CADPS cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	CADPS
Entrez Gene ID	102567530
Full Name	calcium dependent secretion activator
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019499561.1	XP_019355106.1	calcium-dependent secretion activator 1

Pathways from BioSystems
Gene Ontology

The following CADPS gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CADPS 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
OAl71113	XM_019499561.1 Latest version!	Alligator mississippiensis calcium dependent secretion activator (CADPS), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

CADPS ( XM_019499561.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019355106.1 Alligator mississippiensis calcium dependent secretion activator (CADPS), mRNA.

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CloneID	OAl71113
Clone ID Related Accession (Same CDS sequence)	XM_019499561.1
Accession Version	XM_019499561.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3876bp) 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	calcium-dependent secretion activator 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713410.1) 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 :: 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##

ATGCAGAAGA AAAGCCCCAG CCCGTCCGTG GTGAGCGAGA AGGAGAAGGA GGAGCTGGAG 
CGGCTGCAGA AGGAGGAGGA GGAGAGGAAG AGGCGCCTGC AGCTCTACGT CTTCGTCATG 
CGCTGCATCG CCTACCCCTT CAACGCCAAG CAGCCCACCG ACATGGCCCG GCGGCAGCAG 
AAGATAAGCA AACAGCAACT CCAGACAATC AAGGATCGAT TCCAGGCCTT TCTCAACGGA 
GAAACACAAA TTGTGGCAGA TGAAGCCTTT ATAAATGCGG TGCAGAGTTA CTACGAGGTG 
TTTCTGAAGA GCGACCGGGT GGCCAGGATG GTGCAAAGCG GGGGGTGCTC CGCCAGCGAC 
TCGCGGGAAG TCTTCAAGAA GCACATCGAG AAGAGGGTAC GCAGCCTGCC GGAGATCGAC 
GGCTTGAGCA AGGAGACTGT GCTCAGCTCC TGGATGGCGA AGTTCGACGC CATTTACCGC 
GGCGAGGAGG ACCCCCGCAA GCAGCAGGCC CGGATGACGG CGAGCGCGGC CTCGGAGCTG 
ATCCTCAGCA AGGAGCAGCT CTACGAAATG TTCCAGAATA TCCTGGGCAT CAAGAAGTTT 
GAGCACCAGC TTCTCTATAA CGCGTGCCAG CTGGATAATC CAGACGAGCA AGCAGCGCAA 
ATCCGGCGTG AGTTAGATGG GCGTCTTCAA ATGGCAGAGC AAATCGCCAA GGAACGCAAG 
TTTCCAAAAT TTGTATCCAA AGAAATGGAA AACATGTACA TTGAGGAGCT GAAGTCATCC 
GTCAACCTGC TGATGGCCAA TTTGGAAAGC ATGCCCGTCT CCAAAGGAGG CTCGGAGTTC 
AAGTTGCAGA AGCTGAAACG TAGCCACAAC ACCTCCATCA TCGACATGGG AGAAGAAAAC 
GAAAACCAGC TTTCCAAGTC GGATGTTGTG CTCTCTTTCT CCTTGGAGGT CGTCATCATG 
GAAGTGCAGG GCCTGAAGTC CTTGGCTCCG AACCGCATTG TTTATTGCAC TATGGAAGTC 
GAAGGTGGAG AGAAACTGCA GACCGACCAG GCTGAAGCAT CCAAGCCCAC CTGGGGCACT 
CAAGGTGACT TCAACACGAC GCACGCGCTT CCCGCGGTGA AGGTGAAGCT GTTCACGGAG 
AGCACCGGCG TGCTGGCTCT AGAGGACAAA GAGCTTGGGC GGGTGGTTCT TCACCCGACG 
CCCAACAGCC CCAAACAGTC CGAGTGGCAC AAAATGACTG TTTCCAAAAA CTGCCCGGAC 
CAAGACCTAA AGATCAAGCT GGCAGTCCGA ATGGACAAAC CCCAGAACAT GAAGCATTCT 
GGATACTTGT GGGCCATTGG TAAAAATGTC TGGAAGAGAT GGAAGAAAAG GTTCTTTGTG 
CTGGTCCAGG TGAGTCAATA TACATTTGCT ATGTGCAGCT ACCGGGAGAA AAAGGCTGAA 
CCTCAAGAAC TGCTGCAGCT TGACGGATAC ACGGTGGACT ACACTGACCC CCAGCCAGGC 
TTGGAGGGTG GCCGAGCATT TTTCAATGCC GTGAAGGAAG GCGACACGGT GATCTTTGCC 
AGCGACGACG AGCAGGACCG CATCCTCTGG GTGCAGGCCA TGTACCGGGC CACCGGCCAG 
TCCCACAAAC CGGTGCCACC CACCCAGGTC CAGAAGCTTA ATGCCAAGGG AGGAAACGTG 
CCCCAGCTGG ACGCGCCGAT CTCGCAATTC TCTGGACTCA AGGATGCAGA TAGAGCTCAA 
AAGCATGGCA TGGATGAATT TATCTCTTCC AACCCCTGTA ACTTTGACCA CGCTTCACTC 
TTTGAGATGG TTCAGCGCCT CACTTTGGAC CACAGACTTA ATGATTCCTA TTCTTGTCTG 
GGCTGGTTCA GTCCTGGCCA GGTATTTGTG CTAGATGAGT ATTGTGCACG TAATGGAGTC 
AGAGGCTGTC ACAGACATCT CTGCTACCTC CGAGATTTAC TCGAACGCGC AGAGAACGGA 
GCTATGATTG ATCCCACCTT GCTTCACTAC AGCTTTGCCT TTTGTGCATC CCATGTTCAT 
GGCAACAGGC CTGATGGAAT AGGAACCGTA ACGGTAGACG AGAAGGAACG TTTTGAAGAA 
ATCAAGGAAA GGCTCCGTTT ACTCCTGGAG AATCAAATCA CACATTTTAG GTATTGCTTT 
CCGTTTGGCC GACCAGAAGG TGCATTAAAA GCTACCCTCT CGCTACTGGA AAGGGTCCTT 
ATGAAAGACA TAGTTACTCC AGTTCCTCAA GAGGAGGTAA AAACAGTCAT CCGTAGATGC 
TTGGAGCAGG CAGCTTTAGT CAACTATACT CGACTATCAG AGTATGCCAA AATTGAAGGG 
AAAAAGAGAG AAATGTATGA GCATCCTGTC TTCTGCTTGG CCTCTCAAGT GATGGATTTA 
ACCATTCAGA ATCAAAAGGA TGCAGAAAAT GTAGGCCGGT TAGTCACACC TGCCAAAAAG 
CTAGAAGACA CAATCCGTCT GGCAGAGCTG GTAATTGAAG TCCTGCAGCA GAACGAAGAA 
CACCATGCAG AGGGGAAAGA GGCCTTTGCT TGGTGGTCAG ACTTAATGGT TGAACACGCG 
GAAACCTTCC TGTCACTGTT TGCAGTGGAT ATGGATGCTG CCTTAGAGGT GCAACCCCCA 
GACACGTGGG ACAGCTTTCC ACTATTTCAG CTTCTAAATG ATTTCCTCCG TAGTGACTAT 
AATTTGTGCA ATGGAAAATT CCACAAACAC CTTCAAGACC TGTTTGCTCC ACTTGTTGTT 
AGATATGTCG ATCTGATGGA GTCCTCAATT GCACAATCAA TTCACAGGGG CTTTGAGCGG 
GAATCATGGG AGCCAGTAAA GAGTTTAACA AGTAATCTGC CCAATGTGAA TCTACCCAAT 
GTGAATCTCC CTAAAGTTCC AAACCTACCA GTTAACATCC CACTAGGCAT CCCACAAATG 
CCTAGCTTTT CTGCACCGTC ATGGATGGCT GCTATATATG ATTCTGACAA TGGGTCAGGA 
ACCTCTGAAG ATCTGTTTTG GAAACTTGAT GCCCTACAGA CCTTCATTCG GGATTTACAC 
TGGCCCGAGG AAGAATTTGG AAAACATCTC GAGCAGCGTC TGAAGCTCAT GGCAAGTGAC 
ATGATTGAAT CTTGTGTCAA GAGAACCAGG ATTGCATTTG AAGTAAAGCT GCAAAAAACC 
AGTCGATCAA CAGATTTCCG AGTCCCTCAG TCAATATGCA CCATGTTTAA TGTTATGGTC 
GATGCCAAAG CTCAGTCAAC AAAGCTTTGC AGTATGGAAA TGGGCCAAGA GCACCAGTAC 
CATTCAAAAA TAGATGAACT AATTGAGGAA ACCGTCAAAG AAATGATAAC ACTCTTAGTG 
GCAAAGTTCG TCACCATTCT GGAAGGAGTC CTGGCCAAGC TGTCCAGATA CGATGAAGGG 
ACTTTGTTTT CCTCTTTCCT GTCGTTTACT GTGAAGGCAG CTTCCAAATA CGTGGACGTA 
CCCAAGCCGG GGATGGATGT TGCCGATGCC TATGTGACAT TTGTTCGCCA CTCTCAGGAT 
GTGCTGCGTG ATAAGGTCAA TGAGGAGATG TATATAGAAA GGTTATTTGA TCAATGGTAC 
ACCAGCTCAA TGAATGTCAT GTGCACCTGG CTGACGGACC GCATGGACCT GCAGCTTCAC 
ATTTACCAAC TGAAAACCCT TATTAGGATA GTAAAGAAAA CGTATAGAGA TTTCCGATTG 
CAAGGGGTAC TGGACTCCAC CTTAAACAGC AAAACCTATG ACACAGTTCG AAACCGGCTG 
ACTGTAGAAG AAGCCACAGC TTCCGTTAGC GAAGGTGGAG GTCTTCAGGG CATAACGATG 
AAGGACAGTG ACGAAGAAGA CGAAGAGGAT GATTAG

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

RefSeq	XP_019355106.1
CDS	1..3876
Translation	MQKKSPSPSVVSEKEKEELERLQKEEEERKRRLQLYVFVMRCIAYPFNAKQPTDMARRQQKISKQQLQTIKDRFQAFLNGETQIVADEAFINAVQSYYEVFLKSDRVARMVQSGGCSASDSREVFKKHIEKRVRSLPEIDGLSKETVLSSWMAKFDAIYRGEEDPRKQQARMTASAASELILSKEQLYEMFQNILGIKKFEHQLLYNACQLDNPDEQAAQIRRELDGRLQMAEQIAKERKFPKFVSKEMENMYIEELKSSVNLLMANLESMPVSKGGSEFKLQKLKRSHNTSIIDMGEENENQLSKSDVVLSFSLEVVIMEVQGLKSLAPNRIVYCTMEVEGGEKLQTDQAEASKPTWGTQGDFNTTHALPAVKVKLFTESTGVLALEDKELGRVVLHPTPNSPKQSEWHKMTVSKNCPDQDLKIKLAVRMDKPQNMKHSGYLWAIGKNVWKRWKKRFFVLVQVSQYTFAMCSYREKKAEPQELLQLDGYTVDYTDPQPGLEGGRAFFNAVKEGDTVIFASDDEQDRILWVQAMYRATGQSHKPVPPTQVQKLNAKGGNVPQLDAPISQFSGLKDADRAQKHGMDEFISSNPCNFDHASLFEMVQRLTLDHRLNDSYSCLGWFSPGQVFVLDEYCARNGVRGCHRHLCYLRDLLERAENGAMIDPTLLHYSFAFCASHVHGNRPDGIGTVTVDEKERFEEIKERLRLLLENQITHFRYCFPFGRPEGALKATLSLLERVLMKDIVTPVPQEEVKTVIRRCLEQAALVNYTRLSEYAKIEGKKREMYEHPVFCLASQVMDLTIQNQKDAENVGRLVTPAKKLEDTIRLAELVIEVLQQNEEHHAEGKEAFAWWSDLMVEHAETFLSLFAVDMDAALEVQPPDTWDSFPLFQLLNDFLRSDYNLCNGKFHKHLQDLFAPLVVRYVDLMESSIAQSIHRGFERESWEPVKSLTSNLPNVNLPNVNLPKVPNLPVNIPLGIPQMPSFSAPSWMAAIYDSDNGSGTSEDLFWKLDALQTFIRDLHWPEEEFGKHLEQRLKLMASDMIESCVKRTRIAFEVKLQKTSRSTDFRVPQSICTMFNVMVDAKAQSTKLCSMEMGQEHQYHSKIDELIEETVKEMITLLVAKFVTILEGVLAKLSRYDEGTLFSSFLSFTVKAASKYVDVPKPGMDVADAYVTFVRHSQDVLRDKVNEEMYIERLFDQWYTSSMNVMCTWLTDRMDLQLHIYQLKTLIRIVKKTYRDFRLQGVLDSTLNSKTYDTVRNRLTVEEATASVSEGGGLQGITMKDSDEEDEEDD

Target ORF information:

RefSeq Version	XM_019499561.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis calcium dependent secretion activator (CADPS), mRNA.

Target ORF information:

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

XM_019499561.1

ORF Insert Sequence:

ATGCAGAAGA AAAGCCCCAG CCCGTCCGTG GTGAGCGAGA AGGAGAAGGA GGAGCTGGAG 
CGGCTGCAGA AGGAGGAGGA GGAGAGGAAG AGGCGCCTGC AGCTCTACGT CTTCGTCATG 
CGCTGCATCG CCTACCCCTT CAACGCCAAG CAGCCCACCG ACATGGCCCG GCGGCAGCAG 
AAGATAAGCA AACAGCAACT CCAGACAATC AAGGATCGAT TCCAGGCCTT TCTCAACGGA 
GAAACACAAA TTGTGGCAGA TGAAGCCTTT ATAAATGCGG TGCAGAGTTA CTACGAGGTG 
TTTCTGAAGA GCGACCGGGT GGCCAGGATG GTGCAAAGCG GGGGGTGCTC CGCCAGCGAC 
TCGCGGGAAG TCTTCAAGAA GCACATCGAG AAGAGGGTAC GCAGCCTGCC GGAGATCGAC 
GGCTTGAGCA AGGAGACTGT GCTCAGCTCC TGGATGGCGA AGTTCGACGC CATTTACCGC 
GGCGAGGAGG ACCCCCGCAA GCAGCAGGCC CGGATGACGG CGAGCGCGGC CTCGGAGCTG 
ATCCTCAGCA AGGAGCAGCT CTACGAAATG TTCCAGAATA TCCTGGGCAT CAAGAAGTTT 
GAGCACCAGC TTCTCTATAA CGCGTGCCAG CTGGATAATC CAGACGAGCA AGCAGCGCAA 
ATCCGGCGTG AGTTAGATGG GCGTCTTCAA ATGGCAGAGC AAATCGCCAA GGAACGCAAG 
TTTCCAAAAT TTGTATCCAA AGAAATGGAA AACATGTACA TTGAGGAGCT GAAGTCATCC 
GTCAACCTGC TGATGGCCAA TTTGGAAAGC ATGCCCGTCT CCAAAGGAGG CTCGGAGTTC 
AAGTTGCAGA AGCTGAAACG TAGCCACAAC ACCTCCATCA TCGACATGGG AGAAGAAAAC 
GAAAACCAGC TTTCCAAGTC GGATGTTGTG CTCTCTTTCT CCTTGGAGGT CGTCATCATG 
GAAGTGCAGG GCCTGAAGTC CTTGGCTCCG AACCGCATTG TTTATTGCAC TATGGAAGTC 
GAAGGTGGAG AGAAACTGCA GACCGACCAG GCTGAAGCAT CCAAGCCCAC CTGGGGCACT 
CAAGGTGACT TCAACACGAC GCACGCGCTT CCCGCGGTGA AGGTGAAGCT GTTCACGGAG 
AGCACCGGCG TGCTGGCTCT AGAGGACAAA GAGCTTGGGC GGGTGGTTCT TCACCCGACG 
CCCAACAGCC CCAAACAGTC CGAGTGGCAC AAAATGACTG TTTCCAAAAA CTGCCCGGAC 
CAAGACCTAA AGATCAAGCT GGCAGTCCGA ATGGACAAAC CCCAGAACAT GAAGCATTCT 
GGATACTTGT GGGCCATTGG TAAAAATGTC TGGAAGAGAT GGAAGAAAAG GTTCTTTGTG 
CTGGTCCAGG TGAGTCAATA TACATTTGCT ATGTGCAGCT ACCGGGAGAA AAAGGCTGAA 
CCTCAAGAAC TGCTGCAGCT TGACGGATAC ACGGTGGACT ACACTGACCC CCAGCCAGGC 
TTGGAGGGTG GCCGAGCATT TTTCAATGCC GTGAAGGAAG GCGACACGGT GATCTTTGCC 
AGCGACGACG AGCAGGACCG CATCCTCTGG GTGCAGGCCA TGTACCGGGC CACCGGCCAG 
TCCCACAAAC CGGTGCCACC CACCCAGGTC CAGAAGCTTA ATGCCAAGGG AGGAAACGTG 
CCCCAGCTGG ACGCGCCGAT CTCGCAATTC TCTGGACTCA AGGATGCAGA TAGAGCTCAA 
AAGCATGGCA TGGATGAATT TATCTCTTCC AACCCCTGTA ACTTTGACCA CGCTTCACTC 
TTTGAGATGG TTCAGCGCCT CACTTTGGAC CACAGACTTA ATGATTCCTA TTCTTGTCTG 
GGCTGGTTCA GTCCTGGCCA GGTATTTGTG CTAGATGAGT ATTGTGCACG TAATGGAGTC 
AGAGGCTGTC ACAGACATCT CTGCTACCTC CGAGATTTAC TCGAACGCGC AGAGAACGGA 
GCTATGATTG ATCCCACCTT GCTTCACTAC AGCTTTGCCT TTTGTGCATC CCATGTTCAT 
GGCAACAGGC CTGATGGAAT AGGAACCGTA ACGGTAGACG AGAAGGAACG TTTTGAAGAA 
ATCAAGGAAA GGCTCCGTTT ACTCCTGGAG AATCAAATCA CACATTTTAG GTATTGCTTT 
CCGTTTGGCC GACCAGAAGG TGCATTAAAA GCTACCCTCT CGCTACTGGA AAGGGTCCTT 
ATGAAAGACA TAGTTACTCC AGTTCCTCAA GAGGAGGTAA AAACAGTCAT CCGTAGATGC 
TTGGAGCAGG CAGCTTTAGT CAACTATACT CGACTATCAG AGTATGCCAA AATTGAAGGG 
AAAAAGAGAG AAATGTATGA GCATCCTGTC TTCTGCTTGG CCTCTCAAGT GATGGATTTA 
ACCATTCAGA ATCAAAAGGA TGCAGAAAAT GTAGGCCGGT TAGTCACACC TGCCAAAAAG 
CTAGAAGACA CAATCCGTCT GGCAGAGCTG GTAATTGAAG TCCTGCAGCA GAACGAAGAA 
CACCATGCAG AGGGGAAAGA GGCCTTTGCT TGGTGGTCAG ACTTAATGGT TGAACACGCG 
GAAACCTTCC TGTCACTGTT TGCAGTGGAT ATGGATGCTG CCTTAGAGGT GCAACCCCCA 
GACACGTGGG ACAGCTTTCC ACTATTTCAG CTTCTAAATG ATTTCCTCCG TAGTGACTAT 
AATTTGTGCA ATGGAAAATT CCACAAACAC CTTCAAGACC TGTTTGCTCC ACTTGTTGTT 
AGATATGTCG ATCTGATGGA GTCCTCAATT GCACAATCAA TTCACAGGGG CTTTGAGCGG 
GAATCATGGG AGCCAGTAAA GAGTTTAACA AGTAATCTGC CCAATGTGAA TCTACCCAAT 
GTGAATCTCC CTAAAGTTCC AAACCTACCA GTTAACATCC CACTAGGCAT CCCACAAATG 
CCTAGCTTTT CTGCACCGTC ATGGATGGCT GCTATATATG ATTCTGACAA TGGGTCAGGA 
ACCTCTGAAG ATCTGTTTTG GAAACTTGAT GCCCTACAGA CCTTCATTCG GGATTTACAC 
TGGCCCGAGG AAGAATTTGG AAAACATCTC GAGCAGCGTC TGAAGCTCAT GGCAAGTGAC 
ATGATTGAAT CTTGTGTCAA GAGAACCAGG ATTGCATTTG AAGTAAAGCT GCAAAAAACC 
AGTCGATCAA CAGATTTCCG AGTCCCTCAG TCAATATGCA CCATGTTTAA TGTTATGGTC 
GATGCCAAAG CTCAGTCAAC AAAGCTTTGC AGTATGGAAA TGGGCCAAGA GCACCAGTAC 
CATTCAAAAA TAGATGAACT AATTGAGGAA ACCGTCAAAG AAATGATAAC ACTCTTAGTG 
GCAAAGTTCG TCACCATTCT GGAAGGAGTC CTGGCCAAGC TGTCCAGATA CGATGAAGGG 
ACTTTGTTTT CCTCTTTCCT GTCGTTTACT GTGAAGGCAG CTTCCAAATA CGTGGACGTA 
CCCAAGCCGG GGATGGATGT TGCCGATGCC TATGTGACAT TTGTTCGCCA CTCTCAGGAT 
GTGCTGCGTG ATAAGGTCAA TGAGGAGATG TATATAGAAA GGTTATTTGA TCAATGGTAC 
ACCAGCTCAA TGAATGTCAT GTGCACCTGG CTGACGGACC GCATGGACCT GCAGCTTCAC 
ATTTACCAAC TGAAAACCCT TATTAGGATA GTAAAGAAAA CGTATAGAGA TTTCCGATTG 
CAAGGGGTAC TGGACTCCAC CTTAAACAGC AAAACCTATG ACACAGTTCG AAACCGGCTG 
ACTGTAGAAG AAGCCACAGC TTCCGTTAGC GAAGGTGGAG GTCTTCAGGG CATAACGATG 
AAGGACAGTG ACGAAGAAGA CGAAGAGGAT GATTAG