Drosha cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Drosha
Entrez Gene ID	103736220
Full Name	drosha ribonuclease III
Gene Type	protein-coding
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008835690.3	XP_008833912.1	ribonuclease 3
XM_008835690.2	XP_008833912.1	ribonuclease 3

Pathways from BioSystems
Gene Ontology

The following Drosha gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Drosha 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)
ONa27210	XM_008835690.3 Latest version!	Nannospalax galili drosha ribonuclease III (Drosha), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
View Old Accession Versions >>
ONa27210	XM_008835690.2	Nannospalax galili drosha ribonuclease III (Drosha), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
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)

Drosha ( XM_008835690.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008833912.1 Nannospalax galili drosha ribonuclease III (Drosha), mRNA.

Price & Availability↑

CloneID	ONa27210
Clone ID Related Accession (Same CDS sequence)	XM_008835690.3 , XM_008835690.2
Accession Version	XM_008835690.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4014bp) 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	2019-06-23
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	ribonuclease 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329320.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008835690.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGATGCAAG GCAATACATG TCATAGAATG CCGTTCCACC CAGGACGAGG GTGTCCCCGG 
GGACGAGGAG GACATGGAGC CAGACCCTCA GCACCAGCCT TCAGGCCCCA AAATTTGAGA 
CTTCTTCACC CTCAGCAACC TCCTGTGCAA TATCAATATG ATCCTCCAAG TGCCCCTTCC 
ACCACATTCT CGAACTCTCC AGCCCCGAAT TTTATGCCTC CACGACCAGA TTTTGTACCC 
TTCCCCCCAC CCATACCACC ATCAGCACAA GGCCCTCTCC CACCCTGCCC AGTTAGGCCC 
CCTTTCCCCA ACCACCAGAT GAGGCACCCT TTCCCGATGC CTCCCTGTTT TCCACCTATG 
CCCCCTCCAA TGCCTTGTCC TAATAATACC CCAGTCCCTG GGGTACCTCC TGGACAAGGC 
ACTTTCCCCT TCATGATGCC CCCGCCCTCT ATGCCCCACC CTCCACCCCC TCCTGTGATG 
CCCCAGCAGG TTAATTATCA GTATCCTCCT GGGTACTCGC ATAGTTTCCC ACCTCCCAAT 
TTTAATAGTT TTCAGAACAA CTCCAGTTCT TTCCCGTCCA GTGCTAATAA TAGCAGTAGT 
CCTCATTTTA GGCATCTCCC TCCATACCCA CTCCCAAAGG CTCAGAGTGA GAGAAGGTCC 
CCAGAAAGAC TCAAGCACTA TGATGATCAC AGACACCGAG ATCACAGTCA TGGGCGAGGC 
GAGAGGCACA GGTCCCTGGA GCGCCGAGAG CGAGGCCGCA GCCCGGAAAG GAGAAGACCG 
GACAGTCGCT ACAGATCAGA TTATGATCGA GGGAGAACAC CAACTCGACA CCGCAGCTAC 
GAGAGGAACA GAGAGCGGGA ACGAGAGAGA CACAGGCACC GGGACAGCCG AAGATCACCG 
TCTCTGGAAA GGTCCTACAA AAAAGAGTAT AAGAGATCTG GAAGGAGTTA TGGTTTGCCA 
GTTGTTCCTG AACCTGCTGG ATGCACACCA GAATTACCTG GGGAGATTAT TAAAAATACA 
GATTCTTGGG CCCCATCCCC GGAGATTATG AATCATCACT CCCCAAGCAG GGAGAAGAAG 
AGAGCTCGCT GGGAGGAGGA AAAAGACAGA TGGAGTGATA GCCAGAGCTC TGGCAAAGAG 
AAGAATTATA CTTCCATCAA AGAAAAAGAG CCAGAGGAGA TACCACCTGA CAAAAACGAG 
GAGGAGGAGG AAGAACTTCT TAAGCCTGTG TGGATTCGAT GTACCCATTC AGAAAGTTAC 
TACTCCAGCG ACCCCATGGA TCAGGTGGGA GATTCTACTG TAGTTGGAAC AAGTAGGCTC 
CGTGATTTAT ATGACAAATT TGAAGAAGAG TTGGGGAACA GGCAAGAAAA GGCCAAAGCC 
GCTAGGCCTC CATGGGAACC TCCGAAGACA AAGCTGGATG AAGATTTAGA GAGTTCCAGT 
GAATCTGAAT GCGAGTCTGA TGAGGATAGC ACCTGTTCTA GCAGCTCGGA CTCGGAGGTT 
TTTGATGTTA TTGCAGAGAT TAAACGCAAA AAGGCTCACC CTGACCGACT TCATGATGAA 
CTTTGGTACA ACGACCCGGG CCAGATGAAT GATGGACCAC TTTGCAAATG CAGTGCAAAA 
GCGAGACGCA CAGGAATTCG GCACAGCATT TATCCTGGAG AGGAGGCAAT CAAGCCCTGT 
CGTCCTATGA CCAACAATGC TGGACGACTC TTCCACTATC GGATCACCGT CTCCCCTCCT 
ACCAACTTTT TGACCGACAG GCCAACAGTT ATAGAATATG ATGATCATGA GTATATCTTT 
GAAGGATTTT CCATGTTTGC ACATGCCCCA CTGACCAATA TTCCACTGTG TAAAGTAATT 
AGATTCAACA TAGACTACAC GATTCATTTC ATTGAAGAGA TGATGCCTGA GAATTTTTGT 
GTGAAAGGGC TTGAACTGTT TTCACTGTTC CTATTCAGAG ATATCTTGGA ATTATATGAC 
TGGAATCTTA AAGGTCCTTT GTTTGAAGAC AGCCCTCCCT GCTGCCCAAG ATTTCATTTC 
ATGCCACGCT TTGTAAGATT TCTTCCAGGT AATTTTTTTG CCTTGTCAGT GACCTGTTGT 
GTTCATCAGC GGGCCAAGGA GGCTGTAATT AAACCAAGCT CTGTCCGCAT CGATCAACTG 
GATCGTGAAC AGTTCAACCC TGATGTGATT ACTTTCCCAA TTATCGTCCA CTTTGGGATA 
CGCCCTGCAC AGTTGAGTTA TGCAGGAGAC CCACAGTACC AGAAACTATG GAAGAGTTAT 
GTGAAACTTC GCCATCTTCT AGCAAATAGT CCCAAAGTCA AACAAACTGA CAAGCAGAAG 
CTCGCACAGA GGGAGGAAGC ACTCCAAAAA ATACGACAGA AGAATACAAT GAGACGAGAG 
GTAACAGTGG AGCTAAGCAG CCAAGGATTC TGGAAAACCG GCATTCGTTC TGATGTCTGT 
CAGCATGCAA TGATGCTGCC AGTTCTGACC CATCATATCC GCTACCACCA GTGCCTAATG 
CACCTGGACA AGTTGATAGG ATATACTTTC CAAGATCGCT GTCTGCTACA GCTGGCCATG 
ACTCATCCAA GTCATCATTT AAATTTTGGA ATGAATCCTG ATCATGCCCG GAATTCTCTG 
TCTAATTGTG GAATTCGACA GCCAAAATAT GGAGATAGAA AAGTTCATCA CATGCACATG 
CGAAAAAAAG GAATTAACAC CCTTATAAAT ATTATGTCAC GCCTTGGCCA AGATGATCCA 
ACTCCTTCAA GGATTAATCA CAATGAAAGG TTGGAGTTCC TGGGTGATGC TGTTGTTGAG 
TTTCTGACCA GTGTGCATCT GTACTATTTG TTTCCTAGTC TGGAAGAAGG AGGCTTAGCA 
ACCTATCGGA CCGCCATTGT TCAGAATCAG CACCTCGCCA TGCTTGCAAA GAAACTTGAA 
CTGGATCGAT TTATGCTGTA TGCTCATGGA CCTGACCTGT GTAGAGAATC AGACCTCCGT 
CATGCAATGG CCAATTGTTT TGAGGCATTG ATAGGAGCTG TTTACTTGGA GGGAAGCCTG 
GAGGAAGCCA AACAGTTATT TGGACGCTTG CTCTTTAATG ATCCGGACCT GCGAGAAGTC 
TGGCTCAATT ATCCTCTCCA CCCACTCCAA CTGCAAGAGC CAAATACAGA TCGACAACTT 
ATTGAAACTT CTCCAGTTCT ACAGAAACTT ACTGAGTTTG AAGAAGCAAT TGGTGTAATT 
TTTACTCATG TTCGACTTCT GGCCAGGGCA TTCACATTGA GAACTGTGGG ATTCAATCAT 
CTGACCCTAG GCCACAATCA GAGGATGGAG TTTCTAGGTG ATTCCATCAT GCAGCTAGTA 
GCCACAGAGT ACTTATTCAT TCATTTCCCA GACCACCATG AAGGACACTT AACTTTGTTA 
CGAAGTTCTT TAGTGAATAA CAGAACTCAA GCCAAGGTGG CAGAGGAGCT GGGCATGCAA 
GAGTACGCCA TCACCAACGA CAAAACCAAG AGGCCTGTGG CCCTGAGGAC CAAGACGTTG 
GCAGACCTTC TGGAATCGTT CATTGCAGCA TTGTACATTG ATAAGGATCT GGAATATGTT 
CACACTTTCA TGAATGTCTG TTTCTTTCCA CGATTAAAAG AGTTCATTCT GAATCAAGAT 
TGGAATGACC CCAAGTCCCA GCTGCAGCAG TGTTGCTTGA CCCTTAGGAC GGAAGGAAAA 
GAGCCAGACA TTCCTTTATA TAAAACTCTG CAGACAGTGG GGCCATCCCA TGCTAGAACC 
TACACTGTGG CTGTTTATTT CAAGGGAGAA AGGATAGGCT GTGGGAAAGG ACCGAGTATT 
CAACAGGCAG AAATGGGAGC AGCAATGGAT GCACTTGAAA AATATAACTT TCCCCAGATG 
GCCCATCAGA AGCGGTTCAT TGAACGGAAA TACAGACAAG AGTTAAAAGA AATGAGGTGG 
GAAAGAGAGC ATCAGGAGAG AGAGCCAGAT GAGGCTGAAG ACATAAAGAA GTGA

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

RefSeq	XP_008833912.1
CDS	315..4328
Translation	MMQGNTCHRMPFHPGRGCPRGRGGHGARPSAPAFRPQNLRLLHPQQPPVQYQYDPPSAPSTTFSNSPAPNFMPPRPDFVPFPPPIPPSAQGPLPPCPVRPPFPNHQMRHPFPMPPCFPPMPPPMPCPNNTPVPGVPPGQGTFPFMMPPPSMPHPPPPPVMPQQVNYQYPPGYSHSFPPPNFNSFQNNSSSFPSSANNSSSPHFRHLPPYPLPKAQSERRSPERLKHYDDHRHRDHSHGRGERHRSLERRERGRSPERRRPDSRYRSDYDRGRTPTRHRSYERNRERERERHRHRDSRRSPSLERSYKKEYKRSGRSYGLPVVPEPAGCTPELPGEIIKNTDSWAPSPEIMNHHSPSREKKRARWEEEKDRWSDSQSSGKEKNYTSIKEKEPEEIPPDKNEEEEEELLKPVWIRCTHSESYYSSDPMDQVGDSTVVGTSRLRDLYDKFEEELGNRQEKAKAARPPWEPPKTKLDEDLESSSESECESDEDSTCSSSSDSEVFDVIAEIKRKKAHPDRLHDELWYNDPGQMNDGPLCKCSAKARRTGIRHSIYPGEEAIKPCRPMTNNAGRLFHYRITVSPPTNFLTDRPTVIEYDDHEYIFEGFSMFAHAPLTNIPLCKVIRFNIDYTIHFIEEMMPENFCVKGLELFSLFLFRDILELYDWNLKGPLFEDSPPCCPRFHFMPRFVRFLPGNFFALSVTCCVHQRAKEAVIKPSSVRIDQLDREQFNPDVITFPIIVHFGIRPAQLSYAGDPQYQKLWKSYVKLRHLLANSPKVKQTDKQKLAQREEALQKIRQKNTMRREVTVELSSQGFWKTGIRSDVCQHAMMLPVLTHHIRYHQCLMHLDKLIGYTFQDRCLLQLAMTHPSHHLNFGMNPDHARNSLSNCGIRQPKYGDRKVHHMHMRKKGINTLINIMSRLGQDDPTPSRINHNERLEFLGDAVVEFLTSVHLYYLFPSLEEGGLATYRTAIVQNQHLAMLAKKLELDRFMLYAHGPDLCRESDLRHAMANCFEALIGAVYLEGSLEEAKQLFGRLLFNDPDLREVWLNYPLHPLQLQEPNTDRQLIETSPVLQKLTEFEEAIGVIFTHVRLLARAFTLRTVGFNHLTLGHNQRMEFLGDSIMQLVATEYLFIHFPDHHEGHLTLLRSSLVNNRTQAKVAEELGMQEYAITNDKTKRPVALRTKTLADLLESFIAALYIDKDLEYVHTFMNVCFFPRLKEFILNQDWNDPKSQLQQCCLTLRTEGKEPDIPLYKTLQTVGPSHARTYTVAVYFKGERIGCGKGPSIQQAEMGAAMDALEKYNFPQMAHQKRFIERKYRQELKEMRWEREHQEREPDEAEDIKK

Target ORF information:

RefSeq Version	XM_008835690.3
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili drosha ribonuclease III (Drosha), mRNA.

Target ORF information:

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

XM_008835690.3

ORF Insert Sequence:

ATGATGCAAG GCAATACATG TCATAGAATG CCGTTCCACC CAGGACGAGG GTGTCCCCGG 
GGACGAGGAG GACATGGAGC CAGACCCTCA GCACCAGCCT TCAGGCCCCA AAATTTGAGA 
CTTCTTCACC CTCAGCAACC TCCTGTGCAA TATCAATATG ATCCTCCAAG TGCCCCTTCC 
ACCACATTCT CGAACTCTCC AGCCCCGAAT TTTATGCCTC CACGACCAGA TTTTGTACCC 
TTCCCCCCAC CCATACCACC ATCAGCACAA GGCCCTCTCC CACCCTGCCC AGTTAGGCCC 
CCTTTCCCCA ACCACCAGAT GAGGCACCCT TTCCCGATGC CTCCCTGTTT TCCACCTATG 
CCCCCTCCAA TGCCTTGTCC TAATAATACC CCAGTCCCTG GGGTACCTCC TGGACAAGGC 
ACTTTCCCCT TCATGATGCC CCCGCCCTCT ATGCCCCACC CTCCACCCCC TCCTGTGATG 
CCCCAGCAGG TTAATTATCA GTATCCTCCT GGGTACTCGC ATAGTTTCCC ACCTCCCAAT 
TTTAATAGTT TTCAGAACAA CTCCAGTTCT TTCCCGTCCA GTGCTAATAA TAGCAGTAGT 
CCTCATTTTA GGCATCTCCC TCCATACCCA CTCCCAAAGG CTCAGAGTGA GAGAAGGTCC 
CCAGAAAGAC TCAAGCACTA TGATGATCAC AGACACCGAG ATCACAGTCA TGGGCGAGGC 
GAGAGGCACA GGTCCCTGGA GCGCCGAGAG CGAGGCCGCA GCCCGGAAAG GAGAAGACCG 
GACAGTCGCT ACAGATCAGA TTATGATCGA GGGAGAACAC CAACTCGACA CCGCAGCTAC 
GAGAGGAACA GAGAGCGGGA ACGAGAGAGA CACAGGCACC GGGACAGCCG AAGATCACCG 
TCTCTGGAAA GGTCCTACAA AAAAGAGTAT AAGAGATCTG GAAGGAGTTA TGGTTTGCCA 
GTTGTTCCTG AACCTGCTGG ATGCACACCA GAATTACCTG GGGAGATTAT TAAAAATACA 
GATTCTTGGG CCCCATCCCC GGAGATTATG AATCATCACT CCCCAAGCAG GGAGAAGAAG 
AGAGCTCGCT GGGAGGAGGA AAAAGACAGA TGGAGTGATA GCCAGAGCTC TGGCAAAGAG 
AAGAATTATA CTTCCATCAA AGAAAAAGAG CCAGAGGAGA TACCACCTGA CAAAAACGAG 
GAGGAGGAGG AAGAACTTCT TAAGCCTGTG TGGATTCGAT GTACCCATTC AGAAAGTTAC 
TACTCCAGCG ACCCCATGGA TCAGGTGGGA GATTCTACTG TAGTTGGAAC AAGTAGGCTC 
CGTGATTTAT ATGACAAATT TGAAGAAGAG TTGGGGAACA GGCAAGAAAA GGCCAAAGCC 
GCTAGGCCTC CATGGGAACC TCCGAAGACA AAGCTGGATG AAGATTTAGA GAGTTCCAGT 
GAATCTGAAT GCGAGTCTGA TGAGGATAGC ACCTGTTCTA GCAGCTCGGA CTCGGAGGTT 
TTTGATGTTA TTGCAGAGAT TAAACGCAAA AAGGCTCACC CTGACCGACT TCATGATGAA 
CTTTGGTACA ACGACCCGGG CCAGATGAAT GATGGACCAC TTTGCAAATG CAGTGCAAAA 
GCGAGACGCA CAGGAATTCG GCACAGCATT TATCCTGGAG AGGAGGCAAT CAAGCCCTGT 
CGTCCTATGA CCAACAATGC TGGACGACTC TTCCACTATC GGATCACCGT CTCCCCTCCT 
ACCAACTTTT TGACCGACAG GCCAACAGTT ATAGAATATG ATGATCATGA GTATATCTTT 
GAAGGATTTT CCATGTTTGC ACATGCCCCA CTGACCAATA TTCCACTGTG TAAAGTAATT 
AGATTCAACA TAGACTACAC GATTCATTTC ATTGAAGAGA TGATGCCTGA GAATTTTTGT 
GTGAAAGGGC TTGAACTGTT TTCACTGTTC CTATTCAGAG ATATCTTGGA ATTATATGAC 
TGGAATCTTA AAGGTCCTTT GTTTGAAGAC AGCCCTCCCT GCTGCCCAAG ATTTCATTTC 
ATGCCACGCT TTGTAAGATT TCTTCCAGGT AATTTTTTTG CCTTGTCAGT GACCTGTTGT 
GTTCATCAGC GGGCCAAGGA GGCTGTAATT AAACCAAGCT CTGTCCGCAT CGATCAACTG 
GATCGTGAAC AGTTCAACCC TGATGTGATT ACTTTCCCAA TTATCGTCCA CTTTGGGATA 
CGCCCTGCAC AGTTGAGTTA TGCAGGAGAC CCACAGTACC AGAAACTATG GAAGAGTTAT 
GTGAAACTTC GCCATCTTCT AGCAAATAGT CCCAAAGTCA AACAAACTGA CAAGCAGAAG 
CTCGCACAGA GGGAGGAAGC ACTCCAAAAA ATACGACAGA AGAATACAAT GAGACGAGAG 
GTAACAGTGG AGCTAAGCAG CCAAGGATTC TGGAAAACCG GCATTCGTTC TGATGTCTGT 
CAGCATGCAA TGATGCTGCC AGTTCTGACC CATCATATCC GCTACCACCA GTGCCTAATG 
CACCTGGACA AGTTGATAGG ATATACTTTC CAAGATCGCT GTCTGCTACA GCTGGCCATG 
ACTCATCCAA GTCATCATTT AAATTTTGGA ATGAATCCTG ATCATGCCCG GAATTCTCTG 
TCTAATTGTG GAATTCGACA GCCAAAATAT GGAGATAGAA AAGTTCATCA CATGCACATG 
CGAAAAAAAG GAATTAACAC CCTTATAAAT ATTATGTCAC GCCTTGGCCA AGATGATCCA 
ACTCCTTCAA GGATTAATCA CAATGAAAGG TTGGAGTTCC TGGGTGATGC TGTTGTTGAG 
TTTCTGACCA GTGTGCATCT GTACTATTTG TTTCCTAGTC TGGAAGAAGG AGGCTTAGCA 
ACCTATCGGA CCGCCATTGT TCAGAATCAG CACCTCGCCA TGCTTGCAAA GAAACTTGAA 
CTGGATCGAT TTATGCTGTA TGCTCATGGA CCTGACCTGT GTAGAGAATC AGACCTCCGT 
CATGCAATGG CCAATTGTTT TGAGGCATTG ATAGGAGCTG TTTACTTGGA GGGAAGCCTG 
GAGGAAGCCA AACAGTTATT TGGACGCTTG CTCTTTAATG ATCCGGACCT GCGAGAAGTC 
TGGCTCAATT ATCCTCTCCA CCCACTCCAA CTGCAAGAGC CAAATACAGA TCGACAACTT 
ATTGAAACTT CTCCAGTTCT ACAGAAACTT ACTGAGTTTG AAGAAGCAAT TGGTGTAATT 
TTTACTCATG TTCGACTTCT GGCCAGGGCA TTCACATTGA GAACTGTGGG ATTCAATCAT 
CTGACCCTAG GCCACAATCA GAGGATGGAG TTTCTAGGTG ATTCCATCAT GCAGCTAGTA 
GCCACAGAGT ACTTATTCAT TCATTTCCCA GACCACCATG AAGGACACTT AACTTTGTTA 
CGAAGTTCTT TAGTGAATAA CAGAACTCAA GCCAAGGTGG CAGAGGAGCT GGGCATGCAA 
GAGTACGCCA TCACCAACGA CAAAACCAAG AGGCCTGTGG CCCTGAGGAC CAAGACGTTG 
GCAGACCTTC TGGAATCGTT CATTGCAGCA TTGTACATTG ATAAGGATCT GGAATATGTT 
CACACTTTCA TGAATGTCTG TTTCTTTCCA CGATTAAAAG AGTTCATTCT GAATCAAGAT 
TGGAATGACC CCAAGTCCCA GCTGCAGCAG TGTTGCTTGA CCCTTAGGAC GGAAGGAAAA 
GAGCCAGACA TTCCTTTATA TAAAACTCTG CAGACAGTGG GGCCATCCCA TGCTAGAACC 
TACACTGTGG CTGTTTATTT CAAGGGAGAA AGGATAGGCT GTGGGAAAGG ACCGAGTATT 
CAACAGGCAG AAATGGGAGC AGCAATGGAT GCACTTGAAA AATATAACTT TCCCCAGATG 
GCCCATCAGA AGCGGTTCAT TGAACGGAAA TACAGACAAG AGTTAAAAGA AATGAGGTGG 
GAAAGAGAGC ATCAGGAGAG AGAGCCAGAT GAGGCTGAAG ACATAAAGAA GTGA

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

Drosha ( XM_008835690.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008833912.1 Nannospalax galili drosha ribonuclease III (Drosha), mRNA.

Price & Availability↑

CloneID	ONa27210
Clone ID Related Accession (Same CDS sequence)	XM_008835690.3 , XM_008835690.2
Accession Version	XM_008835690.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4014bp) 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	2016-08-10
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Product	ribonuclease 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008329320.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008835690.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGATGCAAG GCAATACATG TCATAGAATG CCGTTCCACC CAGGACGAGG GTGTCCCCGG 
GGACGAGGAG GACATGGAGC CAGACCCTCA GCACCAGCCT TCAGGCCCCA AAATTTGAGA 
CTTCTTCACC CTCAGCAACC TCCTGTGCAA TATCAATATG ATCCTCCAAG TGCCCCTTCC 
ACCACATTCT CGAACTCTCC AGCCCCGAAT TTTATGCCTC CACGACCAGA TTTTGTACCC 
TTCCCCCCAC CCATACCACC ATCAGCACAA GGCCCTCTCC CACCCTGCCC AGTTAGGCCC 
CCTTTCCCCA ACCACCAGAT GAGGCACCCT TTCCCGATGC CTCCCTGTTT TCCACCTATG 
CCCCCTCCAA TGCCTTGTCC TAATAATACC CCAGTCCCTG GGGTACCTCC TGGACAAGGC 
ACTTTCCCCT TCATGATGCC CCCGCCCTCT ATGCCCCACC CTCCACCCCC TCCTGTGATG 
CCCCAGCAGG TTAATTATCA GTATCCTCCT GGGTACTCGC ATAGTTTCCC ACCTCCCAAT 
TTTAATAGTT TTCAGAACAA CTCCAGTTCT TTCCCGTCCA GTGCTAATAA TAGCAGTAGT 
CCTCATTTTA GGCATCTCCC TCCATACCCA CTCCCAAAGG CTCAGAGTGA GAGAAGGTCC 
CCAGAAAGAC TCAAGCACTA TGATGATCAC AGACACCGAG ATCACAGTCA TGGGCGAGGC 
GAGAGGCACA GGTCCCTGGA GCGCCGAGAG CGAGGCCGCA GCCCGGAAAG GAGAAGACCG 
GACAGTCGCT ACAGATCAGA TTATGATCGA GGGAGAACAC CAACTCGACA CCGCAGCTAC 
GAGAGGAACA GAGAGCGGGA ACGAGAGAGA CACAGGCACC GGGACAGCCG AAGATCACCG 
TCTCTGGAAA GGTCCTACAA AAAAGAGTAT AAGAGATCTG GAAGGAGTTA TGGTTTGCCA 
GTTGTTCCTG AACCTGCTGG ATGCACACCA GAATTACCTG GGGAGATTAT TAAAAATACA 
GATTCTTGGG CCCCATCCCC GGAGATTATG AATCATCACT CCCCAAGCAG GGAGAAGAAG 
AGAGCTCGCT GGGAGGAGGA AAAAGACAGA TGGAGTGATA GCCAGAGCTC TGGCAAAGAG 
AAGAATTATA CTTCCATCAA AGAAAAAGAG CCAGAGGAGA TACCACCTGA CAAAAACGAG 
GAGGAGGAGG AAGAACTTCT TAAGCCTGTG TGGATTCGAT GTACCCATTC AGAAAGTTAC 
TACTCCAGCG ACCCCATGGA TCAGGTGGGA GATTCTACTG TAGTTGGAAC AAGTAGGCTC 
CGTGATTTAT ATGACAAATT TGAAGAAGAG TTGGGGAACA GGCAAGAAAA GGCCAAAGCC 
GCTAGGCCTC CATGGGAACC TCCGAAGACA AAGCTGGATG AAGATTTAGA GAGTTCCAGT 
GAATCTGAAT GCGAGTCTGA TGAGGATAGC ACCTGTTCTA GCAGCTCGGA CTCGGAGGTT 
TTTGATGTTA TTGCAGAGAT TAAACGCAAA AAGGCTCACC CTGACCGACT TCATGATGAA 
CTTTGGTACA ACGACCCGGG CCAGATGAAT GATGGACCAC TTTGCAAATG CAGTGCAAAA 
GCGAGACGCA CAGGAATTCG GCACAGCATT TATCCTGGAG AGGAGGCAAT CAAGCCCTGT 
CGTCCTATGA CCAACAATGC TGGACGACTC TTCCACTATC GGATCACCGT CTCCCCTCCT 
ACCAACTTTT TGACCGACAG GCCAACAGTT ATAGAATATG ATGATCATGA GTATATCTTT 
GAAGGATTTT CCATGTTTGC ACATGCCCCA CTGACCAATA TTCCACTGTG TAAAGTAATT 
AGATTCAACA TAGACTACAC GATTCATTTC ATTGAAGAGA TGATGCCTGA GAATTTTTGT 
GTGAAAGGGC TTGAACTGTT TTCACTGTTC CTATTCAGAG ATATCTTGGA ATTATATGAC 
TGGAATCTTA AAGGTCCTTT GTTTGAAGAC AGCCCTCCCT GCTGCCCAAG ATTTCATTTC 
ATGCCACGCT TTGTAAGATT TCTTCCAGGT AATTTTTTTG CCTTGTCAGT GACCTGTTGT 
GTTCATCAGC GGGCCAAGGA GGCTGTAATT AAACCAAGCT CTGTCCGCAT CGATCAACTG 
GATCGTGAAC AGTTCAACCC TGATGTGATT ACTTTCCCAA TTATCGTCCA CTTTGGGATA 
CGCCCTGCAC AGTTGAGTTA TGCAGGAGAC CCACAGTACC AGAAACTATG GAAGAGTTAT 
GTGAAACTTC GCCATCTTCT AGCAAATAGT CCCAAAGTCA AACAAACTGA CAAGCAGAAG 
CTCGCACAGA GGGAGGAAGC ACTCCAAAAA ATACGACAGA AGAATACAAT GAGACGAGAG 
GTAACAGTGG AGCTAAGCAG CCAAGGATTC TGGAAAACCG GCATTCGTTC TGATGTCTGT 
CAGCATGCAA TGATGCTGCC AGTTCTGACC CATCATATCC GCTACCACCA GTGCCTAATG 
CACCTGGACA AGTTGATAGG ATATACTTTC CAAGATCGCT GTCTGCTACA GCTGGCCATG 
ACTCATCCAA GTCATCATTT AAATTTTGGA ATGAATCCTG ATCATGCCCG GAATTCTCTG 
TCTAATTGTG GAATTCGACA GCCAAAATAT GGAGATAGAA AAGTTCATCA CATGCACATG 
CGAAAAAAAG GAATTAACAC CCTTATAAAT ATTATGTCAC GCCTTGGCCA AGATGATCCA 
ACTCCTTCAA GGATTAATCA CAATGAAAGG TTGGAGTTCC TGGGTGATGC TGTTGTTGAG 
TTTCTGACCA GTGTGCATCT GTACTATTTG TTTCCTAGTC TGGAAGAAGG AGGCTTAGCA 
ACCTATCGGA CCGCCATTGT TCAGAATCAG CACCTCGCCA TGCTTGCAAA GAAACTTGAA 
CTGGATCGAT TTATGCTGTA TGCTCATGGA CCTGACCTGT GTAGAGAATC AGACCTCCGT 
CATGCAATGG CCAATTGTTT TGAGGCATTG ATAGGAGCTG TTTACTTGGA GGGAAGCCTG 
GAGGAAGCCA AACAGTTATT TGGACGCTTG CTCTTTAATG ATCCGGACCT GCGAGAAGTC 
TGGCTCAATT ATCCTCTCCA CCCACTCCAA CTGCAAGAGC CAAATACAGA TCGACAACTT 
ATTGAAACTT CTCCAGTTCT ACAGAAACTT ACTGAGTTTG AAGAAGCAAT TGGTGTAATT 
TTTACTCATG TTCGACTTCT GGCCAGGGCA TTCACATTGA GAACTGTGGG ATTCAATCAT 
CTGACCCTAG GCCACAATCA GAGGATGGAG TTTCTAGGTG ATTCCATCAT GCAGCTAGTA 
GCCACAGAGT ACTTATTCAT TCATTTCCCA GACCACCATG AAGGACACTT AACTTTGTTA 
CGAAGTTCTT TAGTGAATAA CAGAACTCAA GCCAAGGTGG CAGAGGAGCT GGGCATGCAA 
GAGTACGCCA TCACCAACGA CAAAACCAAG AGGCCTGTGG CCCTGAGGAC CAAGACGTTG 
GCAGACCTTC TGGAATCGTT CATTGCAGCA TTGTACATTG ATAAGGATCT GGAATATGTT 
CACACTTTCA TGAATGTCTG TTTCTTTCCA CGATTAAAAG AGTTCATTCT GAATCAAGAT 
TGGAATGACC CCAAGTCCCA GCTGCAGCAG TGTTGCTTGA CCCTTAGGAC GGAAGGAAAA 
GAGCCAGACA TTCCTTTATA TAAAACTCTG CAGACAGTGG GGCCATCCCA TGCTAGAACC 
TACACTGTGG CTGTTTATTT CAAGGGAGAA AGGATAGGCT GTGGGAAAGG ACCGAGTATT 
CAACAGGCAG AAATGGGAGC AGCAATGGAT GCACTTGAAA AATATAACTT TCCCCAGATG 
GCCCATCAGA AGCGGTTCAT TGAACGGAAA TACAGACAAG AGTTAAAAGA AATGAGGTGG 
GAAAGAGAGC ATCAGGAGAG AGAGCCAGAT GAGGCTGAAG ACATAAAGAA GTGA

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

RefSeq	XP_008833912.1
CDS	281..4294
Translation	MMQGNTCHRMPFHPGRGCPRGRGGHGARPSAPAFRPQNLRLLHPQQPPVQYQYDPPSAPSTTFSNSPAPNFMPPRPDFVPFPPPIPPSAQGPLPPCPVRPPFPNHQMRHPFPMPPCFPPMPPPMPCPNNTPVPGVPPGQGTFPFMMPPPSMPHPPPPPVMPQQVNYQYPPGYSHSFPPPNFNSFQNNSSSFPSSANNSSSPHFRHLPPYPLPKAQSERRSPERLKHYDDHRHRDHSHGRGERHRSLERRERGRSPERRRPDSRYRSDYDRGRTPTRHRSYERNRERERERHRHRDSRRSPSLERSYKKEYKRSGRSYGLPVVPEPAGCTPELPGEIIKNTDSWAPSPEIMNHHSPSREKKRARWEEEKDRWSDSQSSGKEKNYTSIKEKEPEEIPPDKNEEEEEELLKPVWIRCTHSESYYSSDPMDQVGDSTVVGTSRLRDLYDKFEEELGNRQEKAKAARPPWEPPKTKLDEDLESSSESECESDEDSTCSSSSDSEVFDVIAEIKRKKAHPDRLHDELWYNDPGQMNDGPLCKCSAKARRTGIRHSIYPGEEAIKPCRPMTNNAGRLFHYRITVSPPTNFLTDRPTVIEYDDHEYIFEGFSMFAHAPLTNIPLCKVIRFNIDYTIHFIEEMMPENFCVKGLELFSLFLFRDILELYDWNLKGPLFEDSPPCCPRFHFMPRFVRFLPGNFFALSVTCCVHQRAKEAVIKPSSVRIDQLDREQFNPDVITFPIIVHFGIRPAQLSYAGDPQYQKLWKSYVKLRHLLANSPKVKQTDKQKLAQREEALQKIRQKNTMRREVTVELSSQGFWKTGIRSDVCQHAMMLPVLTHHIRYHQCLMHLDKLIGYTFQDRCLLQLAMTHPSHHLNFGMNPDHARNSLSNCGIRQPKYGDRKVHHMHMRKKGINTLINIMSRLGQDDPTPSRINHNERLEFLGDAVVEFLTSVHLYYLFPSLEEGGLATYRTAIVQNQHLAMLAKKLELDRFMLYAHGPDLCRESDLRHAMANCFEALIGAVYLEGSLEEAKQLFGRLLFNDPDLREVWLNYPLHPLQLQEPNTDRQLIETSPVLQKLTEFEEAIGVIFTHVRLLARAFTLRTVGFNHLTLGHNQRMEFLGDSIMQLVATEYLFIHFPDHHEGHLTLLRSSLVNNRTQAKVAEELGMQEYAITNDKTKRPVALRTKTLADLLESFIAALYIDKDLEYVHTFMNVCFFPRLKEFILNQDWNDPKSQLQQCCLTLRTEGKEPDIPLYKTLQTVGPSHARTYTVAVYFKGERIGCGKGPSIQQAEMGAAMDALEKYNFPQMAHQKRFIERKYRQELKEMRWEREHQEREPDEAEDIKK

Target ORF information:

RefSeq Version	XM_008835690.2
Organism	Nannospalax galili(Upper Galilee mountains blind mole rat)
Definition	Nannospalax galili drosha ribonuclease III (Drosha), mRNA.

Target ORF information:

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

XM_008835690.2

ORF Insert Sequence:

ATGATGCAAG GCAATACATG TCATAGAATG CCGTTCCACC CAGGACGAGG GTGTCCCCGG 
GGACGAGGAG GACATGGAGC CAGACCCTCA GCACCAGCCT TCAGGCCCCA AAATTTGAGA 
CTTCTTCACC CTCAGCAACC TCCTGTGCAA TATCAATATG ATCCTCCAAG TGCCCCTTCC 
ACCACATTCT CGAACTCTCC AGCCCCGAAT TTTATGCCTC CACGACCAGA TTTTGTACCC 
TTCCCCCCAC CCATACCACC ATCAGCACAA GGCCCTCTCC CACCCTGCCC AGTTAGGCCC 
CCTTTCCCCA ACCACCAGAT GAGGCACCCT TTCCCGATGC CTCCCTGTTT TCCACCTATG 
CCCCCTCCAA TGCCTTGTCC TAATAATACC CCAGTCCCTG GGGTACCTCC TGGACAAGGC 
ACTTTCCCCT TCATGATGCC CCCGCCCTCT ATGCCCCACC CTCCACCCCC TCCTGTGATG 
CCCCAGCAGG TTAATTATCA GTATCCTCCT GGGTACTCGC ATAGTTTCCC ACCTCCCAAT 
TTTAATAGTT TTCAGAACAA CTCCAGTTCT TTCCCGTCCA GTGCTAATAA TAGCAGTAGT 
CCTCATTTTA GGCATCTCCC TCCATACCCA CTCCCAAAGG CTCAGAGTGA GAGAAGGTCC 
CCAGAAAGAC TCAAGCACTA TGATGATCAC AGACACCGAG ATCACAGTCA TGGGCGAGGC 
GAGAGGCACA GGTCCCTGGA GCGCCGAGAG CGAGGCCGCA GCCCGGAAAG GAGAAGACCG 
GACAGTCGCT ACAGATCAGA TTATGATCGA GGGAGAACAC CAACTCGACA CCGCAGCTAC 
GAGAGGAACA GAGAGCGGGA ACGAGAGAGA CACAGGCACC GGGACAGCCG AAGATCACCG 
TCTCTGGAAA GGTCCTACAA AAAAGAGTAT AAGAGATCTG GAAGGAGTTA TGGTTTGCCA 
GTTGTTCCTG AACCTGCTGG ATGCACACCA GAATTACCTG GGGAGATTAT TAAAAATACA 
GATTCTTGGG CCCCATCCCC GGAGATTATG AATCATCACT CCCCAAGCAG GGAGAAGAAG 
AGAGCTCGCT GGGAGGAGGA AAAAGACAGA TGGAGTGATA GCCAGAGCTC TGGCAAAGAG 
AAGAATTATA CTTCCATCAA AGAAAAAGAG CCAGAGGAGA TACCACCTGA CAAAAACGAG 
GAGGAGGAGG AAGAACTTCT TAAGCCTGTG TGGATTCGAT GTACCCATTC AGAAAGTTAC 
TACTCCAGCG ACCCCATGGA TCAGGTGGGA GATTCTACTG TAGTTGGAAC AAGTAGGCTC 
CGTGATTTAT ATGACAAATT TGAAGAAGAG TTGGGGAACA GGCAAGAAAA GGCCAAAGCC 
GCTAGGCCTC CATGGGAACC TCCGAAGACA AAGCTGGATG AAGATTTAGA GAGTTCCAGT 
GAATCTGAAT GCGAGTCTGA TGAGGATAGC ACCTGTTCTA GCAGCTCGGA CTCGGAGGTT 
TTTGATGTTA TTGCAGAGAT TAAACGCAAA AAGGCTCACC CTGACCGACT TCATGATGAA 
CTTTGGTACA ACGACCCGGG CCAGATGAAT GATGGACCAC TTTGCAAATG CAGTGCAAAA 
GCGAGACGCA CAGGAATTCG GCACAGCATT TATCCTGGAG AGGAGGCAAT CAAGCCCTGT 
CGTCCTATGA CCAACAATGC TGGACGACTC TTCCACTATC GGATCACCGT CTCCCCTCCT 
ACCAACTTTT TGACCGACAG GCCAACAGTT ATAGAATATG ATGATCATGA GTATATCTTT 
GAAGGATTTT CCATGTTTGC ACATGCCCCA CTGACCAATA TTCCACTGTG TAAAGTAATT 
AGATTCAACA TAGACTACAC GATTCATTTC ATTGAAGAGA TGATGCCTGA GAATTTTTGT 
GTGAAAGGGC TTGAACTGTT TTCACTGTTC CTATTCAGAG ATATCTTGGA ATTATATGAC 
TGGAATCTTA AAGGTCCTTT GTTTGAAGAC AGCCCTCCCT GCTGCCCAAG ATTTCATTTC 
ATGCCACGCT TTGTAAGATT TCTTCCAGGT AATTTTTTTG CCTTGTCAGT GACCTGTTGT 
GTTCATCAGC GGGCCAAGGA GGCTGTAATT AAACCAAGCT CTGTCCGCAT CGATCAACTG 
GATCGTGAAC AGTTCAACCC TGATGTGATT ACTTTCCCAA TTATCGTCCA CTTTGGGATA 
CGCCCTGCAC AGTTGAGTTA TGCAGGAGAC CCACAGTACC AGAAACTATG GAAGAGTTAT 
GTGAAACTTC GCCATCTTCT AGCAAATAGT CCCAAAGTCA AACAAACTGA CAAGCAGAAG 
CTCGCACAGA GGGAGGAAGC ACTCCAAAAA ATACGACAGA AGAATACAAT GAGACGAGAG 
GTAACAGTGG AGCTAAGCAG CCAAGGATTC TGGAAAACCG GCATTCGTTC TGATGTCTGT 
CAGCATGCAA TGATGCTGCC AGTTCTGACC CATCATATCC GCTACCACCA GTGCCTAATG 
CACCTGGACA AGTTGATAGG ATATACTTTC CAAGATCGCT GTCTGCTACA GCTGGCCATG 
ACTCATCCAA GTCATCATTT AAATTTTGGA ATGAATCCTG ATCATGCCCG GAATTCTCTG 
TCTAATTGTG GAATTCGACA GCCAAAATAT GGAGATAGAA AAGTTCATCA CATGCACATG 
CGAAAAAAAG GAATTAACAC CCTTATAAAT ATTATGTCAC GCCTTGGCCA AGATGATCCA 
ACTCCTTCAA GGATTAATCA CAATGAAAGG TTGGAGTTCC TGGGTGATGC TGTTGTTGAG 
TTTCTGACCA GTGTGCATCT GTACTATTTG TTTCCTAGTC TGGAAGAAGG AGGCTTAGCA 
ACCTATCGGA CCGCCATTGT TCAGAATCAG CACCTCGCCA TGCTTGCAAA GAAACTTGAA 
CTGGATCGAT TTATGCTGTA TGCTCATGGA CCTGACCTGT GTAGAGAATC AGACCTCCGT 
CATGCAATGG CCAATTGTTT TGAGGCATTG ATAGGAGCTG TTTACTTGGA GGGAAGCCTG 
GAGGAAGCCA AACAGTTATT TGGACGCTTG CTCTTTAATG ATCCGGACCT GCGAGAAGTC 
TGGCTCAATT ATCCTCTCCA CCCACTCCAA CTGCAAGAGC CAAATACAGA TCGACAACTT 
ATTGAAACTT CTCCAGTTCT ACAGAAACTT ACTGAGTTTG AAGAAGCAAT TGGTGTAATT 
TTTACTCATG TTCGACTTCT GGCCAGGGCA TTCACATTGA GAACTGTGGG ATTCAATCAT 
CTGACCCTAG GCCACAATCA GAGGATGGAG TTTCTAGGTG ATTCCATCAT GCAGCTAGTA 
GCCACAGAGT ACTTATTCAT TCATTTCCCA GACCACCATG AAGGACACTT AACTTTGTTA 
CGAAGTTCTT TAGTGAATAA CAGAACTCAA GCCAAGGTGG CAGAGGAGCT GGGCATGCAA 
GAGTACGCCA TCACCAACGA CAAAACCAAG AGGCCTGTGG CCCTGAGGAC CAAGACGTTG 
GCAGACCTTC TGGAATCGTT CATTGCAGCA TTGTACATTG ATAAGGATCT GGAATATGTT 
CACACTTTCA TGAATGTCTG TTTCTTTCCA CGATTAAAAG AGTTCATTCT GAATCAAGAT 
TGGAATGACC CCAAGTCCCA GCTGCAGCAG TGTTGCTTGA CCCTTAGGAC GGAAGGAAAA 
GAGCCAGACA TTCCTTTATA TAAAACTCTG CAGACAGTGG GGCCATCCCA TGCTAGAACC 
TACACTGTGG CTGTTTATTT CAAGGGAGAA AGGATAGGCT GTGGGAAAGG ACCGAGTATT 
CAACAGGCAG AAATGGGAGC AGCAATGGAT GCACTTGAAA AATATAACTT TCCCCAGATG 
GCCCATCAGA AGCGGTTCAT TGAACGGAAA TACAGACAAG AGTTAAAAGA AATGAGGTGG 
GAAAGAGAGC ATCAGGAGAG AGAGCCAGAT GAGGCTGAAG ACATAAAGAA GTGA