Ift140 cDNA ORF clone, Mus caroli(Ryukyu mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Ift140
Entrez Gene ID	110312455
Full Name	intraflagellar transport 140
Gene Type	protein-coding
Organism	Mus caroli(Ryukyu mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_029471007.1	XP_029326867.1	intraflagellar transport protein 140 homolog
XM_021186052.1	XP_021041711.1	intraflagellar transport protein 140 homolog

Pathways from BioSystems
Gene Ontology

The following Ift140 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ift140 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
OMv34133	XM_021186052.1 Latest version!	Mus caroli intraflagellar transport 140 (Ift140), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OMv34133	XM_029471007.1 Latest version!	Mus caroli intraflagellar transport 140 (Ift140), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

Ift140 ( XM_029471007.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029326867.1 Mus caroli intraflagellar transport 140 (Ift140), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMv34133
Clone ID Related Accession (Same CDS sequence)	XM_029471007.1 , XM_021186052.1
Accession Version	XM_029471007.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4395bp) 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	intraflagellar transport protein 140 homolog
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) 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 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##

ATGGCGCTGT ATTTTGACCA CCGAATCAAA GCTCCAGACA CACCCAGCTC TCCCTCCCAC 
ATCACCTGGC ACCCCACCCA CCCATTCCTG GCAGTCGCAT CTATAAGCCC ATCTTCTGGA 
GGCAACGTAG ACATCTACCT TGAGCAAGGT GAGCCCGTGC CTGACACCCA CATTGAGAGG 
TCTTTCCAGG CCACTTCACT GTGCTGGCAC CCAACAAGGC TTATCCTGGC TATTGGCTGG 
GAAACTGGAG AAGTGATAAT GTTTAATAAG CAGGACAAGG AGCAGCACAC AGTGCCCCTG 
CCACATACGA CTGACATTGC CATCCTCAGC TGGAGCACCA GTGGGAGCTG TCTGGTATCT 
GGAGATAAGC TTGGGGTCCT GCTCTTGTGG AGATTGGACC AGCGAGGCCG AGTACAGGGA 
ACACCACTCC TGAAACACGA ATATGGGAAA GCACTGACCC ATTGCATCTT CCGGCTCCCC 
CCTCCTGGGG AGGATCTGGT TCAGTTGGCA AAGGCAGCAG TAAGCGGGGA TGAGAAAGCC 
CTGGACATGT TTAACTGGAG AAAAAGCAGC TTTGGAAGTT TCCTGAAAAC GGGATCTCAG 
GAGGGGCTGT CTTTCTTTGT CAGTCTCATG GATGGCACAG TGCACTATGT GGATGAAAAG 
GGCAAGACTG CCCAGGTGGC ATCCACAGAC AGCTCCATCC AGACCCTGTT CTACATTGAG 
AGGAGAGAGG CACTGGTTGT GGTCACAGAG AACCTTCTCC TGTCTCTGTA TGTGGTGACT 
CCTGAGGGAG AAGCTGAAGA AGTCATGAAG GTAAAGTTGA GTGGGAAGAC AGGCTGCCGG 
GCAGATATCA CTTTGATAGA GGGCAGCCTT CTCGTGACAG CTATTGGGGA GCCTGTGCTC 
AGGTTCTGGG ACTTAGAACG GGGAGAGAAT TACATACTGA GTCTACAGGA GAAGTTTGGC 
TTTGAAAAGG GAGAGAGTAT GAACTGTGTG TGTTTCTGTA AAGCCAAAGG TCTCCTAGCA 
GCGGGTACCC ATAAAGGACG AGTAGCTATG TGGAAAAAAG TGCCAAGCTT TCCAAATGGC 
CGTGGGGCGG AGGGCAAGGA CATGTGGGCC CTTCAGACCC CTACTGAGCT TGAAGGGAAC 
ATCACACAGA TAAAGTGGGG CTCCAGGAAG AACCTTCTGG CAGTGAGCAG CACCGAGTCT 
GTGTCCATCC TCAGTGAGCA AGCCATGTCG TCACACTTCC ACCAGCAAGT AGCTGCCGTG 
CAGATCTCCC CGAGCCTAGT CAACGTGTCT TTCCTGTCCA CGGGGGGCAC ACACAGCCTG 
CGCACCGACA TGCACATCAG TGGAGTGTTT GCCACCAAGG ATGCTGTGGC TGTCTGGAAT 
GGAAAGCAGG TGGCGATCTT TGAACCCTCA GGATCCACCT TAAGGAATGC AGGGACATTC 
CTGTGTGAAA CATCAGTGCT AGCCATGCAT GAGGAAAGCA TTTACACCGT GGAGCCAAAC 
CGACTCCAAG TCCGGACCTG GCAGGGAACT GTCAAACAAC TTCTGCTATT CTCTGAGACC 
GAGGGGAGCC CCTGCTTGCT GGATGTCTGT GGGACTTTCC TGGTTGCAGG GACAGATTTA 
GCTCATTTCA AAAGTTTTGA TCTTTCCAGA AGGGAAGCAA AAGTGCACTG CAGCTGCAAG 
AACCTGGCCC AGCTGGTCCC TGATGTGGGG AGCATCACTT CTCTGAGATG CAATGCAAAT 
GGGAACAAGA TCAGCATCCT CCTCAGCAAG GTCGACAACA GCCCTGATTC CAAAATCTAC 
ATCTATGATG TTGAAATGGA CACAGTGAAT GTCTTCAACT TCACGACTGG ACAGATTGGA 
CAGATACAGA TTCTGCCCTT TAATGAGCCG CCGACTAATG AGACACGTTC CTTTATGGAC 
GAGAGCCTAG CAGGTTACAC GCCGGTGAAC CATTTCTGGG ATCAGAGTGA GCCCAGGCTC 
TTTGTGTGCG AGGCCTTGCA GGAGGCCCCT GGAGCCCAGC CACAGGCTGT AGACAAGCAG 
CCCCATGTAG AGGAGGGCAC ATGCCACAAG GAAGCCGTGT TGATTCTCTC CTTCTTTGCT 
TCTGAAGAAC ATGGCTTTCT GCTCCATGAC AGCTTCCCCC GGCCTTCAAC CTACCAGAGC 
CTTCTGGGCA TGGAAGTGCC TCACTATTAC TTCACAAAAA AGCCTGGAGA AGCAGACAAA 
GAAGACAGGA TGGATTCTGG GTACTACCAC ATCCCTCAGA TGGTAGCCAA GAGGCCCCTA 
CGAGACTTTG TGGGGCTGGA GGACTGTGAC AAGTCTACTC GGGATGCCAT GCTCAACTTC 
AGCTTCTTTG TCACCATTGG AGACATGGAT GAAGCTTTCA AATCTATCAA ACTCATCAAG 
AGTGAGGCTG TCTGGGAGAA CATGGCACGT ATGTGTGTGA AGACTCAACG GCTGGATGTT 
GCCAAGGTGT GCCTAGGGAA CATGGGCCAT GCCCGTGGGG CCCGAGCACT GCGGGAAGCT 
GAGCGGGAGC CAGAACTGGA AGCCAGAGTG GCCATGCTGG CCATACAGCT GGGCATGCTG 
GAGGAGGCAG AACAACTGTA TAAGAAGTGC AAACGCTACG ACCTTCTGAA CAAGTTCTAC 
CAGGCCTCAG ACCAGTGGCA GAAAGCTGTG GAGGTGGCGG AGCTCCACGA CCGTGTCCAC 
CTGCGCACCA CCTACTACAA CTACGCCAAG CACCTGGAGG CCAGCGCTGA CTGCGGCCAG 
GCCCTCAGTT ATTATGAGAA GTCAGACACC CACCGTTTTG AGGTTCCTAG GATGCTCTCG 
GAAGACCTGC AGTCCCTGGA GCTCTACATC AATAGGACGA AGGACAAGAC CCTCTGGAGA 
TGGTGGGCCC AGTATCTTGA GAGCCAGGCA GAGATGGACA CTGCACTGCG CTACTACGAG 
CTGGCGCAGG ACTACTTCTC CCTGGTCCGC ATTCACTGCT TCCAGGGCAA CATTCAGAAG 
GCTGCTGAAA TAGCCAACGA GACTGGAGAC TGGGCTGCAT CCTACCACCT TGCCCGGCAG 
TACGAGAGCC AGGATGAGGT AAAACAGGCA GTGCACTTCT ACACTCGGGC ACAGGCTTTC 
AACAACGCCA TCCGCCTGTG CAAGGAGAAT GCCTTAGATG ACCAACTCAT GAACTTGGCC 
CTGTTGAGTT CCCCAGAGGA CATGATTGAG GCAGCCCGGT ATTATGAGGA GAAGGGCGAG 
CAGATGGACA GGGCTGTCAT GCTGTACCAC AAGGCTGGAC ACTTTTCCAA GGCCCTGGAG 
CTGGCCTTCA GCACCCAGCA GTTTGCAGCA CTACAGCTCA TAGCCGAGGA CCTGGATGAG 
AGGTCAGACC CTGCTCTTCT GGCCCGCTGC TCAGACTTCT GCATTGAGCA CAGACAGTTT 
GAAAAGGCTG TGGAGCTTCT CCTGGCTGCC AAGAAGTACC ATGAGGCTCT GCAGCTGTGC 
CTAGAGCAGA ACATGACCAT CACTGAGGAC ATGGCAGAGA AGATGACTGT GTCCAAGGAC 
TCAAAGGAGC TGTCTGAGGA GTCCCGGCGG GAGCTTCTGG AGCAGATCGC CAACTGCTGT 
ATGCGCCAGG GCAACTATCA CCTGGCCACC AAGAAGTACA CACAGGCTGG GGACAAGCTG 
AAGGCCATGA GAGCACTGCT CAAATCTGGA GACACAGAGA AAATTGTGTT CTTTGCGGGT 
GTCTCAAGAC AGAAGGAAAT CTACATCATG GCTGCCAATT ACCTGCAGTC CCTGGACTGG 
CGGAAGGAGC CGGAGATCAT GAAGAGTATC ATTAGCTTCT ACACCAAAGG GCGGGCCTTG 
GACCTCCTGG CTGGCTTCTA TGATGCCTGT GCCCAGGTGG AGATTGACGA ATACCAGAAC 
TATGACAAGG CCCATGGAGC ACTGACTGAG GCCTATAAGT GCCTGTCCAA AGCCAAGGCC 
AAGAGCCCCC TGGACCAGGA GACCAAGCTA GCCCAGCTAC AGAGCAAGAT GACGCTGGTG 
AAGAGGTTCA TCCAGGCCCG AAGGACATAC ACAGAGGACC CCAAAGAGTC CATCAGGCAG 
TGTGAGCTGC TCCTAGAAGA GCCAGACCTG GACAGCACCA TCCGTGTCGG AGACGTCTAT 
GGCTTCCTGG TGGAACACCA TGTACAGATG GAGGAATACC AGATGGCCTA TAAGTATCTT 
GAGGAGATGA GGAAAAGACT TCCTTCAGCC AACATGTCAT ACTATGTGGA CCAGCGCACT 
GTGGACACTG TGCACCAGGG CCTGGGCCTC CTCCCTCCAT CTCGTATCAT GCCCGAGCGG 
GTCCGCCACA ATAGCATGGA GGACCATAAG GAGGTGTACG AGGAGGTGAT AGAAGAGGTG 
GACAATGACC CCTGA

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

RefSeq	XP_029326867.1
CDS	158..4552
Translation	MALYFDHRIKAPDTPSSPSHITWHPTHPFLAVASISPSSGGNVDIYLEQGEPVPDTHIERSFQATSLCWHPTRLILAIGWETGEVIMFNKQDKEQHTVPLPHTTDIAILSWSTSGSCLVSGDKLGVLLLWRLDQRGRVQGTPLLKHEYGKALTHCIFRLPPPGEDLVQLAKAAVSGDEKALDMFNWRKSSFGSFLKTGSQEGLSFFVSLMDGTVHYVDEKGKTAQVASTDSSIQTLFYIERREALVVVTENLLLSLYVVTPEGEAEEVMKVKLSGKTGCRADITLIEGSLLVTAIGEPVLRFWDLERGENYILSLQEKFGFEKGESMNCVCFCKAKGLLAAGTHKGRVAMWKKVPSFPNGRGAEGKDMWALQTPTELEGNITQIKWGSRKNLLAVSSTESVSILSEQAMSSHFHQQVAAVQISPSLVNVSFLSTGGTHSLRTDMHISGVFATKDAVAVWNGKQVAIFEPSGSTLRNAGTFLCETSVLAMHEESIYTVEPNRLQVRTWQGTVKQLLLFSETEGSPCLLDVCGTFLVAGTDLAHFKSFDLSRREAKVHCSCKNLAQLVPDVGSITSLRCNANGNKISILLSKVDNSPDSKIYIYDVEMDTVNVFNFTTGQIGQIQILPFNEPPTNETRSFMDESLAGYTPVNHFWDQSEPRLFVCEALQEAPGAQPQAVDKQPHVEEGTCHKEAVLILSFFASEEHGFLLHDSFPRPSTYQSLLGMEVPHYYFTKKPGEADKEDRMDSGYYHIPQMVAKRPLRDFVGLEDCDKSTRDAMLNFSFFVTIGDMDEAFKSIKLIKSEAVWENMARMCVKTQRLDVAKVCLGNMGHARGARALREAEREPELEARVAMLAIQLGMLEEAEQLYKKCKRYDLLNKFYQASDQWQKAVEVAELHDRVHLRTTYYNYAKHLEASADCGQALSYYEKSDTHRFEVPRMLSEDLQSLELYINRTKDKTLWRWWAQYLESQAEMDTALRYYELAQDYFSLVRIHCFQGNIQKAAEIANETGDWAASYHLARQYESQDEVKQAVHFYTRAQAFNNAIRLCKENALDDQLMNLALLSSPEDMIEAARYYEEKGEQMDRAVMLYHKAGHFSKALELAFSTQQFAALQLIAEDLDERSDPALLARCSDFCIEHRQFEKAVELLLAAKKYHEALQLCLEQNMTITEDMAEKMTVSKDSKELSEESRRELLEQIANCCMRQGNYHLATKKYTQAGDKLKAMRALLKSGDTEKIVFFAGVSRQKEIYIMAANYLQSLDWRKEPEIMKSIISFYTKGRALDLLAGFYDACAQVEIDEYQNYDKAHGALTEAYKCLSKAKAKSPLDQETKLAQLQSKMTLVKRFIQARRTYTEDPKESIRQCELLLEEPDLDSTIRVGDVYGFLVEHHVQMEEYQMAYKYLEEMRKRLPSANMSYYVDQRTVDTVHQGLGLLPPSRIMPERVRHNSMEDHKEVYEEVIEEVDNDP

Target ORF information:

RefSeq Version	XM_029471007.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli intraflagellar transport 140 (Ift140), transcript variant X2, mRNA.

Target ORF information:

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

XM_029471007.1

ORF Insert Sequence:

ATGGCGCTGT ATTTTGACCA CCGAATCAAA GCTCCAGACA CACCCAGCTC TCCCTCCCAC 
ATCACCTGGC ACCCCACCCA CCCATTCCTG GCAGTCGCAT CTATAAGCCC ATCTTCTGGA 
GGCAACGTAG ACATCTACCT TGAGCAAGGT GAGCCCGTGC CTGACACCCA CATTGAGAGG 
TCTTTCCAGG CCACTTCACT GTGCTGGCAC CCAACAAGGC TTATCCTGGC TATTGGCTGG 
GAAACTGGAG AAGTGATAAT GTTTAATAAG CAGGACAAGG AGCAGCACAC AGTGCCCCTG 
CCACATACGA CTGACATTGC CATCCTCAGC TGGAGCACCA GTGGGAGCTG TCTGGTATCT 
GGAGATAAGC TTGGGGTCCT GCTCTTGTGG AGATTGGACC AGCGAGGCCG AGTACAGGGA 
ACACCACTCC TGAAACACGA ATATGGGAAA GCACTGACCC ATTGCATCTT CCGGCTCCCC 
CCTCCTGGGG AGGATCTGGT TCAGTTGGCA AAGGCAGCAG TAAGCGGGGA TGAGAAAGCC 
CTGGACATGT TTAACTGGAG AAAAAGCAGC TTTGGAAGTT TCCTGAAAAC GGGATCTCAG 
GAGGGGCTGT CTTTCTTTGT CAGTCTCATG GATGGCACAG TGCACTATGT GGATGAAAAG 
GGCAAGACTG CCCAGGTGGC ATCCACAGAC AGCTCCATCC AGACCCTGTT CTACATTGAG 
AGGAGAGAGG CACTGGTTGT GGTCACAGAG AACCTTCTCC TGTCTCTGTA TGTGGTGACT 
CCTGAGGGAG AAGCTGAAGA AGTCATGAAG GTAAAGTTGA GTGGGAAGAC AGGCTGCCGG 
GCAGATATCA CTTTGATAGA GGGCAGCCTT CTCGTGACAG CTATTGGGGA GCCTGTGCTC 
AGGTTCTGGG ACTTAGAACG GGGAGAGAAT TACATACTGA GTCTACAGGA GAAGTTTGGC 
TTTGAAAAGG GAGAGAGTAT GAACTGTGTG TGTTTCTGTA AAGCCAAAGG TCTCCTAGCA 
GCGGGTACCC ATAAAGGACG AGTAGCTATG TGGAAAAAAG TGCCAAGCTT TCCAAATGGC 
CGTGGGGCGG AGGGCAAGGA CATGTGGGCC CTTCAGACCC CTACTGAGCT TGAAGGGAAC 
ATCACACAGA TAAAGTGGGG CTCCAGGAAG AACCTTCTGG CAGTGAGCAG CACCGAGTCT 
GTGTCCATCC TCAGTGAGCA AGCCATGTCG TCACACTTCC ACCAGCAAGT AGCTGCCGTG 
CAGATCTCCC CGAGCCTAGT CAACGTGTCT TTCCTGTCCA CGGGGGGCAC ACACAGCCTG 
CGCACCGACA TGCACATCAG TGGAGTGTTT GCCACCAAGG ATGCTGTGGC TGTCTGGAAT 
GGAAAGCAGG TGGCGATCTT TGAACCCTCA GGATCCACCT TAAGGAATGC AGGGACATTC 
CTGTGTGAAA CATCAGTGCT AGCCATGCAT GAGGAAAGCA TTTACACCGT GGAGCCAAAC 
CGACTCCAAG TCCGGACCTG GCAGGGAACT GTCAAACAAC TTCTGCTATT CTCTGAGACC 
GAGGGGAGCC CCTGCTTGCT GGATGTCTGT GGGACTTTCC TGGTTGCAGG GACAGATTTA 
GCTCATTTCA AAAGTTTTGA TCTTTCCAGA AGGGAAGCAA AAGTGCACTG CAGCTGCAAG 
AACCTGGCCC AGCTGGTCCC TGATGTGGGG AGCATCACTT CTCTGAGATG CAATGCAAAT 
GGGAACAAGA TCAGCATCCT CCTCAGCAAG GTCGACAACA GCCCTGATTC CAAAATCTAC 
ATCTATGATG TTGAAATGGA CACAGTGAAT GTCTTCAACT TCACGACTGG ACAGATTGGA 
CAGATACAGA TTCTGCCCTT TAATGAGCCG CCGACTAATG AGACACGTTC CTTTATGGAC 
GAGAGCCTAG CAGGTTACAC GCCGGTGAAC CATTTCTGGG ATCAGAGTGA GCCCAGGCTC 
TTTGTGTGCG AGGCCTTGCA GGAGGCCCCT GGAGCCCAGC CACAGGCTGT AGACAAGCAG 
CCCCATGTAG AGGAGGGCAC ATGCCACAAG GAAGCCGTGT TGATTCTCTC CTTCTTTGCT 
TCTGAAGAAC ATGGCTTTCT GCTCCATGAC AGCTTCCCCC GGCCTTCAAC CTACCAGAGC 
CTTCTGGGCA TGGAAGTGCC TCACTATTAC TTCACAAAAA AGCCTGGAGA AGCAGACAAA 
GAAGACAGGA TGGATTCTGG GTACTACCAC ATCCCTCAGA TGGTAGCCAA GAGGCCCCTA 
CGAGACTTTG TGGGGCTGGA GGACTGTGAC AAGTCTACTC GGGATGCCAT GCTCAACTTC 
AGCTTCTTTG TCACCATTGG AGACATGGAT GAAGCTTTCA AATCTATCAA ACTCATCAAG 
AGTGAGGCTG TCTGGGAGAA CATGGCACGT ATGTGTGTGA AGACTCAACG GCTGGATGTT 
GCCAAGGTGT GCCTAGGGAA CATGGGCCAT GCCCGTGGGG CCCGAGCACT GCGGGAAGCT 
GAGCGGGAGC CAGAACTGGA AGCCAGAGTG GCCATGCTGG CCATACAGCT GGGCATGCTG 
GAGGAGGCAG AACAACTGTA TAAGAAGTGC AAACGCTACG ACCTTCTGAA CAAGTTCTAC 
CAGGCCTCAG ACCAGTGGCA GAAAGCTGTG GAGGTGGCGG AGCTCCACGA CCGTGTCCAC 
CTGCGCACCA CCTACTACAA CTACGCCAAG CACCTGGAGG CCAGCGCTGA CTGCGGCCAG 
GCCCTCAGTT ATTATGAGAA GTCAGACACC CACCGTTTTG AGGTTCCTAG GATGCTCTCG 
GAAGACCTGC AGTCCCTGGA GCTCTACATC AATAGGACGA AGGACAAGAC CCTCTGGAGA 
TGGTGGGCCC AGTATCTTGA GAGCCAGGCA GAGATGGACA CTGCACTGCG CTACTACGAG 
CTGGCGCAGG ACTACTTCTC CCTGGTCCGC ATTCACTGCT TCCAGGGCAA CATTCAGAAG 
GCTGCTGAAA TAGCCAACGA GACTGGAGAC TGGGCTGCAT CCTACCACCT TGCCCGGCAG 
TACGAGAGCC AGGATGAGGT AAAACAGGCA GTGCACTTCT ACACTCGGGC ACAGGCTTTC 
AACAACGCCA TCCGCCTGTG CAAGGAGAAT GCCTTAGATG ACCAACTCAT GAACTTGGCC 
CTGTTGAGTT CCCCAGAGGA CATGATTGAG GCAGCCCGGT ATTATGAGGA GAAGGGCGAG 
CAGATGGACA GGGCTGTCAT GCTGTACCAC AAGGCTGGAC ACTTTTCCAA GGCCCTGGAG 
CTGGCCTTCA GCACCCAGCA GTTTGCAGCA CTACAGCTCA TAGCCGAGGA CCTGGATGAG 
AGGTCAGACC CTGCTCTTCT GGCCCGCTGC TCAGACTTCT GCATTGAGCA CAGACAGTTT 
GAAAAGGCTG TGGAGCTTCT CCTGGCTGCC AAGAAGTACC ATGAGGCTCT GCAGCTGTGC 
CTAGAGCAGA ACATGACCAT CACTGAGGAC ATGGCAGAGA AGATGACTGT GTCCAAGGAC 
TCAAAGGAGC TGTCTGAGGA GTCCCGGCGG GAGCTTCTGG AGCAGATCGC CAACTGCTGT 
ATGCGCCAGG GCAACTATCA CCTGGCCACC AAGAAGTACA CACAGGCTGG GGACAAGCTG 
AAGGCCATGA GAGCACTGCT CAAATCTGGA GACACAGAGA AAATTGTGTT CTTTGCGGGT 
GTCTCAAGAC AGAAGGAAAT CTACATCATG GCTGCCAATT ACCTGCAGTC CCTGGACTGG 
CGGAAGGAGC CGGAGATCAT GAAGAGTATC ATTAGCTTCT ACACCAAAGG GCGGGCCTTG 
GACCTCCTGG CTGGCTTCTA TGATGCCTGT GCCCAGGTGG AGATTGACGA ATACCAGAAC 
TATGACAAGG CCCATGGAGC ACTGACTGAG GCCTATAAGT GCCTGTCCAA AGCCAAGGCC 
AAGAGCCCCC TGGACCAGGA GACCAAGCTA GCCCAGCTAC AGAGCAAGAT GACGCTGGTG 
AAGAGGTTCA TCCAGGCCCG AAGGACATAC ACAGAGGACC CCAAAGAGTC CATCAGGCAG 
TGTGAGCTGC TCCTAGAAGA GCCAGACCTG GACAGCACCA TCCGTGTCGG AGACGTCTAT 
GGCTTCCTGG TGGAACACCA TGTACAGATG GAGGAATACC AGATGGCCTA TAAGTATCTT 
GAGGAGATGA GGAAAAGACT TCCTTCAGCC AACATGTCAT ACTATGTGGA CCAGCGCACT 
GTGGACACTG TGCACCAGGG CCTGGGCCTC CTCCCTCCAT CTCGTATCAT GCCCGAGCGG 
GTCCGCCACA ATAGCATGGA GGACCATAAG GAGGTGTACG AGGAGGTGAT AGAAGAGGTG 
GACAATGACC CCTGA

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

Ift140 ( XM_021186052.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021041711.1 Mus caroli intraflagellar transport 140 (Ift140), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMv34133
Clone ID Related Accession (Same CDS sequence)	XM_029471007.1 , XM_021186052.1
Accession Version	XM_021186052.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4395bp) 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	intraflagellar transport protein 140 homolog
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) 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 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##

ATGGCGCTGT ATTTTGACCA CCGAATCAAA GCTCCAGACA CACCCAGCTC TCCCTCCCAC 
ATCACCTGGC ACCCCACCCA CCCATTCCTG GCAGTCGCAT CTATAAGCCC ATCTTCTGGA 
GGCAACGTAG ACATCTACCT TGAGCAAGGT GAGCCCGTGC CTGACACCCA CATTGAGAGG 
TCTTTCCAGG CCACTTCACT GTGCTGGCAC CCAACAAGGC TTATCCTGGC TATTGGCTGG 
GAAACTGGAG AAGTGATAAT GTTTAATAAG CAGGACAAGG AGCAGCACAC AGTGCCCCTG 
CCACATACGA CTGACATTGC CATCCTCAGC TGGAGCACCA GTGGGAGCTG TCTGGTATCT 
GGAGATAAGC TTGGGGTCCT GCTCTTGTGG AGATTGGACC AGCGAGGCCG AGTACAGGGA 
ACACCACTCC TGAAACACGA ATATGGGAAA GCACTGACCC ATTGCATCTT CCGGCTCCCC 
CCTCCTGGGG AGGATCTGGT TCAGTTGGCA AAGGCAGCAG TAAGCGGGGA TGAGAAAGCC 
CTGGACATGT TTAACTGGAG AAAAAGCAGC TTTGGAAGTT TCCTGAAAAC GGGATCTCAG 
GAGGGGCTGT CTTTCTTTGT CAGTCTCATG GATGGCACAG TGCACTATGT GGATGAAAAG 
GGCAAGACTG CCCAGGTGGC ATCCACAGAC AGCTCCATCC AGACCCTGTT CTACATTGAG 
AGGAGAGAGG CACTGGTTGT GGTCACAGAG AACCTTCTCC TGTCTCTGTA TGTGGTGACT 
CCTGAGGGAG AAGCTGAAGA AGTCATGAAG GTAAAGTTGA GTGGGAAGAC AGGCTGCCGG 
GCAGATATCA CTTTGATAGA GGGCAGCCTT CTCGTGACAG CTATTGGGGA GCCTGTGCTC 
AGGTTCTGGG ACTTAGAACG GGGAGAGAAT TACATACTGA GTCTACAGGA GAAGTTTGGC 
TTTGAAAAGG GAGAGAGTAT GAACTGTGTG TGTTTCTGTA AAGCCAAAGG TCTCCTAGCA 
GCGGGTACCC ATAAAGGACG AGTAGCTATG TGGAAAAAAG TGCCAAGCTT TCCAAATGGC 
CGTGGGGCGG AGGGCAAGGA CATGTGGGCC CTTCAGACCC CTACTGAGCT TGAAGGGAAC 
ATCACACAGA TAAAGTGGGG CTCCAGGAAG AACCTTCTGG CAGTGAGCAG CACCGAGTCT 
GTGTCCATCC TCAGTGAGCA AGCCATGTCG TCACACTTCC ACCAGCAAGT AGCTGCCGTG 
CAGATCTCCC CGAGCCTAGT CAACGTGTCT TTCCTGTCCA CGGGGGGCAC ACACAGCCTG 
CGCACCGACA TGCACATCAG TGGAGTGTTT GCCACCAAGG ATGCTGTGGC TGTCTGGAAT 
GGAAAGCAGG TGGCGATCTT TGAACCCTCA GGATCCACCT TAAGGAATGC AGGGACATTC 
CTGTGTGAAA CATCAGTGCT AGCCATGCAT GAGGAAAGCA TTTACACCGT GGAGCCAAAC 
CGACTCCAAG TCCGGACCTG GCAGGGAACT GTCAAACAAC TTCTGCTATT CTCTGAGACC 
GAGGGGAGCC CCTGCTTGCT GGATGTCTGT GGGACTTTCC TGGTTGCAGG GACAGATTTA 
GCTCATTTCA AAAGTTTTGA TCTTTCCAGA AGGGAAGCAA AAGTGCACTG CAGCTGCAAG 
AACCTGGCCC AGCTGGTCCC TGATGTGGGG AGCATCACTT CTCTGAGATG CAATGCAAAT 
GGGAACAAGA TCAGCATCCT CCTCAGCAAG GTCGACAACA GCCCTGATTC CAAAATCTAC 
ATCTATGATG TTGAAATGGA CACAGTGAAT GTCTTCAACT TCACGACTGG ACAGATTGGA 
CAGATACAGA TTCTGCCCTT TAATGAGCCG CCGACTAATG AGACACGTTC CTTTATGGAC 
GAGAGCCTAG CAGGTTACAC GCCGGTGAAC CATTTCTGGG ATCAGAGTGA GCCCAGGCTC 
TTTGTGTGCG AGGCCTTGCA GGAGGCCCCT GGAGCCCAGC CACAGGCTGT AGACAAGCAG 
CCCCATGTAG AGGAGGGCAC ATGCCACAAG GAAGCCGTGT TGATTCTCTC CTTCTTTGCT 
TCTGAAGAAC ATGGCTTTCT GCTCCATGAC AGCTTCCCCC GGCCTTCAAC CTACCAGAGC 
CTTCTGGGCA TGGAAGTGCC TCACTATTAC TTCACAAAAA AGCCTGGAGA AGCAGACAAA 
GAAGACAGGA TGGATTCTGG GTACTACCAC ATCCCTCAGA TGGTAGCCAA GAGGCCCCTA 
CGAGACTTTG TGGGGCTGGA GGACTGTGAC AAGTCTACTC GGGATGCCAT GCTCAACTTC 
AGCTTCTTTG TCACCATTGG AGACATGGAT GAAGCTTTCA AATCTATCAA ACTCATCAAG 
AGTGAGGCTG TCTGGGAGAA CATGGCACGT ATGTGTGTGA AGACTCAACG GCTGGATGTT 
GCCAAGGTGT GCCTAGGGAA CATGGGCCAT GCCCGTGGGG CCCGAGCACT GCGGGAAGCT 
GAGCGGGAGC CAGAACTGGA AGCCAGAGTG GCCATGCTGG CCATACAGCT GGGCATGCTG 
GAGGAGGCAG AACAACTGTA TAAGAAGTGC AAACGCTACG ACCTTCTGAA CAAGTTCTAC 
CAGGCCTCAG ACCAGTGGCA GAAAGCTGTG GAGGTGGCGG AGCTCCACGA CCGTGTCCAC 
CTGCGCACCA CCTACTACAA CTACGCCAAG CACCTGGAGG CCAGCGCTGA CTGCGGCCAG 
GCCCTCAGTT ATTATGAGAA GTCAGACACC CACCGTTTTG AGGTTCCTAG GATGCTCTCG 
GAAGACCTGC AGTCCCTGGA GCTCTACATC AATAGGACGA AGGACAAGAC CCTCTGGAGA 
TGGTGGGCCC AGTATCTTGA GAGCCAGGCA GAGATGGACA CTGCACTGCG CTACTACGAG 
CTGGCGCAGG ACTACTTCTC CCTGGTCCGC ATTCACTGCT TCCAGGGCAA CATTCAGAAG 
GCTGCTGAAA TAGCCAACGA GACTGGAGAC TGGGCTGCAT CCTACCACCT TGCCCGGCAG 
TACGAGAGCC AGGATGAGGT AAAACAGGCA GTGCACTTCT ACACTCGGGC ACAGGCTTTC 
AACAACGCCA TCCGCCTGTG CAAGGAGAAT GCCTTAGATG ACCAACTCAT GAACTTGGCC 
CTGTTGAGTT CCCCAGAGGA CATGATTGAG GCAGCCCGGT ATTATGAGGA GAAGGGCGAG 
CAGATGGACA GGGCTGTCAT GCTGTACCAC AAGGCTGGAC ACTTTTCCAA GGCCCTGGAG 
CTGGCCTTCA GCACCCAGCA GTTTGCAGCA CTACAGCTCA TAGCCGAGGA CCTGGATGAG 
AGGTCAGACC CTGCTCTTCT GGCCCGCTGC TCAGACTTCT GCATTGAGCA CAGACAGTTT 
GAAAAGGCTG TGGAGCTTCT CCTGGCTGCC AAGAAGTACC ATGAGGCTCT GCAGCTGTGC 
CTAGAGCAGA ACATGACCAT CACTGAGGAC ATGGCAGAGA AGATGACTGT GTCCAAGGAC 
TCAAAGGAGC TGTCTGAGGA GTCCCGGCGG GAGCTTCTGG AGCAGATCGC CAACTGCTGT 
ATGCGCCAGG GCAACTATCA CCTGGCCACC AAGAAGTACA CACAGGCTGG GGACAAGCTG 
AAGGCCATGA GAGCACTGCT CAAATCTGGA GACACAGAGA AAATTGTGTT CTTTGCGGGT 
GTCTCAAGAC AGAAGGAAAT CTACATCATG GCTGCCAATT ACCTGCAGTC CCTGGACTGG 
CGGAAGGAGC CGGAGATCAT GAAGAGTATC ATTAGCTTCT ACACCAAAGG GCGGGCCTTG 
GACCTCCTGG CTGGCTTCTA TGATGCCTGT GCCCAGGTGG AGATTGACGA ATACCAGAAC 
TATGACAAGG CCCATGGAGC ACTGACTGAG GCCTATAAGT GCCTGTCCAA AGCCAAGGCC 
AAGAGCCCCC TGGACCAGGA GACCAAGCTA GCCCAGCTAC AGAGCAAGAT GACGCTGGTG 
AAGAGGTTCA TCCAGGCCCG AAGGACATAC ACAGAGGACC CCAAAGAGTC CATCAGGCAG 
TGTGAGCTGC TCCTAGAAGA GCCAGACCTG GACAGCACCA TCCGTGTCGG AGACGTCTAT 
GGCTTCCTGG TGGAACACCA TGTACAGATG GAGGAATACC AGATGGCCTA TAAGTATCTT 
GAGGAGATGA GGAAAAGACT TCCTTCAGCC AACATGTCAT ACTATGTGGA CCAGCGCACT 
GTGGACACTG TGCACCAGGG CCTGGGCCTC CTCCCTCCAT CTCGTATCAT GCCCGAGCGG 
GTCCGCCACA ATAGCATGGA GGACCATAAG GAGGTGTACG AGGAGGTGAT AGAAGAGGTG 
GACAATGACC CCTGA

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

RefSeq	XP_021041711.1
CDS	847..5241
Translation	MALYFDHRIKAPDTPSSPSHITWHPTHPFLAVASISPSSGGNVDIYLEQGEPVPDTHIERSFQATSLCWHPTRLILAIGWETGEVIMFNKQDKEQHTVPLPHTTDIAILSWSTSGSCLVSGDKLGVLLLWRLDQRGRVQGTPLLKHEYGKALTHCIFRLPPPGEDLVQLAKAAVSGDEKALDMFNWRKSSFGSFLKTGSQEGLSFFVSLMDGTVHYVDEKGKTAQVASTDSSIQTLFYIERREALVVVTENLLLSLYVVTPEGEAEEVMKVKLSGKTGCRADITLIEGSLLVTAIGEPVLRFWDLERGENYILSLQEKFGFEKGESMNCVCFCKAKGLLAAGTHKGRVAMWKKVPSFPNGRGAEGKDMWALQTPTELEGNITQIKWGSRKNLLAVSSTESVSILSEQAMSSHFHQQVAAVQISPSLVNVSFLSTGGTHSLRTDMHISGVFATKDAVAVWNGKQVAIFEPSGSTLRNAGTFLCETSVLAMHEESIYTVEPNRLQVRTWQGTVKQLLLFSETEGSPCLLDVCGTFLVAGTDLAHFKSFDLSRREAKVHCSCKNLAQLVPDVGSITSLRCNANGNKISILLSKVDNSPDSKIYIYDVEMDTVNVFNFTTGQIGQIQILPFNEPPTNETRSFMDESLAGYTPVNHFWDQSEPRLFVCEALQEAPGAQPQAVDKQPHVEEGTCHKEAVLILSFFASEEHGFLLHDSFPRPSTYQSLLGMEVPHYYFTKKPGEADKEDRMDSGYYHIPQMVAKRPLRDFVGLEDCDKSTRDAMLNFSFFVTIGDMDEAFKSIKLIKSEAVWENMARMCVKTQRLDVAKVCLGNMGHARGARALREAEREPELEARVAMLAIQLGMLEEAEQLYKKCKRYDLLNKFYQASDQWQKAVEVAELHDRVHLRTTYYNYAKHLEASADCGQALSYYEKSDTHRFEVPRMLSEDLQSLELYINRTKDKTLWRWWAQYLESQAEMDTALRYYELAQDYFSLVRIHCFQGNIQKAAEIANETGDWAASYHLARQYESQDEVKQAVHFYTRAQAFNNAIRLCKENALDDQLMNLALLSSPEDMIEAARYYEEKGEQMDRAVMLYHKAGHFSKALELAFSTQQFAALQLIAEDLDERSDPALLARCSDFCIEHRQFEKAVELLLAAKKYHEALQLCLEQNMTITEDMAEKMTVSKDSKELSEESRRELLEQIANCCMRQGNYHLATKKYTQAGDKLKAMRALLKSGDTEKIVFFAGVSRQKEIYIMAANYLQSLDWRKEPEIMKSIISFYTKGRALDLLAGFYDACAQVEIDEYQNYDKAHGALTEAYKCLSKAKAKSPLDQETKLAQLQSKMTLVKRFIQARRTYTEDPKESIRQCELLLEEPDLDSTIRVGDVYGFLVEHHVQMEEYQMAYKYLEEMRKRLPSANMSYYVDQRTVDTVHQGLGLLPPSRIMPERVRHNSMEDHKEVYEEVIEEVDNDP

Target ORF information:

RefSeq Version	XM_021186052.1
Organism	Mus caroli(Ryukyu mouse)
Definition	Mus caroli intraflagellar transport 140 (Ift140), transcript variant X1, mRNA.

Target ORF information:

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

XM_021186052.1

ORF Insert Sequence:

ATGGCGCTGT ATTTTGACCA CCGAATCAAA GCTCCAGACA CACCCAGCTC TCCCTCCCAC 
ATCACCTGGC ACCCCACCCA CCCATTCCTG GCAGTCGCAT CTATAAGCCC ATCTTCTGGA 
GGCAACGTAG ACATCTACCT TGAGCAAGGT GAGCCCGTGC CTGACACCCA CATTGAGAGG 
TCTTTCCAGG CCACTTCACT GTGCTGGCAC CCAACAAGGC TTATCCTGGC TATTGGCTGG 
GAAACTGGAG AAGTGATAAT GTTTAATAAG CAGGACAAGG AGCAGCACAC AGTGCCCCTG 
CCACATACGA CTGACATTGC CATCCTCAGC TGGAGCACCA GTGGGAGCTG TCTGGTATCT 
GGAGATAAGC TTGGGGTCCT GCTCTTGTGG AGATTGGACC AGCGAGGCCG AGTACAGGGA 
ACACCACTCC TGAAACACGA ATATGGGAAA GCACTGACCC ATTGCATCTT CCGGCTCCCC 
CCTCCTGGGG AGGATCTGGT TCAGTTGGCA AAGGCAGCAG TAAGCGGGGA TGAGAAAGCC 
CTGGACATGT TTAACTGGAG AAAAAGCAGC TTTGGAAGTT TCCTGAAAAC GGGATCTCAG 
GAGGGGCTGT CTTTCTTTGT CAGTCTCATG GATGGCACAG TGCACTATGT GGATGAAAAG 
GGCAAGACTG CCCAGGTGGC ATCCACAGAC AGCTCCATCC AGACCCTGTT CTACATTGAG 
AGGAGAGAGG CACTGGTTGT GGTCACAGAG AACCTTCTCC TGTCTCTGTA TGTGGTGACT 
CCTGAGGGAG AAGCTGAAGA AGTCATGAAG GTAAAGTTGA GTGGGAAGAC AGGCTGCCGG 
GCAGATATCA CTTTGATAGA GGGCAGCCTT CTCGTGACAG CTATTGGGGA GCCTGTGCTC 
AGGTTCTGGG ACTTAGAACG GGGAGAGAAT TACATACTGA GTCTACAGGA GAAGTTTGGC 
TTTGAAAAGG GAGAGAGTAT GAACTGTGTG TGTTTCTGTA AAGCCAAAGG TCTCCTAGCA 
GCGGGTACCC ATAAAGGACG AGTAGCTATG TGGAAAAAAG TGCCAAGCTT TCCAAATGGC 
CGTGGGGCGG AGGGCAAGGA CATGTGGGCC CTTCAGACCC CTACTGAGCT TGAAGGGAAC 
ATCACACAGA TAAAGTGGGG CTCCAGGAAG AACCTTCTGG CAGTGAGCAG CACCGAGTCT 
GTGTCCATCC TCAGTGAGCA AGCCATGTCG TCACACTTCC ACCAGCAAGT AGCTGCCGTG 
CAGATCTCCC CGAGCCTAGT CAACGTGTCT TTCCTGTCCA CGGGGGGCAC ACACAGCCTG 
CGCACCGACA TGCACATCAG TGGAGTGTTT GCCACCAAGG ATGCTGTGGC TGTCTGGAAT 
GGAAAGCAGG TGGCGATCTT TGAACCCTCA GGATCCACCT TAAGGAATGC AGGGACATTC 
CTGTGTGAAA CATCAGTGCT AGCCATGCAT GAGGAAAGCA TTTACACCGT GGAGCCAAAC 
CGACTCCAAG TCCGGACCTG GCAGGGAACT GTCAAACAAC TTCTGCTATT CTCTGAGACC 
GAGGGGAGCC CCTGCTTGCT GGATGTCTGT GGGACTTTCC TGGTTGCAGG GACAGATTTA 
GCTCATTTCA AAAGTTTTGA TCTTTCCAGA AGGGAAGCAA AAGTGCACTG CAGCTGCAAG 
AACCTGGCCC AGCTGGTCCC TGATGTGGGG AGCATCACTT CTCTGAGATG CAATGCAAAT 
GGGAACAAGA TCAGCATCCT CCTCAGCAAG GTCGACAACA GCCCTGATTC CAAAATCTAC 
ATCTATGATG TTGAAATGGA CACAGTGAAT GTCTTCAACT TCACGACTGG ACAGATTGGA 
CAGATACAGA TTCTGCCCTT TAATGAGCCG CCGACTAATG AGACACGTTC CTTTATGGAC 
GAGAGCCTAG CAGGTTACAC GCCGGTGAAC CATTTCTGGG ATCAGAGTGA GCCCAGGCTC 
TTTGTGTGCG AGGCCTTGCA GGAGGCCCCT GGAGCCCAGC CACAGGCTGT AGACAAGCAG 
CCCCATGTAG AGGAGGGCAC ATGCCACAAG GAAGCCGTGT TGATTCTCTC CTTCTTTGCT 
TCTGAAGAAC ATGGCTTTCT GCTCCATGAC AGCTTCCCCC GGCCTTCAAC CTACCAGAGC 
CTTCTGGGCA TGGAAGTGCC TCACTATTAC TTCACAAAAA AGCCTGGAGA AGCAGACAAA 
GAAGACAGGA TGGATTCTGG GTACTACCAC ATCCCTCAGA TGGTAGCCAA GAGGCCCCTA 
CGAGACTTTG TGGGGCTGGA GGACTGTGAC AAGTCTACTC GGGATGCCAT GCTCAACTTC 
AGCTTCTTTG TCACCATTGG AGACATGGAT GAAGCTTTCA AATCTATCAA ACTCATCAAG 
AGTGAGGCTG TCTGGGAGAA CATGGCACGT ATGTGTGTGA AGACTCAACG GCTGGATGTT 
GCCAAGGTGT GCCTAGGGAA CATGGGCCAT GCCCGTGGGG CCCGAGCACT GCGGGAAGCT 
GAGCGGGAGC CAGAACTGGA AGCCAGAGTG GCCATGCTGG CCATACAGCT GGGCATGCTG 
GAGGAGGCAG AACAACTGTA TAAGAAGTGC AAACGCTACG ACCTTCTGAA CAAGTTCTAC 
CAGGCCTCAG ACCAGTGGCA GAAAGCTGTG GAGGTGGCGG AGCTCCACGA CCGTGTCCAC 
CTGCGCACCA CCTACTACAA CTACGCCAAG CACCTGGAGG CCAGCGCTGA CTGCGGCCAG 
GCCCTCAGTT ATTATGAGAA GTCAGACACC CACCGTTTTG AGGTTCCTAG GATGCTCTCG 
GAAGACCTGC AGTCCCTGGA GCTCTACATC AATAGGACGA AGGACAAGAC CCTCTGGAGA 
TGGTGGGCCC AGTATCTTGA GAGCCAGGCA GAGATGGACA CTGCACTGCG CTACTACGAG 
CTGGCGCAGG ACTACTTCTC CCTGGTCCGC ATTCACTGCT TCCAGGGCAA CATTCAGAAG 
GCTGCTGAAA TAGCCAACGA GACTGGAGAC TGGGCTGCAT CCTACCACCT TGCCCGGCAG 
TACGAGAGCC AGGATGAGGT AAAACAGGCA GTGCACTTCT ACACTCGGGC ACAGGCTTTC 
AACAACGCCA TCCGCCTGTG CAAGGAGAAT GCCTTAGATG ACCAACTCAT GAACTTGGCC 
CTGTTGAGTT CCCCAGAGGA CATGATTGAG GCAGCCCGGT ATTATGAGGA GAAGGGCGAG 
CAGATGGACA GGGCTGTCAT GCTGTACCAC AAGGCTGGAC ACTTTTCCAA GGCCCTGGAG 
CTGGCCTTCA GCACCCAGCA GTTTGCAGCA CTACAGCTCA TAGCCGAGGA CCTGGATGAG 
AGGTCAGACC CTGCTCTTCT GGCCCGCTGC TCAGACTTCT GCATTGAGCA CAGACAGTTT 
GAAAAGGCTG TGGAGCTTCT CCTGGCTGCC AAGAAGTACC ATGAGGCTCT GCAGCTGTGC 
CTAGAGCAGA ACATGACCAT CACTGAGGAC ATGGCAGAGA AGATGACTGT GTCCAAGGAC 
TCAAAGGAGC TGTCTGAGGA GTCCCGGCGG GAGCTTCTGG AGCAGATCGC CAACTGCTGT 
ATGCGCCAGG GCAACTATCA CCTGGCCACC AAGAAGTACA CACAGGCTGG GGACAAGCTG 
AAGGCCATGA GAGCACTGCT CAAATCTGGA GACACAGAGA AAATTGTGTT CTTTGCGGGT 
GTCTCAAGAC AGAAGGAAAT CTACATCATG GCTGCCAATT ACCTGCAGTC CCTGGACTGG 
CGGAAGGAGC CGGAGATCAT GAAGAGTATC ATTAGCTTCT ACACCAAAGG GCGGGCCTTG 
GACCTCCTGG CTGGCTTCTA TGATGCCTGT GCCCAGGTGG AGATTGACGA ATACCAGAAC 
TATGACAAGG CCCATGGAGC ACTGACTGAG GCCTATAAGT GCCTGTCCAA AGCCAAGGCC 
AAGAGCCCCC TGGACCAGGA GACCAAGCTA GCCCAGCTAC AGAGCAAGAT GACGCTGGTG 
AAGAGGTTCA TCCAGGCCCG AAGGACATAC ACAGAGGACC CCAAAGAGTC CATCAGGCAG 
TGTGAGCTGC TCCTAGAAGA GCCAGACCTG GACAGCACCA TCCGTGTCGG AGACGTCTAT 
GGCTTCCTGG TGGAACACCA TGTACAGATG GAGGAATACC AGATGGCCTA TAAGTATCTT 
GAGGAGATGA GGAAAAGACT TCCTTCAGCC AACATGTCAT ACTATGTGGA CCAGCGCACT 
GTGGACACTG TGCACCAGGG CCTGGGCCTC CTCCCTCCAT CTCGTATCAT GCCCGAGCGG 
GTCCGCCACA ATAGCATGGA GGACCATAAG GAGGTGTACG AGGAGGTGAT AGAAGAGGTG 
GACAATGACC CCTGA