ATIDB : The Arabidopsis thaliana Integrated Database

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Names and Synonyms

ATTOC120
AT3G16620.1
AT3G16620
AT3G16620
MGL6.15

Gene Ontology Terms

GO:0009707 [AMIGO Graph]
Term : cellular_component, chloroplast outer membrane
Definition : The outer, i.e. cytoplasm-facing, lipid bilayer of the chloroplast envelope.

GO:0045036 [AMIGO Graph]
Term : biological_process, protein targeting to chloroplast
Definition : The process of directing proteins towards the chloroplast using signals contained within the protein. Imported proteins are synthesized as cytosolic precursors containing N-terminal uptake-targeting sequences that direct each protein to its correct subcompartment and are subsequently cleaved.

GO:0009707 [AMIGO Graph]
Term : cellular_component, chloroplast outer membrane
Definition : The outer, i.e. cytoplasm-facing, lipid bilayer of the chloroplast envelope.

MIPS Functional Catalogue Classifications

[99] UNCLASSIFIED PROTEINS


Gene Predictions [*]

Functional Class Prediction Accuracy (%age) Predicted by rule
[GO:0003824] catalytic activity 1591/2089 76.16 [Struc GOmanual 1 - Rule911]
[GO:0005488] binding 707/815 86.75 [Hom GOmanual 1 - Rule160]
[GO:0030528] transcription regulator activity 108/135 80 [Hom GOmanual 1 - Rule72]
[GO:0008233] peptidase activity 6/7 85.71 [Hom GOmanual 3 - Rule160]
mfc:04.05.01.04 transcriptional control 86/95 90.53 [Hom mipsmanual 4 - Rule11]
[GO:0003676] nucleic acid binding 410/514 79.77 [Composite GOmanual 2 - Rule1308]
[GO:0003700] transcription factor activity 315/414 76.09 [Composite GOmanual 4 - Rule21]
[GO:0005488] binding 435/495 87.88 [Composite GOmanual 1 - Rule5]
mfc:04.05.01.04 transcriptional control 91/105 86.67 [Composite mipsmanual 4 - Rule6]
mfc:04.05.01.04 transcriptional control 24/25 96 [Composite mipsmanual 4 - Rule67]


Gene Insertions

Flanking Sequence : T-DNA_LB.SALK_088522 [Graphical View|Text]
Location : chromosome 3, base 5661741-5661742
Mapping Score 1 [see FAQ]

Flanking Sequence : T-DNA_LB.SALK_099767 [Graphical View|Text]
Location : chromosome 3, base 5661224-5661225
Mapping Score 1 [see FAQ]

Flanking Sequence : T-DNA_LB.SALK_043456 [Graphical View|Text]
Location : chromosome 3, base 5660629-5660630
Mapping Score 6 [see FAQ]

Flanking Sequence : T-DNA_LB.SALK_017374.51.20.x [Graphical View|Text]
Location : chromosome 3, base 5659309-5659310
Mapping Score 1 [see FAQ]


Design Validation Primers

Automatically design primers for insert validation

InterProScan results

IPR005690 Chloroplast protein import component Toc86/159 [ HMMTigr, 3a0901s04IAP86: chloroplast protein im, TIGR00993, score, 0]
Sequences

AT3G16620.1 Sequences

AT3G16620.1, Protein sequence 1089 amino acids
MGDGAEIVTRLYGDEKKLAEDGRISELVGSDEVKDNEEEVFEEAIGSQEGLKPESLKTDV
LQEDFPLASNDEVCDLEETSRNERGVENLKVNYSEIGESHGEVNEQCITTKEADSDLVTL
KMNDYDHGEVADADISYGKMASSLDVVENSEKATSNLATEDVNLENGNTHSSSENGVVSP
DENKELVAEVISVSACSVETGSNGIDDEKWEEEIDVSAGMVTEQRNGKTGAEFNSVKIVS
GDKSLNDSIEVAAGTLSPLEKSSSEEKGETESQNSNGGHDIQSNKEIVKQQDSSVNIGPE
IKESQHMERESEVLSSVSPTESRSDTAALPPARPAGLGRAAPLLEPAPRVTQQPRVNGNV
SHNQPQQAEDSTTAETDEHDETREKLQFIRVKFLRLSHRLGQTPHNVVVAQVLYRLGLAE
QLRGRNGSRVGAFSFDRASAMAEQLEAAAQDPLDFSCTIMVLGKSGVGKSATINSIFDEL
KISTDAFQVGTKKVQDIEGFVQGIKVRVIDTPGLLPSWSDQHKNEKILKSVRAFIKKSPP
DIVLYLDRLDMQSRDSGDMPLLRTITDVFGPSIWFNAIVGLTHAASAPPDGPNGTASSYD
MFVTQRSHVIQQAIRQAAGDMRLMNPVSLVENHSACRTNRAGQRVLPNGQVWKPHLLLLS
FASKILAEANALLKLQDNIPGGQFATRSKAPPLPLLLSSLLQSRPQAKLPEQQYDDEDDE
DDLDESSDSEEESEYDELPPFKRLTKAEMTKLSKSQKKEYLDEMEYREKLFMKRQMKEER
KRRKLLKKFAAEIKDMPNGYSENVEEERSEPASVPVPMPDLSLPASFDSDNPTHRYRYLD
TSNQWLVRPVLETHGWDHDIGYEGVNAERLFVVKDKIPVSFSGQVTKDKKDAHVQLELAS
SVKHGEGRSTSLGFDMQNAGKELAYTIRSETRFNKFRKNKAAAGLSVTLLGDSVSAGLKV
EDKLIANKRFRMVMSGGAMTSRGDVAYGGTLEAQFRDKDYPLGRFLSTLGLSVMDWHGDL
AIGGNIQSQVPIGRSSNLIARANLNNRGAGQVSIRVNSSEQLQLAVVALVPLFKKLLTYY
SPEQMQYGH*
AT3G16620.1 Sequence 3495 bases
AGACTTTTGCCTTCTCTAACCAGGTTAGATTCTCGCCATCACTTTTTCTCCTCAATATCAATAGATTCTTCTTTGTATTTTCTGAATTCCTATGAGCAAA
ATATACCTACGATTTGGAAAATATTAGTTTCACTCCCATTTAATTTAGTGTCTTGTGGATTTAAAAGTAACGAGGATACAAAATTTGGTTGGTGCAGTGT
TTCGTGATTTTGGGTGATCCTAGAAATGGGAGATGGGGCTGAGATTGTAACCAGGTTATATGGGGATGAGAAGAAGCTTGCAGAGGATGGTAGAATTAGT
GAGTTGGTGGGATCTGATGAAGTGAAGGATAATGAAGAAGAGGTCTTTGAGGAAGCAATTGGTTCGCAGGAGGGTCTAAAACCTGAATCTCTCAAAACCG
ATGTGTTGCAAGAGGATTTTCCTTTAGCTTCCAATGATGAAGTGTGTGATTTGGAAGAAACAAGTAGAAATGAGAGAGGAGTAGAAAATTTAAAGGTTAA
TTATTCGGAGATTGGAGAGAGCCATGGTGAGGTTAACGAGCAATGTATAACTACGAAAGAGGCTGATTCTGATTTGGTGACTCTCAAAATGAATGATTAT
GATCACGGGGAAGTAGCAGATGCAGATATTTCTTATGGTAAAATGGCATCAAGCTTGGATGTGGTTGAGAACAGTGAGAAAGCTACTTCCAATTTAGCTA
CTGAGGATGTGAATTTGGAAAACGGAAATACACATTCTTCTTCAGAAAATGGAGTAGTCTCTCCTGATGAGAATAAAGAACTGGTGGCGGAAGTTATCTC
AGTAAGTGCCTGTTCCGTGGAAACAGGGAGTAATGGTATTGACGACGAAAAATGGGAGGAAGAAATTGATGTATCAGCTGGCATGGTAACAGAACAAAGA
AATGGTAAGACTGGTGCTGAGTTCAATAGTGTTAAAATTGTTTCAGGTGACAAATCCTTGAATGATAGTATTGAAGTAGCAGCTGGGACCTTATCTCCAT
TGGAAAAATCTAGTTCGGAGGAGAAGGGAGAGACTGAAAGTCAAAACAGTAATGGAGGACATGATATTCAATCTAATAAGGAAATTGTAAAGCAGCAAGA
TAGCAGTGTAAATATAGGTCCAGAGATTAAGGAAAGCCAACATATGGAAAGAGAATCTGAGGTATTAAGTTCTGTTTCACCAACAGAGTCTAGAAGTGAT
ACTGCAGCATTACCACCTGCTCGCCCAGCAGGTCTTGGTCGTGCTGCTCCACTTTTGGAACCTGCACCACGCGTTACACAACAGCCTCGTGTCAATGGAA
ATGTGTCTCACAATCAGCCTCAGCAAGCTGAAGACTCTACCACTGCAGAGACAGATGAGCATGATGAGACCCGTGAGAAGCTCCAGTTTATCAGGGTCAA
ATTTTTGAGGCTTTCACATAGATTAGGGCAAACTCCACATAATGTTGTTGTTGCTCAGGTTTTGTACAGGCTTGGATTGGCTGAACAGTTGAGGGGCAGA
AACGGAAGCCGTGTTGGTGCCTTTAGTTTTGATCGTGCCAGTGCCATGGCAGAACAGCTTGAGGCAGCTGCACAAGATCCCCTTGATTTTTCTTGTACGA
TTATGGTGCTTGGTAAAAGTGGGGTTGGTAAAAGTGCAACCATCAATTCTATTTTTGATGAACTGAAAATTAGTACTGATGCATTCCAGGTGGGGACAAA
GAAGGTTCAGGATATTGAGGGTTTTGTTCAGGGAATTAAGGTACGGGTAATTGACACTCCCGGTCTCTTACCATCCTGGTCAGATCAACACAAGAATGAG
AAGATCCTGAAGTCTGTTAGGGCATTCATCAAGAAAAGTCCGCCTGACATTGTGTTATATCTTGATAGGTTGGATATGCAAAGCAGAGATTCTGGTGACA
TGCCTCTCTTACGCACCATCACTGATGTTTTTGGACCATCAATATGGTTTAATGCCATTGTGGGTTTGACTCATGCCGCTTCGGCTCCACCAGATGGCCC
AAATGGTACTGCTTCTAGCTATGACATGTTTGTGACACAACGTTCTCATGTCATCCAGCAGGCCATTCGCCAAGCAGCGGGAGATATGAGGCTCATGAAC
CCTGTTTCTTTAGTTGAGAACCACTCTGCTTGCAGGACAAATCGGGCAGGCCAGAGAGTATTACCTAATGGCCAAGTGTGGAAGCCTCATTTGTTATTAC
TCTCATTTGCATCCAAGATTCTTGCCGAAGCAAATGCTCTTCTGAAATTACAAGATAATATTCCAGGGGGACAATTTGCAACTCGGTCCAAGGCTCCGCC
ACTACCATTGCTCCTCTCATCGCTTCTGCAATCAAGACCACAAGCTAAGCTTCCTGAGCAACAGTACGATGATGAAGACGATGAAGATGATTTAGACGAA
TCATCAGATTCTGAGGAAGAATCAGAGTATGATGAGCTTCCTCCCTTTAAGCGGTTGACTAAAGCAGAGATGACTAAGCTTAGCAAATCTCAGAAGAAGG
AATATCTCGATGAGATGGAGTATCGGGAGAAACTATTTATGAAGAGACAGATGAAAGAGGAAAGAAAGAGACGTAAGTTGTTGAAGAAATTTGCTGCTGA
GATTAAAGATATGCCTAACGGGTATAGTGAAAATGTGGAAGAGGAGAGAAGTGAACCTGCATCTGTTCCAGTTCCAATGCCAGATTTATCTCTACCTGCA
TCTTTTGACTCTGACAATCCTACTCATCGGTACCGGTACCTTGATACCTCCAATCAATGGCTTGTTAGGCCAGTGCTGGAAACTCATGGGTGGGATCATG
ATATTGGTTATGAAGGTGTGAATGCGGAACGACTATTTGTTGTTAAAGACAAAATACCAGTATCTTTCTCTGGCCAAGTGACAAAGGACAAGAAGGATGC
ACATGTGCAGCTAGAATTGGCCAGCTCGGTTAAACATGGAGAAGGTAGATCAACTTCCCTAGGTTTTGACATGCAAAATGCTGGGAAGGAATTAGCGTAC
ACTATTCGAAGTGAAACAAGATTTAACAAGTTTAGGAAAAACAAAGCAGCAGCTGGTCTCTCTGTTACGCTCTTAGGTGATTCAGTTTCCGCGGGACTAA
AAGTCGAAGATAAGTTGATTGCTAATAAACGGTTCAGGATGGTTATGTCAGGTGGAGCAATGACTAGTCGTGGAGATGTTGCTTATGGTGGTACTTTAGA
AGCTCAGTTTCGAGATAAAGATTATCCGCTTGGTCGGTTTTTATCAACTCTTGGACTCTCTGTGATGGATTGGCATGGCGATCTTGCTATCGGAGGGAAT
ATACAGTCTCAAGTACCCATTGGACGTTCCTCTAATCTCATTGCTCGTGCTAATCTGAATAACAGAGGAGCAGGGCAAGTAAGCATCCGCGTAAACAGCT
CTGAGCAGCTTCAACTTGCTGTGGTTGCACTTGTTCCTCTGTTCAAGAAGCTTCTTACTTATTATTCCCCTGAGCAAATGCAATATGGACACTGA
AT3G16620.1 Coding Sequence (CDS) 3267 bases
ATGGGAGATGGGGCTGAGATTGTAACCAGGTTATATGGGGATGAGAAGAAGCTTGCAGAGGATGGTAGAATTAGTGAGTTGGTGGGATCTGATGAAGTGA
AGGATAATGAAGAAGAGGTCTTTGAGGAAGCAATTGGTTCGCAGGAGGGTCTAAAACCTGAATCTCTCAAAACCGATGTGTTGCAAGAGGATTTTCCTTT
AGCTTCCAATGATGAAGTGTGTGATTTGGAAGAAACAAGTAGAAATGAGAGAGGAGTAGAAAATTTAAAGGTTAATTATTCGGAGATTGGAGAGAGCCAT
GGTGAGGTTAACGAGCAATGTATAACTACGAAAGAGGCTGATTCTGATTTGGTGACTCTCAAAATGAATGATTATGATCACGGGGAAGTAGCAGATGCAG
ATATTTCTTATGGTAAAATGGCATCAAGCTTGGATGTGGTTGAGAACAGTGAGAAAGCTACTTCCAATTTAGCTACTGAGGATGTGAATTTGGAAAACGG
AAATACACATTCTTCTTCAGAAAATGGAGTAGTCTCTCCTGATGAGAATAAAGAACTGGTGGCGGAAGTTATCTCAGTAAGTGCCTGTTCCGTGGAAACA
GGGAGTAATGGTATTGACGACGAAAAATGGGAGGAAGAAATTGATGTATCAGCTGGCATGGTAACAGAACAAAGAAATGGTAAGACTGGTGCTGAGTTCA
ATAGTGTTAAAATTGTTTCAGGTGACAAATCCTTGAATGATAGTATTGAAGTAGCAGCTGGGACCTTATCTCCATTGGAAAAATCTAGTTCGGAGGAGAA
GGGAGAGACTGAAAGTCAAAACAGTAATGGAGGACATGATATTCAATCTAATAAGGAAATTGTAAAGCAGCAAGATAGCAGTGTAAATATAGGTCCAGAG
ATTAAGGAAAGCCAACATATGGAAAGAGAATCTGAGGTATTAAGTTCTGTTTCACCAACAGAGTCTAGAAGTGATACTGCAGCATTACCACCTGCTCGCC
CAGCAGGTCTTGGTCGTGCTGCTCCACTTTTGGAACCTGCACCACGCGTTACACAACAGCCTCGTGTCAATGGAAATGTGTCTCACAATCAGCCTCAGCA
AGCTGAAGACTCTACCACTGCAGAGACAGATGAGCATGATGAGACCCGTGAGAAGCTCCAGTTTATCAGGGTCAAATTTTTGAGGCTTTCACATAGATTA
GGGCAAACTCCACATAATGTTGTTGTTGCTCAGGTTTTGTACAGGCTTGGATTGGCTGAACAGTTGAGGGGCAGAAACGGAAGCCGTGTTGGTGCCTTTA
GTTTTGATCGTGCCAGTGCCATGGCAGAACAGCTTGAGGCAGCTGCACAAGATCCCCTTGATTTTTCTTGTACGATTATGGTGCTTGGTAAAAGTGGGGT
TGGTAAAAGTGCAACCATCAATTCTATTTTTGATGAACTGAAAATTAGTACTGATGCATTCCAGGTGGGGACAAAGAAGGTTCAGGATATTGAGGGTTTT
GTTCAGGGAATTAAGGTACGGGTAATTGACACTCCCGGTCTCTTACCATCCTGGTCAGATCAACACAAGAATGAGAAGATCCTGAAGTCTGTTAGGGCAT
TCATCAAGAAAAGTCCGCCTGACATTGTGTTATATCTTGATAGGTTGGATATGCAAAGCAGAGATTCTGGTGACATGCCTCTCTTACGCACCATCACTGA
TGTTTTTGGACCATCAATATGGTTTAATGCCATTGTGGGTTTGACTCATGCCGCTTCGGCTCCACCAGATGGCCCAAATGGTACTGCTTCTAGCTATGAC
ATGTTTGTGACACAACGTTCTCATGTCATCCAGCAGGCCATTCGCCAAGCAGCGGGAGATATGAGGCTCATGAACCCTGTTTCTTTAGTTGAGAACCACT
CTGCTTGCAGGACAAATCGGGCAGGCCAGAGAGTATTACCTAATGGCCAAGTGTGGAAGCCTCATTTGTTATTACTCTCATTTGCATCCAAGATTCTTGC
CGAAGCAAATGCTCTTCTGAAATTACAAGATAATATTCCAGGGGGACAATTTGCAACTCGGTCCAAGGCTCCGCCACTACCATTGCTCCTCTCATCGCTT
CTGCAATCAAGACCACAAGCTAAGCTTCCTGAGCAACAGTACGATGATGAAGACGATGAAGATGATTTAGACGAATCATCAGATTCTGAGGAAGAATCAG
AGTATGATGAGCTTCCTCCCTTTAAGCGGTTGACTAAAGCAGAGATGACTAAGCTTAGCAAATCTCAGAAGAAGGAATATCTCGATGAGATGGAGTATCG
GGAGAAACTATTTATGAAGAGACAGATGAAAGAGGAAAGAAAGAGACGTAAGTTGTTGAAGAAATTTGCTGCTGAGATTAAAGATATGCCTAACGGGTAT
AGTGAAAATGTGGAAGAGGAGAGAAGTGAACCTGCATCTGTTCCAGTTCCAATGCCAGATTTATCTCTACCTGCATCTTTTGACTCTGACAATCCTACTC
ATCGGTACCGGTACCTTGATACCTCCAATCAATGGCTTGTTAGGCCAGTGCTGGAAACTCATGGGTGGGATCATGATATTGGTTATGAAGGTGTGAATGC
GGAACGACTATTTGTTGTTAAAGACAAAATACCAGTATCTTTCTCTGGCCAAGTGACAAAGGACAAGAAGGATGCACATGTGCAGCTAGAATTGGCCAGC
TCGGTTAAACATGGAGAAGGTAGATCAACTTCCCTAGGTTTTGACATGCAAAATGCTGGGAAGGAATTAGCGTACACTATTCGAAGTGAAACAAGATTTA
ACAAGTTTAGGAAAAACAAAGCAGCAGCTGGTCTCTCTGTTACGCTCTTAGGTGATTCAGTTTCCGCGGGACTAAAAGTCGAAGATAAGTTGATTGCTAA
TAAACGGTTCAGGATGGTTATGTCAGGTGGAGCAATGACTAGTCGTGGAGATGTTGCTTATGGTGGTACTTTAGAAGCTCAGTTTCGAGATAAAGATTAT
CCGCTTGGTCGGTTTTTATCAACTCTTGGACTCTCTGTGATGGATTGGCATGGCGATCTTGCTATCGGAGGGAATATACAGTCTCAAGTACCCATTGGAC
GTTCCTCTAATCTCATTGCTCGTGCTAATCTGAATAACAGAGGAGCAGGGCAAGTAAGCATCCGCGTAAACAGCTCTGAGCAGCTTCAACTTGCTGTGGT
TGCACTTGTTCCTCTGTTCAAGAAGCTTCTTACTTATTATTCCCCTGAGCAAATGCAATATGGACACTGA
AT3G16620.1 cDNA Sequence 3321 bases
AGACTTTTGCCTTCTCTAACCAGTGTTTCGTGATTTTGGGTGATCCTAGAAATGGGAGATGGGGCTGAGATTGTAACCAGGTTATATGGGGATGAGAAGA
AGCTTGCAGAGGATGGTAGAATTAGTGAGTTGGTGGGATCTGATGAAGTGAAGGATAATGAAGAAGAGGTCTTTGAGGAAGCAATTGGTTCGCAGGAGGG
TCTAAAACCTGAATCTCTCAAAACCGATGTGTTGCAAGAGGATTTTCCTTTAGCTTCCAATGATGAAGTGTGTGATTTGGAAGAAACAAGTAGAAATGAG
AGAGGAGTAGAAAATTTAAAGGTTAATTATTCGGAGATTGGAGAGAGCCATGGTGAGGTTAACGAGCAATGTATAACTACGAAAGAGGCTGATTCTGATT
TGGTGACTCTCAAAATGAATGATTATGATCACGGGGAAGTAGCAGATGCAGATATTTCTTATGGTAAAATGGCATCAAGCTTGGATGTGGTTGAGAACAG
TGAGAAAGCTACTTCCAATTTAGCTACTGAGGATGTGAATTTGGAAAACGGAAATACACATTCTTCTTCAGAAAATGGAGTAGTCTCTCCTGATGAGAAT
AAAGAACTGGTGGCGGAAGTTATCTCAGTAAGTGCCTGTTCCGTGGAAACAGGGAGTAATGGTATTGACGACGAAAAATGGGAGGAAGAAATTGATGTAT
CAGCTGGCATGGTAACAGAACAAAGAAATGGTAAGACTGGTGCTGAGTTCAATAGTGTTAAAATTGTTTCAGGTGACAAATCCTTGAATGATAGTATTGA
AGTAGCAGCTGGGACCTTATCTCCATTGGAAAAATCTAGTTCGGAGGAGAAGGGAGAGACTGAAAGTCAAAACAGTAATGGAGGACATGATATTCAATCT
AATAAGGAAATTGTAAAGCAGCAAGATAGCAGTGTAAATATAGGTCCAGAGATTAAGGAAAGCCAACATATGGAAAGAGAATCTGAGGTATTAAGTTCTG
TTTCACCAACAGAGTCTAGAAGTGATACTGCAGCATTACCACCTGCTCGCCCAGCAGGTCTTGGTCGTGCTGCTCCACTTTTGGAACCTGCACCACGCGT
TACACAACAGCCTCGTGTCAATGGAAATGTGTCTCACAATCAGCCTCAGCAAGCTGAAGACTCTACCACTGCAGAGACAGATGAGCATGATGAGACCCGT
GAGAAGCTCCAGTTTATCAGGGTCAAATTTTTGAGGCTTTCACATAGATTAGGGCAAACTCCACATAATGTTGTTGTTGCTCAGGTTTTGTACAGGCTTG
GATTGGCTGAACAGTTGAGGGGCAGAAACGGAAGCCGTGTTGGTGCCTTTAGTTTTGATCGTGCCAGTGCCATGGCAGAACAGCTTGAGGCAGCTGCACA
AGATCCCCTTGATTTTTCTTGTACGATTATGGTGCTTGGTAAAAGTGGGGTTGGTAAAAGTGCAACCATCAATTCTATTTTTGATGAACTGAAAATTAGT
ACTGATGCATTCCAGGTGGGGACAAAGAAGGTTCAGGATATTGAGGGTTTTGTTCAGGGAATTAAGGTACGGGTAATTGACACTCCCGGTCTCTTACCAT
CCTGGTCAGATCAACACAAGAATGAGAAGATCCTGAAGTCTGTTAGGGCATTCATCAAGAAAAGTCCGCCTGACATTGTGTTATATCTTGATAGGTTGGA
TATGCAAAGCAGAGATTCTGGTGACATGCCTCTCTTACGCACCATCACTGATGTTTTTGGACCATCAATATGGTTTAATGCCATTGTGGGTTTGACTCAT
GCCGCTTCGGCTCCACCAGATGGCCCAAATGGTACTGCTTCTAGCTATGACATGTTTGTGACACAACGTTCTCATGTCATCCAGCAGGCCATTCGCCAAG
CAGCGGGAGATATGAGGCTCATGAACCCTGTTTCTTTAGTTGAGAACCACTCTGCTTGCAGGACAAATCGGGCAGGCCAGAGAGTATTACCTAATGGCCA
AGTGTGGAAGCCTCATTTGTTATTACTCTCATTTGCATCCAAGATTCTTGCCGAAGCAAATGCTCTTCTGAAATTACAAGATAATATTCCAGGGGGACAA
TTTGCAACTCGGTCCAAGGCTCCGCCACTACCATTGCTCCTCTCATCGCTTCTGCAATCAAGACCACAAGCTAAGCTTCCTGAGCAACAGTACGATGATG
AAGACGATGAAGATGATTTAGACGAATCATCAGATTCTGAGGAAGAATCAGAGTATGATGAGCTTCCTCCCTTTAAGCGGTTGACTAAAGCAGAGATGAC
TAAGCTTAGCAAATCTCAGAAGAAGGAATATCTCGATGAGATGGAGTATCGGGAGAAACTATTTATGAAGAGACAGATGAAAGAGGAAAGAAAGAGACGT
AAGTTGTTGAAGAAATTTGCTGCTGAGATTAAAGATATGCCTAACGGGTATAGTGAAAATGTGGAAGAGGAGAGAAGTGAACCTGCATCTGTTCCAGTTC
CAATGCCAGATTTATCTCTACCTGCATCTTTTGACTCTGACAATCCTACTCATCGGTACCGGTACCTTGATACCTCCAATCAATGGCTTGTTAGGCCAGT
GCTGGAAACTCATGGGTGGGATCATGATATTGGTTATGAAGGTGTGAATGCGGAACGACTATTTGTTGTTAAAGACAAAATACCAGTATCTTTCTCTGGC
CAAGTGACAAAGGACAAGAAGGATGCACATGTGCAGCTAGAATTGGCCAGCTCGGTTAAACATGGAGAAGGTAGATCAACTTCCCTAGGTTTTGACATGC
AAAATGCTGGGAAGGAATTAGCGTACACTATTCGAAGTGAAACAAGATTTAACAAGTTTAGGAAAAACAAAGCAGCAGCTGGTCTCTCTGTTACGCTCTT
AGGTGATTCAGTTTCCGCGGGACTAAAAGTCGAAGATAAGTTGATTGCTAATAAACGGTTCAGGATGGTTATGTCAGGTGGAGCAATGACTAGTCGTGGA
GATGTTGCTTATGGTGGTACTTTAGAAGCTCAGTTTCGAGATAAAGATTATCCGCTTGGTCGGTTTTTATCAACTCTTGGACTCTCTGTGATGGATTGGC
ATGGCGATCTTGCTATCGGAGGGAATATACAGTCTCAAGTACCCATTGGACGTTCCTCTAATCTCATTGCTCGTGCTAATCTGAATAACAGAGGAGCAGG
GCAAGTAAGCATCCGCGTAAACAGCTCTGAGCAGCTTCAACTTGCTGTGGTTGCACTTGTTCCTCTGTTCAAGAAGCTTCTTACTTATTATTCCCCTGAG
CAAATGCAATATGGACACTGA