Heatr1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Heatr1
Entrez Gene ID	110307929
Full Name	HEAT repeat containing 1
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021180215.1	XP_021035874.1	HEAT repeat-containing protein 1
XM_021180215.2	XP_021035874.1	HEAT repeat-containing protein 1

Pathways from BioSystems
Gene Ontology

The following Heatr1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Heatr1 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)
OMv29698	XM_021180215.2 Latest version!	Mus caroli HEAT repeat containing 1 (Heatr1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	29-31	$1161.30 $1659.00
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OMv29698	XM_021180215.1	Mus caroli HEAT repeat containing 1 (Heatr1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	29-31	$1161.30 $1659.00
Hide Old Accession Versions >>

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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)

Heatr1 ( XM_021180215.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035874.1 Mus caroli HEAT repeat containing 1 (Heatr1), mRNA.

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CloneID	OMv29698
Clone ID Related Accession (Same CDS sequence)	XM_021180215.1 , XM_021180215.2
Accession Version	XM_021180215.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 6432bp) 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	2017-05-20
Organism	Mus caroli(Ryukyu mouse)
Product	HEAT repeat-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACGTCCT TAGCCCAGCA GCTCCAGCGA CTCGCCCTCC CTCAAACTGA TCCCAGCCTC 
CTATCGAGAC GTGAAGTTGC CTCTCTGTTA TTTGACCCCA AGGAGGCGGC CACAATCGAC 
AGGGACACCG CCTTTGCCAT CGGATGCACT GGCCTGGAGG AGCTTCTTGG GATTGACCCT 
GCCTTTGAAC AGTTTGAAGC GCCACTGTTC AGCCAGCTGG CAAAAGGCTT GGAGCGCAGC 
GTCCAGACCA AAGCAGTGAA CAAGCAGCTG GATGAAAACA TTTCATCGTT CCTCCTTCAC 
TTGTCTCCTT ATTTCCTCCT CAAGCCAGCG CAGAAGTGTC TGGAATGGCT GATTCACAGG 
TTCCACATCC ATCTTTACAA TGCAGATAAT CTCATTGCTT GTGTTCTGCC GTACCATGAG 
ACACGGGTAT TTGTGCGGGT GATACAGCTT CTAAAAATTA GTAATCCGAA ACACAAATGG 
TTTTGGCTGT CTCCTGTTAA GCACTCTGGA GTGCCTTTAG CTAGAGGAAC TTTGGTCACT 
CATTGCTACA AAGACCTTGG ATTCATGGAT TTTATTTGCA GCCTAGTGAC GAGATCTGTG 
AAGGCCTTCG CTGAGGATCC GGGAAGCTCC GCCCAGTTGA GAGTGCTCTT GGCCTTCTAT 
GCCTCCACCA TTGTGTCTGC TCTAGTGGCT GCTGAGAACC TATCAGACAA TGTAGTCGCC 
AAACTCTTTC CATACATCCA AAAGGGATTG AAATCCTCTT TACCAGATTA TAGAGCTGCG 
ACATACATGA TAATCTGTCA GATTTCTGTG AAAGTGACGA TGGAAGATTC CTTTGTGAAC 
TCACTGGCAT CCCAGCTCAT CAAAACACTG ACCAAGGTTC CTTCTCAGGT CAAGGATGGA 
TTAGGTTGCC TGATAATTCT CCTACAGCGA CAGAAGCCAG AGAGCCTTGG GGAAAAGCCG 
TTCCTTCACT TGTGTGGTGT TCCAGACCTT ATAGGGCTAC TTCACGGGAT CTCCGAGAGC 
TACGACGTGA GCCCTCTTCT GCGCTGCATG CTTCCCCATC TGGTGGCCTC TGTTGTTCAG 
CACATTGCAG GAGAAGAAGC TGAAGGGATT GATGGTCAGA TCTACAAGAA GCACTTAGAA 
GAAATACTTA CAAAAATACC ACTGACGAAC AACTTAGACC ACCTACTGGC TAGCCGTCTT 
TTTGAAGAAT ATATTTCATA CAGTTCCCGG GAGGAAACGC ATGCTAATGG AGTGGCTTTG 
CTTAATGAGC AGTTTCTTCC ACTCATCAGA CTTTTAGAAA GCAAATACCC CAGAGCGTTG 
GATGCTGTGT TAGAGGAGCA CCTGAAGGAG ATTACAGGCC TTAAAAAGCA GGAGCTGTTC 
CACCAGTTCA TTTCTCTGTC TACAAGTGGA GGCAAGTATC AGTTTTTGGA GGATTCTGAC 
ACCTCTTTGA TGCTCAGTTT GAATCACCCA CTGGCTCCTG TGAGACTTCT GGCCGTTAAT 
CACCTAAAAA CTATCATGAA AACATCAAAG GAGGGCATTG ATGAGACTTT TATTAAAGAA 
GCTATTCTAA CCCGGTTAGG CGATGATAAT GTGGATGTTG TTTTAGCGAC TCTGAGTGCT 
TTTGAGATTT TTCAACAACA TTTTGGTGTA GAAGAGACGG TTTCAAGTCT TCTGAATCTC 
TTTCAAAGAG CAGACCTTTC AAAGAATAAA GGGTGGTACA GGGTGCTTGA GCTAGCAGCA 
AACTTACTAA TTAAAGAAGA GATACTAAGT AAAAATGACC AGTTGGCAAA TCAGGTGGTT 
GTCCAGTTGC TGCCTTTTAT GGTTATTACT AGTAATGATG TAGAGTCTCC TGATATGAAA 
ATTGCTATAC ATTTGTCAAA ATCAGGAATT TGTTCTCTGC ATCCTCTATT AAGAGGCTGG 
AAAGAAGCTC TTGAAAATGT TATTAAAAGC AGGAAATCAA GAGAAATAAT TGGTGTAGGA 
AACCAGAAGA TGGTTCAGCT GCTGGGCAGC AATTTAAGTT TAGGAGAGCG CTCTACAGTG 
TTGAAGCTGG TCGAAGATCT AGTATGTGCT GGGGAAAAGG AGTCTTACAG CCTGAAGCAG 
AAAGTGGCGT TTCACGTGAC TGTGTCTGTG CTGATCTCTT GCTGCTCATC CTTCCAAGAA 
ACCTGCTTCC CGTTTGCTAT GAGAGTGTTC AGTTTACTGC AGAAAAAGAT AAAGAAGCTC 
AAAAGCATCA TCACTGCTGT GGAAATGCCC TCAGAGTGGC AGGTGGAACT GATGTTGAAC 
AGAGGATTGC CGGAGGAGCT GTGGGTGCGT TACGTGCAGG AGCTCCACGG TGCCCAGAGG 
GTTGTCATGG AGGACGCCAT TTTACTTGTA TTTTCCATGA AATGTTTTAT TTTTGCAATG 
AAGGCTCCAA AATCTTTCCC TACAGGTGCC ATGTGGTGGG ATCCCGAGCA GCTAGATGAA 
GACAGCAGAC ACTACCTGCA CCTGCTCATT GGTATCTTTG AAATGCTGCT GGAGGTTTCT 
GACGCCATGC ATTTCAGGGT TCTGATGAGG CTTATAATGA AGGTACATCT ACAAGATGTT 
CTGCAGTTGT TCAAGTTCTT TTGTGTTTTG TGGACCTATG GTTCTAGCCT TTCAAATCCA 
CTTAACTGCA CTGTGAAGTC AGAGCTGCAG ACTCAAGCTC TTTACATAGG CTCTGCAATG 
CTTTCTTCTC AGAATACACA GTATAAACAA AAGCTGGCAT CTACTGCATC TCCAGTGGTG 
ATGTCTCTAC TCCTCAATCT GGGAAGCCCT ATCAAAGAAG TCCGCAGAGC TGCCGTCCAG 
TGTCTCCAGG CCCTCAGTGG GGTACCCTCA AAGTTTCAGC TGGTGATAGA TCACCTCATT 
CCTAAGGCAG AAGAGATCAC TTCAGATGCT ACCTATGTGA TTCAGGATTT GGCTACACTA 
TTTGATGAAC TACAGAATGA AGAGAAACAG AAATCACATC AGAAGTTGTC TGAAACCCTG 
AGAAGCCTTC TTCACTGTGT GTATGGCTGC CCATCTTACA TTGCAAAAGG CTTGATGAAA 
GTATTCCAAG GTGTGAACAG TGAGATGGTG CTTGCCCAGC TGCTGCCTAT GGTGGAACAA 
CTCCTAGAGA AGGTGGAAAA GGAGCCCACG GCTGTCCTGA AAGATGAGGC TATCGTTTTG 
CATCTCACTC TGGGAAAATA CAATGAGTAT TCAGCTTCGC TTTTACAGAA AGACCCAAAG 
AGTCTAGACC TGTTCATAAA AGCTATGCAC ACAACAAAGG AGCTTCACCC AGGAATGCCA 
ACTGTTCAGA TCACTGCTCT CGAAAAGATT ACAAAGCTGT TTTTTGCCGC TGTGTCAGAT 
GGACAGGTCC AGCAGAAGCT CCTGTGTGTG CTGTTTGACT TGTTAGTGAA CTGCAAAGAC 
GCGCACTGTG TTCAGACGGT CGGCAGTGTT TTTAAGGGGA TTTCTGTCGA TGCTGAACAA 
ATCAGAATAG AACTGGAGCC ACGAGATAAA GCTAAATCTT TGGGCACAAT TCAGCAAACG 
AGAAGGCAGA AAATGCAACA GAAAAAGTCA CAAGATGTGG AGTCTGTTCA AGAAGTGGAG 
GGCCCTTACT GGCAAAGAGT CACCCTCATC CTGGAGTTGC TGCAGCACAA AAAGAAGCTC 
AAGTGCCCTC AGATACTGAT CCCATCCCTC TTTAACTTGC TGTCGAGGTG TTTAGAACCT 
TTGTCATCAG AGCAGGGGAA CATGGAGTAC ACTAAGCAGT TAATTCTGAG TTGTTTGCTC 
AACATCTGCC AAAAACTCTC CCCAGATGGT GGCAGAATAC CTAAAGATGT TGTGGATGAG 
GAGAAGTTCA ATGTGGAGCT GATAGTGCAG TGCATCCGCC TCTCGGAGAT GCCGCAGACT 
CACCACCATG CCCTGCTACT TTTGGGTACT GTTGCTGGAA TATTTCCGGA TAAAGTTCTT 
CACAACATCA TGTCTATTTT TACATTCATG GGAGCCAATG TCATGCGTCT AGATGACGCT 
TATAGTTTTC AAGTTATTAG CAAGACAGTG AAAATGGTCA TTCCAGCACT TATTCAGTCT 
GATACTGGAG ACTCTGTAGA AGTCACTAGA AATGTTGAAG AGATTGTGGT GAAAATCATC 
GGTGTCTTTG TGGACGCACT TCCACATGTG CCAGAACACA GACGCCTGCC CATCCTTGTT 
CAGCTAGTCT CCACACTAAG TGCAGAAAAA TTCCTGTGGA TTCTCCTCGT CCTGCTTTTT 
GAACAGTATG TCACTAAAAC AGTGCTGGTG GCTGCTTATG GAGAAAAGGA TGCTATTTTA 
GAGGCAGATA CTGAGTTCTG GATTTCAGTC TGTTGTGAAT TCAGTGTCCG GCATCAGGTC 
CAGAGCCTGA TGCATATTCT CCACTACCTA GAAAAGCTGC CAGAGGAAAA GGAAGAAGCC 
ACCTCCAAGA CAGTATCTAC TAAGAATAAA GTACAAGATG AAATGTTGCC AGTTTTTAAG 
GTGGATGCTC ACACAAGCAA GCAGCTTCGG CATTTTAAGT ATTTGTCAGT GTCCTTCATG 
TCCCAACTCC TGGCTTCCAA TCATTTTCTC AAAAAGGTTG TAGGAAGTGG TGGTCCTAAG 
AGCCTGCACG GACTTGAACA GGGTTTGTTA GAAATGGTTC TCAGCTATAT TAACACAGTG 
GCACAGTCCA TGGAAAAGAA TGCAGACAAA CTGACTGGGA AGTTTTGGCG AGCGCTGCTC 
AGCAAAGCTT ATGACATGCT GGATAAGGTC AATGCCTTGC TGCCCACAGA AACATTCATC 
TCTGTGATTA GAGGGCTGGT GGGCAACCCC CTGCCATCTG TGCGTCGGAA GGCGCTGGAT 
CTTTTGAATA ACAAGCTCCA GCAGCACATG TTCTGGAAGA AGAAAATGGT CCACCGCTTT 
CTCAAACTGG TTCCAGTCCT TCTGGCCATT GTGCAGCATA AGAAAAGGGA GGCAGAGGAT 
GAACAGGCAA TAAACAGACA GACAGCGCTG TACACCCTGA AACTCCTGTG CAAGAACTTC 
GGGGCACAGA ACCGAGAGCC TTTCATACCA GTTCTCAGCA CTGCAGTAAA GCTGATAGCA 
CCAGAGAAAA AGGAGGAGAA GAATGTCCTG GGAAGCGCCC TGCTGTGCAT AGCAGAGGTG 
ACGTCCACTC TGGAAGCGCT GGCCATCCCC CAGCTGCCCA GCCTGATGCC TTCGCTGCTG 
ACAGCCATGA AGAGCACCAG TGAGTTGGTC CACAGTGAGG TCTGCCTGCT CAGCGCCCTG 
GCTGCCCTGC ACAAAGTCGT TGAGACTCTG CCACACTTCA TCAGCCCCTA CCTGGAAGGC 
CTTCTGACCC AGGTGATTCA CCTAGAGAAA ATCACTAGAG AAATGGGTTC TGCCTCACAG 
GCTAACATCC GCCTGACAGC TCTTAAAAAG ACCCTGGCCA CTGAGCTCTC ACCTCGCGTC 
CTACTGCCAG CCATTAGCAA GACTTTCAAA CAGGTCCAGA AGAACTGGAA GAATCAAATG 
GGCCCATTTA TGAGCATCTT ACAAGAGCAC ATCGGGGTGA TGAAGAAGGA AGAGCTCTTA 
TCTCACCAGT CTCAGCTGAC CACCTTTTTC CTGGAAGCCC TGGACTTCCG GGCACAGCAT 
TCAGAGGACG ATCTAGAGGA AGTTGGGAAA ACAGAAGGTT GGATCATTGA CTGTCTAGTG 
GCCATGGTGG TGAAGCTCTC AGAGGTCACA TTCAGGCCTC TCTTCTTCAA GCTGTTTGAT 
TGGGCCAAGA CAGAAGATGC GCCGAAGGAC AGGCTGTTGA CATTTTACAA TCTGGCCGAC 
TGCATTGCTG AGAAGTTGAA AGGCCTTTTC ACTCTGTTTG CTGGGCACTT GGTGAAACCT 
TTTGCCGATA CCTTGAACCA AGTAAACATC TCCAAAACAG ACGAAGCCTT CTTTGACTCC 
GAACGTGACC CTGAAAAGTG CTGCTTGTTG CTGCAGTTTA TCTTGAACTG CTTGTATAAG 
GTCTTCCTTT TTGACACCCA GAATTTCATG AGTAGAGAGA GAGCAGAAGC CCTGATGATG 
CCCCTGGTGG ATCAGCTGGA AAACAGGCTT GGAGGAGAAG AAAGGTTCCA GGAACGGGTA 
ACCAAGCACC TGGTGCCCTG CATCGCACAG TTCTCTGTGG CCATGGCAGA TGACTCCATG 
TGGAAACCCC TGAACTACCA GATTCTGCTG AAGACAAGAG ACTCTTCCCC TAAGGTGCGG 
TTTGCAGCCT TGATTACTGT CTTGGCACTG GCTGAGAAGC TGAGAGAGAA TTACATTGTT 
CTGCTACCAG AGTCCATTCC TTTCCTAGCA GAACTGATGG AAGACGAGTG TGAAGAAGTG 
GAGCATCAGT GCCAGAAGAC CATCCAGCAG CTGGAGGCCG TGCTGGGAGA GCCGCTGCAG 
AGCTACTTCT GA

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

RefSeq	XP_021035874.1
CDS	145..6576
Translation	MTSLAQQLQRLALPQTDPSLLSRREVASLLFDPKEAATIDRDTAFAIGCTGLEELLGIDPAFEQFEAPLFSQLAKGLERSVQTKAVNKQLDENISSFLLHLSPYFLLKPAQKCLEWLIHRFHIHLYNADNLIACVLPYHETRVFVRVIQLLKISNPKHKWFWLSPVKHSGVPLARGTLVTHCYKDLGFMDFICSLVTRSVKAFAEDPGSSAQLRVLLAFYASTIVSALVAAENLSDNVVAKLFPYIQKGLKSSLPDYRAATYMIICQISVKVTMEDSFVNSLASQLIKTLTKVPSQVKDGLGCLIILLQRQKPESLGEKPFLHLCGVPDLIGLLHGISESYDVSPLLRCMLPHLVASVVQHIAGEEAEGIDGQIYKKHLEEILTKIPLTNNLDHLLASRLFEEYISYSSREETHANGVALLNEQFLPLIRLLESKYPRALDAVLEEHLKEITGLKKQELFHQFISLSTSGGKYQFLEDSDTSLMLSLNHPLAPVRLLAVNHLKTIMKTSKEGIDETFIKEAILTRLGDDNVDVVLATLSAFEIFQQHFGVEETVSSLLNLFQRADLSKNKGWYRVLELAANLLIKEEILSKNDQLANQVVVQLLPFMVITSNDVESPDMKIAIHLSKSGICSLHPLLRGWKEALENVIKSRKSREIIGVGNQKMVQLLGSNLSLGERSTVLKLVEDLVCAGEKESYSLKQKVAFHVTVSVLISCCSSFQETCFPFAMRVFSLLQKKIKKLKSIITAVEMPSEWQVELMLNRGLPEELWVRYVQELHGAQRVVMEDAILLVFSMKCFIFAMKAPKSFPTGAMWWDPEQLDEDSRHYLHLLIGIFEMLLEVSDAMHFRVLMRLIMKVHLQDVLQLFKFFCVLWTYGSSLSNPLNCTVKSELQTQALYIGSAMLSSQNTQYKQKLASTASPVVMSLLLNLGSPIKEVRRAAVQCLQALSGVPSKFQLVIDHLIPKAEEITSDATYVIQDLATLFDELQNEEKQKSHQKLSETLRSLLHCVYGCPSYIAKGLMKVFQGVNSEMVLAQLLPMVEQLLEKVEKEPTAVLKDEAIVLHLTLGKYNEYSASLLQKDPKSLDLFIKAMHTTKELHPGMPTVQITALEKITKLFFAAVSDGQVQQKLLCVLFDLLVNCKDAHCVQTVGSVFKGISVDAEQIRIELEPRDKAKSLGTIQQTRRQKMQQKKSQDVESVQEVEGPYWQRVTLILELLQHKKKLKCPQILIPSLFNLLSRCLEPLSSEQGNMEYTKQLILSCLLNICQKLSPDGGRIPKDVVDEEKFNVELIVQCIRLSEMPQTHHHALLLLGTVAGIFPDKVLHNIMSIFTFMGANVMRLDDAYSFQVISKTVKMVIPALIQSDTGDSVEVTRNVEEIVVKIIGVFVDALPHVPEHRRLPILVQLVSTLSAEKFLWILLVLLFEQYVTKTVLVAAYGEKDAILEADTEFWISVCCEFSVRHQVQSLMHILHYLEKLPEEKEEATSKTVSTKNKVQDEMLPVFKVDAHTSKQLRHFKYLSVSFMSQLLASNHFLKKVVGSGGPKSLHGLEQGLLEMVLSYINTVAQSMEKNADKLTGKFWRALLSKAYDMLDKVNALLPTETFISVIRGLVGNPLPSVRRKALDLLNNKLQQHMFWKKKMVHRFLKLVPVLLAIVQHKKREAEDEQAINRQTALYTLKLLCKNFGAQNREPFIPVLSTAVKLIAPEKKEEKNVLGSALLCIAEVTSTLEALAIPQLPSLMPSLLTAMKSTSELVHSEVCLLSALAALHKVVETLPHFISPYLEGLLTQVIHLEKITREMGSASQANIRLTALKKTLATELSPRVLLPAISKTFKQVQKNWKNQMGPFMSILQEHIGVMKKEELLSHQSQLTTFFLEALDFRAQHSEDDLEEVGKTEGWIIDCLVAMVVKLSEVTFRPLFFKLFDWAKTEDAPKDRLLTFYNLADCIAEKLKGLFTLFAGHLVKPFADTLNQVNISKTDEAFFDSERDPEKCCLLLQFILNCLYKVFLFDTQNFMSRERAEALMMPLVDQLENRLGGEERFQERVTKHLVPCIAQFSVAMADDSMWKPLNYQILLKTRDSSPKVRFAALITVLALAEKLRENYIVLLPESIPFLAELMEDECEEVEHQCQKTIQQLEAVLGEPLQSYF

Target ORF information:

RefSeq Version	XM_021180215.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli HEAT repeat containing 1 (Heatr1), mRNA.

Target ORF information:

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

XM_021180215.1

ORF Insert Sequence:

ATGACGTCCT TAGCCCAGCA GCTCCAGCGA CTCGCCCTCC CTCAAACTGA TCCCAGCCTC 
CTATCGAGAC GTGAAGTTGC CTCTCTGTTA TTTGACCCCA AGGAGGCGGC CACAATCGAC 
AGGGACACCG CCTTTGCCAT CGGATGCACT GGCCTGGAGG AGCTTCTTGG GATTGACCCT 
GCCTTTGAAC AGTTTGAAGC GCCACTGTTC AGCCAGCTGG CAAAAGGCTT GGAGCGCAGC 
GTCCAGACCA AAGCAGTGAA CAAGCAGCTG GATGAAAACA TTTCATCGTT CCTCCTTCAC 
TTGTCTCCTT ATTTCCTCCT CAAGCCAGCG CAGAAGTGTC TGGAATGGCT GATTCACAGG 
TTCCACATCC ATCTTTACAA TGCAGATAAT CTCATTGCTT GTGTTCTGCC GTACCATGAG 
ACACGGGTAT TTGTGCGGGT GATACAGCTT CTAAAAATTA GTAATCCGAA ACACAAATGG 
TTTTGGCTGT CTCCTGTTAA GCACTCTGGA GTGCCTTTAG CTAGAGGAAC TTTGGTCACT 
CATTGCTACA AAGACCTTGG ATTCATGGAT TTTATTTGCA GCCTAGTGAC GAGATCTGTG 
AAGGCCTTCG CTGAGGATCC GGGAAGCTCC GCCCAGTTGA GAGTGCTCTT GGCCTTCTAT 
GCCTCCACCA TTGTGTCTGC TCTAGTGGCT GCTGAGAACC TATCAGACAA TGTAGTCGCC 
AAACTCTTTC CATACATCCA AAAGGGATTG AAATCCTCTT TACCAGATTA TAGAGCTGCG 
ACATACATGA TAATCTGTCA GATTTCTGTG AAAGTGACGA TGGAAGATTC CTTTGTGAAC 
TCACTGGCAT CCCAGCTCAT CAAAACACTG ACCAAGGTTC CTTCTCAGGT CAAGGATGGA 
TTAGGTTGCC TGATAATTCT CCTACAGCGA CAGAAGCCAG AGAGCCTTGG GGAAAAGCCG 
TTCCTTCACT TGTGTGGTGT TCCAGACCTT ATAGGGCTAC TTCACGGGAT CTCCGAGAGC 
TACGACGTGA GCCCTCTTCT GCGCTGCATG CTTCCCCATC TGGTGGCCTC TGTTGTTCAG 
CACATTGCAG GAGAAGAAGC TGAAGGGATT GATGGTCAGA TCTACAAGAA GCACTTAGAA 
GAAATACTTA CAAAAATACC ACTGACGAAC AACTTAGACC ACCTACTGGC TAGCCGTCTT 
TTTGAAGAAT ATATTTCATA CAGTTCCCGG GAGGAAACGC ATGCTAATGG AGTGGCTTTG 
CTTAATGAGC AGTTTCTTCC ACTCATCAGA CTTTTAGAAA GCAAATACCC CAGAGCGTTG 
GATGCTGTGT TAGAGGAGCA CCTGAAGGAG ATTACAGGCC TTAAAAAGCA GGAGCTGTTC 
CACCAGTTCA TTTCTCTGTC TACAAGTGGA GGCAAGTATC AGTTTTTGGA GGATTCTGAC 
ACCTCTTTGA TGCTCAGTTT GAATCACCCA CTGGCTCCTG TGAGACTTCT GGCCGTTAAT 
CACCTAAAAA CTATCATGAA AACATCAAAG GAGGGCATTG ATGAGACTTT TATTAAAGAA 
GCTATTCTAA CCCGGTTAGG CGATGATAAT GTGGATGTTG TTTTAGCGAC TCTGAGTGCT 
TTTGAGATTT TTCAACAACA TTTTGGTGTA GAAGAGACGG TTTCAAGTCT TCTGAATCTC 
TTTCAAAGAG CAGACCTTTC AAAGAATAAA GGGTGGTACA GGGTGCTTGA GCTAGCAGCA 
AACTTACTAA TTAAAGAAGA GATACTAAGT AAAAATGACC AGTTGGCAAA TCAGGTGGTT 
GTCCAGTTGC TGCCTTTTAT GGTTATTACT AGTAATGATG TAGAGTCTCC TGATATGAAA 
ATTGCTATAC ATTTGTCAAA ATCAGGAATT TGTTCTCTGC ATCCTCTATT AAGAGGCTGG 
AAAGAAGCTC TTGAAAATGT TATTAAAAGC AGGAAATCAA GAGAAATAAT TGGTGTAGGA 
AACCAGAAGA TGGTTCAGCT GCTGGGCAGC AATTTAAGTT TAGGAGAGCG CTCTACAGTG 
TTGAAGCTGG TCGAAGATCT AGTATGTGCT GGGGAAAAGG AGTCTTACAG CCTGAAGCAG 
AAAGTGGCGT TTCACGTGAC TGTGTCTGTG CTGATCTCTT GCTGCTCATC CTTCCAAGAA 
ACCTGCTTCC CGTTTGCTAT GAGAGTGTTC AGTTTACTGC AGAAAAAGAT AAAGAAGCTC 
AAAAGCATCA TCACTGCTGT GGAAATGCCC TCAGAGTGGC AGGTGGAACT GATGTTGAAC 
AGAGGATTGC CGGAGGAGCT GTGGGTGCGT TACGTGCAGG AGCTCCACGG TGCCCAGAGG 
GTTGTCATGG AGGACGCCAT TTTACTTGTA TTTTCCATGA AATGTTTTAT TTTTGCAATG 
AAGGCTCCAA AATCTTTCCC TACAGGTGCC ATGTGGTGGG ATCCCGAGCA GCTAGATGAA 
GACAGCAGAC ACTACCTGCA CCTGCTCATT GGTATCTTTG AAATGCTGCT GGAGGTTTCT 
GACGCCATGC ATTTCAGGGT TCTGATGAGG CTTATAATGA AGGTACATCT ACAAGATGTT 
CTGCAGTTGT TCAAGTTCTT TTGTGTTTTG TGGACCTATG GTTCTAGCCT TTCAAATCCA 
CTTAACTGCA CTGTGAAGTC AGAGCTGCAG ACTCAAGCTC TTTACATAGG CTCTGCAATG 
CTTTCTTCTC AGAATACACA GTATAAACAA AAGCTGGCAT CTACTGCATC TCCAGTGGTG 
ATGTCTCTAC TCCTCAATCT GGGAAGCCCT ATCAAAGAAG TCCGCAGAGC TGCCGTCCAG 
TGTCTCCAGG CCCTCAGTGG GGTACCCTCA AAGTTTCAGC TGGTGATAGA TCACCTCATT 
CCTAAGGCAG AAGAGATCAC TTCAGATGCT ACCTATGTGA TTCAGGATTT GGCTACACTA 
TTTGATGAAC TACAGAATGA AGAGAAACAG AAATCACATC AGAAGTTGTC TGAAACCCTG 
AGAAGCCTTC TTCACTGTGT GTATGGCTGC CCATCTTACA TTGCAAAAGG CTTGATGAAA 
GTATTCCAAG GTGTGAACAG TGAGATGGTG CTTGCCCAGC TGCTGCCTAT GGTGGAACAA 
CTCCTAGAGA AGGTGGAAAA GGAGCCCACG GCTGTCCTGA AAGATGAGGC TATCGTTTTG 
CATCTCACTC TGGGAAAATA CAATGAGTAT TCAGCTTCGC TTTTACAGAA AGACCCAAAG 
AGTCTAGACC TGTTCATAAA AGCTATGCAC ACAACAAAGG AGCTTCACCC AGGAATGCCA 
ACTGTTCAGA TCACTGCTCT CGAAAAGATT ACAAAGCTGT TTTTTGCCGC TGTGTCAGAT 
GGACAGGTCC AGCAGAAGCT CCTGTGTGTG CTGTTTGACT TGTTAGTGAA CTGCAAAGAC 
GCGCACTGTG TTCAGACGGT CGGCAGTGTT TTTAAGGGGA TTTCTGTCGA TGCTGAACAA 
ATCAGAATAG AACTGGAGCC ACGAGATAAA GCTAAATCTT TGGGCACAAT TCAGCAAACG 
AGAAGGCAGA AAATGCAACA GAAAAAGTCA CAAGATGTGG AGTCTGTTCA AGAAGTGGAG 
GGCCCTTACT GGCAAAGAGT CACCCTCATC CTGGAGTTGC TGCAGCACAA AAAGAAGCTC 
AAGTGCCCTC AGATACTGAT CCCATCCCTC TTTAACTTGC TGTCGAGGTG TTTAGAACCT 
TTGTCATCAG AGCAGGGGAA CATGGAGTAC ACTAAGCAGT TAATTCTGAG TTGTTTGCTC 
AACATCTGCC AAAAACTCTC CCCAGATGGT GGCAGAATAC CTAAAGATGT TGTGGATGAG 
GAGAAGTTCA ATGTGGAGCT GATAGTGCAG TGCATCCGCC TCTCGGAGAT GCCGCAGACT 
CACCACCATG CCCTGCTACT TTTGGGTACT GTTGCTGGAA TATTTCCGGA TAAAGTTCTT 
CACAACATCA TGTCTATTTT TACATTCATG GGAGCCAATG TCATGCGTCT AGATGACGCT 
TATAGTTTTC AAGTTATTAG CAAGACAGTG AAAATGGTCA TTCCAGCACT TATTCAGTCT 
GATACTGGAG ACTCTGTAGA AGTCACTAGA AATGTTGAAG AGATTGTGGT GAAAATCATC 
GGTGTCTTTG TGGACGCACT TCCACATGTG CCAGAACACA GACGCCTGCC CATCCTTGTT 
CAGCTAGTCT CCACACTAAG TGCAGAAAAA TTCCTGTGGA TTCTCCTCGT CCTGCTTTTT 
GAACAGTATG TCACTAAAAC AGTGCTGGTG GCTGCTTATG GAGAAAAGGA TGCTATTTTA 
GAGGCAGATA CTGAGTTCTG GATTTCAGTC TGTTGTGAAT TCAGTGTCCG GCATCAGGTC 
CAGAGCCTGA TGCATATTCT CCACTACCTA GAAAAGCTGC CAGAGGAAAA GGAAGAAGCC 
ACCTCCAAGA CAGTATCTAC TAAGAATAAA GTACAAGATG AAATGTTGCC AGTTTTTAAG 
GTGGATGCTC ACACAAGCAA GCAGCTTCGG CATTTTAAGT ATTTGTCAGT GTCCTTCATG 
TCCCAACTCC TGGCTTCCAA TCATTTTCTC AAAAAGGTTG TAGGAAGTGG TGGTCCTAAG 
AGCCTGCACG GACTTGAACA GGGTTTGTTA GAAATGGTTC TCAGCTATAT TAACACAGTG 
GCACAGTCCA TGGAAAAGAA TGCAGACAAA CTGACTGGGA AGTTTTGGCG AGCGCTGCTC 
AGCAAAGCTT ATGACATGCT GGATAAGGTC AATGCCTTGC TGCCCACAGA AACATTCATC 
TCTGTGATTA GAGGGCTGGT GGGCAACCCC CTGCCATCTG TGCGTCGGAA GGCGCTGGAT 
CTTTTGAATA ACAAGCTCCA GCAGCACATG TTCTGGAAGA AGAAAATGGT CCACCGCTTT 
CTCAAACTGG TTCCAGTCCT TCTGGCCATT GTGCAGCATA AGAAAAGGGA GGCAGAGGAT 
GAACAGGCAA TAAACAGACA GACAGCGCTG TACACCCTGA AACTCCTGTG CAAGAACTTC 
GGGGCACAGA ACCGAGAGCC TTTCATACCA GTTCTCAGCA CTGCAGTAAA GCTGATAGCA 
CCAGAGAAAA AGGAGGAGAA GAATGTCCTG GGAAGCGCCC TGCTGTGCAT AGCAGAGGTG 
ACGTCCACTC TGGAAGCGCT GGCCATCCCC CAGCTGCCCA GCCTGATGCC TTCGCTGCTG 
ACAGCCATGA AGAGCACCAG TGAGTTGGTC CACAGTGAGG TCTGCCTGCT CAGCGCCCTG 
GCTGCCCTGC ACAAAGTCGT TGAGACTCTG CCACACTTCA TCAGCCCCTA CCTGGAAGGC 
CTTCTGACCC AGGTGATTCA CCTAGAGAAA ATCACTAGAG AAATGGGTTC TGCCTCACAG 
GCTAACATCC GCCTGACAGC TCTTAAAAAG ACCCTGGCCA CTGAGCTCTC ACCTCGCGTC 
CTACTGCCAG CCATTAGCAA GACTTTCAAA CAGGTCCAGA AGAACTGGAA GAATCAAATG 
GGCCCATTTA TGAGCATCTT ACAAGAGCAC ATCGGGGTGA TGAAGAAGGA AGAGCTCTTA 
TCTCACCAGT CTCAGCTGAC CACCTTTTTC CTGGAAGCCC TGGACTTCCG GGCACAGCAT 
TCAGAGGACG ATCTAGAGGA AGTTGGGAAA ACAGAAGGTT GGATCATTGA CTGTCTAGTG 
GCCATGGTGG TGAAGCTCTC AGAGGTCACA TTCAGGCCTC TCTTCTTCAA GCTGTTTGAT 
TGGGCCAAGA CAGAAGATGC GCCGAAGGAC AGGCTGTTGA CATTTTACAA TCTGGCCGAC 
TGCATTGCTG AGAAGTTGAA AGGCCTTTTC ACTCTGTTTG CTGGGCACTT GGTGAAACCT 
TTTGCCGATA CCTTGAACCA AGTAAACATC TCCAAAACAG ACGAAGCCTT CTTTGACTCC 
GAACGTGACC CTGAAAAGTG CTGCTTGTTG CTGCAGTTTA TCTTGAACTG CTTGTATAAG 
GTCTTCCTTT TTGACACCCA GAATTTCATG AGTAGAGAGA GAGCAGAAGC CCTGATGATG 
CCCCTGGTGG ATCAGCTGGA AAACAGGCTT GGAGGAGAAG AAAGGTTCCA GGAACGGGTA 
ACCAAGCACC TGGTGCCCTG CATCGCACAG TTCTCTGTGG CCATGGCAGA TGACTCCATG 
TGGAAACCCC TGAACTACCA GATTCTGCTG AAGACAAGAG ACTCTTCCCC TAAGGTGCGG 
TTTGCAGCCT TGATTACTGT CTTGGCACTG GCTGAGAAGC TGAGAGAGAA TTACATTGTT 
CTGCTACCAG AGTCCATTCC TTTCCTAGCA GAACTGATGG AAGACGAGTG TGAAGAAGTG 
GAGCATCAGT GCCAGAAGAC CATCCAGCAG CTGGAGGCCG TGCTGGGAGA GCCGCTGCAG 
AGCTACTTCT GA

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

Heatr1 ( XM_021180215.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035874.1 Mus caroli HEAT repeat containing 1 (Heatr1), mRNA.

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CloneID	OMv29698
Clone ID Related Accession (Same CDS sequence)	XM_021180215.1 , XM_021180215.2
Accession Version	XM_021180215.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 6432bp) 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	2019-06-09
Organism	Mus caroli(Ryukyu mouse)
Product	HEAT repeat-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021180215.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli 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##

ATGACGTCCT TAGCCCAGCA GCTCCAGCGA CTCGCCCTCC CTCAAACTGA TCCCAGCCTC 
CTATCGAGAC GTGAAGTTGC CTCTCTGTTA TTTGACCCCA AGGAGGCGGC CACAATCGAC 
AGGGACACCG CCTTTGCCAT CGGATGCACT GGCCTGGAGG AGCTTCTTGG GATTGACCCT 
GCCTTTGAAC AGTTTGAAGC GCCACTGTTC AGCCAGCTGG CAAAAGGCTT GGAGCGCAGC 
GTCCAGACCA AAGCAGTGAA CAAGCAGCTG GATGAAAACA TTTCATCGTT CCTCCTTCAC 
TTGTCTCCTT ATTTCCTCCT CAAGCCAGCG CAGAAGTGTC TGGAATGGCT GATTCACAGG 
TTCCACATCC ATCTTTACAA TGCAGATAAT CTCATTGCTT GTGTTCTGCC GTACCATGAG 
ACACGGGTAT TTGTGCGGGT GATACAGCTT CTAAAAATTA GTAATCCGAA ACACAAATGG 
TTTTGGCTGT CTCCTGTTAA GCACTCTGGA GTGCCTTTAG CTAGAGGAAC TTTGGTCACT 
CATTGCTACA AAGACCTTGG ATTCATGGAT TTTATTTGCA GCCTAGTGAC GAGATCTGTG 
AAGGCCTTCG CTGAGGATCC GGGAAGCTCC GCCCAGTTGA GAGTGCTCTT GGCCTTCTAT 
GCCTCCACCA TTGTGTCTGC TCTAGTGGCT GCTGAGAACC TATCAGACAA TGTAGTCGCC 
AAACTCTTTC CATACATCCA AAAGGGATTG AAATCCTCTT TACCAGATTA TAGAGCTGCG 
ACATACATGA TAATCTGTCA GATTTCTGTG AAAGTGACGA TGGAAGATTC CTTTGTGAAC 
TCACTGGCAT CCCAGCTCAT CAAAACACTG ACCAAGGTTC CTTCTCAGGT CAAGGATGGA 
TTAGGTTGCC TGATAATTCT CCTACAGCGA CAGAAGCCAG AGAGCCTTGG GGAAAAGCCG 
TTCCTTCACT TGTGTGGTGT TCCAGACCTT ATAGGGCTAC TTCACGGGAT CTCCGAGAGC 
TACGACGTGA GCCCTCTTCT GCGCTGCATG CTTCCCCATC TGGTGGCCTC TGTTGTTCAG 
CACATTGCAG GAGAAGAAGC TGAAGGGATT GATGGTCAGA TCTACAAGAA GCACTTAGAA 
GAAATACTTA CAAAAATACC ACTGACGAAC AACTTAGACC ACCTACTGGC TAGCCGTCTT 
TTTGAAGAAT ATATTTCATA CAGTTCCCGG GAGGAAACGC ATGCTAATGG AGTGGCTTTG 
CTTAATGAGC AGTTTCTTCC ACTCATCAGA CTTTTAGAAA GCAAATACCC CAGAGCGTTG 
GATGCTGTGT TAGAGGAGCA CCTGAAGGAG ATTACAGGCC TTAAAAAGCA GGAGCTGTTC 
CACCAGTTCA TTTCTCTGTC TACAAGTGGA GGCAAGTATC AGTTTTTGGA GGATTCTGAC 
ACCTCTTTGA TGCTCAGTTT GAATCACCCA CTGGCTCCTG TGAGACTTCT GGCCGTTAAT 
CACCTAAAAA CTATCATGAA AACATCAAAG GAGGGCATTG ATGAGACTTT TATTAAAGAA 
GCTATTCTAA CCCGGTTAGG CGATGATAAT GTGGATGTTG TTTTAGCGAC TCTGAGTGCT 
TTTGAGATTT TTCAACAACA TTTTGGTGTA GAAGAGACGG TTTCAAGTCT TCTGAATCTC 
TTTCAAAGAG CAGACCTTTC AAAGAATAAA GGGTGGTACA GGGTGCTTGA GCTAGCAGCA 
AACTTACTAA TTAAAGAAGA GATACTAAGT AAAAATGACC AGTTGGCAAA TCAGGTGGTT 
GTCCAGTTGC TGCCTTTTAT GGTTATTACT AGTAATGATG TAGAGTCTCC TGATATGAAA 
ATTGCTATAC ATTTGTCAAA ATCAGGAATT TGTTCTCTGC ATCCTCTATT AAGAGGCTGG 
AAAGAAGCTC TTGAAAATGT TATTAAAAGC AGGAAATCAA GAGAAATAAT TGGTGTAGGA 
AACCAGAAGA TGGTTCAGCT GCTGGGCAGC AATTTAAGTT TAGGAGAGCG CTCTACAGTG 
TTGAAGCTGG TCGAAGATCT AGTATGTGCT GGGGAAAAGG AGTCTTACAG CCTGAAGCAG 
AAAGTGGCGT TTCACGTGAC TGTGTCTGTG CTGATCTCTT GCTGCTCATC CTTCCAAGAA 
ACCTGCTTCC CGTTTGCTAT GAGAGTGTTC AGTTTACTGC AGAAAAAGAT AAAGAAGCTC 
AAAAGCATCA TCACTGCTGT GGAAATGCCC TCAGAGTGGC AGGTGGAACT GATGTTGAAC 
AGAGGATTGC CGGAGGAGCT GTGGGTGCGT TACGTGCAGG AGCTCCACGG TGCCCAGAGG 
GTTGTCATGG AGGACGCCAT TTTACTTGTA TTTTCCATGA AATGTTTTAT TTTTGCAATG 
AAGGCTCCAA AATCTTTCCC TACAGGTGCC ATGTGGTGGG ATCCCGAGCA GCTAGATGAA 
GACAGCAGAC ACTACCTGCA CCTGCTCATT GGTATCTTTG AAATGCTGCT GGAGGTTTCT 
GACGCCATGC ATTTCAGGGT TCTGATGAGG CTTATAATGA AGGTACATCT ACAAGATGTT 
CTGCAGTTGT TCAAGTTCTT TTGTGTTTTG TGGACCTATG GTTCTAGCCT TTCAAATCCA 
CTTAACTGCA CTGTGAAGTC AGAGCTGCAG ACTCAAGCTC TTTACATAGG CTCTGCAATG 
CTTTCTTCTC AGAATACACA GTATAAACAA AAGCTGGCAT CTACTGCATC TCCAGTGGTG 
ATGTCTCTAC TCCTCAATCT GGGAAGCCCT ATCAAAGAAG TCCGCAGAGC TGCCGTCCAG 
TGTCTCCAGG CCCTCAGTGG GGTACCCTCA AAGTTTCAGC TGGTGATAGA TCACCTCATT 
CCTAAGGCAG AAGAGATCAC TTCAGATGCT ACCTATGTGA TTCAGGATTT GGCTACACTA 
TTTGATGAAC TACAGAATGA AGAGAAACAG AAATCACATC AGAAGTTGTC TGAAACCCTG 
AGAAGCCTTC TTCACTGTGT GTATGGCTGC CCATCTTACA TTGCAAAAGG CTTGATGAAA 
GTATTCCAAG GTGTGAACAG TGAGATGGTG CTTGCCCAGC TGCTGCCTAT GGTGGAACAA 
CTCCTAGAGA AGGTGGAAAA GGAGCCCACG GCTGTCCTGA AAGATGAGGC TATCGTTTTG 
CATCTCACTC TGGGAAAATA CAATGAGTAT TCAGCTTCGC TTTTACAGAA AGACCCAAAG 
AGTCTAGACC TGTTCATAAA AGCTATGCAC ACAACAAAGG AGCTTCACCC AGGAATGCCA 
ACTGTTCAGA TCACTGCTCT CGAAAAGATT ACAAAGCTGT TTTTTGCCGC TGTGTCAGAT 
GGACAGGTCC AGCAGAAGCT CCTGTGTGTG CTGTTTGACT TGTTAGTGAA CTGCAAAGAC 
GCGCACTGTG TTCAGACGGT CGGCAGTGTT TTTAAGGGGA TTTCTGTCGA TGCTGAACAA 
ATCAGAATAG AACTGGAGCC ACGAGATAAA GCTAAATCTT TGGGCACAAT TCAGCAAACG 
AGAAGGCAGA AAATGCAACA GAAAAAGTCA CAAGATGTGG AGTCTGTTCA AGAAGTGGAG 
GGCCCTTACT GGCAAAGAGT CACCCTCATC CTGGAGTTGC TGCAGCACAA AAAGAAGCTC 
AAGTGCCCTC AGATACTGAT CCCATCCCTC TTTAACTTGC TGTCGAGGTG TTTAGAACCT 
TTGTCATCAG AGCAGGGGAA CATGGAGTAC ACTAAGCAGT TAATTCTGAG TTGTTTGCTC 
AACATCTGCC AAAAACTCTC CCCAGATGGT GGCAGAATAC CTAAAGATGT TGTGGATGAG 
GAGAAGTTCA ATGTGGAGCT GATAGTGCAG TGCATCCGCC TCTCGGAGAT GCCGCAGACT 
CACCACCATG CCCTGCTACT TTTGGGTACT GTTGCTGGAA TATTTCCGGA TAAAGTTCTT 
CACAACATCA TGTCTATTTT TACATTCATG GGAGCCAATG TCATGCGTCT AGATGACGCT 
TATAGTTTTC AAGTTATTAG CAAGACAGTG AAAATGGTCA TTCCAGCACT TATTCAGTCT 
GATACTGGAG ACTCTGTAGA AGTCACTAGA AATGTTGAAG AGATTGTGGT GAAAATCATC 
GGTGTCTTTG TGGACGCACT TCCACATGTG CCAGAACACA GACGCCTGCC CATCCTTGTT 
CAGCTAGTCT CCACACTAAG TGCAGAAAAA TTCCTGTGGA TTCTCCTCGT CCTGCTTTTT 
GAACAGTATG TCACTAAAAC AGTGCTGGTG GCTGCTTATG GAGAAAAGGA TGCTATTTTA 
GAGGCAGATA CTGAGTTCTG GATTTCAGTC TGTTGTGAAT TCAGTGTCCG GCATCAGGTC 
CAGAGCCTGA TGCATATTCT CCACTACCTA GAAAAGCTGC CAGAGGAAAA GGAAGAAGCC 
ACCTCCAAGA CAGTATCTAC TAAGAATAAA GTACAAGATG AAATGTTGCC AGTTTTTAAG 
GTGGATGCTC ACACAAGCAA GCAGCTTCGG CATTTTAAGT ATTTGTCAGT GTCCTTCATG 
TCCCAACTCC TGGCTTCCAA TCATTTTCTC AAAAAGGTTG TAGGAAGTGG TGGTCCTAAG 
AGCCTGCACG GACTTGAACA GGGTTTGTTA GAAATGGTTC TCAGCTATAT TAACACAGTG 
GCACAGTCCA TGGAAAAGAA TGCAGACAAA CTGACTGGGA AGTTTTGGCG AGCGCTGCTC 
AGCAAAGCTT ATGACATGCT GGATAAGGTC AATGCCTTGC TGCCCACAGA AACATTCATC 
TCTGTGATTA GAGGGCTGGT GGGCAACCCC CTGCCATCTG TGCGTCGGAA GGCGCTGGAT 
CTTTTGAATA ACAAGCTCCA GCAGCACATG TTCTGGAAGA AGAAAATGGT CCACCGCTTT 
CTCAAACTGG TTCCAGTCCT TCTGGCCATT GTGCAGCATA AGAAAAGGGA GGCAGAGGAT 
GAACAGGCAA TAAACAGACA GACAGCGCTG TACACCCTGA AACTCCTGTG CAAGAACTTC 
GGGGCACAGA ACCGAGAGCC TTTCATACCA GTTCTCAGCA CTGCAGTAAA GCTGATAGCA 
CCAGAGAAAA AGGAGGAGAA GAATGTCCTG GGAAGCGCCC TGCTGTGCAT AGCAGAGGTG 
ACGTCCACTC TGGAAGCGCT GGCCATCCCC CAGCTGCCCA GCCTGATGCC TTCGCTGCTG 
ACAGCCATGA AGAGCACCAG TGAGTTGGTC CACAGTGAGG TCTGCCTGCT CAGCGCCCTG 
GCTGCCCTGC ACAAAGTCGT TGAGACTCTG CCACACTTCA TCAGCCCCTA CCTGGAAGGC 
CTTCTGACCC AGGTGATTCA CCTAGAGAAA ATCACTAGAG AAATGGGTTC TGCCTCACAG 
GCTAACATCC GCCTGACAGC TCTTAAAAAG ACCCTGGCCA CTGAGCTCTC ACCTCGCGTC 
CTACTGCCAG CCATTAGCAA GACTTTCAAA CAGGTCCAGA AGAACTGGAA GAATCAAATG 
GGCCCATTTA TGAGCATCTT ACAAGAGCAC ATCGGGGTGA TGAAGAAGGA AGAGCTCTTA 
TCTCACCAGT CTCAGCTGAC CACCTTTTTC CTGGAAGCCC TGGACTTCCG GGCACAGCAT 
TCAGAGGACG ATCTAGAGGA AGTTGGGAAA ACAGAAGGTT GGATCATTGA CTGTCTAGTG 
GCCATGGTGG TGAAGCTCTC AGAGGTCACA TTCAGGCCTC TCTTCTTCAA GCTGTTTGAT 
TGGGCCAAGA CAGAAGATGC GCCGAAGGAC AGGCTGTTGA CATTTTACAA TCTGGCCGAC 
TGCATTGCTG AGAAGTTGAA AGGCCTTTTC ACTCTGTTTG CTGGGCACTT GGTGAAACCT 
TTTGCCGATA CCTTGAACCA AGTAAACATC TCCAAAACAG ACGAAGCCTT CTTTGACTCC 
GAACGTGACC CTGAAAAGTG CTGCTTGTTG CTGCAGTTTA TCTTGAACTG CTTGTATAAG 
GTCTTCCTTT TTGACACCCA GAATTTCATG AGTAGAGAGA GAGCAGAAGC CCTGATGATG 
CCCCTGGTGG ATCAGCTGGA AAACAGGCTT GGAGGAGAAG AAAGGTTCCA GGAACGGGTA 
ACCAAGCACC TGGTGCCCTG CATCGCACAG TTCTCTGTGG CCATGGCAGA TGACTCCATG 
TGGAAACCCC TGAACTACCA GATTCTGCTG AAGACAAGAG ACTCTTCCCC TAAGGTGCGG 
TTTGCAGCCT TGATTACTGT CTTGGCACTG GCTGAGAAGC TGAGAGAGAA TTACATTGTT 
CTGCTACCAG AGTCCATTCC TTTCCTAGCA GAACTGATGG AAGACGAGTG TGAAGAAGTG 
GAGCATCAGT GCCAGAAGAC CATCCAGCAG CTGGAGGCCG TGCTGGGAGA GCCGCTGCAG 
AGCTACTTCT GA

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

RefSeq	XP_021035874.1
CDS	152..6583
Translation	MTSLAQQLQRLALPQTDPSLLSRREVASLLFDPKEAATIDRDTAFAIGCTGLEELLGIDPAFEQFEAPLFSQLAKGLERSVQTKAVNKQLDENISSFLLHLSPYFLLKPAQKCLEWLIHRFHIHLYNADNLIACVLPYHETRVFVRVIQLLKISNPKHKWFWLSPVKHSGVPLARGTLVTHCYKDLGFMDFICSLVTRSVKAFAEDPGSSAQLRVLLAFYASTIVSALVAAENLSDNVVAKLFPYIQKGLKSSLPDYRAATYMIICQISVKVTMEDSFVNSLASQLIKTLTKVPSQVKDGLGCLIILLQRQKPESLGEKPFLHLCGVPDLIGLLHGISESYDVSPLLRCMLPHLVASVVQHIAGEEAEGIDGQIYKKHLEEILTKIPLTNNLDHLLASRLFEEYISYSSREETHANGVALLNEQFLPLIRLLESKYPRALDAVLEEHLKEITGLKKQELFHQFISLSTSGGKYQFLEDSDTSLMLSLNHPLAPVRLLAVNHLKTIMKTSKEGIDETFIKEAILTRLGDDNVDVVLATLSAFEIFQQHFGVEETVSSLLNLFQRADLSKNKGWYRVLELAANLLIKEEILSKNDQLANQVVVQLLPFMVITSNDVESPDMKIAIHLSKSGICSLHPLLRGWKEALENVIKSRKSREIIGVGNQKMVQLLGSNLSLGERSTVLKLVEDLVCAGEKESYSLKQKVAFHVTVSVLISCCSSFQETCFPFAMRVFSLLQKKIKKLKSIITAVEMPSEWQVELMLNRGLPEELWVRYVQELHGAQRVVMEDAILLVFSMKCFIFAMKAPKSFPTGAMWWDPEQLDEDSRHYLHLLIGIFEMLLEVSDAMHFRVLMRLIMKVHLQDVLQLFKFFCVLWTYGSSLSNPLNCTVKSELQTQALYIGSAMLSSQNTQYKQKLASTASPVVMSLLLNLGSPIKEVRRAAVQCLQALSGVPSKFQLVIDHLIPKAEEITSDATYVIQDLATLFDELQNEEKQKSHQKLSETLRSLLHCVYGCPSYIAKGLMKVFQGVNSEMVLAQLLPMVEQLLEKVEKEPTAVLKDEAIVLHLTLGKYNEYSASLLQKDPKSLDLFIKAMHTTKELHPGMPTVQITALEKITKLFFAAVSDGQVQQKLLCVLFDLLVNCKDAHCVQTVGSVFKGISVDAEQIRIELEPRDKAKSLGTIQQTRRQKMQQKKSQDVESVQEVEGPYWQRVTLILELLQHKKKLKCPQILIPSLFNLLSRCLEPLSSEQGNMEYTKQLILSCLLNICQKLSPDGGRIPKDVVDEEKFNVELIVQCIRLSEMPQTHHHALLLLGTVAGIFPDKVLHNIMSIFTFMGANVMRLDDAYSFQVISKTVKMVIPALIQSDTGDSVEVTRNVEEIVVKIIGVFVDALPHVPEHRRLPILVQLVSTLSAEKFLWILLVLLFEQYVTKTVLVAAYGEKDAILEADTEFWISVCCEFSVRHQVQSLMHILHYLEKLPEEKEEATSKTVSTKNKVQDEMLPVFKVDAHTSKQLRHFKYLSVSFMSQLLASNHFLKKVVGSGGPKSLHGLEQGLLEMVLSYINTVAQSMEKNADKLTGKFWRALLSKAYDMLDKVNALLPTETFISVIRGLVGNPLPSVRRKALDLLNNKLQQHMFWKKKMVHRFLKLVPVLLAIVQHKKREAEDEQAINRQTALYTLKLLCKNFGAQNREPFIPVLSTAVKLIAPEKKEEKNVLGSALLCIAEVTSTLEALAIPQLPSLMPSLLTAMKSTSELVHSEVCLLSALAALHKVVETLPHFISPYLEGLLTQVIHLEKITREMGSASQANIRLTALKKTLATELSPRVLLPAISKTFKQVQKNWKNQMGPFMSILQEHIGVMKKEELLSHQSQLTTFFLEALDFRAQHSEDDLEEVGKTEGWIIDCLVAMVVKLSEVTFRPLFFKLFDWAKTEDAPKDRLLTFYNLADCIAEKLKGLFTLFAGHLVKPFADTLNQVNISKTDEAFFDSERDPEKCCLLLQFILNCLYKVFLFDTQNFMSRERAEALMMPLVDQLENRLGGEERFQERVTKHLVPCIAQFSVAMADDSMWKPLNYQILLKTRDSSPKVRFAALITVLALAEKLRENYIVLLPESIPFLAELMEDECEEVEHQCQKTIQQLEAVLGEPLQSYF

Target ORF information:

RefSeq Version	XM_021180215.2
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli HEAT repeat containing 1 (Heatr1), mRNA.

Target ORF information:

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

XM_021180215.2

ORF Insert Sequence:

ATGACGTCCT TAGCCCAGCA GCTCCAGCGA CTCGCCCTCC CTCAAACTGA TCCCAGCCTC 
CTATCGAGAC GTGAAGTTGC CTCTCTGTTA TTTGACCCCA AGGAGGCGGC CACAATCGAC 
AGGGACACCG CCTTTGCCAT CGGATGCACT GGCCTGGAGG AGCTTCTTGG GATTGACCCT 
GCCTTTGAAC AGTTTGAAGC GCCACTGTTC AGCCAGCTGG CAAAAGGCTT GGAGCGCAGC 
GTCCAGACCA AAGCAGTGAA CAAGCAGCTG GATGAAAACA TTTCATCGTT CCTCCTTCAC 
TTGTCTCCTT ATTTCCTCCT CAAGCCAGCG CAGAAGTGTC TGGAATGGCT GATTCACAGG 
TTCCACATCC ATCTTTACAA TGCAGATAAT CTCATTGCTT GTGTTCTGCC GTACCATGAG 
ACACGGGTAT TTGTGCGGGT GATACAGCTT CTAAAAATTA GTAATCCGAA ACACAAATGG 
TTTTGGCTGT CTCCTGTTAA GCACTCTGGA GTGCCTTTAG CTAGAGGAAC TTTGGTCACT 
CATTGCTACA AAGACCTTGG ATTCATGGAT TTTATTTGCA GCCTAGTGAC GAGATCTGTG 
AAGGCCTTCG CTGAGGATCC GGGAAGCTCC GCCCAGTTGA GAGTGCTCTT GGCCTTCTAT 
GCCTCCACCA TTGTGTCTGC TCTAGTGGCT GCTGAGAACC TATCAGACAA TGTAGTCGCC 
AAACTCTTTC CATACATCCA AAAGGGATTG AAATCCTCTT TACCAGATTA TAGAGCTGCG 
ACATACATGA TAATCTGTCA GATTTCTGTG AAAGTGACGA TGGAAGATTC CTTTGTGAAC 
TCACTGGCAT CCCAGCTCAT CAAAACACTG ACCAAGGTTC CTTCTCAGGT CAAGGATGGA 
TTAGGTTGCC TGATAATTCT CCTACAGCGA CAGAAGCCAG AGAGCCTTGG GGAAAAGCCG 
TTCCTTCACT TGTGTGGTGT TCCAGACCTT ATAGGGCTAC TTCACGGGAT CTCCGAGAGC 
TACGACGTGA GCCCTCTTCT GCGCTGCATG CTTCCCCATC TGGTGGCCTC TGTTGTTCAG 
CACATTGCAG GAGAAGAAGC TGAAGGGATT GATGGTCAGA TCTACAAGAA GCACTTAGAA 
GAAATACTTA CAAAAATACC ACTGACGAAC AACTTAGACC ACCTACTGGC TAGCCGTCTT 
TTTGAAGAAT ATATTTCATA CAGTTCCCGG GAGGAAACGC ATGCTAATGG AGTGGCTTTG 
CTTAATGAGC AGTTTCTTCC ACTCATCAGA CTTTTAGAAA GCAAATACCC CAGAGCGTTG 
GATGCTGTGT TAGAGGAGCA CCTGAAGGAG ATTACAGGCC TTAAAAAGCA GGAGCTGTTC 
CACCAGTTCA TTTCTCTGTC TACAAGTGGA GGCAAGTATC AGTTTTTGGA GGATTCTGAC 
ACCTCTTTGA TGCTCAGTTT GAATCACCCA CTGGCTCCTG TGAGACTTCT GGCCGTTAAT 
CACCTAAAAA CTATCATGAA AACATCAAAG GAGGGCATTG ATGAGACTTT TATTAAAGAA 
GCTATTCTAA CCCGGTTAGG CGATGATAAT GTGGATGTTG TTTTAGCGAC TCTGAGTGCT 
TTTGAGATTT TTCAACAACA TTTTGGTGTA GAAGAGACGG TTTCAAGTCT TCTGAATCTC 
TTTCAAAGAG CAGACCTTTC AAAGAATAAA GGGTGGTACA GGGTGCTTGA GCTAGCAGCA 
AACTTACTAA TTAAAGAAGA GATACTAAGT AAAAATGACC AGTTGGCAAA TCAGGTGGTT 
GTCCAGTTGC TGCCTTTTAT GGTTATTACT AGTAATGATG TAGAGTCTCC TGATATGAAA 
ATTGCTATAC ATTTGTCAAA ATCAGGAATT TGTTCTCTGC ATCCTCTATT AAGAGGCTGG 
AAAGAAGCTC TTGAAAATGT TATTAAAAGC AGGAAATCAA GAGAAATAAT TGGTGTAGGA 
AACCAGAAGA TGGTTCAGCT GCTGGGCAGC AATTTAAGTT TAGGAGAGCG CTCTACAGTG 
TTGAAGCTGG TCGAAGATCT AGTATGTGCT GGGGAAAAGG AGTCTTACAG CCTGAAGCAG 
AAAGTGGCGT TTCACGTGAC TGTGTCTGTG CTGATCTCTT GCTGCTCATC CTTCCAAGAA 
ACCTGCTTCC CGTTTGCTAT GAGAGTGTTC AGTTTACTGC AGAAAAAGAT AAAGAAGCTC 
AAAAGCATCA TCACTGCTGT GGAAATGCCC TCAGAGTGGC AGGTGGAACT GATGTTGAAC 
AGAGGATTGC CGGAGGAGCT GTGGGTGCGT TACGTGCAGG AGCTCCACGG TGCCCAGAGG 
GTTGTCATGG AGGACGCCAT TTTACTTGTA TTTTCCATGA AATGTTTTAT TTTTGCAATG 
AAGGCTCCAA AATCTTTCCC TACAGGTGCC ATGTGGTGGG ATCCCGAGCA GCTAGATGAA 
GACAGCAGAC ACTACCTGCA CCTGCTCATT GGTATCTTTG AAATGCTGCT GGAGGTTTCT 
GACGCCATGC ATTTCAGGGT TCTGATGAGG CTTATAATGA AGGTACATCT ACAAGATGTT 
CTGCAGTTGT TCAAGTTCTT TTGTGTTTTG TGGACCTATG GTTCTAGCCT TTCAAATCCA 
CTTAACTGCA CTGTGAAGTC AGAGCTGCAG ACTCAAGCTC TTTACATAGG CTCTGCAATG 
CTTTCTTCTC AGAATACACA GTATAAACAA AAGCTGGCAT CTACTGCATC TCCAGTGGTG 
ATGTCTCTAC TCCTCAATCT GGGAAGCCCT ATCAAAGAAG TCCGCAGAGC TGCCGTCCAG 
TGTCTCCAGG CCCTCAGTGG GGTACCCTCA AAGTTTCAGC TGGTGATAGA TCACCTCATT 
CCTAAGGCAG AAGAGATCAC TTCAGATGCT ACCTATGTGA TTCAGGATTT GGCTACACTA 
TTTGATGAAC TACAGAATGA AGAGAAACAG AAATCACATC AGAAGTTGTC TGAAACCCTG 
AGAAGCCTTC TTCACTGTGT GTATGGCTGC CCATCTTACA TTGCAAAAGG CTTGATGAAA 
GTATTCCAAG GTGTGAACAG TGAGATGGTG CTTGCCCAGC TGCTGCCTAT GGTGGAACAA 
CTCCTAGAGA AGGTGGAAAA GGAGCCCACG GCTGTCCTGA AAGATGAGGC TATCGTTTTG 
CATCTCACTC TGGGAAAATA CAATGAGTAT TCAGCTTCGC TTTTACAGAA AGACCCAAAG 
AGTCTAGACC TGTTCATAAA AGCTATGCAC ACAACAAAGG AGCTTCACCC AGGAATGCCA 
ACTGTTCAGA TCACTGCTCT CGAAAAGATT ACAAAGCTGT TTTTTGCCGC TGTGTCAGAT 
GGACAGGTCC AGCAGAAGCT CCTGTGTGTG CTGTTTGACT TGTTAGTGAA CTGCAAAGAC 
GCGCACTGTG TTCAGACGGT CGGCAGTGTT TTTAAGGGGA TTTCTGTCGA TGCTGAACAA 
ATCAGAATAG AACTGGAGCC ACGAGATAAA GCTAAATCTT TGGGCACAAT TCAGCAAACG 
AGAAGGCAGA AAATGCAACA GAAAAAGTCA CAAGATGTGG AGTCTGTTCA AGAAGTGGAG 
GGCCCTTACT GGCAAAGAGT CACCCTCATC CTGGAGTTGC TGCAGCACAA AAAGAAGCTC 
AAGTGCCCTC AGATACTGAT CCCATCCCTC TTTAACTTGC TGTCGAGGTG TTTAGAACCT 
TTGTCATCAG AGCAGGGGAA CATGGAGTAC ACTAAGCAGT TAATTCTGAG TTGTTTGCTC 
AACATCTGCC AAAAACTCTC CCCAGATGGT GGCAGAATAC CTAAAGATGT TGTGGATGAG 
GAGAAGTTCA ATGTGGAGCT GATAGTGCAG TGCATCCGCC TCTCGGAGAT GCCGCAGACT 
CACCACCATG CCCTGCTACT TTTGGGTACT GTTGCTGGAA TATTTCCGGA TAAAGTTCTT 
CACAACATCA TGTCTATTTT TACATTCATG GGAGCCAATG TCATGCGTCT AGATGACGCT 
TATAGTTTTC AAGTTATTAG CAAGACAGTG AAAATGGTCA TTCCAGCACT TATTCAGTCT 
GATACTGGAG ACTCTGTAGA AGTCACTAGA AATGTTGAAG AGATTGTGGT GAAAATCATC 
GGTGTCTTTG TGGACGCACT TCCACATGTG CCAGAACACA GACGCCTGCC CATCCTTGTT 
CAGCTAGTCT CCACACTAAG TGCAGAAAAA TTCCTGTGGA TTCTCCTCGT CCTGCTTTTT 
GAACAGTATG TCACTAAAAC AGTGCTGGTG GCTGCTTATG GAGAAAAGGA TGCTATTTTA 
GAGGCAGATA CTGAGTTCTG GATTTCAGTC TGTTGTGAAT TCAGTGTCCG GCATCAGGTC 
CAGAGCCTGA TGCATATTCT CCACTACCTA GAAAAGCTGC CAGAGGAAAA GGAAGAAGCC 
ACCTCCAAGA CAGTATCTAC TAAGAATAAA GTACAAGATG AAATGTTGCC AGTTTTTAAG 
GTGGATGCTC ACACAAGCAA GCAGCTTCGG CATTTTAAGT ATTTGTCAGT GTCCTTCATG 
TCCCAACTCC TGGCTTCCAA TCATTTTCTC AAAAAGGTTG TAGGAAGTGG TGGTCCTAAG 
AGCCTGCACG GACTTGAACA GGGTTTGTTA GAAATGGTTC TCAGCTATAT TAACACAGTG 
GCACAGTCCA TGGAAAAGAA TGCAGACAAA CTGACTGGGA AGTTTTGGCG AGCGCTGCTC 
AGCAAAGCTT ATGACATGCT GGATAAGGTC AATGCCTTGC TGCCCACAGA AACATTCATC 
TCTGTGATTA GAGGGCTGGT GGGCAACCCC CTGCCATCTG TGCGTCGGAA GGCGCTGGAT 
CTTTTGAATA ACAAGCTCCA GCAGCACATG TTCTGGAAGA AGAAAATGGT CCACCGCTTT 
CTCAAACTGG TTCCAGTCCT TCTGGCCATT GTGCAGCATA AGAAAAGGGA GGCAGAGGAT 
GAACAGGCAA TAAACAGACA GACAGCGCTG TACACCCTGA AACTCCTGTG CAAGAACTTC 
GGGGCACAGA ACCGAGAGCC TTTCATACCA GTTCTCAGCA CTGCAGTAAA GCTGATAGCA 
CCAGAGAAAA AGGAGGAGAA GAATGTCCTG GGAAGCGCCC TGCTGTGCAT AGCAGAGGTG 
ACGTCCACTC TGGAAGCGCT GGCCATCCCC CAGCTGCCCA GCCTGATGCC TTCGCTGCTG 
ACAGCCATGA AGAGCACCAG TGAGTTGGTC CACAGTGAGG TCTGCCTGCT CAGCGCCCTG 
GCTGCCCTGC ACAAAGTCGT TGAGACTCTG CCACACTTCA TCAGCCCCTA CCTGGAAGGC 
CTTCTGACCC AGGTGATTCA CCTAGAGAAA ATCACTAGAG AAATGGGTTC TGCCTCACAG 
GCTAACATCC GCCTGACAGC TCTTAAAAAG ACCCTGGCCA CTGAGCTCTC ACCTCGCGTC 
CTACTGCCAG CCATTAGCAA GACTTTCAAA CAGGTCCAGA AGAACTGGAA GAATCAAATG 
GGCCCATTTA TGAGCATCTT ACAAGAGCAC ATCGGGGTGA TGAAGAAGGA AGAGCTCTTA 
TCTCACCAGT CTCAGCTGAC CACCTTTTTC CTGGAAGCCC TGGACTTCCG GGCACAGCAT 
TCAGAGGACG ATCTAGAGGA AGTTGGGAAA ACAGAAGGTT GGATCATTGA CTGTCTAGTG 
GCCATGGTGG TGAAGCTCTC AGAGGTCACA TTCAGGCCTC TCTTCTTCAA GCTGTTTGAT 
TGGGCCAAGA CAGAAGATGC GCCGAAGGAC AGGCTGTTGA CATTTTACAA TCTGGCCGAC 
TGCATTGCTG AGAAGTTGAA AGGCCTTTTC ACTCTGTTTG CTGGGCACTT GGTGAAACCT 
TTTGCCGATA CCTTGAACCA AGTAAACATC TCCAAAACAG ACGAAGCCTT CTTTGACTCC 
GAACGTGACC CTGAAAAGTG CTGCTTGTTG CTGCAGTTTA TCTTGAACTG CTTGTATAAG 
GTCTTCCTTT TTGACACCCA GAATTTCATG AGTAGAGAGA GAGCAGAAGC CCTGATGATG 
CCCCTGGTGG ATCAGCTGGA AAACAGGCTT GGAGGAGAAG AAAGGTTCCA GGAACGGGTA 
ACCAAGCACC TGGTGCCCTG CATCGCACAG TTCTCTGTGG CCATGGCAGA TGACTCCATG 
TGGAAACCCC TGAACTACCA GATTCTGCTG AAGACAAGAG ACTCTTCCCC TAAGGTGCGG 
TTTGCAGCCT TGATTACTGT CTTGGCACTG GCTGAGAAGC TGAGAGAGAA TTACATTGTT 
CTGCTACCAG AGTCCATTCC TTTCCTAGCA GAACTGATGG AAGACGAGTG TGAAGAAGTG 
GAGCATCAGT GCCAGAAGAC CATCCAGCAG CTGGAGGCCG TGCTGGGAGA GCCGCTGCAG 
AGCTACTTCT GA