GAPVD1 cDNA ORF clone, Chlamydotis macqueenii(Macqueen's bustard)

Gene
Clones
gRNAs

Summary

Gene Symbol	GAPVD1
Entrez Gene ID	104479297
Full Name	GTPase activating protein and VPS9 domains 1
Gene Type	protein-coding
Organism	Chlamydotis macqueenii(Macqueen's bustard)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010119903.1	XP_010118205.1	GTPase-activating protein and VPS9 domain-containing protein 1

Pathways from BioSystems
Gene Ontology

The following GAPVD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GAPVD1 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
OCh195922	XM_010119903.1 Latest version!	Chlamydotis macqueenii GTPase activating protein and VPS9 domains 1 (GAPVD1), 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)

GAPVD1 ( XM_010119903.1 ) cDNA ORF clone, Chlamydotis macqueenii(Macqueen's bustard) -> XP_010118205.1 Chlamydotis macqueenii GTPase activating protein and VPS9 domains 1 (GAPVD1), mRNA.

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CloneID	OCh195922
Clone ID Related Accession (Same CDS sequence)	XM_010119903.1
Accession Version	XM_010119903.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4365bp) 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	2014-11-06
Organism	Chlamydotis macqueenii(Macqueen's bustard)
Product	GTPase-activating protein and VPS9 domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010474705.1) 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 Version :: Chlamydotis macqueenii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGTGAAGC TGGATATACA CACGCTGGCT CATCACCTCA AGCAGGAGCG GCTGTATGTA 
AACTCAGAAA AGCAACTTAT TCAAAGGCTC AATGCAGATG TATTGAAGAC AGCTGAAAAG 
CTGTACCGCA CAGCATGGAT TTCCAAGCAG CAAAGGATTA ACTTGGACAG ACTGATCATA 
ACGAGATGTT GCCAGCATGC TAAAATCTTG GAGGACACAC AGTTTGTGGA TGGATATAAG 
CAGTTGGGAT TTCAGGAGAC TGCTTACGGA GAATTCCTAA ACAGATTGAG AGAGAACCCT 
AGGCTTATTG CATCCTGTCT GGTTGCTGGA GAGAAGCTCA ACCAGGACAA CACTCAGAGT 
GTCATTCACA CAGTCTTTAC CTCCATTTAT GGCAATTGCA TCATGCAGGA GGATGAGAGC 
TACCTCCTCC AGGTCCTCCG TTACTTGATT GAATTTGAAC TCAAGGAAAG CGACAACCCT 
AGGCGGCTGT TGAGACGAGG CACCTGTGCA TTCAGCATCT TATTCAAACT TTTCTCTGAA 
GGACTCTTTT CTGCAAAACT TTTTCTTACT GCAACTTTAC ATGAGCCAAT CATGCAGCTT 
CTGGTTGAAG ATGAAGACCA CCTGGAAACT GATCCAAACA AGTTAATTGA GAGATTCTCT 
CCAGTACAAC AGGAAAAGTT ATTTGGAGAG AAAGGCACAG AAAAGTTCAA GCAAAGAGTC 
CAAGAGATGG TTGACTCCAA TGAGGCCAAG CTGGTGACCT TGGTGAACAA ATTCATTGGC 
TATCTCAAAC AAAACACTTA CTGTTTTCCT CACAGCTTGA GATGGATTGT GTCACAAATG 
TACAAAACGC TCTCCTGCGT AGACAGGCTG GAGGTTGGGG AGGTCAGAGC AATGTGCACA 
GATCTTCTTC TAGCGTGTTT CATCTGTCCT GCAATTGTTA ACCCAGAACA GTATGGGATC 
ATTTCTGATG CTCCTATAAA TGAAGTGGCA CGATTTAATC TGATGCAGGT TGGAAGACTT 
CTGCAGCAAT TGGCAATGAC AGGTTCTGAA GAGGGAGATC CACGTATGAA GAGCAACCTT 
GCTAAATTTG ACAAAAGCTG TGTGGCTGCT TTCCTGGATG TAGTTATTGA TGGGCGTGCG 
GTTGAAACTC CTCCGATGTC TTCTGTTAAC CTTCTAGAGG GGCTGAGTAG AACAGTGGTT 
TACATGACAT ACAGCCAGCT AACTACTCTG GTTGGCTTTA TGCGGAATGT AATGTCAAGC 
GATCAACTTA AGGAAGATCG GATGGCTTTG GAAAACTTGC TGGCAAACCT ACCCCAGAAC 
AAACCAGGGA AAAGCAGCAG CCTTGAAATG ACTCCATATA ATACCCCACA ACTTTCTCCT 
GCAACTACTC CAGCTAACAA AAAAAATCGA TTACCAATAG CAACTCGTAG CAGAAGCAGA 
TCAAATATTC TAATGGATCA GCATGGAGAT CATGAAGGAT CCTCCCAGGA GACTATCCCA 
GAAGTTCAGC CGGAAGAAGT GCTGGTGATT TCTTTGGGGA CAGGTCCACA GATTACTCCA 
GGAATGATGT CAGAAAATGA GGTCTTAAAC ATGCAGCTTG CAGATGGCGG ACAAGGAGAT 
GTCCCTGTTG ATGAAAACAA ACTCCATGGT AAACCTGATA AAACCTTGCG CTTTTCCCTC 
TGCAGTGATA ATCTGGAAGG AATATCTGAA GGTCCTTCAA ATCGCTCCAA CTCTGTGTCA 
TCTCTGGATT TAGAAGGGGA GTCTGTGTCA GAGCTTGGCG CGGGCCCGTC TGGGAGCAAT 
GGCGTCGAGG CTCTGCAGCT GTTAGAGCAT GAACAAGCCA CAACTCAGGA TAATCTTGAT 
GACAAGCTCC GTAAATTTGA AATCCGTGAT ATGATGGGAT TGACTGATGA CAGAGATATA 
TCAGAAACGG TGAGCGAAAC TTGGAGTACA GATGTCTTGG GAAGTGACTT CGATCCAAAT 
ATTGATGAAG ATCGTTTGCA AGAAATAGCA GGTGCAGCTG CAGAGAACAT GCTAGGCAGC 
TTGCTGTGTC TGCCAGGCTC AGGATCCGTG TTGCTTGATC CCTGCACAGG TTCAACCATA 
TCAGAAACCA CAAGCGAGGC CTGGAGTGTG GAAGTATTAC CAAGTGATTC AGAGGCCCCG 
GACTTAAAAC AGGAGGAAAG ACTGCAAGAA CTGGAAAGCT GTTCTGGGCT GGGTAGCACG 
TCTGATGACA CAGATGTAAG GGAGGTCAGT TCTCGACCCA GTACACCAGG CCTCAGCGTT 
GTATCAGGTA TTAGTGCAAC ATCCGAAGAT ATTCCTAATA AGATTGAGGA TCTCAGGTCT 
GAATGTAGCT CTGACTTTGG GGGAAAAGAT TCTGTGACAA GTCCTGACAT GGATGAAACA 
GCCCACGGAG CCAGTCAGTT GACTTCTCCT CCTTCTCAGA CAGATTCTTT GCTTGCACTG 
TTTGACCCTC TGTCATCAAA TGAGGGTGTA TCAGCTGTAG TAAGGCCTAA AGTACACTAT 
GCAAGACCCT CTCATCCGCC ACCAGATCCA CCAATCTTGG AAGGAGCTAT GGGAGGTAAT 
GAAGCCCGAT TACCAAACTT TGGGTCTCAC AGTTTAATTC CAACTGATTT AGAAGCCTTC 
AAGCAGAGGC ATTCTTATCC AGAGAGGCTA GTCCGCAGTA GGAGTTCAGA TATAGTATCA 
TCGGTTCGGA GACCTATGAG TGATCCTGGG TGGAACAGAC GTCCTGGTAA TGAGGAGAGA 
GAGCTTCCTA TGCCAACCAC CAGCACTGGG GCAGCTGTTT TGGTGGCTGC ATCTCAGTCG 
TCATCTTCGT CTCCCAGTAA AGACTCCTCT AGAGGAGAGA TTGAAGAACG AAAAGACAGT 
GATGATGAGA AGTCTGACAG AAACAGGCCC TGGTGGAGGA AACGTTTTGT GTCTGCCATG 
CCCAAAGCTC CTATTCCATT TAGAAAGAAA GAAAAACAAG AAAAAGACAA AGACGACATG 
GTGCCTGACA GATATTCAAC GCTTCAAGAT GATCCCAGCC CGAGGCTCAG TGCACAGGCA 
CAAGCTGCAG AGGACATTCT GGACAAATAC AGGAATGCAA TTAAGCGAAC CAGTCCTAGT 
GAAGGAGCCA TAGTAAACTA TGATGGTGCA GAGACTATTG GGGATGGTGA GAGTATGCAT 
GACTCTCCAC GAGAAGAGGC TTTGCAGAAC ATGTCTGCAG ATGATCTCCC AGACTCGGCA 
AGTCAAGTAG CACAGCCGCA AAGTTCTGCT TTCTCCTATA GGGATGCGAA GAAGAAATTG 
AGATTGGCTC TTTGTTCAGC AGATTCTGTT GCCTTCCCCA TGTTGACACA TTCAACAAGG 
AACGGTCTAC CAGATCACAC AGACCCTGAA GATAATGAAA TTGTGTGCTT CTTGAAAGTT 
CAGCTAGCTG AAGCTATTAA CCTCCAAGAC AAGAACTTGA TGGCCCAGCT GCAAGAGACA 
ATGCGATGTG TAAGCCGCTT TGATAACAGG ACCTGTCGAA AGCTGCTGGC ATCTATTGCG 
GAGGACTACA GGAAAAGAGC TCCATATATT GCTTATTTAA CTCGATGTCG CCAAGGCCTA 
CAAACAACAC AAGCGCACTT GGAAAGGCTG TTGCAAAGAG TTCTGCGAGA TAAAGAAGTG 
GCCAACAGAT ACTTCACTAC AGTTTGTGTG AGGTTACTGC TAGAGAGTAA AGAAAAGAAA 
ATAAGGGAGT TTATTCAAGA TTTCCAGAAA CTCACAGCAG CAGATGATAA AACAGCCCAA 
GTTGAGGATT TTCTTCAGTT CTTATATGGG GCTATGGCTC AGGATGCCAT ATGGCAGAAT 
GCCAGTGAAG AACAGCTTCA GGATGCACAA TTAGCTATAG AACGCAGTGT GATGAATCGT 
ATTTTCAAAC TTGCGTTCTA CCCTAATCAG GATGGAGATA TTTTGCGTGA CCAGGTCCTT 
CATGAGCACA TACAGAGGTT GTCTAAAGTA GTGACTGCAA ACCACAAAGC ACTTCAGATA 
CCTGAGGTAT ATCTCCGGGA GGCACCGTGG CCATCTGCAC AGTCTGAAAT CCGCACAATA 
AGTGCTTACA AAACCCCACG AGACAAAGTA CAGTGTATCC TCCGAATGTG TTCAACCATC 
ATGAACCTGC TTAGTCTGGC AAATGAAGAT TCGGTACCTG GGGCAGATGA TTTTGTTCCT 
GTTCTGGTTT TCGTCCTCAT AAAGGCAAAT CCACCCTGCT TGCTGTCCAC TGTTCAGTAC 
ATTAGCAGTT TCTATGCCAA CTGTTTATCT GGAGAAGAAT CGTACTGGTG GATGCAGTTC 
ACAGCAGCAG TCGAATTCAT TAAAACTATT GATGATCGCA AGTAA

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

RefSeq	XP_010118205.1
CDS	1..4365
Translation	MVKLDIHTLAHHLKQERLYVNSEKQLIQRLNADVLKTAEKLYRTAWISKQQRINLDRLIITRCCQHAKILEDTQFVDGYKQLGFQETAYGEFLNRLRENPRLIASCLVAGEKLNQDNTQSVIHTVFTSIYGNCIMQEDESYLLQVLRYLIEFELKESDNPRRLLRRGTCAFSILFKLFSEGLFSAKLFLTATLHEPIMQLLVEDEDHLETDPNKLIERFSPVQQEKLFGEKGTEKFKQRVQEMVDSNEAKLVTLVNKFIGYLKQNTYCFPHSLRWIVSQMYKTLSCVDRLEVGEVRAMCTDLLLACFICPAIVNPEQYGIISDAPINEVARFNLMQVGRLLQQLAMTGSEEGDPRMKSNLAKFDKSCVAAFLDVVIDGRAVETPPMSSVNLLEGLSRTVVYMTYSQLTTLVGFMRNVMSSDQLKEDRMALENLLANLPQNKPGKSSSLEMTPYNTPQLSPATTPANKKNRLPIATRSRSRSNILMDQHGDHEGSSQETIPEVQPEEVLVISLGTGPQITPGMMSENEVLNMQLADGGQGDVPVDENKLHGKPDKTLRFSLCSDNLEGISEGPSNRSNSVSSLDLEGESVSELGAGPSGSNGVEALQLLEHEQATTQDNLDDKLRKFEIRDMMGLTDDRDISETVSETWSTDVLGSDFDPNIDEDRLQEIAGAAAENMLGSLLCLPGSGSVLLDPCTGSTISETTSEAWSVEVLPSDSEAPDLKQEERLQELESCSGLGSTSDDTDVREVSSRPSTPGLSVVSGISATSEDIPNKIEDLRSECSSDFGGKDSVTSPDMDETAHGASQLTSPPSQTDSLLALFDPLSSNEGVSAVVRPKVHYARPSHPPPDPPILEGAMGGNEARLPNFGSHSLIPTDLEAFKQRHSYPERLVRSRSSDIVSSVRRPMSDPGWNRRPGNEERELPMPTTSTGAAVLVAASQSSSSSPSKDSSRGEIEERKDSDDEKSDRNRPWWRKRFVSAMPKAPIPFRKKEKQEKDKDDMVPDRYSTLQDDPSPRLSAQAQAAEDILDKYRNAIKRTSPSEGAIVNYDGAETIGDGESMHDSPREEALQNMSADDLPDSASQVAQPQSSAFSYRDAKKKLRLALCSADSVAFPMLTHSTRNGLPDHTDPEDNEIVCFLKVQLAEAINLQDKNLMAQLQETMRCVSRFDNRTCRKLLASIAEDYRKRAPYIAYLTRCRQGLQTTQAHLERLLQRVLRDKEVANRYFTTVCVRLLLESKEKKIREFIQDFQKLTAADDKTAQVEDFLQFLYGAMAQDAIWQNASEEQLQDAQLAIERSVMNRIFKLAFYPNQDGDILRDQVLHEHIQRLSKVVTANHKALQIPEVYLREAPWPSAQSEIRTISAYKTPRDKVQCILRMCSTIMNLLSLANEDSVPGADDFVPVLVFVLIKANPPCLLSTVQYISSFYANCLSGEESYWWMQFTAAVEFIKTIDDRK

Target ORF information:

RefSeq Version	XM_010119903.1
Organism	Chlamydotis macqueenii(Macqueen's bustard)
Definition	Chlamydotis macqueenii GTPase activating protein and VPS9 domains 1 (GAPVD1), mRNA.

Target ORF information:

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

XM_010119903.1

ORF Insert Sequence:

ATGGTGAAGC TGGATATACA CACGCTGGCT CATCACCTCA AGCAGGAGCG GCTGTATGTA 
AACTCAGAAA AGCAACTTAT TCAAAGGCTC AATGCAGATG TATTGAAGAC AGCTGAAAAG 
CTGTACCGCA CAGCATGGAT TTCCAAGCAG CAAAGGATTA ACTTGGACAG ACTGATCATA 
ACGAGATGTT GCCAGCATGC TAAAATCTTG GAGGACACAC AGTTTGTGGA TGGATATAAG 
CAGTTGGGAT TTCAGGAGAC TGCTTACGGA GAATTCCTAA ACAGATTGAG AGAGAACCCT 
AGGCTTATTG CATCCTGTCT GGTTGCTGGA GAGAAGCTCA ACCAGGACAA CACTCAGAGT 
GTCATTCACA CAGTCTTTAC CTCCATTTAT GGCAATTGCA TCATGCAGGA GGATGAGAGC 
TACCTCCTCC AGGTCCTCCG TTACTTGATT GAATTTGAAC TCAAGGAAAG CGACAACCCT 
AGGCGGCTGT TGAGACGAGG CACCTGTGCA TTCAGCATCT TATTCAAACT TTTCTCTGAA 
GGACTCTTTT CTGCAAAACT TTTTCTTACT GCAACTTTAC ATGAGCCAAT CATGCAGCTT 
CTGGTTGAAG ATGAAGACCA CCTGGAAACT GATCCAAACA AGTTAATTGA GAGATTCTCT 
CCAGTACAAC AGGAAAAGTT ATTTGGAGAG AAAGGCACAG AAAAGTTCAA GCAAAGAGTC 
CAAGAGATGG TTGACTCCAA TGAGGCCAAG CTGGTGACCT TGGTGAACAA ATTCATTGGC 
TATCTCAAAC AAAACACTTA CTGTTTTCCT CACAGCTTGA GATGGATTGT GTCACAAATG 
TACAAAACGC TCTCCTGCGT AGACAGGCTG GAGGTTGGGG AGGTCAGAGC AATGTGCACA 
GATCTTCTTC TAGCGTGTTT CATCTGTCCT GCAATTGTTA ACCCAGAACA GTATGGGATC 
ATTTCTGATG CTCCTATAAA TGAAGTGGCA CGATTTAATC TGATGCAGGT TGGAAGACTT 
CTGCAGCAAT TGGCAATGAC AGGTTCTGAA GAGGGAGATC CACGTATGAA GAGCAACCTT 
GCTAAATTTG ACAAAAGCTG TGTGGCTGCT TTCCTGGATG TAGTTATTGA TGGGCGTGCG 
GTTGAAACTC CTCCGATGTC TTCTGTTAAC CTTCTAGAGG GGCTGAGTAG AACAGTGGTT 
TACATGACAT ACAGCCAGCT AACTACTCTG GTTGGCTTTA TGCGGAATGT AATGTCAAGC 
GATCAACTTA AGGAAGATCG GATGGCTTTG GAAAACTTGC TGGCAAACCT ACCCCAGAAC 
AAACCAGGGA AAAGCAGCAG CCTTGAAATG ACTCCATATA ATACCCCACA ACTTTCTCCT 
GCAACTACTC CAGCTAACAA AAAAAATCGA TTACCAATAG CAACTCGTAG CAGAAGCAGA 
TCAAATATTC TAATGGATCA GCATGGAGAT CATGAAGGAT CCTCCCAGGA GACTATCCCA 
GAAGTTCAGC CGGAAGAAGT GCTGGTGATT TCTTTGGGGA CAGGTCCACA GATTACTCCA 
GGAATGATGT CAGAAAATGA GGTCTTAAAC ATGCAGCTTG CAGATGGCGG ACAAGGAGAT 
GTCCCTGTTG ATGAAAACAA ACTCCATGGT AAACCTGATA AAACCTTGCG CTTTTCCCTC 
TGCAGTGATA ATCTGGAAGG AATATCTGAA GGTCCTTCAA ATCGCTCCAA CTCTGTGTCA 
TCTCTGGATT TAGAAGGGGA GTCTGTGTCA GAGCTTGGCG CGGGCCCGTC TGGGAGCAAT 
GGCGTCGAGG CTCTGCAGCT GTTAGAGCAT GAACAAGCCA CAACTCAGGA TAATCTTGAT 
GACAAGCTCC GTAAATTTGA AATCCGTGAT ATGATGGGAT TGACTGATGA CAGAGATATA 
TCAGAAACGG TGAGCGAAAC TTGGAGTACA GATGTCTTGG GAAGTGACTT CGATCCAAAT 
ATTGATGAAG ATCGTTTGCA AGAAATAGCA GGTGCAGCTG CAGAGAACAT GCTAGGCAGC 
TTGCTGTGTC TGCCAGGCTC AGGATCCGTG TTGCTTGATC CCTGCACAGG TTCAACCATA 
TCAGAAACCA CAAGCGAGGC CTGGAGTGTG GAAGTATTAC CAAGTGATTC AGAGGCCCCG 
GACTTAAAAC AGGAGGAAAG ACTGCAAGAA CTGGAAAGCT GTTCTGGGCT GGGTAGCACG 
TCTGATGACA CAGATGTAAG GGAGGTCAGT TCTCGACCCA GTACACCAGG CCTCAGCGTT 
GTATCAGGTA TTAGTGCAAC ATCCGAAGAT ATTCCTAATA AGATTGAGGA TCTCAGGTCT 
GAATGTAGCT CTGACTTTGG GGGAAAAGAT TCTGTGACAA GTCCTGACAT GGATGAAACA 
GCCCACGGAG CCAGTCAGTT GACTTCTCCT CCTTCTCAGA CAGATTCTTT GCTTGCACTG 
TTTGACCCTC TGTCATCAAA TGAGGGTGTA TCAGCTGTAG TAAGGCCTAA AGTACACTAT 
GCAAGACCCT CTCATCCGCC ACCAGATCCA CCAATCTTGG AAGGAGCTAT GGGAGGTAAT 
GAAGCCCGAT TACCAAACTT TGGGTCTCAC AGTTTAATTC CAACTGATTT AGAAGCCTTC 
AAGCAGAGGC ATTCTTATCC AGAGAGGCTA GTCCGCAGTA GGAGTTCAGA TATAGTATCA 
TCGGTTCGGA GACCTATGAG TGATCCTGGG TGGAACAGAC GTCCTGGTAA TGAGGAGAGA 
GAGCTTCCTA TGCCAACCAC CAGCACTGGG GCAGCTGTTT TGGTGGCTGC ATCTCAGTCG 
TCATCTTCGT CTCCCAGTAA AGACTCCTCT AGAGGAGAGA TTGAAGAACG AAAAGACAGT 
GATGATGAGA AGTCTGACAG AAACAGGCCC TGGTGGAGGA AACGTTTTGT GTCTGCCATG 
CCCAAAGCTC CTATTCCATT TAGAAAGAAA GAAAAACAAG AAAAAGACAA AGACGACATG 
GTGCCTGACA GATATTCAAC GCTTCAAGAT GATCCCAGCC CGAGGCTCAG TGCACAGGCA 
CAAGCTGCAG AGGACATTCT GGACAAATAC AGGAATGCAA TTAAGCGAAC CAGTCCTAGT 
GAAGGAGCCA TAGTAAACTA TGATGGTGCA GAGACTATTG GGGATGGTGA GAGTATGCAT 
GACTCTCCAC GAGAAGAGGC TTTGCAGAAC ATGTCTGCAG ATGATCTCCC AGACTCGGCA 
AGTCAAGTAG CACAGCCGCA AAGTTCTGCT TTCTCCTATA GGGATGCGAA GAAGAAATTG 
AGATTGGCTC TTTGTTCAGC AGATTCTGTT GCCTTCCCCA TGTTGACACA TTCAACAAGG 
AACGGTCTAC CAGATCACAC AGACCCTGAA GATAATGAAA TTGTGTGCTT CTTGAAAGTT 
CAGCTAGCTG AAGCTATTAA CCTCCAAGAC AAGAACTTGA TGGCCCAGCT GCAAGAGACA 
ATGCGATGTG TAAGCCGCTT TGATAACAGG ACCTGTCGAA AGCTGCTGGC ATCTATTGCG 
GAGGACTACA GGAAAAGAGC TCCATATATT GCTTATTTAA CTCGATGTCG CCAAGGCCTA 
CAAACAACAC AAGCGCACTT GGAAAGGCTG TTGCAAAGAG TTCTGCGAGA TAAAGAAGTG 
GCCAACAGAT ACTTCACTAC AGTTTGTGTG AGGTTACTGC TAGAGAGTAA AGAAAAGAAA 
ATAAGGGAGT TTATTCAAGA TTTCCAGAAA CTCACAGCAG CAGATGATAA AACAGCCCAA 
GTTGAGGATT TTCTTCAGTT CTTATATGGG GCTATGGCTC AGGATGCCAT ATGGCAGAAT 
GCCAGTGAAG AACAGCTTCA GGATGCACAA TTAGCTATAG AACGCAGTGT GATGAATCGT 
ATTTTCAAAC TTGCGTTCTA CCCTAATCAG GATGGAGATA TTTTGCGTGA CCAGGTCCTT 
CATGAGCACA TACAGAGGTT GTCTAAAGTA GTGACTGCAA ACCACAAAGC ACTTCAGATA 
CCTGAGGTAT ATCTCCGGGA GGCACCGTGG CCATCTGCAC AGTCTGAAAT CCGCACAATA 
AGTGCTTACA AAACCCCACG AGACAAAGTA CAGTGTATCC TCCGAATGTG TTCAACCATC 
ATGAACCTGC TTAGTCTGGC AAATGAAGAT TCGGTACCTG GGGCAGATGA TTTTGTTCCT 
GTTCTGGTTT TCGTCCTCAT AAAGGCAAAT CCACCCTGCT TGCTGTCCAC TGTTCAGTAC 
ATTAGCAGTT TCTATGCCAA CTGTTTATCT GGAGAAGAAT CGTACTGGTG GATGCAGTTC 
ACAGCAGCAG TCGAATTCAT TAAAACTATT GATGATCGCA AGTAA