PARD3 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	PARD3
Entrez Gene ID	102573113
Full Name	par-3 family cell polarity regulator
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019497318.1	XP_019352863.1	partitioning defective 3 homolog

Pathways from BioSystems
Gene Ontology

The following PARD3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PARD3 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
OAl48044	XM_019497318.1 Latest version!	Alligator mississippiensis par-3 family cell polarity regulator (PARD3), 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)

PARD3 ( XM_019497318.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019352863.1 Alligator mississippiensis par-3 family cell polarity regulator (PARD3), mRNA.

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CloneID	OAl48044
Clone ID Related Accession (Same CDS sequence)	XM_019497318.1
Accession Version	XM_019497318.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4002bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	partitioning defective 3 homolog
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017707901.1) 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 :: Alligator mississippiensis Annotation Release 102 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGACTAATG GAGGCTTTGG CCTTTTTTAT AATTCACTGA CGTTGAAAAG AAGGTCAGAG 
GATCCAAACT ATTGGATACA AGTACATCGA CTAGAGCATG GTGATGGAGG AATCCTAGAC 
CTTGATGACA CGCTTTGTGA TGTAGCTGAT GACAAAGACA GACTTGTAGC CATATTTGAC 
GAACAAGATC CACATCATGG AGGCGACGGC ACCAGTGCCA GCTCGACTGG CACTCAAAGT 
CCAGAGATTT TTGGCAGTGA ACTTGGCTCC AATACCACTT CAGCCTTTCA GCCTTATCAA 
GCAACAAGTG AAATTGAGGT CACGCCTTCA GTGCTTCGTG CAAATATGCC TCTCCATGTG 
CGGCGTAGTA GTGATCCTGC ACTGGTTGGT CTTTCAACCT CTGTGTGTGA TACAAACTTT 
CCTGCAGAAG AGCCTTCACG AAAAAATCCT ACAAGATGGT CCACAACAGC AGGCTTCCTC 
AAACAGAATG CCCCTGGGGG ACTACCCACT AGTCATGAGA GAAAGAAAGA TGAAAACTAC 
AGAAGCCTAC CACGGGATAC TAGTAGCTGG TCTAACCAGT TTCAGAGAGA CAATGCTCGC 
TCATCGTTAA GTGCCAGTCA TCCCATGGTG GACAAGTGGC TGGAGAGGCA AGAACAGGAT 
GAAGATGGGG TGGACGAGGA CAGCAGTAGA GTTGAGCCAG TTGGACATGC AGATACTGGT 
TTGGAAAATG CAACAAATTT TTCCCTGGAT GATATGGTAA AGCTCGTAGA AGTCTCCAAC 
GACGGTGGGC CTCTGGGAAT CCATGTAGTG CCTTTCAGTG CCCGAGGCGG AAGAACCCTG 
GGGTTATTAG TAAAACGATT GGAGAAAGGT GGAAAAGCTG AACAAGAAAA CCTTTTTCAT 
GAGAATGATT GTATTGTCAG GATTAATGAT GGAGACCTTC GCAATAGGAG ATTTGAACAA 
GCACAACATA TGTTTCGTCA AGCCATGCGT GCACCCATCA TGTGGTTCCA TGTGGTTCCT 
GCAGCAAATA AAGAGCAGTA TGAACAGTTA TCCCAAAGCG AGAAGAACAC TTACTACTCC 
AGCCGGTTTA GCCCTGATTC CCAGTATGCT GACAACAAAA GTATTAACAA TGCTGGACTT 
CACACTTTAC AAAGAATATC TAGAGCGGGT AACCAGTCGG ACCAGACAGA CTCTTACTCA 
CAGCTACCTC ACAGTGTGAA TTCATCAGGG AAACCACCAT CAGGCCTGGC TCCATCCCCT 
CAAAAAGTTC TTACCTCCAT TGCAAACAGT GGATATAACA CAAAAAGGAT AGGAAAGAGA 
ATTAATATAC AGCTGAGAAA AGGTACAGAA GGCTTAGGGT TCAGTATCAC TTCAAGAGAT 
GTACCAATTG GTGGCTCAGC TCCAATTTAT GTGAAGAACA TCCTTCCCAG AGGTGCAGCC 
ATTCAAGATG GGAGACTAAA GGCTGGAGAC CGACTGATTG AGGTAAATGG CGTCGATTTA 
ACAGGCAAAA CCCAAGAGGA AGTTGTCTCC CTGCTGAGAA GCACCAAGAT GGGAGGGACT 
GTGAGCCTTT TGATTTTTCG TCAGGAAGAA GCATTCCATC CAAGGGAACT GAATGCAGAG 
CAAAGCCAGT CACATATTCC AAAGGAAACG AAAGCAGAAG AAGAAGATCT TGTTCTTACA 
CCTGATGGCA CCAGGGAATT CCTAACATTT GAAGTTCCAC TTAATGATTC TGGTTCAGCT 
GGACTTGGTG TCAGTGTCAA AGGTAACCGG TCAAAAGAAA ACCATGCAGA CCTAGGAATC 
TTTGTGAAGT CTATCATTAA TGGAGGAGCA GCTTCTAAGG ATGGCAGGCT GCGAGTGAAC 
GATCAGTTAA TAGCAGTAAA TGGAGAATCC TTATTGGGCA AGACAAACCA GGATGCTATG 
GAAACCCTAA GAAGGTCCAT GTCTACAGAA GGAAACAAAC GAGGAATGAT TCAGCTTATT 
GTGGCTAGAC GAATAAGTAA AAGCAATGAG TTGGAGTCAC CTGGGAGCCC CCCAGGGCCA 
GAGCTGCCTG TAGAGACTAT ACTGGATGAC AGGGAACGCA GGATTTCCCA TTCGCTCTAC 
AGTGGGATCG AGGGGCTCAG TGAATCACCC ACAAGGAATG CTGCACTAAG TAGGATAATG 
GGTAAATACC AGCTGTCTCC AACGGTGAAT ATGCCCCAAG ATGACATGGT TATTATTGAA 
GATGATAGAT TGCCAGTACT TCCACCACAT CTTTCTGACC AGTCATCATC TAGTTCTCAT 
GATGATGTGG GTTTTGGAAC AGTGGATGCT GGTGCATGGA CTAAAGGCAC AATTAATGAG 
TCCACAGACT GCACTCTTAG CCCAGATGTT GATCCAGTGC TTGCCTTCCA GCGAGAGGGT 
TTTGGACGAC AGAGCATGTC AGAAAAGCGC ACAAAGCAAT TTTCAGATGC CAGTCAGTTG 
GAGTTCGTTA AAACACGAAA ATCCAAAAGC ATGGATTTAG TAGCTGACGA GACTAAGCTC 
AGTACAATGG ATGACCAGAA AACAGGTTCC CCAACCAGAG ATGTGGGACC TTCATTAGGT 
CTGAAGAAAT CCAGTTCATT AGAAAGTCTG CAGACAGCCG TTGCTGAGGT GACTTTGAAT 
GGTGACATTC CTTTCCATCG TCCGCGTCCA CGGATCATCC GAGGACGAGG CTGCAATGAG 
AGCTTCAGAG CTGCAATTGA CAAATCATAT GATAAACCTG TTGCAGATGA TGATGATGAA 
GGCATGGAAA CCTTGGAGGA AGACACAGAG GAGAGTTCAA GATCAGGTAG AGAATCTGTG 
TCCACAGCAA GTGACCAGCC ATCTCACTCA CTAGAGAGAC AGATGAATGG AAGCCAAGAT 
AAGGGGGACA GGAGAAAAGC TGGGAAGGAT AAGAAGAAAG ACCGAGATAA AGAGAAGGAT 
AAAATCAAGG CAAAGAAAGG AATGTTGAAA GGCTTGGGAG ATATGTTCAG GTTTGGCAAA 
CATCGCAAAG ATGACAAGAT TGAGAAAACT GGTAAAATAA AAGTGCAGGA AGCCCTTACT 
TCAGAAGAGG AGAGAATACG AATGAAGCAA GAACAGGAGA GAATTCAAGC TAAAACACGA 
GAATTTCGAG AGAGACAAGC TCGTGAACGT GACTATGCCG AGATCCAAGA GTTTAACCGG 
ACATTTAGCT GTGATGCTGA TCCAATGTAT GCTGGAATTG CTTCTTATGA CTCTTCTTCA 
AATAGTGGTA CAATGACTTT GAATATCAGA CCACAGAGCC CTAGGGAAGG ACAGACTGTT 
GAAGCGTTGT ACGCCCAAGT GAAAAAACCA CGAAATTCAA AATCTTCACC TATAGACAGC 
AACAGATCAA CTCCTAACAA TCATGACCGG ATACAACGTC TGAGGCAAGA ATTTCAGCAA 
GCAAAGCAAG ATGAGGATGT AGAAGACCGG AGACGTACCT ATAGTTTTGA ACAACCATGG 
CCAAGCTCCA AGACATACTC ACAGAGTGGC AGACACTCTG TGTCTGTAGA AGTTCAGATG 
CAGCGGCAGA GACAGGAAGA GAGGGAGAGT TTTCAGCAAG CTCAGCGCCA GTACAGTTCA 
TTACCCAGGC AAAGCAGAAA AAATGCCAGT TCTGTATCAC AAGATTCCTG GGAGCAGAGC 
TATTCTCCTG GTGAAGGGTT CCAGACTGCA AAAGAAAACC CCAGGTATTC CAGCTATCAG 
GGATCAAGAA ACGGCTACAT GGGAGGACAT GGCTTCAATG CAAGGGTAAT GCTGGAAACA 
CAGGAACTGC TCCGTCAAGA ACAGAGGCGG AAAGAACAAC AACTGAAAAA AAAGACATCT 
TCTGAAGGGT CTAACAATTA TGACTCATAT AAAAAAATTC AGGACCTTAA TTATACTTCT 
CCAAAAGGCC CTTTTCGGCA AGATGTACCA CCTTCACCTT CTCAGGTAGC TAGGCTGAAC 
AGACTACAAA CGCCGGAAAA GGGAAGACCA TTTTATTCTT GA

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

RefSeq	XP_019352863.1
CDS	1..4002
Translation	MTNGGFGLFYNSLTLKRRSEDPNYWIQVHRLEHGDGGILDLDDTLCDVADDKDRLVAIFDEQDPHHGGDGTSASSTGTQSPEIFGSELGSNTTSAFQPYQATSEIEVTPSVLRANMPLHVRRSSDPALVGLSTSVCDTNFPAEEPSRKNPTRWSTTAGFLKQNAPGGLPTSHERKKDENYRSLPRDTSSWSNQFQRDNARSSLSASHPMVDKWLERQEQDEDGVDEDSSRVEPVGHADTGLENATNFSLDDMVKLVEVSNDGGPLGIHVVPFSARGGRTLGLLVKRLEKGGKAEQENLFHENDCIVRINDGDLRNRRFEQAQHMFRQAMRAPIMWFHVVPAANKEQYEQLSQSEKNTYYSSRFSPDSQYADNKSINNAGLHTLQRISRAGNQSDQTDSYSQLPHSVNSSGKPPSGLAPSPQKVLTSIANSGYNTKRIGKRINIQLRKGTEGLGFSITSRDVPIGGSAPIYVKNILPRGAAIQDGRLKAGDRLIEVNGVDLTGKTQEEVVSLLRSTKMGGTVSLLIFRQEEAFHPRELNAEQSQSHIPKETKAEEEDLVLTPDGTREFLTFEVPLNDSGSAGLGVSVKGNRSKENHADLGIFVKSIINGGAASKDGRLRVNDQLIAVNGESLLGKTNQDAMETLRRSMSTEGNKRGMIQLIVARRISKSNELESPGSPPGPELPVETILDDRERRISHSLYSGIEGLSESPTRNAALSRIMGKYQLSPTVNMPQDDMVIIEDDRLPVLPPHLSDQSSSSSHDDVGFGTVDAGAWTKGTINESTDCTLSPDVDPVLAFQREGFGRQSMSEKRTKQFSDASQLEFVKTRKSKSMDLVADETKLSTMDDQKTGSPTRDVGPSLGLKKSSSLESLQTAVAEVTLNGDIPFHRPRPRIIRGRGCNESFRAAIDKSYDKPVADDDDEGMETLEEDTEESSRSGRESVSTASDQPSHSLERQMNGSQDKGDRRKAGKDKKKDRDKEKDKIKAKKGMLKGLGDMFRFGKHRKDDKIEKTGKIKVQEALTSEEERIRMKQEQERIQAKTREFRERQARERDYAEIQEFNRTFSCDADPMYAGIASYDSSSNSGTMTLNIRPQSPREGQTVEALYAQVKKPRNSKSSPIDSNRSTPNNHDRIQRLRQEFQQAKQDEDVEDRRRTYSFEQPWPSSKTYSQSGRHSVSVEVQMQRQRQEERESFQQAQRQYSSLPRQSRKNASSVSQDSWEQSYSPGEGFQTAKENPRYSSYQGSRNGYMGGHGFNARVMLETQELLRQEQRRKEQQLKKKTSSEGSNNYDSYKKIQDLNYTSPKGPFRQDVPPSPSQVARLNRLQTPEKGRPFYS

Target ORF information:

RefSeq Version	XM_019497318.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis par-3 family cell polarity regulator (PARD3), mRNA.

Target ORF information:

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

XM_019497318.1

ORF Insert Sequence:

ATGACTAATG GAGGCTTTGG CCTTTTTTAT AATTCACTGA CGTTGAAAAG AAGGTCAGAG 
GATCCAAACT ATTGGATACA AGTACATCGA CTAGAGCATG GTGATGGAGG AATCCTAGAC 
CTTGATGACA CGCTTTGTGA TGTAGCTGAT GACAAAGACA GACTTGTAGC CATATTTGAC 
GAACAAGATC CACATCATGG AGGCGACGGC ACCAGTGCCA GCTCGACTGG CACTCAAAGT 
CCAGAGATTT TTGGCAGTGA ACTTGGCTCC AATACCACTT CAGCCTTTCA GCCTTATCAA 
GCAACAAGTG AAATTGAGGT CACGCCTTCA GTGCTTCGTG CAAATATGCC TCTCCATGTG 
CGGCGTAGTA GTGATCCTGC ACTGGTTGGT CTTTCAACCT CTGTGTGTGA TACAAACTTT 
CCTGCAGAAG AGCCTTCACG AAAAAATCCT ACAAGATGGT CCACAACAGC AGGCTTCCTC 
AAACAGAATG CCCCTGGGGG ACTACCCACT AGTCATGAGA GAAAGAAAGA TGAAAACTAC 
AGAAGCCTAC CACGGGATAC TAGTAGCTGG TCTAACCAGT TTCAGAGAGA CAATGCTCGC 
TCATCGTTAA GTGCCAGTCA TCCCATGGTG GACAAGTGGC TGGAGAGGCA AGAACAGGAT 
GAAGATGGGG TGGACGAGGA CAGCAGTAGA GTTGAGCCAG TTGGACATGC AGATACTGGT 
TTGGAAAATG CAACAAATTT TTCCCTGGAT GATATGGTAA AGCTCGTAGA AGTCTCCAAC 
GACGGTGGGC CTCTGGGAAT CCATGTAGTG CCTTTCAGTG CCCGAGGCGG AAGAACCCTG 
GGGTTATTAG TAAAACGATT GGAGAAAGGT GGAAAAGCTG AACAAGAAAA CCTTTTTCAT 
GAGAATGATT GTATTGTCAG GATTAATGAT GGAGACCTTC GCAATAGGAG ATTTGAACAA 
GCACAACATA TGTTTCGTCA AGCCATGCGT GCACCCATCA TGTGGTTCCA TGTGGTTCCT 
GCAGCAAATA AAGAGCAGTA TGAACAGTTA TCCCAAAGCG AGAAGAACAC TTACTACTCC 
AGCCGGTTTA GCCCTGATTC CCAGTATGCT GACAACAAAA GTATTAACAA TGCTGGACTT 
CACACTTTAC AAAGAATATC TAGAGCGGGT AACCAGTCGG ACCAGACAGA CTCTTACTCA 
CAGCTACCTC ACAGTGTGAA TTCATCAGGG AAACCACCAT CAGGCCTGGC TCCATCCCCT 
CAAAAAGTTC TTACCTCCAT TGCAAACAGT GGATATAACA CAAAAAGGAT AGGAAAGAGA 
ATTAATATAC AGCTGAGAAA AGGTACAGAA GGCTTAGGGT TCAGTATCAC TTCAAGAGAT 
GTACCAATTG GTGGCTCAGC TCCAATTTAT GTGAAGAACA TCCTTCCCAG AGGTGCAGCC 
ATTCAAGATG GGAGACTAAA GGCTGGAGAC CGACTGATTG AGGTAAATGG CGTCGATTTA 
ACAGGCAAAA CCCAAGAGGA AGTTGTCTCC CTGCTGAGAA GCACCAAGAT GGGAGGGACT 
GTGAGCCTTT TGATTTTTCG TCAGGAAGAA GCATTCCATC CAAGGGAACT GAATGCAGAG 
CAAAGCCAGT CACATATTCC AAAGGAAACG AAAGCAGAAG AAGAAGATCT TGTTCTTACA 
CCTGATGGCA CCAGGGAATT CCTAACATTT GAAGTTCCAC TTAATGATTC TGGTTCAGCT 
GGACTTGGTG TCAGTGTCAA AGGTAACCGG TCAAAAGAAA ACCATGCAGA CCTAGGAATC 
TTTGTGAAGT CTATCATTAA TGGAGGAGCA GCTTCTAAGG ATGGCAGGCT GCGAGTGAAC 
GATCAGTTAA TAGCAGTAAA TGGAGAATCC TTATTGGGCA AGACAAACCA GGATGCTATG 
GAAACCCTAA GAAGGTCCAT GTCTACAGAA GGAAACAAAC GAGGAATGAT TCAGCTTATT 
GTGGCTAGAC GAATAAGTAA AAGCAATGAG TTGGAGTCAC CTGGGAGCCC CCCAGGGCCA 
GAGCTGCCTG TAGAGACTAT ACTGGATGAC AGGGAACGCA GGATTTCCCA TTCGCTCTAC 
AGTGGGATCG AGGGGCTCAG TGAATCACCC ACAAGGAATG CTGCACTAAG TAGGATAATG 
GGTAAATACC AGCTGTCTCC AACGGTGAAT ATGCCCCAAG ATGACATGGT TATTATTGAA 
GATGATAGAT TGCCAGTACT TCCACCACAT CTTTCTGACC AGTCATCATC TAGTTCTCAT 
GATGATGTGG GTTTTGGAAC AGTGGATGCT GGTGCATGGA CTAAAGGCAC AATTAATGAG 
TCCACAGACT GCACTCTTAG CCCAGATGTT GATCCAGTGC TTGCCTTCCA GCGAGAGGGT 
TTTGGACGAC AGAGCATGTC AGAAAAGCGC ACAAAGCAAT TTTCAGATGC CAGTCAGTTG 
GAGTTCGTTA AAACACGAAA ATCCAAAAGC ATGGATTTAG TAGCTGACGA GACTAAGCTC 
AGTACAATGG ATGACCAGAA AACAGGTTCC CCAACCAGAG ATGTGGGACC TTCATTAGGT 
CTGAAGAAAT CCAGTTCATT AGAAAGTCTG CAGACAGCCG TTGCTGAGGT GACTTTGAAT 
GGTGACATTC CTTTCCATCG TCCGCGTCCA CGGATCATCC GAGGACGAGG CTGCAATGAG 
AGCTTCAGAG CTGCAATTGA CAAATCATAT GATAAACCTG TTGCAGATGA TGATGATGAA 
GGCATGGAAA CCTTGGAGGA AGACACAGAG GAGAGTTCAA GATCAGGTAG AGAATCTGTG 
TCCACAGCAA GTGACCAGCC ATCTCACTCA CTAGAGAGAC AGATGAATGG AAGCCAAGAT 
AAGGGGGACA GGAGAAAAGC TGGGAAGGAT AAGAAGAAAG ACCGAGATAA AGAGAAGGAT 
AAAATCAAGG CAAAGAAAGG AATGTTGAAA GGCTTGGGAG ATATGTTCAG GTTTGGCAAA 
CATCGCAAAG ATGACAAGAT TGAGAAAACT GGTAAAATAA AAGTGCAGGA AGCCCTTACT 
TCAGAAGAGG AGAGAATACG AATGAAGCAA GAACAGGAGA GAATTCAAGC TAAAACACGA 
GAATTTCGAG AGAGACAAGC TCGTGAACGT GACTATGCCG AGATCCAAGA GTTTAACCGG 
ACATTTAGCT GTGATGCTGA TCCAATGTAT GCTGGAATTG CTTCTTATGA CTCTTCTTCA 
AATAGTGGTA CAATGACTTT GAATATCAGA CCACAGAGCC CTAGGGAAGG ACAGACTGTT 
GAAGCGTTGT ACGCCCAAGT GAAAAAACCA CGAAATTCAA AATCTTCACC TATAGACAGC 
AACAGATCAA CTCCTAACAA TCATGACCGG ATACAACGTC TGAGGCAAGA ATTTCAGCAA 
GCAAAGCAAG ATGAGGATGT AGAAGACCGG AGACGTACCT ATAGTTTTGA ACAACCATGG 
CCAAGCTCCA AGACATACTC ACAGAGTGGC AGACACTCTG TGTCTGTAGA AGTTCAGATG 
CAGCGGCAGA GACAGGAAGA GAGGGAGAGT TTTCAGCAAG CTCAGCGCCA GTACAGTTCA 
TTACCCAGGC AAAGCAGAAA AAATGCCAGT TCTGTATCAC AAGATTCCTG GGAGCAGAGC 
TATTCTCCTG GTGAAGGGTT CCAGACTGCA AAAGAAAACC CCAGGTATTC CAGCTATCAG 
GGATCAAGAA ACGGCTACAT GGGAGGACAT GGCTTCAATG CAAGGGTAAT GCTGGAAACA 
CAGGAACTGC TCCGTCAAGA ACAGAGGCGG AAAGAACAAC AACTGAAAAA AAAGACATCT 
TCTGAAGGGT CTAACAATTA TGACTCATAT AAAAAAATTC AGGACCTTAA TTATACTTCT 
CCAAAAGGCC CTTTTCGGCA AGATGTACCA CCTTCACCTT CTCAGGTAGC TAGGCTGAAC 
AGACTACAAA CGCCGGAAAA GGGAAGACCA TTTTATTCTT GA