GRIN2A cDNA ORF clone, Aptenodytes forsteri(emperor penguin)

Gene
Clones
gRNAs

Summary

Gene Symbol	GRIN2A
Entrez Gene ID	103900881
Full Name	glutamate ionotropic receptor NMDA type subunit 2A
Gene Type	protein-coding
Organism	Aptenodytes forsteri(emperor penguin)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009281666.2	XP_009279941.2	glutamate receptor ionotropic, NMDA 2A

Pathways from BioSystems
Gene Ontology

The following GRIN2A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GRIN2A 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
OAp54292	XM_009281666.2 Latest version!	Aptenodytes forsteri glutamate ionotropic receptor NMDA type subunit 2A (GRIN2A), 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)

GRIN2A ( XM_009281666.2 ) cDNA ORF clone, Aptenodytes forsteri(emperor penguin) -> XP_009279941.2 Aptenodytes forsteri glutamate ionotropic receptor NMDA type subunit 2A (GRIN2A), mRNA.

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CloneID	OAp54292
Clone ID Related Accession (Same CDS sequence)	XM_009281666.2
Accession Version	XM_009281666.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4413bp) 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	2016-12-04
Organism	Aptenodytes forsteri(emperor penguin)
Product	glutamate receptor ionotropic, NMDA 2A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008795492.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 5, 2016 this sequence version replaced XM_009281666.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aptenodytes forsteri Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGGAGGG AGAATGCAGG GATAAAGCTG GCAAAGATGA GGAAAATTGG CTGTGCTCTC 
CTGGTACTCC AAGCTCTTCT GGCGCCTTTG GATCTTGTTC GTGGAGCAGA GAAAAGTTAT 
CCCATCCTGA ACATTGCAGT GATTCTGGGA AGGACCAAGT ATATCACAGA GAGAGATATC 
AGAGCTCTCT GGACCAGGGA AATGTCAGCA GACCTGACTG TTGATGTCAA TGTAGTGACC 
CTTCTGGTGA ACCAGACTGA CCCTAAGAGC ATCATAACAC ACGTTTGCGA CTTGATGTCA 
GGCACCAAGA TCCATGGAGT GGTTTTTGGA GATGATACTG ATCAGGAGGC AGTAGCTCAG 
ATTTTGGATT TTATTTCATC TCAGACTTCT ATTCCAATTC TTGGAATTCA TGGTGGGGCC 
TCCATGATAA TGGCAGATAA GGATGTGATG TCCACATTCT TCCAGTTTGG GGCTTCTATC 
CAGCAAGAAG CCATCGTCAT GCTGAAGATC ATGCAGGATT ATGACTGGCA TGTGTTCTCT 
CTGGTGACCA CCACCTTCCC TGGATATCAA GACTTCATCA ATGTCATTAA GACCACAGTG 
GAAAATAGTT TTGTGGGCTG GGACATGCAG AACATCATTG TACTCGATAC CGCCTTTGGA 
GATGCCAAGA CCCAAATTCA GCTGAAGAAA ATTCATTCGT CCGTCATCCT GCTATATTGT 
TCCAAGGATG AAGCTGTCTA CATATTGGAT GAGGCTCGTT CCCTGGGCCT TACTGGCTAT 
GATTTCTTTT GGATAGTTCC CAGCCTGGTT AGTGGTAACA CAGAAATCAC TCCCAAGGAG 
TTTCCTTCAG GACTCATTTC AGCATCTTAT GATGAATGGG ACTACAGTTT AGAAGCTCGG 
GTACGGGATG GCCTTGGGAT TATTGCCACT GCTGCATCAG CCATGCTGGA AAAATACTCC 
TTCATTCCTG AAGCAAAAAC TAGCTGCTAT GGACAACTGG AGAAAAATGA CCGGCCGTCT 
CACACCTTGC ACAAGTTTAT GATGAATGTG ACTTGGGAAG GTAAAGATTT GTCCTTCACA 
GCAGATGGTT ATCAGGCACA CCCCAGGCTG GTGGTGATAG TACTGAACAA CGATCGTGAA 
TGGGAAAAGG TGGGGAAATG GGAGAACAAC TCACTGAGCC TGAAGTACTC TGTCTGGCCA 
AGGTACAGCT CTTTCGCAGA CAGCGACCCA GACGATAACC ATTTGAGTAT TGTCACCCTG 
GAGGAGGCTC CCTTTGTCAT TGTTGAGGAC GTGGATCCTT TGATGGAAAG TTGCCAAAAA 
AACACCGTGC CATGTCGTAA ATTTGTCAAA ATTAACAACT CAACTAATGA GGGAACTAAC 
GTAAAGAAGT GCTGCAAAGG ATTCTGCATT GATATCCTGA AGAAGTTGTC TAAAACTGTC 
AAGTTCACAT ATGACCTGTA TTTGGTGACT AATGGGAAAC ATGGCAAAAA AGTCAATAAT 
GTGTGGAATG GAATGATTGG TGAAGTGGTA TATCATCGTG CAGTTATGGC TGTGGGGTCT 
CTCACTATTA ATGAAGAGCG CTCTGAAGTG GTTGACTTTT CAGTGCCATT TGTTGAGACT 
GGGATTAGTG TCATGGTGTC ACGGAGCAAT GGCACAGTTT CACCGTCTGC TTTTCTAGAG 
CCTTTTAGTG CTTCTGTCTG GGTGATGATG TTTGTGATGC TTCTCATTGT GTCCGCCATG 
GCTGTCTTTA TATTTGAGTA CTTTAGTCCT GTAGGATATA ACAGGAACTT AGCACAAGGG 
AGAGATCCCC ATGGACCATC CTTTACCATT GGAAAGGCAG TGTGGTTACT CTGGGGCTTG 
GTATTCAACA ACTCTGTGCC TGTGCAAAAC CCCAAAGGGA CGACAAGTAA AATCATGGTG 
TCGGTTTGGG CTTTCTTCGC TGTCATTTTC CTGGCTAGTT ATACTGCCAA CTTAGCTGCA 
TTTATGATTC AAGAGGAATT TGTTGACCAA GTGACTGGAC TGAGTGATAA AAAGTTTCAA 
AGGCCGTATG ATTATTCACC TCCTTTTCGA TTTGGAACAG TCCCAAATGG AAGCACAGAG 
AGGAATATTA GAAACAACTA CCCTGATATG CACCTCTACA TGACAAAGTA TAATCAGAAA 
GGAGTTGAAG ATGCCTTGGT CAGCTTGAAA ACTGGGAAGT TGGATGCTTT CATCTATGAT 
GCAGCAGTGC TGAATTACAA GGCTGGAAGA GATGAAGGCT GCAAACTTGT GACAATAGGG 
AGTGGATACA TCTTTGCCAC TACAGGCTAT GGAATAGCAC TTCAGAAAGG ATCACCTTGG 
AAGAGACAAA TTGATCTAGC CCTCCTTCAG TTTGTTGGAG ATGGGGAAAT GGAAGAGTTA 
GAAACCCTGT GGCTGACTGG TATTTGCCAC AATGAGAAGA ATGAAGTCAT GAGCAGCCAG 
CTGGACATTG ACAACATGGC AGGAGTGTTT TACATGCTCG CAGCAGCCAT GGCACTCAGT 
TTAATAACCT TTGTCTGGGA GCACTTATTT TACTGGAAAC TTAGATTCTG CTTCACTGGA 
GTCTGCTCAG ATAGGCCGGG ATTGTTGTTC TCAATCAGCA GGGGTATTTA CAGTTGCATT 
CATGGAGTAC ACATTGAAGA AAAAAAGAAG TCTCCTGACT TTACTTTGAC CAATTCCCAA 
ACCAACATGT TAAAACTACT GCGAACAGCG AAAAATATGA CCAATATCAA TCCTTCAAGA 
ATTAACTCCC CCAAAAGAAC AGCTGATTTT ATTCAGAGGG GTTCCTTGAT TATGGATATG 
GTCATGGATA AGGGAAACTT GGTATTTTCT GATAACAGAT CCTTTCAGAC AAAGGACAAC 
TTTTTTGGTG ACAACATGAG TGAACTGCAG ACACTTCCTG GCAATCGACA CAAGGACAAT 
CTTAACAACT ATGTTTTCCA AGGTCAGCAT CCTCTCACAC TGAATGAGTC CAATCCAAAT 
ACAGTAGAGG TTGCAGTAAC AGCAGAAGCA AAAGTGAACT CCAGACCCAG GCAGCTTTGG 
AGGAAATCTG TTGAATCTTT ACGTCAAGAA TCTGTACGTC AAAGCCAAGG TTCCCAGAGA 
GAAAATGGGT CAGATGAAAA CAGGCAGCTT TCAGTGAAAA GCCAAAGATA CCTTCCTGAA 
GAGATTGTCC ATTCAGATGT ATCAGAGACA TCAAGCCGAG CTACTTGCCA TATGGAACCT 
GAAAACAACA ACAAGCACCA CAAAACCAAG GACAATTTTA AAAAAAGGAC AGTAGCATCA 
AAATACCCAA AAGACTGTAG TGAAGTGGAA CTGACGTATC TGAAAACCAA ACAGAGCTCT 
CCACGGGATA AAATCTACAC AATTGATGCT GACAAGGAGC CAGGATTCTG CTTGGACACA 
CCTCAGTACA TCGAAAACAT TGTCCTTCCA GAAACTATAG AGTTTCCTGA TGTTTATCAA 
GATCCCAATG ACAACTACAG GAAAGCAGAA CATGCTGACA GGACTCCCTT GCATAATGAA 
GACAGTCTTC CAAATAATGA CCAGTATAAA CTTTATGCAA AGCACTACAC ATTAAAAGAT 
AAAAATGCTT CCCTAGTCGA CATGAACGAT AGATACAGAC AGAATTCCAC CCACTGCAGG 
AGCTGTCTTT CCAATTTGCC CACTTATGCG GGACACTATT CGAGCAGATC TCCCTATAAA 
TGCGATGCAT GCTTGCGGAT GGGGAACCTA TATGATATTG AAGAAGATCA GATGCTGCAG 
GATACAACGA ACTTATCACT TCCTGAAGAA ATAGATGAGC ATAGTTGGTC ACAAAATAAT 
GCTCTGCAAT ATCATAAAAA AAATAAGTTG AGGATTAGCA GGCAACATTC TTTTGATAAT 
ATCGCTGATA GGTCCAGGGA AATTGATATT GGAAGACCTT CTCGTAGTAT AAGCTTGAAA 
GAAAGAGAGA AATTTCTACA AAGTAGTCCA TATGCAAGCA TGTTTAGTGT TCCCTCAAGC 
AAACTGTTGA GCAACAAGAC CTCACTTTTA ACTCATGCTC TAGAGGACAG TAAGCGGAGC 
AAGTCCCTGT ATCCTGTTCA CTCAGATGAT AATCCCTTTC TGCACTCGTA TCGTGATGAC 
CAGCACTTAT CTCTTAGGCG AAGTCCAGCT GATCTTTATA AACATTCATT ACCAACAAGA 
GGAAGAAATG ATAATTATTT AAGGTCATCC ATAAAGTCTA CAGCATCATA CTGTTCCAGG 
GATGGTCGGA TCCATAATGA CATGTACATT TCAGAGCATG TTTTGCCTTA CGTTGCAAAT 
AGGAATAGCT TGTACTCAAC TCCAAGGGTT TTAAATTCCT GTAGCAATAG ACGTGTGTAT 
AAGAAAAGGC CTAGCATTGA ATCAGATGTT TAA

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

RefSeq	XP_009279941.2
CDS	1..4413
Translation	MWRENAGIKLAKMRKIGCALLVLQALLAPLDLVRGAEKSYPILNIAVILGRTKYITERDIRALWTREMSADLTVDVNVVTLLVNQTDPKSIITHVCDLMSGTKIHGVVFGDDTDQEAVAQILDFISSQTSIPILGIHGGASMIMADKDVMSTFFQFGASIQQEAIVMLKIMQDYDWHVFSLVTTTFPGYQDFINVIKTTVENSFVGWDMQNIIVLDTAFGDAKTQIQLKKIHSSVILLYCSKDEAVYILDEARSLGLTGYDFFWIVPSLVSGNTEITPKEFPSGLISASYDEWDYSLEARVRDGLGIIATAASAMLEKYSFIPEAKTSCYGQLEKNDRPSHTLHKFMMNVTWEGKDLSFTADGYQAHPRLVVIVLNNDREWEKVGKWENNSLSLKYSVWPRYSSFADSDPDDNHLSIVTLEEAPFVIVEDVDPLMESCQKNTVPCRKFVKINNSTNEGTNVKKCCKGFCIDILKKLSKTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYHRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSRSNGTVSPSAFLEPFSASVWVMMFVMLLIVSAMAVFIFEYFSPVGYNRNLAQGRDPHGPSFTIGKAVWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEFVDQVTGLSDKKFQRPYDYSPPFRFGTVPNGSTERNIRNNYPDMHLYMTKYNQKGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICHNEKNEVMSSQLDIDNMAGVFYMLAAAMALSLITFVWEHLFYWKLRFCFTGVCSDRPGLLFSISRGIYSCIHGVHIEEKKKSPDFTLTNSQTNMLKLLRTAKNMTNINPSRINSPKRTADFIQRGSLIMDMVMDKGNLVFSDNRSFQTKDNFFGDNMSELQTLPGNRHKDNLNNYVFQGQHPLTLNESNPNTVEVAVTAEAKVNSRPRQLWRKSVESLRQESVRQSQGSQRENGSDENRQLSVKSQRYLPEEIVHSDVSETSSRATCHMEPENNNKHHKTKDNFKKRTVASKYPKDCSEVELTYLKTKQSSPRDKIYTIDADKEPGFCLDTPQYIENIVLPETIEFPDVYQDPNDNYRKAEHADRTPLHNEDSLPNNDQYKLYAKHYTLKDKNASLVDMNDRYRQNSTHCRSCLSNLPTYAGHYSSRSPYKCDACLRMGNLYDIEEDQMLQDTTNLSLPEEIDEHSWSQNNALQYHKKNKLRISRQHSFDNIADRSREIDIGRPSRSISLKEREKFLQSSPYASMFSVPSSKLLSNKTSLLTHALEDSKRSKSLYPVHSDDNPFLHSYRDDQHLSLRRSPADLYKHSLPTRGRNDNYLRSSIKSTASYCSRDGRIHNDMYISEHVLPYVANRNSLYSTPRVLNSCSNRRVYKKRPSIESDV

Target ORF information:

RefSeq Version	XM_009281666.2
Organism	Aptenodytes forsteri(emperor penguin)
Definition	Aptenodytes forsteri glutamate ionotropic receptor NMDA type subunit 2A (GRIN2A), mRNA.

Target ORF information:

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

XM_009281666.2

ORF Insert Sequence:

ATGTGGAGGG AGAATGCAGG GATAAAGCTG GCAAAGATGA GGAAAATTGG CTGTGCTCTC 
CTGGTACTCC AAGCTCTTCT GGCGCCTTTG GATCTTGTTC GTGGAGCAGA GAAAAGTTAT 
CCCATCCTGA ACATTGCAGT GATTCTGGGA AGGACCAAGT ATATCACAGA GAGAGATATC 
AGAGCTCTCT GGACCAGGGA AATGTCAGCA GACCTGACTG TTGATGTCAA TGTAGTGACC 
CTTCTGGTGA ACCAGACTGA CCCTAAGAGC ATCATAACAC ACGTTTGCGA CTTGATGTCA 
GGCACCAAGA TCCATGGAGT GGTTTTTGGA GATGATACTG ATCAGGAGGC AGTAGCTCAG 
ATTTTGGATT TTATTTCATC TCAGACTTCT ATTCCAATTC TTGGAATTCA TGGTGGGGCC 
TCCATGATAA TGGCAGATAA GGATGTGATG TCCACATTCT TCCAGTTTGG GGCTTCTATC 
CAGCAAGAAG CCATCGTCAT GCTGAAGATC ATGCAGGATT ATGACTGGCA TGTGTTCTCT 
CTGGTGACCA CCACCTTCCC TGGATATCAA GACTTCATCA ATGTCATTAA GACCACAGTG 
GAAAATAGTT TTGTGGGCTG GGACATGCAG AACATCATTG TACTCGATAC CGCCTTTGGA 
GATGCCAAGA CCCAAATTCA GCTGAAGAAA ATTCATTCGT CCGTCATCCT GCTATATTGT 
TCCAAGGATG AAGCTGTCTA CATATTGGAT GAGGCTCGTT CCCTGGGCCT TACTGGCTAT 
GATTTCTTTT GGATAGTTCC CAGCCTGGTT AGTGGTAACA CAGAAATCAC TCCCAAGGAG 
TTTCCTTCAG GACTCATTTC AGCATCTTAT GATGAATGGG ACTACAGTTT AGAAGCTCGG 
GTACGGGATG GCCTTGGGAT TATTGCCACT GCTGCATCAG CCATGCTGGA AAAATACTCC 
TTCATTCCTG AAGCAAAAAC TAGCTGCTAT GGACAACTGG AGAAAAATGA CCGGCCGTCT 
CACACCTTGC ACAAGTTTAT GATGAATGTG ACTTGGGAAG GTAAAGATTT GTCCTTCACA 
GCAGATGGTT ATCAGGCACA CCCCAGGCTG GTGGTGATAG TACTGAACAA CGATCGTGAA 
TGGGAAAAGG TGGGGAAATG GGAGAACAAC TCACTGAGCC TGAAGTACTC TGTCTGGCCA 
AGGTACAGCT CTTTCGCAGA CAGCGACCCA GACGATAACC ATTTGAGTAT TGTCACCCTG 
GAGGAGGCTC CCTTTGTCAT TGTTGAGGAC GTGGATCCTT TGATGGAAAG TTGCCAAAAA 
AACACCGTGC CATGTCGTAA ATTTGTCAAA ATTAACAACT CAACTAATGA GGGAACTAAC 
GTAAAGAAGT GCTGCAAAGG ATTCTGCATT GATATCCTGA AGAAGTTGTC TAAAACTGTC 
AAGTTCACAT ATGACCTGTA TTTGGTGACT AATGGGAAAC ATGGCAAAAA AGTCAATAAT 
GTGTGGAATG GAATGATTGG TGAAGTGGTA TATCATCGTG CAGTTATGGC TGTGGGGTCT 
CTCACTATTA ATGAAGAGCG CTCTGAAGTG GTTGACTTTT CAGTGCCATT TGTTGAGACT 
GGGATTAGTG TCATGGTGTC ACGGAGCAAT GGCACAGTTT CACCGTCTGC TTTTCTAGAG 
CCTTTTAGTG CTTCTGTCTG GGTGATGATG TTTGTGATGC TTCTCATTGT GTCCGCCATG 
GCTGTCTTTA TATTTGAGTA CTTTAGTCCT GTAGGATATA ACAGGAACTT AGCACAAGGG 
AGAGATCCCC ATGGACCATC CTTTACCATT GGAAAGGCAG TGTGGTTACT CTGGGGCTTG 
GTATTCAACA ACTCTGTGCC TGTGCAAAAC CCCAAAGGGA CGACAAGTAA AATCATGGTG 
TCGGTTTGGG CTTTCTTCGC TGTCATTTTC CTGGCTAGTT ATACTGCCAA CTTAGCTGCA 
TTTATGATTC AAGAGGAATT TGTTGACCAA GTGACTGGAC TGAGTGATAA AAAGTTTCAA 
AGGCCGTATG ATTATTCACC TCCTTTTCGA TTTGGAACAG TCCCAAATGG AAGCACAGAG 
AGGAATATTA GAAACAACTA CCCTGATATG CACCTCTACA TGACAAAGTA TAATCAGAAA 
GGAGTTGAAG ATGCCTTGGT CAGCTTGAAA ACTGGGAAGT TGGATGCTTT CATCTATGAT 
GCAGCAGTGC TGAATTACAA GGCTGGAAGA GATGAAGGCT GCAAACTTGT GACAATAGGG 
AGTGGATACA TCTTTGCCAC TACAGGCTAT GGAATAGCAC TTCAGAAAGG ATCACCTTGG 
AAGAGACAAA TTGATCTAGC CCTCCTTCAG TTTGTTGGAG ATGGGGAAAT GGAAGAGTTA 
GAAACCCTGT GGCTGACTGG TATTTGCCAC AATGAGAAGA ATGAAGTCAT GAGCAGCCAG 
CTGGACATTG ACAACATGGC AGGAGTGTTT TACATGCTCG CAGCAGCCAT GGCACTCAGT 
TTAATAACCT TTGTCTGGGA GCACTTATTT TACTGGAAAC TTAGATTCTG CTTCACTGGA 
GTCTGCTCAG ATAGGCCGGG ATTGTTGTTC TCAATCAGCA GGGGTATTTA CAGTTGCATT 
CATGGAGTAC ACATTGAAGA AAAAAAGAAG TCTCCTGACT TTACTTTGAC CAATTCCCAA 
ACCAACATGT TAAAACTACT GCGAACAGCG AAAAATATGA CCAATATCAA TCCTTCAAGA 
ATTAACTCCC CCAAAAGAAC AGCTGATTTT ATTCAGAGGG GTTCCTTGAT TATGGATATG 
GTCATGGATA AGGGAAACTT GGTATTTTCT GATAACAGAT CCTTTCAGAC AAAGGACAAC 
TTTTTTGGTG ACAACATGAG TGAACTGCAG ACACTTCCTG GCAATCGACA CAAGGACAAT 
CTTAACAACT ATGTTTTCCA AGGTCAGCAT CCTCTCACAC TGAATGAGTC CAATCCAAAT 
ACAGTAGAGG TTGCAGTAAC AGCAGAAGCA AAAGTGAACT CCAGACCCAG GCAGCTTTGG 
AGGAAATCTG TTGAATCTTT ACGTCAAGAA TCTGTACGTC AAAGCCAAGG TTCCCAGAGA 
GAAAATGGGT CAGATGAAAA CAGGCAGCTT TCAGTGAAAA GCCAAAGATA CCTTCCTGAA 
GAGATTGTCC ATTCAGATGT ATCAGAGACA TCAAGCCGAG CTACTTGCCA TATGGAACCT 
GAAAACAACA ACAAGCACCA CAAAACCAAG GACAATTTTA AAAAAAGGAC AGTAGCATCA 
AAATACCCAA AAGACTGTAG TGAAGTGGAA CTGACGTATC TGAAAACCAA ACAGAGCTCT 
CCACGGGATA AAATCTACAC AATTGATGCT GACAAGGAGC CAGGATTCTG CTTGGACACA 
CCTCAGTACA TCGAAAACAT TGTCCTTCCA GAAACTATAG AGTTTCCTGA TGTTTATCAA 
GATCCCAATG ACAACTACAG GAAAGCAGAA CATGCTGACA GGACTCCCTT GCATAATGAA 
GACAGTCTTC CAAATAATGA CCAGTATAAA CTTTATGCAA AGCACTACAC ATTAAAAGAT 
AAAAATGCTT CCCTAGTCGA CATGAACGAT AGATACAGAC AGAATTCCAC CCACTGCAGG 
AGCTGTCTTT CCAATTTGCC CACTTATGCG GGACACTATT CGAGCAGATC TCCCTATAAA 
TGCGATGCAT GCTTGCGGAT GGGGAACCTA TATGATATTG AAGAAGATCA GATGCTGCAG 
GATACAACGA ACTTATCACT TCCTGAAGAA ATAGATGAGC ATAGTTGGTC ACAAAATAAT 
GCTCTGCAAT ATCATAAAAA AAATAAGTTG AGGATTAGCA GGCAACATTC TTTTGATAAT 
ATCGCTGATA GGTCCAGGGA AATTGATATT GGAAGACCTT CTCGTAGTAT AAGCTTGAAA 
GAAAGAGAGA AATTTCTACA AAGTAGTCCA TATGCAAGCA TGTTTAGTGT TCCCTCAAGC 
AAACTGTTGA GCAACAAGAC CTCACTTTTA ACTCATGCTC TAGAGGACAG TAAGCGGAGC 
AAGTCCCTGT ATCCTGTTCA CTCAGATGAT AATCCCTTTC TGCACTCGTA TCGTGATGAC 
CAGCACTTAT CTCTTAGGCG AAGTCCAGCT GATCTTTATA AACATTCATT ACCAACAAGA 
GGAAGAAATG ATAATTATTT AAGGTCATCC ATAAAGTCTA CAGCATCATA CTGTTCCAGG 
GATGGTCGGA TCCATAATGA CATGTACATT TCAGAGCATG TTTTGCCTTA CGTTGCAAAT 
AGGAATAGCT TGTACTCAAC TCCAAGGGTT TTAAATTCCT GTAGCAATAG ACGTGTGTAT 
AAGAAAAGGC CTAGCATTGA ATCAGATGTT TAA