mrc1 cDNA ORF clone, Sinocyclocheilus grahami

Gene
Clones
gRNAs

Summary

Gene Symbol	mrc1
Entrez Gene ID	107584136
Full Name	mannose receptor C-type 1
Gene Type	protein-coding
Organism	Sinocyclocheilus grahami

mRNA and Protein(s)

mRNA	Protein	Name
XM_016270614.1	XP_016126100.1	macrophage mannose receptor 1

Pathways from BioSystems
Gene Ontology

The following mrc1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mrc1 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
OSi06778	XM_016270614.1 Latest version!	Sinocyclocheilus grahami mannose receptor, C type 1 (mrc1), 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)

mrc1 ( XM_016270614.1 ) cDNA ORF clone, Sinocyclocheilus grahami -> XP_016126100.1 Sinocyclocheilus grahami mannose receptor, C type 1 (mrc1), mRNA.

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CloneID	OSi06778
Clone ID Related Accession (Same CDS sequence)	XM_016270614.1
Accession Version	XM_016270614.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4335bp) 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	2016-04-18
Organism	Sinocyclocheilus grahami
Product	macrophage mannose receptor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015505184.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sinocyclocheilus grahami Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTTAG CAGCAGCACA AAATACATTT TGGATCAAGA TGAAAATAAT ATCAGTAGTG 
ATTCTTCTCG TATTATATCT AGCAAACTGC TTTGCACAGT CAGGAAACTT TCTAATATAT 
AATGTGGATT ATAACAAATG CATGACCAGC TCCCTGGAAC GGCTTGCCAC CTGTGACCCA 
TACAGTAACC CACTACAGTT TCGCTGGACT TCAAAGAATC GAATTTTGAA CACTTTCACA 
AAGAAATGCC TTGGAGTAGG AAGTAAAACA GTGGGCAAAA AACTGCAGTG GCTGATTTGT 
GAAGATGACA GTGTTCTGCA GAAGTGGGAA TGCCACCGTG ATACATTGCT GGGCCTAAAG 
AATGAGTCTC TGTACCTGGC TGTAAATGAT AATGGTGTGC CAGTGATCTC TAAAGACACT 
GGAGCGAAGA GCAAATGGAC AATTCATGGA ACATTATACG GCATTTGCTC TAAGCCTTAT 
GAAGAATTGT ACACCATTGG TGGGAATGCT TTTGGGCGCC CATGCCAATT TCCTTTTCTT 
TATGAGAAAA AATGGTATGC AGATTGTACC AAGGTTGATA CACAAAATCA GCGTCTATGG 
TGTTCCGTTG AGACAGACTA CAGTATTAAT CAGCTGTGGG GCTACTGCCC AACACCTGAC 
AATGCTTTCT GGGCCAAACA TCCTCTGACA AACGTCTATT ACCAAGTGAA TAGTGGGTCG 
GCCCTGACAT GGTACCAGGC TAGAAAGAGC TGCCAGCAGC AAGGTGCAGA GCTGCTGAGT 
GTCTCTGAAC CTCACGAACA CACCTTTGTT GCAGGAATTG TCCAGACGAC TCAAAATACA 
CTATGGACAG GACTCAATAA ATTAGATGTA AGCGGTGGTT GGCAATGGAG CAATGGACAG 
CCGTTACGCT ATCTGAAATG GCTCAGTGGA TACCCAACCA CACAACCAGG CTACAGTTGT 
GGTGTCCTGA AAAATGCTTT TGGTTCTGAA TGGTCAAATG AGCCTTGTTC TGAAAAACAT 
GGATATGTCT GCCAAAGAGG CCATTCTGTT CCAACTCTTC CACCAGTGGT GGACACTGGT 
TTTTGCTATA GCCCCTGGAT TCCATATTCA GGCAACTGTT ATCTCCTTCA TCGCAATAAG 
AAAACATGGC TGGAGGCGCG AGACTCCTGT CTGCGGGAAG GAGGAGACCT GCTGAGTATT 
CTCAGCAAAG AAGAGCAAAG CTTTGTCATC ACACAGCTTG GATACTTGAA AACAGACGAG 
CTGTGGATTG GTTTCAATGA CCGTAAAACG CAGATGCTGT TTGAGTGGAG TGACCAGTCT 
AGCATCCCAT TTGCCTCTTG GGAAGTGAGG GAGCCGAGCC ACAGTGTTGT CTATGCAGAG 
GACTGCGTGT TAATGAGAGG AGAGGAGGGA AAGTGGGCAG ATGATATTTG TGAAAATAAG 
AATGGATTCA TCTGTAAGAA GAAGGCCAGC TCTAAAGCCT CGAATAATGA CACAGCTGTC 
ACAAGCCTGG GATGCAAAAC AGGTTGGACC AGGTATGGGT ACTACTGCTA CATGGCAGGA 
TCTGAGACTA AGACCTTTGA AGAAGCAAAG CAGATGTGTG CAAAAGCTGA TTCTCAATTG 
GTTGATATTT CATCCAGAGT AGAAAATGCA TTCCTTGTTA GTCTAGTTGG AGCTCGACCA 
GAGAAGTACT TCTGGATTGG ATTGTCAAAT CAGAGGGATC TGCACACTTT TGAATGGACC 
AACACTAAGG AAGTCTCATA TACTCATTTC AACGCTGGGA TGCCAGGAAG AAAACAAGGC 
TGTGTTGCCA TGACGACTGG ACTTGTTGCT GGGCTTTGGG ATGTGCTCAG CTGCTCAAAT 
AAGGAAAAAT ACATCTGCAA GCAGAAAGCC GATGGACTAG TTACAACTCC AGCCCCACCA 
ACCACACCTG CTTTGGCCTG TCCCGAAGAC TGGACGCCAC TTTTGTCTAG AGACTTCTGT 
GTCAAGCATT TTAATGTACC TATGAGCCAA ATGAAGACTT GGGATGAAGC TCTTGACTTC 
TGCCGAGAGC TTGGTGGGGA TCTCCTGAGT ATCCATCATG AGGCTGATAT TCCTTGGAAA 
CAAGGAGGAG TGAATCCAGC ATGGATTGGT TACAGAATGT ACGATCCCGC TGTGGGTTTT 
GTTTGGAGTG ATGGTTCTTC GTCATCCTAT CAAAGCTGGA CTAGTGATGA ACCAAACAAT 
TTGAACAACA TTGAAAATTG TGTTGAAATG ATCATTTCAA TTTGGGACAA TGATGGAGCA 
TGGAATGACA TTAACTGTCA AGACAGAAAG GACTGGTACT GTCAGATACG AAAAGGAAAG 
ATACCAAAGG AAGTAAATAT TACAGATCCA GTTTATAATG AAACAGAGGA TGGCTGGATT 
CAATTCAAAG GTAGCCAGTA CTATGCGTCT CAGTACTCAG CACTTTCTAT GCACGACGCT 
CGGACATTCT GTAAGAAATC ACATGGCAAT CTTGTGGTTA TCAATGATGA GGACGAGCGG 
GTGTTTCTTT GGCATCAGGC TAAAAATTCG CACAATGATT TTATCATTGG TTTGACAGTT 
GATCTGGATG GGACTTACCA GTGGATAGAT GGGTCCCCAG TAGTGTTTCA AGCTTGGGAA 
ACAAATCAGC CTGCTTTTAA AAACAGTGAG GAAAGATGTG TGAAGATGAC CACATCTCAA 
GGACTCTGGG AAACTATTAA CTGTGGTGAT GAATATAATT TTTTTTGTAA GCGAAGTCAG 
TCACCTCCAG TGAATGCCAC GGTGACCCCT TCACAAGAGC CAAAAGGAGG CTGTGCTCCT 
GAGTGGAAAA GCTTCAAAGG AAAATGCTAC AACATGAAAG AAGACATGAA AACATGGACT 
GAAGCGAGAG AATACTGCAG AGAGCTTGGT GGAGATCTGG CATCAATTAT GAGTAGACAA 
CAACAAGCCT TTTTAAGCAC ATTGATTAGA GACAAAACCA CAGACTTCTG GATTGGATTC 
AGTAATTTGG CAAGCGGGGG GTTCAAGTGG ACAGATGGGA GTACAGTTAC ATTCACCGAG 
TGGGCCAAAG GAGAACCTCA AACCTATTGG CATTCATTCT ATTGGACAAA ATTTCACTCT 
TCGGATGAAC AGGAATGTGT TTTTATGGAC AAAACGTCAA GCTCTGTCTT TGGCAAGTGG 
GTGGCAACTG ACTGTAATTC GACTCGCGGT TTTATCTGCA GTCGTGATGT TGATCCTGGT 
ATTGCCCCAG TGCCTACTGA AGTTCCTAAA ACCTTTGTCA ATCTCGGAAA TTCATCTTTC 
AAAGTGATTC AAGAGAATCT AACGTGGAGT GAGGCAAACC GTCGCTGTGA GGCAGAAGGG 
GCTCATTTGG CCAGCATTCG GGATTTGATA ACACAGGCTT ACCTTGAGTT GCAGGTCTAT 
AGGTCCAAAC AGCCCATGTG GATTGGTCTC AGCAGTGCAC AGACACATGG ATATTTTCTA 
TGGGCAAATA ACTGGCCCAT GAATATGGAG AAATGGGCAC CTTCTGAACC ACGGCCCAGC 
CGCCCTTGTG CATACATGGA CATGGATGGA GAATGGAAAA CAACTCTCTG CAATCAAACC 
TACTACAGTG TCTGTGAGAA AACAACAGAC ATTCCCCCAA CCGTTCCAGC ACAGCACCCT 
GGGCACTGCC CACATGAAGA TGATGACAAT CCAGTGAGGT GGATACCTTT CAAAGACAGC 
TGCTATGCTT TTGTGACGGA CATGCAATCA TGGAGCAGAG CAGTTAGACT CTGTATGACA 
TGGGGTGCAT CTCTTGTCAG CATTAAGGAT GAAGGGGAAC AGAAGTTTAT AGAGAACAAC 
ATCATGCTCC TTGAAAGTTA CAAAGACTTT TGGATTGGGC TTTTCCAAAC CCAGAAAAGT 
CACTGGTTAT GGTCAGACAA TACCGTGGTA GATTACACTA ACTGGGCAGC TGTGACCGAT 
TATGAAGATG ACTATCAAGA CCATTATTGG AATAATGACT GCGCATTAAT CTCTACCAAA 
ACTAAAAAAT GGAAAAAACA GCATTGTGAT TACTCAATCT TATCATTTAT CTGCAAAACT 
GCCAAAGTAA TAAGTCCTAC CATTAAGGAC CCACAAGAAG GTCCTGAACC TTCCAAGGTC 
AATACGGGTT TGGCTGTGTT CTTGAGTATT GCAGTGATTG GCATACTGGG AGCTCTAGCT 
TTCATGTACT ACAGAAATTC AAAAAGACGG TTATTGCCTA CATTTGAAAA TCCCATGTAT 
AATAACAGAG ATGCTGCTTA TTCATATAGT AAAGATAACA AATCATTGAT TGGCAACATT 
GAGATCGCTG AATAG

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

RefSeq	XP_016126100.1
CDS	22..4356
Translation	MNLAAAQNTFWIKMKIISVVILLVLYLANCFAQSGNFLIYNVDYNKCMTSSLERLATCDPYSNPLQFRWTSKNRILNTFTKKCLGVGSKTVGKKLQWLICEDDSVLQKWECHRDTLLGLKNESLYLAVNDNGVPVISKDTGAKSKWTIHGTLYGICSKPYEELYTIGGNAFGRPCQFPFLYEKKWYADCTKVDTQNQRLWCSVETDYSINQLWGYCPTPDNAFWAKHPLTNVYYQVNSGSALTWYQARKSCQQQGAELLSVSEPHEHTFVAGIVQTTQNTLWTGLNKLDVSGGWQWSNGQPLRYLKWLSGYPTTQPGYSCGVLKNAFGSEWSNEPCSEKHGYVCQRGHSVPTLPPVVDTGFCYSPWIPYSGNCYLLHRNKKTWLEARDSCLREGGDLLSILSKEEQSFVITQLGYLKTDELWIGFNDRKTQMLFEWSDQSSIPFASWEVREPSHSVVYAEDCVLMRGEEGKWADDICENKNGFICKKKASSKASNNDTAVTSLGCKTGWTRYGYYCYMAGSETKTFEEAKQMCAKADSQLVDISSRVENAFLVSLVGARPEKYFWIGLSNQRDLHTFEWTNTKEVSYTHFNAGMPGRKQGCVAMTTGLVAGLWDVLSCSNKEKYICKQKADGLVTTPAPPTTPALACPEDWTPLLSRDFCVKHFNVPMSQMKTWDEALDFCRELGGDLLSIHHEADIPWKQGGVNPAWIGYRMYDPAVGFVWSDGSSSSYQSWTSDEPNNLNNIENCVEMIISIWDNDGAWNDINCQDRKDWYCQIRKGKIPKEVNITDPVYNETEDGWIQFKGSQYYASQYSALSMHDARTFCKKSHGNLVVINDEDERVFLWHQAKNSHNDFIIGLTVDLDGTYQWIDGSPVVFQAWETNQPAFKNSEERCVKMTTSQGLWETINCGDEYNFFCKRSQSPPVNATVTPSQEPKGGCAPEWKSFKGKCYNMKEDMKTWTEAREYCRELGGDLASIMSRQQQAFLSTLIRDKTTDFWIGFSNLASGGFKWTDGSTVTFTEWAKGEPQTYWHSFYWTKFHSSDEQECVFMDKTSSSVFGKWVATDCNSTRGFICSRDVDPGIAPVPTEVPKTFVNLGNSSFKVIQENLTWSEANRRCEAEGAHLASIRDLITQAYLELQVYRSKQPMWIGLSSAQTHGYFLWANNWPMNMEKWAPSEPRPSRPCAYMDMDGEWKTTLCNQTYYSVCEKTTDIPPTVPAQHPGHCPHEDDDNPVRWIPFKDSCYAFVTDMQSWSRAVRLCMTWGASLVSIKDEGEQKFIENNIMLLESYKDFWIGLFQTQKSHWLWSDNTVVDYTNWAAVTDYEDDYQDHYWNNDCALISTKTKKWKKQHCDYSILSFICKTAKVISPTIKDPQEGPEPSKVNTGLAVFLSIAVIGILGALAFMYYRNSKRRLLPTFENPMYNNRDAAYSYSKDNKSLIGNIEIAE

Target ORF information:

RefSeq Version	XM_016270614.1
Organism	Sinocyclocheilus grahami
Definition	Sinocyclocheilus grahami mannose receptor, C type 1 (mrc1), mRNA.

Target ORF information:

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

XM_016270614.1

ORF Insert Sequence:

ATGAACTTAG CAGCAGCACA AAATACATTT TGGATCAAGA TGAAAATAAT ATCAGTAGTG 
ATTCTTCTCG TATTATATCT AGCAAACTGC TTTGCACAGT CAGGAAACTT TCTAATATAT 
AATGTGGATT ATAACAAATG CATGACCAGC TCCCTGGAAC GGCTTGCCAC CTGTGACCCA 
TACAGTAACC CACTACAGTT TCGCTGGACT TCAAAGAATC GAATTTTGAA CACTTTCACA 
AAGAAATGCC TTGGAGTAGG AAGTAAAACA GTGGGCAAAA AACTGCAGTG GCTGATTTGT 
GAAGATGACA GTGTTCTGCA GAAGTGGGAA TGCCACCGTG ATACATTGCT GGGCCTAAAG 
AATGAGTCTC TGTACCTGGC TGTAAATGAT AATGGTGTGC CAGTGATCTC TAAAGACACT 
GGAGCGAAGA GCAAATGGAC AATTCATGGA ACATTATACG GCATTTGCTC TAAGCCTTAT 
GAAGAATTGT ACACCATTGG TGGGAATGCT TTTGGGCGCC CATGCCAATT TCCTTTTCTT 
TATGAGAAAA AATGGTATGC AGATTGTACC AAGGTTGATA CACAAAATCA GCGTCTATGG 
TGTTCCGTTG AGACAGACTA CAGTATTAAT CAGCTGTGGG GCTACTGCCC AACACCTGAC 
AATGCTTTCT GGGCCAAACA TCCTCTGACA AACGTCTATT ACCAAGTGAA TAGTGGGTCG 
GCCCTGACAT GGTACCAGGC TAGAAAGAGC TGCCAGCAGC AAGGTGCAGA GCTGCTGAGT 
GTCTCTGAAC CTCACGAACA CACCTTTGTT GCAGGAATTG TCCAGACGAC TCAAAATACA 
CTATGGACAG GACTCAATAA ATTAGATGTA AGCGGTGGTT GGCAATGGAG CAATGGACAG 
CCGTTACGCT ATCTGAAATG GCTCAGTGGA TACCCAACCA CACAACCAGG CTACAGTTGT 
GGTGTCCTGA AAAATGCTTT TGGTTCTGAA TGGTCAAATG AGCCTTGTTC TGAAAAACAT 
GGATATGTCT GCCAAAGAGG CCATTCTGTT CCAACTCTTC CACCAGTGGT GGACACTGGT 
TTTTGCTATA GCCCCTGGAT TCCATATTCA GGCAACTGTT ATCTCCTTCA TCGCAATAAG 
AAAACATGGC TGGAGGCGCG AGACTCCTGT CTGCGGGAAG GAGGAGACCT GCTGAGTATT 
CTCAGCAAAG AAGAGCAAAG CTTTGTCATC ACACAGCTTG GATACTTGAA AACAGACGAG 
CTGTGGATTG GTTTCAATGA CCGTAAAACG CAGATGCTGT TTGAGTGGAG TGACCAGTCT 
AGCATCCCAT TTGCCTCTTG GGAAGTGAGG GAGCCGAGCC ACAGTGTTGT CTATGCAGAG 
GACTGCGTGT TAATGAGAGG AGAGGAGGGA AAGTGGGCAG ATGATATTTG TGAAAATAAG 
AATGGATTCA TCTGTAAGAA GAAGGCCAGC TCTAAAGCCT CGAATAATGA CACAGCTGTC 
ACAAGCCTGG GATGCAAAAC AGGTTGGACC AGGTATGGGT ACTACTGCTA CATGGCAGGA 
TCTGAGACTA AGACCTTTGA AGAAGCAAAG CAGATGTGTG CAAAAGCTGA TTCTCAATTG 
GTTGATATTT CATCCAGAGT AGAAAATGCA TTCCTTGTTA GTCTAGTTGG AGCTCGACCA 
GAGAAGTACT TCTGGATTGG ATTGTCAAAT CAGAGGGATC TGCACACTTT TGAATGGACC 
AACACTAAGG AAGTCTCATA TACTCATTTC AACGCTGGGA TGCCAGGAAG AAAACAAGGC 
TGTGTTGCCA TGACGACTGG ACTTGTTGCT GGGCTTTGGG ATGTGCTCAG CTGCTCAAAT 
AAGGAAAAAT ACATCTGCAA GCAGAAAGCC GATGGACTAG TTACAACTCC AGCCCCACCA 
ACCACACCTG CTTTGGCCTG TCCCGAAGAC TGGACGCCAC TTTTGTCTAG AGACTTCTGT 
GTCAAGCATT TTAATGTACC TATGAGCCAA ATGAAGACTT GGGATGAAGC TCTTGACTTC 
TGCCGAGAGC TTGGTGGGGA TCTCCTGAGT ATCCATCATG AGGCTGATAT TCCTTGGAAA 
CAAGGAGGAG TGAATCCAGC ATGGATTGGT TACAGAATGT ACGATCCCGC TGTGGGTTTT 
GTTTGGAGTG ATGGTTCTTC GTCATCCTAT CAAAGCTGGA CTAGTGATGA ACCAAACAAT 
TTGAACAACA TTGAAAATTG TGTTGAAATG ATCATTTCAA TTTGGGACAA TGATGGAGCA 
TGGAATGACA TTAACTGTCA AGACAGAAAG GACTGGTACT GTCAGATACG AAAAGGAAAG 
ATACCAAAGG AAGTAAATAT TACAGATCCA GTTTATAATG AAACAGAGGA TGGCTGGATT 
CAATTCAAAG GTAGCCAGTA CTATGCGTCT CAGTACTCAG CACTTTCTAT GCACGACGCT 
CGGACATTCT GTAAGAAATC ACATGGCAAT CTTGTGGTTA TCAATGATGA GGACGAGCGG 
GTGTTTCTTT GGCATCAGGC TAAAAATTCG CACAATGATT TTATCATTGG TTTGACAGTT 
GATCTGGATG GGACTTACCA GTGGATAGAT GGGTCCCCAG TAGTGTTTCA AGCTTGGGAA 
ACAAATCAGC CTGCTTTTAA AAACAGTGAG GAAAGATGTG TGAAGATGAC CACATCTCAA 
GGACTCTGGG AAACTATTAA CTGTGGTGAT GAATATAATT TTTTTTGTAA GCGAAGTCAG 
TCACCTCCAG TGAATGCCAC GGTGACCCCT TCACAAGAGC CAAAAGGAGG CTGTGCTCCT 
GAGTGGAAAA GCTTCAAAGG AAAATGCTAC AACATGAAAG AAGACATGAA AACATGGACT 
GAAGCGAGAG AATACTGCAG AGAGCTTGGT GGAGATCTGG CATCAATTAT GAGTAGACAA 
CAACAAGCCT TTTTAAGCAC ATTGATTAGA GACAAAACCA CAGACTTCTG GATTGGATTC 
AGTAATTTGG CAAGCGGGGG GTTCAAGTGG ACAGATGGGA GTACAGTTAC ATTCACCGAG 
TGGGCCAAAG GAGAACCTCA AACCTATTGG CATTCATTCT ATTGGACAAA ATTTCACTCT 
TCGGATGAAC AGGAATGTGT TTTTATGGAC AAAACGTCAA GCTCTGTCTT TGGCAAGTGG 
GTGGCAACTG ACTGTAATTC GACTCGCGGT TTTATCTGCA GTCGTGATGT TGATCCTGGT 
ATTGCCCCAG TGCCTACTGA AGTTCCTAAA ACCTTTGTCA ATCTCGGAAA TTCATCTTTC 
AAAGTGATTC AAGAGAATCT AACGTGGAGT GAGGCAAACC GTCGCTGTGA GGCAGAAGGG 
GCTCATTTGG CCAGCATTCG GGATTTGATA ACACAGGCTT ACCTTGAGTT GCAGGTCTAT 
AGGTCCAAAC AGCCCATGTG GATTGGTCTC AGCAGTGCAC AGACACATGG ATATTTTCTA 
TGGGCAAATA ACTGGCCCAT GAATATGGAG AAATGGGCAC CTTCTGAACC ACGGCCCAGC 
CGCCCTTGTG CATACATGGA CATGGATGGA GAATGGAAAA CAACTCTCTG CAATCAAACC 
TACTACAGTG TCTGTGAGAA AACAACAGAC ATTCCCCCAA CCGTTCCAGC ACAGCACCCT 
GGGCACTGCC CACATGAAGA TGATGACAAT CCAGTGAGGT GGATACCTTT CAAAGACAGC 
TGCTATGCTT TTGTGACGGA CATGCAATCA TGGAGCAGAG CAGTTAGACT CTGTATGACA 
TGGGGTGCAT CTCTTGTCAG CATTAAGGAT GAAGGGGAAC AGAAGTTTAT AGAGAACAAC 
ATCATGCTCC TTGAAAGTTA CAAAGACTTT TGGATTGGGC TTTTCCAAAC CCAGAAAAGT 
CACTGGTTAT GGTCAGACAA TACCGTGGTA GATTACACTA ACTGGGCAGC TGTGACCGAT 
TATGAAGATG ACTATCAAGA CCATTATTGG AATAATGACT GCGCATTAAT CTCTACCAAA 
ACTAAAAAAT GGAAAAAACA GCATTGTGAT TACTCAATCT TATCATTTAT CTGCAAAACT 
GCCAAAGTAA TAAGTCCTAC CATTAAGGAC CCACAAGAAG GTCCTGAACC TTCCAAGGTC 
AATACGGGTT TGGCTGTGTT CTTGAGTATT GCAGTGATTG GCATACTGGG AGCTCTAGCT 
TTCATGTACT ACAGAAATTC AAAAAGACGG TTATTGCCTA CATTTGAAAA TCCCATGTAT 
AATAACAGAG ATGCTGCTTA TTCATATAGT AAAGATAACA AATCATTGAT TGGCAACATT 
GAGATCGCTG AATAG