il16 cDNA ORF clone, Acanthochromis polyacanthus(spiny chromis)

Gene
Clones
gRNAs

Summary

Gene Symbol	il16
Entrez Gene ID	110968758
Full Name	interleukin 16
Gene Type	protein-coding
Organism	Acanthochromis polyacanthus(spiny chromis)

mRNA and Protein(s)

mRNA	Protein	Name
XM_022218728.1	XP_022074420.1	pro-interleukin-16

Pathways from BioSystems
Gene Ontology

The following il16 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the il16 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
OAc180838	XM_022218728.1 Latest version!	Acanthochromis polyacanthus interleukin 16 (il16), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00

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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)

il16 ( XM_022218728.1 ) cDNA ORF clone, Acanthochromis polyacanthus(spiny chromis) -> XP_022074420.1 Acanthochromis polyacanthus interleukin 16 (il16), mRNA.

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CloneID	OAc180838
Clone ID Related Accession (Same CDS sequence)	XM_022218728.1
Accession Version	XM_022218728.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4680bp) 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	2017-08-06
Organism	Acanthochromis polyacanthus(spiny chromis)
Product	pro-interleukin-16
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019031273.1) 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 :: Acanthochromis polyacanthus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTCATGC CTCAGAGATA CTCCCACCAG AGGAGGAAAG CCAGCACAGC GGCTGCTCGG 
AGGATGGAGA GAAGACGCAG GGACCAGTGG ACGAGCAGCA ACAACAACCC AAGCAGCAGC 
CACAACCATC GCTCCAAGAA GCTGGTCATG CTCTCCAGGT CCCTGATCCT GTGTCACTCT 
AAGACCAATG AAGACTGTCC CGAGGACAGA CATGCTGAGG AAGCGTCAGA TGGGTGCAGG 
GCATGGGGTC CAAGCTGGAG GGCAAAAACG ATTAGTGTGG ATCATACAGG ATATAGAGAT 
ATACAAAACG GACAATGGAG GATGACCCAG CAATCATCTG TGGAGAGGAG AGGAGACAGC 
GAGGCAGACA GTCTGCTTCA AAACACAACT GTCAGGGAGA ATAAAAGGAG CATAAAGAAG 
TCCTTCAGCA TTAAGGAGAG CAGTATCTGG AGGATGTGTG TAGCCACAGG GCCTGCTGAG 
GAGGTGTGTG GACCACAAAT GGCTGACAGC AGCATTCAGA CGGAGGGCAA AGTCACTAAT 
GTGGAGCCAG GGAGGAATCG AGGGAACCTG CACAGACGCA GCAGCTTCCT GAGCCCAGAC 
AAGCTAGCAC CCTTTAATGG ACAGTTTCTA AACAGCAGTG CTTTCATGGA CGGGGAGGGA 
ATGAGGAGTG TCCACATTAA AGCCTATAAC GAGGAAATTT CCACATGTGA AGATACTCTC 
CATTCCCATA CTCCAGATCA GCACCCAGCT CTCATCTCTC CACCTGACCT TCAGTCATTT 
CCTGGATGCA CAGATGAAAA ACGTGTGGCC AACAACAATC ACCTCAAGCT ACCCATCCCA 
GAGGTGAACG AGGAGAGATG CTGGGGGGCT AAGAAAACAG AACAAAGCTC ACCAGAACAG 
ATGGCCAGCA ACAGGACACG CTCCAATTCA ACCAGTGTTC ATCCGTACTG GATTGGGGAT 
CTGGACAGCA TCATAATGAA AACCCCTGAG CTGTATACCA ATCATCCTCA TGGGAATAGT 
GGTTTCTATG GAAACAGGAA GTCTCTGTCC CAGCAGCTGG AGTTCTCTCA CACCACTACA 
CAGGCTGTTC AGCGTCCCTC CCGCTCCCTC AGCTCTGCCC AGCTGGTACA CTCCTGCAGT 
AACGTGCAAG CCTTCATAAT CTGCAATATT GTGCTAATGA AGGGTCACGG CAAGGGTCTG 
GGCTTCAGCA TAGTGGGAGG GAGGGACAGC TTGTATGGAC CAATGGGGAT CTATGTCAAG 
ACGATTTTCC CAGCAGGAGC TGCAGCTGCT GATGGAAGAC TGCAAGAAGG TGATGAGATC 
CTGGAGCTGA ATGGAGAGTC ACTGCATGGT TTGACTCATG ATGAAGCTCT GCACAAATTC 
AAACAAATCA AAAAGGGCCT CCTGACGCTG GTGGTGAGGA CCAGCCTGCG TGTTGGGGCC 
CTGTGTGGTC AGTCGCAGGT AGCTCAGCTG TGTAGGTCAC GCTCCCTCAG CACTACCACG 
GGTATGGCCA GGGTCAGCGC TGATATGGGA GACTACAACT ACCTGAACAT CTGCAGTAAC 
GCACTGAGCA TCCCGGGTCA GCCTGCTAAG CCCAGAGACT GCATCATGAT GGAGATCATC 
CTGCAGAAAG AGGTGGGTGT TGGTCTGGGT ATTGGACTGT GCTGTGTTCC ATCTGGTGAT 
GGATGCCCAA GGATCTACAT TCACACCCTC TCCCCTGGAT CGGTGGCTCA CATGGATGGT 
AGACTACGGT GTGGGGATGA GATTATGGAA ATCAACGACA CTGTGGTTCA CAACATGGCG 
CTGAATGACG TCTACGCAGT TCTGAGCCAG TGCACAGCAG GTCCGGTCCA CATCATTGTC 
AGTCGACACC CAGACCCCAA AGTATCGGAG CAGCAGCTGA ATGATGCTAT CGCTGATGCA 
GTGGCAAACA GCAAACTGAG AAAAAACAAG AGCCAGTGGA GCATTGATGG ACTACGCAGA 
CTGGAGTCTT GTTCTCATAG CCGTCAGAGA TGTGAGCATT GTCTGGAGAG GAACTGCAGT 
CAGCTGACAG TTCGACAAGC ACAGAAGACT ATGGCCCGTT CCTGCAGTGA CAACACCAGC 
AGCCTCCACA ACAGCTGCCT CACCATCCAC AACCACCACA ACACACAGCA CAGCCCATCA 
GCCCGCGTCC ACAGCCTAGA CACACCCAAG TCTATGGCAG ACACGTGGTC TGACAACAGA 
CTGTCAGTAC CTGTGTATCC CGATGAAGAT TATAATGTCC CATACAACTC TCCTGCTGCC 
AACCTGTCCA GTCAGCTGGT CCTGAATCTG GCCCACAGGA GCAACAAGTC TACTTGCAGA 
ACACATGCTG GTGCTCGCCG GCGCTGCTGG CCTCAGGATG TGACCAGTGA GGAGGGTTAT 
AATGGTGACT CCAGTGATTC CAGCAGGGGA TCCACAGGTA GAGACAAAGG ACTGGACGCC 
CCATCCCACA CCAGCTGCCA GCAGGAAGGA GAACGCACAA GAGAACAGTC AGAGAGCGGT 
GAAGAAGATT TCACTCATCA AGACGCTGCA GTGTGCACCA GCGACCAAGT ACACACAGGA 
GATTTATCAG CTGTGCTCTG CTCAAAGCCA AAGAGAGGAG CACTAAAGAG ACAAGCTTGT 
ATTGAACAAT ATACCCAAGA ACAGCTTCAG GATCCGTGGG TTCGATTTTC AAAGAGCTCC 
ACAGAACATC TGCCTGACAT CCATCATCAT CACCAGCATC ACGCTACACA CAGCACACAA 
CCTGACAGCA TCCACAGCGT CCCTGCTACC ATGAGTGACG AAGAGTACAT TCTTGAGGCC 
ACTGTCACAG CCACAGATTC GACTTTAGAC CAGCCATCAA ACATGACTCC TGAAAACACA 
TCTGAAGCTG ATTCAGGATC AAAGAAGGCC CCCCCAGTGG CACCAAAGCC TGCATGGTTT 
CGTCAAAGTC TGAGGAAAAT TCGAGAAGAA CAAGACCAGA AGAGTCAACC TAAACCCTCA 
GAGAAGAGGC CTGCTGCAGG CTTCAGCAGA AGTTTTGGAG CCAGATCTGC CTCTTCTGCA 
ACCAACCTCT CAATTAAACA AAAGATTCAC TCTTTTGAGA CTTTTTCCAG TCCAGACAGC 
CCAGAGAAGG TGGGAAATAG GAGACCTGTG GCCCCTTCTG CCTCCCTTCC ACAGAAGGAG 
ACTAGAAGTC CCTGCCCTTC TTATCATGCT GTACCTGGAG GTTATGAGAA GGGCAAACAT 
GAGTTCACTA AAGAGGTCCA GTCAGACCAG TCTGCATCTG TTAAAGAGGT AGACAATGTA 
GCTGTCCCTA ATACATTCTC TGCTATCACC CCAGCCACTT ACGAAGTTTG TAGTCAGACA 
GCTAAATCGT CTGAAAATGA AGCTCCCTCC ATCCCATCTC CCACTGATAT TCTACCTTCT 
GACAACATCA GTACTTATCT GGATTCAGGG ATAAATGATT CTCATGCAGC TTCAGCCCAT 
GATGAGGGGA AAGTCTTACC ATCCAAAGTG GAGTCTGAGC CAGAAAAAGA GGATCTCAAC 
AGGTTCACAG AATCCAGTGT TCTACCCACT GAAACATCTA TGAGATCTAA TGAAACAGAG 
GAAAATGCTT CAGATGGGAC AGACATGGAC AGAAGACAGA GCGACGGAGA TCTGCTGAGG 
ACAGCTCAGA GTGCTGCTCC ACCCACAGAG AGCAACCTTC TGAGAAGCCC AGAGGAAGAA 
AGTCTAGGGA AACTCATTGC CTTCAGTAAC CAGGTTTCAC AAGTATTGAT GCACTCTCTA 
CCCTGCCGTG GTAACCCTCA CTCCTCAAAC CCGCAAGACG CCTCAGCACT GGACTTTACT 
AACACTCAGG ATTCTGAGTC GGGCCTCGAC AACAATGATA GAGGATTTTC TGTCAGCTTG 
GCCACACTGA GGGAGTGCAC CATCGAACGA GGGGAGGGGG AGGCAGCATT CCCTTCTTCT 
TATGCTCAGT CTGTCATCTC AGCCATCCCT TCACAGGAAA TACAGAGGAT GATCCAGGAG 
GTCAAAGACC TTGATCAAGA CACACTGAAG CAACTGGTGG ACATCCATGT TGTGATTCTA 
CACAAAGAGG AGGGAGCAGG GCTGGGCTTC AGCATCGCTG GAGGGTGTGA CTTGGAGAGC 
AAAGCTACAA CAGTCCACAG AGTGTTTCCT AGTGGCCTGG CAGCTCAGGA GGGCACCATC 
CAGAAAGGAG ATGAGGTGTT GTCTATAAAC GGACAAACGC TGCGTGGGCT CACACATACT 
GATGCCACCG CTGCCCTGCG TCAGGCCCGC GGCCTGAAGC TGGCCGTGGT GGTGATCTGC 
AAGAGAGCTG AGGAGGAGGG AAGAGAGGGA GGAGGCGGTC GGAGTGAAGA GCCAAACCCT 
GCAGTGCTGG ACCACGGGGA CCCAGCGAGT GTAGAGCTAC TGAAAGGTCC TGGAGGGGTT 
GGCTTTACTT TGGAGGGAGG AAAGGGTTCA ATCCATGGAG ACAGACCTCT AGTCATCAAC 
AGGATCTTTC AAGGTGGCGC AGCAGAGCAG AGTGGTCTGC AGTCTGGAGA TGAAGTGCTG 
CAGGTCCAGG GAGTCAGTCT AACAGACATG ACTCGATTTG AGGCCTGGAA CATGATCAAG 
GCTTTACCTG AAGGATCCGT TACAGTGGTG ATCAGGAGGA GGCAGGGCCG TACGGAATGA

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

RefSeq	XP_022074420.1
CDS	74..4753
Translation	MVMPQRYSHQRRKASTAAARRMERRRRDQWTSSNNNPSSSHNHRSKKLVMLSRSLILCHSKTNEDCPEDRHAEEASDGCRAWGPSWRAKTISVDHTGYRDIQNGQWRMTQQSSVERRGDSEADSLLQNTTVRENKRSIKKSFSIKESSIWRMCVATGPAEEVCGPQMADSSIQTEGKVTNVEPGRNRGNLHRRSSFLSPDKLAPFNGQFLNSSAFMDGEGMRSVHIKAYNEEISTCEDTLHSHTPDQHPALISPPDLQSFPGCTDEKRVANNNHLKLPIPEVNEERCWGAKKTEQSSPEQMASNRTRSNSTSVHPYWIGDLDSIIMKTPELYTNHPHGNSGFYGNRKSLSQQLEFSHTTTQAVQRPSRSLSSAQLVHSCSNVQAFIICNIVLMKGHGKGLGFSIVGGRDSLYGPMGIYVKTIFPAGAAAADGRLQEGDEILELNGESLHGLTHDEALHKFKQIKKGLLTLVVRTSLRVGALCGQSQVAQLCRSRSLSTTTGMARVSADMGDYNYLNICSNALSIPGQPAKPRDCIMMEIILQKEVGVGLGIGLCCVPSGDGCPRIYIHTLSPGSVAHMDGRLRCGDEIMEINDTVVHNMALNDVYAVLSQCTAGPVHIIVSRHPDPKVSEQQLNDAIADAVANSKLRKNKSQWSIDGLRRLESCSHSRQRCEHCLERNCSQLTVRQAQKTMARSCSDNTSSLHNSCLTIHNHHNTQHSPSARVHSLDTPKSMADTWSDNRLSVPVYPDEDYNVPYNSPAANLSSQLVLNLAHRSNKSTCRTHAGARRRCWPQDVTSEEGYNGDSSDSSRGSTGRDKGLDAPSHTSCQQEGERTREQSESGEEDFTHQDAAVCTSDQVHTGDLSAVLCSKPKRGALKRQACIEQYTQEQLQDPWVRFSKSSTEHLPDIHHHHQHHATHSTQPDSIHSVPATMSDEEYILEATVTATDSTLDQPSNMTPENTSEADSGSKKAPPVAPKPAWFRQSLRKIREEQDQKSQPKPSEKRPAAGFSRSFGARSASSATNLSIKQKIHSFETFSSPDSPEKVGNRRPVAPSASLPQKETRSPCPSYHAVPGGYEKGKHEFTKEVQSDQSASVKEVDNVAVPNTFSAITPATYEVCSQTAKSSENEAPSIPSPTDILPSDNISTYLDSGINDSHAASAHDEGKVLPSKVESEPEKEDLNRFTESSVLPTETSMRSNETEENASDGTDMDRRQSDGDLLRTAQSAAPPTESNLLRSPEEESLGKLIAFSNQVSQVLMHSLPCRGNPHSSNPQDASALDFTNTQDSESGLDNNDRGFSVSLATLRECTIERGEGEAAFPSSYAQSVISAIPSQEIQRMIQEVKDLDQDTLKQLVDIHVVILHKEEGAGLGFSIAGGCDLESKATTVHRVFPSGLAAQEGTIQKGDEVLSINGQTLRGLTHTDATAALRQARGLKLAVVVICKRAEEEGREGGGGRSEEPNPAVLDHGDPASVELLKGPGGVGFTLEGGKGSIHGDRPLVINRIFQGGAAEQSGLQSGDEVLQVQGVSLTDMTRFEAWNMIKALPEGSVTVVIRRRQGRTE

Target ORF information:

RefSeq Version	XM_022218728.1
Organism	Acanthochromis polyacanthus(spiny chromis)
Definition	Acanthochromis polyacanthus interleukin 16 (il16), mRNA.

Target ORF information:

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

XM_022218728.1

ORF Insert Sequence:

ATGGTCATGC CTCAGAGATA CTCCCACCAG AGGAGGAAAG CCAGCACAGC GGCTGCTCGG 
AGGATGGAGA GAAGACGCAG GGACCAGTGG ACGAGCAGCA ACAACAACCC AAGCAGCAGC 
CACAACCATC GCTCCAAGAA GCTGGTCATG CTCTCCAGGT CCCTGATCCT GTGTCACTCT 
AAGACCAATG AAGACTGTCC CGAGGACAGA CATGCTGAGG AAGCGTCAGA TGGGTGCAGG 
GCATGGGGTC CAAGCTGGAG GGCAAAAACG ATTAGTGTGG ATCATACAGG ATATAGAGAT 
ATACAAAACG GACAATGGAG GATGACCCAG CAATCATCTG TGGAGAGGAG AGGAGACAGC 
GAGGCAGACA GTCTGCTTCA AAACACAACT GTCAGGGAGA ATAAAAGGAG CATAAAGAAG 
TCCTTCAGCA TTAAGGAGAG CAGTATCTGG AGGATGTGTG TAGCCACAGG GCCTGCTGAG 
GAGGTGTGTG GACCACAAAT GGCTGACAGC AGCATTCAGA CGGAGGGCAA AGTCACTAAT 
GTGGAGCCAG GGAGGAATCG AGGGAACCTG CACAGACGCA GCAGCTTCCT GAGCCCAGAC 
AAGCTAGCAC CCTTTAATGG ACAGTTTCTA AACAGCAGTG CTTTCATGGA CGGGGAGGGA 
ATGAGGAGTG TCCACATTAA AGCCTATAAC GAGGAAATTT CCACATGTGA AGATACTCTC 
CATTCCCATA CTCCAGATCA GCACCCAGCT CTCATCTCTC CACCTGACCT TCAGTCATTT 
CCTGGATGCA CAGATGAAAA ACGTGTGGCC AACAACAATC ACCTCAAGCT ACCCATCCCA 
GAGGTGAACG AGGAGAGATG CTGGGGGGCT AAGAAAACAG AACAAAGCTC ACCAGAACAG 
ATGGCCAGCA ACAGGACACG CTCCAATTCA ACCAGTGTTC ATCCGTACTG GATTGGGGAT 
CTGGACAGCA TCATAATGAA AACCCCTGAG CTGTATACCA ATCATCCTCA TGGGAATAGT 
GGTTTCTATG GAAACAGGAA GTCTCTGTCC CAGCAGCTGG AGTTCTCTCA CACCACTACA 
CAGGCTGTTC AGCGTCCCTC CCGCTCCCTC AGCTCTGCCC AGCTGGTACA CTCCTGCAGT 
AACGTGCAAG CCTTCATAAT CTGCAATATT GTGCTAATGA AGGGTCACGG CAAGGGTCTG 
GGCTTCAGCA TAGTGGGAGG GAGGGACAGC TTGTATGGAC CAATGGGGAT CTATGTCAAG 
ACGATTTTCC CAGCAGGAGC TGCAGCTGCT GATGGAAGAC TGCAAGAAGG TGATGAGATC 
CTGGAGCTGA ATGGAGAGTC ACTGCATGGT TTGACTCATG ATGAAGCTCT GCACAAATTC 
AAACAAATCA AAAAGGGCCT CCTGACGCTG GTGGTGAGGA CCAGCCTGCG TGTTGGGGCC 
CTGTGTGGTC AGTCGCAGGT AGCTCAGCTG TGTAGGTCAC GCTCCCTCAG CACTACCACG 
GGTATGGCCA GGGTCAGCGC TGATATGGGA GACTACAACT ACCTGAACAT CTGCAGTAAC 
GCACTGAGCA TCCCGGGTCA GCCTGCTAAG CCCAGAGACT GCATCATGAT GGAGATCATC 
CTGCAGAAAG AGGTGGGTGT TGGTCTGGGT ATTGGACTGT GCTGTGTTCC ATCTGGTGAT 
GGATGCCCAA GGATCTACAT TCACACCCTC TCCCCTGGAT CGGTGGCTCA CATGGATGGT 
AGACTACGGT GTGGGGATGA GATTATGGAA ATCAACGACA CTGTGGTTCA CAACATGGCG 
CTGAATGACG TCTACGCAGT TCTGAGCCAG TGCACAGCAG GTCCGGTCCA CATCATTGTC 
AGTCGACACC CAGACCCCAA AGTATCGGAG CAGCAGCTGA ATGATGCTAT CGCTGATGCA 
GTGGCAAACA GCAAACTGAG AAAAAACAAG AGCCAGTGGA GCATTGATGG ACTACGCAGA 
CTGGAGTCTT GTTCTCATAG CCGTCAGAGA TGTGAGCATT GTCTGGAGAG GAACTGCAGT 
CAGCTGACAG TTCGACAAGC ACAGAAGACT ATGGCCCGTT CCTGCAGTGA CAACACCAGC 
AGCCTCCACA ACAGCTGCCT CACCATCCAC AACCACCACA ACACACAGCA CAGCCCATCA 
GCCCGCGTCC ACAGCCTAGA CACACCCAAG TCTATGGCAG ACACGTGGTC TGACAACAGA 
CTGTCAGTAC CTGTGTATCC CGATGAAGAT TATAATGTCC CATACAACTC TCCTGCTGCC 
AACCTGTCCA GTCAGCTGGT CCTGAATCTG GCCCACAGGA GCAACAAGTC TACTTGCAGA 
ACACATGCTG GTGCTCGCCG GCGCTGCTGG CCTCAGGATG TGACCAGTGA GGAGGGTTAT 
AATGGTGACT CCAGTGATTC CAGCAGGGGA TCCACAGGTA GAGACAAAGG ACTGGACGCC 
CCATCCCACA CCAGCTGCCA GCAGGAAGGA GAACGCACAA GAGAACAGTC AGAGAGCGGT 
GAAGAAGATT TCACTCATCA AGACGCTGCA GTGTGCACCA GCGACCAAGT ACACACAGGA 
GATTTATCAG CTGTGCTCTG CTCAAAGCCA AAGAGAGGAG CACTAAAGAG ACAAGCTTGT 
ATTGAACAAT ATACCCAAGA ACAGCTTCAG GATCCGTGGG TTCGATTTTC AAAGAGCTCC 
ACAGAACATC TGCCTGACAT CCATCATCAT CACCAGCATC ACGCTACACA CAGCACACAA 
CCTGACAGCA TCCACAGCGT CCCTGCTACC ATGAGTGACG AAGAGTACAT TCTTGAGGCC 
ACTGTCACAG CCACAGATTC GACTTTAGAC CAGCCATCAA ACATGACTCC TGAAAACACA 
TCTGAAGCTG ATTCAGGATC AAAGAAGGCC CCCCCAGTGG CACCAAAGCC TGCATGGTTT 
CGTCAAAGTC TGAGGAAAAT TCGAGAAGAA CAAGACCAGA AGAGTCAACC TAAACCCTCA 
GAGAAGAGGC CTGCTGCAGG CTTCAGCAGA AGTTTTGGAG CCAGATCTGC CTCTTCTGCA 
ACCAACCTCT CAATTAAACA AAAGATTCAC TCTTTTGAGA CTTTTTCCAG TCCAGACAGC 
CCAGAGAAGG TGGGAAATAG GAGACCTGTG GCCCCTTCTG CCTCCCTTCC ACAGAAGGAG 
ACTAGAAGTC CCTGCCCTTC TTATCATGCT GTACCTGGAG GTTATGAGAA GGGCAAACAT 
GAGTTCACTA AAGAGGTCCA GTCAGACCAG TCTGCATCTG TTAAAGAGGT AGACAATGTA 
GCTGTCCCTA ATACATTCTC TGCTATCACC CCAGCCACTT ACGAAGTTTG TAGTCAGACA 
GCTAAATCGT CTGAAAATGA AGCTCCCTCC ATCCCATCTC CCACTGATAT TCTACCTTCT 
GACAACATCA GTACTTATCT GGATTCAGGG ATAAATGATT CTCATGCAGC TTCAGCCCAT 
GATGAGGGGA AAGTCTTACC ATCCAAAGTG GAGTCTGAGC CAGAAAAAGA GGATCTCAAC 
AGGTTCACAG AATCCAGTGT TCTACCCACT GAAACATCTA TGAGATCTAA TGAAACAGAG 
GAAAATGCTT CAGATGGGAC AGACATGGAC AGAAGACAGA GCGACGGAGA TCTGCTGAGG 
ACAGCTCAGA GTGCTGCTCC ACCCACAGAG AGCAACCTTC TGAGAAGCCC AGAGGAAGAA 
AGTCTAGGGA AACTCATTGC CTTCAGTAAC CAGGTTTCAC AAGTATTGAT GCACTCTCTA 
CCCTGCCGTG GTAACCCTCA CTCCTCAAAC CCGCAAGACG CCTCAGCACT GGACTTTACT 
AACACTCAGG ATTCTGAGTC GGGCCTCGAC AACAATGATA GAGGATTTTC TGTCAGCTTG 
GCCACACTGA GGGAGTGCAC CATCGAACGA GGGGAGGGGG AGGCAGCATT CCCTTCTTCT 
TATGCTCAGT CTGTCATCTC AGCCATCCCT TCACAGGAAA TACAGAGGAT GATCCAGGAG 
GTCAAAGACC TTGATCAAGA CACACTGAAG CAACTGGTGG ACATCCATGT TGTGATTCTA 
CACAAAGAGG AGGGAGCAGG GCTGGGCTTC AGCATCGCTG GAGGGTGTGA CTTGGAGAGC 
AAAGCTACAA CAGTCCACAG AGTGTTTCCT AGTGGCCTGG CAGCTCAGGA GGGCACCATC 
CAGAAAGGAG ATGAGGTGTT GTCTATAAAC GGACAAACGC TGCGTGGGCT CACACATACT 
GATGCCACCG CTGCCCTGCG TCAGGCCCGC GGCCTGAAGC TGGCCGTGGT GGTGATCTGC 
AAGAGAGCTG AGGAGGAGGG AAGAGAGGGA GGAGGCGGTC GGAGTGAAGA GCCAAACCCT 
GCAGTGCTGG ACCACGGGGA CCCAGCGAGT GTAGAGCTAC TGAAAGGTCC TGGAGGGGTT 
GGCTTTACTT TGGAGGGAGG AAAGGGTTCA ATCCATGGAG ACAGACCTCT AGTCATCAAC 
AGGATCTTTC AAGGTGGCGC AGCAGAGCAG AGTGGTCTGC AGTCTGGAGA TGAAGTGCTG 
CAGGTCCAGG GAGTCAGTCT AACAGACATG ACTCGATTTG AGGCCTGGAA CATGATCAAG 
GCTTTACCTG AAGGATCCGT TACAGTGGTG ATCAGGAGGA GGCAGGGCCG TACGGAATGA