CCDC175 cDNA ORF clone, Thamnophis sirtalis

Gene
Clones
gRNAs

Summary

Gene Symbol	CCDC175
Entrez Gene ID	106541310
Full Name	coiled-coil domain containing 175
Gene Type	protein-coding
Organism	Thamnophis sirtalis

mRNA and Protein(s)

mRNA	Protein	Name
XM_014056701.1	XP_013912176.1	coiled-coil domain-containing protein 175

Pathways from BioSystems
Gene Ontology

The following CCDC175 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCDC175 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
OTh17275	XM_014056701.1 Latest version!	Thamnophis sirtalis coiled-coil domain containing 175 (CCDC175), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

CCDC175 ( XM_014056701.1 ) cDNA ORF clone, Thamnophis sirtalis -> XP_013912176.1 Thamnophis sirtalis coiled-coil domain containing 175 (CCDC175), mRNA.

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CloneID	OTh17275
Clone ID Related Accession (Same CDS sequence)	XM_014056701.1
Accession Version	XM_014056701.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3936bp) 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	2015-09-10
Organism	Thamnophis sirtalis
Product	coiled-coil domain-containing protein 175
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013658032.1) and transcript sequence (GDKU01100639.1) 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 :: Thamnophis sirtalis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 315 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGAATTCT ACGAGTCTCC CTATTTTATC ATCCTAGTAC CTTCTGTTGT GATTGCTGTC 
ATCTTCCTCT TTTTTTGGCT TTTTATGAAA GAAACACTAT ACGATGAAGC CCTCGCCAAA 
CAAAAGAGGG ACCAAAAGCT TCTGCCTAGT AAGACTGATA AAAAGAAAGC CGAGAAGAAG 
AAGAGCAAGA AAAAAGAGGC CCAGAATGGG AACCTCCATG AGTCTGATTC GGAGAGTACC 
CCTCGGGACT TCCGACTGTC AGATGCTATG GGGTCAGAGG AGGAGCACAT TGTTCCTCTT 
CCATTGAATG TGACAGAGGC CCCCAGCAGT CTCCGGGAGC GCAAGAAGAA GGAGAAGAAA 
CACAAGGGCA ACTCAGAGGA ACTTGTGCCA AAAGAGTTGG AGAGTTCTAA GCCTGCAGGA 
AAAAAAGTGG AGCCCGTCCC TGTAACAAAA CAGCCCACCC CACCTTCGGA TTCAGCTGGG 
TCCAAAAAAA AGCCTGGACA AAAAAAGCAG AAAAATGGAA TAGATGATCA GGATGCCAAG 
AGTGATTCAC TTCTGTCCAC ATCCAGAAAG CAAGATCCTC TCATATTGCA TCATGAGATA 
AAGCAAGAAA GTAGCTCTGG GAAGAAGAAA GTGTCTGCAA AAAAACAAAA GACAGATAAT 
GTTATGACTT TAGTGGATGA ACCTTTGATT CGTGCAACAA CATATATTCC TCTGATGGAT 
AATGCAGACT CAGGCGTAAC AGAGGGAAAG AGAGAAGCAG CTGATTTGGT GAGGCATGAT 
GGTCTTGAAG GACTGCAGAA AACCAGTGTG AAGAAATTGA AGAATGAAAC TGATAAAGAA 
AATGCAGATG TGAAATTTAA GGATTTTATC TTGGTTATGA AGAACATGAT ATTCACAGAA 
GAGGAGGCCA TGAATGTGGT GGAGTTATTG AAGGAGAAAT CTAATGCCAT GCAGGAGATT 
CTGCAGAAGG CAAGTAAAGG AGATCCAGCT GCAGTGCTCC ATCAGCTGCA AGAAAAAGAT 
AAATTGCTTA TGGCAGCAAA AGAAGAAGGT GCTGTTGCAA AGGAACAATG CAAACAGCTT 
TCCCAGGAAC TGATGACAGA GAAAGAAAGA AGCAATTTGG TTATGGCAAA AATGAGAGAG 
CGAGTTAACA CTTTGGAAAA AGAGCATGGG GTTTTCCAAA ACAAAATCCA CGGGAGCTAC 
CAAGAAAGCC AGCAGATGAA AATGAAGTTT CAACAGATTC GTGAACAGAT GGAAGCAGAA 
ATCAGTCGTC TGAAGCAGGA GAATGGTATT TTGAGAGATG CTGTCAGTAC TTCCACAAAT 
CAAATGGAAA GCAAGCAGTC TTCAGAGCTG AGCAAATTGC GTCAAGATTG TGCTAGACTA 
GTGAACGAGC TGACAGAAAA GAATAACAAA CTGCAGCAAG AGGAGCTTCT AAAGAAAAAT 
GCAGAACAAG GCATCAATCA GTTAAAGGCA CAACAACAGG AAGCTGAACG AAGATGGGAG 
GAAATGCAAA GTTATCTCAG GAAACGGACA GCAGAACATG AGGCTGCCCA GCAAGATGTG 
CAGAATAAAC TTGTGACCAA AGATAATGAA ATCCAGAGTC TGCACAGCAA GCTAACTGAT 
ACAATGGTCT CAAAACAACA GCTGGAACAA AGGATGATGC AATTAATGGA AGCAGAACAA 
AAGAGGGTCA CAACTGAGGA TTCTATCCAG AGACAGGTGC AGGAGCTGAT GGAACAGAAT 
GAGGCTTTGA AAGCTCAGCT TCAGAAATTC CATTCACAGA TGGCAGTCCA GAATTCAGCT 
TCAGCCCTTG CTGAAGAATT GCACAAAGTA ATTGCAGAAA AAGACCAGCA AATAAATCAG 
TCTGAGGAGT CCTTAGCCAA TGAACGACTC AAACTAACCA GCAAGGAAGA AGATCTAATG 
GTTGTCCAGA ATATCAACAT GTCTCTGAAA GCAGAAGTAC AAAAGTTGCA GGCGATCACA 
AATGATCAGG TGGTTACCAT TCGTGAGCTG GAGCGGATAC AGAAAAGTGT GCATGTCAAA 
GATGACAAAA TCAGAACACT GGAAGATCAG CTTCAAGGAC ATTACTCCAA AGCTTCAGAT 
GCAAAGGAGG AACTTCAGGA TCTAGAGGAT CAAAACAAAA CTTTTCGGTT GGAAATTCAG 
AAACTGCAGG CTGTCCTCTC TGAGCAGGCT AACAAAGAAT TGCTGGAGCA ACTGGAAAGA 
AGTATTACAG ATAAGGATGA CAAAATAAAG ACGGTTGAAG AACTCCTTGA AACTGGGCTC 
ATAGAAATGG CAAATAAGGA GGATGAATTA AAGGCATTGA GAACAGAAAA CTTATCCCTG 
AAAAGTGAAG TTGAAAGTCT TCGGAAAGTA CAGAATGAGC AGGTATCATT TGCATCCGTG 
GTAGACGACC TGCAGAGGGT AATTAGTGAA AAAGATGGAA AGATCAAATC TGTGGAGGAA 
CTGCTTCAAG CTGAAGTCCT TAAAGTTGCA ACCAAGGAGA AAACTCTTGG GGCTTTGGAA 
CAGGAAATAG AGGCTGTGAA AGAAGAACTA AGAAAGGCCC AGCTTGAGAA GGATACTCAG 
GTGACATTTG TTCAGGAAGT TGAAGATCTT CAAAAACAAT TGAAGGAGAA AGAGGAACGG 
GTGAAGAGTC TAGAAGTATT GTTGAAAGAA AAGGAGAGTG AGATTTCGAA GAATGTAGAA 
TGCCTTCAGG TTTCTGTTGC TGCTTCTATT AAAGATCATG AGGCAATATT GAGAGAGAAA 
CAAGAAGAGG TGCAAGAAAT GGCAACATTA TTAGATGAGA GGGGAAAAGA GGTTGCTCAC 
CAAAGAAAAG AGTTGCAGGC TGTACAGGAA GAGAATAGGT TATTAAGAGC ACAGATTCAA 
GAAATCAAGC AGGAAAACGG CAAACAGGAA TCCTTGGTTA TCAGGATTGA GCAACTTTCA 
CAGCTCATTT CTGGGAAAGA ACAAGAAAAT ACCAGCCTTC AAAACGAGTT GGGCTCCTTG 
AAACTTGCAG TGGAGCAACA GAGGCAAAAG AACAATGACC TTCGAAAGAA AAACTGGAAA 
GCAATGGAAG CATTGGCCTC AACTGAAAAA TTGCTGCAGG ACAGAGTGAA CAAGACTGCC 
AAGGAGAGTC AACAACATGC AGAGGCTGTT GAAGCAGAGA TGAGAAACAT ATTGCAGAAG 
CTATTTCCTA TAGTCTCTCT GCCTTCCAGT TTGAGTCACA GTGAGTGGAT GCGTGGATTT 
GAAAAAGCAG TAAGAGAACA TACAAAAGAG ACTACTCGAC CAGATGACAT TAAGGTCATG 
GAACAGAAAT TGAAAGAGGC AGATGAACTA CATGTCATGT TGCAGCAAGA ATGTGAGAAG 
TACAAAGTTG TCCTTGCAGA GACGGAGGGA ATCTTGCAAA GGCTACAGCG CAGTGTAGAA 
GAAGAAGAGA GCAAATGGAA AATAAAAATT GAAGAATCAC AGAAGGAACT ACAACAGCTT 
AAAAAGGAAC AAGAACATTT GGAACATGAA TTGGAAAAAG CCGAAATAGA GCGATCAACA 
TATGTTTCAG AAGTCCGAGA GCTTAAAGAT CTGTTGACTG AATTGCAAAG AAAACTTGAT 
GACTCATATT CTGAAGCAGT AAGGCAGAAT GAAGAGTTAA CATTGCTCAA AACCCAGCTG 
AATGAGACAT CATCTAAACT TTTAACTGAT CTGAATGAAA GACACCAATT AGCTGCTGAT 
TTGCCAAAGG CCCAGGAATC ACTGGTGATT CTAGAAAGGG AAATAGGGAA AACTAGTAGG 
GCCCCCGAAG TGATACAGAA CAGTGATGTC TGTTCACAGA CGGCCGATCC AGATAATGTG 
AATCTAATTC AAGATATTGT TCATCTTAAG CAGCTTCTTG CATCAGTTGG CCAAATGCTC 
ACAAAGGGAA AAGAACAGTA TCAGCTATTA GAATGA

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

RefSeq	XP_013912176.1
CDS	141..4076
Translation	MEFYESPYFIILVPSVVIAVIFLFFWLFMKETLYDEALAKQKRDQKLLPSKTDKKKAEKKKSKKKEAQNGNLHESDSESTPRDFRLSDAMGSEEEHIVPLPLNVTEAPSSLRERKKKEKKHKGNSEELVPKELESSKPAGKKVEPVPVTKQPTPPSDSAGSKKKPGQKKQKNGIDDQDAKSDSLLSTSRKQDPLILHHEIKQESSSGKKKVSAKKQKTDNVMTLVDEPLIRATTYIPLMDNADSGVTEGKREAADLVRHDGLEGLQKTSVKKLKNETDKENADVKFKDFILVMKNMIFTEEEAMNVVELLKEKSNAMQEILQKASKGDPAAVLHQLQEKDKLLMAAKEEGAVAKEQCKQLSQELMTEKERSNLVMAKMRERVNTLEKEHGVFQNKIHGSYQESQQMKMKFQQIREQMEAEISRLKQENGILRDAVSTSTNQMESKQSSELSKLRQDCARLVNELTEKNNKLQQEELLKKNAEQGINQLKAQQQEAERRWEEMQSYLRKRTAEHEAAQQDVQNKLVTKDNEIQSLHSKLTDTMVSKQQLEQRMMQLMEAEQKRVTTEDSIQRQVQELMEQNEALKAQLQKFHSQMAVQNSASALAEELHKVIAEKDQQINQSEESLANERLKLTSKEEDLMVVQNINMSLKAEVQKLQAITNDQVVTIRELERIQKSVHVKDDKIRTLEDQLQGHYSKASDAKEELQDLEDQNKTFRLEIQKLQAVLSEQANKELLEQLERSITDKDDKIKTVEELLETGLIEMANKEDELKALRTENLSLKSEVESLRKVQNEQVSFASVVDDLQRVISEKDGKIKSVEELLQAEVLKVATKEKTLGALEQEIEAVKEELRKAQLEKDTQVTFVQEVEDLQKQLKEKEERVKSLEVLLKEKESEISKNVECLQVSVAASIKDHEAILREKQEEVQEMATLLDERGKEVAHQRKELQAVQEENRLLRAQIQEIKQENGKQESLVIRIEQLSQLISGKEQENTSLQNELGSLKLAVEQQRQKNNDLRKKNWKAMEALASTEKLLQDRVNKTAKESQQHAEAVEAEMRNILQKLFPIVSLPSSLSHSEWMRGFEKAVREHTKETTRPDDIKVMEQKLKEADELHVMLQQECEKYKVVLAETEGILQRLQRSVEEEESKWKIKIEESQKELQQLKKEQEHLEHELEKAEIERSTYVSEVRELKDLLTELQRKLDDSYSEAVRQNEELTLLKTQLNETSSKLLTDLNERHQLAADLPKAQESLVILEREIGKTSRAPEVIQNSDVCSQTADPDNVNLIQDIVHLKQLLASVGQMLTKGKEQYQLLE

Target ORF information:

RefSeq Version	XM_014056701.1
Organism	Thamnophis sirtalis
Definition	Thamnophis sirtalis coiled-coil domain containing 175 (CCDC175), mRNA.

Target ORF information:

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

XM_014056701.1

ORF Insert Sequence:

ATGGAATTCT ACGAGTCTCC CTATTTTATC ATCCTAGTAC CTTCTGTTGT GATTGCTGTC 
ATCTTCCTCT TTTTTTGGCT TTTTATGAAA GAAACACTAT ACGATGAAGC CCTCGCCAAA 
CAAAAGAGGG ACCAAAAGCT TCTGCCTAGT AAGACTGATA AAAAGAAAGC CGAGAAGAAG 
AAGAGCAAGA AAAAAGAGGC CCAGAATGGG AACCTCCATG AGTCTGATTC GGAGAGTACC 
CCTCGGGACT TCCGACTGTC AGATGCTATG GGGTCAGAGG AGGAGCACAT TGTTCCTCTT 
CCATTGAATG TGACAGAGGC CCCCAGCAGT CTCCGGGAGC GCAAGAAGAA GGAGAAGAAA 
CACAAGGGCA ACTCAGAGGA ACTTGTGCCA AAAGAGTTGG AGAGTTCTAA GCCTGCAGGA 
AAAAAAGTGG AGCCCGTCCC TGTAACAAAA CAGCCCACCC CACCTTCGGA TTCAGCTGGG 
TCCAAAAAAA AGCCTGGACA AAAAAAGCAG AAAAATGGAA TAGATGATCA GGATGCCAAG 
AGTGATTCAC TTCTGTCCAC ATCCAGAAAG CAAGATCCTC TCATATTGCA TCATGAGATA 
AAGCAAGAAA GTAGCTCTGG GAAGAAGAAA GTGTCTGCAA AAAAACAAAA GACAGATAAT 
GTTATGACTT TAGTGGATGA ACCTTTGATT CGTGCAACAA CATATATTCC TCTGATGGAT 
AATGCAGACT CAGGCGTAAC AGAGGGAAAG AGAGAAGCAG CTGATTTGGT GAGGCATGAT 
GGTCTTGAAG GACTGCAGAA AACCAGTGTG AAGAAATTGA AGAATGAAAC TGATAAAGAA 
AATGCAGATG TGAAATTTAA GGATTTTATC TTGGTTATGA AGAACATGAT ATTCACAGAA 
GAGGAGGCCA TGAATGTGGT GGAGTTATTG AAGGAGAAAT CTAATGCCAT GCAGGAGATT 
CTGCAGAAGG CAAGTAAAGG AGATCCAGCT GCAGTGCTCC ATCAGCTGCA AGAAAAAGAT 
AAATTGCTTA TGGCAGCAAA AGAAGAAGGT GCTGTTGCAA AGGAACAATG CAAACAGCTT 
TCCCAGGAAC TGATGACAGA GAAAGAAAGA AGCAATTTGG TTATGGCAAA AATGAGAGAG 
CGAGTTAACA CTTTGGAAAA AGAGCATGGG GTTTTCCAAA ACAAAATCCA CGGGAGCTAC 
CAAGAAAGCC AGCAGATGAA AATGAAGTTT CAACAGATTC GTGAACAGAT GGAAGCAGAA 
ATCAGTCGTC TGAAGCAGGA GAATGGTATT TTGAGAGATG CTGTCAGTAC TTCCACAAAT 
CAAATGGAAA GCAAGCAGTC TTCAGAGCTG AGCAAATTGC GTCAAGATTG TGCTAGACTA 
GTGAACGAGC TGACAGAAAA GAATAACAAA CTGCAGCAAG AGGAGCTTCT AAAGAAAAAT 
GCAGAACAAG GCATCAATCA GTTAAAGGCA CAACAACAGG AAGCTGAACG AAGATGGGAG 
GAAATGCAAA GTTATCTCAG GAAACGGACA GCAGAACATG AGGCTGCCCA GCAAGATGTG 
CAGAATAAAC TTGTGACCAA AGATAATGAA ATCCAGAGTC TGCACAGCAA GCTAACTGAT 
ACAATGGTCT CAAAACAACA GCTGGAACAA AGGATGATGC AATTAATGGA AGCAGAACAA 
AAGAGGGTCA CAACTGAGGA TTCTATCCAG AGACAGGTGC AGGAGCTGAT GGAACAGAAT 
GAGGCTTTGA AAGCTCAGCT TCAGAAATTC CATTCACAGA TGGCAGTCCA GAATTCAGCT 
TCAGCCCTTG CTGAAGAATT GCACAAAGTA ATTGCAGAAA AAGACCAGCA AATAAATCAG 
TCTGAGGAGT CCTTAGCCAA TGAACGACTC AAACTAACCA GCAAGGAAGA AGATCTAATG 
GTTGTCCAGA ATATCAACAT GTCTCTGAAA GCAGAAGTAC AAAAGTTGCA GGCGATCACA 
AATGATCAGG TGGTTACCAT TCGTGAGCTG GAGCGGATAC AGAAAAGTGT GCATGTCAAA 
GATGACAAAA TCAGAACACT GGAAGATCAG CTTCAAGGAC ATTACTCCAA AGCTTCAGAT 
GCAAAGGAGG AACTTCAGGA TCTAGAGGAT CAAAACAAAA CTTTTCGGTT GGAAATTCAG 
AAACTGCAGG CTGTCCTCTC TGAGCAGGCT AACAAAGAAT TGCTGGAGCA ACTGGAAAGA 
AGTATTACAG ATAAGGATGA CAAAATAAAG ACGGTTGAAG AACTCCTTGA AACTGGGCTC 
ATAGAAATGG CAAATAAGGA GGATGAATTA AAGGCATTGA GAACAGAAAA CTTATCCCTG 
AAAAGTGAAG TTGAAAGTCT TCGGAAAGTA CAGAATGAGC AGGTATCATT TGCATCCGTG 
GTAGACGACC TGCAGAGGGT AATTAGTGAA AAAGATGGAA AGATCAAATC TGTGGAGGAA 
CTGCTTCAAG CTGAAGTCCT TAAAGTTGCA ACCAAGGAGA AAACTCTTGG GGCTTTGGAA 
CAGGAAATAG AGGCTGTGAA AGAAGAACTA AGAAAGGCCC AGCTTGAGAA GGATACTCAG 
GTGACATTTG TTCAGGAAGT TGAAGATCTT CAAAAACAAT TGAAGGAGAA AGAGGAACGG 
GTGAAGAGTC TAGAAGTATT GTTGAAAGAA AAGGAGAGTG AGATTTCGAA GAATGTAGAA 
TGCCTTCAGG TTTCTGTTGC TGCTTCTATT AAAGATCATG AGGCAATATT GAGAGAGAAA 
CAAGAAGAGG TGCAAGAAAT GGCAACATTA TTAGATGAGA GGGGAAAAGA GGTTGCTCAC 
CAAAGAAAAG AGTTGCAGGC TGTACAGGAA GAGAATAGGT TATTAAGAGC ACAGATTCAA 
GAAATCAAGC AGGAAAACGG CAAACAGGAA TCCTTGGTTA TCAGGATTGA GCAACTTTCA 
CAGCTCATTT CTGGGAAAGA ACAAGAAAAT ACCAGCCTTC AAAACGAGTT GGGCTCCTTG 
AAACTTGCAG TGGAGCAACA GAGGCAAAAG AACAATGACC TTCGAAAGAA AAACTGGAAA 
GCAATGGAAG CATTGGCCTC AACTGAAAAA TTGCTGCAGG ACAGAGTGAA CAAGACTGCC 
AAGGAGAGTC AACAACATGC AGAGGCTGTT GAAGCAGAGA TGAGAAACAT ATTGCAGAAG 
CTATTTCCTA TAGTCTCTCT GCCTTCCAGT TTGAGTCACA GTGAGTGGAT GCGTGGATTT 
GAAAAAGCAG TAAGAGAACA TACAAAAGAG ACTACTCGAC CAGATGACAT TAAGGTCATG 
GAACAGAAAT TGAAAGAGGC AGATGAACTA CATGTCATGT TGCAGCAAGA ATGTGAGAAG 
TACAAAGTTG TCCTTGCAGA GACGGAGGGA ATCTTGCAAA GGCTACAGCG CAGTGTAGAA 
GAAGAAGAGA GCAAATGGAA AATAAAAATT GAAGAATCAC AGAAGGAACT ACAACAGCTT 
AAAAAGGAAC AAGAACATTT GGAACATGAA TTGGAAAAAG CCGAAATAGA GCGATCAACA 
TATGTTTCAG AAGTCCGAGA GCTTAAAGAT CTGTTGACTG AATTGCAAAG AAAACTTGAT 
GACTCATATT CTGAAGCAGT AAGGCAGAAT GAAGAGTTAA CATTGCTCAA AACCCAGCTG 
AATGAGACAT CATCTAAACT TTTAACTGAT CTGAATGAAA GACACCAATT AGCTGCTGAT 
TTGCCAAAGG CCCAGGAATC ACTGGTGATT CTAGAAAGGG AAATAGGGAA AACTAGTAGG 
GCCCCCGAAG TGATACAGAA CAGTGATGTC TGTTCACAGA CGGCCGATCC AGATAATGTG 
AATCTAATTC AAGATATTGT TCATCTTAAG CAGCTTCTTG CATCAGTTGG CCAAATGCTC 
ACAAAGGGAA AAGAACAGTA TCAGCTATTA GAATGA