CARMIL1 cDNA ORF clone, Manacus vitellinus(golden-collared manakin)

Gene
Clones
gRNAs

Summary

Gene Symbol	CARMIL1
Entrez Gene ID	103753902
Full Name	capping protein regulator and myosin 1 linker 1
Gene Type	protein-coding
Organism	Manacus vitellinus(golden-collared manakin)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018069977.1	XP_017925466.1	F-actin-uncapping protein LRRC16A

Pathways from BioSystems
Gene Ontology

The following CARMIL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CARMIL1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OMa201501	XM_018069977.1 Latest version!	Manacus vitellinus capping protein regulator and myosin 1 linker 1 (CARMIL1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

CARMIL1 ( XM_018069977.1 ) cDNA ORF clone, Manacus vitellinus(golden-collared manakin) -> XP_017925466.1 Manacus vitellinus capping protein regulator and myosin 1 linker 1 (CARMIL1), mRNA.

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CloneID	OMa201501
Clone ID Related Accession (Same CDS sequence)	XM_018069977.1
Accession Version	XM_018069977.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4452bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-07-28
Organism	Manacus vitellinus(golden-collared manakin)
Product	F-actin-uncapping protein LRRC16A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021939256.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Manacus vitellinus Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 4% of CDS bases ##RefSeq-Attributes-END##

ATGGCGTTAT CTCACAACAG GTGCCGAGGC AGCCGCCGTC CCTATGGAGA TAAGGTGGGG 
GAGCGAGGGA GAGACAGACG AGTTCTGGAC CAAAGTGGGG GCTGGGGAGC GAAACTTACT 
GAAGATGCCA AATTGGCTCT TCTAGATGAA CTCCTCTGTT TATCTCTCAA TTACATCAGT 
GTCAAAAGTG TCAGGGATGT TATTGGGAGG AAAATCAAAA TTTCTGTCAA GAAGAAAGTA 
AAACTGGAAA CCAAGGGAGA TAAAGTGGAT AACAAAATAT TGGTGTTGGC ATCATGTCGG 
GCATTTCTTT TAACATCCCG GATTCCCACC AAGTTAGAAC TAACTTTCAG CTACTTGGAA 
ATCCAGGGAG TAACTTCCAG TAAACCGGGT CAGTTGATTA TGGAAACTGA GAAATGCAGC 
ATCTCCATGA AGATGGCGTC TTCAGAGGAT GTGAATGAGG TGCTGGCACA CATTGGGACC 
TGCCTCAGGA AGATATTCCC TGGACTCTCA CCAGTGAGGA TTATGAAAAA AGTAACTCTG 
GAGCCTTCAG AAAGACTGGC TAATCTCCAG GCCCTGTGGG ACAGTCAGAC AGTGACAGAA 
CTCGGACCTT GTGGAGGCTT TTCGCAGATG TATGCTTGTG TTTGTGATTG GCTTGGATTT 
CCTTACAGAG AAGAAGTACA GTGGGATGTT GATACGATTT ACCTGACACA AGATACCAGA 
GAGTTGAATT TGCAAGACTT CAGCCACCTT GACCACAGAG ACTTAATACC TATAGTTGCT 
GCTCTGGAGT ATAATCAGTG GTTTACAAAG CTGTCCTCCA AGGATCTGAA ATTATCCACT 
GATGTCTGTG AGCAGATACT GCGAGTGGTG AGTAGGTCCA ATCGATTGGA AGAACTGGTA 
TTAGAGAATG CCGGGCTTAG AACAGATTTT GCACAGAAAC TAGCCAGTGC CCTAGCCCAT 
AATCCCAACT CAGGACTCCA CACGATCAAC CTTGCTAGCA ATCCACTTGA AGATAGAGGT 
GTGTCGTCTT TGAGCATCCA GTTCGCCAAA CTTCCAAAGG GACTGAAGCA TTTAAATTTA 
TCTAAAACCT CCTTGTCACC TAAAGGGGTG AATAGCCTTT CCCAGTCACT GAGTGCCAAC 
TCGCTGATCG CGAACACACT CGTCTATCTC GACCTCTCAG GGAACGTGCT CCGCGGTGAT 
GATCTCTCAA GCCTGTACAA TTTTTTGGCC CAGCCAAATG CCCTTGTTCA CCTGGATTTA 
TCCAACACGG AGTGCGCGCT AGATATGGTG TGTGGAGCCC TCCTTCGTGG ATGTCTTCAG 
CATCTAGCTG TCCTTAGCCT CTCTAGGACT CTGTTTTCTC ACAGAAAAGG AAAAGAAGTC 
CCTCCTTCCT TCAAACAGTT TTTCAGCAGC TCACTTGCTT TGATGCAGAT TAATCTTTCA 
GGAACTAAAC TCCCCCCTGA GCCTCTAAAA GCACTTTTAT TAGGCCTGGC TTGCAATCAC 
AATCTGAAGG AGGTGTCTTT AGACCTCAGT AGCTGTGAGC TTGGTCACTG TTTAAGATCT 
GGAGGTGCAC AAGTCTTGGA AGGATGCATA GCAGAAATAC ACAATATCAC CAGCCTAGAT 
ATTTCAGACA ATGGCCTAGA ATCTGACCTC TCAACCCTTG TAGTCTGGCT TAGTAAAAAC 
CGATCGATAA GACATTTGGC ATTAGGCAAA AACTTTAACA ACATGAAATC CAAAAATCTC 
ACTCCAGTAC TTGATAATTT AGTTCAGATG ATTCAAGACG AGGATTCACC TCTACAGTCA 
TTGTCCCTCG CAGATTCCAA GCTGAAGACT GAGGTCACCA TCATTATTAA TGCCTTGGGC 
AGCAATACTT CTCTTACAAA AGTGGATATT AGTGGGAATG CCATGGGAGA TATGGGAGCA 
AAGATGTTGG CAAAAGCCCT ACAGATAAAC ACCAAGCTCA GAACTGTAAT ATGGGACAAG 
AATAACATCA CTGCGCAGGG CTTCCAGGAC ATAGCTGTGG CACTGGAAAA GAATTATACA 
TTGAGATTCA TGCCTATACC GATGAACGAT GCCTCCCAAG CACTCAAAAC AAACCCTGAG 
AAAACAGAAG AGGCGCTGCA AAAGATAGAA AACTACTTGC TTCGTAATCA TGAGACCAGG 
AAGTACCTAC AGGAGCAAGC ATATCGGCTG CAGCAAGGCA TTGTCACCAG TACCACTCAG 
CAGATGATTG ACAGGATATG TGTAAAAGTG CAAGATCATC TCAACTCTTT AAGAAACTGT 
GGCGTGGATG CTGTACAGGA AGATGTCAAA TCTGCAGAAC GGCTTATGCG GGATGCTAAG 
AACTCCAAAA CACTCTTACC AAATCTGTAT CACCTTGGTG GAGCTTCTTG GGCAGGAGCA 
AATGGTTCAC TCTCCAATCC AATCCAAGAG ACACTTGAAT CCATGGCTGG AGAAGTCACA 
AGGGTAGTGG ATGAGCAACT TAAGACGCTC CTTGAGTCTA TGGTGGATGC AGCGGAAAAC 
CTTTGCCCAA ATGTAATGAA GAAAGCTCAC ATCCGTGAAG ACCTGATTGA GGCTAGCACT 
GAGAAGATTT CCATTCCACG CACTTTTGTG AAAAATGTCC TCTTAGAGCA ATCTGGAATT 
GATATCCTCA ATAAAATTAG TGAAGTAAAG CTGACAGTGG CTTCTTTCCT GTCTGACCGA 
GTTGTAGATG AAATTCTGGA TGCACTTTCC CATTGCCATC ACAAACTGGC TGACCATTTG 
ACCAGACGTG GCAAACCACT TCCACAACAA GAGTCACTGG AGATTGAGTT AGCTGAAGAA 
AAACCAACTA AACGCTCTAT CATCACAGTT GAGGAGTTAA CAGAGATAGA ACGTTTGGAG 
GATCTGGACA CTTGTATGAC TCTCTGCTGT ACAAGTATGA CTCCTAAATC AAAAAGAAAA 
AGCATCCACA GTAGAATGCT CCGGCCGGTG TCCAGAGCTT TTGAAATGGA ATTTGATCTA 
GATAAAGCAC TGGAAGAAGT ACCTATCCAT ATAGAAGACC CACCATTTCC TTCCAGCAGG 
CCAGACAAAC GAACTTCTGG ATTCATTTCA GAGCTGCCAT CTGAAGAAGG GAGGAAACTG 
GAACACTTTA CAAAATTAAG GCCCAAAAGG AATAAAAAGC AGCAGCCCAG CCAAGCAGCA 
GTGCCTGCTG GAGTACCTCC AGAAGGGGAT CAGAATGGCC TCATGGGGAG AGTGGATGAA 
GGCGTGGATG AATTTTTCAC TAAGAAAGTG ACAAAAATGG ATTCAAAGAG ACCGTCAACT 
AAAACTTCAG ACAGCAGTGA GCCCAGTGAA GCAGGTGATG AGAAGAAGAA AAGGGACTCG 
AGAAAGAGTG GCTTCCTTAA CTTAATCAAA TCAAGAGGCT CCAAATCTGA ACGTCCCCCG 
ACTGTGACAG TGGCAGAGGA GCCCTCCTCG CCCAAGGTTG CTACAAGAAG TCCAGCTTTA 
GACACAAGCA AGAAGGAGGT AAAACCTGCA GAGCAGAACG GTGGTACAGA GCGATCTGAG 
GAATTAAAGA CACCAGACTC ACTGGAGGAG GTGCAGCCAG ATGATGTGGC AAAAGCTGAG 
AGGGGTGACA GCAAAGGAAG CCCCCAGGGC GGCCGGAGGT ATGGTGTGCA AGTGATGGGC 
AGTGGACTTC TCGCAGAAAT GAAAGCCAAG CAGGAGAAGA GAGCAGCTTC TGCTCAGAAG 
AAACTTGGGA ATGACACGAC TCCCAGAGAG TCTTTTGACA CAACAGTGAG CTCAGAACGA 
CTGGATGGAA GTGGTGCAGT GCCTAAACAG CAGCAGACCC TTCCAGAGAG TCGGTTTGCA 
TCGAATAAAG GTGACTCCCT TTCAACATCG TCAGAAAAAA ATTCAAAAAC TGAACCAAAG 
GCAGAAGCTG GCACAAAGGC AAGAAGTTCT TCCAACACAC CTACCAGCCC AAAACCCCCA 
CTGCAGTCAA CAAAGCCCAG CCTGGCAGGA CGACCCACAG TGCCACAGAA ACCACGCTCT 
GCCTCTCGTA CTGAGGAAGC TCCAGAGTCT CCCTCCGGCC CCAGTTCCCC AAAAGTTGCC 
CTGCTTCCAC CTGTGCTGAA GAAAGTTCCT TCTGATAAAG AAAAGGATGG TCAGAGCACC 
CCTTCAGTCA GATCATTTTC TCAAGAAGAA CAAACAGGAG ATTGTCAAAA AAGAGATGCA 
GCTCTTGACT GTGCCAAGCC ATCTGGCAGC GTGAAAACCA CTCCGGGGCA GTATTCTACC 
AGTGCAGAAG AGGAAGCTAA TGTGCTTGGG CAGAGGAAGG CGCAGCCAAC TTCTGCTGCA 
AAAAGAAGCC CTGGGCAGCA GTCTCACGAG TTCCAGGAAC TGAAGCAGAG GTCCTTAAGT 
AAAGACGGTC ATCAGGGAAG CAAGTCCAGT GACTCCGGCG AAGAAGCAGA TAAAGATTTT 
ATTTTCGTTT AG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_017925466.1
CDS	1..4452
Translation	MALSHNRCRGSRRPYGDKVGERGRDRRVLDQSGGWGAKLTEDAKLALLDELLCLSLNYISVKSVRDVIGRKIKISVKKKVKLETKGDKVDNKILVLASCRAFLLTSRIPTKLELTFSYLEIQGVTSSKPGQLIMETEKCSISMKMASSEDVNEVLAHIGTCLRKIFPGLSPVRIMKKVTLEPSERLANLQALWDSQTVTELGPCGGFSQMYACVCDWLGFPYREEVQWDVDTIYLTQDTRELNLQDFSHLDHRDLIPIVAALEYNQWFTKLSSKDLKLSTDVCEQILRVVSRSNRLEELVLENAGLRTDFAQKLASALAHNPNSGLHTINLASNPLEDRGVSSLSIQFAKLPKGLKHLNLSKTSLSPKGVNSLSQSLSANSLIANTLVYLDLSGNVLRGDDLSSLYNFLAQPNALVHLDLSNTECALDMVCGALLRGCLQHLAVLSLSRTLFSHRKGKEVPPSFKQFFSSSLALMQINLSGTKLPPEPLKALLLGLACNHNLKEVSLDLSSCELGHCLRSGGAQVLEGCIAEIHNITSLDISDNGLESDLSTLVVWLSKNRSIRHLALGKNFNNMKSKNLTPVLDNLVQMIQDEDSPLQSLSLADSKLKTEVTIIINALGSNTSLTKVDISGNAMGDMGAKMLAKALQINTKLRTVIWDKNNITAQGFQDIAVALEKNYTLRFMPIPMNDASQALKTNPEKTEEALQKIENYLLRNHETRKYLQEQAYRLQQGIVTSTTQQMIDRICVKVQDHLNSLRNCGVDAVQEDVKSAERLMRDAKNSKTLLPNLYHLGGASWAGANGSLSNPIQETLESMAGEVTRVVDEQLKTLLESMVDAAENLCPNVMKKAHIREDLIEASTEKISIPRTFVKNVLLEQSGIDILNKISEVKLTVASFLSDRVVDEILDALSHCHHKLADHLTRRGKPLPQQESLEIELAEEKPTKRSIITVEELTEIERLEDLDTCMTLCCTSMTPKSKRKSIHSRMLRPVSRAFEMEFDLDKALEEVPIHIEDPPFPSSRPDKRTSGFISELPSEEGRKLEHFTKLRPKRNKKQQPSQAAVPAGVPPEGDQNGLMGRVDEGVDEFFTKKVTKMDSKRPSTKTSDSSEPSEAGDEKKKRDSRKSGFLNLIKSRGSKSERPPTVTVAEEPSSPKVATRSPALDTSKKEVKPAEQNGGTERSEELKTPDSLEEVQPDDVAKAERGDSKGSPQGGRRYGVQVMGSGLLAEMKAKQEKRAASAQKKLGNDTTPRESFDTTVSSERLDGSGAVPKQQQTLPESRFASNKGDSLSTSSEKNSKTEPKAEAGTKARSSSNTPTSPKPPLQSTKPSLAGRPTVPQKPRSASRTEEAPESPSGPSSPKVALLPPVLKKVPSDKEKDGQSTPSVRSFSQEEQTGDCQKRDAALDCAKPSGSVKTTPGQYSTSAEEEANVLGQRKAQPTSAAKRSPGQQSHEFQELKQRSLSKDGHQGSKSSDSGEEADKDFIFV

Target ORF information:

RefSeq Version	XM_018069977.1
Organism	Manacus vitellinus(golden-collared manakin)
Definition	Manacus vitellinus capping protein regulator and myosin 1 linker 1 (CARMIL1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_018069977.1

ORF Insert Sequence:

ATGGCGTTAT CTCACAACAG GTGCCGAGGC AGCCGCCGTC CCTATGGAGA TAAGGTGGGG 
GAGCGAGGGA GAGACAGACG AGTTCTGGAC CAAAGTGGGG GCTGGGGAGC GAAACTTACT 
GAAGATGCCA AATTGGCTCT TCTAGATGAA CTCCTCTGTT TATCTCTCAA TTACATCAGT 
GTCAAAAGTG TCAGGGATGT TATTGGGAGG AAAATCAAAA TTTCTGTCAA GAAGAAAGTA 
AAACTGGAAA CCAAGGGAGA TAAAGTGGAT AACAAAATAT TGGTGTTGGC ATCATGTCGG 
GCATTTCTTT TAACATCCCG GATTCCCACC AAGTTAGAAC TAACTTTCAG CTACTTGGAA 
ATCCAGGGAG TAACTTCCAG TAAACCGGGT CAGTTGATTA TGGAAACTGA GAAATGCAGC 
ATCTCCATGA AGATGGCGTC TTCAGAGGAT GTGAATGAGG TGCTGGCACA CATTGGGACC 
TGCCTCAGGA AGATATTCCC TGGACTCTCA CCAGTGAGGA TTATGAAAAA AGTAACTCTG 
GAGCCTTCAG AAAGACTGGC TAATCTCCAG GCCCTGTGGG ACAGTCAGAC AGTGACAGAA 
CTCGGACCTT GTGGAGGCTT TTCGCAGATG TATGCTTGTG TTTGTGATTG GCTTGGATTT 
CCTTACAGAG AAGAAGTACA GTGGGATGTT GATACGATTT ACCTGACACA AGATACCAGA 
GAGTTGAATT TGCAAGACTT CAGCCACCTT GACCACAGAG ACTTAATACC TATAGTTGCT 
GCTCTGGAGT ATAATCAGTG GTTTACAAAG CTGTCCTCCA AGGATCTGAA ATTATCCACT 
GATGTCTGTG AGCAGATACT GCGAGTGGTG AGTAGGTCCA ATCGATTGGA AGAACTGGTA 
TTAGAGAATG CCGGGCTTAG AACAGATTTT GCACAGAAAC TAGCCAGTGC CCTAGCCCAT 
AATCCCAACT CAGGACTCCA CACGATCAAC CTTGCTAGCA ATCCACTTGA AGATAGAGGT 
GTGTCGTCTT TGAGCATCCA GTTCGCCAAA CTTCCAAAGG GACTGAAGCA TTTAAATTTA 
TCTAAAACCT CCTTGTCACC TAAAGGGGTG AATAGCCTTT CCCAGTCACT GAGTGCCAAC 
TCGCTGATCG CGAACACACT CGTCTATCTC GACCTCTCAG GGAACGTGCT CCGCGGTGAT 
GATCTCTCAA GCCTGTACAA TTTTTTGGCC CAGCCAAATG CCCTTGTTCA CCTGGATTTA 
TCCAACACGG AGTGCGCGCT AGATATGGTG TGTGGAGCCC TCCTTCGTGG ATGTCTTCAG 
CATCTAGCTG TCCTTAGCCT CTCTAGGACT CTGTTTTCTC ACAGAAAAGG AAAAGAAGTC 
CCTCCTTCCT TCAAACAGTT TTTCAGCAGC TCACTTGCTT TGATGCAGAT TAATCTTTCA 
GGAACTAAAC TCCCCCCTGA GCCTCTAAAA GCACTTTTAT TAGGCCTGGC TTGCAATCAC 
AATCTGAAGG AGGTGTCTTT AGACCTCAGT AGCTGTGAGC TTGGTCACTG TTTAAGATCT 
GGAGGTGCAC AAGTCTTGGA AGGATGCATA GCAGAAATAC ACAATATCAC CAGCCTAGAT 
ATTTCAGACA ATGGCCTAGA ATCTGACCTC TCAACCCTTG TAGTCTGGCT TAGTAAAAAC 
CGATCGATAA GACATTTGGC ATTAGGCAAA AACTTTAACA ACATGAAATC CAAAAATCTC 
ACTCCAGTAC TTGATAATTT AGTTCAGATG ATTCAAGACG AGGATTCACC TCTACAGTCA 
TTGTCCCTCG CAGATTCCAA GCTGAAGACT GAGGTCACCA TCATTATTAA TGCCTTGGGC 
AGCAATACTT CTCTTACAAA AGTGGATATT AGTGGGAATG CCATGGGAGA TATGGGAGCA 
AAGATGTTGG CAAAAGCCCT ACAGATAAAC ACCAAGCTCA GAACTGTAAT ATGGGACAAG 
AATAACATCA CTGCGCAGGG CTTCCAGGAC ATAGCTGTGG CACTGGAAAA GAATTATACA 
TTGAGATTCA TGCCTATACC GATGAACGAT GCCTCCCAAG CACTCAAAAC AAACCCTGAG 
AAAACAGAAG AGGCGCTGCA AAAGATAGAA AACTACTTGC TTCGTAATCA TGAGACCAGG 
AAGTACCTAC AGGAGCAAGC ATATCGGCTG CAGCAAGGCA TTGTCACCAG TACCACTCAG 
CAGATGATTG ACAGGATATG TGTAAAAGTG CAAGATCATC TCAACTCTTT AAGAAACTGT 
GGCGTGGATG CTGTACAGGA AGATGTCAAA TCTGCAGAAC GGCTTATGCG GGATGCTAAG 
AACTCCAAAA CACTCTTACC AAATCTGTAT CACCTTGGTG GAGCTTCTTG GGCAGGAGCA 
AATGGTTCAC TCTCCAATCC AATCCAAGAG ACACTTGAAT CCATGGCTGG AGAAGTCACA 
AGGGTAGTGG ATGAGCAACT TAAGACGCTC CTTGAGTCTA TGGTGGATGC AGCGGAAAAC 
CTTTGCCCAA ATGTAATGAA GAAAGCTCAC ATCCGTGAAG ACCTGATTGA GGCTAGCACT 
GAGAAGATTT CCATTCCACG CACTTTTGTG AAAAATGTCC TCTTAGAGCA ATCTGGAATT 
GATATCCTCA ATAAAATTAG TGAAGTAAAG CTGACAGTGG CTTCTTTCCT GTCTGACCGA 
GTTGTAGATG AAATTCTGGA TGCACTTTCC CATTGCCATC ACAAACTGGC TGACCATTTG 
ACCAGACGTG GCAAACCACT TCCACAACAA GAGTCACTGG AGATTGAGTT AGCTGAAGAA 
AAACCAACTA AACGCTCTAT CATCACAGTT GAGGAGTTAA CAGAGATAGA ACGTTTGGAG 
GATCTGGACA CTTGTATGAC TCTCTGCTGT ACAAGTATGA CTCCTAAATC AAAAAGAAAA 
AGCATCCACA GTAGAATGCT CCGGCCGGTG TCCAGAGCTT TTGAAATGGA ATTTGATCTA 
GATAAAGCAC TGGAAGAAGT ACCTATCCAT ATAGAAGACC CACCATTTCC TTCCAGCAGG 
CCAGACAAAC GAACTTCTGG ATTCATTTCA GAGCTGCCAT CTGAAGAAGG GAGGAAACTG 
GAACACTTTA CAAAATTAAG GCCCAAAAGG AATAAAAAGC AGCAGCCCAG CCAAGCAGCA 
GTGCCTGCTG GAGTACCTCC AGAAGGGGAT CAGAATGGCC TCATGGGGAG AGTGGATGAA 
GGCGTGGATG AATTTTTCAC TAAGAAAGTG ACAAAAATGG ATTCAAAGAG ACCGTCAACT 
AAAACTTCAG ACAGCAGTGA GCCCAGTGAA GCAGGTGATG AGAAGAAGAA AAGGGACTCG 
AGAAAGAGTG GCTTCCTTAA CTTAATCAAA TCAAGAGGCT CCAAATCTGA ACGTCCCCCG 
ACTGTGACAG TGGCAGAGGA GCCCTCCTCG CCCAAGGTTG CTACAAGAAG TCCAGCTTTA 
GACACAAGCA AGAAGGAGGT AAAACCTGCA GAGCAGAACG GTGGTACAGA GCGATCTGAG 
GAATTAAAGA CACCAGACTC ACTGGAGGAG GTGCAGCCAG ATGATGTGGC AAAAGCTGAG 
AGGGGTGACA GCAAAGGAAG CCCCCAGGGC GGCCGGAGGT ATGGTGTGCA AGTGATGGGC 
AGTGGACTTC TCGCAGAAAT GAAAGCCAAG CAGGAGAAGA GAGCAGCTTC TGCTCAGAAG 
AAACTTGGGA ATGACACGAC TCCCAGAGAG TCTTTTGACA CAACAGTGAG CTCAGAACGA 
CTGGATGGAA GTGGTGCAGT GCCTAAACAG CAGCAGACCC TTCCAGAGAG TCGGTTTGCA 
TCGAATAAAG GTGACTCCCT TTCAACATCG TCAGAAAAAA ATTCAAAAAC TGAACCAAAG 
GCAGAAGCTG GCACAAAGGC AAGAAGTTCT TCCAACACAC CTACCAGCCC AAAACCCCCA 
CTGCAGTCAA CAAAGCCCAG CCTGGCAGGA CGACCCACAG TGCCACAGAA ACCACGCTCT 
GCCTCTCGTA CTGAGGAAGC TCCAGAGTCT CCCTCCGGCC CCAGTTCCCC AAAAGTTGCC 
CTGCTTCCAC CTGTGCTGAA GAAAGTTCCT TCTGATAAAG AAAAGGATGG TCAGAGCACC 
CCTTCAGTCA GATCATTTTC TCAAGAAGAA CAAACAGGAG ATTGTCAAAA AAGAGATGCA 
GCTCTTGACT GTGCCAAGCC ATCTGGCAGC GTGAAAACCA CTCCGGGGCA GTATTCTACC 
AGTGCAGAAG AGGAAGCTAA TGTGCTTGGG CAGAGGAAGG CGCAGCCAAC TTCTGCTGCA 
AAAAGAAGCC CTGGGCAGCA GTCTCACGAG TTCCAGGAAC TGAAGCAGAG GTCCTTAAGT 
AAAGACGGTC ATCAGGGAAG CAAGTCCAGT GACTCCGGCG AAGAAGCAGA TAAAGATTTT 
ATTTTCGTTT AG