grin2b cDNA ORF clone, Anolis carolinensis(green anole)

Gene
Clones
gRNAs

Summary

Gene Symbol	grin2b
Entrez Gene ID	100566053
Full Name	glutamate ionotropic receptor NMDA type subunit 2B
Gene Type	protein-coding
Organism	Anolis carolinensis(green anole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_003226634.3	XP_003226682.1	glutamate receptor ionotropic, NMDA 2B
XM_016996975.1	XP_016852464.1	glutamate receptor ionotropic, NMDA 2B

Pathways from BioSystems
Gene Ontology

The following grin2b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the grin2b 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
OAn15883	XM_016996975.1 Latest version!	Anolis carolinensis glutamate ionotropic receptor NMDA type subunit 2B (grin2b), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00
OAn15883	XM_003226634.3 Latest version!	Anolis carolinensis glutamate ionotropic receptor NMDA type subunit 2B (grin2b), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

grin2b ( XM_003226634.3 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_003226682.1 Anolis carolinensis glutamate ionotropic receptor NMDA type subunit 2B (grin2b), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAn15883
Clone ID Related Accession (Same CDS sequence)	XM_003226634.3 , XM_016996975.1
Accession Version	XM_003226634.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4503bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	glutamate receptor ionotropic, NMDA 2B
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003338944.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_003226634.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 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##

ATGAGGCCCA GAGCAGAGTG CTACTCTTCA AAGTTCTGGC TTATGCTGGC AGTCTTAGCA 
ACAACAGGTG GTGGGATCTG GGCCCAAAAG AACCACCCCA GCATTGGCAT TGCGGTCATC 
TTGGTGGGCA CCTCTGACGA AGTAGCTATC ACAGATGCCC ACAAGAAAGA TGACTTCCAC 
CACCTCTCTC TCATGCCTCG TGTGGAACTG GTGGCCATGA ATGAGACAGA TCCCAAGAGC 
ATCATCACCC GCATCTGTGA TATCATGTCT GACCGGAGGG TTCAAGGTGT GGTGTTTGCT 
GATGATACGG ACCAGGAAGC CATTGCCCAG ATCCTGGACT TCATTTCTGC CCAGACCCTC 
ACACCCATTC TAGGTATCCA TGGAGGCTCT TCCATGATCA TGGCAGATAA GGATGAATCA 
TCCATGTTCT TCCAATTCGG CCCATCAATA GAACAACAGG CTTCTGTCAT GCTCAATATC 
ATGGAAGAAT ATGACTGGTA CATCTTCTCC ATTGTCACTA CCTACTTTCC TGGCTATCAG 
GACTTTGTGA ACAAGGTCCG CAGCACTATT GAAAACAGCT TTGTGGGCTG GGAGCTAGAA 
GAAGTACTCT TGCTGGACAT GTCTTTGGAT GATGGGGACT CAAAGATCCA GAATCAGCTC 
AAGAAACTTC AGAGTCCTGT CATCCTCCTT TACTGCACTA AGGAAGAAGC TACCTATATC 
TTTGAGGTGG CCAACTCTGT GGGTCTGACT GGGTATGATT ACACATGGAT TGTGCCCAGT 
TTGGTAGCTG GAGATACAGA CACTGTGCCC TCTGAATTCC CCACTGGACT TATTTCTGTA 
TCTTACGATG AATGGGACTA TGGTCTTCGT GACAGGGTGA AAGATGGAAT AGCCATAATA 
ACCACAGCCG CCTCTGACAT GCTGTCTGAG CACAGCTTCA TTCCTGAGCC TAAGAGTAGT 
TGCTACAACA CACAAGACAA GAGGATCTAC CAATCCAACA TGTTGAATAG GTACCTGATT 
AATGTCACCT TTGAAGGAAG GAATTTGTCT TTCAGTGAGG ATGGCTACCA GATGCATCCC 
AAATTGGTTA TCATCCTTCT GACAAAGTCA AGGACGTGGG ACAGGGTGGG ATGGTGGAAG 
GACAAGCGCC TCAAGATGAA GTATTATGTG TGGCCACGTT CAGAACTGTA CCCTAACTGC 
GAGGAGCGCG AGGATGACCA TCTTAGTATT GTGACTCTAG AAGAAGCTCC ATTTGTAATA 
GTGGAAAATG TGGATCCGCT AAGTGGTACC TGCATGCGAA ACACTGTCCC GTGCCAAAAA 
CGAATTGTAT CAGAGAACAA GACAGATGAG GAAACTGCCT ATATCAAAAA ATGTTGCAAA 
GGATTTTGTA TCGATATTCT TAAGAAAATC TCAAAGTTTG TGAAGTTCAC CTATGACCTT 
TACTTGGTAA CAAATGGTAA ACATGGCAAG AAGGTCAATG GGACATGGAA TGGAATGATA 
GGCGAGGTGG TTGCCAAACG TGCCTACATG GCAGTGGGAT CCCTCACCAT AAATGCAGAG 
CGATCGGAAG TTGTTGACTT TTCTGTGCCC TTCATTGAGA CAGGCATCAG CGTAATGGTG 
TCGCGAAGCA ATGGAACTGT CTCACCTTCT GCCTTCTTAG AACCATTCAG TGCTGACGTG 
TGGGTGATGA TGTTTGTAAT GCTGCTTATA ATCTCTGCGG TGGCTGTCTT TGTCTTTGAA 
TACTTCAGCC CTGTGGGATA CAACCGATGT CTGGCGGATG GCAGAGAGCC AGGTGGTCCT 
TCTTTCACCA TTGGCAAAGC AATCTGGTTG CTGTGGGGTC TGGTTTTCAA CAACTCTGTG 
CCGGTGCAGA ATCCCAAGGG AACAACTAGC AAGATCATGG TATCTGTGTG GGCCTTCTTT 
GCTGTCATCT TTCTGGCCAG TTACACTGCC AATTTGGCTG CCTTCATGAT CCAGGAGGAA 
TATGTGGACC AGGTGTCTGG ACTGAGCGAC AAAAAGTTTC AAAATCCAAA TGCTTTTTCA 
CCTCCTTTTC GTTTTGGGAC AGTTCCTAAT GGCAGTACAG AGAGGAATAT TCGCAACAAT 
TATGAACTGA TGCATGCTTA TATGGTGAAG TTCAACCAAA GATCGGTACA AGATGCATTG 
TCCTCACTGA AAACAGGGAA GCTGGATGCT TTTATCTATG ATGCAGCTGT GCTAAACTAC 
ATGGCTGGCA GAGATGAAGG CTGCAAGCTG GTGACAATTG GCAGTGGGAA GGTCTTTGCT 
TCCACAGGGT ATGGCATTGC CATCCAGAAG AATTCAGGCT GGAAACGTCA AGTGGATCTG 
GCAATCTTAC AGCTTTTTGG TGATGGAGAG ATGGAGGAGC TTGAAGCTCT CTGGCTCACT 
GGCATTTGCC ATAATGAGAA GAATGAAGTC ATGAGCAGCC AGCTGGACAT AGATAACATG 
GCTGGAGTCT TCTATATGTT GGGGGCAGCC ATGGCTCTCA GTCTTATCAC CTTCATCGCC 
GAACATCTCT TTTATTGGCA ATTCCGCCAC TGCTTCATGG GTGTCTGCTC TGGCAAACCT 
GGTGTTGTTT TCTCCATCAG CAGGGGTATT TACAGCTGCA TTCATGGAGT GGCTATTGAA 
GATCGTCATT CTTCAATGAA CTCCCCCACT GCCACCATGA ACAATACCCA TTCTAATATT 
TTGCGCCTGC TCCGAACAGC AAAGAACATG GCAAACCTTT CAGGGGTCAA TGGCTCACCA 
CAAAGTGCCC TGGATTTCAT TCGCCGTGAA TCATCTGTCT ATGATATCTC AGAGCACCGC 
CGCAGCTTCA CACACTCTGA CTGCAAATCT TATAACAACC CACCCTGTGA AGAGAACCTT 
TTTAGTGATT ACATTAGTGA AGTAGAAAGG ACCTTTGGGA ATTTACAGTT GAAAGAAAGT 
AATGTTTACC AAGACCATTA TCACCACCAC CATCGCCCCC ATAGCATAGG CAGTGCCAGC 
TCTTTAGATG GTTTGTATGA CTGTGATAAT CCACCTTTCT CTGCCCAGCC TCGGCCCCTC 
AGTAAGAAGC CATTAGATAT TGGTTTGCCA CCATCCAAAC ATGGCCCGCT AGGTGATATT 
TATGGAAAGT TGTCTTTCAA GAATGATCGG TACGGTGGAG GAGGGGGTCA TGATGACTTG 
ATCCGTTCAG ATGTCTCAGA CATATCTACT CATACAGTGA CTTATGGCAA CATTGAGGGC 
AATGCTGCAA AGCGACGAAA ACAGCAGTAT AAGGATAGTT TAAAGAAACG GCCTGCTTCA 
GCTAAGTCAC GGAGAGAGTT TGATGAGATT GAGTTGGCCT ATCGTCGGCG TCCCCGATCC 
CCAGATCACA AACGTTACTT CAGGGACAAG GAAGGGCTGA GAGATTTCTA TTTGGACCAG 
TTCCGGGCTA AGGAGAACTC ACCGCACTGG GAGCATGTCG ATCTGACAGA TATTTATAAA 
GAGAGGGGAG ATGACTTCAA ACGTGATACG ATAGGGGGAG CAGGGACATG CACTAATCGG 
ACCCACCACA AACATGGGTC AGGGGAGTTT GGAGCAAACA ATGAGCACAA GCACAGTGTT 
GTGAGTGGGG TACCAGCACC ATGGGAGAAA AACCTCACTA ATCTTGATTG GGAGGAACGA 
CCAGGGGCTA ATTATTGCCG CAGTTGCCCA TCTAAGCTGC ACAACTACAC TCCAACAGTG 
GTGGGACAGA ACTCCACCCG TCAGCCATGC ATCCGGTGTG AAGCCTGCAA AAAGGCAGGC 
AACCTCTATG ACATCAGTGA GGACAACTCC CTTCAAGAGC TGGATCAGCC CTCTGCTCCT 
GTGCCAGTGG CAACCAGCAC CTCCACTACC AAGTATCCTC AGAGCCCTTC CAACTCTGCC 
TCCAAAGTGC AGAAGAAGAA TCGCAACAAG CTCCGCCGGC AGCACTCCTA TGACACCTTT 
GTGGATCTGC AAAAGGAAGA CCCATCCTTG GCACCCCGTA GTGTGAGCCT GAAAGACAAG 
GGCCGATTTT TGGAAGGAAG TCCCTATGCC CATATGTTTG AGATGCCACC AAACGAGTCC 
ACATTTGTCA ACAACAAGTC CTCAGTGCCC GCTACCAGCC ACCACCTCCA CAACAATCCT 
GGCATTGGTG GTGGTTATAT GCTCAGCAAG TCGCTCTACC CTGACCGGGT CACTCAAAAC 
CCTTTCATCC CCACTTTTGG GGATGACCAG TGCTTGCTCC ATGGCAGCAA ATCCTATTTC 
TTCAGGCAGC CTGTGGTGGC AGCAGGGCCC AAGGCCAGGC CAGACTTCCG AGCCATTGTC 
ACCACCAACA AGCCGGTGGT CTCAGCCCTT CATGGGGCTG TGCCAGCCCG TTTCCAGAAG 
GACATCTGTA TAGGGAACCA GTCAAACCCC TGTGTGCCTA ACAACAAAAA CCCCAGGGCT 
TTCAATGGCT CCAGCAACGG GCATGTTTAT GAGAAACTTT CCAGTATTGA ATCTGATGTC 
TGA

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

RefSeq	XP_003226682.1
CDS	94..4596
Translation	MRPRAECYSSKFWLMLAVLATTGGGIWAQKNHPSIGIAVILVGTSDEVAITDAHKKDDFHHLSLMPRVELVAMNETDPKSIITRICDIMSDRRVQGVVFADDTDQEAIAQILDFISAQTLTPILGIHGGSSMIMADKDESSMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFVNKVRSTIENSFVGWELEEVLLLDMSLDDGDSKIQNQLKKLQSPVILLYCTKEEATYIFEVANSVGLTGYDYTWIVPSLVAGDTDTVPSEFPTGLISVSYDEWDYGLRDRVKDGIAIITTAASDMLSEHSFIPEPKSSCYNTQDKRIYQSNMLNRYLINVTFEGRNLSFSEDGYQMHPKLVIILLTKSRTWDRVGWWKDKRLKMKYYVWPRSELYPNCEEREDDHLSIVTLEEAPFVIVENVDPLSGTCMRNTVPCQKRIVSENKTDEETAYIKKCCKGFCIDILKKISKFVKFTYDLYLVTNGKHGKKVNGTWNGMIGEVVAKRAYMAVGSLTINAERSEVVDFSVPFIETGISVMVSRSNGTVSPSAFLEPFSADVWVMMFVMLLIISAVAVFVFEYFSPVGYNRCLADGREPGGPSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEYVDQVSGLSDKKFQNPNAFSPPFRFGTVPNGSTERNIRNNYELMHAYMVKFNQRSVQDALSSLKTGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFASTGYGIAIQKNSGWKRQVDLAILQLFGDGEMEELEALWLTGICHNEKNEVMSSQLDIDNMAGVFYMLGAAMALSLITFIAEHLFYWQFRHCFMGVCSGKPGVVFSISRGIYSCIHGVAIEDRHSSMNSPTATMNNTHSNILRLLRTAKNMANLSGVNGSPQSALDFIRRESSVYDISEHRRSFTHSDCKSYNNPPCEENLFSDYISEVERTFGNLQLKESNVYQDHYHHHHRPHSIGSASSLDGLYDCDNPPFSAQPRPLSKKPLDIGLPPSKHGPLGDIYGKLSFKNDRYGGGGGHDDLIRSDVSDISTHTVTYGNIEGNAAKRRKQQYKDSLKKRPASAKSRREFDEIELAYRRRPRSPDHKRYFRDKEGLRDFYLDQFRAKENSPHWEHVDLTDIYKERGDDFKRDTIGGAGTCTNRTHHKHGSGEFGANNEHKHSVVSGVPAPWEKNLTNLDWEERPGANYCRSCPSKLHNYTPTVVGQNSTRQPCIRCEACKKAGNLYDISEDNSLQELDQPSAPVPVATSTSTTKYPQSPSNSASKVQKKNRNKLRRQHSYDTFVDLQKEDPSLAPRSVSLKDKGRFLEGSPYAHMFEMPPNESTFVNNKSSVPATSHHLHNNPGIGGGYMLSKSLYPDRVTQNPFIPTFGDDQCLLHGSKSYFFRQPVVAAGPKARPDFRAIVTTNKPVVSALHGAVPARFQKDICIGNQSNPCVPNNKNPRAFNGSSNGHVYEKLSSIESDV

Target ORF information:

RefSeq Version	XM_003226634.3
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis glutamate ionotropic receptor NMDA type subunit 2B (grin2b), transcript variant X1, mRNA.

Target ORF information:

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

XM_003226634.3

ORF Insert Sequence:

ATGAGGCCCA GAGCAGAGTG CTACTCTTCA AAGTTCTGGC TTATGCTGGC AGTCTTAGCA 
ACAACAGGTG GTGGGATCTG GGCCCAAAAG AACCACCCCA GCATTGGCAT TGCGGTCATC 
TTGGTGGGCA CCTCTGACGA AGTAGCTATC ACAGATGCCC ACAAGAAAGA TGACTTCCAC 
CACCTCTCTC TCATGCCTCG TGTGGAACTG GTGGCCATGA ATGAGACAGA TCCCAAGAGC 
ATCATCACCC GCATCTGTGA TATCATGTCT GACCGGAGGG TTCAAGGTGT GGTGTTTGCT 
GATGATACGG ACCAGGAAGC CATTGCCCAG ATCCTGGACT TCATTTCTGC CCAGACCCTC 
ACACCCATTC TAGGTATCCA TGGAGGCTCT TCCATGATCA TGGCAGATAA GGATGAATCA 
TCCATGTTCT TCCAATTCGG CCCATCAATA GAACAACAGG CTTCTGTCAT GCTCAATATC 
ATGGAAGAAT ATGACTGGTA CATCTTCTCC ATTGTCACTA CCTACTTTCC TGGCTATCAG 
GACTTTGTGA ACAAGGTCCG CAGCACTATT GAAAACAGCT TTGTGGGCTG GGAGCTAGAA 
GAAGTACTCT TGCTGGACAT GTCTTTGGAT GATGGGGACT CAAAGATCCA GAATCAGCTC 
AAGAAACTTC AGAGTCCTGT CATCCTCCTT TACTGCACTA AGGAAGAAGC TACCTATATC 
TTTGAGGTGG CCAACTCTGT GGGTCTGACT GGGTATGATT ACACATGGAT TGTGCCCAGT 
TTGGTAGCTG GAGATACAGA CACTGTGCCC TCTGAATTCC CCACTGGACT TATTTCTGTA 
TCTTACGATG AATGGGACTA TGGTCTTCGT GACAGGGTGA AAGATGGAAT AGCCATAATA 
ACCACAGCCG CCTCTGACAT GCTGTCTGAG CACAGCTTCA TTCCTGAGCC TAAGAGTAGT 
TGCTACAACA CACAAGACAA GAGGATCTAC CAATCCAACA TGTTGAATAG GTACCTGATT 
AATGTCACCT TTGAAGGAAG GAATTTGTCT TTCAGTGAGG ATGGCTACCA GATGCATCCC 
AAATTGGTTA TCATCCTTCT GACAAAGTCA AGGACGTGGG ACAGGGTGGG ATGGTGGAAG 
GACAAGCGCC TCAAGATGAA GTATTATGTG TGGCCACGTT CAGAACTGTA CCCTAACTGC 
GAGGAGCGCG AGGATGACCA TCTTAGTATT GTGACTCTAG AAGAAGCTCC ATTTGTAATA 
GTGGAAAATG TGGATCCGCT AAGTGGTACC TGCATGCGAA ACACTGTCCC GTGCCAAAAA 
CGAATTGTAT CAGAGAACAA GACAGATGAG GAAACTGCCT ATATCAAAAA ATGTTGCAAA 
GGATTTTGTA TCGATATTCT TAAGAAAATC TCAAAGTTTG TGAAGTTCAC CTATGACCTT 
TACTTGGTAA CAAATGGTAA ACATGGCAAG AAGGTCAATG GGACATGGAA TGGAATGATA 
GGCGAGGTGG TTGCCAAACG TGCCTACATG GCAGTGGGAT CCCTCACCAT AAATGCAGAG 
CGATCGGAAG TTGTTGACTT TTCTGTGCCC TTCATTGAGA CAGGCATCAG CGTAATGGTG 
TCGCGAAGCA ATGGAACTGT CTCACCTTCT GCCTTCTTAG AACCATTCAG TGCTGACGTG 
TGGGTGATGA TGTTTGTAAT GCTGCTTATA ATCTCTGCGG TGGCTGTCTT TGTCTTTGAA 
TACTTCAGCC CTGTGGGATA CAACCGATGT CTGGCGGATG GCAGAGAGCC AGGTGGTCCT 
TCTTTCACCA TTGGCAAAGC AATCTGGTTG CTGTGGGGTC TGGTTTTCAA CAACTCTGTG 
CCGGTGCAGA ATCCCAAGGG AACAACTAGC AAGATCATGG TATCTGTGTG GGCCTTCTTT 
GCTGTCATCT TTCTGGCCAG TTACACTGCC AATTTGGCTG CCTTCATGAT CCAGGAGGAA 
TATGTGGACC AGGTGTCTGG ACTGAGCGAC AAAAAGTTTC AAAATCCAAA TGCTTTTTCA 
CCTCCTTTTC GTTTTGGGAC AGTTCCTAAT GGCAGTACAG AGAGGAATAT TCGCAACAAT 
TATGAACTGA TGCATGCTTA TATGGTGAAG TTCAACCAAA GATCGGTACA AGATGCATTG 
TCCTCACTGA AAACAGGGAA GCTGGATGCT TTTATCTATG ATGCAGCTGT GCTAAACTAC 
ATGGCTGGCA GAGATGAAGG CTGCAAGCTG GTGACAATTG GCAGTGGGAA GGTCTTTGCT 
TCCACAGGGT ATGGCATTGC CATCCAGAAG AATTCAGGCT GGAAACGTCA AGTGGATCTG 
GCAATCTTAC AGCTTTTTGG TGATGGAGAG ATGGAGGAGC TTGAAGCTCT CTGGCTCACT 
GGCATTTGCC ATAATGAGAA GAATGAAGTC ATGAGCAGCC AGCTGGACAT AGATAACATG 
GCTGGAGTCT TCTATATGTT GGGGGCAGCC ATGGCTCTCA GTCTTATCAC CTTCATCGCC 
GAACATCTCT TTTATTGGCA ATTCCGCCAC TGCTTCATGG GTGTCTGCTC TGGCAAACCT 
GGTGTTGTTT TCTCCATCAG CAGGGGTATT TACAGCTGCA TTCATGGAGT GGCTATTGAA 
GATCGTCATT CTTCAATGAA CTCCCCCACT GCCACCATGA ACAATACCCA TTCTAATATT 
TTGCGCCTGC TCCGAACAGC AAAGAACATG GCAAACCTTT CAGGGGTCAA TGGCTCACCA 
CAAAGTGCCC TGGATTTCAT TCGCCGTGAA TCATCTGTCT ATGATATCTC AGAGCACCGC 
CGCAGCTTCA CACACTCTGA CTGCAAATCT TATAACAACC CACCCTGTGA AGAGAACCTT 
TTTAGTGATT ACATTAGTGA AGTAGAAAGG ACCTTTGGGA ATTTACAGTT GAAAGAAAGT 
AATGTTTACC AAGACCATTA TCACCACCAC CATCGCCCCC ATAGCATAGG CAGTGCCAGC 
TCTTTAGATG GTTTGTATGA CTGTGATAAT CCACCTTTCT CTGCCCAGCC TCGGCCCCTC 
AGTAAGAAGC CATTAGATAT TGGTTTGCCA CCATCCAAAC ATGGCCCGCT AGGTGATATT 
TATGGAAAGT TGTCTTTCAA GAATGATCGG TACGGTGGAG GAGGGGGTCA TGATGACTTG 
ATCCGTTCAG ATGTCTCAGA CATATCTACT CATACAGTGA CTTATGGCAA CATTGAGGGC 
AATGCTGCAA AGCGACGAAA ACAGCAGTAT AAGGATAGTT TAAAGAAACG GCCTGCTTCA 
GCTAAGTCAC GGAGAGAGTT TGATGAGATT GAGTTGGCCT ATCGTCGGCG TCCCCGATCC 
CCAGATCACA AACGTTACTT CAGGGACAAG GAAGGGCTGA GAGATTTCTA TTTGGACCAG 
TTCCGGGCTA AGGAGAACTC ACCGCACTGG GAGCATGTCG ATCTGACAGA TATTTATAAA 
GAGAGGGGAG ATGACTTCAA ACGTGATACG ATAGGGGGAG CAGGGACATG CACTAATCGG 
ACCCACCACA AACATGGGTC AGGGGAGTTT GGAGCAAACA ATGAGCACAA GCACAGTGTT 
GTGAGTGGGG TACCAGCACC ATGGGAGAAA AACCTCACTA ATCTTGATTG GGAGGAACGA 
CCAGGGGCTA ATTATTGCCG CAGTTGCCCA TCTAAGCTGC ACAACTACAC TCCAACAGTG 
GTGGGACAGA ACTCCACCCG TCAGCCATGC ATCCGGTGTG AAGCCTGCAA AAAGGCAGGC 
AACCTCTATG ACATCAGTGA GGACAACTCC CTTCAAGAGC TGGATCAGCC CTCTGCTCCT 
GTGCCAGTGG CAACCAGCAC CTCCACTACC AAGTATCCTC AGAGCCCTTC CAACTCTGCC 
TCCAAAGTGC AGAAGAAGAA TCGCAACAAG CTCCGCCGGC AGCACTCCTA TGACACCTTT 
GTGGATCTGC AAAAGGAAGA CCCATCCTTG GCACCCCGTA GTGTGAGCCT GAAAGACAAG 
GGCCGATTTT TGGAAGGAAG TCCCTATGCC CATATGTTTG AGATGCCACC AAACGAGTCC 
ACATTTGTCA ACAACAAGTC CTCAGTGCCC GCTACCAGCC ACCACCTCCA CAACAATCCT 
GGCATTGGTG GTGGTTATAT GCTCAGCAAG TCGCTCTACC CTGACCGGGT CACTCAAAAC 
CCTTTCATCC CCACTTTTGG GGATGACCAG TGCTTGCTCC ATGGCAGCAA ATCCTATTTC 
TTCAGGCAGC CTGTGGTGGC AGCAGGGCCC AAGGCCAGGC CAGACTTCCG AGCCATTGTC 
ACCACCAACA AGCCGGTGGT CTCAGCCCTT CATGGGGCTG TGCCAGCCCG TTTCCAGAAG 
GACATCTGTA TAGGGAACCA GTCAAACCCC TGTGTGCCTA ACAACAAAAA CCCCAGGGCT 
TTCAATGGCT CCAGCAACGG GCATGTTTAT GAGAAACTTT CCAGTATTGA ATCTGATGTC 
TGA

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

grin2b ( XM_016996975.1 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_016852464.1 Anolis carolinensis glutamate ionotropic receptor NMDA type subunit 2B (grin2b), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAn15883
Clone ID Related Accession (Same CDS sequence)	XM_003226634.3 , XM_016996975.1
Accession Version	XM_016996975.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4503bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	glutamate receptor ionotropic, NMDA 2B
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003338944.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 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##

ATGAGGCCCA GAGCAGAGTG CTACTCTTCA AAGTTCTGGC TTATGCTGGC AGTCTTAGCA 
ACAACAGGTG GTGGGATCTG GGCCCAAAAG AACCACCCCA GCATTGGCAT TGCGGTCATC 
TTGGTGGGCA CCTCTGACGA AGTAGCTATC ACAGATGCCC ACAAGAAAGA TGACTTCCAC 
CACCTCTCTC TCATGCCTCG TGTGGAACTG GTGGCCATGA ATGAGACAGA TCCCAAGAGC 
ATCATCACCC GCATCTGTGA TATCATGTCT GACCGGAGGG TTCAAGGTGT GGTGTTTGCT 
GATGATACGG ACCAGGAAGC CATTGCCCAG ATCCTGGACT TCATTTCTGC CCAGACCCTC 
ACACCCATTC TAGGTATCCA TGGAGGCTCT TCCATGATCA TGGCAGATAA GGATGAATCA 
TCCATGTTCT TCCAATTCGG CCCATCAATA GAACAACAGG CTTCTGTCAT GCTCAATATC 
ATGGAAGAAT ATGACTGGTA CATCTTCTCC ATTGTCACTA CCTACTTTCC TGGCTATCAG 
GACTTTGTGA ACAAGGTCCG CAGCACTATT GAAAACAGCT TTGTGGGCTG GGAGCTAGAA 
GAAGTACTCT TGCTGGACAT GTCTTTGGAT GATGGGGACT CAAAGATCCA GAATCAGCTC 
AAGAAACTTC AGAGTCCTGT CATCCTCCTT TACTGCACTA AGGAAGAAGC TACCTATATC 
TTTGAGGTGG CCAACTCTGT GGGTCTGACT GGGTATGATT ACACATGGAT TGTGCCCAGT 
TTGGTAGCTG GAGATACAGA CACTGTGCCC TCTGAATTCC CCACTGGACT TATTTCTGTA 
TCTTACGATG AATGGGACTA TGGTCTTCGT GACAGGGTGA AAGATGGAAT AGCCATAATA 
ACCACAGCCG CCTCTGACAT GCTGTCTGAG CACAGCTTCA TTCCTGAGCC TAAGAGTAGT 
TGCTACAACA CACAAGACAA GAGGATCTAC CAATCCAACA TGTTGAATAG GTACCTGATT 
AATGTCACCT TTGAAGGAAG GAATTTGTCT TTCAGTGAGG ATGGCTACCA GATGCATCCC 
AAATTGGTTA TCATCCTTCT GACAAAGTCA AGGACGTGGG ACAGGGTGGG ATGGTGGAAG 
GACAAGCGCC TCAAGATGAA GTATTATGTG TGGCCACGTT CAGAACTGTA CCCTAACTGC 
GAGGAGCGCG AGGATGACCA TCTTAGTATT GTGACTCTAG AAGAAGCTCC ATTTGTAATA 
GTGGAAAATG TGGATCCGCT AAGTGGTACC TGCATGCGAA ACACTGTCCC GTGCCAAAAA 
CGAATTGTAT CAGAGAACAA GACAGATGAG GAAACTGCCT ATATCAAAAA ATGTTGCAAA 
GGATTTTGTA TCGATATTCT TAAGAAAATC TCAAAGTTTG TGAAGTTCAC CTATGACCTT 
TACTTGGTAA CAAATGGTAA ACATGGCAAG AAGGTCAATG GGACATGGAA TGGAATGATA 
GGCGAGGTGG TTGCCAAACG TGCCTACATG GCAGTGGGAT CCCTCACCAT AAATGCAGAG 
CGATCGGAAG TTGTTGACTT TTCTGTGCCC TTCATTGAGA CAGGCATCAG CGTAATGGTG 
TCGCGAAGCA ATGGAACTGT CTCACCTTCT GCCTTCTTAG AACCATTCAG TGCTGACGTG 
TGGGTGATGA TGTTTGTAAT GCTGCTTATA ATCTCTGCGG TGGCTGTCTT TGTCTTTGAA 
TACTTCAGCC CTGTGGGATA CAACCGATGT CTGGCGGATG GCAGAGAGCC AGGTGGTCCT 
TCTTTCACCA TTGGCAAAGC AATCTGGTTG CTGTGGGGTC TGGTTTTCAA CAACTCTGTG 
CCGGTGCAGA ATCCCAAGGG AACAACTAGC AAGATCATGG TATCTGTGTG GGCCTTCTTT 
GCTGTCATCT TTCTGGCCAG TTACACTGCC AATTTGGCTG CCTTCATGAT CCAGGAGGAA 
TATGTGGACC AGGTGTCTGG ACTGAGCGAC AAAAAGTTTC AAAATCCAAA TGCTTTTTCA 
CCTCCTTTTC GTTTTGGGAC AGTTCCTAAT GGCAGTACAG AGAGGAATAT TCGCAACAAT 
TATGAACTGA TGCATGCTTA TATGGTGAAG TTCAACCAAA GATCGGTACA AGATGCATTG 
TCCTCACTGA AAACAGGGAA GCTGGATGCT TTTATCTATG ATGCAGCTGT GCTAAACTAC 
ATGGCTGGCA GAGATGAAGG CTGCAAGCTG GTGACAATTG GCAGTGGGAA GGTCTTTGCT 
TCCACAGGGT ATGGCATTGC CATCCAGAAG AATTCAGGCT GGAAACGTCA AGTGGATCTG 
GCAATCTTAC AGCTTTTTGG TGATGGAGAG ATGGAGGAGC TTGAAGCTCT CTGGCTCACT 
GGCATTTGCC ATAATGAGAA GAATGAAGTC ATGAGCAGCC AGCTGGACAT AGATAACATG 
GCTGGAGTCT TCTATATGTT GGGGGCAGCC ATGGCTCTCA GTCTTATCAC CTTCATCGCC 
GAACATCTCT TTTATTGGCA ATTCCGCCAC TGCTTCATGG GTGTCTGCTC TGGCAAACCT 
GGTGTTGTTT TCTCCATCAG CAGGGGTATT TACAGCTGCA TTCATGGAGT GGCTATTGAA 
GATCGTCATT CTTCAATGAA CTCCCCCACT GCCACCATGA ACAATACCCA TTCTAATATT 
TTGCGCCTGC TCCGAACAGC AAAGAACATG GCAAACCTTT CAGGGGTCAA TGGCTCACCA 
CAAAGTGCCC TGGATTTCAT TCGCCGTGAA TCATCTGTCT ATGATATCTC AGAGCACCGC 
CGCAGCTTCA CACACTCTGA CTGCAAATCT TATAACAACC CACCCTGTGA AGAGAACCTT 
TTTAGTGATT ACATTAGTGA AGTAGAAAGG ACCTTTGGGA ATTTACAGTT GAAAGAAAGT 
AATGTTTACC AAGACCATTA TCACCACCAC CATCGCCCCC ATAGCATAGG CAGTGCCAGC 
TCTTTAGATG GTTTGTATGA CTGTGATAAT CCACCTTTCT CTGCCCAGCC TCGGCCCCTC 
AGTAAGAAGC CATTAGATAT TGGTTTGCCA CCATCCAAAC ATGGCCCGCT AGGTGATATT 
TATGGAAAGT TGTCTTTCAA GAATGATCGG TACGGTGGAG GAGGGGGTCA TGATGACTTG 
ATCCGTTCAG ATGTCTCAGA CATATCTACT CATACAGTGA CTTATGGCAA CATTGAGGGC 
AATGCTGCAA AGCGACGAAA ACAGCAGTAT AAGGATAGTT TAAAGAAACG GCCTGCTTCA 
GCTAAGTCAC GGAGAGAGTT TGATGAGATT GAGTTGGCCT ATCGTCGGCG TCCCCGATCC 
CCAGATCACA AACGTTACTT CAGGGACAAG GAAGGGCTGA GAGATTTCTA TTTGGACCAG 
TTCCGGGCTA AGGAGAACTC ACCGCACTGG GAGCATGTCG ATCTGACAGA TATTTATAAA 
GAGAGGGGAG ATGACTTCAA ACGTGATACG ATAGGGGGAG CAGGGACATG CACTAATCGG 
ACCCACCACA AACATGGGTC AGGGGAGTTT GGAGCAAACA ATGAGCACAA GCACAGTGTT 
GTGAGTGGGG TACCAGCACC ATGGGAGAAA AACCTCACTA ATCTTGATTG GGAGGAACGA 
CCAGGGGCTA ATTATTGCCG CAGTTGCCCA TCTAAGCTGC ACAACTACAC TCCAACAGTG 
GTGGGACAGA ACTCCACCCG TCAGCCATGC ATCCGGTGTG AAGCCTGCAA AAAGGCAGGC 
AACCTCTATG ACATCAGTGA GGACAACTCC CTTCAAGAGC TGGATCAGCC CTCTGCTCCT 
GTGCCAGTGG CAACCAGCAC CTCCACTACC AAGTATCCTC AGAGCCCTTC CAACTCTGCC 
TCCAAAGTGC AGAAGAAGAA TCGCAACAAG CTCCGCCGGC AGCACTCCTA TGACACCTTT 
GTGGATCTGC AAAAGGAAGA CCCATCCTTG GCACCCCGTA GTGTGAGCCT GAAAGACAAG 
GGCCGATTTT TGGAAGGAAG TCCCTATGCC CATATGTTTG AGATGCCACC AAACGAGTCC 
ACATTTGTCA ACAACAAGTC CTCAGTGCCC GCTACCAGCC ACCACCTCCA CAACAATCCT 
GGCATTGGTG GTGGTTATAT GCTCAGCAAG TCGCTCTACC CTGACCGGGT CACTCAAAAC 
CCTTTCATCC CCACTTTTGG GGATGACCAG TGCTTGCTCC ATGGCAGCAA ATCCTATTTC 
TTCAGGCAGC CTGTGGTGGC AGCAGGGCCC AAGGCCAGGC CAGACTTCCG AGCCATTGTC 
ACCACCAACA AGCCGGTGGT CTCAGCCCTT CATGGGGCTG TGCCAGCCCG TTTCCAGAAG 
GACATCTGTA TAGGGAACCA GTCAAACCCC TGTGTGCCTA ACAACAAAAA CCCCAGGGCT 
TTCAATGGCT CCAGCAACGG GCATGTTTAT GAGAAACTTT CCAGTATTGA ATCTGATGTC 
TGA

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

RefSeq	XP_016852464.1
CDS	79..4581
Translation	MRPRAECYSSKFWLMLAVLATTGGGIWAQKNHPSIGIAVILVGTSDEVAITDAHKKDDFHHLSLMPRVELVAMNETDPKSIITRICDIMSDRRVQGVVFADDTDQEAIAQILDFISAQTLTPILGIHGGSSMIMADKDESSMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFVNKVRSTIENSFVGWELEEVLLLDMSLDDGDSKIQNQLKKLQSPVILLYCTKEEATYIFEVANSVGLTGYDYTWIVPSLVAGDTDTVPSEFPTGLISVSYDEWDYGLRDRVKDGIAIITTAASDMLSEHSFIPEPKSSCYNTQDKRIYQSNMLNRYLINVTFEGRNLSFSEDGYQMHPKLVIILLTKSRTWDRVGWWKDKRLKMKYYVWPRSELYPNCEEREDDHLSIVTLEEAPFVIVENVDPLSGTCMRNTVPCQKRIVSENKTDEETAYIKKCCKGFCIDILKKISKFVKFTYDLYLVTNGKHGKKVNGTWNGMIGEVVAKRAYMAVGSLTINAERSEVVDFSVPFIETGISVMVSRSNGTVSPSAFLEPFSADVWVMMFVMLLIISAVAVFVFEYFSPVGYNRCLADGREPGGPSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEYVDQVSGLSDKKFQNPNAFSPPFRFGTVPNGSTERNIRNNYELMHAYMVKFNQRSVQDALSSLKTGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFASTGYGIAIQKNSGWKRQVDLAILQLFGDGEMEELEALWLTGICHNEKNEVMSSQLDIDNMAGVFYMLGAAMALSLITFIAEHLFYWQFRHCFMGVCSGKPGVVFSISRGIYSCIHGVAIEDRHSSMNSPTATMNNTHSNILRLLRTAKNMANLSGVNGSPQSALDFIRRESSVYDISEHRRSFTHSDCKSYNNPPCEENLFSDYISEVERTFGNLQLKESNVYQDHYHHHHRPHSIGSASSLDGLYDCDNPPFSAQPRPLSKKPLDIGLPPSKHGPLGDIYGKLSFKNDRYGGGGGHDDLIRSDVSDISTHTVTYGNIEGNAAKRRKQQYKDSLKKRPASAKSRREFDEIELAYRRRPRSPDHKRYFRDKEGLRDFYLDQFRAKENSPHWEHVDLTDIYKERGDDFKRDTIGGAGTCTNRTHHKHGSGEFGANNEHKHSVVSGVPAPWEKNLTNLDWEERPGANYCRSCPSKLHNYTPTVVGQNSTRQPCIRCEACKKAGNLYDISEDNSLQELDQPSAPVPVATSTSTTKYPQSPSNSASKVQKKNRNKLRRQHSYDTFVDLQKEDPSLAPRSVSLKDKGRFLEGSPYAHMFEMPPNESTFVNNKSSVPATSHHLHNNPGIGGGYMLSKSLYPDRVTQNPFIPTFGDDQCLLHGSKSYFFRQPVVAAGPKARPDFRAIVTTNKPVVSALHGAVPARFQKDICIGNQSNPCVPNNKNPRAFNGSSNGHVYEKLSSIESDV

Target ORF information:

RefSeq Version	XM_016996975.1
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis glutamate ionotropic receptor NMDA type subunit 2B (grin2b), transcript variant X2, mRNA.

Target ORF information:

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

XM_016996975.1

ORF Insert Sequence:

ATGAGGCCCA GAGCAGAGTG CTACTCTTCA AAGTTCTGGC TTATGCTGGC AGTCTTAGCA 
ACAACAGGTG GTGGGATCTG GGCCCAAAAG AACCACCCCA GCATTGGCAT TGCGGTCATC 
TTGGTGGGCA CCTCTGACGA AGTAGCTATC ACAGATGCCC ACAAGAAAGA TGACTTCCAC 
CACCTCTCTC TCATGCCTCG TGTGGAACTG GTGGCCATGA ATGAGACAGA TCCCAAGAGC 
ATCATCACCC GCATCTGTGA TATCATGTCT GACCGGAGGG TTCAAGGTGT GGTGTTTGCT 
GATGATACGG ACCAGGAAGC CATTGCCCAG ATCCTGGACT TCATTTCTGC CCAGACCCTC 
ACACCCATTC TAGGTATCCA TGGAGGCTCT TCCATGATCA TGGCAGATAA GGATGAATCA 
TCCATGTTCT TCCAATTCGG CCCATCAATA GAACAACAGG CTTCTGTCAT GCTCAATATC 
ATGGAAGAAT ATGACTGGTA CATCTTCTCC ATTGTCACTA CCTACTTTCC TGGCTATCAG 
GACTTTGTGA ACAAGGTCCG CAGCACTATT GAAAACAGCT TTGTGGGCTG GGAGCTAGAA 
GAAGTACTCT TGCTGGACAT GTCTTTGGAT GATGGGGACT CAAAGATCCA GAATCAGCTC 
AAGAAACTTC AGAGTCCTGT CATCCTCCTT TACTGCACTA AGGAAGAAGC TACCTATATC 
TTTGAGGTGG CCAACTCTGT GGGTCTGACT GGGTATGATT ACACATGGAT TGTGCCCAGT 
TTGGTAGCTG GAGATACAGA CACTGTGCCC TCTGAATTCC CCACTGGACT TATTTCTGTA 
TCTTACGATG AATGGGACTA TGGTCTTCGT GACAGGGTGA AAGATGGAAT AGCCATAATA 
ACCACAGCCG CCTCTGACAT GCTGTCTGAG CACAGCTTCA TTCCTGAGCC TAAGAGTAGT 
TGCTACAACA CACAAGACAA GAGGATCTAC CAATCCAACA TGTTGAATAG GTACCTGATT 
AATGTCACCT TTGAAGGAAG GAATTTGTCT TTCAGTGAGG ATGGCTACCA GATGCATCCC 
AAATTGGTTA TCATCCTTCT GACAAAGTCA AGGACGTGGG ACAGGGTGGG ATGGTGGAAG 
GACAAGCGCC TCAAGATGAA GTATTATGTG TGGCCACGTT CAGAACTGTA CCCTAACTGC 
GAGGAGCGCG AGGATGACCA TCTTAGTATT GTGACTCTAG AAGAAGCTCC ATTTGTAATA 
GTGGAAAATG TGGATCCGCT AAGTGGTACC TGCATGCGAA ACACTGTCCC GTGCCAAAAA 
CGAATTGTAT CAGAGAACAA GACAGATGAG GAAACTGCCT ATATCAAAAA ATGTTGCAAA 
GGATTTTGTA TCGATATTCT TAAGAAAATC TCAAAGTTTG TGAAGTTCAC CTATGACCTT 
TACTTGGTAA CAAATGGTAA ACATGGCAAG AAGGTCAATG GGACATGGAA TGGAATGATA 
GGCGAGGTGG TTGCCAAACG TGCCTACATG GCAGTGGGAT CCCTCACCAT AAATGCAGAG 
CGATCGGAAG TTGTTGACTT TTCTGTGCCC TTCATTGAGA CAGGCATCAG CGTAATGGTG 
TCGCGAAGCA ATGGAACTGT CTCACCTTCT GCCTTCTTAG AACCATTCAG TGCTGACGTG 
TGGGTGATGA TGTTTGTAAT GCTGCTTATA ATCTCTGCGG TGGCTGTCTT TGTCTTTGAA 
TACTTCAGCC CTGTGGGATA CAACCGATGT CTGGCGGATG GCAGAGAGCC AGGTGGTCCT 
TCTTTCACCA TTGGCAAAGC AATCTGGTTG CTGTGGGGTC TGGTTTTCAA CAACTCTGTG 
CCGGTGCAGA ATCCCAAGGG AACAACTAGC AAGATCATGG TATCTGTGTG GGCCTTCTTT 
GCTGTCATCT TTCTGGCCAG TTACACTGCC AATTTGGCTG CCTTCATGAT CCAGGAGGAA 
TATGTGGACC AGGTGTCTGG ACTGAGCGAC AAAAAGTTTC AAAATCCAAA TGCTTTTTCA 
CCTCCTTTTC GTTTTGGGAC AGTTCCTAAT GGCAGTACAG AGAGGAATAT TCGCAACAAT 
TATGAACTGA TGCATGCTTA TATGGTGAAG TTCAACCAAA GATCGGTACA AGATGCATTG 
TCCTCACTGA AAACAGGGAA GCTGGATGCT TTTATCTATG ATGCAGCTGT GCTAAACTAC 
ATGGCTGGCA GAGATGAAGG CTGCAAGCTG GTGACAATTG GCAGTGGGAA GGTCTTTGCT 
TCCACAGGGT ATGGCATTGC CATCCAGAAG AATTCAGGCT GGAAACGTCA AGTGGATCTG 
GCAATCTTAC AGCTTTTTGG TGATGGAGAG ATGGAGGAGC TTGAAGCTCT CTGGCTCACT 
GGCATTTGCC ATAATGAGAA GAATGAAGTC ATGAGCAGCC AGCTGGACAT AGATAACATG 
GCTGGAGTCT TCTATATGTT GGGGGCAGCC ATGGCTCTCA GTCTTATCAC CTTCATCGCC 
GAACATCTCT TTTATTGGCA ATTCCGCCAC TGCTTCATGG GTGTCTGCTC TGGCAAACCT 
GGTGTTGTTT TCTCCATCAG CAGGGGTATT TACAGCTGCA TTCATGGAGT GGCTATTGAA 
GATCGTCATT CTTCAATGAA CTCCCCCACT GCCACCATGA ACAATACCCA TTCTAATATT 
TTGCGCCTGC TCCGAACAGC AAAGAACATG GCAAACCTTT CAGGGGTCAA TGGCTCACCA 
CAAAGTGCCC TGGATTTCAT TCGCCGTGAA TCATCTGTCT ATGATATCTC AGAGCACCGC 
CGCAGCTTCA CACACTCTGA CTGCAAATCT TATAACAACC CACCCTGTGA AGAGAACCTT 
TTTAGTGATT ACATTAGTGA AGTAGAAAGG ACCTTTGGGA ATTTACAGTT GAAAGAAAGT 
AATGTTTACC AAGACCATTA TCACCACCAC CATCGCCCCC ATAGCATAGG CAGTGCCAGC 
TCTTTAGATG GTTTGTATGA CTGTGATAAT CCACCTTTCT CTGCCCAGCC TCGGCCCCTC 
AGTAAGAAGC CATTAGATAT TGGTTTGCCA CCATCCAAAC ATGGCCCGCT AGGTGATATT 
TATGGAAAGT TGTCTTTCAA GAATGATCGG TACGGTGGAG GAGGGGGTCA TGATGACTTG 
ATCCGTTCAG ATGTCTCAGA CATATCTACT CATACAGTGA CTTATGGCAA CATTGAGGGC 
AATGCTGCAA AGCGACGAAA ACAGCAGTAT AAGGATAGTT TAAAGAAACG GCCTGCTTCA 
GCTAAGTCAC GGAGAGAGTT TGATGAGATT GAGTTGGCCT ATCGTCGGCG TCCCCGATCC 
CCAGATCACA AACGTTACTT CAGGGACAAG GAAGGGCTGA GAGATTTCTA TTTGGACCAG 
TTCCGGGCTA AGGAGAACTC ACCGCACTGG GAGCATGTCG ATCTGACAGA TATTTATAAA 
GAGAGGGGAG ATGACTTCAA ACGTGATACG ATAGGGGGAG CAGGGACATG CACTAATCGG 
ACCCACCACA AACATGGGTC AGGGGAGTTT GGAGCAAACA ATGAGCACAA GCACAGTGTT 
GTGAGTGGGG TACCAGCACC ATGGGAGAAA AACCTCACTA ATCTTGATTG GGAGGAACGA 
CCAGGGGCTA ATTATTGCCG CAGTTGCCCA TCTAAGCTGC ACAACTACAC TCCAACAGTG 
GTGGGACAGA ACTCCACCCG TCAGCCATGC ATCCGGTGTG AAGCCTGCAA AAAGGCAGGC 
AACCTCTATG ACATCAGTGA GGACAACTCC CTTCAAGAGC TGGATCAGCC CTCTGCTCCT 
GTGCCAGTGG CAACCAGCAC CTCCACTACC AAGTATCCTC AGAGCCCTTC CAACTCTGCC 
TCCAAAGTGC AGAAGAAGAA TCGCAACAAG CTCCGCCGGC AGCACTCCTA TGACACCTTT 
GTGGATCTGC AAAAGGAAGA CCCATCCTTG GCACCCCGTA GTGTGAGCCT GAAAGACAAG 
GGCCGATTTT TGGAAGGAAG TCCCTATGCC CATATGTTTG AGATGCCACC AAACGAGTCC 
ACATTTGTCA ACAACAAGTC CTCAGTGCCC GCTACCAGCC ACCACCTCCA CAACAATCCT 
GGCATTGGTG GTGGTTATAT GCTCAGCAAG TCGCTCTACC CTGACCGGGT CACTCAAAAC 
CCTTTCATCC CCACTTTTGG GGATGACCAG TGCTTGCTCC ATGGCAGCAA ATCCTATTTC 
TTCAGGCAGC CTGTGGTGGC AGCAGGGCCC AAGGCCAGGC CAGACTTCCG AGCCATTGTC 
ACCACCAACA AGCCGGTGGT CTCAGCCCTT CATGGGGCTG TGCCAGCCCG TTTCCAGAAG 
GACATCTGTA TAGGGAACCA GTCAAACCCC TGTGTGCCTA ACAACAAAAA CCCCAGGGCT 
TTCAATGGCT CCAGCAACGG GCATGTTTAT GAGAAACTTT CCAGTATTGA ATCTGATGTC 
TGA