UMODL1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following UMODL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UMODL1 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
OMb81961 XM_015132836.2
Latest version!
Macaca mulatta uromodulin like 1 (UMODL1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb29793 XM_015132836.1
Latest version!
Macaca mulatta uromodulin like 1 (UMODL1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OMb81961
    Clone ID Related Accession (Same CDS sequence) XM_015132836.2
    Accession Version XM_015132836.2 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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product uromodulin-like 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041756.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015132836.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 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
    ATGATGCTCA GGACCTCGGG GCTGGCCCTG CTGGCTCTGG TCTGTGCTGT GGGCTCAAGC 
    CAGGCCAGCG GCTTCACAGA AAAAGGCCTC TCCCTGTTGG GCTACCAGCT GTGCAGCTAC
    CGTGTGACCC ACACTGTGCA GAAGGTGGAG GCTGTGCAGA CGTCCTACAC GACCTATGCG
    TCCTGCGGTG GCTGGATCCC CTGGAGGCGG TGCCCCAAGA CTGTTTACCG GACCCAGTAC
    CTGGTAGTGG AGGTTCCCGA GTCCAGGAAT GTGACCGACT GCTGTGAGGG CTATGAGCAG
    CTCGGCCTCT ACTGTGTCTT GCCTCTGAAT CAGTCCAGGG AGTTCACATC AAGACCCGGG
    GTCTGCCCCG CAGAGGGGCC TGAACCATCC ACCTCCCCCT GCAGCTTGGA CACCGACTGT
    CCTGGACTTG AGAAGTGCTG CCCCTGGTCA GGGGGGCGCT GCTGCATGGC CCCTGCACCC
    CAAGCTCCAG AGAGGGGCCC TGTGGGCTCC TGGTACAACG TCACCATACT GGTGAAAATG
    GACTTCAAGG AACTCCAGCA AGTGGACCCC AGGCTCCTGA ACCACATGCG CCTTCTGCAT
    TCGTTGGTCA CCAGTGCCCT GCAACCAATG GTCTCCACCA TCCACCACCT GCACTCGGCC
    CCTGGGGATG CCTCCACCAT GGTGTCATGG CTGCTGCTGG GCCTGCTGCA GCCACTGCCT
    GTGGCCGACG TCTCTGCCCT GCTGGGTGAC ATTGCGAAGC GTGTCTATGA AGTGATCAGC
    GTCCAGGTGC AAGATGTCAA TGAGTGTTTC TACGAGGAGC TCAACGCCTG TTCTGGAAGG
    GAACTGTGCG CAAACCTGGA GGGCTCGTAC CAGTGCGTCT GTCACCAGGA AGCTCCAGCC
    ACGTCTCCGC GGAAGCTCAA CCTGGAGTGG GAAGATTGTC CTCCACTCAG TGACTACGTG
    GTCCTCAACG TCACCAGTAG CAGTTTTCAA GTATCCTGGC GTTTAAATTC TACGCAGAAC
    CACACTTTCC ATGTCTGGGT TTACCGGGGT ACGGAGTTGC TCAGGAGCGT CAAGACACAG
    GGCCAGGCAC TGGCGGTGGC TGGGCTGGAG GCTGGAGTGC TGTACAGGGT GAAGACCAGC
    TACCAGGGGT GTGGGGCCGA CGTCTCCACC ACGCTGACTG TCAAAACTGA TGCCCAGGTA
    TTTGAAGTCA CAATAAAGAT TGTAAACCAC AACCTGACAG AGAGGTTACT CAACCACAGC
    AGCATGGAGT TCCAGGACTT TTCTAGACAA CTGCTTCACG AGGTCGAGAG CTCCTTCCCG
    CCGGCGGTGT CTGACTTGTA CCGAAGTGGG AAACTGAGAA TGCAGATCGT GTCTCTCCAG
    GCAGGAAGCG TGGTCGTGAG GCTCAAGCTC ACCGTGCAGG ACCCTGGGGT TCCCGTGGGT
    GTCTCCACGC TGGCCCCCAT GCTCCGGCCC CTGTTGGCAA GCACAGTGTT CCAGATTGAC
    CGGCAGGGGA CACGTGTGCA AGACTGGGAC GAGTGTGTGG ACAGCACAGA GCACGATTGC
    TCGCCGGCTG CCTGGTGCAT CAACCTGGAG GGCTCCTACA CCTGCCAGTG CCGCACCACC
    AGGGACGCCA CCCCTTCCCG CGCAGGCCGG GCCTGTGAGG GTGACCTGGT GAGCCCCACG
    GACAATGGGC TGTCTGCGGC GACAGGGGTA ACGGCCCCAG CTCTTGGCAC GGGAACAGCA
    GCCCTCGGCC TAGAGAACTT CACCTTGTCA CCCAGCCCTG GGCACCCTCA GGGCACCCTG
    GCAGCAGGCC AGGACTGGGC CCCAGGGCCC CCGCCCAGGA GAGGAGGCAG CAGTGTGGTC
    GGGTATGACA GGAACAGCAC AGGAAAAGGC GAAGAGCAGG AGGCGCCCAG CACTGCCCTG
    GGTCTGGGGA TGGACCAGGG GAGTCCCAGC GAGGTGAAGC CCAGCCAGGG GAGCCTCAGA
    CAGGCGAGCC CCAGCCAGGG GAGCACCAGC CAGGGGAGCC CCAGCGAGGT GAACCCCAGC
    CAGGGGAGCC CCAGCCAGGG GAGCACCAGC CAGGGGAGCC CTAGCGAGGT GAACCCCAGC
    CAGGGGAGCC CCAGCCAGGG GAGCACCAGC CAGGCGAGCA CCAGGCAGGC GAGCACCAGC
    CAAGGGAGCC CCAGCGAGGT GAACCCCAGC CAGGGGAGCA CCAGCCAGGG GAGCCCCAGC
    GAGGTGAACC CCAGCCAGGG GAGCACCAGC CAGGCGAGCA CCAGGCAGGC GAGCACCAGC
    CAGGGGAGCC CCAGCCAGGT GAGCCCCGGT CATAGGAACA CTATTGGGGT GATAGGCACC
    ACCTCCTCCC CGAAGGCTCC TGGGTCAACC CACAGCTTCT CTCCTGGGGC CACAGATGGC
    CCACTGGCCC TCCCTGGACA GCTACTGGGA AACTCCACCA TGGAGCCACC CTCCTGGCTT
    TCCCCTACTG AGGACCCCAC CGGCCACGTC GTGTGGCATG CCACCCGTTC CACCTGGGAA
    ACACTTCTGA ATCCCACGTG GCTGCAAAAT GAGGACAGTG GACCCTCCAG TTCTGTCGAC
    CTGCCATCGA CCCCCACCCT CACACCTCTG AAGACCCCCG CCTGTGTTCC TGTCTCCATT
    GGGAGGATCG TGGTCTCCAA TGTGACCAGC ACAAGCTTCC ACCTGGCGTG GGAGGCAGGT
    CTTGCTTTGG ACTCCGCCTT CCAGCTCACT CTGACTTCCG CATGGAGCCC CACCGTGGTC
    CTGGAGACCT GGAACACAAG TGTGACGGTG TCGGGGCTGG AGCCTGGCGT CTTGCACCTG
    GTTGAGATCG TGGCCAAAGC ATGTGGGAAA GAAGGTGCCA GAGCTCATCT GAAAGTGAGG
    ACAGCGGCCC GGAAGCTCAT TGGAAAGGTC AGAATCGCAA ATGTCAGATA CTCAGAATCC
    TTTCGCAACG CAAGCAGCCA GGAGTATCGA GATTTCCTAG AACTGTTCTT CAGGACGGTG
    CGGGGCTCCC TGCCAGCCAC GCTGCGTCAG CACACGGACG CCGGCGGGGT CAGGATGGAA
    GTCGTCGGCG TCACCAGTGG CAGCGTCGTG GTGGAGTTTC ACTTGCTGAT AATCGCAGAT
    GTGGATGTCC AGGAGGTGTC AGCTGCATTC CTCACCGCCT TCCAGACCGC GCCTCTGCTG
    GAGGTGATCA GAGGCGACAC CTTCATACAG GATTACGATG AGTGTGAGAG GAAGGAGGAC
    GACTGTGTGC CCGGGACATC CTGTCGAAAC ACCCTCGGGT CTTTCACTTG TAGCTGTGAG
    AGAGGAGCCC CCAATTTCCC TGTGGAATAT TCTGGGAGAC CCTGTGAAGG TGACTCTCAT
    GGCAACGAAA GCTGGGCCAC CAGCCCAGAG AGGCCTCTCA CCACAGCAGG GACCAAGGCT
    GGCTTTGTTC AAGACACCAG CCCCACCCCA CAAGGCCTGC CCCGGCGGCT GAACCTGACG
    GGAGCAGTCA GGGTGCTCTG TGAGATCGAG AAGGTGGTTA TCGCCATCCA GAAGCGCTTC
    CTGCAGCAGG AATCCATCCC TGAGTCCTCG CTGTACCTGA GCCACCCCTC CTGCAACGTG
    AGCCACAGCA ATGGCACACA CGTGCTCCTG GAGGCCAGCT GGAGCGAGTG CGGGACCATC
    ATGCAGAGCA ATGTGACGAA CACCGTGGTG AGGACCACGC TGAGGAACGA CCTGTCCCCG
    GAGGGCATCA TCCACTACCT GAAGATCCTG AGCCCCATCT ACTGTGCCTT CCAGAATGAT
    CTGCTGACGT CCTCCGGCTT CACCCCGGAG TGGGGGGTTT ACACCATCAT TGAGGACCTC
    CACGGCGCTG GAAATTTTGT TACCGAAATG CAGTTGTTTA TCGGGGACTC TCCCATACCT
    CAGAATTATA GCGTGTCTGC CAGTGACGAC GTCAAGATCG AAGTGGGGCT CTACAGGCAG
    AAAAGCAACC TCAAGGTGGT CCTGACGGAG TGCTGGGCAA CCCCGTCCAG CAACGCCCGG
    GACCCGGTCA CCTTCAGCTT CATTAACAAC AGCTGCCCGG TGCCCAACAC ATACACCAGC
    GTGATTGAGA ATGGCAACTC CAGCAAGGCT CAGTTCAAGC TGAGAATCTT CTCCTTTATC
    AACAACCCCA TCGTCTATCT GCACTGCAAA CTCCGCATCT GCATGGAATC CCCCGGGGCC
    ACGTGCAAAA TCAATTGCAA TAACTTTCGG TTGCTGCAAA CTAGTGAAAC CTCGGCCACA
    CACCAGATGT CCTGGGGACC CCTCGTCAGG TCTGAAGGTG AGCCTCCACG TGCAGAAGCA
    GGCCTGGATG CCAGTTATGT GGTCCTCCTT GTGGCCAGTT ATGTGGCCAT CTTTACGCTG
    GTGGCGGGGG CAGCCACCCT TCTGATTGTG CACTACCGGA GAATGAATGG GAGATACAAC
    TTTAAAATCC AGTCCGACAA CTTCAACTAC CAGGGGTTCT ACGAATAG

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

    RefSeq XP_014988322.2
    CDS26..4513
    Translation

    Target ORF information:

    RefSeq Version XM_015132836.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta uromodulin like 1 (UMODL1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015132836.2

    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
    ATGATGCTCA GGACCTCGGG GCTGGCCCTG CTGGCTCTGG TCTGTGCTGT GGGCTCAAGC 
    CAGGCCAGCG GCTTCACAGA AAAAGGCCTC TCCCTGTTGG GCTACCAGCT GTGCAGCTAC
    CGTGTGACCC ACACTGTGCA GAAGGTGGAG GCTGTGCAGA CGTCCTACAC GACCTATGCG
    TCCTGCGGTG GCTGGATCCC CTGGAGGCGG TGCCCCAAGA CTGTTTACCG GACCCAGTAC
    CTGGTAGTGG AGGTTCCCGA GTCCAGGAAT GTGACCGACT GCTGTGAGGG CTATGAGCAG
    CTCGGCCTCT ACTGTGTCTT GCCTCTGAAT CAGTCCAGGG AGTTCACATC AAGACCCGGG
    GTCTGCCCCG CAGAGGGGCC TGAACCATCC ACCTCCCCCT GCAGCTTGGA CACCGACTGT
    CCTGGACTTG AGAAGTGCTG CCCCTGGTCA GGGGGGCGCT GCTGCATGGC CCCTGCACCC
    CAAGCTCCAG AGAGGGGCCC TGTGGGCTCC TGGTACAACG TCACCATACT GGTGAAAATG
    GACTTCAAGG AACTCCAGCA AGTGGACCCC AGGCTCCTGA ACCACATGCG CCTTCTGCAT
    TCGTTGGTCA CCAGTGCCCT GCAACCAATG GTCTCCACCA TCCACCACCT GCACTCGGCC
    CCTGGGGATG CCTCCACCAT GGTGTCATGG CTGCTGCTGG GCCTGCTGCA GCCACTGCCT
    GTGGCCGACG TCTCTGCCCT GCTGGGTGAC ATTGCGAAGC GTGTCTATGA AGTGATCAGC
    GTCCAGGTGC AAGATGTCAA TGAGTGTTTC TACGAGGAGC TCAACGCCTG TTCTGGAAGG
    GAACTGTGCG CAAACCTGGA GGGCTCGTAC CAGTGCGTCT GTCACCAGGA AGCTCCAGCC
    ACGTCTCCGC GGAAGCTCAA CCTGGAGTGG GAAGATTGTC CTCCACTCAG TGACTACGTG
    GTCCTCAACG TCACCAGTAG CAGTTTTCAA GTATCCTGGC GTTTAAATTC TACGCAGAAC
    CACACTTTCC ATGTCTGGGT TTACCGGGGT ACGGAGTTGC TCAGGAGCGT CAAGACACAG
    GGCCAGGCAC TGGCGGTGGC TGGGCTGGAG GCTGGAGTGC TGTACAGGGT GAAGACCAGC
    TACCAGGGGT GTGGGGCCGA CGTCTCCACC ACGCTGACTG TCAAAACTGA TGCCCAGGTA
    TTTGAAGTCA CAATAAAGAT TGTAAACCAC AACCTGACAG AGAGGTTACT CAACCACAGC
    AGCATGGAGT TCCAGGACTT TTCTAGACAA CTGCTTCACG AGGTCGAGAG CTCCTTCCCG
    CCGGCGGTGT CTGACTTGTA CCGAAGTGGG AAACTGAGAA TGCAGATCGT GTCTCTCCAG
    GCAGGAAGCG TGGTCGTGAG GCTCAAGCTC ACCGTGCAGG ACCCTGGGGT TCCCGTGGGT
    GTCTCCACGC TGGCCCCCAT GCTCCGGCCC CTGTTGGCAA GCACAGTGTT CCAGATTGAC
    CGGCAGGGGA CACGTGTGCA AGACTGGGAC GAGTGTGTGG ACAGCACAGA GCACGATTGC
    TCGCCGGCTG CCTGGTGCAT CAACCTGGAG GGCTCCTACA CCTGCCAGTG CCGCACCACC
    AGGGACGCCA CCCCTTCCCG CGCAGGCCGG GCCTGTGAGG GTGACCTGGT GAGCCCCACG
    GACAATGGGC TGTCTGCGGC GACAGGGGTA ACGGCCCCAG CTCTTGGCAC GGGAACAGCA
    GCCCTCGGCC TAGAGAACTT CACCTTGTCA CCCAGCCCTG GGCACCCTCA GGGCACCCTG
    GCAGCAGGCC AGGACTGGGC CCCAGGGCCC CCGCCCAGGA GAGGAGGCAG CAGTGTGGTC
    GGGTATGACA GGAACAGCAC AGGAAAAGGC GAAGAGCAGG AGGCGCCCAG CACTGCCCTG
    GGTCTGGGGA TGGACCAGGG GAGTCCCAGC GAGGTGAAGC CCAGCCAGGG GAGCCTCAGA
    CAGGCGAGCC CCAGCCAGGG GAGCACCAGC CAGGGGAGCC CCAGCGAGGT GAACCCCAGC
    CAGGGGAGCC CCAGCCAGGG GAGCACCAGC CAGGGGAGCC CTAGCGAGGT GAACCCCAGC
    CAGGGGAGCC CCAGCCAGGG GAGCACCAGC CAGGCGAGCA CCAGGCAGGC GAGCACCAGC
    CAAGGGAGCC CCAGCGAGGT GAACCCCAGC CAGGGGAGCA CCAGCCAGGG GAGCCCCAGC
    GAGGTGAACC CCAGCCAGGG GAGCACCAGC CAGGCGAGCA CCAGGCAGGC GAGCACCAGC
    CAGGGGAGCC CCAGCCAGGT GAGCCCCGGT CATAGGAACA CTATTGGGGT GATAGGCACC
    ACCTCCTCCC CGAAGGCTCC TGGGTCAACC CACAGCTTCT CTCCTGGGGC CACAGATGGC
    CCACTGGCCC TCCCTGGACA GCTACTGGGA AACTCCACCA TGGAGCCACC CTCCTGGCTT
    TCCCCTACTG AGGACCCCAC CGGCCACGTC GTGTGGCATG CCACCCGTTC CACCTGGGAA
    ACACTTCTGA ATCCCACGTG GCTGCAAAAT GAGGACAGTG GACCCTCCAG TTCTGTCGAC
    CTGCCATCGA CCCCCACCCT CACACCTCTG AAGACCCCCG CCTGTGTTCC TGTCTCCATT
    GGGAGGATCG TGGTCTCCAA TGTGACCAGC ACAAGCTTCC ACCTGGCGTG GGAGGCAGGT
    CTTGCTTTGG ACTCCGCCTT CCAGCTCACT CTGACTTCCG CATGGAGCCC CACCGTGGTC
    CTGGAGACCT GGAACACAAG TGTGACGGTG TCGGGGCTGG AGCCTGGCGT CTTGCACCTG
    GTTGAGATCG TGGCCAAAGC ATGTGGGAAA GAAGGTGCCA GAGCTCATCT GAAAGTGAGG
    ACAGCGGCCC GGAAGCTCAT TGGAAAGGTC AGAATCGCAA ATGTCAGATA CTCAGAATCC
    TTTCGCAACG CAAGCAGCCA GGAGTATCGA GATTTCCTAG AACTGTTCTT CAGGACGGTG
    CGGGGCTCCC TGCCAGCCAC GCTGCGTCAG CACACGGACG CCGGCGGGGT CAGGATGGAA
    GTCGTCGGCG TCACCAGTGG CAGCGTCGTG GTGGAGTTTC ACTTGCTGAT AATCGCAGAT
    GTGGATGTCC AGGAGGTGTC AGCTGCATTC CTCACCGCCT TCCAGACCGC GCCTCTGCTG
    GAGGTGATCA GAGGCGACAC CTTCATACAG GATTACGATG AGTGTGAGAG GAAGGAGGAC
    GACTGTGTGC CCGGGACATC CTGTCGAAAC ACCCTCGGGT CTTTCACTTG TAGCTGTGAG
    AGAGGAGCCC CCAATTTCCC TGTGGAATAT TCTGGGAGAC CCTGTGAAGG TGACTCTCAT
    GGCAACGAAA GCTGGGCCAC CAGCCCAGAG AGGCCTCTCA CCACAGCAGG GACCAAGGCT
    GGCTTTGTTC AAGACACCAG CCCCACCCCA CAAGGCCTGC CCCGGCGGCT GAACCTGACG
    GGAGCAGTCA GGGTGCTCTG TGAGATCGAG AAGGTGGTTA TCGCCATCCA GAAGCGCTTC
    CTGCAGCAGG AATCCATCCC TGAGTCCTCG CTGTACCTGA GCCACCCCTC CTGCAACGTG
    AGCCACAGCA ATGGCACACA CGTGCTCCTG GAGGCCAGCT GGAGCGAGTG CGGGACCATC
    ATGCAGAGCA ATGTGACGAA CACCGTGGTG AGGACCACGC TGAGGAACGA CCTGTCCCCG
    GAGGGCATCA TCCACTACCT GAAGATCCTG AGCCCCATCT ACTGTGCCTT CCAGAATGAT
    CTGCTGACGT CCTCCGGCTT CACCCCGGAG TGGGGGGTTT ACACCATCAT TGAGGACCTC
    CACGGCGCTG GAAATTTTGT TACCGAAATG CAGTTGTTTA TCGGGGACTC TCCCATACCT
    CAGAATTATA GCGTGTCTGC CAGTGACGAC GTCAAGATCG AAGTGGGGCT CTACAGGCAG
    AAAAGCAACC TCAAGGTGGT CCTGACGGAG TGCTGGGCAA CCCCGTCCAG CAACGCCCGG
    GACCCGGTCA CCTTCAGCTT CATTAACAAC AGCTGCCCGG TGCCCAACAC ATACACCAGC
    GTGATTGAGA ATGGCAACTC CAGCAAGGCT CAGTTCAAGC TGAGAATCTT CTCCTTTATC
    AACAACCCCA TCGTCTATCT GCACTGCAAA CTCCGCATCT GCATGGAATC CCCCGGGGCC
    ACGTGCAAAA TCAATTGCAA TAACTTTCGG TTGCTGCAAA CTAGTGAAAC CTCGGCCACA
    CACCAGATGT CCTGGGGACC CCTCGTCAGG TCTGAAGGTG AGCCTCCACG TGCAGAAGCA
    GGCCTGGATG CCAGTTATGT GGTCCTCCTT GTGGCCAGTT ATGTGGCCAT CTTTACGCTG
    GTGGCGGGGG CAGCCACCCT TCTGATTGTG CACTACCGGA GAATGAATGG GAGATACAAC
    TTTAAAATCC AGTCCGACAA CTTCAACTAC CAGGGGTTCT ACGAATAG

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

    CloneID OMb29793
    Clone ID Related Accession (Same CDS sequence) XM_015132836.1
    Accession Version XM_015132836.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4137bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product uromodulin-like 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804684.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGTCTTTTT GCAGGGAGGT AAATGCAGAG CAGGGCCTCT CATGGCCTCT GGTTCCCTCT 
    CCTGCCCCCT CTCCCACCCC AGCGGCTCTC GTGACTTCAA CCTGTCCTGG CTCCATAATC
    ATCAGTGTTT GCCCTTGTGC AGCTCCAGAG AGGGGCCCTG TGGGCTCCTG GTACAACGTC
    ACCATACTGG TGAAAATGGA CTTCAAGGAA CTCCAGCAAG TGGACCCCAG GCTCCTGAAC
    CACATGCGCC TTCTGCATTC GTTGGTCACC AGTGCCCTGC AACCAATGGT CTCCACCATC
    CACCACCTGC ACTCGGCCCC TGGGGATGCC TCCACCATGG TGTCATGGCT GCTGCTGGGC
    CTGCTGCAGC CACTGCCTGT GGCCGACGTC TCTGCCCTGC TGGGTGACAT TGCGAAGCGT
    GTCTATGAAG TGATCAGCGT CCAGGTGCAA GATGTCAATG AGTGTTTCTA CGAGGAGCTC
    AACGCCTGTT CTGGAAGGGA ACTGTGCGCA AACCTGGAGG GCTCGTACCA GTGCGTCTGT
    CACCAGGAAG CTCCAGCCAC GTCTCCGCGG AAGCTCAACC TGGAGTGGGA AGATTGTCCT
    CCACTCAGTG ACTACGTGGT CCTCAACGTC ACCAGTAGCA GTTTTCAAGT ATCCTGGCGT
    TTAAATTCTA CGCAGAACCA CACTTTCCAT GTCTGGGTTT ACCGGGGTAC GGAGTTGCTC
    AGGAGCGTCA AGACACAGGG CCAGGCACTG GCGGTGGCTG GGCTGGAGGC TGGAGTGCTG
    TACAGGGTGA AGACCAGCTA CCAGGGGTGT GGGGCCGACG TCTCCACCAC GCTGACTGTC
    AAAACTGATG CCCAGGTATT TGAAGTCACA ATAAAGATTG TAAACCACAA CCTGACAGAG
    AGGTTACTCA ACCACAGCAG CATGGAGTTC CAGGACTTTT CTAGACAACT GCTTCACGAG
    GTCGAGAGCT CCTTCCCGCC GGCGGTGTCT GACTTGTACC GAAGTGGGAA ACTGAGAATG
    CAGATCGTGT CTCTCCAGGC AGGAAGCGTG GTCGTGAGGC TCAAGCTCAC CGTGCAGGAC
    CCTGGGGTTC CCGTGGGTGT CTCCACGCTG GCCCCCATGC TCCGGCCCCT GTTGGCAAGC
    ACAGTGTTCC AGATTGACCG GCAGGGGACA CGTGTGCAAG ACTGGGACGA GTGTGTGGAC
    AGCACAGAGC ACGATTGCTC GCCGGCTGCC TGGTGCATCA ACCTGGAGGG CTCCTACACC
    TGCCAGTGCC GCACCACCAG GGACGCCACC CCTTCCCGCG CAGGCCGGGC CTGTGAGGGT
    GACCTGGTGA GCCCCACGGA CAATGGGCTG TCTGCGGCGA CAGGGGTAAC GGCCCCAGCT
    CTTGGCACGG GAACAGCAGC CCTCGGCCTA GAGAACTTCA CCTTGTCACC CAGCCCTGGG
    CACCCTCAGG GCACCCTGGC AGCAGGCCAG GACTGGGCCC CAGGGCCCCC GCCCAGGAGA
    GGAGGCAGCA GTGTGGTCGG GTATGACAGG AACAGCACAG GAAAAGGCGA AGAGCAGGAG
    GCGCCCAGCA CTGCCCTGGG TCTGGGGATG GACCAGGGGA GTCCCAGCGA GGTGAAGCCC
    AGCCAGGGGA GCCTCAGACA GGCGAGCCCC AGCCAGGGGA GCACCAGCCA GGGGAGCCCC
    AGCGAGGTGA ACCCCAGCCA GGGGAGCCCC AGCCAGGGGA GCACCAGCCA GGGGAGCCCT
    AGCGAGGTGA ACCCCAGCCA GGGGAGCCCC AGCCAGGGGA GCACCAGCCA GGCGAGCACC
    AGGCAGGCGA GCACCAGCCA AGGGAGCCCC AGCGAGGTGA ACCCCAGCCA GGGGAGCACC
    AGCCAGGGGA GCCCCAGCGA GGTGAACCCC AGCCAGGGGA GCACCAGCCA GGCGAGCACC
    AGGCAGGCGA GCACCAGCCA GGGGAGCCCC AGCCAGGTGA GCCCCGGTCA TAGGAACACT
    ATTGGGGTGA TAGGCACCAC CTCCTCCCCG AAGGCTCCTG GGTCAACCCA CAGCTTCTCT
    CCTGGGGCCA CAGATGGCCC ACTGGCCCTC CCTGGACAGC TACTGGGAAA CTCCACCATG
    GAGCCACCCT CCTGGCTTTC CCCTACTGAG GACCCCACCG GCCACGTCGT GTGGCATGCC
    ACCCGTTCCA CCTGGGAAAC ACTTCTGAAT CCCACGTGGC TGCAAAATGA GGACAGTGGA
    CCCTCCAGTT CTGTCGACCT GCCATCGACC CCCACCCTCA CACCTCTGAA GACCCCCGCC
    TGTGTTCCTG TCTCCATTGG GAGGATTGTG GTCTCCAATG TGACCAGCAC AAGCTTCCAC
    CTGGCGTGGG AGGCAGGTCT TGCTTTGGAC TCCGCCTTCC AGCTCACTCT GACTTCCGCA
    TGGAGCCCCA CCGTGGTCCT GGAGACCTGG AACACAAGTG TGACGGTGTC GGGGCTGGAG
    CCTGGCGTCT TGCACCTGGT TGAGATCGTG GCCAAAGCAT GTGGGAAAGA AGGTGCCAGA
    GCTCATCTGA AAGTGAGGAC AGCGGCCCGG AAGCTCATTG GAAAGGTCAG AATCGCAAAT
    GTCAGATACT CAGAATCCTT TCGCAACGCA AGCAGCCAGG AGTATCGAGA TTTCCTAGAA
    CTGTTCTTCA GGACGGTGCG GGGCTCCCTG CCAGCCACGC TGCGTCAGCA CACGGACGCC
    GGCGGGGTCA GGATGGAAGT CGTCGGCGTC ACCAGTGGCA GCGTCGTGGT GGAGTTTCAC
    TTGCTGATAA TCGCAGATGT GGATGTCCAG GAGGTGTCAG CTGCATTCCT CACCGCCTTC
    CAGACCGCGC CTCTGCTGGA GGTGATCAGA GGCGACACCT TCATACAGGA TTACGATGAG
    TGTGAGAGGA AGGAGGACGA CTGTGTGCCT GGGACATCCT GTCGAAACAC CCTCGGGTCT
    TTCACTTGTA GCTGTGAGAG AGGAGCCCCC AATTTCCCTG TGGAATATTC TGGGAGACCC
    TGTGAAGGTG ACTCTCATGG CAACGAAAGC TGGGCCACCA GCCCAGAGAG GCCTCTCACC
    ACAGCAGGGA CCAAGGCTGG CTTTGTTCAA GACACCAGCC CCACCCCACA AGGCCTGCCC
    CGGCGGCTGA ACCTGACGGG AGCAGTCAGG GTGCTCTGTG AGATCGAGAA GGTGGTTATC
    GCCATCCAGA AGCGCTTCCT GCAGCAGGAA TCCATCCCTG AGTCCTCGCT GTACCTGAGC
    CACCCCTCCT GCAACGTGAG CCACAGCAAT GGCACACACG TGCTCCTGGA GGCCAGCTGG
    AGCGAGTGCG GGACCATCAT GCAGAGCAAT GTGACGAACA CCGTGGTGAG GACCACGCTG
    AGGAACGACC TGTCCCCGGA GGGCATCATC CACTACCTGA AGATCCTGAG CCCCATCTAC
    TGTGCCTTCC AGAATGATCT GCTGACGTCC TCCGGCTTCA CCCCGGAGTG GGGGGTTTAC
    ACCATCATTG AGGACCTCCA CGGCGCTGGA AATTTTGTTA CCGAAATGCA GTTGTTTATC
    GGGGACTCTC CCATACCTCA GAATTATAGC GTGTCTGCCA GTGACGACGT CAAGATCGAA
    GTGGGGCTCT ACAGGCAGAA AAGCAACCTC AAGGTGGTCC TGACGGAGTG CTGGGCAACC
    CCGTCCAGCA ACGCCCGGGA CCCGGTCACC TTCAGCTTCA TTAACAACAG CTGCCCGGTG
    CCCAACACAT ACACCAGCGT GATTGAGAAT GGCAACTCCA GCAAGGCTCA GTTCAAGCTG
    AGAATCTTCT CCTTTATCAA CAACTCCATC GTCTATCTGC ACTGCAAACT CCGCATCTGC
    ATGGAATCCC CCGGGGCCAC GTGCAAAATC AATTGCAATA ACTTTCGGTT GCTGCAAACT
    AGTGAAACCT CTGCCACACA CCAGATGTCC TGGGGACCCC TCGTCAGGTC TGAAGGTGAG
    CCTCCACGTG CAGAAGCAGG CCTGGATGCC AGTTATGTGG TCCTCCTTGT GGTGGCCATC
    TTTACGCTGG TGGCGGGGGC AGCCACCCTT CTGATTGTGC ACTACCGGAG AATGAATGGG
    AGATACAACT TTAAAATCCA GTCCGACAAC TTCAACTACC AGGGGTTCTA CGAATAG

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

    RefSeq XP_014988322.1
    CDS286..4422
    Translation

    Target ORF information:

    RefSeq Version XM_015132836.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta uromodulin like 1 (UMODL1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015132836.1

    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
    ATGTCTTTTT GCAGGGAGGT AAATGCAGAG CAGGGCCTCT CATGGCCTCT GGTTCCCTCT 
    CCTGCCCCCT CTCCCACCCC AGCGGCTCTC GTGACTTCAA CCTGTCCTGG CTCCATAATC
    ATCAGTGTTT GCCCTTGTGC AGCTCCAGAG AGGGGCCCTG TGGGCTCCTG GTACAACGTC
    ACCATACTGG TGAAAATGGA CTTCAAGGAA CTCCAGCAAG TGGACCCCAG GCTCCTGAAC
    CACATGCGCC TTCTGCATTC GTTGGTCACC AGTGCCCTGC AACCAATGGT CTCCACCATC
    CACCACCTGC ACTCGGCCCC TGGGGATGCC TCCACCATGG TGTCATGGCT GCTGCTGGGC
    CTGCTGCAGC CACTGCCTGT GGCCGACGTC TCTGCCCTGC TGGGTGACAT TGCGAAGCGT
    GTCTATGAAG TGATCAGCGT CCAGGTGCAA GATGTCAATG AGTGTTTCTA CGAGGAGCTC
    AACGCCTGTT CTGGAAGGGA ACTGTGCGCA AACCTGGAGG GCTCGTACCA GTGCGTCTGT
    CACCAGGAAG CTCCAGCCAC GTCTCCGCGG AAGCTCAACC TGGAGTGGGA AGATTGTCCT
    CCACTCAGTG ACTACGTGGT CCTCAACGTC ACCAGTAGCA GTTTTCAAGT ATCCTGGCGT
    TTAAATTCTA CGCAGAACCA CACTTTCCAT GTCTGGGTTT ACCGGGGTAC GGAGTTGCTC
    AGGAGCGTCA AGACACAGGG CCAGGCACTG GCGGTGGCTG GGCTGGAGGC TGGAGTGCTG
    TACAGGGTGA AGACCAGCTA CCAGGGGTGT GGGGCCGACG TCTCCACCAC GCTGACTGTC
    AAAACTGATG CCCAGGTATT TGAAGTCACA ATAAAGATTG TAAACCACAA CCTGACAGAG
    AGGTTACTCA ACCACAGCAG CATGGAGTTC CAGGACTTTT CTAGACAACT GCTTCACGAG
    GTCGAGAGCT CCTTCCCGCC GGCGGTGTCT GACTTGTACC GAAGTGGGAA ACTGAGAATG
    CAGATCGTGT CTCTCCAGGC AGGAAGCGTG GTCGTGAGGC TCAAGCTCAC CGTGCAGGAC
    CCTGGGGTTC CCGTGGGTGT CTCCACGCTG GCCCCCATGC TCCGGCCCCT GTTGGCAAGC
    ACAGTGTTCC AGATTGACCG GCAGGGGACA CGTGTGCAAG ACTGGGACGA GTGTGTGGAC
    AGCACAGAGC ACGATTGCTC GCCGGCTGCC TGGTGCATCA ACCTGGAGGG CTCCTACACC
    TGCCAGTGCC GCACCACCAG GGACGCCACC CCTTCCCGCG CAGGCCGGGC CTGTGAGGGT
    GACCTGGTGA GCCCCACGGA CAATGGGCTG TCTGCGGCGA CAGGGGTAAC GGCCCCAGCT
    CTTGGCACGG GAACAGCAGC CCTCGGCCTA GAGAACTTCA CCTTGTCACC CAGCCCTGGG
    CACCCTCAGG GCACCCTGGC AGCAGGCCAG GACTGGGCCC CAGGGCCCCC GCCCAGGAGA
    GGAGGCAGCA GTGTGGTCGG GTATGACAGG AACAGCACAG GAAAAGGCGA AGAGCAGGAG
    GCGCCCAGCA CTGCCCTGGG TCTGGGGATG GACCAGGGGA GTCCCAGCGA GGTGAAGCCC
    AGCCAGGGGA GCCTCAGACA GGCGAGCCCC AGCCAGGGGA GCACCAGCCA GGGGAGCCCC
    AGCGAGGTGA ACCCCAGCCA GGGGAGCCCC AGCCAGGGGA GCACCAGCCA GGGGAGCCCT
    AGCGAGGTGA ACCCCAGCCA GGGGAGCCCC AGCCAGGGGA GCACCAGCCA GGCGAGCACC
    AGGCAGGCGA GCACCAGCCA AGGGAGCCCC AGCGAGGTGA ACCCCAGCCA GGGGAGCACC
    AGCCAGGGGA GCCCCAGCGA GGTGAACCCC AGCCAGGGGA GCACCAGCCA GGCGAGCACC
    AGGCAGGCGA GCACCAGCCA GGGGAGCCCC AGCCAGGTGA GCCCCGGTCA TAGGAACACT
    ATTGGGGTGA TAGGCACCAC CTCCTCCCCG AAGGCTCCTG GGTCAACCCA CAGCTTCTCT
    CCTGGGGCCA CAGATGGCCC ACTGGCCCTC CCTGGACAGC TACTGGGAAA CTCCACCATG
    GAGCCACCCT CCTGGCTTTC CCCTACTGAG GACCCCACCG GCCACGTCGT GTGGCATGCC
    ACCCGTTCCA CCTGGGAAAC ACTTCTGAAT CCCACGTGGC TGCAAAATGA GGACAGTGGA
    CCCTCCAGTT CTGTCGACCT GCCATCGACC CCCACCCTCA CACCTCTGAA GACCCCCGCC
    TGTGTTCCTG TCTCCATTGG GAGGATTGTG GTCTCCAATG TGACCAGCAC AAGCTTCCAC
    CTGGCGTGGG AGGCAGGTCT TGCTTTGGAC TCCGCCTTCC AGCTCACTCT GACTTCCGCA
    TGGAGCCCCA CCGTGGTCCT GGAGACCTGG AACACAAGTG TGACGGTGTC GGGGCTGGAG
    CCTGGCGTCT TGCACCTGGT TGAGATCGTG GCCAAAGCAT GTGGGAAAGA AGGTGCCAGA
    GCTCATCTGA AAGTGAGGAC AGCGGCCCGG AAGCTCATTG GAAAGGTCAG AATCGCAAAT
    GTCAGATACT CAGAATCCTT TCGCAACGCA AGCAGCCAGG AGTATCGAGA TTTCCTAGAA
    CTGTTCTTCA GGACGGTGCG GGGCTCCCTG CCAGCCACGC TGCGTCAGCA CACGGACGCC
    GGCGGGGTCA GGATGGAAGT CGTCGGCGTC ACCAGTGGCA GCGTCGTGGT GGAGTTTCAC
    TTGCTGATAA TCGCAGATGT GGATGTCCAG GAGGTGTCAG CTGCATTCCT CACCGCCTTC
    CAGACCGCGC CTCTGCTGGA GGTGATCAGA GGCGACACCT TCATACAGGA TTACGATGAG
    TGTGAGAGGA AGGAGGACGA CTGTGTGCCT GGGACATCCT GTCGAAACAC CCTCGGGTCT
    TTCACTTGTA GCTGTGAGAG AGGAGCCCCC AATTTCCCTG TGGAATATTC TGGGAGACCC
    TGTGAAGGTG ACTCTCATGG CAACGAAAGC TGGGCCACCA GCCCAGAGAG GCCTCTCACC
    ACAGCAGGGA CCAAGGCTGG CTTTGTTCAA GACACCAGCC CCACCCCACA AGGCCTGCCC
    CGGCGGCTGA ACCTGACGGG AGCAGTCAGG GTGCTCTGTG AGATCGAGAA GGTGGTTATC
    GCCATCCAGA AGCGCTTCCT GCAGCAGGAA TCCATCCCTG AGTCCTCGCT GTACCTGAGC
    CACCCCTCCT GCAACGTGAG CCACAGCAAT GGCACACACG TGCTCCTGGA GGCCAGCTGG
    AGCGAGTGCG GGACCATCAT GCAGAGCAAT GTGACGAACA CCGTGGTGAG GACCACGCTG
    AGGAACGACC TGTCCCCGGA GGGCATCATC CACTACCTGA AGATCCTGAG CCCCATCTAC
    TGTGCCTTCC AGAATGATCT GCTGACGTCC TCCGGCTTCA CCCCGGAGTG GGGGGTTTAC
    ACCATCATTG AGGACCTCCA CGGCGCTGGA AATTTTGTTA CCGAAATGCA GTTGTTTATC
    GGGGACTCTC CCATACCTCA GAATTATAGC GTGTCTGCCA GTGACGACGT CAAGATCGAA
    GTGGGGCTCT ACAGGCAGAA AAGCAACCTC AAGGTGGTCC TGACGGAGTG CTGGGCAACC
    CCGTCCAGCA ACGCCCGGGA CCCGGTCACC TTCAGCTTCA TTAACAACAG CTGCCCGGTG
    CCCAACACAT ACACCAGCGT GATTGAGAAT GGCAACTCCA GCAAGGCTCA GTTCAAGCTG
    AGAATCTTCT CCTTTATCAA CAACTCCATC GTCTATCTGC ACTGCAAACT CCGCATCTGC
    ATGGAATCCC CCGGGGCCAC GTGCAAAATC AATTGCAATA ACTTTCGGTT GCTGCAAACT
    AGTGAAACCT CTGCCACACA CCAGATGTCC TGGGGACCCC TCGTCAGGTC TGAAGGTGAG
    CCTCCACGTG CAGAAGCAGG CCTGGATGCC AGTTATGTGG TCCTCCTTGT GGTGGCCATC
    TTTACGCTGG TGGCGGGGGC AGCCACCCTT CTGATTGTGC ACTACCGGAG AATGAATGGG
    AGATACAACT TTAAAATCCA GTCCGACAAC TTCAACTACC AGGGGTTCTA CGAATAG

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