atp10d cDNA ORF clone, Scleropages formosus(Asian bonytongue)

Gene
Clones
gRNAs

Summary

Gene Symbol	atp10d
Entrez Gene ID	108918118
Full Name	ATPase phospholipid transporting 10D (putative)
Gene Type	protein-coding
Organism	Scleropages formosus(Asian bonytongue)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018725132.2	XP_018580648.2	probable phospholipid-transporting ATPase VD
XM_018725132.1	XP_018580648.1	probable phospholipid-transporting ATPase VD

Pathways from BioSystems
Gene Ontology

The following atp10d gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the atp10d 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
OSc141229	XM_018725132.2 Latest version!	Scleropages formosus ATPase phospholipid transporting 10D (putative) (atp10d), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OSc65530	XM_018725132.1 Latest version!	Scleropages formosus ATPase phospholipid transporting 10D (putative) (atp10d), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

ORF Online Only Promotion

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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)

atp10d ( XM_018725132.2 ) cDNA ORF clone, Scleropages formosus(Asian bonytongue) -> XP_018580648.2 Scleropages formosus ATPase phospholipid transporting 10D (putative) (atp10d), mRNA.

Price & Availability↑

CloneID	OSc141229
Clone ID Related Accession (Same CDS sequence)	XM_018725132.2
Accession Version	XM_018725132.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3993bp) 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	2019-05-21
Organism	Scleropages formosus(Asian bonytongue)
Product	probable phospholipid-transporting ATPase VD
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041813.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 22, 2019 this sequence version replaced XM_018725132.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Scleropages formosus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCCGAG GCTGGTCCTC ACCCACTGGG GCACCCACCA GTAAAAGCAT TTCTGGAAAC 
CAGGATTGCC CAGGCCACAA GTTCCCTGGC AAGAGGCGAA CAGTAATTGC CCGCTATGGG 
CCATACAAGG ATGAGTACTG CACAATTACT AAAGGTTACC ATGGCAACGG CATTCACACC 
ACCAAATACA CCTTAGTCAG CTTCATTCCT ATGAACCTGT TTGAGCAATT TCACAGAGCT 
GCCAACTTGT ACTTCCTGTT CCTGGTGTTG CTGAACTGGG TCCCTGTTGT GGAGGCTTTT 
CAGAAGGAGA TCACCATGAT CCCCTTGGTG GTTGTTCTCT GTGTCATCGC CTTCAAGGAT 
GCTCTGGAGG ATTACCGTCG TTACCGCTTC GATAAGATGA TCAACAGCAA GGTCACCAAG 
GTGTACTGTG GGAAGCAGCG ACAGTATGTA GACCAACACT GGAAGGACAT ATGCGTGGGA 
GACTTTGTCT ATCTGTCCTG CAATGAAATA ATTCCAGCTG ACATGGTGTT GCTACATTCC 
TCAAACCCAG ATGGAATCTG CCGCATTGAG ACAGCCAACT TGGATGGGGA GACCAACCTG 
AAGCAAAAGC AGGTCATCAA AGGACTGGCC TGGCAGGATG CTGAGGTGTC CCCGGAAGCT 
TTCGCAAGTC GTATTGAGTG TGAAAGTCCG AACGATGACC TGAACCGCTT CAGAGGGTTC 
ATGGAACATG CCAATAAAAC CAGGGTGGGT TTACACAACG AGAACCTCCT GCTGCGGAGC 
TGCACTATTC GTAACACGGA ATCTGTGGTT GGCATTGTTG TCTATGCTGG CCATGAGACA 
AAGGCAATGA AGAACAACAG CGGACCACGG TACAAACGCA GCAAGTTGGA GCGGAGGCTG 
AACACGGACA TCCTGTGGAG CCTGGTGTTG CTTCTGTTCA TGTGCCTCAC TGCAGCTATA 
GGCCACGGTA TATGGCTGAG CGGCCTAAAA AATCCTCCAT TCCTTATTCC TGATGGCACT 
TCTCCAGCCT TGGCTGGATT CTACCTCTTC TGGACCATGA TTATTGTTCT GCAGGTGCTG 
ATCCCCATTT CCCTGTATGT GTCCATTGAG ATTGTGAAAT TGGGTCAGAT CTACTTGATC 
CAAAGTGATG TGGACTTCTA TGATGAGAAG CAGGCCTTGG GCATGCAGTG TCGGGCACTT 
AACATCACTG AGGACCTAGG CCAGATCCAG TACATCTTCT CTGATAAGAC AGGCACGCTG 
ACTGAGAACA AGATGGTGTT CCGGCGCTGC AGCATTGCAG GGGTGGAGTA CCCTCATGAG 
GACAATAGTC GAAGGCTGGA AATGTACCAG GCCCAGGACT GCGACAGTGA ACTTGATCCT 
TCTTCAATAA CTGTGAAGTC CAAGTCAAGC CTCCTTTCGC TCAGCTGCCG CTCGCTCAAC 
TGCAACCAGA GCTCCACATC ACTGCACTTG CTTGCTGCTT CTGATGGTGA GATGGACCTG 
CAGGGTAAGC CCTTGGGCAC CACTGGCTGT CATGATGTGG CCTTCAGTAG TCGAACGGAA 
AAGGGGGTGA TCCCAGATCC TCAACTTCTC CTGAAGCTCA ACCAGCTGTC TTCAGCTGAA 
CTGCTGCTCC AGGATCGCCC AGAAGATGAT CCCCAGGAGA CTGCTTACAT TGTGGACTTC 
TTCCTGGCGA TAACACTGTG CAACACCGTG GTAGTGTCAT CGCCTAGGCT GCCAGAGCCC 
CAGGTATCAG AATCTCCCCA CATGGCCATC AAGTCCCTGG AGAGCATGAA GCTGCTCTTT 
CAACGCTTTA GTGTTCCCCA ATTTGCTTCC TTCTCCACTT CGAGGAGCAA TGCACCTGCA 
GACAGTCCCT CCAGCTTTGC CCAGAAGCTC TTCAGCCGAG GCTCTTTGTC GACCCCTGCT 
ACGCCTCAGG ACAAAGTGGA GGAGACCAAG GGCCTGCAGA TCACAGCTCC CATGGAGTGG 
ATTCCTGAGA TGGATGACCA TGCCAGGGGT GTGGCCAAGG CAGGGCCCTG CGGGTTAGAA 
GCAGAGTCGG AAGCCTTGGT GTACGCAGCT GAAAGTCCGG ATGAGGCTGC CTTGGTGCAT 
GCTACGCGAG CTTACCGGTG CACACTGTGG GCGCGGTCGT CCAACCAGGT GCTGGTGGAA 
CTCCCGGGAC TGGGCCGCCT TGCCGTTAAC CTGCTTCACA TTCTTCCCTT TGACTCATTT 
CGGAAGAGGA TGTCTGTTGT GGTCCGCCAC CCACTCACGA ACCAGGTGGT GGTCTACACA 
AAGGGGGCTG ATTCAGTGAT CATCAAACTT GTGGCTCCAC TTGCAGAAGG CAATCCGACT 
ACGGCCAGGC TGAAGCATAT TAGGGAGCAG ACACAGAGGC ACCTCGACAA CTATGCCAGA 
GAAGGCCTGC GCACTCTCTG TGTAGCCACA AAGGTTCTGG AAGAGACAGA GTACTCCATG 
TGGCTGAAGA AGCACACATT TGCAGAGACT TGCATAGAAA ACAGGGAGAA GCTGCTGCTG 
GAGTCTGCTG ATGAATTGGA GACTAACTTG ACCCTCCTTG GTGCCACTGG CATCTTGGAC 
CGGCTGCAGG AGGATGTGCC TGAAACGATT GAGGCACTGC AGGGGGCTGG CATACATGTC 
TGGGTCCTGA CAGGGGACAA ACAGGAGACA GCTGTCAACA TTGCTTGCTC CTGTGGGCTA 
CTTCGACCAT CTGACAAGCT GCTCACCATC AACTGTGACA GCAAGGATGC CTGTGAAGCC 
CTTCTGCTGA AGCTGATCAG GGTGGTTGCA GAAGCAAGTG ACAGCAAAGG AGACGAACCA 
AGTGGCCACA TGCTGGTCAT TGACGGTCAG TCTCTGGAGC TAGCCCTGGA GGACAGTCTA 
CAGGAACCCT TTCTTGACCT AGCTAAGCAC TGCCGTGCCG TTGTTTGCTG CCGTTCCACA 
CCGCTGCAGA AGAGTCAGGT GGTACGGCTG GTACAGGATC GACTAGGAGT CATGACCCTG 
GCTATAGGTG ATGGGGCCAA TGATGTAAGC ATGATCCAGG TGGCCAATAT TGGGGTAGGA 
ATCTCAGGGC AGGAGGGTAT GCAGGCAGTG ATGTCCAGCG ATTTTGCTAT CTCTAGGTTT 
AAGCATCTGC GCAAATTGCT GTTGGTCCAT GGCCACTGGT GCTACACACG GCTGGCCAAC 
ATGACCCTTT ACTTCTTTTA CAAGAATGTG GCCTATGTGA ACCTGCTTTT CTGGTACCAG 
TTCTACTGTG GCTTCTCTGG TAGCACCATG ACCAATTACT GGATGCTCAT CTTCTTTAAC 
CTGCTGTTTA CCTCTGCACC ACCACTGCTC TATGGTATCT TGGACCGTGA CGCCTCTGCT 
GACATCCTGC AACAGCTGCC TGTGCTCTAC CGAGCTGGCC ATTTCTCTCA GGCTTATCTG 
CCCTCGACCT TTTGGTGCAC CATGCTGGAT GCACTCTACC AGAGTCTTGT CTGCTTCTTT 
GTCCCCTACT TCGCATACTC TGGCTCCGAT ATTAGCATCT TTTCCTTTGG AACACCAGTC 
AACACATCAG CCCTCCTCGT AATTCTCTTG CAGCAGGTTA TCCAGAGCCA CACCCTGACG 
TGGCTTCATG GTGTGGTTCT AGTGGGCAGC GCACTCTTCT ACTTTGTGTT CATGCTGGTC 
TTCAGTGCCA CCTGTGTGAC CTGTAACTCC CCCTCCAATC CCCTTGGCGT TGACATCCGG 
CACATGCAGG ACCCCCAGTT TTACTGTGTG TGTGTCCTCA CCACTGTGCT GGCACTGCTT 
CCCAGGGTCC TGTACACAAG TGTGAAGAAC AGTGTGAACC CCACGGATTT AGTGAAAGCT 
GCTCAGCTGG ACAAGTTGGG TCCAGAGGAA CAGAGGAGAG GAATTCAAAA CTGGAGAACG 
GCACTGGGAT ATGGAGAGCC AAGTATCACC GTCACTGCAG CAGATGGAGA CCCCAGGGGG 
TGCCACCCCA ATCCAGTTTC GATCAACTCA TGA

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

RefSeq	XP_018580648.2
CDS	121..4113
Translation	MGRGWSSPTGAPTSKSISGNQDCPGHKFPGKRRTVIARYGPYKDEYCTITKGYHGNGIHTTKYTLVSFIPMNLFEQFHRAANLYFLFLVLLNWVPVVEAFQKEITMIPLVVVLCVIAFKDALEDYRRYRFDKMINSKVTKVYCGKQRQYVDQHWKDICVGDFVYLSCNEIIPADMVLLHSSNPDGICRIETANLDGETNLKQKQVIKGLAWQDAEVSPEAFASRIECESPNDDLNRFRGFMEHANKTRVGLHNENLLLRSCTIRNTESVVGIVVYAGHETKAMKNNSGPRYKRSKLERRLNTDILWSLVLLLFMCLTAAIGHGIWLSGLKNPPFLIPDGTSPALAGFYLFWTMIIVLQVLIPISLYVSIEIVKLGQIYLIQSDVDFYDEKQALGMQCRALNITEDLGQIQYIFSDKTGTLTENKMVFRRCSIAGVEYPHEDNSRRLEMYQAQDCDSELDPSSITVKSKSSLLSLSCRSLNCNQSSTSLHLLAASDGEMDLQGKPLGTTGCHDVAFSSRTEKGVIPDPQLLLKLNQLSSAELLLQDRPEDDPQETAYIVDFFLAITLCNTVVVSSPRLPEPQVSESPHMAIKSLESMKLLFQRFSVPQFASFSTSRSNAPADSPSSFAQKLFSRGSLSTPATPQDKVEETKGLQITAPMEWIPEMDDHARGVAKAGPCGLEAESEALVYAAESPDEAALVHATRAYRCTLWARSSNQVLVELPGLGRLAVNLLHILPFDSFRKRMSVVVRHPLTNQVVVYTKGADSVIIKLVAPLAEGNPTTARLKHIREQTQRHLDNYAREGLRTLCVATKVLEETEYSMWLKKHTFAETCIENREKLLLESADELETNLTLLGATGILDRLQEDVPETIEALQGAGIHVWVLTGDKQETAVNIACSCGLLRPSDKLLTINCDSKDACEALLLKLIRVVAEASDSKGDEPSGHMLVIDGQSLELALEDSLQEPFLDLAKHCRAVVCCRSTPLQKSQVVRLVQDRLGVMTLAIGDGANDVSMIQVANIGVGISGQEGMQAVMSSDFAISRFKHLRKLLLVHGHWCYTRLANMTLYFFYKNVAYVNLLFWYQFYCGFSGSTMTNYWMLIFFNLLFTSAPPLLYGILDRDASADILQQLPVLYRAGHFSQAYLPSTFWCTMLDALYQSLVCFFVPYFAYSGSDISIFSFGTPVNTSALLVILLQQVIQSHTLTWLHGVVLVGSALFYFVFMLVFSATCVTCNSPSNPLGVDIRHMQDPQFYCVCVLTTVLALLPRVLYTSVKNSVNPTDLVKAAQLDKLGPEEQRRGIQNWRTALGYGEPSITVTAADGDPRGCHPNPVSINS

Target ORF information:

RefSeq Version	XM_018725132.2
Organism	Scleropages formosus(Asian bonytongue)
Definition	Scleropages formosus ATPase phospholipid transporting 10D (putative) (atp10d), mRNA.

Target ORF information:

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

XM_018725132.2

ORF Insert Sequence:

ATGGGCCGAG GCTGGTCCTC ACCCACTGGG GCACCCACCA GTAAAAGCAT TTCTGGAAAC 
CAGGATTGCC CAGGCCACAA GTTCCCTGGC AAGAGGCGAA CAGTAATTGC CCGCTATGGG 
CCATACAAGG ATGAGTACTG CACAATTACT AAAGGTTACC ATGGCAACGG CATTCACACC 
ACCAAATACA CCTTAGTCAG CTTCATTCCT ATGAACCTGT TTGAGCAATT TCACAGAGCT 
GCCAACTTGT ACTTCCTGTT CCTGGTGTTG CTGAACTGGG TCCCTGTTGT GGAGGCTTTT 
CAGAAGGAGA TCACCATGAT CCCCTTGGTG GTTGTTCTCT GTGTCATCGC CTTCAAGGAT 
GCTCTGGAGG ATTACCGTCG TTACCGCTTC GATAAGATGA TCAACAGCAA GGTCACCAAG 
GTGTACTGTG GGAAGCAGCG ACAGTATGTA GACCAACACT GGAAGGACAT ATGCGTGGGA 
GACTTTGTCT ATCTGTCCTG CAATGAAATA ATTCCAGCTG ACATGGTGTT GCTACATTCC 
TCAAACCCAG ATGGAATCTG CCGCATTGAG ACAGCCAACT TGGATGGGGA GACCAACCTG 
AAGCAAAAGC AGGTCATCAA AGGACTGGCC TGGCAGGATG CTGAGGTGTC CCCGGAAGCT 
TTCGCAAGTC GTATTGAGTG TGAAAGTCCG AACGATGACC TGAACCGCTT CAGAGGGTTC 
ATGGAACATG CCAATAAAAC CAGGGTGGGT TTACACAACG AGAACCTCCT GCTGCGGAGC 
TGCACTATTC GTAACACGGA ATCTGTGGTT GGCATTGTTG TCTATGCTGG CCATGAGACA 
AAGGCAATGA AGAACAACAG CGGACCACGG TACAAACGCA GCAAGTTGGA GCGGAGGCTG 
AACACGGACA TCCTGTGGAG CCTGGTGTTG CTTCTGTTCA TGTGCCTCAC TGCAGCTATA 
GGCCACGGTA TATGGCTGAG CGGCCTAAAA AATCCTCCAT TCCTTATTCC TGATGGCACT 
TCTCCAGCCT TGGCTGGATT CTACCTCTTC TGGACCATGA TTATTGTTCT GCAGGTGCTG 
ATCCCCATTT CCCTGTATGT GTCCATTGAG ATTGTGAAAT TGGGTCAGAT CTACTTGATC 
CAAAGTGATG TGGACTTCTA TGATGAGAAG CAGGCCTTGG GCATGCAGTG TCGGGCACTT 
AACATCACTG AGGACCTAGG CCAGATCCAG TACATCTTCT CTGATAAGAC AGGCACGCTG 
ACTGAGAACA AGATGGTGTT CCGGCGCTGC AGCATTGCAG GGGTGGAGTA CCCTCATGAG 
GACAATAGTC GAAGGCTGGA AATGTACCAG GCCCAGGACT GCGACAGTGA ACTTGATCCT 
TCTTCAATAA CTGTGAAGTC CAAGTCAAGC CTCCTTTCGC TCAGCTGCCG CTCGCTCAAC 
TGCAACCAGA GCTCCACATC ACTGCACTTG CTTGCTGCTT CTGATGGTGA GATGGACCTG 
CAGGGTAAGC CCTTGGGCAC CACTGGCTGT CATGATGTGG CCTTCAGTAG TCGAACGGAA 
AAGGGGGTGA TCCCAGATCC TCAACTTCTC CTGAAGCTCA ACCAGCTGTC TTCAGCTGAA 
CTGCTGCTCC AGGATCGCCC AGAAGATGAT CCCCAGGAGA CTGCTTACAT TGTGGACTTC 
TTCCTGGCGA TAACACTGTG CAACACCGTG GTAGTGTCAT CGCCTAGGCT GCCAGAGCCC 
CAGGTATCAG AATCTCCCCA CATGGCCATC AAGTCCCTGG AGAGCATGAA GCTGCTCTTT 
CAACGCTTTA GTGTTCCCCA ATTTGCTTCC TTCTCCACTT CGAGGAGCAA TGCACCTGCA 
GACAGTCCCT CCAGCTTTGC CCAGAAGCTC TTCAGCCGAG GCTCTTTGTC GACCCCTGCT 
ACGCCTCAGG ACAAAGTGGA GGAGACCAAG GGCCTGCAGA TCACAGCTCC CATGGAGTGG 
ATTCCTGAGA TGGATGACCA TGCCAGGGGT GTGGCCAAGG CAGGGCCCTG CGGGTTAGAA 
GCAGAGTCGG AAGCCTTGGT GTACGCAGCT GAAAGTCCGG ATGAGGCTGC CTTGGTGCAT 
GCTACGCGAG CTTACCGGTG CACACTGTGG GCGCGGTCGT CCAACCAGGT GCTGGTGGAA 
CTCCCGGGAC TGGGCCGCCT TGCCGTTAAC CTGCTTCACA TTCTTCCCTT TGACTCATTT 
CGGAAGAGGA TGTCTGTTGT GGTCCGCCAC CCACTCACGA ACCAGGTGGT GGTCTACACA 
AAGGGGGCTG ATTCAGTGAT CATCAAACTT GTGGCTCCAC TTGCAGAAGG CAATCCGACT 
ACGGCCAGGC TGAAGCATAT TAGGGAGCAG ACACAGAGGC ACCTCGACAA CTATGCCAGA 
GAAGGCCTGC GCACTCTCTG TGTAGCCACA AAGGTTCTGG AAGAGACAGA GTACTCCATG 
TGGCTGAAGA AGCACACATT TGCAGAGACT TGCATAGAAA ACAGGGAGAA GCTGCTGCTG 
GAGTCTGCTG ATGAATTGGA GACTAACTTG ACCCTCCTTG GTGCCACTGG CATCTTGGAC 
CGGCTGCAGG AGGATGTGCC TGAAACGATT GAGGCACTGC AGGGGGCTGG CATACATGTC 
TGGGTCCTGA CAGGGGACAA ACAGGAGACA GCTGTCAACA TTGCTTGCTC CTGTGGGCTA 
CTTCGACCAT CTGACAAGCT GCTCACCATC AACTGTGACA GCAAGGATGC CTGTGAAGCC 
CTTCTGCTGA AGCTGATCAG GGTGGTTGCA GAAGCAAGTG ACAGCAAAGG AGACGAACCA 
AGTGGCCACA TGCTGGTCAT TGACGGTCAG TCTCTGGAGC TAGCCCTGGA GGACAGTCTA 
CAGGAACCCT TTCTTGACCT AGCTAAGCAC TGCCGTGCCG TTGTTTGCTG CCGTTCCACA 
CCGCTGCAGA AGAGTCAGGT GGTACGGCTG GTACAGGATC GACTAGGAGT CATGACCCTG 
GCTATAGGTG ATGGGGCCAA TGATGTAAGC ATGATCCAGG TGGCCAATAT TGGGGTAGGA 
ATCTCAGGGC AGGAGGGTAT GCAGGCAGTG ATGTCCAGCG ATTTTGCTAT CTCTAGGTTT 
AAGCATCTGC GCAAATTGCT GTTGGTCCAT GGCCACTGGT GCTACACACG GCTGGCCAAC 
ATGACCCTTT ACTTCTTTTA CAAGAATGTG GCCTATGTGA ACCTGCTTTT CTGGTACCAG 
TTCTACTGTG GCTTCTCTGG TAGCACCATG ACCAATTACT GGATGCTCAT CTTCTTTAAC 
CTGCTGTTTA CCTCTGCACC ACCACTGCTC TATGGTATCT TGGACCGTGA CGCCTCTGCT 
GACATCCTGC AACAGCTGCC TGTGCTCTAC CGAGCTGGCC ATTTCTCTCA GGCTTATCTG 
CCCTCGACCT TTTGGTGCAC CATGCTGGAT GCACTCTACC AGAGTCTTGT CTGCTTCTTT 
GTCCCCTACT TCGCATACTC TGGCTCCGAT ATTAGCATCT TTTCCTTTGG AACACCAGTC 
AACACATCAG CCCTCCTCGT AATTCTCTTG CAGCAGGTTA TCCAGAGCCA CACCCTGACG 
TGGCTTCATG GTGTGGTTCT AGTGGGCAGC GCACTCTTCT ACTTTGTGTT CATGCTGGTC 
TTCAGTGCCA CCTGTGTGAC CTGTAACTCC CCCTCCAATC CCCTTGGCGT TGACATCCGG 
CACATGCAGG ACCCCCAGTT TTACTGTGTG TGTGTCCTCA CCACTGTGCT GGCACTGCTT 
CCCAGGGTCC TGTACACAAG TGTGAAGAAC AGTGTGAACC CCACGGATTT AGTGAAAGCT 
GCTCAGCTGG ACAAGTTGGG TCCAGAGGAA CAGAGGAGAG GAATTCAAAA CTGGAGAACG 
GCACTGGGAT ATGGAGAGCC AAGTATCACC GTCACTGCAG CAGATGGAGA CCCCAGGGGG 
TGCCACCCCA ATCCAGTTTC GATCAACTCA TGA

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

atp10d ( XM_018725132.1 ) cDNA ORF clone, Scleropages formosus(Asian bonytongue) -> XP_018580648.1 Scleropages formosus ATPase phospholipid transporting 10D (putative) (atp10d), mRNA.

Price & Availability↑

CloneID	OSc65530
Clone ID Related Accession (Same CDS sequence)	XM_018725132.1
Accession Version	XM_018725132.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3993bp) 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	2016-10-18
Organism	Scleropages formosus(Asian bonytongue)
Product	probable phospholipid-transporting ATPase VD
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017372260.1) 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 :: Scleropages formosus Annotation Release 100 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##

ATGGGCCGAG GCTGGTCCTC ACCCACTGGG GCACCCACCA GTAAAAGCAT TTCTGGAAAC 
CAGGATTGCC CAGGCCACAA GTTCCCTGGC AAGAGGCGAA CAGTAATTGC CCGCTATGGG 
CCATACAAGG ATGAGTACTG CACAATTACT AAAGGTTACC ATGGCAACGG CATTCACACC 
ACCAAATACA CCTTAGTCAG CTTCATTCCT ATGAACCTGT TTGAGCAATT TCACAGAGCT 
GCCAACTTGT ACTTCCTGTT CCTGGTGTTG CTGAACTGGG TCCCTGTTGT GGAGGCTTTT 
CAGAAGGAGA TCACCATGAT CCCCTTGGTG GTTGTTCTCT GTGTCATCGC CTTCAAGGAT 
GCTCTGGAGG ATTACCGTCG TTACCGCTTC GATAAGATGA TCAACAGCAA GGTCACCAAG 
GTGTACTGTG GGAAGCAGCG ACAGTATGTA GACCAACACT GGAAGGACAT ATGCGTGGGA 
GACTTTGTCT ATCTGTCCTG CAATGAAATA ATTCCAGCTG ACATGGTGTT GCTACATTCC 
TCAAACCCAG ATGGAATCTG CCGCATTGAG ACAGCCAACT TGGATGGGGA GACCAACCTG 
AAGCAAAAGC AGGTCATCAA AGGACTGGCC TGGCAGGATG CTGAGGTGTC CCCGGAAGCT 
TTCGCAAGTC GTATTGAGTG TGAAAGTCCG AACGATGACC TGAACCGCTT CAGAGGGTTC 
ATGGAACATG CCAATAAAAC CAGGGTGGGT TTACACAACG AGAACCTCCT GCTGCGGAGC 
TGCACTATTC GTAACACGGA ATCTGTGGTT GGCATTGTTG TCTATGCTGG CCATGAGACA 
AAGGCAATGA AGAACAACAG CGGACCACGG TACAAACGCA GCAAGTTGGA GCGGAGGCTG 
AACACGGACA TCCTGTGGAG CCTGGTGTTG CTTCTGTTCA TGTGCCTCAC TGCAGCTATA 
GGCCACGGTA TATGGCTGAG CGGCCTAAAA AATCCTCCAT TCCTTATTCC TGATGGCACT 
TCTCCAGCCT TGGCTGGATT CTACCTCTTC TGGACCATGA TTATTGTTCT GCAGGTGCTG 
ATCCCCATTT CCCTGTATGT GTCCATTGAG ATTGTGAAAT TGGGTCAGAT CTACTTGATC 
CAAAGTGATG TGGACTTCTA TGATGAGAAG CAGGCCTTGG GCATGCAGTG TCGGGCACTT 
AACATCACTG AGGACCTAGG CCAGATCCAG TACATCTTCT CTGATAAGAC AGGCACGCTG 
ACTGAGAACA AGATGGTGTT CCGGCGCTGC AGCATTGCAG GGGTGGAGTA CCCTCATGAG 
GACAATAGTC GAAGGCTGGA AATGTACCAG GCCCAGGACA GCGACAGTGA ACTTGATCCT 
TCTTCAATAA CTGTGAAGTC CAAGTCAAGC CTCCTTTCGC TCAGCTGCCG CTCGCTCAAC 
TGCAACCAGA GCTCCACATC ACTGCACTTG CTTGCTGCTT CTGATGGTGA GATGGACCTG 
CAGGGTAAGC CCTTGGGCAC CACTGGCTGT CATGATGTGG CCTTCAGTAG TCGAACGGAA 
AAGGGGGTGA TCCCAGATCC TCAACTTCTC CTGAAGCTCA ACCAGCTGTC TTCAGCTGAA 
CTGCTGCTCC AGGATCGCCC AGAAGATGAT CCCCAGGAGA CTGCTTACAT TGTGGACTTC 
TTCCTGGCGA TAACACTGTG CAACACCGTG GTAGTGTCAT CGCCTAGGCT GCCAGAGCCC 
CAGGTATCAG AATCTCCCCA CATGGCCATC AAGTCCCTGG AGAGCATGAA GCTGCTCTTT 
CAACGCTTTA GTGTTCCCCA ATTTGCTTCC TTCTCCACTT CGAGGAGCAA TGCACCTGCA 
GACAGTCCCT CCAGCTTTGC CCAGAAGCTC TTCAGCCGAG GCTCTTTGTC GACCCCTGCT 
ACGCCTCAGG ACAAAGTGGA GGAGACCAAG GGCCTGCAGA TCACAGCTCC CATGGAGTGG 
ATTCCTGAGA TGGATGACCA TGCCAGGGGT GTGGCCAAGG CAGGGCCCTG CGGGTTAGAA 
GCAGAGTCGG AAGCCTTGGT GTACGCAGCT GAAAGTCCGG ATGAGGCTGC CTTGGTGCAT 
GCTACGCGAG CTTACCGGTG CACACTGTGG GCGCGGTCGT CCAACCAGGT GCTGGTGGAA 
CTCCCGGGAC TGGGCCGCCT TGCCGTTAAC CTGCTTCACA TTCTTCCCTT TGACTCATTT 
CGGAAGAGGA TGTCTGTTGT GGTCCGCCAC CCACTCACGA ACCAGGTGGT GGTCTACACA 
AAGGGGGCTG ATTCAGTGAT CATCAAACTT GTGGCTCCAC TTGCAGAAGG CAATCCGACT 
ACGGCCAGGC TGAAGCATAT TAGGGAGCAG ACACAGAGGC ACCTCGACAA CTATGCCAGA 
GAAGGCCTGC GCACTCTCTG TGTAGCCACA AAGGTTCTGG AAGAGACAGA GTACTCCATG 
TGGCTGAAGA AGCACACATT TGCAGAGACT TGCATAGAAA ACAGGGAGAA GCTGCTGCTG 
GAGTCTGCTG ATGAATTGGA GACTAACTTG ACCCTCCTTG GTGCCACTGG CATCTTGGAC 
CGGCTGCAGG AGGATGTGCC TGAAACGATT GAGGCACTGC AGGGGGCTGG CATACATGTC 
TGGGTCCTGA CAGGGGACAA ACAGGAGACA GCTGTCAACA TTGCTTGCTC CTGTGGGCTA 
CTTCGACCAT CTGACAAGCT GCTCACCATC AACTGTGACA GCAAGGATGC CTGTGAAGCC 
CTTCTGCTGA AGCTGATCAG GGTGGTTGCA GAAGCAAGTG ACAGCAAAGG AGACGAACCA 
AGTGGCCACA TGCTGGTCAT TGACGGTCAG TCTCTGGAGC TAGCCCTGGA GGACAGTCTA 
CAGGAACCCT TTCTTGACCT AGCTAAGCAC TGCCGTGCCG TTGTTTGCTG CCGTTCCACA 
CCGCTGCAGA AGAGTCAGGT GGTACGGCTG GTACAGGATC GACTAGGAGT CATGACCCTG 
GCTATAGGTG ATGGGGCCAA TGATGTAAGC ATGATCCAGG TGGCCAATAT TGGGGTAGGA 
ATCTCAGGGC AGGAGGGTAT GCAGGCAGTG ATGTCCAGCG ATTTTGCTAT CTCTAGGTTT 
AAGCATCTGC GCAAATTGCT GTTGGTCCAT GGCCACTGGT GCTACACACG GCTGGCCAAC 
ATGACCCTTT ACTTCTTTTA CAAGAATGTG GCCTATGTGA ACCTGCTTTT CTGGTACCAG 
TTCTACTGTG GCTTCTCTGG TAGCACCATG ACCAATTACT GGATGCTCAT CTTCTTTAAC 
CTGCTGTTTA CCTCTGCACC ACCACTGCTC TATGGTATCT TGGACCGTGA CGCCTCTGCT 
GACATCCTGC AACAGCTGCC TGTGCTCTAC CGAGCTGGCC ATTTCTCTCA GGCTTATCTG 
CCCTCGACCT TTTGGTGCAC CATGCTGGAT GCACTCTACC AGAGTCTTGT CTGCTTCTTT 
GTCCCCTACT TCGCATACTC TGGCTCCGAT ATTAGCATCT TTTCCTTTGG AACACCAGTC 
AACACATCAG CCCTCCTCGT AATTCTCTTG CAGCAGGTTA TCCAGAGCCA CACCCTGACG 
TGGCTTCATG GTGTGGTTCT AGTGGGCAGC GCACTCTTCT ACTTTGTGTT CATGCTGGTC 
TTCAGTGCCA CCTGTGTGAC CTGTAACTCC CCCTCCAATC CCCTTGGCGT TGACATCCGG 
CACATGCAGG ACCCCCAGTT TTACTGTGTG TGTGTCCTCA CCACTGTGCT GGCACTGCTT 
CCCAGGGTCC TGTACACAAG TGTGAAGAAC AGTGTGAACC CCACGGATTT AGTGAAAGCT 
GCTCAGCTGG ACAAGTTGGG TCCAGAGGAA CAGAGGAGAG GAATTCAAAA CTGGAGAACG 
GCACTGGGAT ATGGAGAGCC AAGTATCACC GTCACTGCAG CAGATGGAGA CCCCAGGGGG 
TGCCACCCCA ATCCAGTTTC GATCAACTCA TGA

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

RefSeq	XP_018580648.1
CDS	121..4113
Translation	MGRGWSSPTGAPTSKSISGNQDCPGHKFPGKRRTVIARYGPYKDEYCTITKGYHGNGIHTTKYTLVSFIPMNLFEQFHRAANLYFLFLVLLNWVPVVEAFQKEITMIPLVVVLCVIAFKDALEDYRRYRFDKMINSKVTKVYCGKQRQYVDQHWKDICVGDFVYLSCNEIIPADMVLLHSSNPDGICRIETANLDGETNLKQKQVIKGLAWQDAEVSPEAFASRIECESPNDDLNRFRGFMEHANKTRVGLHNENLLLRSCTIRNTESVVGIVVYAGHETKAMKNNSGPRYKRSKLERRLNTDILWSLVLLLFMCLTAAIGHGIWLSGLKNPPFLIPDGTSPALAGFYLFWTMIIVLQVLIPISLYVSIEIVKLGQIYLIQSDVDFYDEKQALGMQCRALNITEDLGQIQYIFSDKTGTLTENKMVFRRCSIAGVEYPHEDNSRRLEMYQAQDSDSELDPSSITVKSKSSLLSLSCRSLNCNQSSTSLHLLAASDGEMDLQGKPLGTTGCHDVAFSSRTEKGVIPDPQLLLKLNQLSSAELLLQDRPEDDPQETAYIVDFFLAITLCNTVVVSSPRLPEPQVSESPHMAIKSLESMKLLFQRFSVPQFASFSTSRSNAPADSPSSFAQKLFSRGSLSTPATPQDKVEETKGLQITAPMEWIPEMDDHARGVAKAGPCGLEAESEALVYAAESPDEAALVHATRAYRCTLWARSSNQVLVELPGLGRLAVNLLHILPFDSFRKRMSVVVRHPLTNQVVVYTKGADSVIIKLVAPLAEGNPTTARLKHIREQTQRHLDNYAREGLRTLCVATKVLEETEYSMWLKKHTFAETCIENREKLLLESADELETNLTLLGATGILDRLQEDVPETIEALQGAGIHVWVLTGDKQETAVNIACSCGLLRPSDKLLTINCDSKDACEALLLKLIRVVAEASDSKGDEPSGHMLVIDGQSLELALEDSLQEPFLDLAKHCRAVVCCRSTPLQKSQVVRLVQDRLGVMTLAIGDGANDVSMIQVANIGVGISGQEGMQAVMSSDFAISRFKHLRKLLLVHGHWCYTRLANMTLYFFYKNVAYVNLLFWYQFYCGFSGSTMTNYWMLIFFNLLFTSAPPLLYGILDRDASADILQQLPVLYRAGHFSQAYLPSTFWCTMLDALYQSLVCFFVPYFAYSGSDISIFSFGTPVNTSALLVILLQQVIQSHTLTWLHGVVLVGSALFYFVFMLVFSATCVTCNSPSNPLGVDIRHMQDPQFYCVCVLTTVLALLPRVLYTSVKNSVNPTDLVKAAQLDKLGPEEQRRGIQNWRTALGYGEPSITVTAADGDPRGCHPNPVSINS

Target ORF information:

RefSeq Version	XM_018725132.1
Organism	Scleropages formosus(Asian bonytongue)
Definition	Scleropages formosus ATPase phospholipid transporting 10D (putative) (atp10d), mRNA.

Target ORF information:

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

XM_018725132.1

ORF Insert Sequence:

ATGGGCCGAG GCTGGTCCTC ACCCACTGGG GCACCCACCA GTAAAAGCAT TTCTGGAAAC 
CAGGATTGCC CAGGCCACAA GTTCCCTGGC AAGAGGCGAA CAGTAATTGC CCGCTATGGG 
CCATACAAGG ATGAGTACTG CACAATTACT AAAGGTTACC ATGGCAACGG CATTCACACC 
ACCAAATACA CCTTAGTCAG CTTCATTCCT ATGAACCTGT TTGAGCAATT TCACAGAGCT 
GCCAACTTGT ACTTCCTGTT CCTGGTGTTG CTGAACTGGG TCCCTGTTGT GGAGGCTTTT 
CAGAAGGAGA TCACCATGAT CCCCTTGGTG GTTGTTCTCT GTGTCATCGC CTTCAAGGAT 
GCTCTGGAGG ATTACCGTCG TTACCGCTTC GATAAGATGA TCAACAGCAA GGTCACCAAG 
GTGTACTGTG GGAAGCAGCG ACAGTATGTA GACCAACACT GGAAGGACAT ATGCGTGGGA 
GACTTTGTCT ATCTGTCCTG CAATGAAATA ATTCCAGCTG ACATGGTGTT GCTACATTCC 
TCAAACCCAG ATGGAATCTG CCGCATTGAG ACAGCCAACT TGGATGGGGA GACCAACCTG 
AAGCAAAAGC AGGTCATCAA AGGACTGGCC TGGCAGGATG CTGAGGTGTC CCCGGAAGCT 
TTCGCAAGTC GTATTGAGTG TGAAAGTCCG AACGATGACC TGAACCGCTT CAGAGGGTTC 
ATGGAACATG CCAATAAAAC CAGGGTGGGT TTACACAACG AGAACCTCCT GCTGCGGAGC 
TGCACTATTC GTAACACGGA ATCTGTGGTT GGCATTGTTG TCTATGCTGG CCATGAGACA 
AAGGCAATGA AGAACAACAG CGGACCACGG TACAAACGCA GCAAGTTGGA GCGGAGGCTG 
AACACGGACA TCCTGTGGAG CCTGGTGTTG CTTCTGTTCA TGTGCCTCAC TGCAGCTATA 
GGCCACGGTA TATGGCTGAG CGGCCTAAAA AATCCTCCAT TCCTTATTCC TGATGGCACT 
TCTCCAGCCT TGGCTGGATT CTACCTCTTC TGGACCATGA TTATTGTTCT GCAGGTGCTG 
ATCCCCATTT CCCTGTATGT GTCCATTGAG ATTGTGAAAT TGGGTCAGAT CTACTTGATC 
CAAAGTGATG TGGACTTCTA TGATGAGAAG CAGGCCTTGG GCATGCAGTG TCGGGCACTT 
AACATCACTG AGGACCTAGG CCAGATCCAG TACATCTTCT CTGATAAGAC AGGCACGCTG 
ACTGAGAACA AGATGGTGTT CCGGCGCTGC AGCATTGCAG GGGTGGAGTA CCCTCATGAG 
GACAATAGTC GAAGGCTGGA AATGTACCAG GCCCAGGACA GCGACAGTGA ACTTGATCCT 
TCTTCAATAA CTGTGAAGTC CAAGTCAAGC CTCCTTTCGC TCAGCTGCCG CTCGCTCAAC 
TGCAACCAGA GCTCCACATC ACTGCACTTG CTTGCTGCTT CTGATGGTGA GATGGACCTG 
CAGGGTAAGC CCTTGGGCAC CACTGGCTGT CATGATGTGG CCTTCAGTAG TCGAACGGAA 
AAGGGGGTGA TCCCAGATCC TCAACTTCTC CTGAAGCTCA ACCAGCTGTC TTCAGCTGAA 
CTGCTGCTCC AGGATCGCCC AGAAGATGAT CCCCAGGAGA CTGCTTACAT TGTGGACTTC 
TTCCTGGCGA TAACACTGTG CAACACCGTG GTAGTGTCAT CGCCTAGGCT GCCAGAGCCC 
CAGGTATCAG AATCTCCCCA CATGGCCATC AAGTCCCTGG AGAGCATGAA GCTGCTCTTT 
CAACGCTTTA GTGTTCCCCA ATTTGCTTCC TTCTCCACTT CGAGGAGCAA TGCACCTGCA 
GACAGTCCCT CCAGCTTTGC CCAGAAGCTC TTCAGCCGAG GCTCTTTGTC GACCCCTGCT 
ACGCCTCAGG ACAAAGTGGA GGAGACCAAG GGCCTGCAGA TCACAGCTCC CATGGAGTGG 
ATTCCTGAGA TGGATGACCA TGCCAGGGGT GTGGCCAAGG CAGGGCCCTG CGGGTTAGAA 
GCAGAGTCGG AAGCCTTGGT GTACGCAGCT GAAAGTCCGG ATGAGGCTGC CTTGGTGCAT 
GCTACGCGAG CTTACCGGTG CACACTGTGG GCGCGGTCGT CCAACCAGGT GCTGGTGGAA 
CTCCCGGGAC TGGGCCGCCT TGCCGTTAAC CTGCTTCACA TTCTTCCCTT TGACTCATTT 
CGGAAGAGGA TGTCTGTTGT GGTCCGCCAC CCACTCACGA ACCAGGTGGT GGTCTACACA 
AAGGGGGCTG ATTCAGTGAT CATCAAACTT GTGGCTCCAC TTGCAGAAGG CAATCCGACT 
ACGGCCAGGC TGAAGCATAT TAGGGAGCAG ACACAGAGGC ACCTCGACAA CTATGCCAGA 
GAAGGCCTGC GCACTCTCTG TGTAGCCACA AAGGTTCTGG AAGAGACAGA GTACTCCATG 
TGGCTGAAGA AGCACACATT TGCAGAGACT TGCATAGAAA ACAGGGAGAA GCTGCTGCTG 
GAGTCTGCTG ATGAATTGGA GACTAACTTG ACCCTCCTTG GTGCCACTGG CATCTTGGAC 
CGGCTGCAGG AGGATGTGCC TGAAACGATT GAGGCACTGC AGGGGGCTGG CATACATGTC 
TGGGTCCTGA CAGGGGACAA ACAGGAGACA GCTGTCAACA TTGCTTGCTC CTGTGGGCTA 
CTTCGACCAT CTGACAAGCT GCTCACCATC AACTGTGACA GCAAGGATGC CTGTGAAGCC 
CTTCTGCTGA AGCTGATCAG GGTGGTTGCA GAAGCAAGTG ACAGCAAAGG AGACGAACCA 
AGTGGCCACA TGCTGGTCAT TGACGGTCAG TCTCTGGAGC TAGCCCTGGA GGACAGTCTA 
CAGGAACCCT TTCTTGACCT AGCTAAGCAC TGCCGTGCCG TTGTTTGCTG CCGTTCCACA 
CCGCTGCAGA AGAGTCAGGT GGTACGGCTG GTACAGGATC GACTAGGAGT CATGACCCTG 
GCTATAGGTG ATGGGGCCAA TGATGTAAGC ATGATCCAGG TGGCCAATAT TGGGGTAGGA 
ATCTCAGGGC AGGAGGGTAT GCAGGCAGTG ATGTCCAGCG ATTTTGCTAT CTCTAGGTTT 
AAGCATCTGC GCAAATTGCT GTTGGTCCAT GGCCACTGGT GCTACACACG GCTGGCCAAC 
ATGACCCTTT ACTTCTTTTA CAAGAATGTG GCCTATGTGA ACCTGCTTTT CTGGTACCAG 
TTCTACTGTG GCTTCTCTGG TAGCACCATG ACCAATTACT GGATGCTCAT CTTCTTTAAC 
CTGCTGTTTA CCTCTGCACC ACCACTGCTC TATGGTATCT TGGACCGTGA CGCCTCTGCT 
GACATCCTGC AACAGCTGCC TGTGCTCTAC CGAGCTGGCC ATTTCTCTCA GGCTTATCTG 
CCCTCGACCT TTTGGTGCAC CATGCTGGAT GCACTCTACC AGAGTCTTGT CTGCTTCTTT 
GTCCCCTACT TCGCATACTC TGGCTCCGAT ATTAGCATCT TTTCCTTTGG AACACCAGTC 
AACACATCAG CCCTCCTCGT AATTCTCTTG CAGCAGGTTA TCCAGAGCCA CACCCTGACG 
TGGCTTCATG GTGTGGTTCT AGTGGGCAGC GCACTCTTCT ACTTTGTGTT CATGCTGGTC 
TTCAGTGCCA CCTGTGTGAC CTGTAACTCC CCCTCCAATC CCCTTGGCGT TGACATCCGG 
CACATGCAGG ACCCCCAGTT TTACTGTGTG TGTGTCCTCA CCACTGTGCT GGCACTGCTT 
CCCAGGGTCC TGTACACAAG TGTGAAGAAC AGTGTGAACC CCACGGATTT AGTGAAAGCT 
GCTCAGCTGG ACAAGTTGGG TCCAGAGGAA CAGAGGAGAG GAATTCAAAA CTGGAGAACG 
GCACTGGGAT ATGGAGAGCC AAGTATCACC GTCACTGCAG CAGATGGAGA CCCCAGGGGG 
TGCCACCCCA ATCCAGTTTC GATCAACTCA TGA