCCCAATCAAAGATTATAAGAAGGCGCCAAGCCCTGTCAAGGACGTTGAGAAGGCACCAAGCCTAATCAAAGATGTTGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCAAGCGCAATCAAAGAAGACGAGAAGGCGCCAATCCCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAAGAAGATGAGAAGGCGCCAAGCCCTATCGATGTTGTTGAGGAAGAACCAATGCTCATCACAGATGATCAGAAGGCACCAAGCCCAATCAAAGATGTTGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCGCCGAGCCCAATCAAAGAAGACGATAAGACGCCAAGCCCAATCAAAGAGGATGAGAAGGCACCAAGTCCTATTAAACAAGATCAGAAGGCGCTGAGCCCCGTCAAGGACGACGAGAAGGCACCTAGCCCAATCGAAGTTGTTGAGGAAGAACCAATGCTCATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTTCTGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGACACCAAGCCCAATCAAAGATGGCGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCTAGCCCAATCAAAGATGATGAAAAAGCACCAAGCCCTATCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAAAAGGTACCAAGCCCAATCAAAGAAGACGAGAAGTCGCCAAGTCCTATTAAACAAGATGAGAAGGCGCCGAGCCCCGTCAAGGACGACGAGAAGGCACCTAGCCCAATCAAAGATGATGAAAAAGCACCAAGCCCTATCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGATGAAAAGGTACCAAGCCCAATCAAAGAAGACGAGAAGTCGCCAAGTCCTATTAAACAAGATGAGAAGGCGCCGAGCCCCGTCAAGGACGACGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGCACCGAGTCCTGTCAAGGACGTTAAGAAGGCACCAATCAAAGATGACGATAAGGCGCCGAGCTCTATCAAGGACGATGAGAAGGCACCAAGTCTAATCAAAGATGACGAGAAGGCACCGAGCCCTGTCAAGGACGACGAGAAGGCATCAAGCCCAATCAAAGAATATAAGAAAGCGCCGAGCCCTGTCCAGGACGATGAGAAAGCACCAACTCATATCGAAGAAGATGACAAAGCACCGAGCCTAATCGAAACTGTTGAGAAAGAACCAAAATCAATTTATCTTGATAAGCAAGATACAAGCCTGGGTCACCTTGATGCCATCAAAATTCAGTCATTTGATCAAACAGAAGAAGAGAGTACAATGAAGAAATTGGTTGAAAGTAGTTTTACGAGTGCCGTAACAACCACTACTTCAGAGGACATAATACCAAGCTCTACTGATATTAAAGACCAGGAACCAGTGCCTATCAACGATGTTCTGAAGGAACCGAGTCACATTAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGACGAGGAGAAGGCATCGAGCCTTATTATAGGCGAAGAGAAAGTACCAAGCCCAATCAAAAAAGACGAGAAGGTGCCAAGCGCAATCAAAGATGTCGAAAAGGTACCAATTTCTATCAAAGACAAAGCAAAGGCGTCAAGCCCAATCGAAGTTGTTGAGAAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTTGTGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGCCCTGTCAAGGACGATGAGAAGGCACCAAGACAAACCAAAGATGACGAGAAGGCGCCGAGCCCAATCAAAGAAAACAATAAGGTGCCAAGCCCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAACAAGATCAGAAGGCGCCGAGTCCTGTCAAGGACGACGAGAAGGCACCTAGCCCAATCGTAGTTGTTGAGGAAGAACCAATGCACATCACAGGTGATCAGAAGGCACCAAGCCCAATCAAAGATGTTCTGAAGGCGCCGAGCCCTGTCAAGGACGATGAGAAGGCACCAAGACCAATCAAAGAAGATGAGAAGGCACCAAGTCCTATTAAACAAGATGAGAAGGCGTCGAGCCCCGTCAAGGACGACGAGAAGGCACCTAGCCCAATCAAAGATGATGAAAAAGCGCCAAGCCCTATCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAAGATGACGAGAAGGCGCCAAGCCCTATCAAGGACGATGAGAAGGCACCAAGTCCTATTAAAGAAGATGAGAAGGCGCCAAGCCCAATCAAAAAAGACGAGAAGGCACCAAGTCCTATTAAACAAGATGAGAAGGCGCCGAGCCCCGTCAAGGACGACGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGCACCGAGTCCTGTCAAGGACGTTGAGAAGGCACCAAGCCCAATCAAAGAAGATGAGAAGGCGCCAAGTCCTATTAAACAAGATAAGAAGGCGCCGAGCTCTATCAAGGATGATGAGAAGGCACCAAGCCTAATCAAAGAAGATGAGAAGGCGCCGAGTCCTGTCGAGGACGTTGAGAAGGCATCAAGCCCAATCAAAGATGACGAGAAGGCGCCGAGCCCTGTCAAGGACGACGAGAAGGCATCAAGCCCAATCAAAGAATATAAGGAAGCGCCGAGCCCTGTCCAGGACGATGAGAAAGTACCAGCTCGTATCGAAGAAGATGACAAAGCACCGAGCCTAATCGATACTGTTGAGAAAGAACCAAAATCAATTTATCTTGATAAGAAAGATACAAGCCTGGGTCACTTTGATGCCATCAAAATTCAGTCATTTGATCAAACAGAAGAAGAGAGTACAATGAAGAAATTGGTTGAAAGTAATTTTACAAGTGCCGTAACAACCGCTACTTCAGAGGACGTTATTACACATAAAGACCTGGTTTCGACGTTTTTGGATATGGAACGACAACTCATCAGCAGTACAAAAACAACTGTATTTAGTCAACTTGAACAGATAATACCAAGCTCTACTGATATTAAGGACAAGGAACAAGTGCCTATCAACGATGTTCTGAAGGAACCGAGTCACATCAAGGACGATGAGAAGGCACCAAGCCTAATCAAAGAAGAGGAGAAGGCATCGAGCCTTATCATAGGCGAAGACAAAGTACCAAGCCCAATCAAAAAAGACGAGAAGGTGCCAAGCGCAATCAAAGATGTTGAAAAGGTACCAATTTCTATCAAAGACAAAGGAAAGTCGTCAAGCCCAATCGAAGTTGTTGAGAAAGAACCAATGCACATCACAAGTGATCAGAAGGCACCAAGTCCTTTCAAGGTTGACGAGAAGGCGCCAAGCCCAATCAAAGATGATAAGGCACCAGTATATATAAAAGATGATACCGAGGCGCCAAGCCCCATTAAAGATGAACAGAAACCACTAGTCTCTGCCAAAGACGATGAGAGCGCACCTGTTTCTGTCGAGAAAGCCGAGAAGGCACCGAGCCCTGCAAAAGATGAGGAGAAGGCACCAAGTCCTATCAAGGTTGACGAGAAGGCTCCAAGCCCTGTCAAAGATGATGAAAAGGTAACAGTTTCTATCAAAGACAAAGCAAAAGCGCCAAGCCCGATCGAAGTTATTGAAAAAGAGCCAATGACCATTAAATTGGATGAGAAGGTGCCGAGCTCTATCAAAGGTGATGACAGGGTGCCAGTTTCTATCAAAGACAAAGCAAAAGCGCCAAGCCCGATCAAAGTTGTTGAAAAAGAGCCAATGACCATCAAAACGGACGAGAAGGTTGCGAGCTCTATCAAAGGTGATGAAACGGTGCCAGTTTTTACCAAAGACGAAGAAAAGGTGACAAGCCAAATCGAAGTTGTTGAAAAAGAGTCAATGCCCATCAAAATCGATGAGAAGGTGCCTAGCCCTATAAAAGACGACGAGAAGGCGCCAAGCCCTATCAAGGTTAACGAGAAGGCTCCGAGCCCTGTCAAAGATGATGAAAAGGTACCAGTTTCTATTAAAGACAAAGCAAAAGCGCCAAGCCCGATCGAAGTTGTTGAAAAAGAGCCAATGCCGATCAAAACGGATGAGAAGACGCCGATAGATGACACCATGGTGCCAAGTCCCATCAAAGATGAACAGAAGCCACCAAGCCCTGTCAAAGGCGATGAGAGCGCACCTGTTTCTATCGAGAAGGCACCGAGCCCTGCAAAATTTGATGAAAAAGTACCAGTTTCTATCAAAGACGAAGAAAAGACACCAAGCCCAATTGAAGTTATTGAGATAGAACTAAAGCCCATCAAAAAGGATGAGAGGGTGCGAAGCCCTGTCAAGGTTGATGAGAAGGCACGAAGCTTTATCAAAGACTATGAGAGCGCACAGGTTTCTACTAAAGATGATGATAGGGTACCAATGACTATCAAAGATGATGAAAAGACACCAAGCCCTATCAAAAGTGATGAGAAAGCATCGAGTCCTATCAAAGGTGATGAAAAGGAACGAATGCCCATCAAAGAGGATGAAAAAACACTAAGCCCAACTGAACTAGTCATAAAAGTGCCTACGCAAACCAATGATGTTGGCAAAGCTACAATTCCTATAAAAGATGCTGAGAAGACACCAGTGCAAATTAAAAATGTGGACAAGTTACATAGCTCTACCGGAGATGAGGAGAAGAAACCAACTCCTCTCAAAGATCAGGTGAACGAGCCACTCCCACTGCCTGTGAAGTCAGATAAGCATCTACTAAAACAAATCAATGAGAAGATCGTTGCTTCTGAAGAGCTTCCTGAAAATACACAAAGCCTACTCTACGAACAAAAGTCTGAAACAAAAACAAAACCATTAGTTTCAAATAAGCAAACGTCCCATGGAAGAGATGGAAGTGAAACATGTTACAAAGAGAATGGCTTCGCTTTGCACGATGATACACCAACGTTTGTTGAAGAATCAACGAAGTTGGACCTGTCTTTGATGAAACTAGATTTCGGTCCAGATAAAATTGTATCTAAGGAAAAGACGACATCAAAATCAACCAACGACATCAAATCTGATGTCACTGCGGCTAAGGATAAAACAAGTGTGGAAAAGTCATCTGAGCACCTAGATGCTACGAAAAAAGGGTCTGCTTCAGAATTAGAGCTATTAAAGGACAATACGACTTCTGAAAATGATTCCTTAACTCAATTTTCTGACATGAAACGAAAAACAACCGATACAATACAAAAAATTAGCTTTACCGCATTTGAAAAAACGTCATCGCTACAAGAAGGTGAAAAGTCTATGAGTGCTGATAAAATTGAACTTCTCACTGAAGCAGCAGAAAAAACAGCTTCACTTAAATTGAAAGATTCTATTGAACTAAGTTCCAAAGAGGCATTGACGAAATCGGTTTCGACTGACTCAGAAAAATGTCAAGACAAAGAAATTCATAAGATTGAAACTGAAATATTCTATGAGAAACCAGCTTATTATCATTCAACTGGAGATGAAGTCACAAACAAAATAACAAATGGTACACAAAAAAAAGTTACCACCATCGATGATTTCTCTTTACCTATTCTACAGTCTGAAGTATCTCTCAGCAATGTTCCCGCAGAAGAACGTGATCAAGAGAGAGAAAGGCAGGCCGATGGAGTGAACGATAAAGAATTGGCTCCAAAAGAACTGAAGATTATTTCTAGGTTGGAAATTGATTCAGAAAAACAAGACGACAAGGTAAAAGGCATTGAAGAAATTTGTGTTCATGCAACAGAATCAGAACTAGATATTATGCGAAATTATAATGAGGAGGATTCTAATTTTAGTAAAAAAACAATCACAAAAAAGAAGGTCCCAGTTCAATTAAGCGAACAGATAGAGATAGTGGGAAAAGATAAAATCCTGCCAGAATTCGATGAATCAAACCAACTTCCAAAACCAGTAAAAATTATTGATAAAAAAGAAAAAACAATTGCAAAAAGCACATTAGATATCATTTCTGACCCACTTGATGTAAAGCAAGTACGTTTAGAAAAAGATATTTCTAGTTCCGATTCATGTTTCGTCGATGGTGTGAAACAAAAAGTAAATAAAATTGATGAAACAGATATTAAGCAAGTGGATCTTGAAAACCTCGAAAAGGCTGTTAGCTCTGACACGACGGACAAAATTGTTCCCAGTTCCACGGATAGTAAAGGAAAAGCACCCGAAAAATCTGATGATAAATTACCAAGTTCAATAATATCCGACCCGAAGGAGCCAAGTCCCAACAAGTTTGATTCGGTGGTACTAAGCGCAGATAAGCCTGATAAGGAAACACCTAGCTTAGAGAAACCTGATCAAAAAGCATCTAAGCCAGAACAATCAATACCCGATGGCCAGAAATATAGCCATGATAAAGCTCCGCAAAAGGAAGCAACAGTGAAGGATTTGACATATGAAGAACAAGGTGTTGACGAATCACTAACTGAATCTAAAGTAACCACGATCAAAAAATTAGTTAAAGAAAGACCACTTCTGTCCGAAACAGAATCCACACAAAAGGTACAAGACTGTCACACTTCAAATGTATTGGTACGTGAGGGTAGTTCCGAGGATGTTTCTAAGGATATTAGTCTGGAAGAAAAACATAGCTTTGAAACTAGTGAAAAAAAGACTGTTAAGCTTGATGCTGATTCACTTCTTATGGAAAGCAGTAGTACTGTTTTAGATTCTGTTCAACACACTCAAGAAACAGAGTCGTTCACATTATTCCCAGAATCAAAATCTAAATATGAAAGCAAAATATTAACAAGGACTGAACTCGGGTCTTCAAAGGAAGAAATTGCATTTTCAGAGACATCTGATTCTGGTGTACATAGCATTTTAATGGATGTCGATCACACAGCATCCGGTTCCGATGAACCTTGGGTTGATCAATTAACAAAACATAGTGCTGTCCGCCTAATGGAATCTATTAATAAAGCTTTCGAGATGGAAACTGTACAGCAAGGTATTAAAGTAGAAAATATTGAACCTTTGGTTGCAAGGCCAGATATCGAAAGGATGTCTACTCCGCCCACAGTACCTGTCAGTCCACTGCCTAAAACTCCTAGTAACTTCCAAGACATCAAAATATCTGATGGAATCCAAAGCGAAGTTACATACGATAAATCGGAAGATAGTGAAGAAACAATAACCAAAGTAGTACACGTTGGTGAAGATGTTCTGACACAAAAAATATCTACGTCAACAGAAAAAGTTCCCAAATTACCTAAATCCTCCGTCGAAACTGATGATGACTCAGACGCCATAGCTCTCATACAGACAGTAGGCAAAATTCAAACTGAAACCGACACGGTCACTAAAATAATCAAAGAAGGTGAAAATGTTGTAACGCAAACAATAACAACGGTTACAACAAAAGAAATAATTTCTAGAGAAGACGGGACACCGCAGAACATCAAAACAACAATTGAAACAACAACACTAAGTAAGGGGCAAGACGGATCAACAACTACAACAAAAGATACAGAAACTCTAGTTTCGGAATGTTCGTCAAGTCTTAGATCTACATCTCAGTTGGACATGTACTCAACGGAGAGCCGATCGGACTATACTGAAACTACTGAAAAATCGGATACATTAGGTAGTTTCCAACTGAAATTTACTAGTGAGAAAGAACAGGATGCATCAAGAACTCTTGTTGGCGAAGTCGACGAGTTAGATGACAATATTGAGGACACCATAATTGACACTGACGTCAGCAAGAGGATTATAAAAGAAAATAATATTGATATAGTTGAAACGATCACTACAATTACCAAAAAAGAAACTGTTAGAATTGATGATAGCAAAAAAATATTAAGGACAACAATTGAAACCAATGTTACAAAGGAGTACCCAGACGGTTCAAAAGATGTCCAAAGAAACGTTGATGTCAAAACTGAAGAATTAATCATGGATTCTACAACAAACCTCGATAAAATACTAACAAATTTTACCATCTTCGGTGAACCAGAGGAAAGTATTACAACAAAAACGGAAGAAATTAAACAAGAAGATTTTATTATCAAACGAACAATAGTCACTAGGATTATCAAAACAAAATACGCTGATAAAGATGGGATACCGCGGAAAATAAAGACGTTTACATCTGTTACAACCACTGACGCTTATCCCGATGGATCGGCTCGCACTAAAGTAAATTCTAACACTACCTTGACCGAAATCAATGATGAGATAGCTTCGAATTACGAACTACAAGGTTTTACTGTAATTGAAGACAAAGTTGTCGAAAGAAACGTCCAAGATAAATATGTAGTCATTAATGGTAAAAATGTATTACAAACGATAACAATAACTACAACGAAAGAGTTATTAACAAATAAAGATAAAATAAAGAAAAAGATTAGAACCACTGTCGAAACGGTGACAGAAACACACCTTCCTAATGGCATGACTGAAGTCACCAGAGATTTGAAGGTCTCAATTTCTGATCATAGTCATGAAAGCTTCGATGAAGCATTCGATGGTTTCGTCCAATCCACTGAACCTCTAATTGAGACATCAGTGACTGAAGATTCTATTGAAGAAAACGGAGAGAAAATAAAAAGGAAAACCTACACTACAACTACTATTAAGAAATACGTAAATGCGTTAAAACGTATAGAAAGAACTCAAACAATTGTCAAAGTTGTTACTGAAGATGAGCATCTTGATGGTTCGGTCATAACTAAGACAAGTGAAAAGGTGTCTTTGGTCGATGATATCGTGGACAAAATTCAAAATGGACATCTTGATAGGAATGAGACGGAAGATTCATTCAAAAAGCCAGAACGTCAGGATGACAAAGTACTAGGTCAACAAGCGGAAAAAGTAGAAGATGACGGTGACCTTCTGATCCAGGAATCTAAAATTGATGCAGCTCTAAAAGATTTAACTCCTACTGACGAACCAGAGGTGACTGAAACGACAAGCATAGAAGAAATCAAAGAAAAAGATTTCATCATCCATAGAGAAATTATCACAAGAATAGTGAAAATCAAATACGCTGATAAATCAGGGATGTTGAAAAAATTGAGGACTACGACGACAGTTAAAACAACTGATAAGTATCCTGATGGTAGTGCAAGAACACAAACAGAAAGTAATACTACCCTTACAACGATAGGCACCGGTGAGTCTGATGAAGATTTAGAAGGATTTATACCTGCAGGCGAGCCGCGGCAAAGTATTAAAACACAAATAAATTCTATGATTGAAAACAACATCGAAGTTTTGAGGAAAGTTACAGTTACAACGGTTGAACATGAGTTTATCAACATGCAAAGAAAAATTAAGCGACTCAAGACTATTGTAAAAACAGATATAGAAGACCAACATCCAGACGGTTCTGTATTTTCAAAGACAAGTGAAAAGGTTTATATTGTAGATGAAAATCTGGTGTCTTTAAACGACAGTGACATTGCTGTATCTGAAACAGCAAACATTGAAAAAGCTCTTGAAAATCTGACAGCAGAAGGTAAAGTAGAAGAGACAGAATCCACTCAGACAGAGGAAGTCAAAGAAAATCATGTTATAATCAAGAGAACTATCGTAACTCGCATAGCAAAGACAAAATATGTAGACGATGAAGGAATTGTTAGAAAAATCAAAGTGGTGACGATGATCACAACTACGGATCAATATCCAGATGGTTTGATTCGTACTAATGTCGAAACCAGCACTTCAGTTAAGGAAATTGATGAATCAAAGGTCGAATTTGATATCCAAAAGGCGGAAAGCTCTTACCTAAAATCATCACCAGTAAAAGAGGAAGTGACCCCTGAAGATGAAAAAATAAAGATAGCGCTCAAAGATTTAGTACCGTTCGACGAACCTGAAGTGATAGAGACATCGGAAACACAAGAAATTGTAGAGAAAGAAACAATCATTCGCCGACTCATCGTCACTAAGATAGTCAGAATAAAATATGCTGATAGCAAAGGAGTTCTAAGAAAACTTAAAGAAACCACCACGATTACGAAAACGGATACCTACCCTGACGGTTCCTCGCGTACTGGAGTAGAGAGCAGCACAGTACTCTCCGATATAAATCACGATGAAGTAGACATTGTAGGGGAAAACCTAGATGGATTTGAAGAAGCAGGTGAACCAAAAGTACATACAACTACGAAATTGATGTAATCACTGAGAACGGTATCCTAATTACACGAAAAACTACAACAACCACAATAGTTAAAGAATTCCATAATTTCACAAATAACATCATGCTAACAAAAACGACTGTGAAAACTGCAATAGCAGATGAATATCCAGATGGATCCATTATAACTAAAACAAGCGAAAAAGTATCTCTCACTGAAGAAACTCTTTATACACAGCAGGACGAAGAAGACTCAGTCGAGAGAAATAAAGTCGTAGCTGCTCTTCAACACCTTACTCCTGCTGACAAGCCAGAGGTGTCGGAAACGACTAGAGTAGAAGAGATCAAAGATGGAAAACACGTTATAAAGAGAAATATATTGACTAAAATCGAAAAAACAAAGTATTGTGATAAAGAAGGTAAAATTATAAAACAGAAAACTGTTACAACTGTTACCACTGCTGATCACTATCCTGATGGCTCGATTCGTACAACTGTAGATACTAGTACATCTGTGAGTGATATGCAATTAGACGATATGCCTCAGACACAAGCTTTGGATGAATTTACTAATTTAGAAGACAAATCAGTCAGTGTACGAACTGATGAAAATTTGACGGTTAGAGATGGTAAAGAAGTAAAGCAAATAATAACGACAACAACTACTAAAGAAGTATTGGCATCGGCAGATGAATCTAAAAAGAAAATTCGAACGACAACTGAAGTCATTACTGAGACGAAACTCCCGACAGGAGTGACTGAAGTTACAAAAGATGTCAAAGTTTCAGTCGCTGATTATGGCGTAGAAATGTTTGATGAAAATCTTACCGGATACACAGAAGTTGGCGAACCAAAGGAACACACAACTATGGAAACAGAGCATATTAAAAGCAACGGCCTCGATATCATTAGGAAAATAGCAGTAACAACTATTCGACAAGAATATGAGAATACTTCGATTAGATCCCGAAAAATAAAAACTAATGTTAAAACGGTAGTTGAAGACGAATACCCTGATGGAACTGTTATAACTAAAAAAAGCGAAAAAGTGTCTATTGCTGACGTTTTTTTGAAAACTCCAGCTGCAGAAACTGAGGCAGATGATACTGAGCATCAAGACTCCTATATAGATGACAATGAAATCGTAGAAGATACAACAGAGGAATCTGACGTCAAAAATGAAACGATTCAACAGGGATCTTTAATAATTAAACGAATAATAACCACGAAAACTAAACGTGAAACATTGGCTAGTAATGATGTAAATGTCAAACGCGTTAGAACTACTGTAGAAACTGTGACGGTTGATGAATACCCTGACGGTTCGACAGAGACCACTAAGGATGTGAAGATCACCATTTCTGAATTCCAGAAAACATCGGGCAGCGACTTGCAGGCCGCACTACAAGGACTCAACCCTACTGGTAAAATTAAAACATCTGTTGATAAGAAAACAAATGTTATAATGGAAAGCGGAATGAGAATAACGCAGACTATTACCACCTATGTTACCAAAGAAGAACTAAAAAATGATAATACAAATGAAATCGCAGTCAAAACTGTTACAGAAACTATTACGGAGAACGCTAAAGACGATGGTACTGTTGAAACTACTAAAGACGTTCGAACACAAATCACATACCTGCCTATTGGCACCGGGCTTGACGATTGGTCTCCAGAAGAGCTAGAGGAAATCGAAAAGCAACCAGTGGCCCAAGAAGAAAAACCAAAAGTAGAAGATCTCCCACTTAAACTAAAACCAGAGACCAAAGTTGAAAGCAAACAGAAAAAGCAGCGGTCACCTGTAGGCGAAATTACCACTGAAACGGATACATATACGAAAATAGTCAAAGAAGGTGAAAATGAAATTACACAAACTATAACTGTGGTGACAACCAAAGAGGTGATCAGTCCAGAGAAAATCAAAATAACGGTCGAAACTACGACAGTCAGTAAGGGTAGCGACGGGGTTATTAAAACAACCAAATCAACTAAGACTACCATTTCGGAAATCAAAGAAGAATACGAAGAGATAATCGACACTGGTGAAAGTGAGAAATCTTTTTCGAAACTTTCATCTAAGACTGGCGACATGAGGAGTTCGTCCGCTGCAAGTGACGATTTAGATCACCCAGGTACGTCTTCCCCATCAGACATCAGTTCCAGGGGTTCAAGAGCTGCTACGCATTTTTGGGGTACGGAAAGTAGTGGTATTTATTACAGTGACGACGACGGACAAGCTAGTCCCAGCAGTACTAAGTCACAGATTGCGCATTCTCCACGATCAAATCTTAGCTTCGAGTTAGATGCTAAACAGCTTCAACAACTTGACGACAAGGATATGGATACCGCATTACATAAAGACCCAATGTCCTCCTCAATTTATGGACAACTACCAGAAGATGATTCCTGTGCGTCTTCGTCTCATTCAGACGTTAAAAGTGTAGTTGAGAAAAGTGTTACGAAAAAGACAGAAGAATTCTTGACACAGGAGAAACTTAAATCAGATGTTGTAGTGCTCAAGAAATCAGATGCTACCTTCTTGAAGGAGGCCGATGAACACTTTGAGAAAGCTATCGAAGAACATAAGAAGGTGAGTGGTTCTGATGTAATCTCAAGTATCACAGCCAAATACGAACTTGACACACGGTCCCGCTCAAGTTCAAGCAAAACGACATCAAAAGAAGAAAGCATTACGTTGAAAGACATTAAAACCGAGACTAAAAAATCCACTGAAACATCTTCTAGTCACAGCAAAAAGTCTTCGACGGAAAGATTTGAACAAAGCAGTAAAACTTTTGACAAAGATCCGATCGAGTCTTGGGGGAAACCTCTCGGCCTACCTAGTCCGATTATGCCGCCAAATCAGCATGACAGCAAAAGTACTCCGAAAAAACAAAATCCCAGCTCTACAATTTTGAACAAGAATAAACTAAACCAAGAGAAAAGCAAAGAAGCTAAGAGAGCGTCAGAGTCTCCTAGCAAGAAGAAGACGCCAGCTCCAGTCTACATGGAGCTAACTTACGTTCCTCATCACGGCAACTCATATTACTCTGCCGTGGAATTCTTCAAACGAGTCCGCGCACGTTATTATGTTTTCTCCGGAACTGAACCTTCGAAAGAAATTTACAACGCCCTTCTTGACGCCAAAAAGACTTGGGAGGATAAAGATTTGGAAGTGACCATAATCCCCACATATGACACCGACGTCCTGGGCTACTGGGTGACGGAGAATGAGGAAGCCTTGGAGAAGTACAAGATCGACCTGTCTCCCTCTGCTTCACGCTGCACCATAAACCTGCAAGATCACGAGACCTCGTGCGCGGCCTATCGCCTTGAGTTTTAG
Protein
MHIKFHKNQSEEYAYLNPYVVPASLEQLLVSSDVVGNIRFSHPTLYVFPGGQGDAALFGINGFNMLVDGGFSRKACWWDFARHLDRLDAVLFTRLNNCSASGMSSVLRRKATANVYPQIGHFFCNLEERRALTSPDGDKDADPLLVSLLQEGSDMMTDLRHINLKPQQCYRSPDPINLYHKVGHGTLDMYVLNPSKDSKHVREFLKKWHGSDQKLFEGANISGQFNFPIPNLVSICALLVWRPANPDDTITRIMFPGSTPQHKIFEGLEKLKHLEFLQHPTCTGRQMTPALLPPASVSSTASTLTATKTSKIISRVGKERNIITEKLKEEKHEIESLKDKDLLKDQTDSKNIIDNKLLSELAEHDDKKIESVLHDAITARLETKIDEKVSEYETTMTDEVHKKKDIKKDIKKVVDKKMKRTDKTDEVKETSIKATEIKKADAEIKAKTETKKKTETRSKNEMATSTSRSKISNRTTKTIEKKTTASTTADKKITMDEKRSPVTTPKKTVETKTIATAQSAIRDKIKTKTRKLSPGSTPAKSAKEASNRRVAESKYKQASPKRDAPQKSNDKKESKPKREPISRRPRPIASPVKGVKAIKSPSKSVKSIKADSSKLKGLQRVNYEDILKDAKKSDEETSKSLDDIKQQEFDEREEQEIVREIEAVFNRDSEAEEKVEFVGRSDIEKITCLLDNTKTETTADGEFEEEYLIIEKEEVPQYPSEPEIERESSHKQEDELLKHLKDKEESEKKKDDVSGLQVAKPEEEHLKGEINLEIEAKQAESKEHSISVEEKQDISSEKKTSDSKSGPVKPKDSLELVPESHPDEKISTTVESGATTAPTLPEDERITLDDIKEDHRVEEKHVQEETKEFVPPQTLINIPEPLTKEMNLKGEVQSVPIREIVKTPDEVADLPLHEEVDYQTFEEKKTPIEDDIYKQKPGRFVSETKVPKDLPIPDKDTPILYKVMKTIEDDVIIKTVVKPSHAEIVTVTPGSAPDSPIYQQMKLSLTPSKDLQPVKEYSGEYEYGQYTEKLRETHITTLDSPINDDVIVIEEIPHMPEKIPSIPEDVEKEIEEAQKLEMADKPPLSPKDVEKIVADVAEVLKSEKSLEEIMAGKSPTMIRKSPEVHYKIDETIANTETMTEMLLSSEKQVTNNLIQEIKKSKIETTSEISPDIACKEVSPIRSLTSEEVSDVSDKTVFSETNKVKNDSPLLLEKVKDDKTKTTMKKELLLEETEKIIEKPQDMLKNQVGNELVQIENKQDKFDSDLEIMESKSKLSTTLQSAKTLEKLDEKLANLKSREEMPTPKAEAKEKKAAKIIVLTKIKESQQIVDTDIQEFDASQSGTIVVDDKTESHLDKKAISSVKPGMKTPSPNKDDEGTPMSIKEGEKVPSSIKEFEKVPISIKDDTKVPNLIKDDEKAPSPIKIEEKAPSSIKNEEKKPVPITDVEKALSPITDDEKAPVPIKDEEKASSPIEDVEKEPMHITGDQKAPSPIKVGEKVLSPVKDDEKAPSPIKKDEKAPSPIKEDKKAPSPIKEDGKVPSSVKDMETTPISINEDEKVSSPRKDDEKVPIAIKGDEKSPSSTKDDEKAPSAFKDDEQVAVSIKDSTKAPSPIKDAEKRPALIEDEKKASSPFETLEKDAMPIKEDEVSVPTKDDLKATSLTEEVEKAPKPIDLDEKVTSLTHLDDIKTLSFDQTEEESTMKKLVESSFTSAVTTATSEDIITHKDLVSTFLDMERQLISSTKTTPSSQLEQIIPSYTEIKEKKPVPIKDDLKETSPIKDDKSIPIPIKQDEKAPSPIKEDEKAPSPVKDDEKAPSKIEVVQKEPMHITSDQKGLTPIKIGEKVLSSVKDDEKAPSSIKDDEKARSPIKEDEKALSPIEVVEKEPMHITGDQKAPSPLKVDEKAPSFGIDDEKAPCPIKEVEKVPSPVKDDEKAPSKIEVVQKEPMHITSDQKGLTPAKIGEKVLSPVKDDEKAPSPIKEGEKVPSPIKAVEKEPKHITGDQKAQSPIKISEKALSPVKDDEKALSPIKVVEKEPMHIIGDQKAVSPIKVIEKAVSPVKDELAPSLIKEVEKAPSLIKKDEKVPSPIEEEQKTPTLIETLKKEPMPIKEGEKVSVPIKDHQKATSLTEEVEKAPKPIDLDEKVTSLTHLDDIKIQSFDQTEEESTMKKLVESSFTSAVTTTTSEDVITHKDLISTFLDMERQLISSTKTTVSSQLEQIIPSYTEIKEKEPVPIKDDLKETSPIKDDKSIPIPIKQDEKAPSPIKEDEKALSPIEVVEKEPMHITGDQKALTPIKAGEKAPSPVKDVEKAPIRIKEHEKVPSPVKDDEKAPSSIKKCDKEPSPIEVVEKEPMYIIGDQKAPSPVEEDKKAPSPIKQVEKAPSPVKDDEKAPSPVNDDEKVPSPVKDDEKAPSLVKDDEKAPSPIKEDEKAPSPIKEDEKAPSPIKKDEKAPSPIKEDEKEPSPIKEDEKVPSPFEAVEKEPMHITGDQKAPRPVEDDKKAPSTIKEVERTPSPIKEDEKAQSPIKEDEKVPSSIEENEKAPGHVKDAVKTPRLIKDDDKTQPPIEEEQKTPTLIETLKKELTPIKEGEKGSVPIKDDQKATSLTEEVEKAPKPIDLDEKVTSLTHLDDIKIQSFDQTEEERTMKKLVESSFTSAVTTTTSEDVITHKDLVSTFLDMERQLISSTKTTLSSQLEQIIPSYTEIKEKEPVPIKEDEKAPSPIKQDVKAPTSVKDDEKAPSPIKDDEKAPSPDKDVEKAPSPIKEDEKAPSPIKQDVKAPSSVKDDEKAPSPIKDDEKAPSPVKDVEKAPSPVKDDEKAPSPIKQVEKVPSPVKDDEKAPSPVKDDEKVPSPVKDDEKAPSLVKDDEKAPSPIKEDEKAPSPIKDDEKVPSPLEDDEKAPSPIKDVEKAPSPIKQVEKAPSPVKDDEKAPSPVNDDEKVPSPVKDDEKAPSLVKDDEKAPSPIKEDEKAPSPIKEDEKAPSPIKKDEKAPSSFEDDEKAPSLVKDVEKAPSTDKDDEKAPSLIKEDEKAPIHVKDNEKAPSSIKKGEKAPSPVKDVEKAPSLIKDDEKALSPLKDDEKAPCPIKDVEKAPSPIKEDEKAPSPVKDDEKAPSPIKKGEKAPSPVKDVEKAPSLIKDDEKAPSPLKDDEKAPSLVKEDEKAPSPIEVVEEEPMHITGDQKASSPIKDVEKARSPVKDDEKTPSQLKEDEKAPIHIKDDEKASRLITEDEKVASLFEVVNKEPIHITGDQKAPSPVEDDKKVPSPIKEVEKVPSSIKEDEKEPSPIKEDEKVPSPIEEEQKTPTLIKTLKKEPMPIKEGEKVSVPIKDDQKATSLTEEVEKAPKPIDLDEKVTSLTHLDDIKIQSFDQTEEERTMKKLVESSFTSAVTTTTSEDIIPSYTEIKEKEPVPIKDDLKETSPIKDDKSIPIPIKQDEKAPSPIKEDERAQSPIEVVEKELIHITGDQKAPSPLKVGEKALSPVKDDEKAPSPIKDDEKAPSPVKDVEKALSPIKEYEKAPSPIKQEEKAPSPVKHVEKAPSPIKDVEKEPVPIKDDLKETSPIKDDKSIPIPIKQDEKAPSPIKEDEKAPSPIEVVEEEPMHITGDQKAPSPIKEDEKALSPVKDDEKAPIPIKEDEMAPSPIEVVKEEPMHITGDEKAPSPIKDVEKAPSPVKDDEKAPIPTKDDDKAPSPVKDDEKAPRPTKDDEKAPSPVKDDEKAPSPIEVVEEELMHITGDQKAPSPIKDVEKGPSPVKDDEKAPSLIKEDEKAPIHVKDDEKAPRPTKDDEKAPSPVKDDEKAPSPIEVVEEEPMHITGDQKAPSLIKEDEKAPIHVKDDEKAPSLIKEDEKAPSPVKDDEKAPSPIKDDEEAPSPIKQDEKAPSPVKDDEKAPSPIEVVEEEPMHITGDQKAPSPIKDDEKAPSPVKDDEKAPSPVKDDEKAPSPIKEDKKAPSPFKQDEKAPSPVKDDEKAPSLIKEDEKATSPVKDVKKAPIKDDDKAPSPVKDDEKALSPIKEYEKAPSPIKQDEKAPSPVKDVEKTPSPIKDDEKPPSHVKDDEKAPSPVKDDEKAPSPIKEDEKAPSPVKDVEKAPSPIKDDEKAPSPVKDDEKAPSPIKEDEKAPSPLKQDEKAPSPVKHVEKAPSPIKDVEKEPVPIKDDLKETSTIKDDKSIPIPIKQDEKAPSPIKEDEKAPSPIEVVEEEPMHITGDQKAPSPIKDDEKAPSPVKDVKKAPIPTKDDDKAPSPVKDDEKAPRPTKDDEKAPSPVKDDEKAPSPIEVVEEEPMHITGDQKAPSPIKDVEKAPSPVKDDEKAPSLIKEDEKAPIHVKDDEKAPSLIKEDEKAPSPVKDDEKASSPIKDDEKAPSPIKQDEKAPSHVKDDEKAPSPIEVVEEEPMHITGDQKAPSPIKDVEKASSPVKDDEKAPSPIKQVEKAPSPIKDDEKALSPVKDDEKAPSPIKEDKKAPSPLKQDEKAPSPVKDDEKAPSLIKEDEKATSPVKDVKKAPIKDDDKAPSPVKDDEKAQSPIKEDKKAPSPLKQDEKAPSPVKYVEKTPSPIKDDEKPPSHVKDDEKAPSPVKDDEKAPSPIKEDEKAPSPVKDVEKAPSPIKDDEKAPSPVKDDEKAPSPVKDDEKAPSPIKQDKKAPSSIKDDKKAPSLIKEDEKAPSPVEDVEKASSPIKEDEKAPSPLKQDEKAPSPVEDVEKASSPIKDDEKAPSPIEVVKEEPMHITGDEKAPSPTKDDEKAPSPVKDDEKASSPVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKAPSPVKDVEKTTSPIKDDEKAPSLVKDDEKVPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPIKDDGKAPSPVKDVEKVSSPIKDDEKEPVPIKDDLKETSPIKDDKSIPIPIKQDEKAPSPIKEDEKAPSPIEVVEEEPMHITGDQKAPSPIKDDEKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPSLIKEDEKAPSPVKDVEKTTSPIKDDEKAPSLVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPIKDDGKAPSPVKDVEKVSSPIKDDEKVPSSIKDDEKAPSLIKEDKKAPSPVKDVEKVSSPIKDDEKAPSSVKDDEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPSLIKEDKKAPSPVKDVEKTTSPIKDDEKAPSLVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPSLIKEDEKAPSPVKDVEKTTSPIKDDEKAPSLVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPIKDDGKAPSPVKDVEKVSSPIKDDEKVPSSIKDDEKAPSLIKEDKKAPSPVKDVEKVSSPIKDDEKAPSSVKDDEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPSLIKEDKKAPSPVKDVEKTTSPIKDDEKAPSLVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPIKDDGKAPSPVKDVEKVSSPIKDDEKVPSSIKDDEKAPSSLIKEYEKAPSPVEDVEKASSPIKEDEKAPSPIKQDQKALSPVKDDEKAPSPIEVVEEEPMLITGDQKAPSPIKDVLKAPSPVKDDEKAPSPVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPSLIKEDKKAPSPVKDVEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPSLIKEDKKAPSPVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPSLIKEDKKAPSPVEDVEKASSPIKEDEKAPSPIKQDQKALSPVKDDEKAPSPIEVVEEEPMLITGDQKAPSPIKDVLKAPSPVKDDEKAPSPVKDDEKAPSLIKEDKKAPSPVKDVEKISSPIKDDEKAPSPVKDDEKAPSLIKEDEKVPSSFKDDEKAPGPIKEDEKAPSPIEVVEEEPMHITGDQKASSPIKDVEKAPSPVKDDEKTPSQLKEDEKVPIHIKDDEKASRLITEDEKVASLFEVVNKEPIHITGDQKAPSPVEDDKKVPSPIKEVEKVPSSIKEDEKEPSPIKEDEKVPSPIEEEQKTPTLIKTLKKEPMPIKEGEKVSVPIKDDQKATSLTEEVEKAPKPIDLDEKVTSLTHLDDIKIQSFDQTEEERTMKKLVESSFTSAVTTTTSEDVITHKDLVSTFLDMERQLISSTKTTLSSQLEQIIPSYTEIKEKEPVPIKDDLKEISPIKDDKSIPIPIKQDEKAPSPIKEDERALSPIEVVEEEPMHITGDQKAQSPIKEDEKAPSPVKDDEKAPSQIKEDEKAPIHVKDDKKAPIPTKDNEKAPSPVKDVEKAPSPIKEDEKALSPVKDDEKAPIPIKEDEMAPSPIEVVKEEPMHITGDEKAPSPIKDVEKAPSPVKDDEKAPIPTKDNEKAPSPVKDVEKAPSPTKDDEKAPSPVKDDEKAPSPVKDDEKAPSPIKEDEKAPSPIKEDEKAPSPIKVVKEEPMHITGDEKAPSPTKDDEKAPSPVKVDEKATRPVKDDEKAPSPIKEDEKAPRPVKDDEKAPSPIKEDQKAPSPIEVVKEEPMHITGDEKAPSPTKDDEKAPSPVKDDEKAPSPIKEDEKAPSLVKEDEKAPSAIEVVEEEPMHITGDQKAPSPIKDVEKAPSPVKDDEKAPRPTKDDEMAPSPFKDDEKAPSPVKDDEKAPSPIKEDKTATSTIKEDEKAPSPVKDVEKAPSPIKDDEKAPSPVKDVEKAPSPVKDDEKATSPVVDDEKAPSPIKEDEKAPSPVEVVEEEPMLITNDQKAPSPIKENAKAPSPIKDVEKAPSPIKKDEKAPSPVEVVEEEPMLITDDQKAPSPIKYVEKALSPVKDDEKAPSQIKEDEKAPIHVKDDEKAPSPIKEDEKAPSPVKDVEKAPSPIKEDEKAPSPIEVVEEEPMLITDDQKAPSPIKDVEKAPSPVKDDEKAPSPIKEDDKAPSPIKEDEKAPSPIKQDQKALSPVKDDEKAPSPIEVVEEEPMLITGDQKAPSPIKDIEKAPSPVKDDEKAPSQIKEDEKAPIHVKDDEKAPSPIKDNEKAPSPVKDVEKAPSPIKEDEKAPSPVKDDEKAPSQINGDEKAPIHVKDDEKAPSPVKDVEKAPSLIKDVEKAPSPIKEDEKARSPIKEDEKARSSIKEDEKAPSPIKDVEKAPSPIKEDEKARSPIKEDEKAPSPIKEDEKAPSPIEVVEEEPMLITDDQKVPSPIKDVEKAPSPVKDDEKAPSPIKEDDKTPSPIKEDEKAPSPIKQDQKALSPVKDDEKAPSPIEVVEEEPMHITGDQKAPSPIKDVLKAPISVKDDEKTPSPIKDYKKAPSPVKDVEKAPSLIKDVEKAPSPIKEDEKAPSAIKEDEKAPIPIKEDEKAPSPIKEDEKAPSPIDVVEEEPMLITDDQKAPSPIKDVEKAPSPVKDDEKAPSPIKEDDKTPSPIKEDEKAPSPIKQDQKALSPVKDDEKAPSPIEVVEEEPMLITGDQKAPSPIKDVLKAPSPVKDDEKTPSPIKDGEKAPSPVKDDEKAPSPIKDDEKAPSPIKDVEKAPSPIKDDEKAPSPVKDDEKVPSPIKEDEKSPSPIKQDEKAPSPVKDDEKAPSPIKDDEKAPSPIKDVEKAPSPIKDDEKAPSPVKDDEKVPSPIKEDEKSPSPIKQDEKAPSPVKDDEKAPSLIKEDEKAPSPVKDVKKAPIKDDDKAPSSIKDDEKAPSLIKDDEKAPSPVKDDEKASSPIKEYKKAPSPVQDDEKAPTHIEEDDKAPSLIETVEKEPKSIYLDKQDTSLGHLDAIKIQSFDQTEEESTMKKLVESSFTSAVTTTTSEDIIPSSTDIKDQEPVPINDVLKEPSHIKDDEKAPSLIKDEEKASSLIIGEEKVPSPIKKDEKVPSAIKDVEKVPISIKDKAKASSPIEVVEKEPMHITGDQKAPSPIKDVVKAPSPVKDDEKAPSPVKDDEKAPRQTKDDEKAPSPIKENNKVPSPIKEDEKAPSPIKQDQKAPSPVKDDEKAPSPIVVVEEEPMHITGDQKAPSPIKDVLKAPSPVKDDEKAPRPIKEDEKAPSPIKQDEKASSPVKDDEKAPSPIKDDEKAPSPIKDVEKAPSPIKDDEKAPSPIKDDEKAPSPIKEDEKAPSPIKKDEKAPSPIKQDEKAPSPVKDDEKAPSLIKEDEKAPSPVKDVEKAPSPIKEDEKAPSPIKQDKKAPSSIKDDEKAPSLIKEDEKAPSPVEDVEKASSPIKDDEKAPSPVKDDEKASSPIKEYKEAPSPVQDDEKVPARIEEDDKAPSLIDTVEKEPKSIYLDKKDTSLGHFDAIKIQSFDQTEEESTMKKLVESNFTSAVTTATSEDVITHKDLVSTFLDMERQLISSTKTTVFSQLEQIIPSSTDIKDKEQVPINDVLKEPSHIKDDEKAPSLIKEEEKASSLIIGEDKVPSPIKKDEKVPSAIKDVEKVPISIKDKGKSSSPIEVVEKEPMHITSDQKAPSPFKVDEKAPSPIKDDKAPVYIKDDTEAPSPIKDEQKPLVSAKDDESAPVSVEKAEKAPSPAKDEEKAPSPIKVDEKAPSPVKDDEKVTVSIKDKAKAPSPIEVIEKEPMTIKLDEKVPSSIKGDDRVPVSIKDKAKAPSPIKVVEKEPMTIKTDEKVASSIKGDETVPVFTKDEEKVTSQIEVVEKESMPIKIDEKVPSPIKDDEKAPSPIKVNEKAPSPVKDDEKVPVSIKDKAKAPSPIEVVEKEPMPIKTDEKTPIDDTMVPSPIKDEQKPPSPVKGDESAPVSIEKAPSPAKFDEKVPVSIKDEEKTPSPIEVIEIELKPIKKDERVRSPVKVDEKARSFIKDYESAQVSTKDDDRVPMTIKDDEKTPSPIKSDEKASSPIKGDEKERMPIKEDEKTLSPTELVIKVPTQTNDVGKATIPIKDAEKTPVQIKNVDKLHSSTGDEEKKPTPLKDQVNEPLPLPVKSDKHLLKQINEKIVASEELPENTQSLLYEQKSETKTKPLVSNKQTSHGRDGSETCYKENGFALHDDTPTFVEESTKLDLSLMKLDFGPDKIVSKEKTTSKSTNDIKSDVTAAKDKTSVEKSSEHLDATKKGSASELELLKDNTTSENDSLTQFSDMKRKTTDTIQKISFTAFEKTSSLQEGEKSMSADKIELLTEAAEKTASLKLKDSIELSSKEALTKSVSTDSEKCQDKEIHKIETEIFYEKPAYYHSTGDEVTNKITNGTQKKVTTIDDFSLPILQSEVSLSNVPAEERDQERERQADGVNDKELAPKELKIISRLEIDSEKQDDKVKGIEEICVHATESELDIMRNYNEEDSNFSKKTITKKKVPVQLSEQIEIVGKDKILPEFDESNQLPKPVKIIDKKEKTIAKSTLDIISDPLDVKQVRLEKDISSSDSCFVDGVKQKVNKIDETDIKQVDLENLEKAVSSDTTDKIVPSSTDSKGKAPEKSDDKLPSSIISDPKEPSPNKFDSVVLSADKPDKETPSLEKPDQKASKPEQSIPDGQKYSHDKAPQKEATVKDLTYEEQGVDESLTESKVTTIKKLVKERPLLSETESTQKVQDCHTSNVLVREGSSEDVSKDISLEEKHSFETSEKKTVKLDADSLLMESSSTVLDSVQHTQETESFTLFPESKSKYESKILTRTELGSSKEEIAFSETSDSGVHSILMDVDHTASGSDEPWVDQLTKHSAVRLMESINKAFEMETVQQGIKVENIEPLVARPDIERMSTPPTVPVSPLPKTPSNFQDIKISDGIQSEVTYDKSEDSEETITKVVHVGEDVLTQKISTSTEKVPKLPKSSVETDDDSDAIALIQTVGKIQTETDTVTKIIKEGENVVTQTITTVTTKEIISREDGTPQNIKTTIETTTLSKGQDGSTTTTKDTETLVSECSSSLRSTSQLDMYSTESRSDYTETTEKSDTLGSFQLKFTSEKEQDASRTLVGEVDELDDNIEDTIIDTDVSKRIIKENNIDIVETITTITKKETVRIDDSKKILRTTIETNVTKEYPDGSKDVQRNVDVKTEELIMDSTTNLDKILTNFTIFGEPEESITTKTEEIKQEDFIIKRTIVTRIIKTKYADKDGIPRKIKTFTSVTTTDAYPDGSARTKVNSNTTLTEINDEIASNYELQGFTVIEDKVVERNVQDKYVVINGKNVLQTITITTTKELLTNKDKIKKKIRTTVETVTETHLPNGMTEVTRDLKVSISDHSHESFDEAFDGFVQSTEPLIETSVTEDSIEENGEKIKRKTYTTTTIKKYVNALKRIERTQTIVKVVTEDEHLDGSVITKTSEKVSLVDDIVDKIQNGHLDRNETEDSFKKPERQDDKVLGQQAEKVEDDGDLLIQESKIDAALKDLTPTDEPEVTETTSIEEIKEKDFIIHREIITRIVKIKYADKSGMLKKLRTTTTVKTTDKYPDGSARTQTESNTTLTTIGTGESDEDLEGFIPAGEPRQSIKTQINSMIENNIEVLRKVTVTTVEHEFINMQRKIKRLKTIVKTDIEDQHPDGSVFSKTSEKVYIVDENLVSLNDSDIAVSETANIEKALENLTAEGKVEETESTQTEEVKENHVIIKRTIVTRIAKTKYVDDEGIVRKIKVVTMITTTDQYPDGLIRTNVETSTSVKEIDESKVEFDIQKAESSYLKSSPVKEEVTPEDEKIKIALKDLVPFDEPEVIETSETQEIVEKETIIRRLIVTKIVRIKYADSKGVLRKLKETTTITKTDTYPDGSSRTGVESSTVLSDINHDEVDIVGENLDGFEEAGEPKVHTTTEIDVITENGILITRKTTTTTIVKEFHNFTNNIMLTKTTVKTAIADEYPDGSIITKTSEKVSLTEETLYTQQDEEDSVERNKVVAALQHLTPADKPEVSETTRVEEIKDGKHVIKRNILTKIEKTKYCDKEGKIIKQKTVTTVTTADHYPDGSIRTTVDTSTSVSDMQLDDMPQTQALDEFTNLEDKSVSVRTDENLTVRDGKEVKQIITTTTTKEVLASADESKKKIRTTTEVITETKLPTGVTEVTKDVKVSVADYGVEMFDENLTGYTEVGEPKEHTTMETEHIKSNGLDIIRKIAVTTIRQEYENTSIRSRKIKTNVKTVVEDEYPDGTVITKKSEKVSIADVFLKTPAAETEADDTEHQDSYIDDNEIVEDTTEESDVKNETIQQGSLIIKRIITTKTKRETLASNDVNVKRVRTTVETVTVDEYPDGSTETTKDVKITISEFQKTSGSDLQAALQGLNPTGKIKTSVDKKTNVIMESGMRITQTITTYVTKEELKNDNTNEIAVKTVTETITENAKDDGTVETTKDVRTQITYLPIGTGLDDWSPEELEEIEKQPVAQEEKPKVEDLPLKLKPETKVESKQKKQRSPVGEITTETDTYTKIVKEGENEITQTITVVTTKEVISPEKIKITVETTTVSKGSDGVIKTTKSTKTTISEIKEEYEEIIDTGESEKSFSKLSSKTGDMRSSSAASDDLDHPGTSSPSDISSRGSRAATHFWGTESSGIYYSDDDGQASPSSTKSQIAHSPRSNLSFELDAKQLQQLDDKDMDTALHKDPMSSSIYGQLPEDDSCASSSHSDVKSVVEKSVTKKTEEFLTQEKLKSDVVVLKKSDATFLKEADEHFEKAIEEHKKVSGSDVISSITAKYELDTRSRSSSSKTTSKEESITLKDIKTETKKSTETSSSHSKKSSTERFEQSSKTFDKDPIESWGKPLGLPSPIMPPNQHDSKSTPKKQNPSSTILNKNKLNQEKSKEAKRASESPSKKKTPAPVYMELTYVPHHGNSYYSAVEFFKRVRARYYVFSGTEPSKEIYNALLDAKKTWEDKDLEVTIIPTYDTDVLGYWVTENEEALEKYKIDLSPSASRCTINLQDHETSCAAYRLEF
Summary
Description
During embryogenesis, necessary for dendritic and axonal organization and growth at the neuromuscular junction through the regulation of the synaptic microtubule cytoskeleton. Microtubule hairpin loops are found within a small subset of synaptic boutons at the neuromuscular synapse, these loops are stabilized by Futsch. Loop morphology and dynamics suggest that rearrangement of these microtubule-based loops is a critical component of the process of bouton division and for subsequent nerve-terminal growth and branching. Translation is repressed by Fmr1.
Facilitates tyrosination of alpha-tubulin in neuronal microtubules (By similarity). Phosphorylated MAP1B may play a role in the cytoskeletal changes that accompany neurite extension. Possibly MAP1B binds to at least two tubulin subunits in the polymer, and this bridging of subunits might be involved in nucleating microtubule polymerization and in stabilizing microtubules. Acts as a positive cofactor in DAPK1-mediated autophagic vesicle formation and membrane blebbing.
Phosphorylated MAP1B may play a role in the cytoskeletal changes that accompany neurite extension. Possibly MAP1B binds to at least two tubulin subunits in the polymer, and this bridging of subunits might be involved in nucleating microtubule polymerization and in stabilizing microtubules. Acts as a positive cofactor in DAPK1-mediated autophagic vesicle formation and membrane blebbing (By similarity). Facilitates tyrosination of alpha-tubulin in neuronal microtubules. Required for synaptic maturation.
Phosphorylated MAP1B may play a role in the cytoskeletal changes that accompany neurite extension. Possibly MAP1B binds to at least two tubulin subunits in the polymer, and this bridging of subunits might be involved in nucleating microtubule polymerization and in stabilizing microtubules. Acts as a positive cofactor in DAPK1-mediated autophagic vesicle formation and membrane blebbing. Facilitates tyrosination of alpha-tubulin in neuronal microtubules. Required for synaptic maturation (By similarity). Interacts with TMEM185A (By similarity).
Microtubule-associated protein that mediates aggregation of mitochondria resulting in cell death and genomic destruction (MAGD). Plays a role in anchoring the microtubule organizing center to the centrosomes. Binds to DNA. Plays a role in apoptosis. Involved in the formation of microtubule bundles (By similarity).
Microtubule-associated protein that mediates aggregation of mitochondria resulting in cell death and genomic destruction (MAGD). Plays a role in anchoring the microtubule organizing center to the centrosomes. Binds to DNA. Plays a role in apoptosis (By similarity). Involved in the formation of microtubule bundles.
Facilitates tyrosination of alpha-tubulin in neuronal microtubules (By similarity). Phosphorylated MAP1B may play a role in the cytoskeletal changes that accompany neurite extension. Possibly MAP1B binds to at least two tubulin subunits in the polymer, and this bridging of subunits might be involved in nucleating microtubule polymerization and in stabilizing microtubules. Acts as a positive cofactor in DAPK1-mediated autophagic vesicle formation and membrane blebbing.
Phosphorylated MAP1B may play a role in the cytoskeletal changes that accompany neurite extension. Possibly MAP1B binds to at least two tubulin subunits in the polymer, and this bridging of subunits might be involved in nucleating microtubule polymerization and in stabilizing microtubules. Acts as a positive cofactor in DAPK1-mediated autophagic vesicle formation and membrane blebbing (By similarity). Facilitates tyrosination of alpha-tubulin in neuronal microtubules. Required for synaptic maturation.
Phosphorylated MAP1B may play a role in the cytoskeletal changes that accompany neurite extension. Possibly MAP1B binds to at least two tubulin subunits in the polymer, and this bridging of subunits might be involved in nucleating microtubule polymerization and in stabilizing microtubules. Acts as a positive cofactor in DAPK1-mediated autophagic vesicle formation and membrane blebbing. Facilitates tyrosination of alpha-tubulin in neuronal microtubules. Required for synaptic maturation (By similarity). Interacts with TMEM185A (By similarity).
Microtubule-associated protein that mediates aggregation of mitochondria resulting in cell death and genomic destruction (MAGD). Plays a role in anchoring the microtubule organizing center to the centrosomes. Binds to DNA. Plays a role in apoptosis. Involved in the formation of microtubule bundles (By similarity).
Microtubule-associated protein that mediates aggregation of mitochondria resulting in cell death and genomic destruction (MAGD). Plays a role in anchoring the microtubule organizing center to the centrosomes. Binds to DNA. Plays a role in apoptosis (By similarity). Involved in the formation of microtubule bundles.
Subunit
Heterodimer of a heavy and a light chain. Interacts with Fmr1.
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. Interacts with TIAM2. Interacts with guanylate kinase-like domain of DLG1, DLG2, DLG4. Binds to CSNK1D (By similarity).
Interacts with TIAM2 (By similarity). 3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. Interacts with guanylate kinase-like domain of DLG1, DLG2 and DLG4. Binds to CSNK1D.
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. Interacts with guanylate kinase-like domain of DLG1, DLG2 and DLG4. Binds to CSNK1D (By similarity). Interacts with TIAM2.
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. LC1 interacts with the amino-terminal region of MAP1B. Interacts with ANP32A and TIAM2. Interacts with the tubulin tyrosine TTL (By similarity). Interacts (via C-terminus) with GAN (via Kelch domains) (PubMed:12147674, PubMed:16227972). Interacts (via N-terminus) with DAPK1 (PubMed:18195017). Interacts with TMEM185A (PubMed:15525354). Interacts with MAP1LC3B (PubMed:24089205). Interacts with KIRREL3 (PubMed:25902260).
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. LC1 interacts with the amino-terminal region of MAP1B. Interacts with ANP32A and TIAM2 (PubMed:12807913, PubMed:17320046). Interacts with the tubulin tyrosine TTL (PubMed:18075266). Interacts (via C-terminus) with GAN (via Kelch domains) (PubMed:12147674). Interacts (via N-terminus) with DAPK1 (By similarity). Interacts with TMEM185A (By similarity). Interacts with MAP1LC3B (By similarity). Interacts with KIRREL3 (By similarity).
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. LC1 interacts with the amino-terminal region of MAP1B. Interacts with ANP32A and TIAM2. Interacts with the tubulin tyrosine TTL (By similarity). Interacts (via C-terminus) with GAN (via Kelch domains). Interacts (via N-terminus) with DAPK1. Interacts with TMEM185A. Interacts with MAP1LC3B. Interacts with KIRREL3 (By similarity).
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts (via C-terminus) with GAN (via Kelch domains). Interacts with ESR1, LRPPRC, RASSF1, microtubules and VCY2 (By similarity). Interacts with ESR1, LRPPRC, RASSF1, microtubules and VCY2. Interacts with WDR47 (via N-terminus of light chain) (By similarity).
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts (via C-terminus) with GAN (via Kelch domains) (By similarity). Interacts with ESR1, LRPPRC, RASSF1 isoform A and isoform C, microtubules and VCY2. Interacts with WDR47 (via N-terminus of light chain).
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts with LRPPRC, RASSF1, microtubules and VCY2. Interacts (via C-terminus) with GAN (via Kelch domains). Interacts with WDR47 (via N-terminus of light chain) (By similarity). Interacts with ESR1.
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts with ESR1, LRPPRC, RASSF1, microtubules and VCY2. Interacts with WDR47 (via N-terminus of light chain) (By similarity). Interacts (via C-terminus) with GAN (via Kelch domains).
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. Interacts with TIAM2. Interacts with guanylate kinase-like domain of DLG1, DLG2, DLG4. Binds to CSNK1D (By similarity).
Interacts with TIAM2 (By similarity). 3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. Interacts with guanylate kinase-like domain of DLG1, DLG2 and DLG4. Binds to CSNK1D.
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. Interacts with guanylate kinase-like domain of DLG1, DLG2 and DLG4. Binds to CSNK1D (By similarity). Interacts with TIAM2.
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. LC1 interacts with the amino-terminal region of MAP1B. Interacts with ANP32A and TIAM2. Interacts with the tubulin tyrosine TTL (By similarity). Interacts (via C-terminus) with GAN (via Kelch domains) (PubMed:12147674, PubMed:16227972). Interacts (via N-terminus) with DAPK1 (PubMed:18195017). Interacts with TMEM185A (PubMed:15525354). Interacts with MAP1LC3B (PubMed:24089205). Interacts with KIRREL3 (PubMed:25902260).
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. LC1 interacts with the amino-terminal region of MAP1B. Interacts with ANP32A and TIAM2 (PubMed:12807913, PubMed:17320046). Interacts with the tubulin tyrosine TTL (PubMed:18075266). Interacts (via C-terminus) with GAN (via Kelch domains) (PubMed:12147674). Interacts (via N-terminus) with DAPK1 (By similarity). Interacts with TMEM185A (By similarity). Interacts with MAP1LC3B (By similarity). Interacts with KIRREL3 (By similarity).
3 different light chains, LC1, LC2 and LC3, can associate with MAP1A and MAP1B proteins. LC1 interacts with the amino-terminal region of MAP1B. Interacts with ANP32A and TIAM2. Interacts with the tubulin tyrosine TTL (By similarity). Interacts (via C-terminus) with GAN (via Kelch domains). Interacts (via N-terminus) with DAPK1. Interacts with TMEM185A. Interacts with MAP1LC3B. Interacts with KIRREL3 (By similarity).
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts (via C-terminus) with GAN (via Kelch domains). Interacts with ESR1, LRPPRC, RASSF1, microtubules and VCY2 (By similarity). Interacts with ESR1, LRPPRC, RASSF1, microtubules and VCY2. Interacts with WDR47 (via N-terminus of light chain) (By similarity).
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts (via C-terminus) with GAN (via Kelch domains) (By similarity). Interacts with ESR1, LRPPRC, RASSF1 isoform A and isoform C, microtubules and VCY2. Interacts with WDR47 (via N-terminus of light chain).
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts with LRPPRC, RASSF1, microtubules and VCY2. Interacts (via C-terminus) with GAN (via Kelch domains). Interacts with WDR47 (via N-terminus of light chain) (By similarity). Interacts with ESR1.
Heterodimer of a heavy and a light chain. Interacts with microtubules and actin. Both MAP1S heavy and light chains interact with microtubules. MAP1S light chain interacts with actin. Interacts with ESR1, LRPPRC, RASSF1, microtubules and VCY2. Interacts with WDR47 (via N-terminus of light chain) (By similarity). Interacts (via C-terminus) with GAN (via Kelch domains).
Miscellaneous
'Futsch' means 'gone' in German.
Has a highly basic region with many copies of the sequence K-K-E, repeated but not at fixed intervals.
Depletion of MAP1S by RNAi causes mitotic abnormalities that consist of failure to form a stable metaphase plate, premature sister chromatid separation, lagging chromosomes, and multipolar spindles.
Has a highly basic region with many copies of the sequence K-K-E, repeated but not at fixed intervals.
Depletion of MAP1S by RNAi causes mitotic abnormalities that consist of failure to form a stable metaphase plate, premature sister chromatid separation, lagging chromosomes, and multipolar spindles.
Similarity
Belongs to the MAP1 family.
To T.californica electromotor neuron-associated protein 1.
To T.californica electromotor neuron-associated protein 2.
Belongs to the MAP1A/MAP1B/MAP1S family.
To T.californica electromotor neuron-associated protein 1.
To T.californica electromotor neuron-associated protein 2.
Belongs to the MAP1A/MAP1B/MAP1S family.
Keywords
Complete proteome
Cytoplasm
Cytoskeleton
Developmental protein
Microtubule
Phosphoprotein
Reference proteome
Repeat
Alternative splicing
Polymorphism
3D-structure
Acetylation
Cell junction
Cell projection
Direct protein sequencing
S-nitrosylation
Synapse
Methylation
Membrane
Apoptosis
DNA-binding
Nucleus
Feature
chain Microtubule-associated protein futsch
splice variant In isoform 2.
sequence variant In dbSNP:rs2584695.
splice variant In isoform 2.
sequence variant In dbSNP:rs2584695.
Uniprot
Pubmed
10839355
10731132
12537572
10731137
18419581
10839356
+ More
11733059 16949836 17372656 21159966 8812494 16572171 7629894 15144186 15592455 17081983 17525332 19413330 19690332 20068231 21269460 21406692 23186163 24275569 1379599 9786987 15961172 22673903 16141072 19468303 11311937 16452087 17320046 18034455 19131326 21183079 7806212 12684070 15372022 12147674 15525354 16227972 17487921 18195017 18088087 18669648 18318008 19369195 24089205 25902260 16959974 2480963 12807913 15345747 17114649 17704770 18075266 21984824 24129315 15057822 15489334 8666295 1639092 2555150 9260743 16641100 2480872 14627543 16297881 14702039 17974005 15057824 11827465 12762840 15205320 15907802 15753381 15899810 17658481 17234756 18220336 18691976 22523538 15528209 16565160
11733059 16949836 17372656 21159966 8812494 16572171 7629894 15144186 15592455 17081983 17525332 19413330 19690332 20068231 21269460 21406692 23186163 24275569 1379599 9786987 15961172 22673903 16141072 19468303 11311937 16452087 17320046 18034455 19131326 21183079 7806212 12684070 15372022 12147674 15525354 16227972 17487921 18195017 18088087 18669648 18318008 19369195 24089205 25902260 16959974 2480963 12807913 15345747 17114649 17704770 18075266 21984824 24129315 15057822 15489334 8666295 1639092 2555150 9260743 16641100 2480872 14627543 16297881 14702039 17974005 15057824 11827465 12762840 15205320 15907802 15753381 15899810 17658481 17234756 18220336 18691976 22523538 15528209 16565160
EMBL
AE014298
AL031128
EU523737
CAA20006.1
U38291
U38292
+ More
AC019011 AF200415 U80458 Z47038 U14577 M83196 AK147474 AK160546 AK163468 AL845466 AF182211 AF182208 AF182209 AF182213 AF182212 L06237 BN001084 AC012609 AC093218 CH471084 X51396 AC170188 AABR07007833 AABR07007832 BC158858 U52950 X60370 X16623 AAI58859.1 M30271 M30270 BC149678 AJ440784 DQ387861 AK027623 AK001531 AK023118 AK294936 AL834233 AC008761 BC006358 BC007253 BC008806 BC067115 BC080547 BC113952 AB062430 AABR03102209 AABR03103182 DQ387862 AK032300 AK162124 AC019302 BC052828
AC019011 AF200415 U80458 Z47038 U14577 M83196 AK147474 AK160546 AK163468 AL845466 AF182211 AF182208 AF182209 AF182213 AF182212 L06237 BN001084 AC012609 AC093218 CH471084 X51396 AC170188 AABR07007833 AABR07007832 BC158858 U52950 X60370 X16623 AAI58859.1 M30271 M30270 BC149678 AJ440784 DQ387861 AK027623 AK001531 AK023118 AK294936 AL834233 AC008761 BC006358 BC007253 BC008806 BC067115 BC080547 BC113952 AB062430 AABR03102209 AABR03103182 DQ387862 AK032300 AK162124 AC019302 BC052828
Proteomes
Interpro
SUPFAM
SSF56281
SSF56281
ProteinModelPortal
Ontologies
GO
GO:0043524
GO:0007528
GO:0043025
GO:0060052
GO:1901215
GO:0007399
GO:0015630
GO:0008088
GO:0005875
GO:0030424
GO:0007409
GO:0007017
GO:0019900
GO:0000226
GO:0048813
GO:0005737
GO:0048749
GO:0008582
GO:0030425
GO:0008017
GO:0008355
GO:0005874
GO:0008306
GO:0048167
GO:0043005
GO:0043198
GO:0150001
GO:0042995
GO:0008093
GO:1901588
GO:1902817
GO:0043194
GO:0031114
GO:0048156
GO:0045202
GO:1904115
GO:0005829
GO:2000010
GO:0005198
GO:0003779
GO:0099642
GO:0016358
GO:0044307
GO:0032435
GO:0070050
GO:0050882
GO:0015631
GO:0099641
GO:1990535
GO:1903829
GO:0007613
GO:0007026
GO:0005518
GO:0007605
GO:0001750
GO:0045494
GO:0014069
GO:0035255
GO:0009987
GO:0010035
GO:0048675
GO:0017085
GO:0032387
GO:0036477
GO:0001764
GO:0043197
GO:0097441
GO:0061162
GO:0097457
GO:0001578
GO:0014012
GO:0051915
GO:0043196
GO:0044877
GO:0032355
GO:0048471
GO:0030054
GO:0033189
GO:0042493
GO:0047497
GO:0071375
GO:0071363
GO:0005886
GO:0097440
GO:0005543
GO:0009612
GO:0045773
GO:0031116
GO:0007416
GO:0021700
GO:0009743
GO:0030426
GO:0043204
GO:0005519
GO:0005856
GO:0045666
GO:0031667
GO:0048666
GO:0048678
GO:0009611
GO:0012505
GO:0016020
GO:0006915
GO:0051015
GO:0005819
GO:0005634
GO:0003677
GO:0010848
GO:0007420
GO:0048812
GO:0005730
GO:0048487
GO:0006914
GO:0006259
GO:0042802
Topology
Subcellular location
Cytoplasm
Cytoskeleton
Cell junction Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Synapse Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Cell projection Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Dendritic spine Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Endomembrane system
Nucleus Detected in perinuclear punctate network corresponding to mitochondrial aggregates and in the nucleus in cells exhibiting apoptosis. Associated specifically with microtubules stabilized by paclitaxel and colocalizes with RASSF1. In interphase cells, shows a diffuse cytoplasmic staining with partial localization to the microtubules. During the different stages of mitosis detected at the spindle microtubules. Detected in filopodia-like protrusions and synapses (By similarity). With evidence from 1 publications.
Cytosol Detected in perinuclear punctate network corresponding to mitochondrial aggregates and in the nucleus in cells exhibiting apoptosis. Associated specifically with microtubules stabilized by paclitaxel and colocalizes with RASSF1. In interphase cells, shows a diffuse cytoplasmic staining with partial localization to the microtubules. During the different stages of mitosis detected at the spindle microtubules. Detected in filopodia-like protrusions and synapses (By similarity). With evidence from 1 publications.
Spindle Detected in perinuclear punctate network corresponding to mitochondrial aggregates and in the nucleus in cells exhibiting apoptosis. Associated specifically with microtubules stabilized by paclitaxel and colocalizes with RASSF1. In interphase cells, shows a diffuse cytoplasmic staining with partial localization to the microtubules. During the different stages of mitosis detected at the spindle microtubules. Detected in filopodia-like protrusions and synapses (By similarity). With evidence from 1 publications.
Cytoskeleton
Cell junction Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Synapse Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Cell projection Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Dendritic spine Colocalizes with DAPK1 in the microtubules and cortical actin fibers. With evidence from 10 publications.
Endomembrane system
Nucleus Detected in perinuclear punctate network corresponding to mitochondrial aggregates and in the nucleus in cells exhibiting apoptosis. Associated specifically with microtubules stabilized by paclitaxel and colocalizes with RASSF1. In interphase cells, shows a diffuse cytoplasmic staining with partial localization to the microtubules. During the different stages of mitosis detected at the spindle microtubules. Detected in filopodia-like protrusions and synapses (By similarity). With evidence from 1 publications.
Cytosol Detected in perinuclear punctate network corresponding to mitochondrial aggregates and in the nucleus in cells exhibiting apoptosis. Associated specifically with microtubules stabilized by paclitaxel and colocalizes with RASSF1. In interphase cells, shows a diffuse cytoplasmic staining with partial localization to the microtubules. During the different stages of mitosis detected at the spindle microtubules. Detected in filopodia-like protrusions and synapses (By similarity). With evidence from 1 publications.
Spindle Detected in perinuclear punctate network corresponding to mitochondrial aggregates and in the nucleus in cells exhibiting apoptosis. Associated specifically with microtubules stabilized by paclitaxel and colocalizes with RASSF1. In interphase cells, shows a diffuse cytoplasmic staining with partial localization to the microtubules. During the different stages of mitosis detected at the spindle microtubules. Detected in filopodia-like protrusions and synapses (By similarity). With evidence from 1 publications.
Length:
12025
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.31773
Exp number, first 60 AAs:
0.24718
Total prob of N-in:
0.01472
outside
1 - 12025
Population Genetic Test Statistics
Pi
21.152762
Theta
20.958274
Tajima's D
-1.053611
CLR
16.909947
CSRT
0.126443677816109
Interpretation
Uncertain
