USP36 ORF clone FXC00841

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Flexi ORF Clone FXC00841

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Clone info.

Species

human

Clone Name

pF1KSDA1453 Sequence (with vector) Restriction Map

Product ID

FXC00841

HaloTag Clone PID

FHC00841

ORF Sequence

DNA sequence (3363 bp)
Protein sequence (1121 aa)

Linker Type

Flexi_RBS type

more Linker info

Vector Type

pF1K Vector sequence

Restriction Map

Cloning Site

SgfI-PmeI

GenBank Accession

ORF sequence is derived from [AB384215]

Gene

KIAA1453

Symbol

USP36

Alias : DUB1

Description

ubiquitin specific peptidase 36

Original Clone ID

fh14729

Features of the cloned ORF sequence

Description

Length: 3363 bp
Restriction map A Restriction map B
Genomic Structure

Features of the protein sequence

Description

Length: 1121 aa
Result of homology search against CCDS protein database ( FASTA output, Multiple alignment) Entry Exp ID% symbol CCDS32755.1 6.3e-216 99.6 USP36 CCDS47535.1 1.3e-47 36.8 USP42 CCDS59460.1 3.3e-32 51.4 USP17L19 CCDS59459.1 3.3e-32 51.4 USP17L18 CCDS59463.1 3.3e-32 51.4 USP17L22 The numbers on the left and right sides of a black line in the graphical overview indicate the lengths (in amino acid residues) of the non-homologous N-terminal and C-terminal portions flanking the homologous region (indicated by the black line), respectively.
Result of motif / domain search (InterProScan and SOSUI) [ zoom out (x2) ]
Result of InterProScan Search method interpro_ID From To Entry Definition HMMPfam IPR001394 122 420 PF00443 Peptidase C19 ProfileScan IPR001394 122 424 PS50235 Peptidase C19
Result of homology search against disease genes in OMIM database(FASTA output, Multiple alignment) H_id H_len (aa) OMIM_No. ID (%) Q_ali/Q_len (%) XP_005257599 1123 612543 99.6 100.0 XP_005257600 1123 612543 99.6 100.0 NP_001308220 1123 612543 99.6 100.0 XP_016880389 1123 612543 99.6 100.0 XP_011523369 1124 612543 99.6 100.0 Inquiries or Suggestions ? Send a message to flexiclone AT kazusagt.com

ORF DNA

Cloned ORF Nucleotide sequence for pF1KSDA1453 Download

>KIAA1453  3363 bp
ATGCCAATAGTGGATAAGTTGAAGGAGGCCCTGAAACCCGGCCGCAAGGACTCGGCTGAT
GATGGAGAACTGGGGAAGCTTCTTGCCTCCTCTGCCAAGAAGGTCCTTTTACAGAAAATC
GAGTTCGAGCCAGCCAGCAAGAGCTTCTCCTACCAGCTGGAGGCCTTAAAGAGCAAATAT
GTGTTGCTCAACCCCAAAACAGAGGGAGCTAGTCGCCACAAGAGTGGAGATGACCCACCG
GCCAGGAGACAGGGCAGTGAGCACACGTATGAGAGCTGTGGTGACGGAGTCCCAGCCCCG
CAGAAAGTGCTTTTCCCCACGGAGCGACTGTCTCTGAGGTGGGAGCGGGTCTTCCGCGTG
GGCGCAGGACTCCACAACCTTGGCAACACCTGCTTTCTCAATGCCACCATCCAGTGCTTG
ACCTACACACCACCTCTAGCCAACTACCTGCTCTCCAAGGAGCATGCTCGCAGCTGCCAC
CAGGGAAGCTTCTGCATGCTGTGTGTCATGCAGAACCACATTGTCCAGGCCTTCGCCAAC
AGCGGCAACGCCATCAAGCCCGTCTCCTTCATCCGAGACCTGAAAAAGATCGCCCGACAC
TTCCGCTTTGGGAACCAGGAGGACGCGCATGAGTTCCTGCGGTACACCATCGACGCCATG
CAGAAAGCCTGCCTGAATGGCTGTGCCAAGTTGGATCGTCAAACGCAGGCTACTACCTTG
GTCCATCAAATTTTTGGAGGGTATCTCAGATCACGCGTGAAGTGCTCCGTGTGCAAGAGC
GTCTCGGACACCTACGACCCCTACTTGGACGTCGCGCTGGAGATCCGGCAAGCTGCGAAT
ATTGTGCGTGCTCTGGAACTTTTTGTGAAAGCAGATGTCCTGAGTGGAGAGAATGCCTAC
ATGTGTGCTAAATGCAAGAAGAAGGTTCCAGCCAGCAAGCGCTTCACCATCCACAGAACA
TCCAACGTCTTAACCCTTTCCCTCAAGCGTTTTGCCAACTTCAGCGGGGGGAAGATCACC
AAGGATGTAGGCTATCCGGAATTCCTCAACATACGTCCGTATATGTCCCAGAATAATGGT
GATCCTGTCATGTATGGACTCTATGCTGTCCTGGTGCACTCGGGCTACAGCTGCCATGCC
GGGCACTATTACTGCTACGTGAAGGCAAGCAATGGACAGTGGTACCAGATGAATGATTCC
TTGGTCCATTCCAGCAACGTCAAGGTGGTTCTGAACCAGCAGGCCTACGTGCTGTTCTAT
CTGCGAATTCCAGGCTCTAAGAAAAGTCCCGAGGGCCTCATCTCCAGGACAGGCTCCTCC
TCCCTTCCCGGCCGCCCGAGTGTGATTCCAGATCACTCCAAGAAGAACATCGGCAATGGG
ATTATTTCCTCCCCACTGACTGGAAAGCGACAAGACTCTGGGACGATGAAGAAGCCGCAC
ACCACTGAAGAGATTGGTGTGCCCATATCCAGGAATGGCTCCACCCTGGGCCTGAAGTCC
CAGAACGGCTGCATTCCTCCAAAGCTGCCCTCGGGGTCCCCTTCCCCCAAACTCTCCCAG
ACACCCACACACATGCCAACCATCCTAGACGACCCTGGAAAGAAGGTGAAGAAGCCAGCT
CCTCCACAGCACTTTTCCCCCAGAACTGCTCAGGGGCTGCCTGGGACCAGCAACTCGAAT
AGCAGCAGATCTGGGAGCCAAAGGCAGGGCTCCTGGGACAGCAGGGATGTTGTCCTCTCT
ACCTCACCTAAGCTCCTGGCTACAGCCACTGCCAACGGGCATGGGCTGAAGGGGAACGAC
GAGAGCGCTGGCCTCGACAGGAGGGGCTCCAGCAGCTCCAGCCCAGAGCACTCGGCCAGC
AGCGACTCCACCAAGGCCCCCCAGACCCCCAGGAGTGGAGCGGCCCATCTCTGCGATTCT
CAGGAAACGAACTGTTCCACCGCTGGCCACTCCAAAACGCCGCCAAGTGGAGCAGATTCT
AAGACGGTGAAGCTGAAGTCCCCTGTCCTGAGCAACACCACCACTGAGCCTGCAAGCACC
ATGTCTCCTCCACCAGCCAAAAAACTGGCCCTTTCTGCCAAGAAGGCCAGCACCCTGTGG
AGGGCGACCGGCAATGACCTCCGTCCACCTCCCCCCTCACCATCCTCCGACCTCACCCAC
CCCATGAAAACCTCTCACCCCGTCGTTGCCTCCACTTGGCCCGTCCATAGAGCCAGGGCT
GTGTCACCTGCTCCCCAATCATCCAGCCGCCTGCAACCCCCCTTCAGCCCCCACCCCACA
TTGCTGTCCAGTACCCCCAAGCCCCCAGGGACGTCAGAACCACGGAGCTGCTCCTCCATC
TCGACGGCGCTGCCTCAGGTCAACGAGGACCTTGTGTCCCTTCCACACCAGTTGCCAGAG
GCCAGTGAGCCCCCCCGGAGCCCCTCTGAGAAGAGGAAAAAGACCTTTGTGGGAGAGCCG
CAGAGGCTGGGCTCAGAGACGTGCCTCCCACAGCACATCAGGGAGGCCACTGCGGCTCCC
CACGGGAAGAGGAAGAGGAAGAAGAAGAAGCGCCCGGAGGACACAGCTGCCAGCGCCCTG
CAGGAGGGGCAGACACAGAGACAGCCTGGGAGCCCCATGTACAGGAGGGAGGGCCAGGCA
CAGCTGCCCGCTGTCAGACGGCAGGAAGATGGCACACAGCCACAGGTGAATGGCCAGCAG
GTGGGATGTGTTACGGACGGCCACCACGCGAGCAGCAGGAAGCGGAGGAGGAAAGGAGCA
GAAGGTCTTGGTGAAGAAGGCGGCCTGCACCAGGACCCACTTCGGCACAGCTGCTCTCCC
ATGGGTGATGGTGATCCAGAGGCCATGGAAGAGTCTCCAAGGAAAAAGAAAAAAAGAAAG
CAGGAGACACAGCGGGCAGTAGAAGAGGATGGGCATCTCAAATGCCCAAGGAGTGCCAAG
CCCCAAGATGCTGTTGTCCCCGAGTCCAGCAGCTGCGCACCATCCGCGAATGGCTGGTGT
CCTGGGGACCGCATGGGGCTGAGCCAGGCCCCTCCTGTGTCTTGGAATGGAGAGCGGGAG
TCTGATGTGGTCCAGGAACTGCTCAAATACTCATCTGATAAAGCTTACGGGAGAAAAGTT
CTGACCTGGGATGGCAAGATGTCGGCGGTCAGTCAGGATGCTATTGAAGACAGCAGACAG
GCCCGGACTGAGACCGTGGTTGATGACTGGGACGAAGAGTTTGACCGAGGGAAGGAAAAG
AAAATTAAAAAATTTAAGAGAGAGAAGAGGAGAAACTTCAACGCCTTCCAGAAACTTCAG
ACTCGACGGAACTTCTGGTCTGTGACTCACCCAGCAAAGGCTGCCAGCCTCAGCTATCGC
CGC

ORF Protein

Cloned ORF protein sequence for pF1KSDA1453 Download

>KIAA1453  1121 aa
MPIVDKLKEALKPGRKDSADDGELGKLLASSAKKVLLQKIEFEPASKSFSYQLEALKSKY
VLLNPKTEGASRHKSGDDPPARRQGSEHTYESCGDGVPAPQKVLFPTERLSLRWERVFRV
GAGLHNLGNTCFLNATIQCLTYTPPLANYLLSKEHARSCHQGSFCMLCVMQNHIVQAFAN
SGNAIKPVSFIRDLKKIARHFRFGNQEDAHEFLRYTIDAMQKACLNGCAKLDRQTQATTL
VHQIFGGYLRSRVKCSVCKSVSDTYDPYLDVALEIRQAANIVRALELFVKADVLSGENAY
MCAKCKKKVPASKRFTIHRTSNVLTLSLKRFANFSGGKITKDVGYPEFLNIRPYMSQNNG
DPVMYGLYAVLVHSGYSCHAGHYYCYVKASNGQWYQMNDSLVHSSNVKVVLNQQAYVLFY
LRIPGSKKSPEGLISRTGSSSLPGRPSVIPDHSKKNIGNGIISSPLTGKRQDSGTMKKPH
TTEEIGVPISRNGSTLGLKSQNGCIPPKLPSGSPSPKLSQTPTHMPTILDDPGKKVKKPA
PPQHFSPRTAQGLPGTSNSNSSRSGSQRQGSWDSRDVVLSTSPKLLATATANGHGLKGND
ESAGLDRRGSSSSSPEHSASSDSTKAPQTPRSGAAHLCDSQETNCSTAGHSKTPPSGADS
KTVKLKSPVLSNTTTEPASTMSPPPAKKLALSAKKASTLWRATGNDLRPPPPSPSSDLTH
PMKTSHPVVASTWPVHRARAVSPAPQSSSRLQPPFSPHPTLLSSTPKPPGTSEPRSCSSI
STALPQVNEDLVSLPHQLPEASEPPRSPSEKRKKTFVGEPQRLGSETCLPQHIREATAAP
HGKRKRKKKKRPEDTAASALQEGQTQRQPGSPMYRREGQAQLPAVRRQEDGTQPQVNGQQ
VGCVTDGHHASSRKRRRKGAEGLGEEGGLHQDPLRHSCSPMGDGDPEAMEESPRKKKKRK
QETQRAVEEDGHLKCPRSAKPQDAVVPESSSCAPSANGWCPGDRMGLSQAPPVSWNGERE
SDVVQELLKYSSDKAYGRKVLTWDGKMSAVSQDAIEDSRQARTETVVDDWDEEFDRGKEK
KIKKFKREKRRNFNAFQKLQTRRNFWSVTHPAKAASLSYRR

ORF+Vector

Nucleotide Sequence (with vector) for pF1KSDA1453 Download

>pF1KSDA1453  6500 bp
GGATCTCGATCCCGCGAAATTAATACGACTCACTATAGGGGAATTGTGAGCGGATAACAA
TTCCCCACTAGTAATAATTTTCTTTAACTTTAGTAAGGAGCGATCGCTTTCGAAGGAGAT
AGAACCATGCCAATAGTGGATAAGTTGAAGGAGGCCCTGAAACCCGGCCGCAAGGACTCG
GCTGATGATGGAGAACTGGGGAAGCTTCTTGCCTCCTCTGCCAAGAAGGTCCTTTTACAG
AAAATCGAGTTCGAGCCAGCCAGCAAGAGCTTCTCCTACCAGCTGGAGGCCTTAAAGAGC
AAATATGTGTTGCTCAACCCCAAAACAGAGGGAGCTAGTCGCCACAAGAGTGGAGATGAC
CCACCGGCCAGGAGACAGGGCAGTGAGCACACGTATGAGAGCTGTGGTGACGGAGTCCCA
GCCCCGCAGAAAGTGCTTTTCCCCACGGAGCGACTGTCTCTGAGGTGGGAGCGGGTCTTC
CGCGTGGGCGCAGGACTCCACAACCTTGGCAACACCTGCTTTCTCAATGCCACCATCCAG
TGCTTGACCTACACACCACCTCTAGCCAACTACCTGCTCTCCAAGGAGCATGCTCGCAGC
TGCCACCAGGGAAGCTTCTGCATGCTGTGTGTCATGCAGAACCACATTGTCCAGGCCTTC
GCCAACAGCGGCAACGCCATCAAGCCCGTCTCCTTCATCCGAGACCTGAAAAAGATCGCC
CGACACTTCCGCTTTGGGAACCAGGAGGACGCGCATGAGTTCCTGCGGTACACCATCGAC
GCCATGCAGAAAGCCTGCCTGAATGGCTGTGCCAAGTTGGATCGTCAAACGCAGGCTACT
ACCTTGGTCCATCAAATTTTTGGAGGGTATCTCAGATCACGCGTGAAGTGCTCCGTGTGC
AAGAGCGTCTCGGACACCTACGACCCCTACTTGGACGTCGCGCTGGAGATCCGGCAAGCT
GCGAATATTGTGCGTGCTCTGGAACTTTTTGTGAAAGCAGATGTCCTGAGTGGAGAGAAT
GCCTACATGTGTGCTAAATGCAAGAAGAAGGTTCCAGCCAGCAAGCGCTTCACCATCCAC
AGAACATCCAACGTCTTAACCCTTTCCCTCAAGCGTTTTGCCAACTTCAGCGGGGGGAAG
ATCACCAAGGATGTAGGCTATCCGGAATTCCTCAACATACGTCCGTATATGTCCCAGAAT
AATGGTGATCCTGTCATGTATGGACTCTATGCTGTCCTGGTGCACTCGGGCTACAGCTGC
CATGCCGGGCACTATTACTGCTACGTGAAGGCAAGCAATGGACAGTGGTACCAGATGAAT
GATTCCTTGGTCCATTCCAGCAACGTCAAGGTGGTTCTGAACCAGCAGGCCTACGTGCTG
TTCTATCTGCGAATTCCAGGCTCTAAGAAAAGTCCCGAGGGCCTCATCTCCAGGACAGGC
TCCTCCTCCCTTCCCGGCCGCCCGAGTGTGATTCCAGATCACTCCAAGAAGAACATCGGC
AATGGGATTATTTCCTCCCCACTGACTGGAAAGCGACAAGACTCTGGGACGATGAAGAAG
CCGCACACCACTGAAGAGATTGGTGTGCCCATATCCAGGAATGGCTCCACCCTGGGCCTG
AAGTCCCAGAACGGCTGCATTCCTCCAAAGCTGCCCTCGGGGTCCCCTTCCCCCAAACTC
TCCCAGACACCCACACACATGCCAACCATCCTAGACGACCCTGGAAAGAAGGTGAAGAAG
CCAGCTCCTCCACAGCACTTTTCCCCCAGAACTGCTCAGGGGCTGCCTGGGACCAGCAAC
TCGAATAGCAGCAGATCTGGGAGCCAAAGGCAGGGCTCCTGGGACAGCAGGGATGTTGTC
CTCTCTACCTCACCTAAGCTCCTGGCTACAGCCACTGCCAACGGGCATGGGCTGAAGGGG
AACGACGAGAGCGCTGGCCTCGACAGGAGGGGCTCCAGCAGCTCCAGCCCAGAGCACTCG
GCCAGCAGCGACTCCACCAAGGCCCCCCAGACCCCCAGGAGTGGAGCGGCCCATCTCTGC
GATTCTCAGGAAACGAACTGTTCCACCGCTGGCCACTCCAAAACGCCGCCAAGTGGAGCA
GATTCTAAGACGGTGAAGCTGAAGTCCCCTGTCCTGAGCAACACCACCACTGAGCCTGCA
AGCACCATGTCTCCTCCACCAGCCAAAAAACTGGCCCTTTCTGCCAAGAAGGCCAGCACC
CTGTGGAGGGCGACCGGCAATGACCTCCGTCCACCTCCCCCCTCACCATCCTCCGACCTC
ACCCACCCCATGAAAACCTCTCACCCCGTCGTTGCCTCCACTTGGCCCGTCCATAGAGCC
AGGGCTGTGTCACCTGCTCCCCAATCATCCAGCCGCCTGCAACCCCCCTTCAGCCCCCAC
CCCACATTGCTGTCCAGTACCCCCAAGCCCCCAGGGACGTCAGAACCACGGAGCTGCTCC
TCCATCTCGACGGCGCTGCCTCAGGTCAACGAGGACCTTGTGTCCCTTCCACACCAGTTG
CCAGAGGCCAGTGAGCCCCCCCGGAGCCCCTCTGAGAAGAGGAAAAAGACCTTTGTGGGA
GAGCCGCAGAGGCTGGGCTCAGAGACGTGCCTCCCACAGCACATCAGGGAGGCCACTGCG
GCTCCCCACGGGAAGAGGAAGAGGAAGAAGAAGAAGCGCCCGGAGGACACAGCTGCCAGC
GCCCTGCAGGAGGGGCAGACACAGAGACAGCCTGGGAGCCCCATGTACAGGAGGGAGGGC
CAGGCACAGCTGCCCGCTGTCAGACGGCAGGAAGATGGCACACAGCCACAGGTGAATGGC
CAGCAGGTGGGATGTGTTACGGACGGCCACCACGCGAGCAGCAGGAAGCGGAGGAGGAAA
GGAGCAGAAGGTCTTGGTGAAGAAGGCGGCCTGCACCAGGACCCACTTCGGCACAGCTGC
TCTCCCATGGGTGATGGTGATCCAGAGGCCATGGAAGAGTCTCCAAGGAAAAAGAAAAAA
AGAAAGCAGGAGACACAGCGGGCAGTAGAAGAGGATGGGCATCTCAAATGCCCAAGGAGT
GCCAAGCCCCAAGATGCTGTTGTCCCCGAGTCCAGCAGCTGCGCACCATCCGCGAATGGC
TGGTGTCCTGGGGACCGCATGGGGCTGAGCCAGGCCCCTCCTGTGTCTTGGAATGGAGAG
CGGGAGTCTGATGTGGTCCAGGAACTGCTCAAATACTCATCTGATAAAGCTTACGGGAGA
AAAGTTCTGACCTGGGATGGCAAGATGTCGGCGGTCAGTCAGGATGCTATTGAAGACAGC
AGACAGGCCCGGACTGAGACCGTGGTTGATGACTGGGACGAAGAGTTTGACCGAGGGAAG
GAAAAGAAAATTAAAAAATTTAAGAGAGAGAAGAGGAGAAACTTCAACGCCTTCCAGAAA
CTTCAGACTCGACGGAACTTCTGGTCTGTGACTCACCCAGCAAAGGCTGCCAGCCTCAGC
TATCGCCGCTACGTAGTTTAAACGAATTCGAGCTCGGTACCCGGGGATCCTCTAGAGTCG
ACCTGCAGGCATGCAAGCTGATCCGGCTGCTAACAAAGCCCGAAAGGAAGCTGAGTTGGC
TGCTGCCACCGCTGAGCAATAACTAGCATAACCCCTTGGGGCCTCTAAACGGGTCTTGAG
GGGTTTTTTGCTGAAAGGAGGAACTATATCCGGTTCGCTTGCTGTCCATAAAACCGCCCA
GTCTAGCTATCGCCATGTAAGCCCACTGCAAGCTACCTGCTTTCTCTTTGCGCTTGCGTT
TTCCCTTGTCCAGATAGCCCAGTAGCTGACATTCATCCGGGGTCAGCACCGTTTCTGCGG
ACTGGCTTTCTACGTGTTCCGCTTCCTTTAGCAGCCCTTGCGCCCTGAGTGCTTGCGGCA
GCGTGAGCTTCAAAAGAATTGCCAGCTGGGGCGCCCTCTGGTAAGGTTGGGAAGCCCTGC
AAAGTAAACTGGATGGCTTTCTTGCCGCCAAGGATCTGATGGCGCAGGGGATCAAGATCT
GATCAAGAGACAGGATGACGGTCGTTTCGCATGCTTGAACAAGATGGATTGCACGCAGGT
TCTCCGGCCGCTTGGGTGGAGAGGCTATTCGGCTATGACTGGGCACAACAGACAATCGGC
TGCTCTGATGCCGCCGTGTTCCGGCTGTCAGCGCAGGGGCGCCCGGTTCTTTTTGTCAAG
ACCGACCTGTCCGGTGCCCTGAATGAACTGCAGGACGAGGCAGCGCGGCTATCGTGGCTG
GCCACGACGGGCGTTCCTTGCGCAGCTGTGCTCGACGTTGTCACTGAAGCGGGAAGGGAC
TGGCTGCTATTGGGCGAAGTGCCGGGGCAGGATCTCCTGTCATCTCACCTTGCTCCTGCC
GAGAAAGTATCCATCATGGCTGATGCAATGCGGCGGCTGCATACGCTTGATCCGGCTACC
TGCCCATTCGACCACCAAGCGAAACATCGCATCGAGCGAGCACGCACTCGGATGGAAGCC
GGTCTTGTCGATCAGGATGATCTGGACGAAGAGCATCAGGGGCTCGCGCCAGCCGAACTG
TTCGCCAGGCTCAAGGCGCGTATGCCGGATGGTGAGGATCTCGTCGTGACTCATGGCGAT
GCCTGCTTGCCGAATATCATGGTGGAAAATGGCCGCTTTTCTGGATTCATCGACTGTGGC
CGGCTGGGTGTGGCGGACCGCTATCAGGACATAGCGTTGGCTACCCGTGATATTGCTGAA
GAGCTTGGCGGCGAATGGGCTGACCGCTTCCTCGTGCTTTACGGTATCGCCGCTCCCGAT
TCGCAGCGCATCGCCTTCTATCGCCTTCTTGACGAGTTCTTCTGAGCGGGACTCTGGGGT
TCGAAATGACCGACCAAGCGACGCCCAACCGGTATCAGCTCACTCAAAGGCGGTAATACG
GTTATCCACAGAATCAGGGGATAACGCAGGAAAGAACATGTGAGCAAAAGGCCAGCAAAA
GGCCAGGAACCGTAAAAAGGCCGCGTTGCTGGCGTTTTTCCATAGGCTCCGCCCCCCTGA
CGAGCATCACAAAAATCGACGCTCAAGTCAGAGGTGGCGAAACCCGACAGGACTATAAAG
ATACCAGGCGTTTCCCCCTGGAAGCTCCCTCGTGCGCTCTCCTGTTCCGACCCTGCCGCT
TACCGGATACCTGTCCGCCTTTCTCCCTTCGGGAAGCGTGGCGCTTTCTCATAGCTCACG
CTGTAGGTATCTCAGTTCGGTGTAGGTCGTTCGCTCCAAGCTGGGCTGTGTGCACGAACC
CCCCGTTCAGCCCGACCGCTGCGCCTTATCCGGTAACTATCGTCTTGAGTCCAACCCGGT
AAGACACGACTTATCGCCACTGGCAGCAGCCACTGGTAACAGGATTAGCAGAGCGAGGTA
TGTAGGCGGTGCTACAGAGTTCTTGAAGTGGTGGCCTAACTACGGCTACACTAGAAGGAC
AGTATTTGGTATCTGCGCTCTGCTGAAGCCAGTTACCTTCGGAAAAAGAGTTGGTAGCTC
TTGATCCGGCAAACAAACCACCGCTGGTAGCGGTGGTTTTTTTGTTTGCAAGCAGCAGAT
TACGCGCAGAAAAAAAGGATTTCAAGAAGATCCTTTGATCTTTTCTACGGGGTCTGACGC
TCAGTGGAACGAAAACTCACGTTAAGGGATTTTGGTCATGAGATTATCAAAAAGGATCTT
CACCTAGATCCTTTTATAGTCCGGAAATACAGGAACGCACGCTGGATGGCCCTTCGCTGG
GATGGTGAAACCATGAAAAATGGCAGCTTCAGTGGATTAAGTGGGGGTAATGTGGCCTGT
ACCCTCTGGTTGCATAGGTATTCATACGGTTAAAATTTATCAGGCGCGATTGCGGCAGTT
TTTCGGGTGGTTTGTTGCCATTTTTACCTGTCTGCTGCCGTGATCGCGCTGAACGCGTTT
TAGCGGTGCGTACAATTAAGGGATTATGGTAAATCCACTTACTGTCTGCCCTCGTAGCCA
TCGAGATAAACCGCAGTACTCCGGCCACGATGCGTCCGGCGTAGAGGATCGAGATCTTTT
CAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGG
CGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAG
CGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATAA
AACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTATCTGTTGTTTGTCGGTGAACG
CTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGATTTGAACGTTGCGAAGCAACGGCCCG
GAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATCAAATTAAGCAGAAGGCCA
TCCTGACGGATGGCCTTTTTGCGTTTCTACAAACTCTTTTGTTTATTTTTCTAAATACAT
TCAAATATGTATCCGCTCAT