ATIDB : The Arabidopsis thaliana Integrated Database

Home Genome Browser BLAST Gene Traps Sub-Seq Contact

Names and Synonyms

ATTOC132
AT2G16640
T24I21.5
T24I21_5
TOC132

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: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:0004888 [AMIGO Graph]
Term : molecular_function, transmembrane receptor activity
Definition : Combining with an extracellular or intracellular messenger to initiate a change in cell activity, and spanning to the membrane of either the cell or an organelle.

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:0008233] peptidase activity 6/7 85.71 [Hom GOmanual 3 - Rule160]
mfc:04.05.01.04 transcriptional control 91/105 86.67 [Composite mipsmanual 4 - Rule6]


Gene Insertions

Flanking Sequence : T-DNA_LB.GK-394E01-018293 [Graphical View|Text]
Location : chromosome 2, base 7220158-7220159
Mapping Score 3 [see FAQ]

Flanking Sequence : T-DNA_LB.GK-394E01-018297 [Graphical View|Text]
Location : chromosome 2, base 7219903-7219904
Mapping Score 3 [see FAQ]

Flanking Sequence : T-DNA_LB.GK-377G01-017229 [Graphical View|Text]
Location : chromosome 2, base 7219613-7219614
Mapping Score 1 [see FAQ]

Flanking Sequence : T-DNA_LB.GK-181E02-013612 [Graphical View|Text]
Location : chromosome 2, base 7219122-7219123
Mapping Score 3 [see FAQ]

Flanking Sequence : T-DNA_LB.SALK_040281 [Graphical View|Text]
Location : chromosome 2, base 7218305-7218306
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

AT2G16640.1 Sequences

AT2G16640.1, Protein sequence 1206 amino acids
MGDGTEFVVRSDREDKKLAEDRISDEQVVKNELVRSDEVRDDNEDEVFEEAIGSENDEQE
EEEDPKRELFESDDLPLVETLKSSMVEHEVEDFEEAVGDLDETSSNEGGVKDFTAVGESH
GAGEAEFDVLATKMNGDKGEGGGGGSYDKVESSLDVVDTTENATSTNTNGSNLAAEHVGI
ENGKTHSFLGNGIASPKNKEVVAEVIPKDDGIEEPWNDGIEVDNWEERVDGIQTEQEVEE
GEGTTENQFEKRTEEEVVEGEGTSKNLFEKQTEQDVVEGEGTSKDLFENGSVCMDSESEA
ERNGETGAAYTSNIVTNASGDNEVSSAVTSSPLEESSSGEKGETEGDSTCLKPEQHLASS
PHSYPESTEVHSNSGSPGVTSREHKPVQSANGGHDVQSPQPNKELEKQQSSRVHVDPEIT
ENSHVETEPEVVSSVSPTESRSNPAALPPARPAGLGRASPLLEPASRAPQQSRVNGNGSH
NQFQQAEDSTTTEADEHDETREKLQLIRVKFLRLAHRLGQTPHNVVVAQVLYRLGLAEQL
RGRNGSRVGAFSFDRASAMAEQLEAAGQDPLDFSCTIMVLGKSGVGKSATINSIFDEVKF
CTDAFQMGTKRVQDVEGLVQGIKVRVIDTPGLLPSWSDQAKNEKILNSVKAFIKKNPPDI
VLYLDRLDMQSRDSGDMPLLRTISDVFGPSIWFNAIVGLTHAASVPPDGPNGTASSYDMF
VTQRSHVIQQAIRQAAGDMRLMNPVSLVENHSACRTNRAGQRVLPNGQVWKPHLLLLSFA
SKILAEANALLKLQDNIPGRPFAARSKAPPLPFLLSSLLQSRPQPKLPEQQYGDEEDEDD
LEESSDSDEESEYDQLPPFKSLTKAQMATLSKSQKKQYLDEMEYREKLLMKKQMKEERKR
RKMFKKFAAEIKDLPDGYSENVEEESGGPASVPVPMPDLSLPASFDSDNPTHRYRYLDSS
NQWLVRPVLETHGWDHDIGYEGVNAERLFVVKEKIPISVSGQVTKDKKDANVQLEMASSV
KHGEGKSTSLGFDMQTVGKELAYTLRSETRFNNFRRNKAAAGLSVTHLGDSVSAGLKVED
KFIASKWFRIVMSGGAMTSRGDFAYGGTLEAQLRDKDYPLGRFLTTLGLSVMDWHGDLAI
GGNIQSQVPIGRSSNLIARANLNNRGAGQVSVRVNSSEQLQLAMVAIVPLFKKLLSYYYP
QTQYGQ*
AT2G16640.1 Sequence 4419 bases
ACCTTCTCTCTATTTCTCTCTCTCTCTCTCTCTCTCTATCTCTAACTTCTGGTAAGGCTTCTCTCCATTTCTCTTCTTCTTTCTTCGTCTTCTTTCTTCT
GTTTTGGTTTTCGTTTCCTGTAATCAACAAAGTTCTTCTTCCATGTTTGGAGATCCCTATCACCGCTTAGACCTGTGTTTAAGCGATTTGGTTAACTTCA
ATTGAATTTTAGTTTCTGGAATTGGTAAGGGATAAGGATTCTAGGATTCGTGGTGATTAACTCTGATCTAGGTTTCTTTTAGCTGTGTGCTCGTTTTTTT
TTTTTTTTGGTTGTTGGAATTTATATTGATGGTTAAAGCGTAGTTGGTAATTGGAGTGATTTCTGATCTCTGATTATTGTATTTGTGGCTTTTGTTTCCC
GTAGCGGTGGTGATCTAGAAAATGGGAGATGGGACTGAGTTTGTGGTTAGGTCAGATAGGGAAGATAAGAAGCTTGCTGAGGATAGAATTAGTGATGAGC
AAGTAGTGAAGAATGAGTTGGTGAGATCTGATGAAGTAAGGGATGATAACGAGGACGAGGTTTTTGAGGAAGCGATTGGTTCAGAGAATGATGAGCAGGA
GGAGGAGGAGGATCCAAAACGTGAATTGTTTGAATCTGATGATTTGCCTTTAGTGGAAACTCTTAAAAGTTCTATGGTTGAGCATGAAGTGGAGGATTTT
GAAGAGGCAGTGGGTGATTTGGATGAAACGAGTAGCAATGAAGGGGGTGTTAAAGATTTTACGGCTGTTGGAGAGAGCCATGGTGCGGGAGAGGCTGAAT
TTGATGTTTTGGCTACTAAAATGAATGGTGATAAGGGGGAAGGAGGTGGAGGTGGTTCTTATGATAAAGTTGAATCGAGCTTGGATGTTGTTGATACCAC
TGAGAATGCTACATCAACTAATACTAATGGTTCCAATTTAGCAGCTGAGCATGTGGGTATTGAAAACGGAAAGACTCATTCTTTTTTGGGAAATGGAATC
GCCTCTCCTAAAAATAAAGAAGTGGTGGCTGAAGTTATCCCTAAAGATGATGGGATTGAGGAACCATGGAATGATGGCATTGAAGTCGATAATTGGGAGG
AAAGAGTTGATGGCATACAGACAGAACAAGAGGTTGAGGAAGGTGAAGGAACAACTGAAAATCAATTTGAGAAACGGACAGAAGAAGAGGTTGTAGAAGG
TGAAGGAACAAGTAAGAATCTATTTGAGAAACAGACAGAACAAGATGTTGTGGAAGGTGAAGGAACAAGTAAGGATCTATTTGAGAATGGTTCAGTATGT
ATGGACAGTGAGTCCGAGGCAGAAAGAAATGGTGAGACTGGTGCCGCCTACACAAGTAATATCGTTACTAATGCTTCAGGTGACAATGAAGTATCAAGTG
CTGTGACTTCATCTCCATTGGAGGAATCTAGTTCCGGGGAAAAGGGAGAGACTGAAGGGGACAGTACTTGTTTAAAACCAGAGCAACACTTGGCTTCTTC
GCCGCACTCATATCCTGAGTCAACTGAAGTTCACAGCAATAGTGGCTCCCCTGGGGTAACTAGTAGAGAACACAAACCAGTTCAAAGTGCTAATGGAGGA
CATGATGTTCAGAGTCCTCAACCAAATAAGGAGCTTGAGAAGCAGCAAAGCAGCAGAGTACATGTAGATCCAGAGATTACAGAAAATTCACATGTGGAAA
CAGAACCTGAGGTAGTAAGTTCTGTTTCACCAACAGAGTCTAGAAGTAATCCTGCGGCATTACCACCTGCTCGTCCAGCAGGTCTTGGTCGTGCTTCTCC
TCTTTTGGAACCTGCATCACGTGCTCCTCAACAGTCTCGCGTCAATGGGAATGGGTCTCACAATCAGTTTCAGCAAGCTGAAGACTCTACCACTACAGAG
GCTGATGAGCATGATGAGACCCGCGAGAAGCTCCAGTTGATCAGGGTAAAATTTTTGAGGCTTGCACATAGACTAGGGCAAACCCCGCATAATGTTGTTG
TTGCTCAGGTTTTATACAGGCTTGGATTGGCTGAGCAGTTGAGGGGCAGAAATGGAAGCCGTGTTGGTGCTTTTAGTTTTGATCGCGCTAGTGCCATGGC
AGAACAGCTTGAGGCTGCTGGACAGGATCCACTTGATTTTTCTTGTACGATTATGGTTCTCGGAAAAAGTGGGGTTGGTAAAAGTGCAACGATCAATTCT
ATATTTGATGAAGTGAAATTTTGTACTGATGCATTCCAGATGGGGACAAAGAGGGTTCAAGATGTTGAGGGTTTGGTTCAGGGAATTAAGGTACGGGTGA
TTGACACTCCCGGTCTCTTACCTTCCTGGTCTGATCAAGCCAAGAATGAGAAGATCCTGAATTCTGTTAAGGCTTTCATCAAGAAGAATCCACCTGACAT
TGTACTATATCTTGATAGGTTGGATATGCAAAGCAGAGATTCTGGTGACATGCCTCTCCTGCGCACCATAAGTGATGTTTTTGGTCCTTCGATATGGTTT
AATGCCATTGTGGGTTTGACTCATGCCGCTTCTGTTCCACCAGATGGCCCAAATGGCACTGCTTCTAGCTATGATATGTTTGTTACACAACGTTCTCATG
TCATCCAGCAGGCCATTCGCCAAGCAGCTGGAGATATGAGGCTCATGAACCCTGTTTCTTTAGTTGAGAATCACTCAGCTTGCAGGACTAATCGGGCAGG
CCAGAGAGTATTACCGAATGGCCAAGTGTGGAAGCCACATTTGTTGCTACTCTCATTTGCATCTAAGATTCTAGCAGAAGCAAATGCTCTTTTGAAGTTG
CAAGATAATATTCCAGGGAGACCATTTGCAGCTCGGTCCAAGGCTCCGCCATTACCATTTCTCCTTTCATCGCTTCTGCAATCAAGACCACAACCTAAGC
TTCCTGAACAGCAGTATGGTGATGAAGAAGATGAAGATGATTTAGAAGAATCATCAGATTCAGACGAAGAATCAGAGTATGATCAGCTTCCTCCGTTTAA
GAGTTTGACTAAAGCTCAGATGGCTACGCTTAGTAAATCTCAGAAGAAGCAGTATCTCGATGAAATGGAGTACCGAGAGAAACTTTTAATGAAGAAGCAA
ATGAAAGAGGAAAGAAAGAGACGTAAGATGTTTAAGAAATTTGCTGCAGAGATTAAAGATTTGCCTGATGGGTATAGTGAAAATGTGGAAGAGGAGAGTG
GTGGACCTGCATCAGTTCCAGTTCCTATGCCAGATTTATCTCTACCTGCGTCTTTTGACTCTGATAACCCTACTCACCGCTACCGGTACCTTGATTCCTC
CAATCAGTGGCTTGTTAGGCCAGTCCTGGAAACTCATGGGTGGGATCATGATATTGGTTATGAAGGTGTGAATGCAGAACGGCTCTTTGTTGTAAAAGAA
AAAATACCAATATCTGTCTCAGGTCAAGTGACAAAAGACAAGAAGGATGCAAATGTGCAGCTAGAAATGGCCAGCTCGGTTAAACATGGAGAGGGTAAAT
CAACTTCCCTAGGTTTCGACATGCAAACTGTTGGAAAGGAATTGGCTTATACTCTTCGAAGCGAAACGAGATTTAACAATTTCAGGAGAAACAAGGCTGC
AGCTGGTCTTTCTGTAACACACTTGGGTGATTCGGTTTCTGCGGGGTTGAAAGTCGAAGATAAGTTTATTGCTAGTAAATGGTTCAGAATCGTAATGTCT
GGTGGAGCTATGACTAGTCGGGGAGATTTTGCTTATGGTGGTACTTTGGAAGCTCAGTTGAGAGATAAAGATTATCCGCTTGGTCGGTTTTTGACTACTC
TTGGACTTTCTGTAATGGATTGGCACGGTGATCTTGCTATTGGAGGGAACATACAGTCTCAGGTTCCCATTGGACGTTCCTCTAATTTAATTGCTCGTGC
TAATCTGAACAATAGAGGAGCAGGGCAAGTAAGTGTTCGTGTTAACAGCTCCGAGCAGCTCCAACTTGCTATGGTTGCGATTGTTCCTCTCTTCAAGAAG
CTACTTAGTTATTATTACCCGCAAACGCAATATGGACAATGATTAAGAAACATTTAGGCTGATTTCACTTCCATCCCTTTGCACTGGAGTATTAGGAATC
GATTAGTCACAAGAACATGTTAGAGTGAGTTGAAAAGGTACACAATCTGATCTCTATATCTTACTGTGATTACTGATTTCGATATTTTCGTTTTCTTGGA
AACCCTCTTAATGGATTTTGCTGAGCGTTGATGTGCTTTGGTTTTGAACAGGATCTGTCTGGTAGCAAGAGACCAATTGTTGGAGGAAAGTTTGTGTCTT
GAAATAGCCAGAACATAACACGTTCCTTGTCTGATATATAATAGCTCAGTGGTTTGTTTTTCTTCTATTTCTAAGACCTTGTGATCTCCCTTATGAATGA
AGCATATCTACTTTTGTTC
AT2G16640.1 Coding Sequence (CDS) 3618 bases
ATGGGAGATGGGACTGAGTTTGTGGTTAGGTCAGATAGGGAAGATAAGAAGCTTGCTGAGGATAGAATTAGTGATGAGCAAGTAGTGAAGAATGAGTTGG
TGAGATCTGATGAAGTAAGGGATGATAACGAGGACGAGGTTTTTGAGGAAGCGATTGGTTCAGAGAATGATGAGCAGGAGGAGGAGGAGGATCCAAAACG
TGAATTGTTTGAATCTGATGATTTGCCTTTAGTGGAAACTCTTAAAAGTTCTATGGTTGAGCATGAAGTGGAGGATTTTGAAGAGGCAGTGGGTGATTTG
GATGAAACGAGTAGCAATGAAGGGGGTGTTAAAGATTTTACGGCTGTTGGAGAGAGCCATGGTGCGGGAGAGGCTGAATTTGATGTTTTGGCTACTAAAA
TGAATGGTGATAAGGGGGAAGGAGGTGGAGGTGGTTCTTATGATAAAGTTGAATCGAGCTTGGATGTTGTTGATACCACTGAGAATGCTACATCAACTAA
TACTAATGGTTCCAATTTAGCAGCTGAGCATGTGGGTATTGAAAACGGAAAGACTCATTCTTTTTTGGGAAATGGAATCGCCTCTCCTAAAAATAAAGAA
GTGGTGGCTGAAGTTATCCCTAAAGATGATGGGATTGAGGAACCATGGAATGATGGCATTGAAGTCGATAATTGGGAGGAAAGAGTTGATGGCATACAGA
CAGAACAAGAGGTTGAGGAAGGTGAAGGAACAACTGAAAATCAATTTGAGAAACGGACAGAAGAAGAGGTTGTAGAAGGTGAAGGAACAAGTAAGAATCT
ATTTGAGAAACAGACAGAACAAGATGTTGTGGAAGGTGAAGGAACAAGTAAGGATCTATTTGAGAATGGTTCAGTATGTATGGACAGTGAGTCCGAGGCA
GAAAGAAATGGTGAGACTGGTGCCGCCTACACAAGTAATATCGTTACTAATGCTTCAGGTGACAATGAAGTATCAAGTGCTGTGACTTCATCTCCATTGG
AGGAATCTAGTTCCGGGGAAAAGGGAGAGACTGAAGGGGACAGTACTTGTTTAAAACCAGAGCAACACTTGGCTTCTTCGCCGCACTCATATCCTGAGTC
AACTGAAGTTCACAGCAATAGTGGCTCCCCTGGGGTAACTAGTAGAGAACACAAACCAGTTCAAAGTGCTAATGGAGGACATGATGTTCAGAGTCCTCAA
CCAAATAAGGAGCTTGAGAAGCAGCAAAGCAGCAGAGTACATGTAGATCCAGAGATTACAGAAAATTCACATGTGGAAACAGAACCTGAGGTAGTAAGTT
CTGTTTCACCAACAGAGTCTAGAAGTAATCCTGCGGCATTACCACCTGCTCGTCCAGCAGGTCTTGGTCGTGCTTCTCCTCTTTTGGAACCTGCATCACG
TGCTCCTCAACAGTCTCGCGTCAATGGGAATGGGTCTCACAATCAGTTTCAGCAAGCTGAAGACTCTACCACTACAGAGGCTGATGAGCATGATGAGACC
CGCGAGAAGCTCCAGTTGATCAGGGTAAAATTTTTGAGGCTTGCACATAGACTAGGGCAAACCCCGCATAATGTTGTTGTTGCTCAGGTTTTATACAGGC
TTGGATTGGCTGAGCAGTTGAGGGGCAGAAATGGAAGCCGTGTTGGTGCTTTTAGTTTTGATCGCGCTAGTGCCATGGCAGAACAGCTTGAGGCTGCTGG
ACAGGATCCACTTGATTTTTCTTGTACGATTATGGTTCTCGGAAAAAGTGGGGTTGGTAAAAGTGCAACGATCAATTCTATATTTGATGAAGTGAAATTT
TGTACTGATGCATTCCAGATGGGGACAAAGAGGGTTCAAGATGTTGAGGGTTTGGTTCAGGGAATTAAGGTACGGGTGATTGACACTCCCGGTCTCTTAC
CTTCCTGGTCTGATCAAGCCAAGAATGAGAAGATCCTGAATTCTGTTAAGGCTTTCATCAAGAAGAATCCACCTGACATTGTACTATATCTTGATAGGTT
GGATATGCAAAGCAGAGATTCTGGTGACATGCCTCTCCTGCGCACCATAAGTGATGTTTTTGGTCCTTCGATATGGTTTAATGCCATTGTGGGTTTGACT
CATGCCGCTTCTGTTCCACCAGATGGCCCAAATGGCACTGCTTCTAGCTATGATATGTTTGTTACACAACGTTCTCATGTCATCCAGCAGGCCATTCGCC
AAGCAGCTGGAGATATGAGGCTCATGAACCCTGTTTCTTTAGTTGAGAATCACTCAGCTTGCAGGACTAATCGGGCAGGCCAGAGAGTATTACCGAATGG
CCAAGTGTGGAAGCCACATTTGTTGCTACTCTCATTTGCATCTAAGATTCTAGCAGAAGCAAATGCTCTTTTGAAGTTGCAAGATAATATTCCAGGGAGA
CCATTTGCAGCTCGGTCCAAGGCTCCGCCATTACCATTTCTCCTTTCATCGCTTCTGCAATCAAGACCACAACCTAAGCTTCCTGAACAGCAGTATGGTG
ATGAAGAAGATGAAGATGATTTAGAAGAATCATCAGATTCAGACGAAGAATCAGAGTATGATCAGCTTCCTCCGTTTAAGAGTTTGACTAAAGCTCAGAT
GGCTACGCTTAGTAAATCTCAGAAGAAGCAGTATCTCGATGAAATGGAGTACCGAGAGAAACTTTTAATGAAGAAGCAAATGAAAGAGGAAAGAAAGAGA
CGTAAGATGTTTAAGAAATTTGCTGCAGAGATTAAAGATTTGCCTGATGGGTATAGTGAAAATGTGGAAGAGGAGAGTGGTGGACCTGCATCAGTTCCAG
TTCCTATGCCAGATTTATCTCTACCTGCGTCTTTTGACTCTGATAACCCTACTCACCGCTACCGGTACCTTGATTCCTCCAATCAGTGGCTTGTTAGGCC
AGTCCTGGAAACTCATGGGTGGGATCATGATATTGGTTATGAAGGTGTGAATGCAGAACGGCTCTTTGTTGTAAAAGAAAAAATACCAATATCTGTCTCA
GGTCAAGTGACAAAAGACAAGAAGGATGCAAATGTGCAGCTAGAAATGGCCAGCTCGGTTAAACATGGAGAGGGTAAATCAACTTCCCTAGGTTTCGACA
TGCAAACTGTTGGAAAGGAATTGGCTTATACTCTTCGAAGCGAAACGAGATTTAACAATTTCAGGAGAAACAAGGCTGCAGCTGGTCTTTCTGTAACACA
CTTGGGTGATTCGGTTTCTGCGGGGTTGAAAGTCGAAGATAAGTTTATTGCTAGTAAATGGTTCAGAATCGTAATGTCTGGTGGAGCTATGACTAGTCGG
GGAGATTTTGCTTATGGTGGTACTTTGGAAGCTCAGTTGAGAGATAAAGATTATCCGCTTGGTCGGTTTTTGACTACTCTTGGACTTTCTGTAATGGATT
GGCACGGTGATCTTGCTATTGGAGGGAACATACAGTCTCAGGTTCCCATTGGACGTTCCTCTAATTTAATTGCTCGTGCTAATCTGAACAATAGAGGAGC
AGGGCAAGTAAGTGTTCGTGTTAACAGCTCCGAGCAGCTCCAACTTGCTATGGTTGCGATTGTTCCTCTCTTCAAGAAGCTACTTAGTTATTATTACCCG
CAAACGCAATATGGACAATGA
AT2G16640.1 cDNA Sequence 3952 bases
ACCTTCTCTCTATTTCTCTCTCTCTCTCTCTCTCTCTATCTCTAACTTCTGCGGTGGTGATCTAGAAAATGGGAGATGGGACTGAGTTTGTGGTTAGGTC
AGATAGGGAAGATAAGAAGCTTGCTGAGGATAGAATTAGTGATGAGCAAGTAGTGAAGAATGAGTTGGTGAGATCTGATGAAGTAAGGGATGATAACGAG
GACGAGGTTTTTGAGGAAGCGATTGGTTCAGAGAATGATGAGCAGGAGGAGGAGGAGGATCCAAAACGTGAATTGTTTGAATCTGATGATTTGCCTTTAG
TGGAAACTCTTAAAAGTTCTATGGTTGAGCATGAAGTGGAGGATTTTGAAGAGGCAGTGGGTGATTTGGATGAAACGAGTAGCAATGAAGGGGGTGTTAA
AGATTTTACGGCTGTTGGAGAGAGCCATGGTGCGGGAGAGGCTGAATTTGATGTTTTGGCTACTAAAATGAATGGTGATAAGGGGGAAGGAGGTGGAGGT
GGTTCTTATGATAAAGTTGAATCGAGCTTGGATGTTGTTGATACCACTGAGAATGCTACATCAACTAATACTAATGGTTCCAATTTAGCAGCTGAGCATG
TGGGTATTGAAAACGGAAAGACTCATTCTTTTTTGGGAAATGGAATCGCCTCTCCTAAAAATAAAGAAGTGGTGGCTGAAGTTATCCCTAAAGATGATGG
GATTGAGGAACCATGGAATGATGGCATTGAAGTCGATAATTGGGAGGAAAGAGTTGATGGCATACAGACAGAACAAGAGGTTGAGGAAGGTGAAGGAACA
ACTGAAAATCAATTTGAGAAACGGACAGAAGAAGAGGTTGTAGAAGGTGAAGGAACAAGTAAGAATCTATTTGAGAAACAGACAGAACAAGATGTTGTGG
AAGGTGAAGGAACAAGTAAGGATCTATTTGAGAATGGTTCAGTATGTATGGACAGTGAGTCCGAGGCAGAAAGAAATGGTGAGACTGGTGCCGCCTACAC
AAGTAATATCGTTACTAATGCTTCAGGTGACAATGAAGTATCAAGTGCTGTGACTTCATCTCCATTGGAGGAATCTAGTTCCGGGGAAAAGGGAGAGACT
GAAGGGGACAGTACTTGTTTAAAACCAGAGCAACACTTGGCTTCTTCGCCGCACTCATATCCTGAGTCAACTGAAGTTCACAGCAATAGTGGCTCCCCTG
GGGTAACTAGTAGAGAACACAAACCAGTTCAAAGTGCTAATGGAGGACATGATGTTCAGAGTCCTCAACCAAATAAGGAGCTTGAGAAGCAGCAAAGCAG
CAGAGTACATGTAGATCCAGAGATTACAGAAAATTCACATGTGGAAACAGAACCTGAGGTAGTAAGTTCTGTTTCACCAACAGAGTCTAGAAGTAATCCT
GCGGCATTACCACCTGCTCGTCCAGCAGGTCTTGGTCGTGCTTCTCCTCTTTTGGAACCTGCATCACGTGCTCCTCAACAGTCTCGCGTCAATGGGAATG
GGTCTCACAATCAGTTTCAGCAAGCTGAAGACTCTACCACTACAGAGGCTGATGAGCATGATGAGACCCGCGAGAAGCTCCAGTTGATCAGGGTAAAATT
TTTGAGGCTTGCACATAGACTAGGGCAAACCCCGCATAATGTTGTTGTTGCTCAGGTTTTATACAGGCTTGGATTGGCTGAGCAGTTGAGGGGCAGAAAT
GGAAGCCGTGTTGGTGCTTTTAGTTTTGATCGCGCTAGTGCCATGGCAGAACAGCTTGAGGCTGCTGGACAGGATCCACTTGATTTTTCTTGTACGATTA
TGGTTCTCGGAAAAAGTGGGGTTGGTAAAAGTGCAACGATCAATTCTATATTTGATGAAGTGAAATTTTGTACTGATGCATTCCAGATGGGGACAAAGAG
GGTTCAAGATGTTGAGGGTTTGGTTCAGGGAATTAAGGTACGGGTGATTGACACTCCCGGTCTCTTACCTTCCTGGTCTGATCAAGCCAAGAATGAGAAG
ATCCTGAATTCTGTTAAGGCTTTCATCAAGAAGAATCCACCTGACATTGTACTATATCTTGATAGGTTGGATATGCAAAGCAGAGATTCTGGTGACATGC
CTCTCCTGCGCACCATAAGTGATGTTTTTGGTCCTTCGATATGGTTTAATGCCATTGTGGGTTTGACTCATGCCGCTTCTGTTCCACCAGATGGCCCAAA
TGGCACTGCTTCTAGCTATGATATGTTTGTTACACAACGTTCTCATGTCATCCAGCAGGCCATTCGCCAAGCAGCTGGAGATATGAGGCTCATGAACCCT
GTTTCTTTAGTTGAGAATCACTCAGCTTGCAGGACTAATCGGGCAGGCCAGAGAGTATTACCGAATGGCCAAGTGTGGAAGCCACATTTGTTGCTACTCT
CATTTGCATCTAAGATTCTAGCAGAAGCAAATGCTCTTTTGAAGTTGCAAGATAATATTCCAGGGAGACCATTTGCAGCTCGGTCCAAGGCTCCGCCATT
ACCATTTCTCCTTTCATCGCTTCTGCAATCAAGACCACAACCTAAGCTTCCTGAACAGCAGTATGGTGATGAAGAAGATGAAGATGATTTAGAAGAATCA
TCAGATTCAGACGAAGAATCAGAGTATGATCAGCTTCCTCCGTTTAAGAGTTTGACTAAAGCTCAGATGGCTACGCTTAGTAAATCTCAGAAGAAGCAGT
ATCTCGATGAAATGGAGTACCGAGAGAAACTTTTAATGAAGAAGCAAATGAAAGAGGAAAGAAAGAGACGTAAGATGTTTAAGAAATTTGCTGCAGAGAT
TAAAGATTTGCCTGATGGGTATAGTGAAAATGTGGAAGAGGAGAGTGGTGGACCTGCATCAGTTCCAGTTCCTATGCCAGATTTATCTCTACCTGCGTCT
TTTGACTCTGATAACCCTACTCACCGCTACCGGTACCTTGATTCCTCCAATCAGTGGCTTGTTAGGCCAGTCCTGGAAACTCATGGGTGGGATCATGATA
TTGGTTATGAAGGTGTGAATGCAGAACGGCTCTTTGTTGTAAAAGAAAAAATACCAATATCTGTCTCAGGTCAAGTGACAAAAGACAAGAAGGATGCAAA
TGTGCAGCTAGAAATGGCCAGCTCGGTTAAACATGGAGAGGGTAAATCAACTTCCCTAGGTTTCGACATGCAAACTGTTGGAAAGGAATTGGCTTATACT
CTTCGAAGCGAAACGAGATTTAACAATTTCAGGAGAAACAAGGCTGCAGCTGGTCTTTCTGTAACACACTTGGGTGATTCGGTTTCTGCGGGGTTGAAAG
TCGAAGATAAGTTTATTGCTAGTAAATGGTTCAGAATCGTAATGTCTGGTGGAGCTATGACTAGTCGGGGAGATTTTGCTTATGGTGGTACTTTGGAAGC
TCAGTTGAGAGATAAAGATTATCCGCTTGGTCGGTTTTTGACTACTCTTGGACTTTCTGTAATGGATTGGCACGGTGATCTTGCTATTGGAGGGAACATA
CAGTCTCAGGTTCCCATTGGACGTTCCTCTAATTTAATTGCTCGTGCTAATCTGAACAATAGAGGAGCAGGGCAAGTAAGTGTTCGTGTTAACAGCTCCG
AGCAGCTCCAACTTGCTATGGTTGCGATTGTTCCTCTCTTCAAGAAGCTACTTAGTTATTATTACCCGCAAACGCAATATGGACAATGATTAAGAAACAT
TTAGGCTGATTTCACTTCCATCCCTTTGCACTGGAGTATTAGGAATCGATTAGTCACAAGAACATGTTAGAGTGAGTTGAAAAGGATCTGTCTGGTAGCA
AGAGACCAATTGTTGGAGGAAAGTTTGTGTCTTGAAATAGCCAGAACATAACACGTTCCTTGTCTGATATATAATAGCTCAGTGGTTTGTTTTTCTTCTA
TTTCTAAGACCTTGTGATCTCCCTTATGAATGAAGCATATCTACTTTTGTTC