Robo2 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Robo2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Robo2 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
OMv32854 XM_021184412.2
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv32855 XM_021184413.2
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv32856 XM_021184414.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv69687 XM_029470227.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv69688 XM_029470228.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv69689 XM_029470229.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv69690 XM_029470230.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv69691 XM_029470232.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv32852 XM_021184410.2
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv32853 XM_021184411.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv69678 XM_029470218.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69679 XM_029470219.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69680 XM_029470220.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69681 XM_029470221.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69682 XM_029470222.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69683 XM_029470223.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69684 XM_029470224.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69685 XM_029470225.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv69686 XM_029470226.1
Latest version!
Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OMv32854 XM_021184412.1 Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv32855 XM_021184413.1 Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv32852 XM_021184410.1 Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
Hide Old Accession Versions >>

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
30% OFF

*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)
    CloneID OMv32854
    Clone ID Related Accession (Same CDS sequence) XM_021184412.2 , XM_021184412.1
    Accession Version XM_021184412.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4329bp)
    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 roundabout homolog 2 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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_021184412.1. ##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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG TTCAATGGTA
    AATGGATGGG GCTCTGCATC TGATGAGGAT CGTAACTTTT CTAGTCATAG ATCTAGTGTA
    GGTAGCTCCT CAGATGGCTC CATCTTTGCC AGCGGCAGCT TTGCAAAAGC ATTGGTGGCA
    GCAGCAGACA AAGCTGGCTT TAGGCTGGAT GGAACCAGTC TTACGAGAAC AGGAAAAGCC
    TTTACCTCCT CTCAAAGGCA GCGGCCCACC AGCCCGTTTT CTACAGACAG TAACACCAGT
    GCTGCCCAGA ATCAAAGCCA GAGGCCTCGG CCCACGAAAA AACATAAGGG AGGGCGGATG
    GACCCACAGC CAGCGTTACC TCATCGGAGG GAAGGGATGC CAGATGAGGA GTCCCTGGTG
    CCCTACAGCA AGCCCAGCTT CCCTTCTCCT GGGGGGCACA GCTCATCAGG AACATCCTCC
    TCTAAAGGGT CCACTGGCCC TCGGAAGGCC GACGTGCTGA GGGGCAGCCA CCAGAGGAAT
    GCCAATGACC TTCTCGACAT TGGATATGTG GGCTCAAATA GTCAAGGACA GTTTACAGGT
    GAATTGTAG

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

    RefSeq XP_021040071.1
    CDS915..5243
    Translation

    Target ORF information:

    RefSeq Version XM_021184412.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184412.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG TTCAATGGTA
    AATGGATGGG GCTCTGCATC TGATGAGGAT CGTAACTTTT CTAGTCATAG ATCTAGTGTA
    GGTAGCTCCT CAGATGGCTC CATCTTTGCC AGCGGCAGCT TTGCAAAAGC ATTGGTGGCA
    GCAGCAGACA AAGCTGGCTT TAGGCTGGAT GGAACCAGTC TTACGAGAAC AGGAAAAGCC
    TTTACCTCCT CTCAAAGGCA GCGGCCCACC AGCCCGTTTT CTACAGACAG TAACACCAGT
    GCTGCCCAGA ATCAAAGCCA GAGGCCTCGG CCCACGAAAA AACATAAGGG AGGGCGGATG
    GACCCACAGC CAGCGTTACC TCATCGGAGG GAAGGGATGC CAGATGAGGA GTCCCTGGTG
    CCCTACAGCA AGCCCAGCTT CCCTTCTCCT GGGGGGCACA GCTCATCAGG AACATCCTCC
    TCTAAAGGGT CCACTGGCCC TCGGAAGGCC GACGTGCTGA GGGGCAGCCA CCAGAGGAAT
    GCCAATGACC TTCTCGACAT TGGATATGTG GGCTCAAATA GTCAAGGACA GTTTACAGGT
    GAATTGTAG

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

    CloneID OMv32854
    Clone ID Related Accession (Same CDS sequence) XM_021184412.2 , XM_021184412.1
    Accession Version XM_021184412.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4329bp)
    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 roundabout homolog 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG TTCAATGGTA
    AATGGATGGG GCTCTGCATC TGATGAGGAT CGTAACTTTT CTAGTCATAG ATCTAGTGTA
    GGTAGCTCCT CAGATGGCTC CATCTTTGCC AGCGGCAGCT TTGCAAAAGC ATTGGTGGCA
    GCAGCAGACA AAGCTGGCTT TAGGCTGGAT GGAACCAGTC TTACGAGAAC AGGAAAAGCC
    TTTACCTCCT CTCAAAGGCA GCGGCCCACC AGCCCGTTTT CTACAGACAG TAACACCAGT
    GCTGCCCAGA ATCAAAGCCA GAGGCCTCGG CCCACGAAAA AACATAAGGG AGGGCGGATG
    GACCCACAGC CAGCGTTACC TCATCGGAGG GAAGGGATGC CAGATGAGGA GTCCCTGGTG
    CCCTACAGCA AGCCCAGCTT CCCTTCTCCT GGGGGGCACA GCTCATCAGG AACATCCTCC
    TCTAAAGGGT CCACTGGCCC TCGGAAGGCC GACGTGCTGA GGGGCAGCCA CCAGAGGAAT
    GCCAATGACC TTCTCGACAT TGGATATGTG GGCTCAAATA GTCAAGGACA GTTTACAGGT
    GAATTGTAG

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

    RefSeq XP_021040071.1
    CDS875..5203
    Translation

    Target ORF information:

    RefSeq Version XM_021184412.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184412.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG TTCAATGGTA
    AATGGATGGG GCTCTGCATC TGATGAGGAT CGTAACTTTT CTAGTCATAG ATCTAGTGTA
    GGTAGCTCCT CAGATGGCTC CATCTTTGCC AGCGGCAGCT TTGCAAAAGC ATTGGTGGCA
    GCAGCAGACA AAGCTGGCTT TAGGCTGGAT GGAACCAGTC TTACGAGAAC AGGAAAAGCC
    TTTACCTCCT CTCAAAGGCA GCGGCCCACC AGCCCGTTTT CTACAGACAG TAACACCAGT
    GCTGCCCAGA ATCAAAGCCA GAGGCCTCGG CCCACGAAAA AACATAAGGG AGGGCGGATG
    GACCCACAGC CAGCGTTACC TCATCGGAGG GAAGGGATGC CAGATGAGGA GTCCCTGGTG
    CCCTACAGCA AGCCCAGCTT CCCTTCTCCT GGGGGGCACA GCTCATCAGG AACATCCTCC
    TCTAAAGGGT CCACTGGCCC TCGGAAGGCC GACGTGCTGA GGGGCAGCCA CCAGAGGAAT
    GCCAATGACC TTCTCGACAT TGGATATGTG GGCTCAAATA GTCAAGGACA GTTTACAGGT
    GAATTGTAG

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

    CloneID OMv32855
    Clone ID Related Accession (Same CDS sequence) XM_021184413.1 , XM_021184413.2
    Accession Version XM_021184413.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4146bp)
    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 roundabout homolog 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG AAAAGCCTTT
    ACCTCCTCTC AAAGGCAGCG GCCCACCAGC CCGTTTTCTA CAGACAGTAA CACCAGTGCT
    GCCCAGAATC AAAGCCAGAG GCCTCGGCCC ACGAAAAAAC ATAAGGGAGG GCGGATGGAC
    CCACAGCCAG CGTTACCTCA TCGGAGGGAA GGGATGCCAG ATGAGGAGTC CCTGGTGCCC
    TACAGCAAGC CCAGCTTCCC TTCTCCTGGG GGGCACAGCT CATCAGGAAC ATCCTCCTCT
    AAAGGGTCCA CTGGCCCTCG GAAGGCCGAC GTGCTGAGGG GCAGCCACCA GAGGAATGCC
    AATGACCTTC TCGACATTGG ATATGTGGGC TCAAATAGTC AAGGACAGTT TACAGGTGAA
    TTGTAG

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

    RefSeq XP_021040072.1
    CDS875..5020
    Translation

    Target ORF information:

    RefSeq Version XM_021184413.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184413.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG AAAAGCCTTT
    ACCTCCTCTC AAAGGCAGCG GCCCACCAGC CCGTTTTCTA CAGACAGTAA CACCAGTGCT
    GCCCAGAATC AAAGCCAGAG GCCTCGGCCC ACGAAAAAAC ATAAGGGAGG GCGGATGGAC
    CCACAGCCAG CGTTACCTCA TCGGAGGGAA GGGATGCCAG ATGAGGAGTC CCTGGTGCCC
    TACAGCAAGC CCAGCTTCCC TTCTCCTGGG GGGCACAGCT CATCAGGAAC ATCCTCCTCT
    AAAGGGTCCA CTGGCCCTCG GAAGGCCGAC GTGCTGAGGG GCAGCCACCA GAGGAATGCC
    AATGACCTTC TCGACATTGG ATATGTGGGC TCAAATAGTC AAGGACAGTT TACAGGTGAA
    TTGTAG

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

    CloneID OMv32855
    Clone ID Related Accession (Same CDS sequence) XM_021184413.1 , XM_021184413.2
    Accession Version XM_021184413.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4146bp)
    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 roundabout homolog 2 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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_021184413.1. ##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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG AAAAGCCTTT
    ACCTCCTCTC AAAGGCAGCG GCCCACCAGC CCGTTTTCTA CAGACAGTAA CACCAGTGCT
    GCCCAGAATC AAAGCCAGAG GCCTCGGCCC ACGAAAAAAC ATAAGGGAGG GCGGATGGAC
    CCACAGCCAG CGTTACCTCA TCGGAGGGAA GGGATGCCAG ATGAGGAGTC CCTGGTGCCC
    TACAGCAAGC CCAGCTTCCC TTCTCCTGGG GGGCACAGCT CATCAGGAAC ATCCTCCTCT
    AAAGGGTCCA CTGGCCCTCG GAAGGCCGAC GTGCTGAGGG GCAGCCACCA GAGGAATGCC
    AATGACCTTC TCGACATTGG ATATGTGGGC TCAAATAGTC AAGGACAGTT TACAGGTGAA
    TTGTAG

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

    RefSeq XP_021040072.1
    CDS915..5060
    Translation

    Target ORF information:

    RefSeq Version XM_021184413.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184413.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG AAAAGCCTTT
    ACCTCCTCTC AAAGGCAGCG GCCCACCAGC CCGTTTTCTA CAGACAGTAA CACCAGTGCT
    GCCCAGAATC AAAGCCAGAG GCCTCGGCCC ACGAAAAAAC ATAAGGGAGG GCGGATGGAC
    CCACAGCCAG CGTTACCTCA TCGGAGGGAA GGGATGCCAG ATGAGGAGTC CCTGGTGCCC
    TACAGCAAGC CCAGCTTCCC TTCTCCTGGG GGGCACAGCT CATCAGGAAC ATCCTCCTCT
    AAAGGGTCCA CTGGCCCTCG GAAGGCCGAC GTGCTGAGGG GCAGCCACCA GAGGAATGCC
    AATGACCTTC TCGACATTGG ATATGTGGGC TCAAATAGTC AAGGACAGTT TACAGGTGAA
    TTGTAG

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

    CloneID OMv32856
    Clone ID Related Accession (Same CDS sequence) XM_021184414.1
    Accession Version XM_021184414.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4134bp)
    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 roundabout homolog 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGCTCCTC CACAGTTTGT GGTTAGGCCA
    AGAGATCAGA TCGTTGCTCA AGGCCGGACA GTGACATTCC CCTGTGAAAC TAAAGGAAAC
    CCACAGCCAG CTGTATTTTG GCAGAAAGAA GGCAGCCAGA ACCTACTTTT CCCGAATCAA
    CCTCAGCAGC CTAACAGCCG ATGTTCAGTG TCGCCCACGG GGGACCTCAC CATCACCAAC
    ATCCAGCGTT CAGATGCGGG TTACTACATC TGCCAGGCCC TAACCGTGGC AGGAAGCATT
    TTAGCTAAAG CACAGCTGGA AGTTACTGAC GTTTTGACAG ATAGACCTCC ACCCATAATC
    TTGCAAGGAC CAATAAACCA AACACTTGCA GTAGACGGTA CAGCATTGCT GAAATGTAAA
    GCCACTGGTG AGCCTCTACC TGTAATTAGC TGGCTAAAGG AGGGCTTTAC TTTTCTGGGG
    AGAGATCCAA GAGCCACGAT CCAAGACCAA GGAACACTGC AGATTAAGAA TTTACGGATA
    TCTGATACTG GCACTTATAC TTGTGTGGCT ACAAGTTCCA GTGGGGAGAC TTCCTGGAGT
    GCAGTGCTGG ATGTAACAGA ATCTGGAGCA ACAATCAGTA AAAATTATGA TATAAATGAC
    CTCCCGGGGC CACCATCCAA ACCTCAGGTC ACTGATGTTT CTAAGAACAG TGTCACCTTA
    TCCTGGCAGC CAGGTACACC TGGAGTTCTT CCTGCAAGTG CATATATCAT TGAGGCTTTC
    AGCCAATCGG TGAGCAATAG CTGGCAGACA GTGGCAAACC ATGTTAAGAC AACTCTCTAT
    ACAGTAAGGG GGCTGAGGCC AAACACAATC TACTTGTTTA TGGTCAGAGC GATCAACCCG
    CAAGGTCTCA GTGATCCAAG CCCTATGTCG GATCCTGTAC GCACGCAAGA TATCAGCCCC
    CCAGCACAAG GAGTGGACCA CAGACAGGTG CAGAAGGAGT TAGGTGATGT TGTTGTTCGT
    CTCCATAATC CAGTTGTCCT GACACCTACA ACTGTTCAAG TCACATGGAC GGTGGACCGA
    CAACCCCAGT TTATTCAGGG CTACAGAGTG ATGTACCGTC AGACTTCGGG ACTCCAAGCC
    TCAACTGTGT GGCAGAATCT AGACGCCAAA GTCCCGACTG AGAGGAGTGC TGTCCTTGTG
    AATTTGAAAA AGGGGGTGAC TTACGAAATT AAAGTCCGGC CGTATTTTAA TGAGTTCCAA
    GGAATGGACA GTGAATCGAA AACAGTCCGA ACCACTGAGG AAGCCCCAAG TGCCCCTCCC
    CAGTCTGTCA CTGTGCTGAC AGTTGGAAGT CACAACAGCA CAAGCATTAG TGTTTCCTGG
    GATCCTCCAC CAGCTGACCA CCAGAATGGA ATTATTCAGG AATATAAGAT CTGGTGTCTG
    GGAAATGAAA CGCGATTCCA TATCAATAAA ACTGTGGATG CAGCCATTCG CTCTGTAGTA
    ATAGGTGGCT TGTTCCCTGG AATTCAGTAC CGGGTAGAAG TGGCAGCTAG CACAAGTGCA
    GGGGTTGGAG TAAAAAGTGA ACCACAGCCG ATAATAATTG GGGGACGTAA CGAAGTTGTC
    ATTACTGAAA ACAATAACAG CATCACTGAG CAAATCACGG ATGTCGTGAA GCAACCGGCA
    TTTATAGCTG GCATTGGTGG TGCCTGCTGG GTAATTCTGA TGGGTTTTAG CATCTGGTTG
    TACTGGAGAA GAAAGAAGAG AAAGGGACTC AGCAATTATG CTGTAACATT TCAAAGAGGA
    GATGGAGGAC TAATGAGCAA TGGGAGCCGT CCAGGTCTTC TAAATGCTGG CGATCCCAAT
    TACCCATGGC TTGCTGATTC TTGGCCAGCC ACGAGTTTGC CAGTGAACAA TAGCAATAGT
    GGCCCAAATG AAATTGGAAA TTTTGGGCGT GGAGATGTGC TGCCTCCGGT GCCAGGCCAA
    GGGGATAAAA CAGCGACCAT GCTCTCCGAT GGAGCCATTT ATAGCAGCAT TGACTTCACT
    ACCAAAACCA CTTACAACAG TTCCAGCCAA ATAACACAGG CCACCCCATA TGCCACTACG
    CAAATCCTGC ATTCAAACAG CATCCACGAA CTGGCAGTTG ATCTTCCTGA TCCACAGTGG
    AAAAGCTCAG TTCAACAGAA GACAGACCTC ATGGGATTTG GTTATTCCCT ACCTGATCAG
    AACAAGGGGA ACAACGGTGG GAAAGGTGGA AAAAAGAAGA AAACTAAAAA TTCTTCGAAA
    GCGCAGAAAA ACAACGGATC CACTTGGGCT AATGTCCCTC TACCTCCTCC TCCCGTCCAG
    CCCCTTCCTG GTACAGAGCT GGGCCACTAT GCTGCGGAAC AAGAAAATGG CTATGACAGT
    GACAGCTGGT GCCCACCATT ACCGGTGCAA ACATACTTGC ATCAGGGTAT GGAAGATGAG
    CTGGAAGAAG ACGAAGATCG GGTCCCAACA CCTCCTGTTC GCGGCGTGGC CTCTTCACCA
    GCTATCTCTT TTGGACAGCA GTCCACTGCC ACTCTTACTC CATCCCCACG TGAAGAGATG
    CAACCCATGC TGCAAGCTCA CTTGGATGAG TTGACAAGGG CCTATCAGTT TGATATAGCA
    AAACAAACAT GGCACATTCA AAGCAATACT CCACCTCCAC AACCCCCAGT TCCGCCATTA
    GGTTACGTGT CCGGAGCCTT GATTTCTGAT TTGGAGACAG ATGTTCCAGA TGAGGATGCT
    GATGACGAAG AGGAACCATT AGAAATTCCC AGGCCCCTCA GAGCACTAGA CCAGACACCT
    GGATCCAGTA TGGACAATCT AGACAGCTCT GTCACAGGAA AAGCCTTTAC CTCCTCTCAA
    AGGCAGCGGC CCACCAGCCC GTTTTCTACA GACAGTAACA CCAGTGCTGC CCAGAATCAA
    AGCCAGAGGC CTCGGCCCAC GAAAAAACAT AAGGGAGGGC GGATGGACCC ACAGCCAGCG
    TTACCTCATC GGAGGGAAGG GATGCCAGAT GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC
    AGCTTCCCTT CTCCTGGGGG GCACAGCTCA TCAGGAACAT CCTCCTCTAA AGGGTCCACT
    GGCCCTCGGA AGGCCGACGT GCTGAGGGGC AGCCACCAGA GGAATGCCAA TGACCTTCTC
    GACATTGGAT ATGTGGGCTC AAATAGTCAA GGACAGTTTA CAGGTGAATT GTAG

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

    RefSeq XP_021040073.1
    CDS630..4763
    Translation

    Target ORF information:

    RefSeq Version XM_021184414.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184414.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGCTCCTC CACAGTTTGT GGTTAGGCCA
    AGAGATCAGA TCGTTGCTCA AGGCCGGACA GTGACATTCC CCTGTGAAAC TAAAGGAAAC
    CCACAGCCAG CTGTATTTTG GCAGAAAGAA GGCAGCCAGA ACCTACTTTT CCCGAATCAA
    CCTCAGCAGC CTAACAGCCG ATGTTCAGTG TCGCCCACGG GGGACCTCAC CATCACCAAC
    ATCCAGCGTT CAGATGCGGG TTACTACATC TGCCAGGCCC TAACCGTGGC AGGAAGCATT
    TTAGCTAAAG CACAGCTGGA AGTTACTGAC GTTTTGACAG ATAGACCTCC ACCCATAATC
    TTGCAAGGAC CAATAAACCA AACACTTGCA GTAGACGGTA CAGCATTGCT GAAATGTAAA
    GCCACTGGTG AGCCTCTACC TGTAATTAGC TGGCTAAAGG AGGGCTTTAC TTTTCTGGGG
    AGAGATCCAA GAGCCACGAT CCAAGACCAA GGAACACTGC AGATTAAGAA TTTACGGATA
    TCTGATACTG GCACTTATAC TTGTGTGGCT ACAAGTTCCA GTGGGGAGAC TTCCTGGAGT
    GCAGTGCTGG ATGTAACAGA ATCTGGAGCA ACAATCAGTA AAAATTATGA TATAAATGAC
    CTCCCGGGGC CACCATCCAA ACCTCAGGTC ACTGATGTTT CTAAGAACAG TGTCACCTTA
    TCCTGGCAGC CAGGTACACC TGGAGTTCTT CCTGCAAGTG CATATATCAT TGAGGCTTTC
    AGCCAATCGG TGAGCAATAG CTGGCAGACA GTGGCAAACC ATGTTAAGAC AACTCTCTAT
    ACAGTAAGGG GGCTGAGGCC AAACACAATC TACTTGTTTA TGGTCAGAGC GATCAACCCG
    CAAGGTCTCA GTGATCCAAG CCCTATGTCG GATCCTGTAC GCACGCAAGA TATCAGCCCC
    CCAGCACAAG GAGTGGACCA CAGACAGGTG CAGAAGGAGT TAGGTGATGT TGTTGTTCGT
    CTCCATAATC CAGTTGTCCT GACACCTACA ACTGTTCAAG TCACATGGAC GGTGGACCGA
    CAACCCCAGT TTATTCAGGG CTACAGAGTG ATGTACCGTC AGACTTCGGG ACTCCAAGCC
    TCAACTGTGT GGCAGAATCT AGACGCCAAA GTCCCGACTG AGAGGAGTGC TGTCCTTGTG
    AATTTGAAAA AGGGGGTGAC TTACGAAATT AAAGTCCGGC CGTATTTTAA TGAGTTCCAA
    GGAATGGACA GTGAATCGAA AACAGTCCGA ACCACTGAGG AAGCCCCAAG TGCCCCTCCC
    CAGTCTGTCA CTGTGCTGAC AGTTGGAAGT CACAACAGCA CAAGCATTAG TGTTTCCTGG
    GATCCTCCAC CAGCTGACCA CCAGAATGGA ATTATTCAGG AATATAAGAT CTGGTGTCTG
    GGAAATGAAA CGCGATTCCA TATCAATAAA ACTGTGGATG CAGCCATTCG CTCTGTAGTA
    ATAGGTGGCT TGTTCCCTGG AATTCAGTAC CGGGTAGAAG TGGCAGCTAG CACAAGTGCA
    GGGGTTGGAG TAAAAAGTGA ACCACAGCCG ATAATAATTG GGGGACGTAA CGAAGTTGTC
    ATTACTGAAA ACAATAACAG CATCACTGAG CAAATCACGG ATGTCGTGAA GCAACCGGCA
    TTTATAGCTG GCATTGGTGG TGCCTGCTGG GTAATTCTGA TGGGTTTTAG CATCTGGTTG
    TACTGGAGAA GAAAGAAGAG AAAGGGACTC AGCAATTATG CTGTAACATT TCAAAGAGGA
    GATGGAGGAC TAATGAGCAA TGGGAGCCGT CCAGGTCTTC TAAATGCTGG CGATCCCAAT
    TACCCATGGC TTGCTGATTC TTGGCCAGCC ACGAGTTTGC CAGTGAACAA TAGCAATAGT
    GGCCCAAATG AAATTGGAAA TTTTGGGCGT GGAGATGTGC TGCCTCCGGT GCCAGGCCAA
    GGGGATAAAA CAGCGACCAT GCTCTCCGAT GGAGCCATTT ATAGCAGCAT TGACTTCACT
    ACCAAAACCA CTTACAACAG TTCCAGCCAA ATAACACAGG CCACCCCATA TGCCACTACG
    CAAATCCTGC ATTCAAACAG CATCCACGAA CTGGCAGTTG ATCTTCCTGA TCCACAGTGG
    AAAAGCTCAG TTCAACAGAA GACAGACCTC ATGGGATTTG GTTATTCCCT ACCTGATCAG
    AACAAGGGGA ACAACGGTGG GAAAGGTGGA AAAAAGAAGA AAACTAAAAA TTCTTCGAAA
    GCGCAGAAAA ACAACGGATC CACTTGGGCT AATGTCCCTC TACCTCCTCC TCCCGTCCAG
    CCCCTTCCTG GTACAGAGCT GGGCCACTAT GCTGCGGAAC AAGAAAATGG CTATGACAGT
    GACAGCTGGT GCCCACCATT ACCGGTGCAA ACATACTTGC ATCAGGGTAT GGAAGATGAG
    CTGGAAGAAG ACGAAGATCG GGTCCCAACA CCTCCTGTTC GCGGCGTGGC CTCTTCACCA
    GCTATCTCTT TTGGACAGCA GTCCACTGCC ACTCTTACTC CATCCCCACG TGAAGAGATG
    CAACCCATGC TGCAAGCTCA CTTGGATGAG TTGACAAGGG CCTATCAGTT TGATATAGCA
    AAACAAACAT GGCACATTCA AAGCAATACT CCACCTCCAC AACCCCCAGT TCCGCCATTA
    GGTTACGTGT CCGGAGCCTT GATTTCTGAT TTGGAGACAG ATGTTCCAGA TGAGGATGCT
    GATGACGAAG AGGAACCATT AGAAATTCCC AGGCCCCTCA GAGCACTAGA CCAGACACCT
    GGATCCAGTA TGGACAATCT AGACAGCTCT GTCACAGGAA AAGCCTTTAC CTCCTCTCAA
    AGGCAGCGGC CCACCAGCCC GTTTTCTACA GACAGTAACA CCAGTGCTGC CCAGAATCAA
    AGCCAGAGGC CTCGGCCCAC GAAAAAACAT AAGGGAGGGC GGATGGACCC ACAGCCAGCG
    TTACCTCATC GGAGGGAAGG GATGCCAGAT GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC
    AGCTTCCCTT CTCCTGGGGG GCACAGCTCA TCAGGAACAT CCTCCTCTAA AGGGTCCACT
    GGCCCTCGGA AGGCCGACGT GCTGAGGGGC AGCCACCAGA GGAATGCCAA TGACCTTCTC
    GACATTGGAT ATGTGGGCTC AAATAGTCAA GGACAGTTTA CAGGTGAATT GTAG

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

    CloneID OMv69687
    Clone ID Related Accession (Same CDS sequence) XM_029470227.1
    Accession Version XM_029470227.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4488bp)
    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 roundabout homolog 2 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGATCTTCCC
    CCACCACCAG ATCCCCCACC AGGTCAGGGT TTAAGGCAGC AGATAGGCCT GAGCCAACAC
    TCTGGTAACG TGGAAAACTC AACAGAGAGA AAAGGAAGCT CTCTAGAGAG ACAACAAGCA
    GCCAACTTAG AAGACACAAA GAGCTCATTG GATTGTCCAG CTAAAACTGT TCTAGAGTGG
    CAGCGTCAAA CCCAGGACTG GATAAACTCT ACAGAACGCC AAGAAGAAAC TCGGAAAGCC
    CCACACAAAC AAGGGGTTGG ATCAGAGGAG TCCCTGGTGC CCTACAGCAA GCCCAGCTTC
    CCTTCTCCTG GGGGGCACAG CTCATCAGGA ACATCCTCCT CTAAAGGGTC CACTGGCCCT
    CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC CAGAGGAATG CCAATGACCT TCTCGACATT
    GGATATGTGG GCTCAAATAG TCAAGGACAG TTTACAGGTG AATTGTAG

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

    RefSeq XP_029326087.1
    CDS1296..5783
    Translation

    Target ORF information:

    RefSeq Version XM_029470227.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470227.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGATCTTCCC
    CCACCACCAG ATCCCCCACC AGGTCAGGGT TTAAGGCAGC AGATAGGCCT GAGCCAACAC
    TCTGGTAACG TGGAAAACTC AACAGAGAGA AAAGGAAGCT CTCTAGAGAG ACAACAAGCA
    GCCAACTTAG AAGACACAAA GAGCTCATTG GATTGTCCAG CTAAAACTGT TCTAGAGTGG
    CAGCGTCAAA CCCAGGACTG GATAAACTCT ACAGAACGCC AAGAAGAAAC TCGGAAAGCC
    CCACACAAAC AAGGGGTTGG ATCAGAGGAG TCCCTGGTGC CCTACAGCAA GCCCAGCTTC
    CCTTCTCCTG GGGGGCACAG CTCATCAGGA ACATCCTCCT CTAAAGGGTC CACTGGCCCT
    CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC CAGAGGAATG CCAATGACCT TCTCGACATT
    GGATATGTGG GCTCAAATAG TCAAGGACAG TTTACAGGTG AATTGTAG

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

    CloneID OMv69688
    Clone ID Related Accession (Same CDS sequence) XM_029470228.1
    Accession Version XM_029470228.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4482bp)
    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 roundabout homolog 2 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGATCTTCCC
    CCACCACCAG ATCCCCCACC AGGTCAGGGT TTAAGGCAGC AGATAGGCCT GAGCCAACAC
    TCTGGTAACG TGGAAAACTC AACAGAGAGA AAAGGAAGCT CTCTAGAGAG ACAACAAGCA
    GCCAACTTAG AAGACACAAA GAGCTCATTG GATTGTCCAG CTAAAACTGT TCTAGAGTGG
    CAGCGTCAAA CCCAGGACTG GATAAACTCT ACAGAACGCC AAGAAGAAAC TCGGAAAGCC
    CCACACAAAC AAGGGGTTGG ATCAGAGGAG TCCCTGGTGC CCTACAGCAA GCCCAGCTTC
    CCTTCTCCTG GGGGGCACAG CTCATCAGGA ACATCCTCCT CTAAAGGGTC CACTGGCCCT
    CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC CAGAGGAATG CCAATGACCT TCTCGACATT
    GGATATGTGG GCTCAAATAG TCAAGGACAG TTTACAGAGT AA

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

    RefSeq XP_029326088.1
    CDS1296..5777
    Translation

    Target ORF information:

    RefSeq Version XM_029470228.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470228.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGATCTTCCC
    CCACCACCAG ATCCCCCACC AGGTCAGGGT TTAAGGCAGC AGATAGGCCT GAGCCAACAC
    TCTGGTAACG TGGAAAACTC AACAGAGAGA AAAGGAAGCT CTCTAGAGAG ACAACAAGCA
    GCCAACTTAG AAGACACAAA GAGCTCATTG GATTGTCCAG CTAAAACTGT TCTAGAGTGG
    CAGCGTCAAA CCCAGGACTG GATAAACTCT ACAGAACGCC AAGAAGAAAC TCGGAAAGCC
    CCACACAAAC AAGGGGTTGG ATCAGAGGAG TCCCTGGTGC CCTACAGCAA GCCCAGCTTC
    CCTTCTCCTG GGGGGCACAG CTCATCAGGA ACATCCTCCT CTAAAGGGTC CACTGGCCCT
    CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC CAGAGGAATG CCAATGACCT TCTCGACATT
    GGATATGTGG GCTCAAATAG TCAAGGACAG TTTACAGAGT AA

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

    CloneID OMv69689
    Clone ID Related Accession (Same CDS sequence) XM_029470229.1
    Accession Version XM_029470229.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4398bp)
    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 roundabout homolog 2 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGT
    TCAATGGTAA ATGGATGGGG CTCTGCATCT GATGAGGATC GTAACTTTTC TAGTCATAGA
    TCTAGTGTAG GTAGCTCCTC AGATGGCTCC ATCTTTGCCA GCGGCAGCTT TGCAAAAGCA
    TTGGTGGCAG CAGCAGACAA AGCTGGCTTT AGGCTGGATG GAACCAGTCT TACGAGAACA
    GGAAAAGCCT TTACCTCCTC TCAAAGGCAG CGGCCCACCA GCCCGTTTTC TACAGACAGT
    AACACCAGTG CTGCCCAGAA TCAAAGCCAG AGGCCTCGGC CCACGAAAAA ACATAAGGGA
    GGGCGGATGG ACCCACAGCC AGCGTTACCT CATCGGAGGG AAGGGATGCC AGATGAGGAG
    TCCCTGGTGC CCTACAGCAA GCCCAGCTTC CCTTCTCCTG GGGGGCACAG CTCATCAGGA
    ACATCCTCCT CTAAAGGGTC CACTGGCCCT CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC
    CAGAGGAATG CCAATGACCT TCTCGACATT GGATATGTGG GCTCAAATAG TCAAGGACAG
    TTTACAGGTG AATTGTAG

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

    RefSeq XP_029326089.1
    CDS1296..5693
    Translation

    Target ORF information:

    RefSeq Version XM_029470229.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470229.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGT
    TCAATGGTAA ATGGATGGGG CTCTGCATCT GATGAGGATC GTAACTTTTC TAGTCATAGA
    TCTAGTGTAG GTAGCTCCTC AGATGGCTCC ATCTTTGCCA GCGGCAGCTT TGCAAAAGCA
    TTGGTGGCAG CAGCAGACAA AGCTGGCTTT AGGCTGGATG GAACCAGTCT TACGAGAACA
    GGAAAAGCCT TTACCTCCTC TCAAAGGCAG CGGCCCACCA GCCCGTTTTC TACAGACAGT
    AACACCAGTG CTGCCCAGAA TCAAAGCCAG AGGCCTCGGC CCACGAAAAA ACATAAGGGA
    GGGCGGATGG ACCCACAGCC AGCGTTACCT CATCGGAGGG AAGGGATGCC AGATGAGGAG
    TCCCTGGTGC CCTACAGCAA GCCCAGCTTC CCTTCTCCTG GGGGGCACAG CTCATCAGGA
    ACATCCTCCT CTAAAGGGTC CACTGGCCCT CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC
    CAGAGGAATG CCAATGACCT TCTCGACATT GGATATGTGG GCTCAAATAG TCAAGGACAG
    TTTACAGGTG AATTGTAG

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

    CloneID OMv69690
    Clone ID Related Accession (Same CDS sequence) XM_029470230.1
    Accession Version XM_029470230.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4215bp)
    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 roundabout homolog 2 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGAGGAGTCC
    CTGGTGCCCT ACAGCAAGCC CAGCTTCCCT TCTCCTGGGG GGCACAGCTC ATCAGGAACA
    TCCTCCTCTA AAGGGTCCAC TGGCCCTCGG AAGGCCGACG TGCTGAGGGG CAGCCACCAG
    AGGAATGCCA ATGACCTTCT CGACATTGGA TATGTGGGCT CAAATAGTCA AGGACAGTTT
    ACAGGTGAAT TGTAG

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

    RefSeq XP_029326090.1
    CDS1295..5509
    Translation

    Target ORF information:

    RefSeq Version XM_029470230.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470230.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGAGGAGTCC
    CTGGTGCCCT ACAGCAAGCC CAGCTTCCCT TCTCCTGGGG GGCACAGCTC ATCAGGAACA
    TCCTCCTCTA AAGGGTCCAC TGGCCCTCGG AAGGCCGACG TGCTGAGGGG CAGCCACCAG
    AGGAATGCCA ATGACCTTCT CGACATTGGA TATGTGGGCT CAAATAGTCA AGGACAGTTT
    ACAGGTGAAT TGTAG

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

    CloneID OMv69691
    Clone ID Related Accession (Same CDS sequence) XM_029470232.1
    Accession Version XM_029470232.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4140bp)
    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 roundabout homolog 2 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG AAAAGCCTTT
    ACCTCCTCTC AAAGGCAGCG GCCCACCAGC CCGTTTTCTA CAGACAGTAA CACCAGTGCT
    GCCCAGAATC AAAGCCAGAG GCCTCGGCCC ACGAAAAAAC ATAAGGGAGG GCGGATGGAC
    CCACAGCCAG CGTTACCTCA TCGGAGGGAA GGGATGCCAG ATGAGGAGTC CCTGGTGCCC
    TACAGCAAGC CCAGCTTCCC TTCTCCTGGG GGGCACAGCT CATCAGGAAC ATCCTCCTCT
    AAAGGGTCCA CTGGCCCTCG GAAGGCCGAC GTGCTGAGGG GCAGCCACCA GAGGAATGCC
    AATGACCTTC TCGACATTGG ATATGTGGGC TCAAATAGTC AAGGACAGTT TACAGAGTAA

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

    RefSeq XP_029326092.1
    CDS915..5054
    Translation

    Target ORF information:

    RefSeq Version XM_029470232.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470232.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG AAAAGCCTTT
    ACCTCCTCTC AAAGGCAGCG GCCCACCAGC CCGTTTTCTA CAGACAGTAA CACCAGTGCT
    GCCCAGAATC AAAGCCAGAG GCCTCGGCCC ACGAAAAAAC ATAAGGGAGG GCGGATGGAC
    CCACAGCCAG CGTTACCTCA TCGGAGGGAA GGGATGCCAG ATGAGGAGTC CCTGGTGCCC
    TACAGCAAGC CCAGCTTCCC TTCTCCTGGG GGGCACAGCT CATCAGGAAC ATCCTCCTCT
    AAAGGGTCCA CTGGCCCTCG GAAGGCCGAC GTGCTGAGGG GCAGCCACCA GAGGAATGCC
    AATGACCTTC TCGACATTGG ATATGTGGGC TCAAATAGTC AAGGACAGTT TACAGAGTAA

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

    CloneID OMv32852
    Clone ID Related Accession (Same CDS sequence) XM_021184410.2 , XM_021184410.1
    Accession Version XM_021184410.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4584bp)
    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 roundabout homolog 2 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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_021184410.1. ##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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCCAGAA GACAAGAAAG TGTCTGTGGA AGGACGTGGA CGTGGACGCT GGGACTACTG 
    ATGCTGATCA TCCTTGGCAT TCATCAGGGG AGTGGGCAAG GTCAAGGATC TCGTCTTCGT
    CAAGAAGACT TTCCCCCCAG GATCGTAGAA CACCCTTCTG ACGTCATCGT CTCCAAGGGA
    GAGCCCACCA CTCTGAACTG TAAAGCAGAG GGCCGACCCA CTCCCACCAT TGAATGGTAC
    AAGGATGGTG AGAGGGTGGA GACAGACAAG GATGATCCCA GGTCCCACAG AATGCTTCTG
    CCCAGCGGAT CTTTATTCTT TTTGCGAATT GTTCATGGGC GCAGAAGTAA ACCGGATGAA
    GGGAGTTACG TTTGTGTTGC AAGGAACTAT CTTGGTGAAG CAGTGAGTCG AAATGCATCT
    CTGGAAGTGG CATTATTGCG AGATGACTTC CGGCAAAACC CCACAGATGT GGTAGTCGCA
    GCTGGAGAGC CTGCAATCTT GGAGTGCCAG CCACCACGGG GACACCCAGA ACCAACCATC
    TACTGGAAAA AGGACAAAGT CCGAATTGAT GACAAGGAAG AGAGAATAAG TATCCGTGGT
    GGGAAGCTGA TGATCTCTAA TACAAGGAAA AGCGATGCTG GCATGTACAC CTGTGTGGGA
    ACCAATATGG TGGGAGAAAG GGACAGCGAC CCTGCAGAGC TCACTGTCTT CGAACGACCC
    ACATTTCTCA GGAGGCCAAT TAACCAGGTG GTGCTAGAGG AAGAGGCTGT AGAATTCCGT
    TGTCAGGTCC AAGGGGATCC CCAGCCAACG GTGAGGTGGA AAAAAGATGA TGCAGACTTG
    CCAAGAGGAA GGTATGATAT CAAAGATGAC TACACGCTGA GAATTAAAAA GGCCATGAGT
    ACTGATGAAG GTACCTATGT GTGTATTGCT GAGAATCGGG TGGGAAAAGT GGAAGCCTCT
    GCTACCCTCA CTGTCCGAGT TCGCCCTGTT GCTCCTCCAC AGTTTGTGGT TAGGCCAAGA
    GATCAGATCG TTGCTCAAGG CCGGACAGTG ACATTCCCCT GTGAAACTAA AGGAAACCCA
    CAGCCAGCTG TATTTTGGCA GAAAGAAGGC AGCCAGAACC TACTTTTCCC GAATCAACCT
    CAGCAGCCTA ACAGCCGATG TTCAGTGTCG CCCACGGGGG ACCTCACCAT CACCAACATC
    CAGCGTTCAG ATGCGGGTTA CTACATCTGC CAGGCCCTAA CCGTGGCAGG AAGCATTTTA
    GCTAAAGCAC AGCTGGAAGT TACTGACGTT TTGACAGATA GACCTCCACC CATAATCTTG
    CAAGGACCAA TAAACCAAAC ACTTGCAGTA GACGGTACAG CATTGCTGAA ATGTAAAGCC
    ACTGGTGAGC CTCTACCTGT AATTAGCTGG CTAAAGGAGG GCTTTACTTT TCTGGGGAGA
    GATCCAAGAG CCACGATCCA AGACCAAGGA ACACTGCAGA TTAAGAATTT ACGGATATCT
    GATACTGGCA CTTATACTTG TGTGGCTACA AGTTCCAGTG GGGAGACTTC CTGGAGTGCA
    GTGCTGGATG TAACAGAATC TGGAGCAACA ATCAGTAAAA ATTATGATAT AAATGACCTC
    CCGGGGCCAC CATCCAAACC TCAGGTCACT GATGTTTCTA AGAACAGTGT CACCTTATCC
    TGGCAGCCAG GTACACCTGG AGTTCTTCCT GCAAGTGCAT ATATCATTGA GGCTTTCAGC
    CAATCGGTGA GCAATAGCTG GCAGACAGTG GCAAACCATG TTAAGACAAC TCTCTATACA
    GTAAGGGGGC TGAGGCCAAA CACAATCTAC TTGTTTATGG TCAGAGCGAT CAACCCGCAA
    GGTCTCAGTG ATCCAAGCCC TATGTCGGAT CCTGTACGCA CGCAAGATAT CAGCCCCCCA
    GCACAAGGAG TGGACCACAG ACAGGTGCAG AAGGAGTTAG GTGATGTTGT TGTTCGTCTC
    CATAATCCAG TTGTCCTGAC ACCTACAACT GTTCAAGTCA CATGGACGGT GGACCGACAA
    CCCCAGTTTA TTCAGGGCTA CAGAGTGATG TACCGTCAGA CTTCGGGACT CCAAGCCTCA
    ACTGTGTGGC AGAATCTAGA CGCCAAAGTC CCGACTGAGA GGAGTGCTGT CCTTGTGAAT
    TTGAAAAAGG GGGTGACTTA CGAAATTAAA GTCCGGCCGT ATTTTAATGA GTTCCAAGGA
    ATGGACAGTG AATCGAAAAC AGTCCGAACC ACTGAGGAAG CCCCAAGTGC CCCTCCCCAG
    TCTGTCACTG TGCTGACAGT TGGAAGTCAC AACAGCACAA GCATTAGTGT TTCCTGGGAT
    CCTCCACCAG CTGACCACCA GAATGGAATT ATTCAGGAAT ATAAGATCTG GTGTCTGGGA
    AATGAAACGC GATTCCATAT CAATAAAACT GTGGATGCAG CCATTCGCTC TGTAGTAATA
    GGTGGCTTGT TCCCTGGAAT TCAGTACCGG GTAGAAGTGG CAGCTAGCAC AAGTGCAGGG
    GTTGGAGTAA AAAGTGAACC ACAGCCGATA ATAATTGGGG GACGTAACGA AGTTGTCATT
    ACTGAAAACA ATAACAGCAT CACTGAGCAA ATCACGGATG TCGTGAAGCA ACCGGCATTT
    ATAGCTGGCA TTGGTGGTGC CTGCTGGGTA ATTCTGATGG GTTTTAGCAT CTGGTTGTAC
    TGGAGAAGAA AGAAGAGAAA GGGACTCAGC AATTATGCTG TAACATTTCA AAGAGGAGAT
    GGAGGACTAA TGAGCAATGG GAGCCGTCCA GGTCTTCTAA ATGCTGGCGA TCCCAATTAC
    CCATGGCTTG CTGATTCTTG GCCAGCCACG AGTTTGCCAG TGAACAATAG CAATAGTGGC
    CCAAATGAAA TTGGAAATTT TGGGCGTGGA GATGTGCTGC CTCCGGTGCC AGGCCAAGGG
    GATAAAACAG CGACCATGCT CTCCGATGGA GCCATTTATA GCAGCATTGA CTTCACTACC
    AAAACCACTT ACAACAGTTC CAGCCAAATA ACACAGGCCA CCCCATATGC CACTACGCAA
    ATCCTGCATT CAAACAGCAT CCACGAACTG GCAGTTGATC TTCCTGATCC ACAGTGGAAA
    AGCTCAGTTC AACAGAAGAC AGACCTCATG GGATTTGGTT ATTCCCTACC TGATCAGAAC
    AAGGGGAACA ACGCCTTACT TTACATCCCT GACTACCGAT TGGCTGAGGG ATTGTCTAAT
    AGAATGCCAC ACAACCAGTC ACAGGATTTC AGCACCACCA GCTCTCACAA CAGCTCAGAA
    AGGAGTGGCA GTCTCTCAGG TGGGAAAGGT GGAAAAAAGA AGAAAACTAA AAATTCTTCG
    AAAGCGCAGA AAAACAACGG ATCCACTTGG GCTAATGTCC CTCTACCTCC TCCTCCCGTC
    CAGCCCCTTC CTGGTACAGA GCTGGGCCAC TATGCTGCGG AACAAGAAAA TGGCTATGAC
    AGTGACAGCT GGTGCCCACC ATTACCGGTG CAAACATACT TGCATCAGGG TATGGAAGAT
    GAGCTGGAAG AAGACGAAGA TCGGGTCCCA ACACCTCCTG TTCGCGGCGT GGCCTCTTCA
    CCAGCTATCT CTTTTGGACA GCAGTCCACT GCCACTCTTA CTCCATCCCC ACGTGAAGAG
    ATGCAACCCA TGCTGCAAGC TCACTTGGAT GAGTTGACAA GGGCCTATCA GTTTGATATA
    GCAAAACAAA CATGGCACAT TCAAAGCAAT ACTCCACCTC CACAACCCCC AGTTCCGCCA
    TTAGGTTACG TGTCCGGAGC CTTGATTTCT GATTTGGAGA CAGATGTTCC AGATGAGGAT
    GCTGATGACG AAGAGGAACC ATTAGAAATT CCCAGGCCCC TCAGAGCACT AGACCAGACA
    CCTGGATCCA GTATGGACAA TCTAGACAGC TCTGTCACAG GAAAAGCCTT TACCTCCTCT
    CAAAGGCAGC GGCCCACCAG CCCGTTTTCT ACAGACAGTA ACACCAGTGC TGCCCAGAAT
    CAAAGCCAGA GGCCTCGGCC CACGAAAAAA CATAAGGGAG GGCGGATGGA CCCACAGCCA
    GCGTTACCTC ATCGGAGGGA AGGGATGCCA GATGATCTTC CCCCACCACC AGATCCCCCA
    CCAGGTCAGG GTTTAAGGCA GCAGATAGGC CTGAGCCAAC ACTCTGGTAA CGTGGAAAAC
    TCAACAGAGA GAAAAGGAAG CTCTCTAGAG AGACAACAAG CAGCCAACTT AGAAGACACA
    AAGAGCTCAT TGGATTGTCC AGCTAAAACT GTTCTAGAGT GGCAGCGTCA AACCCAGGAC
    TGGATAAACT CTACAGAACG CCAAGAAGAA ACTCGGAAAG CCCCACACAA ACAAGGGGTT
    GGATCAGAGG AGTCCCTGGT GCCCTACAGC AAGCCCAGCT TCCCTTCTCC TGGGGGGCAC
    AGCTCATCAG GAACATCCTC CTCTAAAGGG TCCACTGGCC CTCGGAAGGC CGACGTGCTG
    AGGGGCAGCC ACCAGAGGAA TGCCAATGAC CTTCTCGACA TTGGATATGT GGGCTCAAAT
    AGTCAAGGAC AGTTTACAGA GTAA

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

    RefSeq XP_021040069.1
    CDS231..4814
    Translation

    Target ORF information:

    RefSeq Version XM_021184410.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184410.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCCAGAA GACAAGAAAG TGTCTGTGGA AGGACGTGGA CGTGGACGCT GGGACTACTG 
    ATGCTGATCA TCCTTGGCAT TCATCAGGGG AGTGGGCAAG GTCAAGGATC TCGTCTTCGT
    CAAGAAGACT TTCCCCCCAG GATCGTAGAA CACCCTTCTG ACGTCATCGT CTCCAAGGGA
    GAGCCCACCA CTCTGAACTG TAAAGCAGAG GGCCGACCCA CTCCCACCAT TGAATGGTAC
    AAGGATGGTG AGAGGGTGGA GACAGACAAG GATGATCCCA GGTCCCACAG AATGCTTCTG
    CCCAGCGGAT CTTTATTCTT TTTGCGAATT GTTCATGGGC GCAGAAGTAA ACCGGATGAA
    GGGAGTTACG TTTGTGTTGC AAGGAACTAT CTTGGTGAAG CAGTGAGTCG AAATGCATCT
    CTGGAAGTGG CATTATTGCG AGATGACTTC CGGCAAAACC CCACAGATGT GGTAGTCGCA
    GCTGGAGAGC CTGCAATCTT GGAGTGCCAG CCACCACGGG GACACCCAGA ACCAACCATC
    TACTGGAAAA AGGACAAAGT CCGAATTGAT GACAAGGAAG AGAGAATAAG TATCCGTGGT
    GGGAAGCTGA TGATCTCTAA TACAAGGAAA AGCGATGCTG GCATGTACAC CTGTGTGGGA
    ACCAATATGG TGGGAGAAAG GGACAGCGAC CCTGCAGAGC TCACTGTCTT CGAACGACCC
    ACATTTCTCA GGAGGCCAAT TAACCAGGTG GTGCTAGAGG AAGAGGCTGT AGAATTCCGT
    TGTCAGGTCC AAGGGGATCC CCAGCCAACG GTGAGGTGGA AAAAAGATGA TGCAGACTTG
    CCAAGAGGAA GGTATGATAT CAAAGATGAC TACACGCTGA GAATTAAAAA GGCCATGAGT
    ACTGATGAAG GTACCTATGT GTGTATTGCT GAGAATCGGG TGGGAAAAGT GGAAGCCTCT
    GCTACCCTCA CTGTCCGAGT TCGCCCTGTT GCTCCTCCAC AGTTTGTGGT TAGGCCAAGA
    GATCAGATCG TTGCTCAAGG CCGGACAGTG ACATTCCCCT GTGAAACTAA AGGAAACCCA
    CAGCCAGCTG TATTTTGGCA GAAAGAAGGC AGCCAGAACC TACTTTTCCC GAATCAACCT
    CAGCAGCCTA ACAGCCGATG TTCAGTGTCG CCCACGGGGG ACCTCACCAT CACCAACATC
    CAGCGTTCAG ATGCGGGTTA CTACATCTGC CAGGCCCTAA CCGTGGCAGG AAGCATTTTA
    GCTAAAGCAC AGCTGGAAGT TACTGACGTT TTGACAGATA GACCTCCACC CATAATCTTG
    CAAGGACCAA TAAACCAAAC ACTTGCAGTA GACGGTACAG CATTGCTGAA ATGTAAAGCC
    ACTGGTGAGC CTCTACCTGT AATTAGCTGG CTAAAGGAGG GCTTTACTTT TCTGGGGAGA
    GATCCAAGAG CCACGATCCA AGACCAAGGA ACACTGCAGA TTAAGAATTT ACGGATATCT
    GATACTGGCA CTTATACTTG TGTGGCTACA AGTTCCAGTG GGGAGACTTC CTGGAGTGCA
    GTGCTGGATG TAACAGAATC TGGAGCAACA ATCAGTAAAA ATTATGATAT AAATGACCTC
    CCGGGGCCAC CATCCAAACC TCAGGTCACT GATGTTTCTA AGAACAGTGT CACCTTATCC
    TGGCAGCCAG GTACACCTGG AGTTCTTCCT GCAAGTGCAT ATATCATTGA GGCTTTCAGC
    CAATCGGTGA GCAATAGCTG GCAGACAGTG GCAAACCATG TTAAGACAAC TCTCTATACA
    GTAAGGGGGC TGAGGCCAAA CACAATCTAC TTGTTTATGG TCAGAGCGAT CAACCCGCAA
    GGTCTCAGTG ATCCAAGCCC TATGTCGGAT CCTGTACGCA CGCAAGATAT CAGCCCCCCA
    GCACAAGGAG TGGACCACAG ACAGGTGCAG AAGGAGTTAG GTGATGTTGT TGTTCGTCTC
    CATAATCCAG TTGTCCTGAC ACCTACAACT GTTCAAGTCA CATGGACGGT GGACCGACAA
    CCCCAGTTTA TTCAGGGCTA CAGAGTGATG TACCGTCAGA CTTCGGGACT CCAAGCCTCA
    ACTGTGTGGC AGAATCTAGA CGCCAAAGTC CCGACTGAGA GGAGTGCTGT CCTTGTGAAT
    TTGAAAAAGG GGGTGACTTA CGAAATTAAA GTCCGGCCGT ATTTTAATGA GTTCCAAGGA
    ATGGACAGTG AATCGAAAAC AGTCCGAACC ACTGAGGAAG CCCCAAGTGC CCCTCCCCAG
    TCTGTCACTG TGCTGACAGT TGGAAGTCAC AACAGCACAA GCATTAGTGT TTCCTGGGAT
    CCTCCACCAG CTGACCACCA GAATGGAATT ATTCAGGAAT ATAAGATCTG GTGTCTGGGA
    AATGAAACGC GATTCCATAT CAATAAAACT GTGGATGCAG CCATTCGCTC TGTAGTAATA
    GGTGGCTTGT TCCCTGGAAT TCAGTACCGG GTAGAAGTGG CAGCTAGCAC AAGTGCAGGG
    GTTGGAGTAA AAAGTGAACC ACAGCCGATA ATAATTGGGG GACGTAACGA AGTTGTCATT
    ACTGAAAACA ATAACAGCAT CACTGAGCAA ATCACGGATG TCGTGAAGCA ACCGGCATTT
    ATAGCTGGCA TTGGTGGTGC CTGCTGGGTA ATTCTGATGG GTTTTAGCAT CTGGTTGTAC
    TGGAGAAGAA AGAAGAGAAA GGGACTCAGC AATTATGCTG TAACATTTCA AAGAGGAGAT
    GGAGGACTAA TGAGCAATGG GAGCCGTCCA GGTCTTCTAA ATGCTGGCGA TCCCAATTAC
    CCATGGCTTG CTGATTCTTG GCCAGCCACG AGTTTGCCAG TGAACAATAG CAATAGTGGC
    CCAAATGAAA TTGGAAATTT TGGGCGTGGA GATGTGCTGC CTCCGGTGCC AGGCCAAGGG
    GATAAAACAG CGACCATGCT CTCCGATGGA GCCATTTATA GCAGCATTGA CTTCACTACC
    AAAACCACTT ACAACAGTTC CAGCCAAATA ACACAGGCCA CCCCATATGC CACTACGCAA
    ATCCTGCATT CAAACAGCAT CCACGAACTG GCAGTTGATC TTCCTGATCC ACAGTGGAAA
    AGCTCAGTTC AACAGAAGAC AGACCTCATG GGATTTGGTT ATTCCCTACC TGATCAGAAC
    AAGGGGAACA ACGCCTTACT TTACATCCCT GACTACCGAT TGGCTGAGGG ATTGTCTAAT
    AGAATGCCAC ACAACCAGTC ACAGGATTTC AGCACCACCA GCTCTCACAA CAGCTCAGAA
    AGGAGTGGCA GTCTCTCAGG TGGGAAAGGT GGAAAAAAGA AGAAAACTAA AAATTCTTCG
    AAAGCGCAGA AAAACAACGG ATCCACTTGG GCTAATGTCC CTCTACCTCC TCCTCCCGTC
    CAGCCCCTTC CTGGTACAGA GCTGGGCCAC TATGCTGCGG AACAAGAAAA TGGCTATGAC
    AGTGACAGCT GGTGCCCACC ATTACCGGTG CAAACATACT TGCATCAGGG TATGGAAGAT
    GAGCTGGAAG AAGACGAAGA TCGGGTCCCA ACACCTCCTG TTCGCGGCGT GGCCTCTTCA
    CCAGCTATCT CTTTTGGACA GCAGTCCACT GCCACTCTTA CTCCATCCCC ACGTGAAGAG
    ATGCAACCCA TGCTGCAAGC TCACTTGGAT GAGTTGACAA GGGCCTATCA GTTTGATATA
    GCAAAACAAA CATGGCACAT TCAAAGCAAT ACTCCACCTC CACAACCCCC AGTTCCGCCA
    TTAGGTTACG TGTCCGGAGC CTTGATTTCT GATTTGGAGA CAGATGTTCC AGATGAGGAT
    GCTGATGACG AAGAGGAACC ATTAGAAATT CCCAGGCCCC TCAGAGCACT AGACCAGACA
    CCTGGATCCA GTATGGACAA TCTAGACAGC TCTGTCACAG GAAAAGCCTT TACCTCCTCT
    CAAAGGCAGC GGCCCACCAG CCCGTTTTCT ACAGACAGTA ACACCAGTGC TGCCCAGAAT
    CAAAGCCAGA GGCCTCGGCC CACGAAAAAA CATAAGGGAG GGCGGATGGA CCCACAGCCA
    GCGTTACCTC ATCGGAGGGA AGGGATGCCA GATGATCTTC CCCCACCACC AGATCCCCCA
    CCAGGTCAGG GTTTAAGGCA GCAGATAGGC CTGAGCCAAC ACTCTGGTAA CGTGGAAAAC
    TCAACAGAGA GAAAAGGAAG CTCTCTAGAG AGACAACAAG CAGCCAACTT AGAAGACACA
    AAGAGCTCAT TGGATTGTCC AGCTAAAACT GTTCTAGAGT GGCAGCGTCA AACCCAGGAC
    TGGATAAACT CTACAGAACG CCAAGAAGAA ACTCGGAAAG CCCCACACAA ACAAGGGGTT
    GGATCAGAGG AGTCCCTGGT GCCCTACAGC AAGCCCAGCT TCCCTTCTCC TGGGGGGCAC
    AGCTCATCAG GAACATCCTC CTCTAAAGGG TCCACTGGCC CTCGGAAGGC CGACGTGCTG
    AGGGGCAGCC ACCAGAGGAA TGCCAATGAC CTTCTCGACA TTGGATATGT GGGCTCAAAT
    AGTCAAGGAC AGTTTACAGA GTAA

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

    CloneID OMv32852
    Clone ID Related Accession (Same CDS sequence) XM_021184410.2 , XM_021184410.1
    Accession Version XM_021184410.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4584bp)
    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 roundabout homolog 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCCAGAA GACAAGAAAG TGTCTGTGGA AGGACGTGGA CGTGGACGCT GGGACTACTG 
    ATGCTGATCA TCCTTGGCAT TCATCAGGGG AGTGGGCAAG GTCAAGGATC TCGTCTTCGT
    CAAGAAGACT TTCCCCCCAG GATCGTAGAA CACCCTTCTG ACGTCATCGT CTCCAAGGGA
    GAGCCCACCA CTCTGAACTG TAAAGCAGAG GGCCGACCCA CTCCCACCAT TGAATGGTAC
    AAGGATGGTG AGAGGGTGGA GACAGACAAG GATGATCCCA GGTCCCACAG AATGCTTCTG
    CCCAGCGGAT CTTTATTCTT TTTGCGAATT GTTCATGGGC GCAGAAGTAA ACCGGATGAA
    GGGAGTTACG TTTGTGTTGC AAGGAACTAT CTTGGTGAAG CAGTGAGTCG AAATGCATCT
    CTGGAAGTGG CATTATTGCG AGATGACTTC CGGCAAAACC CCACAGATGT GGTAGTCGCA
    GCTGGAGAGC CTGCAATCTT GGAGTGCCAG CCACCACGGG GACACCCAGA ACCAACCATC
    TACTGGAAAA AGGACAAAGT CCGAATTGAT GACAAGGAAG AGAGAATAAG TATCCGTGGT
    GGGAAGCTGA TGATCTCTAA TACAAGGAAA AGCGATGCTG GCATGTACAC CTGTGTGGGA
    ACCAATATGG TGGGAGAAAG GGACAGCGAC CCTGCAGAGC TCACTGTCTT CGAACGACCC
    ACATTTCTCA GGAGGCCAAT TAACCAGGTG GTGCTAGAGG AAGAGGCTGT AGAATTCCGT
    TGTCAGGTCC AAGGGGATCC CCAGCCAACG GTGAGGTGGA AAAAAGATGA TGCAGACTTG
    CCAAGAGGAA GGTATGATAT CAAAGATGAC TACACGCTGA GAATTAAAAA GGCCATGAGT
    ACTGATGAAG GTACCTATGT GTGTATTGCT GAGAATCGGG TGGGAAAAGT GGAAGCCTCT
    GCTACCCTCA CTGTCCGAGT TCGCCCTGTT GCTCCTCCAC AGTTTGTGGT TAGGCCAAGA
    GATCAGATCG TTGCTCAAGG CCGGACAGTG ACATTCCCCT GTGAAACTAA AGGAAACCCA
    CAGCCAGCTG TATTTTGGCA GAAAGAAGGC AGCCAGAACC TACTTTTCCC GAATCAACCT
    CAGCAGCCTA ACAGCCGATG TTCAGTGTCG CCCACGGGGG ACCTCACCAT CACCAACATC
    CAGCGTTCAG ATGCGGGTTA CTACATCTGC CAGGCCCTAA CCGTGGCAGG AAGCATTTTA
    GCTAAAGCAC AGCTGGAAGT TACTGACGTT TTGACAGATA GACCTCCACC CATAATCTTG
    CAAGGACCAA TAAACCAAAC ACTTGCAGTA GACGGTACAG CATTGCTGAA ATGTAAAGCC
    ACTGGTGAGC CTCTACCTGT AATTAGCTGG CTAAAGGAGG GCTTTACTTT TCTGGGGAGA
    GATCCAAGAG CCACGATCCA AGACCAAGGA ACACTGCAGA TTAAGAATTT ACGGATATCT
    GATACTGGCA CTTATACTTG TGTGGCTACA AGTTCCAGTG GGGAGACTTC CTGGAGTGCA
    GTGCTGGATG TAACAGAATC TGGAGCAACA ATCAGTAAAA ATTATGATAT AAATGACCTC
    CCGGGGCCAC CATCCAAACC TCAGGTCACT GATGTTTCTA AGAACAGTGT CACCTTATCC
    TGGCAGCCAG GTACACCTGG AGTTCTTCCT GCAAGTGCAT ATATCATTGA GGCTTTCAGC
    CAATCGGTGA GCAATAGCTG GCAGACAGTG GCAAACCATG TTAAGACAAC TCTCTATACA
    GTAAGGGGGC TGAGGCCAAA CACAATCTAC TTGTTTATGG TCAGAGCGAT CAACCCGCAA
    GGTCTCAGTG ATCCAAGCCC TATGTCGGAT CCTGTACGCA CGCAAGATAT CAGCCCCCCA
    GCACAAGGAG TGGACCACAG ACAGGTGCAG AAGGAGTTAG GTGATGTTGT TGTTCGTCTC
    CATAATCCAG TTGTCCTGAC ACCTACAACT GTTCAAGTCA CATGGACGGT GGACCGACAA
    CCCCAGTTTA TTCAGGGCTA CAGAGTGATG TACCGTCAGA CTTCGGGACT CCAAGCCTCA
    ACTGTGTGGC AGAATCTAGA CGCCAAAGTC CCGACTGAGA GGAGTGCTGT CCTTGTGAAT
    TTGAAAAAGG GGGTGACTTA CGAAATTAAA GTCCGGCCGT ATTTTAATGA GTTCCAAGGA
    ATGGACAGTG AATCGAAAAC AGTCCGAACC ACTGAGGAAG CCCCAAGTGC CCCTCCCCAG
    TCTGTCACTG TGCTGACAGT TGGAAGTCAC AACAGCACAA GCATTAGTGT TTCCTGGGAT
    CCTCCACCAG CTGACCACCA GAATGGAATT ATTCAGGAAT ATAAGATCTG GTGTCTGGGA
    AATGAAACGC GATTCCATAT CAATAAAACT GTGGATGCAG CCATTCGCTC TGTAGTAATA
    GGTGGCTTGT TCCCTGGAAT TCAGTACCGG GTAGAAGTGG CAGCTAGCAC AAGTGCAGGG
    GTTGGAGTAA AAAGTGAACC ACAGCCGATA ATAATTGGGG GACGTAACGA AGTTGTCATT
    ACTGAAAACA ATAACAGCAT CACTGAGCAA ATCACGGATG TCGTGAAGCA ACCGGCATTT
    ATAGCTGGCA TTGGTGGTGC CTGCTGGGTA ATTCTGATGG GTTTTAGCAT CTGGTTGTAC
    TGGAGAAGAA AGAAGAGAAA GGGACTCAGC AATTATGCTG TAACATTTCA AAGAGGAGAT
    GGAGGACTAA TGAGCAATGG GAGCCGTCCA GGTCTTCTAA ATGCTGGCGA TCCCAATTAC
    CCATGGCTTG CTGATTCTTG GCCAGCCACG AGTTTGCCAG TGAACAATAG CAATAGTGGC
    CCAAATGAAA TTGGAAATTT TGGGCGTGGA GATGTGCTGC CTCCGGTGCC AGGCCAAGGG
    GATAAAACAG CGACCATGCT CTCCGATGGA GCCATTTATA GCAGCATTGA CTTCACTACC
    AAAACCACTT ACAACAGTTC CAGCCAAATA ACACAGGCCA CCCCATATGC CACTACGCAA
    ATCCTGCATT CAAACAGCAT CCACGAACTG GCAGTTGATC TTCCTGATCC ACAGTGGAAA
    AGCTCAGTTC AACAGAAGAC AGACCTCATG GGATTTGGTT ATTCCCTACC TGATCAGAAC
    AAGGGGAACA ACGCCTTACT TTACATCCCT GACTACCGAT TGGCTGAGGG ATTGTCTAAT
    AGAATGCCAC ACAACCAGTC ACAGGATTTC AGCACCACCA GCTCTCACAA CAGCTCAGAA
    AGGAGTGGCA GTCTCTCAGG TGGGAAAGGT GGAAAAAAGA AGAAAACTAA AAATTCTTCG
    AAAGCGCAGA AAAACAACGG ATCCACTTGG GCTAATGTCC CTCTACCTCC TCCTCCCGTC
    CAGCCCCTTC CTGGTACAGA GCTGGGCCAC TATGCTGCGG AACAAGAAAA TGGCTATGAC
    AGTGACAGCT GGTGCCCACC ATTACCGGTG CAAACATACT TGCATCAGGG TATGGAAGAT
    GAGCTGGAAG AAGACGAAGA TCGGGTCCCA ACACCTCCTG TTCGCGGCGT GGCCTCTTCA
    CCAGCTATCT CTTTTGGACA GCAGTCCACT GCCACTCTTA CTCCATCCCC ACGTGAAGAG
    ATGCAACCCA TGCTGCAAGC TCACTTGGAT GAGTTGACAA GGGCCTATCA GTTTGATATA
    GCAAAACAAA CATGGCACAT TCAAAGCAAT ACTCCACCTC CACAACCCCC AGTTCCGCCA
    TTAGGTTACG TGTCCGGAGC CTTGATTTCT GATTTGGAGA CAGATGTTCC AGATGAGGAT
    GCTGATGACG AAGAGGAACC ATTAGAAATT CCCAGGCCCC TCAGAGCACT AGACCAGACA
    CCTGGATCCA GTATGGACAA TCTAGACAGC TCTGTCACAG GAAAAGCCTT TACCTCCTCT
    CAAAGGCAGC GGCCCACCAG CCCGTTTTCT ACAGACAGTA ACACCAGTGC TGCCCAGAAT
    CAAAGCCAGA GGCCTCGGCC CACGAAAAAA CATAAGGGAG GGCGGATGGA CCCACAGCCA
    GCGTTACCTC ATCGGAGGGA AGGGATGCCA GATGATCTTC CCCCACCACC AGATCCCCCA
    CCAGGTCAGG GTTTAAGGCA GCAGATAGGC CTGAGCCAAC ACTCTGGTAA CGTGGAAAAC
    TCAACAGAGA GAAAAGGAAG CTCTCTAGAG AGACAACAAG CAGCCAACTT AGAAGACACA
    AAGAGCTCAT TGGATTGTCC AGCTAAAACT GTTCTAGAGT GGCAGCGTCA AACCCAGGAC
    TGGATAAACT CTACAGAACG CCAAGAAGAA ACTCGGAAAG CCCCACACAA ACAAGGGGTT
    GGATCAGAGG AGTCCCTGGT GCCCTACAGC AAGCCCAGCT TCCCTTCTCC TGGGGGGCAC
    AGCTCATCAG GAACATCCTC CTCTAAAGGG TCCACTGGCC CTCGGAAGGC CGACGTGCTG
    AGGGGCAGCC ACCAGAGGAA TGCCAATGAC CTTCTCGACA TTGGATATGT GGGCTCAAAT
    AGTCAAGGAC AGTTTACAGA GTAA

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

    RefSeq XP_021040069.1
    CDS231..4814
    Translation

    Target ORF information:

    RefSeq Version XM_021184410.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184410.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCCAGAA GACAAGAAAG TGTCTGTGGA AGGACGTGGA CGTGGACGCT GGGACTACTG 
    ATGCTGATCA TCCTTGGCAT TCATCAGGGG AGTGGGCAAG GTCAAGGATC TCGTCTTCGT
    CAAGAAGACT TTCCCCCCAG GATCGTAGAA CACCCTTCTG ACGTCATCGT CTCCAAGGGA
    GAGCCCACCA CTCTGAACTG TAAAGCAGAG GGCCGACCCA CTCCCACCAT TGAATGGTAC
    AAGGATGGTG AGAGGGTGGA GACAGACAAG GATGATCCCA GGTCCCACAG AATGCTTCTG
    CCCAGCGGAT CTTTATTCTT TTTGCGAATT GTTCATGGGC GCAGAAGTAA ACCGGATGAA
    GGGAGTTACG TTTGTGTTGC AAGGAACTAT CTTGGTGAAG CAGTGAGTCG AAATGCATCT
    CTGGAAGTGG CATTATTGCG AGATGACTTC CGGCAAAACC CCACAGATGT GGTAGTCGCA
    GCTGGAGAGC CTGCAATCTT GGAGTGCCAG CCACCACGGG GACACCCAGA ACCAACCATC
    TACTGGAAAA AGGACAAAGT CCGAATTGAT GACAAGGAAG AGAGAATAAG TATCCGTGGT
    GGGAAGCTGA TGATCTCTAA TACAAGGAAA AGCGATGCTG GCATGTACAC CTGTGTGGGA
    ACCAATATGG TGGGAGAAAG GGACAGCGAC CCTGCAGAGC TCACTGTCTT CGAACGACCC
    ACATTTCTCA GGAGGCCAAT TAACCAGGTG GTGCTAGAGG AAGAGGCTGT AGAATTCCGT
    TGTCAGGTCC AAGGGGATCC CCAGCCAACG GTGAGGTGGA AAAAAGATGA TGCAGACTTG
    CCAAGAGGAA GGTATGATAT CAAAGATGAC TACACGCTGA GAATTAAAAA GGCCATGAGT
    ACTGATGAAG GTACCTATGT GTGTATTGCT GAGAATCGGG TGGGAAAAGT GGAAGCCTCT
    GCTACCCTCA CTGTCCGAGT TCGCCCTGTT GCTCCTCCAC AGTTTGTGGT TAGGCCAAGA
    GATCAGATCG TTGCTCAAGG CCGGACAGTG ACATTCCCCT GTGAAACTAA AGGAAACCCA
    CAGCCAGCTG TATTTTGGCA GAAAGAAGGC AGCCAGAACC TACTTTTCCC GAATCAACCT
    CAGCAGCCTA ACAGCCGATG TTCAGTGTCG CCCACGGGGG ACCTCACCAT CACCAACATC
    CAGCGTTCAG ATGCGGGTTA CTACATCTGC CAGGCCCTAA CCGTGGCAGG AAGCATTTTA
    GCTAAAGCAC AGCTGGAAGT TACTGACGTT TTGACAGATA GACCTCCACC CATAATCTTG
    CAAGGACCAA TAAACCAAAC ACTTGCAGTA GACGGTACAG CATTGCTGAA ATGTAAAGCC
    ACTGGTGAGC CTCTACCTGT AATTAGCTGG CTAAAGGAGG GCTTTACTTT TCTGGGGAGA
    GATCCAAGAG CCACGATCCA AGACCAAGGA ACACTGCAGA TTAAGAATTT ACGGATATCT
    GATACTGGCA CTTATACTTG TGTGGCTACA AGTTCCAGTG GGGAGACTTC CTGGAGTGCA
    GTGCTGGATG TAACAGAATC TGGAGCAACA ATCAGTAAAA ATTATGATAT AAATGACCTC
    CCGGGGCCAC CATCCAAACC TCAGGTCACT GATGTTTCTA AGAACAGTGT CACCTTATCC
    TGGCAGCCAG GTACACCTGG AGTTCTTCCT GCAAGTGCAT ATATCATTGA GGCTTTCAGC
    CAATCGGTGA GCAATAGCTG GCAGACAGTG GCAAACCATG TTAAGACAAC TCTCTATACA
    GTAAGGGGGC TGAGGCCAAA CACAATCTAC TTGTTTATGG TCAGAGCGAT CAACCCGCAA
    GGTCTCAGTG ATCCAAGCCC TATGTCGGAT CCTGTACGCA CGCAAGATAT CAGCCCCCCA
    GCACAAGGAG TGGACCACAG ACAGGTGCAG AAGGAGTTAG GTGATGTTGT TGTTCGTCTC
    CATAATCCAG TTGTCCTGAC ACCTACAACT GTTCAAGTCA CATGGACGGT GGACCGACAA
    CCCCAGTTTA TTCAGGGCTA CAGAGTGATG TACCGTCAGA CTTCGGGACT CCAAGCCTCA
    ACTGTGTGGC AGAATCTAGA CGCCAAAGTC CCGACTGAGA GGAGTGCTGT CCTTGTGAAT
    TTGAAAAAGG GGGTGACTTA CGAAATTAAA GTCCGGCCGT ATTTTAATGA GTTCCAAGGA
    ATGGACAGTG AATCGAAAAC AGTCCGAACC ACTGAGGAAG CCCCAAGTGC CCCTCCCCAG
    TCTGTCACTG TGCTGACAGT TGGAAGTCAC AACAGCACAA GCATTAGTGT TTCCTGGGAT
    CCTCCACCAG CTGACCACCA GAATGGAATT ATTCAGGAAT ATAAGATCTG GTGTCTGGGA
    AATGAAACGC GATTCCATAT CAATAAAACT GTGGATGCAG CCATTCGCTC TGTAGTAATA
    GGTGGCTTGT TCCCTGGAAT TCAGTACCGG GTAGAAGTGG CAGCTAGCAC AAGTGCAGGG
    GTTGGAGTAA AAAGTGAACC ACAGCCGATA ATAATTGGGG GACGTAACGA AGTTGTCATT
    ACTGAAAACA ATAACAGCAT CACTGAGCAA ATCACGGATG TCGTGAAGCA ACCGGCATTT
    ATAGCTGGCA TTGGTGGTGC CTGCTGGGTA ATTCTGATGG GTTTTAGCAT CTGGTTGTAC
    TGGAGAAGAA AGAAGAGAAA GGGACTCAGC AATTATGCTG TAACATTTCA AAGAGGAGAT
    GGAGGACTAA TGAGCAATGG GAGCCGTCCA GGTCTTCTAA ATGCTGGCGA TCCCAATTAC
    CCATGGCTTG CTGATTCTTG GCCAGCCACG AGTTTGCCAG TGAACAATAG CAATAGTGGC
    CCAAATGAAA TTGGAAATTT TGGGCGTGGA GATGTGCTGC CTCCGGTGCC AGGCCAAGGG
    GATAAAACAG CGACCATGCT CTCCGATGGA GCCATTTATA GCAGCATTGA CTTCACTACC
    AAAACCACTT ACAACAGTTC CAGCCAAATA ACACAGGCCA CCCCATATGC CACTACGCAA
    ATCCTGCATT CAAACAGCAT CCACGAACTG GCAGTTGATC TTCCTGATCC ACAGTGGAAA
    AGCTCAGTTC AACAGAAGAC AGACCTCATG GGATTTGGTT ATTCCCTACC TGATCAGAAC
    AAGGGGAACA ACGCCTTACT TTACATCCCT GACTACCGAT TGGCTGAGGG ATTGTCTAAT
    AGAATGCCAC ACAACCAGTC ACAGGATTTC AGCACCACCA GCTCTCACAA CAGCTCAGAA
    AGGAGTGGCA GTCTCTCAGG TGGGAAAGGT GGAAAAAAGA AGAAAACTAA AAATTCTTCG
    AAAGCGCAGA AAAACAACGG ATCCACTTGG GCTAATGTCC CTCTACCTCC TCCTCCCGTC
    CAGCCCCTTC CTGGTACAGA GCTGGGCCAC TATGCTGCGG AACAAGAAAA TGGCTATGAC
    AGTGACAGCT GGTGCCCACC ATTACCGGTG CAAACATACT TGCATCAGGG TATGGAAGAT
    GAGCTGGAAG AAGACGAAGA TCGGGTCCCA ACACCTCCTG TTCGCGGCGT GGCCTCTTCA
    CCAGCTATCT CTTTTGGACA GCAGTCCACT GCCACTCTTA CTCCATCCCC ACGTGAAGAG
    ATGCAACCCA TGCTGCAAGC TCACTTGGAT GAGTTGACAA GGGCCTATCA GTTTGATATA
    GCAAAACAAA CATGGCACAT TCAAAGCAAT ACTCCACCTC CACAACCCCC AGTTCCGCCA
    TTAGGTTACG TGTCCGGAGC CTTGATTTCT GATTTGGAGA CAGATGTTCC AGATGAGGAT
    GCTGATGACG AAGAGGAACC ATTAGAAATT CCCAGGCCCC TCAGAGCACT AGACCAGACA
    CCTGGATCCA GTATGGACAA TCTAGACAGC TCTGTCACAG GAAAAGCCTT TACCTCCTCT
    CAAAGGCAGC GGCCCACCAG CCCGTTTTCT ACAGACAGTA ACACCAGTGC TGCCCAGAAT
    CAAAGCCAGA GGCCTCGGCC CACGAAAAAA CATAAGGGAG GGCGGATGGA CCCACAGCCA
    GCGTTACCTC ATCGGAGGGA AGGGATGCCA GATGATCTTC CCCCACCACC AGATCCCCCA
    CCAGGTCAGG GTTTAAGGCA GCAGATAGGC CTGAGCCAAC ACTCTGGTAA CGTGGAAAAC
    TCAACAGAGA GAAAAGGAAG CTCTCTAGAG AGACAACAAG CAGCCAACTT AGAAGACACA
    AAGAGCTCAT TGGATTGTCC AGCTAAAACT GTTCTAGAGT GGCAGCGTCA AACCCAGGAC
    TGGATAAACT CTACAGAACG CCAAGAAGAA ACTCGGAAAG CCCCACACAA ACAAGGGGTT
    GGATCAGAGG AGTCCCTGGT GCCCTACAGC AAGCCCAGCT TCCCTTCTCC TGGGGGGCAC
    AGCTCATCAG GAACATCCTC CTCTAAAGGG TCCACTGGCC CTCGGAAGGC CGACGTGCTG
    AGGGGCAGCC ACCAGAGGAA TGCCAATGAC CTTCTCGACA TTGGATATGT GGGCTCAAAT
    AGTCAAGGAC AGTTTACAGA GTAA

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

    CloneID OMv32853
    Clone ID Related Accession (Same CDS sequence) XM_021184411.1
    Accession Version XM_021184411.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4527bp)
    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 roundabout homolog 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGCTCCTC CACAGTTTGT GGTTAGGCCA
    AGAGATCAGA TCGTTGCTCA AGGCCGGACA GTGACATTCC CCTGTGAAAC TAAAGGAAAC
    CCACAGCCAG CTGTATTTTG GCAGAAAGAA GGCAGCCAGA ACCTACTTTT CCCGAATCAA
    CCTCAGCAGC CTAACAGCCG ATGTTCAGTG TCGCCCACGG GGGACCTCAC CATCACCAAC
    ATCCAGCGTT CAGATGCGGG TTACTACATC TGCCAGGCCC TAACCGTGGC AGGAAGCATT
    TTAGCTAAAG CACAGCTGGA AGTTACTGAC GTTTTGACAG ATAGACCTCC ACCCATAATC
    TTGCAAGGAC CAATAAACCA AACACTTGCA GTAGACGGTA CAGCATTGCT GAAATGTAAA
    GCCACTGGTG AGCCTCTACC TGTAATTAGC TGGCTAAAGG AGGGCTTTAC TTTTCTGGGG
    AGAGATCCAA GAGCCACGAT CCAAGACCAA GGAACACTGC AGATTAAGAA TTTACGGATA
    TCTGATACTG GCACTTATAC TTGTGTGGCT ACAAGTTCCA GTGGGGAGAC TTCCTGGAGT
    GCAGTGCTGG ATGTAACAGA ATCTGGAGCA ACAATCAGTA AAAATTATGA TATAAATGAC
    CTCCCGGGGC CACCATCCAA ACCTCAGGTC ACTGATGTTT CTAAGAACAG TGTCACCTTA
    TCCTGGCAGC CAGGTACACC TGGAGTTCTT CCTGCAAGTG CATATATCAT TGAGGCTTTC
    AGCCAATCGG TGAGCAATAG CTGGCAGACA GTGGCAAACC ATGTTAAGAC AACTCTCTAT
    ACAGTAAGGG GGCTGAGGCC AAACACAATC TACTTGTTTA TGGTCAGAGC GATCAACCCG
    CAAGGTCTCA GTGATCCAAG CCCTATGTCG GATCCTGTAC GCACGCAAGA TATCAGCCCC
    CCAGCACAAG GAGTGGACCA CAGACAGGTG CAGAAGGAGT TAGGTGATGT TGTTGTTCGT
    CTCCATAATC CAGTTGTCCT GACACCTACA ACTGTTCAAG TCACATGGAC GGTGGACCGA
    CAACCCCAGT TTATTCAGGG CTACAGAGTG ATGTACCGTC AGACTTCGGG ACTCCAAGCC
    TCAACTGTGT GGCAGAATCT AGACGCCAAA GTCCCGACTG AGAGGAGTGC TGTCCTTGTG
    AATTTGAAAA AGGGGGTGAC TTACGAAATT AAAGTCCGGC CGTATTTTAA TGAGTTCCAA
    GGAATGGACA GTGAATCGAA AACAGTCCGA ACCACTGAGG AAGCCCCAAG TGCCCCTCCC
    CAGTCTGTCA CTGTGCTGAC AGTTGGAAGT CACAACAGCA CAAGCATTAG TGTTTCCTGG
    GATCCTCCAC CAGCTGACCA CCAGAATGGA ATTATTCAGG AATATAAGAT CTGGTGTCTG
    GGAAATGAAA CGCGATTCCA TATCAATAAA ACTGTGGATG CAGCCATTCG CTCTGTAGTA
    ATAGGTGGCT TGTTCCCTGG AATTCAGTAC CGGGTAGAAG TGGCAGCTAG CACAAGTGCA
    GGGGTTGGAG TAAAAAGTGA ACCACAGCCG ATAATAATTG GGGGACGTAA CGAAGTTGTC
    ATTACTGAAA ACAATAACAG CATCACTGAG CAAATCACGG ATGTCGTGAA GCAACCGGCA
    TTTATAGCTG GCATTGGTGG TGCCTGCTGG GTAATTCTGA TGGGTTTTAG CATCTGGTTG
    TACTGGAGAA GAAAGAAGAG AAAGGGACTC AGCAATTATG CTGTAACATT TCAAAGAGGA
    GATGGAGGAC TAATGAGCAA TGGGAGCCGT CCAGGTCTTC TAAATGCTGG CGATCCCAAT
    TACCCATGGC TTGCTGATTC TTGGCCAGCC ACGAGTTTGC CAGTGAACAA TAGCAATAGT
    GGCCCAAATG AAATTGGAAA TTTTGGGCGT GGAGATGTGC TGCCTCCGGT GCCAGGCCAA
    GGGGATAAAA CAGCGACCAT GCTCTCCGAT GGAGCCATTT ATAGCAGCAT TGACTTCACT
    ACCAAAACCA CTTACAACAG TTCCAGCCAA ATAACACAGG CCACCCCATA TGCCACTACG
    CAAATCCTGC ATTCAAACAG CATCCACGAA CTGGCAGTTG ATCTTCCTGA TCCACAGTGG
    AAAAGCTCAG TTCAACAGAA GACAGACCTC ATGGGATTTG GTTATTCCCT ACCTGATCAG
    AACAAGGGGA ACAACGCCTT ACTTTACATC CCTGACTACC GATTGGCTGA GGGATTGTCT
    AATAGAATGC CACACAACCA GTCACAGGAT TTCAGCACCA CCAGCTCTCA CAACAGCTCA
    GAAAGGAGTG GCAGTCTCTC AGGTGGGAAA GGTGGAAAAA AGAAGAAAAC TAAAAATTCT
    TCGAAAGCGC AGAAAAACAA CGGATCCACT TGGGCTAATG TCCCTCTACC TCCTCCTCCC
    GTCCAGCCCC TTCCTGGTAC AGAGCTGGGC CACTATGCTG CGGAACAAGA AAATGGCTAT
    GACAGTGACA GCTGGTGCCC ACCATTACCG GTGCAAACAT ACTTGCATCA GGGTATGGAA
    GATGAGCTGG AAGAAGACGA AGATCGGGTC CCAACACCTC CTGTTCGCGG CGTGGCCTCT
    TCACCAGCTA TCTCTTTTGG ACAGCAGTCC ACTGCCACTC TTACTCCATC CCCACGTGAA
    GAGATGCAAC CCATGCTGCA AGCTCACTTG GATGAGTTGA CAAGGGCCTA TCAGTTTGAT
    ATAGCAAAAC AAACATGGCA CATTCAAAGC AATACTCCAC CTCCACAACC CCCAGTTCCG
    CCATTAGGTT ACGTGTCCGG AGCCTTGATT TCTGATTTGG AGACAGATGT TCCAGATGAG
    GATGCTGATG ACGAAGAGGA ACCATTAGAA ATTCCCAGGC CCCTCAGAGC ACTAGACCAG
    ACACCTGGAT CCAGTATGGA CAATCTAGAC AGCTCTGTCA CAGGAAAAGC CTTTACCTCC
    TCTCAAAGGC AGCGGCCCAC CAGCCCGTTT TCTACAGACA GTAACACCAG TGCTGCCCAG
    AATCAAAGCC AGAGGCCTCG GCCCACGAAA AAACATAAGG GAGGGCGGAT GGACCCACAG
    CCAGCGTTAC CTCATCGGAG GGAAGGGATG CCAGATGATC TTCCCCCACC ACCAGATCCC
    CCACCAGGTC AGGGTTTAAG GCAGCAGATA GGCCTGAGCC AACACTCTGG TAACGTGGAA
    AACTCAACAG AGAGAAAAGG AAGCTCTCTA GAGAGACAAC AAGCAGCCAA CTTAGAAGAC
    ACAAAGAGCT CATTGGATTG TCCAGCTAAA ACTGTTCTAG AGTGGCAGCG TCAAACCCAG
    GACTGGATAA ACTCTACAGA ACGCCAAGAA GAAACTCGGA AAGCCCCACA CAAACAAGGG
    GTTGGATCAG AGGAGTCCCT GGTGCCCTAC AGCAAGCCCA GCTTCCCTTC TCCTGGGGGG
    CACAGCTCAT CAGGAACATC CTCCTCTAAA GGGTCCACTG GCCCTCGGAA GGCCGACGTG
    CTGAGGGGCA GCCACCAGAG GAATGCCAAT GACCTTCTCG ACATTGGATA TGTGGGCTCA
    AATAGTCAAG GACAGTTTAC AGAGTAA

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

    RefSeq XP_021040070.1
    CDS569..5095
    Translation

    Target ORF information:

    RefSeq Version XM_021184411.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184411.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGCTCCTC CACAGTTTGT GGTTAGGCCA
    AGAGATCAGA TCGTTGCTCA AGGCCGGACA GTGACATTCC CCTGTGAAAC TAAAGGAAAC
    CCACAGCCAG CTGTATTTTG GCAGAAAGAA GGCAGCCAGA ACCTACTTTT CCCGAATCAA
    CCTCAGCAGC CTAACAGCCG ATGTTCAGTG TCGCCCACGG GGGACCTCAC CATCACCAAC
    ATCCAGCGTT CAGATGCGGG TTACTACATC TGCCAGGCCC TAACCGTGGC AGGAAGCATT
    TTAGCTAAAG CACAGCTGGA AGTTACTGAC GTTTTGACAG ATAGACCTCC ACCCATAATC
    TTGCAAGGAC CAATAAACCA AACACTTGCA GTAGACGGTA CAGCATTGCT GAAATGTAAA
    GCCACTGGTG AGCCTCTACC TGTAATTAGC TGGCTAAAGG AGGGCTTTAC TTTTCTGGGG
    AGAGATCCAA GAGCCACGAT CCAAGACCAA GGAACACTGC AGATTAAGAA TTTACGGATA
    TCTGATACTG GCACTTATAC TTGTGTGGCT ACAAGTTCCA GTGGGGAGAC TTCCTGGAGT
    GCAGTGCTGG ATGTAACAGA ATCTGGAGCA ACAATCAGTA AAAATTATGA TATAAATGAC
    CTCCCGGGGC CACCATCCAA ACCTCAGGTC ACTGATGTTT CTAAGAACAG TGTCACCTTA
    TCCTGGCAGC CAGGTACACC TGGAGTTCTT CCTGCAAGTG CATATATCAT TGAGGCTTTC
    AGCCAATCGG TGAGCAATAG CTGGCAGACA GTGGCAAACC ATGTTAAGAC AACTCTCTAT
    ACAGTAAGGG GGCTGAGGCC AAACACAATC TACTTGTTTA TGGTCAGAGC GATCAACCCG
    CAAGGTCTCA GTGATCCAAG CCCTATGTCG GATCCTGTAC GCACGCAAGA TATCAGCCCC
    CCAGCACAAG GAGTGGACCA CAGACAGGTG CAGAAGGAGT TAGGTGATGT TGTTGTTCGT
    CTCCATAATC CAGTTGTCCT GACACCTACA ACTGTTCAAG TCACATGGAC GGTGGACCGA
    CAACCCCAGT TTATTCAGGG CTACAGAGTG ATGTACCGTC AGACTTCGGG ACTCCAAGCC
    TCAACTGTGT GGCAGAATCT AGACGCCAAA GTCCCGACTG AGAGGAGTGC TGTCCTTGTG
    AATTTGAAAA AGGGGGTGAC TTACGAAATT AAAGTCCGGC CGTATTTTAA TGAGTTCCAA
    GGAATGGACA GTGAATCGAA AACAGTCCGA ACCACTGAGG AAGCCCCAAG TGCCCCTCCC
    CAGTCTGTCA CTGTGCTGAC AGTTGGAAGT CACAACAGCA CAAGCATTAG TGTTTCCTGG
    GATCCTCCAC CAGCTGACCA CCAGAATGGA ATTATTCAGG AATATAAGAT CTGGTGTCTG
    GGAAATGAAA CGCGATTCCA TATCAATAAA ACTGTGGATG CAGCCATTCG CTCTGTAGTA
    ATAGGTGGCT TGTTCCCTGG AATTCAGTAC CGGGTAGAAG TGGCAGCTAG CACAAGTGCA
    GGGGTTGGAG TAAAAAGTGA ACCACAGCCG ATAATAATTG GGGGACGTAA CGAAGTTGTC
    ATTACTGAAA ACAATAACAG CATCACTGAG CAAATCACGG ATGTCGTGAA GCAACCGGCA
    TTTATAGCTG GCATTGGTGG TGCCTGCTGG GTAATTCTGA TGGGTTTTAG CATCTGGTTG
    TACTGGAGAA GAAAGAAGAG AAAGGGACTC AGCAATTATG CTGTAACATT TCAAAGAGGA
    GATGGAGGAC TAATGAGCAA TGGGAGCCGT CCAGGTCTTC TAAATGCTGG CGATCCCAAT
    TACCCATGGC TTGCTGATTC TTGGCCAGCC ACGAGTTTGC CAGTGAACAA TAGCAATAGT
    GGCCCAAATG AAATTGGAAA TTTTGGGCGT GGAGATGTGC TGCCTCCGGT GCCAGGCCAA
    GGGGATAAAA CAGCGACCAT GCTCTCCGAT GGAGCCATTT ATAGCAGCAT TGACTTCACT
    ACCAAAACCA CTTACAACAG TTCCAGCCAA ATAACACAGG CCACCCCATA TGCCACTACG
    CAAATCCTGC ATTCAAACAG CATCCACGAA CTGGCAGTTG ATCTTCCTGA TCCACAGTGG
    AAAAGCTCAG TTCAACAGAA GACAGACCTC ATGGGATTTG GTTATTCCCT ACCTGATCAG
    AACAAGGGGA ACAACGCCTT ACTTTACATC CCTGACTACC GATTGGCTGA GGGATTGTCT
    AATAGAATGC CACACAACCA GTCACAGGAT TTCAGCACCA CCAGCTCTCA CAACAGCTCA
    GAAAGGAGTG GCAGTCTCTC AGGTGGGAAA GGTGGAAAAA AGAAGAAAAC TAAAAATTCT
    TCGAAAGCGC AGAAAAACAA CGGATCCACT TGGGCTAATG TCCCTCTACC TCCTCCTCCC
    GTCCAGCCCC TTCCTGGTAC AGAGCTGGGC CACTATGCTG CGGAACAAGA AAATGGCTAT
    GACAGTGACA GCTGGTGCCC ACCATTACCG GTGCAAACAT ACTTGCATCA GGGTATGGAA
    GATGAGCTGG AAGAAGACGA AGATCGGGTC CCAACACCTC CTGTTCGCGG CGTGGCCTCT
    TCACCAGCTA TCTCTTTTGG ACAGCAGTCC ACTGCCACTC TTACTCCATC CCCACGTGAA
    GAGATGCAAC CCATGCTGCA AGCTCACTTG GATGAGTTGA CAAGGGCCTA TCAGTTTGAT
    ATAGCAAAAC AAACATGGCA CATTCAAAGC AATACTCCAC CTCCACAACC CCCAGTTCCG
    CCATTAGGTT ACGTGTCCGG AGCCTTGATT TCTGATTTGG AGACAGATGT TCCAGATGAG
    GATGCTGATG ACGAAGAGGA ACCATTAGAA ATTCCCAGGC CCCTCAGAGC ACTAGACCAG
    ACACCTGGAT CCAGTATGGA CAATCTAGAC AGCTCTGTCA CAGGAAAAGC CTTTACCTCC
    TCTCAAAGGC AGCGGCCCAC CAGCCCGTTT TCTACAGACA GTAACACCAG TGCTGCCCAG
    AATCAAAGCC AGAGGCCTCG GCCCACGAAA AAACATAAGG GAGGGCGGAT GGACCCACAG
    CCAGCGTTAC CTCATCGGAG GGAAGGGATG CCAGATGATC TTCCCCCACC ACCAGATCCC
    CCACCAGGTC AGGGTTTAAG GCAGCAGATA GGCCTGAGCC AACACTCTGG TAACGTGGAA
    AACTCAACAG AGAGAAAAGG AAGCTCTCTA GAGAGACAAC AAGCAGCCAA CTTAGAAGAC
    ACAAAGAGCT CATTGGATTG TCCAGCTAAA ACTGTTCTAG AGTGGCAGCG TCAAACCCAG
    GACTGGATAA ACTCTACAGA ACGCCAAGAA GAAACTCGGA AAGCCCCACA CAAACAAGGG
    GTTGGATCAG AGGAGTCCCT GGTGCCCTAC AGCAAGCCCA GCTTCCCTTC TCCTGGGGGG
    CACAGCTCAT CAGGAACATC CTCCTCTAAA GGGTCCACTG GCCCTCGGAA GGCCGACGTG
    CTGAGGGGCA GCCACCAGAG GAATGCCAAT GACCTTCTCG ACATTGGATA TGTGGGCTCA
    AATAGTCAAG GACAGTTTAC AGAGTAA

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

    CloneID OMv69678
    Clone ID Related Accession (Same CDS sequence) XM_029470218.1
    Accession Version XM_029470218.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4797bp)
    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 roundabout homolog 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGTTCAA TGGTAAATGG ATGGGGCTCT GCATCTGATG AGGATCGTAA CTTTTCTAGT
    CATAGATCTA GTGTAGGTAG CTCCTCAGAT GGCTCCATCT TTGCCAGCGG CAGCTTTGCA
    AAAGCATTGG TGGCAGCAGC AGACAAAGCT GGCTTTAGGC TGGATGGAAC CAGTCTTACG
    AGAACAGGAA AAGCCTTTAC CTCCTCTCAA AGGCAGCGGC CCACCAGCCC GTTTTCTACA
    GACAGTAACA CCAGTGCTGC CCAGAATCAA AGCCAGAGGC CTCGGCCCAC GAAAAAACAT
    AAGGGAGGGC GGATGGACCC ACAGCCAGCG TTACCTCATC GGAGGGAAGG GATGCCAGAT
    GATCTTCCCC CACCACCAGA TCCCCCACCA GGTCAGGGTT TAAGGCAGCA GATAGGCCTG
    AGCCAACACT CTGGTAACGT GGAAAACTCA ACAGAGAGAA AAGGAAGCTC TCTAGAGAGA
    CAACAAGCAG CCAACTTAGA AGACACAAAG AGCTCATTGG ATTGTCCAGC TAAAACTGTT
    CTAGAGTGGC AGCGTCAAAC CCAGGACTGG ATAAACTCTA CAGAACGCCA AGAAGAAACT
    CGGAAAGCCC CACACAAACA AGGGGTTGGA TCAGAGGAGT CCCTGGTGCC CTACAGCAAG
    CCCAGCTTCC CTTCTCCTGG GGGGCACAGC TCATCAGGAA CATCCTCCTC TAAAGGGTCC
    ACTGGCCCTC GGAAGGCCGA CGTGCTGAGG GGCAGCCACC AGAGGAATGC CAATGACCTT
    CTCGACATTG GATATGTGGG CTCAAATAGT CAAGGACAGT TTACAGGTGA ATTGTAG

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

    RefSeq XP_029326078.1
    CDS1298..6094
    Translation

    Target ORF information:

    RefSeq Version XM_029470218.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470218.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGTTCAA TGGTAAATGG ATGGGGCTCT GCATCTGATG AGGATCGTAA CTTTTCTAGT
    CATAGATCTA GTGTAGGTAG CTCCTCAGAT GGCTCCATCT TTGCCAGCGG CAGCTTTGCA
    AAAGCATTGG TGGCAGCAGC AGACAAAGCT GGCTTTAGGC TGGATGGAAC CAGTCTTACG
    AGAACAGGAA AAGCCTTTAC CTCCTCTCAA AGGCAGCGGC CCACCAGCCC GTTTTCTACA
    GACAGTAACA CCAGTGCTGC CCAGAATCAA AGCCAGAGGC CTCGGCCCAC GAAAAAACAT
    AAGGGAGGGC GGATGGACCC ACAGCCAGCG TTACCTCATC GGAGGGAAGG GATGCCAGAT
    GATCTTCCCC CACCACCAGA TCCCCCACCA GGTCAGGGTT TAAGGCAGCA GATAGGCCTG
    AGCCAACACT CTGGTAACGT GGAAAACTCA ACAGAGAGAA AAGGAAGCTC TCTAGAGAGA
    CAACAAGCAG CCAACTTAGA AGACACAAAG AGCTCATTGG ATTGTCCAGC TAAAACTGTT
    CTAGAGTGGC AGCGTCAAAC CCAGGACTGG ATAAACTCTA CAGAACGCCA AGAAGAAACT
    CGGAAAGCCC CACACAAACA AGGGGTTGGA TCAGAGGAGT CCCTGGTGCC CTACAGCAAG
    CCCAGCTTCC CTTCTCCTGG GGGGCACAGC TCATCAGGAA CATCCTCCTC TAAAGGGTCC
    ACTGGCCCTC GGAAGGCCGA CGTGCTGAGG GGCAGCCACC AGAGGAATGC CAATGACCTT
    CTCGACATTG GATATGTGGG CTCAAATAGT CAAGGACAGT TTACAGGTGA ATTGTAG

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

    CloneID OMv69679
    Clone ID Related Accession (Same CDS sequence) XM_029470219.1
    Accession Version XM_029470219.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4791bp)
    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 roundabout homolog 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGTTCAA TGGTAAATGG ATGGGGCTCT GCATCTGATG AGGATCGTAA CTTTTCTAGT
    CATAGATCTA GTGTAGGTAG CTCCTCAGAT GGCTCCATCT TTGCCAGCGG CAGCTTTGCA
    AAAGCATTGG TGGCAGCAGC AGACAAAGCT GGCTTTAGGC TGGATGGAAC CAGTCTTACG
    AGAACAGGAA AAGCCTTTAC CTCCTCTCAA AGGCAGCGGC CCACCAGCCC GTTTTCTACA
    GACAGTAACA CCAGTGCTGC CCAGAATCAA AGCCAGAGGC CTCGGCCCAC GAAAAAACAT
    AAGGGAGGGC GGATGGACCC ACAGCCAGCG TTACCTCATC GGAGGGAAGG GATGCCAGAT
    GATCTTCCCC CACCACCAGA TCCCCCACCA GGTCAGGGTT TAAGGCAGCA GATAGGCCTG
    AGCCAACACT CTGGTAACGT GGAAAACTCA ACAGAGAGAA AAGGAAGCTC TCTAGAGAGA
    CAACAAGCAG CCAACTTAGA AGACACAAAG AGCTCATTGG ATTGTCCAGC TAAAACTGTT
    CTAGAGTGGC AGCGTCAAAC CCAGGACTGG ATAAACTCTA CAGAACGCCA AGAAGAAACT
    CGGAAAGCCC CACACAAACA AGGGGTTGGA TCAGAGGAGT CCCTGGTGCC CTACAGCAAG
    CCCAGCTTCC CTTCTCCTGG GGGGCACAGC TCATCAGGAA CATCCTCCTC TAAAGGGTCC
    ACTGGCCCTC GGAAGGCCGA CGTGCTGAGG GGCAGCCACC AGAGGAATGC CAATGACCTT
    CTCGACATTG GATATGTGGG CTCAAATAGT CAAGGACAGT TTACAGAGTA A

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

    RefSeq XP_029326079.1
    CDS1297..6087
    Translation

    Target ORF information:

    RefSeq Version XM_029470219.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470219.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGTTCAA TGGTAAATGG ATGGGGCTCT GCATCTGATG AGGATCGTAA CTTTTCTAGT
    CATAGATCTA GTGTAGGTAG CTCCTCAGAT GGCTCCATCT TTGCCAGCGG CAGCTTTGCA
    AAAGCATTGG TGGCAGCAGC AGACAAAGCT GGCTTTAGGC TGGATGGAAC CAGTCTTACG
    AGAACAGGAA AAGCCTTTAC CTCCTCTCAA AGGCAGCGGC CCACCAGCCC GTTTTCTACA
    GACAGTAACA CCAGTGCTGC CCAGAATCAA AGCCAGAGGC CTCGGCCCAC GAAAAAACAT
    AAGGGAGGGC GGATGGACCC ACAGCCAGCG TTACCTCATC GGAGGGAAGG GATGCCAGAT
    GATCTTCCCC CACCACCAGA TCCCCCACCA GGTCAGGGTT TAAGGCAGCA GATAGGCCTG
    AGCCAACACT CTGGTAACGT GGAAAACTCA ACAGAGAGAA AAGGAAGCTC TCTAGAGAGA
    CAACAAGCAG CCAACTTAGA AGACACAAAG AGCTCATTGG ATTGTCCAGC TAAAACTGTT
    CTAGAGTGGC AGCGTCAAAC CCAGGACTGG ATAAACTCTA CAGAACGCCA AGAAGAAACT
    CGGAAAGCCC CACACAAACA AGGGGTTGGA TCAGAGGAGT CCCTGGTGCC CTACAGCAAG
    CCCAGCTTCC CTTCTCCTGG GGGGCACAGC TCATCAGGAA CATCCTCCTC TAAAGGGTCC
    ACTGGCCCTC GGAAGGCCGA CGTGCTGAGG GGCAGCCACC AGAGGAATGC CAATGACCTT
    CTCGACATTG GATATGTGGG CTCAAATAGT CAAGGACAGT TTACAGAGTA A

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

    CloneID OMv69680
    Clone ID Related Accession (Same CDS sequence) XM_029470220.1
    Accession Version XM_029470220.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4773bp)
    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 roundabout homolog 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCCAGAA GACAAGAAAG TGTCTGTGGA AGGACGTGGA CGTGGACGCT GGGACTACTG 
    ATGCTGATCA TCCTTGGCAT TCATCAGGGG AGTGGGCAAG GTCAAGGATC TCGTCTTCGT
    CAAGAAGACT TTCCCCCCAG GATCGTAGAA CACCCTTCTG ACGTCATCGT CTCCAAGGGA
    GAGCCCACCA CTCTGAACTG TAAAGCAGAG GGCCGACCCA CTCCCACCAT TGAATGGTAC
    AAGGATGGTG AGAGGGTGGA GACAGACAAG GATGATCCCA GGTCCCACAG AATGCTTCTG
    CCCAGCGGAT CTTTATTCTT TTTGCGAATT GTTCATGGGC GCAGAAGTAA ACCGGATGAA
    GGGAGTTACG TTTGTGTTGC AAGGAACTAT CTTGGTGAAG CAGTGAGTCG AAATGCATCT
    CTGGAAGTGG CATTATTGCG AGATGACTTC CGGCAAAACC CCACAGATGT GGTAGTCGCA
    GCTGGAGAGC CTGCAATCTT GGAGTGCCAG CCACCACGGG GACACCCAGA ACCAACCATC
    TACTGGAAAA AGGACAAAGT CCGAATTGAT GACAAGGAAG AGAGAATAAG TATCCGTGGT
    GGGAAGCTGA TGATCTCTAA TACAAGGAAA AGCGATGCTG GCATGTACAC CTGTGTGGGA
    ACCAATATGG TGGGAGAAAG GGACAGCGAC CCTGCAGAGC TCACTGTCTT CGAACGACCC
    ACATTTCTCA GGAGGCCAAT TAACCAGGTG GTGCTAGAGG AAGAGGCTGT AGAATTCCGT
    TGTCAGGTCC AAGGGGATCC CCAGCCAACG GTGAGGTGGA AAAAAGATGA TGCAGACTTG
    CCAAGAGGAA GGTATGATAT CAAAGATGAC TACACGCTGA GAATTAAAAA GGCCATGAGT
    ACTGATGAAG GTACCTATGT GTGTATTGCT GAGAATCGGG TGGGAAAAGT GGAAGCCTCT
    GCTACCCTCA CTGTCCGAGT TCGCCCTGTT GCTCCTCCAC AGTTTGTGGT TAGGCCAAGA
    GATCAGATCG TTGCTCAAGG CCGGACAGTG ACATTCCCCT GTGAAACTAA AGGAAACCCA
    CAGCCAGCTG TATTTTGGCA GAAAGAAGGC AGCCAGAACC TACTTTTCCC GAATCAACCT
    CAGCAGCCTA ACAGCCGATG TTCAGTGTCG CCCACGGGGG ACCTCACCAT CACCAACATC
    CAGCGTTCAG ATGCGGGTTA CTACATCTGC CAGGCCCTAA CCGTGGCAGG AAGCATTTTA
    GCTAAAGCAC AGCTGGAAGT TACTGACGTT TTGACAGATA GACCTCCACC CATAATCTTG
    CAAGGACCAA TAAACCAAAC ACTTGCAGTA GACGGTACAG CATTGCTGAA ATGTAAAGCC
    ACTGGTGAGC CTCTACCTGT AATTAGCTGG CTAAAGGAGG GCTTTACTTT TCTGGGGAGA
    GATCCAAGAG CCACGATCCA AGACCAAGGA ACACTGCAGA TTAAGAATTT ACGGATATCT
    GATACTGGCA CTTATACTTG TGTGGCTACA AGTTCCAGTG GGGAGACTTC CTGGAGTGCA
    GTGCTGGATG TAACAGAATC TGGAGCAACA ATCAGTAAAA ATTATGATAT AAATGACCTC
    CCGGGGCCAC CATCCAAACC TCAGGTCACT GATGTTTCTA AGAACAGTGT CACCTTATCC
    TGGCAGCCAG GTACACCTGG AGTTCTTCCT GCAAGTGCAT ATATCATTGA GGCTTTCAGC
    CAATCGGTGA GCAATAGCTG GCAGACAGTG GCAAACCATG TTAAGACAAC TCTCTATACA
    GTAAGGGGGC TGAGGCCAAA CACAATCTAC TTGTTTATGG TCAGAGCGAT CAACCCGCAA
    GGTCTCAGTG ATCCAAGCCC TATGTCGGAT CCTGTACGCA CGCAAGATAT CAGCCCCCCA
    GCACAAGGAG TGGACCACAG ACAGGTGCAG AAGGAGTTAG GTGATGTTGT TGTTCGTCTC
    CATAATCCAG TTGTCCTGAC ACCTACAACT GTTCAAGTCA CATGGACGGT GGACCGACAA
    CCCCAGTTTA TTCAGGGCTA CAGAGTGATG TACCGTCAGA CTTCGGGACT CCAAGCCTCA
    ACTGTGTGGC AGAATCTAGA CGCCAAAGTC CCGACTGAGA GGAGTGCTGT CCTTGTGAAT
    TTGAAAAAGG GGGTGACTTA CGAAATTAAA GTCCGGCCGT ATTTTAATGA GTTCCAAGGA
    ATGGACAGTG AATCGAAAAC AGTCCGAACC ACTGAGGAAG CCCCAAGTGC CCCTCCCCAG
    TCTGTCACTG TGCTGACAGT TGGAAGTCAC AACAGCACAA GCATTAGTGT TTCCTGGGAT
    CCTCCACCAG CTGACCACCA GAATGGAATT ATTCAGGAAT ATAAGATCTG GTGTCTGGGA
    AATGAAACGC GATTCCATAT CAATAAAACT GTGGATGCAG CCATTCGCTC TGTAGTAATA
    GGTGGCTTGT TCCCTGGAAT TCAGTACCGG GTAGAAGTGG CAGCTAGCAC AAGTGCAGGG
    GTTGGAGTAA AAAGTGAACC ACAGCCGATA ATAATTGGGG GACGTAACGA AGTTGTCATT
    ACTGAAAACA ATAACAGCAT CACTGAGCAA ATCACGGATG TCGTGAAGCA ACCGGCATTT
    ATAGCTGGCA TTGGTGGTGC CTGCTGGGTA ATTCTGATGG GTTTTAGCAT CTGGTTGTAC
    TGGAGAAGAA AGAAGAGAAA GGGACTCAGC AATTATGCTG TAACATTTCA AAGAGGAGAT
    GGAGGACTAA TGAGCAATGG GAGCCGTCCA GGTCTTCTAA ATGCTGGCGA TCCCAATTAC
    CCATGGCTTG CTGATTCTTG GCCAGCCACG AGTTTGCCAG TGAACAATAG CAATAGTGGC
    CCAAATGAAA TTGGAAATTT TGGGCGTGGA GATGTGCTGC CTCCGGTGCC AGGCCAAGGG
    GATAAAACAG CGACCATGCT CTCCGATGGA GCCATTTATA GCAGCATTGA CTTCACTACC
    AAAACCACTT ACAACAGTTC CAGCCAAATA ACACAGGCCA CCCCATATGC CACTACGCAA
    ATCCTGCATT CAAACAGCAT CCACGAACTG GCAGTTGATC TTCCTGATCC ACAGTGGAAA
    AGCTCAGTTC AACAGAAGAC AGACCTCATG GGATTTGGTT ATTCCCTACC TGATCAGAAC
    AAGGGGAACA ACGCCTTACT TTACATCCCT GACTACCGAT TGGCTGAGGG ATTGTCTAAT
    AGAATGCCAC ACAACCAGTC ACAGGATTTC AGCACCACCA GCTCTCACAA CAGCTCAGAA
    AGGAGTGGCA GTCTCTCAGG TGGGAAAGGT GGAAAAAAGA AGAAAACTAA AAATTCTTCG
    AAAGCGCAGA AAAACAACGG ATCCACTTGG GCTAATGTCC CTCTACCTCC TCCTCCCGTC
    CAGCCCCTTC CTGGTACAGA GCTGGGCCAC TATGCTGCGG AACAAGAAAA TGGCTATGAC
    AGTGACAGCT GGTGCCCACC ATTACCGGTG CAAACATACT TGCATCAGGG TATGGAAGAT
    GAGCTGGAAG AAGACGAAGA TCGGGTCCCA ACACCTCCTG TTCGCGGCGT GGCCTCTTCA
    CCAGCTATCT CTTTTGGACA GCAGTCCACT GCCACTCTTA CTCCATCCCC ACGTGAAGAG
    ATGCAACCCA TGCTGCAAGC TCACTTGGAT GAGTTGACAA GGGCCTATCA GTTTGATATA
    GCAAAACAAA CATGGCACAT TCAAAGCAAT ACTCCACCTC CACAACCCCC AGTTCCGCCA
    TTAGGTTACG TGTCCGGAGC CTTGATTTCT GATTTGGAGA CAGATGTTCC AGATGAGGAT
    GCTGATGACG AAGAGGAACC ATTAGAAATT CCCAGGCCCC TCAGAGCACT AGACCAGACA
    CCTGGATCCA GTATGGACAA TCTAGACAGC TCTGTCACAG GTTCAATGGT AAATGGATGG
    GGCTCTGCAT CTGATGAGGA TCGTAACTTT TCTAGTCATA GATCTAGTGT AGGTAGCTCC
    TCAGATGGCT CCATCTTTGC CAGCGGCAGC TTTGCAAAAG CATTGGTGGC AGCAGCAGAC
    AAAGCTGGCT TTAGGCTGGA TGGAACCAGT CTTACGAGAA CAGGAAAAGC CTTTACCTCC
    TCTCAAAGGC AGCGGCCCAC CAGCCCGTTT TCTACAGACA GTAACACCAG TGCTGCCCAG
    AATCAAAGCC AGAGGCCTCG GCCCACGAAA AAACATAAGG GAGGGCGGAT GGACCCACAG
    CCAGCGTTAC CTCATCGGAG GGAAGGGATG CCAGATGATC TTCCCCCACC ACCAGATCCC
    CCACCAGGTC AGGGTTTAAG GCAGCAGATA GGCCTGAGCC AACACTCTGG TAACGTGGAA
    AACTCAACAG AGAGAAAAGG AAGCTCTCTA GAGAGACAAC AAGCAGCCAA CTTAGAAGAC
    ACAAAGAGCT CATTGGATTG TCCAGCTAAA ACTGTTCTAG AGTGGCAGCG TCAAACCCAG
    GACTGGATAA ACTCTACAGA ACGCCAAGAA GAAACTCGGA AAGCCCCACA CAAACAAGGG
    GTTGGATCAG AGGAGTCCCT GGTGCCCTAC AGCAAGCCCA GCTTCCCTTC TCCTGGGGGG
    CACAGCTCAT CAGGAACATC CTCCTCTAAA GGGTCCACTG GCCCTCGGAA GGCCGACGTG
    CTGAGGGGCA GCCACCAGAG GAATGCCAAT GACCTTCTCG ACATTGGATA TGTGGGCTCA
    AATAGTCAAG GACAGTTTAC AGGTGAATTG TAG

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

    RefSeq XP_029326080.1
    CDS223..4995
    Translation

    Target ORF information:

    RefSeq Version XM_029470220.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470220.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGCCAGAA GACAAGAAAG TGTCTGTGGA AGGACGTGGA CGTGGACGCT GGGACTACTG 
    ATGCTGATCA TCCTTGGCAT TCATCAGGGG AGTGGGCAAG GTCAAGGATC TCGTCTTCGT
    CAAGAAGACT TTCCCCCCAG GATCGTAGAA CACCCTTCTG ACGTCATCGT CTCCAAGGGA
    GAGCCCACCA CTCTGAACTG TAAAGCAGAG GGCCGACCCA CTCCCACCAT TGAATGGTAC
    AAGGATGGTG AGAGGGTGGA GACAGACAAG GATGATCCCA GGTCCCACAG AATGCTTCTG
    CCCAGCGGAT CTTTATTCTT TTTGCGAATT GTTCATGGGC GCAGAAGTAA ACCGGATGAA
    GGGAGTTACG TTTGTGTTGC AAGGAACTAT CTTGGTGAAG CAGTGAGTCG AAATGCATCT
    CTGGAAGTGG CATTATTGCG AGATGACTTC CGGCAAAACC CCACAGATGT GGTAGTCGCA
    GCTGGAGAGC CTGCAATCTT GGAGTGCCAG CCACCACGGG GACACCCAGA ACCAACCATC
    TACTGGAAAA AGGACAAAGT CCGAATTGAT GACAAGGAAG AGAGAATAAG TATCCGTGGT
    GGGAAGCTGA TGATCTCTAA TACAAGGAAA AGCGATGCTG GCATGTACAC CTGTGTGGGA
    ACCAATATGG TGGGAGAAAG GGACAGCGAC CCTGCAGAGC TCACTGTCTT CGAACGACCC
    ACATTTCTCA GGAGGCCAAT TAACCAGGTG GTGCTAGAGG AAGAGGCTGT AGAATTCCGT
    TGTCAGGTCC AAGGGGATCC CCAGCCAACG GTGAGGTGGA AAAAAGATGA TGCAGACTTG
    CCAAGAGGAA GGTATGATAT CAAAGATGAC TACACGCTGA GAATTAAAAA GGCCATGAGT
    ACTGATGAAG GTACCTATGT GTGTATTGCT GAGAATCGGG TGGGAAAAGT GGAAGCCTCT
    GCTACCCTCA CTGTCCGAGT TCGCCCTGTT GCTCCTCCAC AGTTTGTGGT TAGGCCAAGA
    GATCAGATCG TTGCTCAAGG CCGGACAGTG ACATTCCCCT GTGAAACTAA AGGAAACCCA
    CAGCCAGCTG TATTTTGGCA GAAAGAAGGC AGCCAGAACC TACTTTTCCC GAATCAACCT
    CAGCAGCCTA ACAGCCGATG TTCAGTGTCG CCCACGGGGG ACCTCACCAT CACCAACATC
    CAGCGTTCAG ATGCGGGTTA CTACATCTGC CAGGCCCTAA CCGTGGCAGG AAGCATTTTA
    GCTAAAGCAC AGCTGGAAGT TACTGACGTT TTGACAGATA GACCTCCACC CATAATCTTG
    CAAGGACCAA TAAACCAAAC ACTTGCAGTA GACGGTACAG CATTGCTGAA ATGTAAAGCC
    ACTGGTGAGC CTCTACCTGT AATTAGCTGG CTAAAGGAGG GCTTTACTTT TCTGGGGAGA
    GATCCAAGAG CCACGATCCA AGACCAAGGA ACACTGCAGA TTAAGAATTT ACGGATATCT
    GATACTGGCA CTTATACTTG TGTGGCTACA AGTTCCAGTG GGGAGACTTC CTGGAGTGCA
    GTGCTGGATG TAACAGAATC TGGAGCAACA ATCAGTAAAA ATTATGATAT AAATGACCTC
    CCGGGGCCAC CATCCAAACC TCAGGTCACT GATGTTTCTA AGAACAGTGT CACCTTATCC
    TGGCAGCCAG GTACACCTGG AGTTCTTCCT GCAAGTGCAT ATATCATTGA GGCTTTCAGC
    CAATCGGTGA GCAATAGCTG GCAGACAGTG GCAAACCATG TTAAGACAAC TCTCTATACA
    GTAAGGGGGC TGAGGCCAAA CACAATCTAC TTGTTTATGG TCAGAGCGAT CAACCCGCAA
    GGTCTCAGTG ATCCAAGCCC TATGTCGGAT CCTGTACGCA CGCAAGATAT CAGCCCCCCA
    GCACAAGGAG TGGACCACAG ACAGGTGCAG AAGGAGTTAG GTGATGTTGT TGTTCGTCTC
    CATAATCCAG TTGTCCTGAC ACCTACAACT GTTCAAGTCA CATGGACGGT GGACCGACAA
    CCCCAGTTTA TTCAGGGCTA CAGAGTGATG TACCGTCAGA CTTCGGGACT CCAAGCCTCA
    ACTGTGTGGC AGAATCTAGA CGCCAAAGTC CCGACTGAGA GGAGTGCTGT CCTTGTGAAT
    TTGAAAAAGG GGGTGACTTA CGAAATTAAA GTCCGGCCGT ATTTTAATGA GTTCCAAGGA
    ATGGACAGTG AATCGAAAAC AGTCCGAACC ACTGAGGAAG CCCCAAGTGC CCCTCCCCAG
    TCTGTCACTG TGCTGACAGT TGGAAGTCAC AACAGCACAA GCATTAGTGT TTCCTGGGAT
    CCTCCACCAG CTGACCACCA GAATGGAATT ATTCAGGAAT ATAAGATCTG GTGTCTGGGA
    AATGAAACGC GATTCCATAT CAATAAAACT GTGGATGCAG CCATTCGCTC TGTAGTAATA
    GGTGGCTTGT TCCCTGGAAT TCAGTACCGG GTAGAAGTGG CAGCTAGCAC AAGTGCAGGG
    GTTGGAGTAA AAAGTGAACC ACAGCCGATA ATAATTGGGG GACGTAACGA AGTTGTCATT
    ACTGAAAACA ATAACAGCAT CACTGAGCAA ATCACGGATG TCGTGAAGCA ACCGGCATTT
    ATAGCTGGCA TTGGTGGTGC CTGCTGGGTA ATTCTGATGG GTTTTAGCAT CTGGTTGTAC
    TGGAGAAGAA AGAAGAGAAA GGGACTCAGC AATTATGCTG TAACATTTCA AAGAGGAGAT
    GGAGGACTAA TGAGCAATGG GAGCCGTCCA GGTCTTCTAA ATGCTGGCGA TCCCAATTAC
    CCATGGCTTG CTGATTCTTG GCCAGCCACG AGTTTGCCAG TGAACAATAG CAATAGTGGC
    CCAAATGAAA TTGGAAATTT TGGGCGTGGA GATGTGCTGC CTCCGGTGCC AGGCCAAGGG
    GATAAAACAG CGACCATGCT CTCCGATGGA GCCATTTATA GCAGCATTGA CTTCACTACC
    AAAACCACTT ACAACAGTTC CAGCCAAATA ACACAGGCCA CCCCATATGC CACTACGCAA
    ATCCTGCATT CAAACAGCAT CCACGAACTG GCAGTTGATC TTCCTGATCC ACAGTGGAAA
    AGCTCAGTTC AACAGAAGAC AGACCTCATG GGATTTGGTT ATTCCCTACC TGATCAGAAC
    AAGGGGAACA ACGCCTTACT TTACATCCCT GACTACCGAT TGGCTGAGGG ATTGTCTAAT
    AGAATGCCAC ACAACCAGTC ACAGGATTTC AGCACCACCA GCTCTCACAA CAGCTCAGAA
    AGGAGTGGCA GTCTCTCAGG TGGGAAAGGT GGAAAAAAGA AGAAAACTAA AAATTCTTCG
    AAAGCGCAGA AAAACAACGG ATCCACTTGG GCTAATGTCC CTCTACCTCC TCCTCCCGTC
    CAGCCCCTTC CTGGTACAGA GCTGGGCCAC TATGCTGCGG AACAAGAAAA TGGCTATGAC
    AGTGACAGCT GGTGCCCACC ATTACCGGTG CAAACATACT TGCATCAGGG TATGGAAGAT
    GAGCTGGAAG AAGACGAAGA TCGGGTCCCA ACACCTCCTG TTCGCGGCGT GGCCTCTTCA
    CCAGCTATCT CTTTTGGACA GCAGTCCACT GCCACTCTTA CTCCATCCCC ACGTGAAGAG
    ATGCAACCCA TGCTGCAAGC TCACTTGGAT GAGTTGACAA GGGCCTATCA GTTTGATATA
    GCAAAACAAA CATGGCACAT TCAAAGCAAT ACTCCACCTC CACAACCCCC AGTTCCGCCA
    TTAGGTTACG TGTCCGGAGC CTTGATTTCT GATTTGGAGA CAGATGTTCC AGATGAGGAT
    GCTGATGACG AAGAGGAACC ATTAGAAATT CCCAGGCCCC TCAGAGCACT AGACCAGACA
    CCTGGATCCA GTATGGACAA TCTAGACAGC TCTGTCACAG GTTCAATGGT AAATGGATGG
    GGCTCTGCAT CTGATGAGGA TCGTAACTTT TCTAGTCATA GATCTAGTGT AGGTAGCTCC
    TCAGATGGCT CCATCTTTGC CAGCGGCAGC TTTGCAAAAG CATTGGTGGC AGCAGCAGAC
    AAAGCTGGCT TTAGGCTGGA TGGAACCAGT CTTACGAGAA CAGGAAAAGC CTTTACCTCC
    TCTCAAAGGC AGCGGCCCAC CAGCCCGTTT TCTACAGACA GTAACACCAG TGCTGCCCAG
    AATCAAAGCC AGAGGCCTCG GCCCACGAAA AAACATAAGG GAGGGCGGAT GGACCCACAG
    CCAGCGTTAC CTCATCGGAG GGAAGGGATG CCAGATGATC TTCCCCCACC ACCAGATCCC
    CCACCAGGTC AGGGTTTAAG GCAGCAGATA GGCCTGAGCC AACACTCTGG TAACGTGGAA
    AACTCAACAG AGAGAAAAGG AAGCTCTCTA GAGAGACAAC AAGCAGCCAA CTTAGAAGAC
    ACAAAGAGCT CATTGGATTG TCCAGCTAAA ACTGTTCTAG AGTGGCAGCG TCAAACCCAG
    GACTGGATAA ACTCTACAGA ACGCCAAGAA GAAACTCGGA AAGCCCCACA CAAACAAGGG
    GTTGGATCAG AGGAGTCCCT GGTGCCCTAC AGCAAGCCCA GCTTCCCTTC TCCTGGGGGG
    CACAGCTCAT CAGGAACATC CTCCTCTAAA GGGTCCACTG GCCCTCGGAA GGCCGACGTG
    CTGAGGGGCA GCCACCAGAG GAATGCCAAT GACCTTCTCG ACATTGGATA TGTGGGCTCA
    AATAGTCAAG GACAGTTTAC AGGTGAATTG TAG

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

    CloneID OMv69681
    Clone ID Related Accession (Same CDS sequence) XM_029470221.1
    Accession Version XM_029470221.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4728bp)
    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 roundabout homolog 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGCC TTACTTTACA TCCCTGACTA CCGATTGGCT
    GAGGGATTGT CTAATAGAAT GCCACACAAC CAGTCACAGG ATTTCAGCAC CACCAGCTCT
    CACAACAGCT CAGAAAGGAG TGGCAGTCTC TCAGGTGGGA AAGGTGGAAA AAAGAAGAAA
    ACTAAAAATT CTTCGAAAGC GCAGAAAAAC AACGGATCCA CTTGGGCTAA TGTCCCTCTA
    CCTCCTCCTC CCGTCCAGCC CCTTCCTGGT ACAGAGCTGG GCCACTATGC TGCGGAACAA
    GAAAATGGCT ATGACAGTGA CAGCTGGTGC CCACCATTAC CGGTGCAAAC ATACTTGCAT
    CAGGGTATGG AAGATGAGCT GGAAGAAGAC GAAGATCGGG TCCCAACACC TCCTGTTCGC
    GGCGTGGCCT CTTCACCAGC TATCTCTTTT GGACAGCAGT CCACTGCCAC TCTTACTCCA
    TCCCCACGTG AAGAGATGCA ACCCATGCTG CAAGCTCACT TGGATGAGTT GACAAGGGCC
    TATCAGTTTG ATATAGCAAA ACAAACATGG CACATTCAAA GCAATACTCC ACCTCCACAA
    CCCCCAGTTC CGCCATTAGG TTACGTGTCC GGAGCCTTGA TTTCTGATTT GGAGACAGAT
    GTTCCAGATG AGGATGCTGA TGACGAAGAG GAACCATTAG AAATTCCCAG GCCCCTCAGA
    GCACTAGACC AGACACCTGG ATCCAGTATG GACAATCTAG ACAGCTCTGT CACAGGTTCA
    ATGGTAAATG GATGGGGCTC TGCATCTGAT GAGGATCGTA ACTTTTCTAG TCATAGATCT
    AGTGTAGGTA GCTCCTCAGA TGGCTCCATC TTTGCCAGCG GCAGCTTTGC AAAAGCATTG
    GTGGCAGCAG CAGACAAAGC TGGCTTTAGG CTGGATGGAA CCAGTCTTAC GAGAACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGATCTTCCC
    CCACCACCAG ATCCCCCACC AGGTCAGGGT TTAAGGCAGC AGATAGGCCT GAGCCAACAC
    TCTGGTAACG TGGAAAACTC AACAGAGAGA AAAGGAAGCT CTCTAGAGAG ACAACAAGCA
    GCCAACTTAG AAGACACAAA GAGCTCATTG GATTGTCCAG CTAAAACTGT TCTAGAGTGG
    CAGCGTCAAA CCCAGGACTG GATAAACTCT ACAGAACGCC AAGAAGAAAC TCGGAAAGCC
    CCACACAAAC AAGGGGTTGG ATCAGAGGAG TCCCTGGTGC CCTACAGCAA GCCCAGCTTC
    CCTTCTCCTG GGGGGCACAG CTCATCAGGA ACATCCTCCT CTAAAGGGTC CACTGGCCCT
    CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC CAGAGGAATG CCAATGACCT TCTCGACATT
    GGATATGTGG GCTCAAATAG TCAAGGACAG TTTACAGGTG AATTGTAG

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

    RefSeq XP_029326081.1
    CDS915..5642
    Translation

    Target ORF information:

    RefSeq Version XM_029470221.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470221.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGCC TTACTTTACA TCCCTGACTA CCGATTGGCT
    GAGGGATTGT CTAATAGAAT GCCACACAAC CAGTCACAGG ATTTCAGCAC CACCAGCTCT
    CACAACAGCT CAGAAAGGAG TGGCAGTCTC TCAGGTGGGA AAGGTGGAAA AAAGAAGAAA
    ACTAAAAATT CTTCGAAAGC GCAGAAAAAC AACGGATCCA CTTGGGCTAA TGTCCCTCTA
    CCTCCTCCTC CCGTCCAGCC CCTTCCTGGT ACAGAGCTGG GCCACTATGC TGCGGAACAA
    GAAAATGGCT ATGACAGTGA CAGCTGGTGC CCACCATTAC CGGTGCAAAC ATACTTGCAT
    CAGGGTATGG AAGATGAGCT GGAAGAAGAC GAAGATCGGG TCCCAACACC TCCTGTTCGC
    GGCGTGGCCT CTTCACCAGC TATCTCTTTT GGACAGCAGT CCACTGCCAC TCTTACTCCA
    TCCCCACGTG AAGAGATGCA ACCCATGCTG CAAGCTCACT TGGATGAGTT GACAAGGGCC
    TATCAGTTTG ATATAGCAAA ACAAACATGG CACATTCAAA GCAATACTCC ACCTCCACAA
    CCCCCAGTTC CGCCATTAGG TTACGTGTCC GGAGCCTTGA TTTCTGATTT GGAGACAGAT
    GTTCCAGATG AGGATGCTGA TGACGAAGAG GAACCATTAG AAATTCCCAG GCCCCTCAGA
    GCACTAGACC AGACACCTGG ATCCAGTATG GACAATCTAG ACAGCTCTGT CACAGGTTCA
    ATGGTAAATG GATGGGGCTC TGCATCTGAT GAGGATCGTA ACTTTTCTAG TCATAGATCT
    AGTGTAGGTA GCTCCTCAGA TGGCTCCATC TTTGCCAGCG GCAGCTTTGC AAAAGCATTG
    GTGGCAGCAG CAGACAAAGC TGGCTTTAGG CTGGATGGAA CCAGTCTTAC GAGAACAGGA
    AAAGCCTTTA CCTCCTCTCA AAGGCAGCGG CCCACCAGCC CGTTTTCTAC AGACAGTAAC
    ACCAGTGCTG CCCAGAATCA AAGCCAGAGG CCTCGGCCCA CGAAAAAACA TAAGGGAGGG
    CGGATGGACC CACAGCCAGC GTTACCTCAT CGGAGGGAAG GGATGCCAGA TGATCTTCCC
    CCACCACCAG ATCCCCCACC AGGTCAGGGT TTAAGGCAGC AGATAGGCCT GAGCCAACAC
    TCTGGTAACG TGGAAAACTC AACAGAGAGA AAAGGAAGCT CTCTAGAGAG ACAACAAGCA
    GCCAACTTAG AAGACACAAA GAGCTCATTG GATTGTCCAG CTAAAACTGT TCTAGAGTGG
    CAGCGTCAAA CCCAGGACTG GATAAACTCT ACAGAACGCC AAGAAGAAAC TCGGAAAGCC
    CCACACAAAC AAGGGGTTGG ATCAGAGGAG TCCCTGGTGC CCTACAGCAA GCCCAGCTTC
    CCTTCTCCTG GGGGGCACAG CTCATCAGGA ACATCCTCCT CTAAAGGGTC CACTGGCCCT
    CGGAAGGCCG ACGTGCTGAG GGGCAGCCAC CAGAGGAATG CCAATGACCT TCTCGACATT
    GGATATGTGG GCTCAAATAG TCAAGGACAG TTTACAGGTG AATTGTAG

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

    CloneID OMv69682
    Clone ID Related Accession (Same CDS sequence) XM_029470222.1
    Accession Version XM_029470222.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4671bp)
    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 roundabout homolog 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGT
    TCAATGGTAA ATGGATGGGG CTCTGCATCT GATGAGGATC GTAACTTTTC TAGTCATAGA
    TCTAGTGTAG GTAGCTCCTC AGATGGCTCC ATCTTTGCCA GCGGCAGCTT TGCAAAAGCA
    TTGGTGGCAG CAGCAGACAA AGCTGGCTTT AGGCTGGATG GAACCAGTCT TACGAGAACA
    GGAAAAGCCT TTACCTCCTC TCAAAGGCAG CGGCCCACCA GCCCGTTTTC TACAGACAGT
    AACACCAGTG CTGCCCAGAA TCAAAGCCAG AGGCCTCGGC CCACGAAAAA ACATAAGGGA
    GGGCGGATGG ACCCACAGCC AGCGTTACCT CATCGGAGGG AAGGGATGCC AGATGATCTT
    CCCCCACCAC CAGATCCCCC ACCAGGTCAG GGTTTAAGGC AGCAGATAGG CCTGAGCCAA
    CACTCTGGTA ACGTGGAAAA CTCAACAGAG AGAAAAGGAA GCTCTCTAGA GAGACAACAA
    GCAGCCAACT TAGAAGACAC AAAGAGCTCA TTGGATTGTC CAGCTAAAAC TGTTCTAGAG
    TGGCAGCGTC AAACCCAGGA CTGGATAAAC TCTACAGAAC GCCAAGAAGA AACTCGGAAA
    GCCCCACACA AACAAGGGGT TGGATCAGAG GAGTCCCTGG TGCCCTACAG CAAGCCCAGC
    TTCCCTTCTC CTGGGGGGCA CAGCTCATCA GGAACATCCT CCTCTAAAGG GTCCACTGGC
    CCTCGGAAGG CCGACGTGCT GAGGGGCAGC CACCAGAGGA ATGCCAATGA CCTTCTCGAC
    ATTGGATATG TGGGCTCAAA TAGTCAAGGA CAGTTTACAG GTGAATTGTA G

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

    RefSeq XP_029326082.1
    CDS1297..5967
    Translation

    Target ORF information:

    RefSeq Version XM_029470222.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470222.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGGTG GGAAAGGTGG AAAAAAGAAG
    AAAACTAAAA ATTCTTCGAA AGCGCAGAAA AACAACGGAT CCACTTGGGC TAATGTCCCT
    CTACCTCCTC CTCCCGTCCA GCCCCTTCCT GGTACAGAGC TGGGCCACTA TGCTGCGGAA
    CAAGAAAATG GCTATGACAG TGACAGCTGG TGCCCACCAT TACCGGTGCA AACATACTTG
    CATCAGGGTA TGGAAGATGA GCTGGAAGAA GACGAAGATC GGGTCCCAAC ACCTCCTGTT
    CGCGGCGTGG CCTCTTCACC AGCTATCTCT TTTGGACAGC AGTCCACTGC CACTCTTACT
    CCATCCCCAC GTGAAGAGAT GCAACCCATG CTGCAAGCTC ACTTGGATGA GTTGACAAGG
    GCCTATCAGT TTGATATAGC AAAACAAACA TGGCACATTC AAAGCAATAC TCCACCTCCA
    CAACCCCCAG TTCCGCCATT AGGTTACGTG TCCGGAGCCT TGATTTCTGA TTTGGAGACA
    GATGTTCCAG ATGAGGATGC TGATGACGAA GAGGAACCAT TAGAAATTCC CAGGCCCCTC
    AGAGCACTAG ACCAGACACC TGGATCCAGT ATGGACAATC TAGACAGCTC TGTCACAGGT
    TCAATGGTAA ATGGATGGGG CTCTGCATCT GATGAGGATC GTAACTTTTC TAGTCATAGA
    TCTAGTGTAG GTAGCTCCTC AGATGGCTCC ATCTTTGCCA GCGGCAGCTT TGCAAAAGCA
    TTGGTGGCAG CAGCAGACAA AGCTGGCTTT AGGCTGGATG GAACCAGTCT TACGAGAACA
    GGAAAAGCCT TTACCTCCTC TCAAAGGCAG CGGCCCACCA GCCCGTTTTC TACAGACAGT
    AACACCAGTG CTGCCCAGAA TCAAAGCCAG AGGCCTCGGC CCACGAAAAA ACATAAGGGA
    GGGCGGATGG ACCCACAGCC AGCGTTACCT CATCGGAGGG AAGGGATGCC AGATGATCTT
    CCCCCACCAC CAGATCCCCC ACCAGGTCAG GGTTTAAGGC AGCAGATAGG CCTGAGCCAA
    CACTCTGGTA ACGTGGAAAA CTCAACAGAG AGAAAAGGAA GCTCTCTAGA GAGACAACAA
    GCAGCCAACT TAGAAGACAC AAAGAGCTCA TTGGATTGTC CAGCTAAAAC TGTTCTAGAG
    TGGCAGCGTC AAACCCAGGA CTGGATAAAC TCTACAGAAC GCCAAGAAGA AACTCGGAAA
    GCCCCACACA AACAAGGGGT TGGATCAGAG GAGTCCCTGG TGCCCTACAG CAAGCCCAGC
    TTCCCTTCTC CTGGGGGGCA CAGCTCATCA GGAACATCCT CCTCTAAAGG GTCCACTGGC
    CCTCGGAAGG CCGACGTGCT GAGGGGCAGC CACCAGAGGA ATGCCAATGA CCTTCTCGAC
    ATTGGATATG TGGGCTCAAA TAGTCAAGGA CAGTTTACAG GTGAATTGTA G

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

    CloneID OMv69683
    Clone ID Related Accession (Same CDS sequence) XM_029470223.1
    Accession Version XM_029470223.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 roundabout homolog 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGAAAAG CCTTTACCTC CTCTCAAAGG CAGCGGCCCA CCAGCCCGTT TTCTACAGAC
    AGTAACACCA GTGCTGCCCA GAATCAAAGC CAGAGGCCTC GGCCCACGAA AAAACATAAG
    GGAGGGCGGA TGGACCCACA GCCAGCGTTA CCTCATCGGA GGGAAGGGAT GCCAGATGAT
    CTTCCCCCAC CACCAGATCC CCCACCAGGT CAGGGTTTAA GGCAGCAGAT AGGCCTGAGC
    CAACACTCTG GTAACGTGGA AAACTCAACA GAGAGAAAAG GAAGCTCTCT AGAGAGACAA
    CAAGCAGCCA ACTTAGAAGA CACAAAGAGC TCATTGGATT GTCCAGCTAA AACTGTTCTA
    GAGTGGCAGC GTCAAACCCA GGACTGGATA AACTCTACAG AACGCCAAGA AGAAACTCGG
    AAAGCCCCAC ACAAACAAGG GGTTGGATCA GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC
    AGCTTCCCTT CTCCTGGGGG GCACAGCTCA TCAGGAACAT CCTCCTCTAA AGGGTCCACT
    GGCCCTCGGA AGGCCGACGT GCTGAGGGGC AGCCACCAGA GGAATGCCAA TGACCTTCTC
    GACATTGGAT ATGTGGGCTC AAATAGTCAA GGACAGTTTA CAGGTGAATT GTAG

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

    RefSeq XP_029326083.1
    CDS1297..5910
    Translation

    Target ORF information:

    RefSeq Version XM_029470223.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470223.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGAAAAG CCTTTACCTC CTCTCAAAGG CAGCGGCCCA CCAGCCCGTT TTCTACAGAC
    AGTAACACCA GTGCTGCCCA GAATCAAAGC CAGAGGCCTC GGCCCACGAA AAAACATAAG
    GGAGGGCGGA TGGACCCACA GCCAGCGTTA CCTCATCGGA GGGAAGGGAT GCCAGATGAT
    CTTCCCCCAC CACCAGATCC CCCACCAGGT CAGGGTTTAA GGCAGCAGAT AGGCCTGAGC
    CAACACTCTG GTAACGTGGA AAACTCAACA GAGAGAAAAG GAAGCTCTCT AGAGAGACAA
    CAAGCAGCCA ACTTAGAAGA CACAAAGAGC TCATTGGATT GTCCAGCTAA AACTGTTCTA
    GAGTGGCAGC GTCAAACCCA GGACTGGATA AACTCTACAG AACGCCAAGA AGAAACTCGG
    AAAGCCCCAC ACAAACAAGG GGTTGGATCA GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC
    AGCTTCCCTT CTCCTGGGGG GCACAGCTCA TCAGGAACAT CCTCCTCTAA AGGGTCCACT
    GGCCCTCGGA AGGCCGACGT GCTGAGGGGC AGCCACCAGA GGAATGCCAA TGACCTTCTC
    GACATTGGAT ATGTGGGCTC AAATAGTCAA GGACAGTTTA CAGGTGAATT GTAG

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

    CloneID OMv69684
    Clone ID Related Accession (Same CDS sequence) XM_029470224.1
    Accession Version XM_029470224.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4608bp)
    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 roundabout homolog 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGAAAAG CCTTTACCTC CTCTCAAAGG CAGCGGCCCA CCAGCCCGTT TTCTACAGAC
    AGTAACACCA GTGCTGCCCA GAATCAAAGC CAGAGGCCTC GGCCCACGAA AAAACATAAG
    GGAGGGCGGA TGGACCCACA GCCAGCGTTA CCTCATCGGA GGGAAGGGAT GCCAGATGAT
    CTTCCCCCAC CACCAGATCC CCCACCAGGT CAGGGTTTAA GGCAGCAGAT AGGCCTGAGC
    CAACACTCTG GTAACGTGGA AAACTCAACA GAGAGAAAAG GAAGCTCTCT AGAGAGACAA
    CAAGCAGCCA ACTTAGAAGA CACAAAGAGC TCATTGGATT GTCCAGCTAA AACTGTTCTA
    GAGTGGCAGC GTCAAACCCA GGACTGGATA AACTCTACAG AACGCCAAGA AGAAACTCGG
    AAAGCCCCAC ACAAACAAGG GGTTGGATCA GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC
    AGCTTCCCTT CTCCTGGGGG GCACAGCTCA TCAGGAACAT CCTCCTCTAA AGGGTCCACT
    GGCCCTCGGA AGGCCGACGT GCTGAGGGGC AGCCACCAGA GGAATGCCAA TGACCTTCTC
    GACATTGGAT ATGTGGGCTC AAATAGTCAA GGACAGTTTA CAGAGTAA

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

    RefSeq XP_029326084.1
    CDS1297..5904
    Translation

    Target ORF information:

    RefSeq Version XM_029470224.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470224.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGAAAAG CCTTTACCTC CTCTCAAAGG CAGCGGCCCA CCAGCCCGTT TTCTACAGAC
    AGTAACACCA GTGCTGCCCA GAATCAAAGC CAGAGGCCTC GGCCCACGAA AAAACATAAG
    GGAGGGCGGA TGGACCCACA GCCAGCGTTA CCTCATCGGA GGGAAGGGAT GCCAGATGAT
    CTTCCCCCAC CACCAGATCC CCCACCAGGT CAGGGTTTAA GGCAGCAGAT AGGCCTGAGC
    CAACACTCTG GTAACGTGGA AAACTCAACA GAGAGAAAAG GAAGCTCTCT AGAGAGACAA
    CAAGCAGCCA ACTTAGAAGA CACAAAGAGC TCATTGGATT GTCCAGCTAA AACTGTTCTA
    GAGTGGCAGC GTCAAACCCA GGACTGGATA AACTCTACAG AACGCCAAGA AGAAACTCGG
    AAAGCCCCAC ACAAACAAGG GGTTGGATCA GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC
    AGCTTCCCTT CTCCTGGGGG GCACAGCTCA TCAGGAACAT CCTCCTCTAA AGGGTCCACT
    GGCCCTCGGA AGGCCGACGT GCTGAGGGGC AGCCACCAGA GGAATGCCAA TGACCTTCTC
    GACATTGGAT ATGTGGGCTC AAATAGTCAA GGACAGTTTA CAGAGTAA

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

    CloneID OMv69685
    Clone ID Related Accession (Same CDS sequence) XM_029470225.1
    Accession Version XM_029470225.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4602bp)
    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 roundabout homolog 2 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG TTCAATGGTA
    AATGGATGGG GCTCTGCATC TGATGAGGAT CGTAACTTTT CTAGTCATAG ATCTAGTGTA
    GGTAGCTCCT CAGATGGCTC CATCTTTGCC AGCGGCAGCT TTGCAAAAGC ATTGGTGGCA
    GCAGCAGACA AAGCTGGCTT TAGGCTGGAT GGAACCAGTC TTACGAGAAC AGGAAAAGCC
    TTTACCTCCT CTCAAAGGCA GCGGCCCACC AGCCCGTTTT CTACAGACAG TAACACCAGT
    GCTGCCCAGA ATCAAAGCCA GAGGCCTCGG CCCACGAAAA AACATAAGGG AGGGCGGATG
    GACCCACAGC CAGCGTTACC TCATCGGAGG GAAGGGATGC CAGATGATCT TCCCCCACCA
    CCAGATCCCC CACCAGGTCA GGGTTTAAGG CAGCAGATAG GCCTGAGCCA ACACTCTGGT
    AACGTGGAAA ACTCAACAGA GAGAAAAGGA AGCTCTCTAG AGAGACAACA AGCAGCCAAC
    TTAGAAGACA CAAAGAGCTC ATTGGATTGT CCAGCTAAAA CTGTTCTAGA GTGGCAGCGT
    CAAACCCAGG ACTGGATAAA CTCTACAGAA CGCCAAGAAG AAACTCGGAA AGCCCCACAC
    AAACAAGGGG TTGGATCAGA GGAGTCCCTG GTGCCCTACA GCAAGCCCAG CTTCCCTTCT
    CCTGGGGGGC ACAGCTCATC AGGAACATCC TCCTCTAAAG GGTCCACTGG CCCTCGGAAG
    GCCGACGTGC TGAGGGGCAG CCACCAGAGG AATGCCAATG ACCTTCTCGA CATTGGATAT
    GTGGGCTCAA ATAGTCAAGG ACAGTTTACA GGTGAATTGT AG

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

    RefSeq XP_029326085.1
    CDS915..5516
    Translation

    Target ORF information:

    RefSeq Version XM_029470225.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470225.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGAATCCTC TGATGTTTAC ACTATTATTG CTCTTTGGAT TTCTCTGCAT TCGGATTGAT 
    GGATCTCGTC TTCGTCAAGA AGACTTTCCC CCCAGGATCG TAGAACACCC TTCTGACGTC
    ATCGTCTCCA AGGGAGAGCC CACCACTCTG AACTGTAAAG CAGAGGGCCG ACCCACTCCC
    ACCATTGAAT GGTACAAGGA TGGTGAGAGG GTGGAGACAG ACAAGGATGA TCCCAGGTCC
    CACAGAATGC TTCTGCCCAG CGGATCTTTA TTCTTTTTGC GAATTGTTCA TGGGCGCAGA
    AGTAAACCGG ATGAAGGGAG TTACGTTTGT GTTGCAAGGA ACTATCTTGG TGAAGCAGTG
    AGTCGAAATG CATCTCTGGA AGTGGCATTA TTGCGAGATG ACTTCCGGCA AAACCCCACA
    GATGTGGTAG TCGCAGCTGG AGAGCCTGCA ATCTTGGAGT GCCAGCCACC ACGGGGACAC
    CCAGAACCAA CCATCTACTG GAAAAAGGAC AAAGTCCGAA TTGATGACAA GGAAGAGAGA
    ATAAGTATCC GTGGTGGGAA GCTGATGATC TCTAATACAA GGAAAAGCGA TGCTGGCATG
    TACACCTGTG TGGGAACCAA TATGGTGGGA GAAAGGGACA GCGACCCTGC AGAGCTCACT
    GTCTTCGAAC GACCCACATT TCTCAGGAGG CCAATTAACC AGGTGGTGCT AGAGGAAGAG
    GCTGTAGAAT TCCGTTGTCA GGTCCAAGGG GATCCCCAGC CAACGGTGAG GTGGAAAAAA
    GATGATGCAG ACTTGCCAAG AGGAAGGTAT GATATCAAAG ATGACTACAC GCTGAGAATT
    AAAAAGGCCA TGAGTACTGA TGAAGGTACC TATGTGTGTA TTGCTGAGAA TCGGGTGGGA
    AAAGTGGAAG CCTCTGCTAC CCTCACTGTC CGAGTTCGCC CTGTTGCTCC TCCACAGTTT
    GTGGTTAGGC CAAGAGATCA GATCGTTGCT CAAGGCCGGA CAGTGACATT CCCCTGTGAA
    ACTAAAGGAA ACCCACAGCC AGCTGTATTT TGGCAGAAAG AAGGCAGCCA GAACCTACTT
    TTCCCGAATC AACCTCAGCA GCCTAACAGC CGATGTTCAG TGTCGCCCAC GGGGGACCTC
    ACCATCACCA ACATCCAGCG TTCAGATGCG GGTTACTACA TCTGCCAGGC CCTAACCGTG
    GCAGGAAGCA TTTTAGCTAA AGCACAGCTG GAAGTTACTG ACGTTTTGAC AGATAGACCT
    CCACCCATAA TCTTGCAAGG ACCAATAAAC CAAACACTTG CAGTAGACGG TACAGCATTG
    CTGAAATGTA AAGCCACTGG TGAGCCTCTA CCTGTAATTA GCTGGCTAAA GGAGGGCTTT
    ACTTTTCTGG GGAGAGATCC AAGAGCCACG ATCCAAGACC AAGGAACACT GCAGATTAAG
    AATTTACGGA TATCTGATAC TGGCACTTAT ACTTGTGTGG CTACAAGTTC CAGTGGGGAG
    ACTTCCTGGA GTGCAGTGCT GGATGTAACA GAATCTGGAG CAACAATCAG TAAAAATTAT
    GATATAAATG ACCTCCCGGG GCCACCATCC AAACCTCAGG TCACTGATGT TTCTAAGAAC
    AGTGTCACCT TATCCTGGCA GCCAGGTACA CCTGGAGTTC TTCCTGCAAG TGCATATATC
    ATTGAGGCTT TCAGCCAATC GGTGAGCAAT AGCTGGCAGA CAGTGGCAAA CCATGTTAAG
    ACAACTCTCT ATACAGTAAG GGGGCTGAGG CCAAACACAA TCTACTTGTT TATGGTCAGA
    GCGATCAACC CGCAAGGTCT CAGTGATCCA AGCCCTATGT CGGATCCTGT ACGCACGCAA
    GATATCAGCC CCCCAGCACA AGGAGTGGAC CACAGACAGG TGCAGAAGGA GTTAGGTGAT
    GTTGTTGTTC GTCTCCATAA TCCAGTTGTC CTGACACCTA CAACTGTTCA AGTCACATGG
    ACGGTGGACC GACAACCCCA GTTTATTCAG GGCTACAGAG TGATGTACCG TCAGACTTCG
    GGACTCCAAG CCTCAACTGT GTGGCAGAAT CTAGACGCCA AAGTCCCGAC TGAGAGGAGT
    GCTGTCCTTG TGAATTTGAA AAAGGGGGTG ACTTACGAAA TTAAAGTCCG GCCGTATTTT
    AATGAGTTCC AAGGAATGGA CAGTGAATCG AAAACAGTCC GAACCACTGA GGAAGCCCCA
    AGTGCCCCTC CCCAGTCTGT CACTGTGCTG ACAGTTGGAA GTCACAACAG CACAAGCATT
    AGTGTTTCCT GGGATCCTCC ACCAGCTGAC CACCAGAATG GAATTATTCA GGAATATAAG
    ATCTGGTGTC TGGGAAATGA AACGCGATTC CATATCAATA AAACTGTGGA TGCAGCCATT
    CGCTCTGTAG TAATAGGTGG CTTGTTCCCT GGAATTCAGT ACCGGGTAGA AGTGGCAGCT
    AGCACAAGTG CAGGGGTTGG AGTAAAAAGT GAACCACAGC CGATAATAAT TGGGGGACGT
    AACGAAGTTG TCATTACTGA AAACAATAAC AGCATCACTG AGCAAATCAC GGATGTCGTG
    AAGCAACCGG CATTTATAGC TGGCATTGGT GGTGCCTGCT GGGTAATTCT GATGGGTTTT
    AGCATCTGGT TGTACTGGAG AAGAAAGAAG AGAAAGGGAC TCAGCAATTA TGCTGTAACA
    TTTCAAAGAG GAGATGGAGG ACTAATGAGC AATGGGAGCC GTCCAGGTCT TCTAAATGCT
    GGCGATCCCA ATTACCCATG GCTTGCTGAT TCTTGGCCAG CCACGAGTTT GCCAGTGAAC
    AATAGCAATA GTGGCCCAAA TGAAATTGGA AATTTTGGGC GTGGAGATGT GCTGCCTCCG
    GTGCCAGGCC AAGGGGATAA AACAGCGACC ATGCTCTCCG ATGGAGCCAT TTATAGCAGC
    ATTGACTTCA CTACCAAAAC CACTTACAAC AGTTCCAGCC AAATAACACA GGCCACCCCA
    TATGCCACTA CGCAAATCCT GCATTCAAAC AGCATCCACG AACTGGCAGT TGATCTTCCT
    GATCCACAGT GGAAAAGCTC AGTTCAACAG AAGACAGACC TCATGGGATT TGGTTATTCC
    CTACCTGATC AGAACAAGGG GAACAACGGT GGGAAAGGTG GAAAAAAGAA GAAAACTAAA
    AATTCTTCGA AAGCGCAGAA AAACAACGGA TCCACTTGGG CTAATGTCCC TCTACCTCCT
    CCTCCCGTCC AGCCCCTTCC TGGTACAGAG CTGGGCCACT ATGCTGCGGA ACAAGAAAAT
    GGCTATGACA GTGACAGCTG GTGCCCACCA TTACCGGTGC AAACATACTT GCATCAGGGT
    ATGGAAGATG AGCTGGAAGA AGACGAAGAT CGGGTCCCAA CACCTCCTGT TCGCGGCGTG
    GCCTCTTCAC CAGCTATCTC TTTTGGACAG CAGTCCACTG CCACTCTTAC TCCATCCCCA
    CGTGAAGAGA TGCAACCCAT GCTGCAAGCT CACTTGGATG AGTTGACAAG GGCCTATCAG
    TTTGATATAG CAAAACAAAC ATGGCACATT CAAAGCAATA CTCCACCTCC ACAACCCCCA
    GTTCCGCCAT TAGGTTACGT GTCCGGAGCC TTGATTTCTG ATTTGGAGAC AGATGTTCCA
    GATGAGGATG CTGATGACGA AGAGGAACCA TTAGAAATTC CCAGGCCCCT CAGAGCACTA
    GACCAGACAC CTGGATCCAG TATGGACAAT CTAGACAGCT CTGTCACAGG TTCAATGGTA
    AATGGATGGG GCTCTGCATC TGATGAGGAT CGTAACTTTT CTAGTCATAG ATCTAGTGTA
    GGTAGCTCCT CAGATGGCTC CATCTTTGCC AGCGGCAGCT TTGCAAAAGC ATTGGTGGCA
    GCAGCAGACA AAGCTGGCTT TAGGCTGGAT GGAACCAGTC TTACGAGAAC AGGAAAAGCC
    TTTACCTCCT CTCAAAGGCA GCGGCCCACC AGCCCGTTTT CTACAGACAG TAACACCAGT
    GCTGCCCAGA ATCAAAGCCA GAGGCCTCGG CCCACGAAAA AACATAAGGG AGGGCGGATG
    GACCCACAGC CAGCGTTACC TCATCGGAGG GAAGGGATGC CAGATGATCT TCCCCCACCA
    CCAGATCCCC CACCAGGTCA GGGTTTAAGG CAGCAGATAG GCCTGAGCCA ACACTCTGGT
    AACGTGGAAA ACTCAACAGA GAGAAAAGGA AGCTCTCTAG AGAGACAACA AGCAGCCAAC
    TTAGAAGACA CAAAGAGCTC ATTGGATTGT CCAGCTAAAA CTGTTCTAGA GTGGCAGCGT
    CAAACCCAGG ACTGGATAAA CTCTACAGAA CGCCAAGAAG AAACTCGGAA AGCCCCACAC
    AAACAAGGGG TTGGATCAGA GGAGTCCCTG GTGCCCTACA GCAAGCCCAG CTTCCCTTCT
    CCTGGGGGGC ACAGCTCATC AGGAACATCC TCCTCTAAAG GGTCCACTGG CCCTCGGAAG
    GCCGACGTGC TGAGGGGCAG CCACCAGAGG AATGCCAATG ACCTTCTCGA CATTGGATAT
    GTGGGCTCAA ATAGTCAAGG ACAGTTTACA GGTGAATTGT AG

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

    CloneID OMv69686
    Clone ID Related Accession (Same CDS sequence) XM_029470226.1
    Accession Version XM_029470226.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4524bp)
    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 roundabout homolog 2 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) 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##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGTTCAA TGGTAAATGG ATGGGGCTCT GCATCTGATG AGGATCGTAA CTTTTCTAGT
    CATAGATCTA GTGTAGGTAG CTCCTCAGAT GGCTCCATCT TTGCCAGCGG CAGCTTTGCA
    AAAGCATTGG TGGCAGCAGC AGACAAAGCT GGCTTTAGGC TGGATGGAAC CAGTCTTACG
    AGAACAGGAA AAGCCTTTAC CTCCTCTCAA AGGCAGCGGC CCACCAGCCC GTTTTCTACA
    GACAGTAACA CCAGTGCTGC CCAGAATCAA AGCCAGAGGC CTCGGCCCAC GAAAAAACAT
    AAGGGAGGGC GGATGGACCC ACAGCCAGCG TTACCTCATC GGAGGGAAGG GATGCCAGAT
    GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC AGCTTCCCTT CTCCTGGGGG GCACAGCTCA
    TCAGGAACAT CCTCCTCTAA AGGGTCCACT GGCCCTCGGA AGGCCGACGT GCTGAGGGGC
    AGCCACCAGA GGAATGCCAA TGACCTTCTC GACATTGGAT ATGTGGGCTC AAATAGTCAA
    GGACAGTTTA CAGGTGAATT GTAG

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

    RefSeq XP_029326086.1
    CDS1297..5820
    Translation

    Target ORF information:

    RefSeq Version XM_029470226.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli roundabout guidance receptor 2 (Robo2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470226.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTTATCAT CCGAGAAAGT GGACAAAATT ACTAGACTCG AACTTCTCTT CGTTTTGATG 
    TTATTCTTCT CTGGACCAAC TCTAGGCAAG CTGACCAGGA CCCCCTGGAA GGGCAAACCT
    TGGAAGGGGG GATCTCGTCT TCGTCAAGAA GACTTTCCCC CCAGGATCGT AGAACACCCT
    TCTGACGTCA TCGTCTCCAA GGGAGAGCCC ACCACTCTGA ACTGTAAAGC AGAGGGCCGA
    CCCACTCCCA CCATTGAATG GTACAAGGAT GGTGAGAGGG TGGAGACAGA CAAGGATGAT
    CCCAGGTCCC ACAGAATGCT TCTGCCCAGC GGATCTTTAT TCTTTTTGCG AATTGTTCAT
    GGGCGCAGAA GTAAACCGGA TGAAGGGAGT TACGTTTGTG TTGCAAGGAA CTATCTTGGT
    GAAGCAGTGA GTCGAAATGC ATCTCTGGAA GTGGCATTAT TGCGAGATGA CTTCCGGCAA
    AACCCCACAG ATGTGGTAGT CGCAGCTGGA GAGCCTGCAA TCTTGGAGTG CCAGCCACCA
    CGGGGACACC CAGAACCAAC CATCTACTGG AAAAAGGACA AAGTCCGAAT TGATGACAAG
    GAAGAGAGAA TAAGTATCCG TGGTGGGAAG CTGATGATCT CTAATACAAG GAAAAGCGAT
    GCTGGCATGT ACACCTGTGT GGGAACCAAT ATGGTGGGAG AAAGGGACAG CGACCCTGCA
    GAGCTCACTG TCTTCGAACG ACCCACATTT CTCAGGAGGC CAATTAACCA GGTGGTGCTA
    GAGGAAGAGG CTGTAGAATT CCGTTGTCAG GTCCAAGGGG ATCCCCAGCC AACGGTGAGG
    TGGAAAAAAG ATGATGCAGA CTTGCCAAGA GGAAGGTATG ATATCAAAGA TGACTACACG
    CTGAGAATTA AAAAGGCCAT GAGTACTGAT GAAGGTACCT ATGTGTGTAT TGCTGAGAAT
    CGGGTGGGAA AAGTGGAAGC CTCTGCTACC CTCACTGTCC GAGTTCGCCC TGTTGCTCCT
    CCACAGTTTG TGGTTAGGCC AAGAGATCAG ATCGTTGCTC AAGGCCGGAC AGTGACATTC
    CCCTGTGAAA CTAAAGGAAA CCCACAGCCA GCTGTATTTT GGCAGAAAGA AGGCAGCCAG
    AACCTACTTT TCCCGAATCA ACCTCAGCAG CCTAACAGCC GATGTTCAGT GTCGCCCACG
    GGGGACCTCA CCATCACCAA CATCCAGCGT TCAGATGCGG GTTACTACAT CTGCCAGGCC
    CTAACCGTGG CAGGAAGCAT TTTAGCTAAA GCACAGCTGG AAGTTACTGA CGTTTTGACA
    GATAGACCTC CACCCATAAT CTTGCAAGGA CCAATAAACC AAACACTTGC AGTAGACGGT
    ACAGCATTGC TGAAATGTAA AGCCACTGGT GAGCCTCTAC CTGTAATTAG CTGGCTAAAG
    GAGGGCTTTA CTTTTCTGGG GAGAGATCCA AGAGCCACGA TCCAAGACCA AGGAACACTG
    CAGATTAAGA ATTTACGGAT ATCTGATACT GGCACTTATA CTTGTGTGGC TACAAGTTCC
    AGTGGGGAGA CTTCCTGGAG TGCAGTGCTG GATGTAACAG AATCTGGAGC AACAATCAGT
    AAAAATTATG ATATAAATGA CCTCCCGGGG CCACCATCCA AACCTCAGGT CACTGATGTT
    TCTAAGAACA GTGTCACCTT ATCCTGGCAG CCAGGTACAC CTGGAGTTCT TCCTGCAAGT
    GCATATATCA TTGAGGCTTT CAGCCAATCG GTGAGCAATA GCTGGCAGAC AGTGGCAAAC
    CATGTTAAGA CAACTCTCTA TACAGTAAGG GGGCTGAGGC CAAACACAAT CTACTTGTTT
    ATGGTCAGAG CGATCAACCC GCAAGGTCTC AGTGATCCAA GCCCTATGTC GGATCCTGTA
    CGCACGCAAG ATATCAGCCC CCCAGCACAA GGAGTGGACC ACAGACAGGT GCAGAAGGAG
    TTAGGTGATG TTGTTGTTCG TCTCCATAAT CCAGTTGTCC TGACACCTAC AACTGTTCAA
    GTCACATGGA CGGTGGACCG ACAACCCCAG TTTATTCAGG GCTACAGAGT GATGTACCGT
    CAGACTTCGG GACTCCAAGC CTCAACTGTG TGGCAGAATC TAGACGCCAA AGTCCCGACT
    GAGAGGAGTG CTGTCCTTGT GAATTTGAAA AAGGGGGTGA CTTACGAAAT TAAAGTCCGG
    CCGTATTTTA ATGAGTTCCA AGGAATGGAC AGTGAATCGA AAACAGTCCG AACCACTGAG
    GAAGCCCCAA GTGCCCCTCC CCAGTCTGTC ACTGTGCTGA CAGTTGGAAG TCACAACAGC
    ACAAGCATTA GTGTTTCCTG GGATCCTCCA CCAGCTGACC ACCAGAATGG AATTATTCAG
    GAATATAAGA TCTGGTGTCT GGGAAATGAA ACGCGATTCC ATATCAATAA AACTGTGGAT
    GCAGCCATTC GCTCTGTAGT AATAGGTGGC TTGTTCCCTG GAATTCAGTA CCGGGTAGAA
    GTGGCAGCTA GCACAAGTGC AGGGGTTGGA GTAAAAAGTG AACCACAGCC GATAATAATT
    GGGGGACGTA ACGAAGTTGT CATTACTGAA AACAATAACA GCATCACTGA GCAAATCACG
    GATGTCGTGA AGCAACCGGC ATTTATAGCT GGCATTGGTG GTGCCTGCTG GGTAATTCTG
    ATGGGTTTTA GCATCTGGTT GTACTGGAGA AGAAAGAAGA GAAAGGGACT CAGCAATTAT
    GCTGTAACAT TTCAAAGAGG AGATGGAGGA CTAATGAGCA ATGGGAGCCG TCCAGGTCTT
    CTAAATGCTG GCGATCCCAA TTACCCATGG CTTGCTGATT CTTGGCCAGC CACGAGTTTG
    CCAGTGAACA ATAGCAATAG TGGCCCAAAT GAAATTGGAA ATTTTGGGCG TGGAGATGTG
    CTGCCTCCGG TGCCAGGCCA AGGGGATAAA ACAGCGACCA TGCTCTCCGA TGGAGCCATT
    TATAGCAGCA TTGACTTCAC TACCAAAACC ACTTACAACA GTTCCAGCCA AATAACACAG
    GCCACCCCAT ATGCCACTAC GCAAATCCTG CATTCAAACA GCATCCACGA ACTGGCAGTT
    GATCTTCCTG ATCCACAGTG GAAAAGCTCA GTTCAACAGA AGACAGACCT CATGGGATTT
    GGTTATTCCC TACCTGATCA GAACAAGGGG AACAACGCCT TACTTTACAT CCCTGACTAC
    CGATTGGCTG AGGGATTGTC TAATAGAATG CCACACAACC AGTCACAGGA TTTCAGCACC
    ACCAGCTCTC ACAACAGCTC AGAAAGGAGT GGCAGTCTCT CAGGTGGGAA AGGTGGAAAA
    AAGAAGAAAA CTAAAAATTC TTCGAAAGCG CAGAAAAACA ACGGATCCAC TTGGGCTAAT
    GTCCCTCTAC CTCCTCCTCC CGTCCAGCCC CTTCCTGGTA CAGAGCTGGG CCACTATGCT
    GCGGAACAAG AAAATGGCTA TGACAGTGAC AGCTGGTGCC CACCATTACC GGTGCAAACA
    TACTTGCATC AGGGTATGGA AGATGAGCTG GAAGAAGACG AAGATCGGGT CCCAACACCT
    CCTGTTCGCG GCGTGGCCTC TTCACCAGCT ATCTCTTTTG GACAGCAGTC CACTGCCACT
    CTTACTCCAT CCCCACGTGA AGAGATGCAA CCCATGCTGC AAGCTCACTT GGATGAGTTG
    ACAAGGGCCT ATCAGTTTGA TATAGCAAAA CAAACATGGC ACATTCAAAG CAATACTCCA
    CCTCCACAAC CCCCAGTTCC GCCATTAGGT TACGTGTCCG GAGCCTTGAT TTCTGATTTG
    GAGACAGATG TTCCAGATGA GGATGCTGAT GACGAAGAGG AACCATTAGA AATTCCCAGG
    CCCCTCAGAG CACTAGACCA GACACCTGGA TCCAGTATGG ACAATCTAGA CAGCTCTGTC
    ACAGGTTCAA TGGTAAATGG ATGGGGCTCT GCATCTGATG AGGATCGTAA CTTTTCTAGT
    CATAGATCTA GTGTAGGTAG CTCCTCAGAT GGCTCCATCT TTGCCAGCGG CAGCTTTGCA
    AAAGCATTGG TGGCAGCAGC AGACAAAGCT GGCTTTAGGC TGGATGGAAC CAGTCTTACG
    AGAACAGGAA AAGCCTTTAC CTCCTCTCAA AGGCAGCGGC CCACCAGCCC GTTTTCTACA
    GACAGTAACA CCAGTGCTGC CCAGAATCAA AGCCAGAGGC CTCGGCCCAC GAAAAAACAT
    AAGGGAGGGC GGATGGACCC ACAGCCAGCG TTACCTCATC GGAGGGAAGG GATGCCAGAT
    GAGGAGTCCC TGGTGCCCTA CAGCAAGCCC AGCTTCCCTT CTCCTGGGGG GCACAGCTCA
    TCAGGAACAT CCTCCTCTAA AGGGTCCACT GGCCCTCGGA AGGCCGACGT GCTGAGGGGC
    AGCCACCAGA GGAATGCCAA TGACCTTCTC GACATTGGAT ATGTGGGCTC AAATAGTCAA
    GGACAGTTTA CAGGTGAATT GTAG

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