ORF » Species Summary » LOC112277378 cDNA ORF clone

LOC112277378 cDNA ORF clone,

The following LOC112277378 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC112277378 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
OPn65501 XM_024509590.1
Latest version!		 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OPn65502 XM_024509591.1
Latest version!		 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OPn65503 XM_024509592.1
Latest version!		 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OPn65504 XM_024509593.1
Latest version!		 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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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)
    LOC112277378 ( XM_024509590.1 ) cDNA ORF clone, -> XP_024365358.1 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OPn65501
    Clone ID Related Accession (Same CDS sequence) XM_024509590.1
    Accession Version XM_024509590.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4173bp)
    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 2018-04-03
    Organism Physcomitrella patens
    Product regulatory-associated protein of TOR 1-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_037277.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physcomitrella patens Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGCAGTAA GTGATTTTGT TCTCCGCAGA CAGCGAGTCA TGGACAGCAT AAGGGATGGG 
    CGCATGTTTC CGCCTGATTC CCTTCACTCT TCGCCTCCGC TGGTTAATGA CGTGGATGGA 
    AGGTTCCAAA TCGAGGAGGA GGGGCATCAA TCATCTGAAG AGGCTAGAGA TTATAACCAC 
    CGGACGGGCG TGACTTCCTA TCTCTGTGAC TTAAGGCATG AAGCCGATCA TTCGTCTACT 
    GTCGCTATGG CAGTGGCCGA GCCCGGTGTT GTGTCGCAAT GGAGGATGAA GGACAGAATG 
    AAAACAGGAT ATGTGGCGCT CGCTTTGTGC TTGAATATAG GTGTAGATCC ACCGGATGTA 
    ATCAAAATAT CTCCATGTGC TCGCATGGAA TGCTGGATAG ATCCATTTTC CACGACATCT 
    TCGAAAGCGC TTGATGCAAT TGGGAAAAAC CTCCAAGTGC AGTATGAGCG GTGGCAACCT 
    AGGGCGAAGT ATAAGGTCTG TCTTGACCCC ACCGTAGACG ACGTTAAAAA GTTGTGTTTG 
    CATTGTCGAA AAAATGCCAA AAATGAAAGA GTTCTGTTTC ATTATAATGG GCACGGCGTG 
    CCAAGACCAA CCCTCAATGG GGAGATCTGG CTGTTTAACA AGCATTTCAC CCAGTACATA 
    CCTCTGTCAG TTTACGATTT GGAGTCATGT CTTGGGAATC CATCTATCTA TGTGTTTGAT 
    TGCTCGGCAG CAGGCATGAT TGTCAATGCT TTCTGTGAGC GACCAGAATG GGGGACGACA 
    ACGTCTTCTA CTCCCTCCAT GAGGGACTGC ATTCTATTAG CTGCGTGTGG GGCGCTTGAA 
    ACACTTCCGC AAAATTCTGA GCTTCCAGCT GACGTCTTTA CATCGTGTCT CACGACTCCT 
    ATTCAAATTG CTTTGAGATG GTTTTGTCCA CGATCTTTAC TCTCTTTGGA TCCTGATTTA 
    ATTGACAAGA TTCCTGGGCG TCAGAATGAT AGGAAAACAC CATTGGGTGA ACTCAATTGG 
    ATTTTCACGG CTATTACAGA TACTATAGCT TGGAATGTGC TCCCTCGAGA GCTATTCCAG 
    CGGCTGTTCC GGCAGGATCT ACTTGTAGCA AGTCTATTTC GGAATTTCCT ACTAGCGGAG 
    CGTATTTTAC GAGCTTTCAA CTGTTGCCCG CAATCATTCC CTCGCTTACC ACCAACACAT 
    CAACACTCTA TGTGGCATGC TTGGGATATG GCTGCAGAAA TTTGTCTCTC ACAGCTACCT 
    TCCTTGTTAA GGAACCCAGG TGCAGAATTT CAGCCAAGTC CATTTTTTAC GGAACAGCTG 
    ACAGCTTTCG AGGTGTGGTT GGAGCATGGT TCGGAAGGGA AGAAGCCACC GGAACAACTT 
    CCCATAGTTC TGCAGGTTCT TCTGAGCCAG TCCCACAGGT TCCGAGCACT CGTACTTTTG 
    GGCCGGTTTC TGGACATGGG GGCCTGGGCT GTGTATCTGG CATTGTCAGT GGGAATTTTT 
    CCCTATGTAC TTAAGCTACT GCATACCACG GCTGCTGATT TGCGACAAAT CCTTGTGTTC 
    ATATGGACTA AAATTCTAGC CTTGGATAAG TCATGCCAAG TTGATCTAGT CAAAGATGGT 
    GGCCATTTGT ACTTCATCAA CTTCCTAGAG AGTCCTGACA TACATCCTGA GCAGCGTGCC 
    ATGGCTGCAT TTGTCCTTGC AGTTATAGTA GATGGGCATC CCCGTGGGCA GCAAGCATGT 
    ATTTATCCGG AAGGTCACCC AGTTGGACTA ATATACACAT GTCTCTCCCA CATACAAGAA 
    GCCCACAATG TTCTTGAGGG ACAACCTGAC CCCTTGCTCT TGCAGTGGCT ATGTCTTTGC 
    TTGGGGAAGC TTTGGGATGG GGCTTCGAAC GGTGTTGCTA TGGCCCTCGA TGACGATGCA 
    CCAGCAATTC TTGGAAAAGT TCTGTCTGAG CCACAGCCTG AGGTTCGTGC TGCAGCCGCC 
    TATGCATTAG GAACTCTTAT CAAAGTGGGT TCAGAACTGT CTCGCAATGA TGGAGGACGT 
    GATGATGGTT TGGATGAAGC CACTCAAGTT GCAGAGCAAG GAATAGCTCG TGTGTTGCTA 
    GAAGTTCTTT GCGACGGAAG TCCACTTGTG AGGACTGAGC TTGCTATTGC TCTGGCACGA 
    TTAGCTTCCA GTCACAACAG AATGTTTCGT CAAGCCGCTG CAGCTTATTT GAAGCCGCCA 
    TCTCATTCAA CAATTTTACC AGCGTCCGGA GCAGGATACA GAAGCCCAAG AGCTTACCCT 
    TCCTCGACAC TGGATGTTGA ACATAGTATA CGCTCTAATG GGGGGACACC ATATCGTTCA 
    GGACTCCGAG TTGTTTCGAG TAATGGCTCC GCAGGTTCTG CAGGCACTTC TCCATTGTCG 
    GAAAGCCAAA TGCTCGGAGA TTCAGTCAGT TGTGGAGGTT CCACAGACTT AGGCGATCGA 
    TCTTGGAGAC GCTCTGAGGA TGGGAATGTT TATATACAAT GCGTCACAGC TGTGTATGCC 
    TTGGCTAGGG ATCCTTCCCC CCGGGTTGCA TGTTTAGGCC GACAAGTGCT ACGAATGATG 
    GGAGTCGAGT CAGCTCAAAT TGTTGTGTCT GCAAGATCTG GCGCAAGTAA GGTTTCCCGT 
    CATCAACGAA ACTCATCTGT ACCTGCTCTG CCTCCTACTC CCTCTATACC GGGTGTTCTG 
    CTCCGATCGA CTTCTTGGGT AGCATCCACT TCAGGGAATC TTGCGAGTAC TTGGCGTATT 
    TCAACTCCAC CACCCAGCCC TCCCAACCAG CAGGCATTTA TGGTTGGTCC TCCTAGTAGT 
    TTACGACGGG CGGCATCCTT GGATATATCT TCAACATTAA ATACTCCATG GGATGCACCT 
    AGACCATCGG TAAGAGTGCT TGGAGATAAT GCTGTACAGG TAACGTCTTT AAATCCGAGC 
    ACTGGACATG GAAATATCGG TCTCGCTGAT GCCGCAGGGA TGTTGTCCCC TGGACAATCA 
    GCGGTATATC TTGAGGCGAT TCCCTTGCCA GAATCTACAT TTTTCAAGTG GAGTTGTGGA 
    CATTTTTCTC GACCTCTATT GGAACCTGTT CATGATGATG AAGAAGAAAT ATCAGCTCGC 
    CGTGAAAGAA GAGACCGAGA AGCCCAGGAC GGCATTACCA AGTGCCAGCA TTCAAGTGTG 
    AGCAAAGTCA GCGACCAAAT TGCGAGCTGG GATACTGGGT CTGAAATGGG GACTAAAACA 
    GTGCTTTTGC ATCCATTTAA GCCCCTTGTC TGTACTGCTG ATGATAAGGA GACCATCCGA 
    ATATGGGACT ACGAAGAAGC TGCAGTCGTG AATACTTTTG ACAATCATAA CACTCCTGAC 
    AAGGGTGTCT CCAAGCTCTG TTTACTCAAC GAATCAGACG ATAGTCTTCT CCTCGTTGCT 
    TCAAGTGACG GTAGTGTGCG TGTTTGGAGA GACTATACAC AGAAGGACAA TCACCGCTTG 
    GCAACTGCAT GGCAGACTGT GCAAGGCCAC AAACCTGGTT CTCGTAGTAT CGATGCTGTT 
    GTAGACTGGC AACAAACGAC AGGGTATTTG TATGCATCGG GTCAAATTTC GTGGATCTCG 
    GTGTGGGATC TCGATCGAGA ACAGCTGATT TCGACCATTT CTTCTCATTC AGATAGTTCC 
    GTATCTGCTT TGGCGGCTTG CCAAACACAT GATGCGCATG TGGTCACTGG ATGTGGAGAC 
    GGTTCTGTAC GGCTTTACGA CATCCGGTCT CGAGATATGC TTGTGTGTGC TATGCAGCCT 
    CATGCACATA AGGCGGTGGG CATTGGGTTC CAACCTGGAA TGGGATTTTC CAAGGTGGTT 
    TCTGCTTCGC AAGCTGGAGA TTTGAAGTTC CTTGACATGC GGAAGAGCTC ATCTCCTTAT 
    CTGGAGGTGA ACGCCCACAA GGGCCACTTG ACCTGTTTAA CTGTCCACCG GCATGCACCT 
    GTGATAGCTA CAGGGTCAGG AAAGCAGTTG ATTAAAACTT TTAGCACGAG TGGGGAGCAG 
    CTTAGTATGG TAAAATACCA TAGCAGCTTC ATAGGTCAAA GGATTGGATC TGTCAGTGCT 
    TTGGGTTTTC ATCCTTACAA GGTCTTGTTG GCTGCTGGGG CACTTGACTC CATTGTATCC 
    ATATACGCTG GAGATAGTAT TCAAGGTTGT TAA

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

    RefSeq XP_024365358.1
    CDS35..4207
    Translation

    Target ORF information:

    RefSeq Version XM_024509590.1
    Organism Physcomitrella patens
    Definition Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024509590.1

    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
    ATGGCAGTAA GTGATTTTGT TCTCCGCAGA CAGCGAGTCA TGGACAGCAT AAGGGATGGG 
    CGCATGTTTC CGCCTGATTC CCTTCACTCT TCGCCTCCGC TGGTTAATGA CGTGGATGGA 
    AGGTTCCAAA TCGAGGAGGA GGGGCATCAA TCATCTGAAG AGGCTAGAGA TTATAACCAC 
    CGGACGGGCG TGACTTCCTA TCTCTGTGAC TTAAGGCATG AAGCCGATCA TTCGTCTACT 
    GTCGCTATGG CAGTGGCCGA GCCCGGTGTT GTGTCGCAAT GGAGGATGAA GGACAGAATG 
    AAAACAGGAT ATGTGGCGCT CGCTTTGTGC TTGAATATAG GTGTAGATCC ACCGGATGTA 
    ATCAAAATAT CTCCATGTGC TCGCATGGAA TGCTGGATAG ATCCATTTTC CACGACATCT 
    TCGAAAGCGC TTGATGCAAT TGGGAAAAAC CTCCAAGTGC AGTATGAGCG GTGGCAACCT 
    AGGGCGAAGT ATAAGGTCTG TCTTGACCCC ACCGTAGACG ACGTTAAAAA GTTGTGTTTG 
    CATTGTCGAA AAAATGCCAA AAATGAAAGA GTTCTGTTTC ATTATAATGG GCACGGCGTG 
    CCAAGACCAA CCCTCAATGG GGAGATCTGG CTGTTTAACA AGCATTTCAC CCAGTACATA 
    CCTCTGTCAG TTTACGATTT GGAGTCATGT CTTGGGAATC CATCTATCTA TGTGTTTGAT 
    TGCTCGGCAG CAGGCATGAT TGTCAATGCT TTCTGTGAGC GACCAGAATG GGGGACGACA 
    ACGTCTTCTA CTCCCTCCAT GAGGGACTGC ATTCTATTAG CTGCGTGTGG GGCGCTTGAA 
    ACACTTCCGC AAAATTCTGA GCTTCCAGCT GACGTCTTTA CATCGTGTCT CACGACTCCT 
    ATTCAAATTG CTTTGAGATG GTTTTGTCCA CGATCTTTAC TCTCTTTGGA TCCTGATTTA 
    ATTGACAAGA TTCCTGGGCG TCAGAATGAT AGGAAAACAC CATTGGGTGA ACTCAATTGG 
    ATTTTCACGG CTATTACAGA TACTATAGCT TGGAATGTGC TCCCTCGAGA GCTATTCCAG 
    CGGCTGTTCC GGCAGGATCT ACTTGTAGCA AGTCTATTTC GGAATTTCCT ACTAGCGGAG 
    CGTATTTTAC GAGCTTTCAA CTGTTGCCCG CAATCATTCC CTCGCTTACC ACCAACACAT 
    CAACACTCTA TGTGGCATGC TTGGGATATG GCTGCAGAAA TTTGTCTCTC ACAGCTACCT 
    TCCTTGTTAA GGAACCCAGG TGCAGAATTT CAGCCAAGTC CATTTTTTAC GGAACAGCTG 
    ACAGCTTTCG AGGTGTGGTT GGAGCATGGT TCGGAAGGGA AGAAGCCACC GGAACAACTT 
    CCCATAGTTC TGCAGGTTCT TCTGAGCCAG TCCCACAGGT TCCGAGCACT CGTACTTTTG 
    GGCCGGTTTC TGGACATGGG GGCCTGGGCT GTGTATCTGG CATTGTCAGT GGGAATTTTT 
    CCCTATGTAC TTAAGCTACT GCATACCACG GCTGCTGATT TGCGACAAAT CCTTGTGTTC 
    ATATGGACTA AAATTCTAGC CTTGGATAAG TCATGCCAAG TTGATCTAGT CAAAGATGGT 
    GGCCATTTGT ACTTCATCAA CTTCCTAGAG AGTCCTGACA TACATCCTGA GCAGCGTGCC 
    ATGGCTGCAT TTGTCCTTGC AGTTATAGTA GATGGGCATC CCCGTGGGCA GCAAGCATGT 
    ATTTATCCGG AAGGTCACCC AGTTGGACTA ATATACACAT GTCTCTCCCA CATACAAGAA 
    GCCCACAATG TTCTTGAGGG ACAACCTGAC CCCTTGCTCT TGCAGTGGCT ATGTCTTTGC 
    TTGGGGAAGC TTTGGGATGG GGCTTCGAAC GGTGTTGCTA TGGCCCTCGA TGACGATGCA 
    CCAGCAATTC TTGGAAAAGT TCTGTCTGAG CCACAGCCTG AGGTTCGTGC TGCAGCCGCC 
    TATGCATTAG GAACTCTTAT CAAAGTGGGT TCAGAACTGT CTCGCAATGA TGGAGGACGT 
    GATGATGGTT TGGATGAAGC CACTCAAGTT GCAGAGCAAG GAATAGCTCG TGTGTTGCTA 
    GAAGTTCTTT GCGACGGAAG TCCACTTGTG AGGACTGAGC TTGCTATTGC TCTGGCACGA 
    TTAGCTTCCA GTCACAACAG AATGTTTCGT CAAGCCGCTG CAGCTTATTT GAAGCCGCCA 
    TCTCATTCAA CAATTTTACC AGCGTCCGGA GCAGGATACA GAAGCCCAAG AGCTTACCCT 
    TCCTCGACAC TGGATGTTGA ACATAGTATA CGCTCTAATG GGGGGACACC ATATCGTTCA 
    GGACTCCGAG TTGTTTCGAG TAATGGCTCC GCAGGTTCTG CAGGCACTTC TCCATTGTCG 
    GAAAGCCAAA TGCTCGGAGA TTCAGTCAGT TGTGGAGGTT CCACAGACTT AGGCGATCGA 
    TCTTGGAGAC GCTCTGAGGA TGGGAATGTT TATATACAAT GCGTCACAGC TGTGTATGCC 
    TTGGCTAGGG ATCCTTCCCC CCGGGTTGCA TGTTTAGGCC GACAAGTGCT ACGAATGATG 
    GGAGTCGAGT CAGCTCAAAT TGTTGTGTCT GCAAGATCTG GCGCAAGTAA GGTTTCCCGT 
    CATCAACGAA ACTCATCTGT ACCTGCTCTG CCTCCTACTC CCTCTATACC GGGTGTTCTG 
    CTCCGATCGA CTTCTTGGGT AGCATCCACT TCAGGGAATC TTGCGAGTAC TTGGCGTATT 
    TCAACTCCAC CACCCAGCCC TCCCAACCAG CAGGCATTTA TGGTTGGTCC TCCTAGTAGT 
    TTACGACGGG CGGCATCCTT GGATATATCT TCAACATTAA ATACTCCATG GGATGCACCT 
    AGACCATCGG TAAGAGTGCT TGGAGATAAT GCTGTACAGG TAACGTCTTT AAATCCGAGC 
    ACTGGACATG GAAATATCGG TCTCGCTGAT GCCGCAGGGA TGTTGTCCCC TGGACAATCA 
    GCGGTATATC TTGAGGCGAT TCCCTTGCCA GAATCTACAT TTTTCAAGTG GAGTTGTGGA 
    CATTTTTCTC GACCTCTATT GGAACCTGTT CATGATGATG AAGAAGAAAT ATCAGCTCGC 
    CGTGAAAGAA GAGACCGAGA AGCCCAGGAC GGCATTACCA AGTGCCAGCA TTCAAGTGTG 
    AGCAAAGTCA GCGACCAAAT TGCGAGCTGG GATACTGGGT CTGAAATGGG GACTAAAACA 
    GTGCTTTTGC ATCCATTTAA GCCCCTTGTC TGTACTGCTG ATGATAAGGA GACCATCCGA 
    ATATGGGACT ACGAAGAAGC TGCAGTCGTG AATACTTTTG ACAATCATAA CACTCCTGAC 
    AAGGGTGTCT CCAAGCTCTG TTTACTCAAC GAATCAGACG ATAGTCTTCT CCTCGTTGCT 
    TCAAGTGACG GTAGTGTGCG TGTTTGGAGA GACTATACAC AGAAGGACAA TCACCGCTTG 
    GCAACTGCAT GGCAGACTGT GCAAGGCCAC AAACCTGGTT CTCGTAGTAT CGATGCTGTT 
    GTAGACTGGC AACAAACGAC AGGGTATTTG TATGCATCGG GTCAAATTTC GTGGATCTCG 
    GTGTGGGATC TCGATCGAGA ACAGCTGATT TCGACCATTT CTTCTCATTC AGATAGTTCC 
    GTATCTGCTT TGGCGGCTTG CCAAACACAT GATGCGCATG TGGTCACTGG ATGTGGAGAC 
    GGTTCTGTAC GGCTTTACGA CATCCGGTCT CGAGATATGC TTGTGTGTGC TATGCAGCCT 
    CATGCACATA AGGCGGTGGG CATTGGGTTC CAACCTGGAA TGGGATTTTC CAAGGTGGTT 
    TCTGCTTCGC AAGCTGGAGA TTTGAAGTTC CTTGACATGC GGAAGAGCTC ATCTCCTTAT 
    CTGGAGGTGA ACGCCCACAA GGGCCACTTG ACCTGTTTAA CTGTCCACCG GCATGCACCT 
    GTGATAGCTA CAGGGTCAGG AAAGCAGTTG ATTAAAACTT TTAGCACGAG TGGGGAGCAG 
    CTTAGTATGG TAAAATACCA TAGCAGCTTC ATAGGTCAAA GGATTGGATC TGTCAGTGCT 
    TTGGGTTTTC ATCCTTACAA GGTCTTGTTG GCTGCTGGGG CACTTGACTC CATTGTATCC 
    ATATACGCTG GAGATAGTAT TCAAGGTTGT TAA

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

    LOC112277378 ( XM_024509591.1 ) cDNA ORF clone, -> XP_024365359.1 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OPn65502
    Clone ID Related Accession (Same CDS sequence) XM_024509591.1
    Accession Version XM_024509591.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4164bp)
    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 2018-04-03
    Organism Physcomitrella patens
    Product regulatory-associated protein of TOR 2-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_037277.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physcomitrella patens Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGCAGTAA GTGATTTTGT TCTCCGCAGA CAGCGAGTCA TGGACAGCAT AAGGGATGGG 
    CGCATGTTTC CGCCTGATTC CCTTCACTCT TCGCCTCCGC TGGTTAATGA CGTGGATGGA 
    AGGTTCCAAA TCGAGGAGGA GGGGCATCAA TCATCTGAAG AGGCTAGAGA TTATAACCAC 
    CGGACGGGCG TGACTTCCTA TCTCTGTGAC TTAAGGCATG AAGCCGATCA TTCGTCTACT 
    GTCGCTATGG CAGTGGCCGA GCCCGGTGTT GTGTCGCAAT GGAGGATGAA GGACAGAATG 
    AAAACAGGAT ATGTGGCGCT CGCTTTGTGC TTGAATATAG GTGTAGATCC ACCGGATGTA 
    ATCAAAATAT CTCCATGTGC TCGCATGGAA TGCTGGATAG ATCCATTTTC CACGACATCT 
    TCGAAAGCGC TTGATGCAAT TGGGAAAAAC CTCCAAGTGC AGTATGAGCG GTGGCAACCT 
    AGGGCGAAGT ATAAGGTCTG TCTTGACCCC ACCGTAGACG ACGTTAAAAA GTTGTGTTTG 
    CATTGTCGAA AAAATGCCAA AAATGAAAGA GTTCTGTTTC ATTATAATGG GCACGGCGTG 
    CCAAGACCAA CCCTCAATGG GGAGATCTGG CTGTTTAACA AGCATTTCAC CCAGTACATA 
    CCTCTGTCAG TTTACGATTT GGAGTCATGT CTTGGGAATC CATCTATCTA TGTGTTTGAT 
    TGCTCGGCAG CAGGCATGAT TGTCAATGCT TTCTGTGAGC GACCAGAATG GGGGACGACA 
    ACGTCTTCTA CTCCCTCCAT GAGGGACTGC ATTCTATTAG CTGCGTGTGG GGCGCTTGAA 
    ACACTTCCGC AAAATTCTGA GCTTCCAGCT GACGTCTTTA CATCGTGTCT CACGACTCCT 
    ATTCAAATTG CTTTGAGATG GTTTTGTCCA CGATCTTTAC TCTCTTTGGA TCCTGATTTA 
    ATTGACAAGA TTCCTGGGCG TCAGAATGAT AGGAAAACAC CATTGGGTGA ACTCAATTGG 
    ATTTTCACGG CTATTACAGA TACTATAGCT TGGAATGTGC TCCCTCGAGA GCTATTCCAG 
    CGGCTGTTCC GGCAGGATCT ACTTGTAGCA AGTCTATTTC GGAATTTCCT ACTAGCGGAG 
    CGTATTTTAC GAGCTTTCAA CTGTTGCCCG CAATCATTCC CTCGCTTACC ACCAACACAT 
    CAACACTCTA TGTGGCATGC TTGGGATATG GCTGCAGAAA TTTGTCTCTC ACAGCTACCT 
    TCCTTGTTAA GGAACCCAGG TGCAGAATTT CAGCCAAGTC CATTTTTTAC GGAACAGCTG 
    ACAGCTTTCG AGGTGTGGTT GGAGCATGGT TCGGAAGGGA AGAAGCCACC GGAACAACTT 
    CCCATAGTTC TGCAGGTTCT TCTGAGCCAG TCCCACAGGT TCCGAGCACT CGTACTTTTG 
    GGCCGGTTTC TGGACATGGG GGCCTGGGCT GTGTATCTGG CATTGTCAGT GGGAATTTTT 
    CCCTATGTAC TTAAGCTACT GCATACCACG GCTGCTGATT TGCGACAAAT CCTTGTGTTC 
    ATATGGACTA AAATTCTAGC CTTGGATAAG TCATGCCAAG TTGATCTAGT CAAAGATGGT 
    GGCCATTTGT ACTTCATCAA CTTCCTAGAG AGTCCTGACA TACATCCTGA GCAGCGTGCC 
    ATGGCTGCAT TTGTCCTTGC AGTTATAGTA GATGGGCATC CCCGTGGGCA GCAAGCATGT 
    ATTTATCCGG AAGGTCACCC AGTTGGACTA ATATACACAT GTCTCTCCCA CATACAAGAA 
    GCCCACAATG TTCTTGAGGG ACAACCTGAC CCCTTGCTCT TGCAGTGGCT ATGTCTTTGC 
    TTGGGGAAGC TTTGGGATGG GGCTTCGAAC GGTGTTGCTA TGGCCCTCGA TGACGATGCA 
    CCAGCAATTC TTGGAAAAGT TCTGTCTGAG CCACAGCCTG AGGTTCGTGC TGCAGCCGCC 
    TATGCATTAG GAACTCTTAT CAAAGTGGGT TCAGAACTGT CTCGCAATGA TGGAGGACGT 
    GATGATGGTT TGGATGAAGC CACTCAAGTT GCAGAGCAAG GAATAGCTCG TGTGTTGCTA 
    GAAGTTCTTT GCGACGGAAG TCCACTTGTG AGGACTGAGC TTGCTATTGC TCTGGCACGA 
    TTAGCTTCCA GTCACAACAG AATGTTTCGT CAAGCCGCTG CAGCTTATTT GAAGCCGCCA 
    TCTCATTCAA CAATTTTACC AGCGTCCGGA GCAGGATACA GAAGCCCAAG AGCTTACCCT 
    TCCTCGACAC TGGATGTTGA ACATAGTATA CGCTCTAATG GGGGGACACC ATATCGTTCA 
    GGACTCCGAG TTGTTTCGAG TAATGGCTCC GCAGGCACTT CTCCATTGTC GGAAAGCCAA 
    ATGCTCGGAG ATTCAGTCAG TTGTGGAGGT TCCACAGACT TAGGCGATCG ATCTTGGAGA 
    CGCTCTGAGG ATGGGAATGT TTATATACAA TGCGTCACAG CTGTGTATGC CTTGGCTAGG 
    GATCCTTCCC CCCGGGTTGC ATGTTTAGGC CGACAAGTGC TACGAATGAT GGGAGTCGAG 
    TCAGCTCAAA TTGTTGTGTC TGCAAGATCT GGCGCAAGTA AGGTTTCCCG TCATCAACGA 
    AACTCATCTG TACCTGCTCT GCCTCCTACT CCCTCTATAC CGGGTGTTCT GCTCCGATCG 
    ACTTCTTGGG TAGCATCCAC TTCAGGGAAT CTTGCGAGTA CTTGGCGTAT TTCAACTCCA 
    CCACCCAGCC CTCCCAACCA GCAGGCATTT ATGGTTGGTC CTCCTAGTAG TTTACGACGG 
    GCGGCATCCT TGGATATATC TTCAACATTA AATACTCCAT GGGATGCACC TAGACCATCG 
    GTAAGAGTGC TTGGAGATAA TGCTGTACAG GTAACGTCTT TAAATCCGAG CACTGGACAT 
    GGAAATATCG GTCTCGCTGA TGCCGCAGGG ATGTTGTCCC CTGGACAATC AGCGGTATAT 
    CTTGAGGCGA TTCCCTTGCC AGAATCTACA TTTTTCAAGT GGAGTTGTGG ACATTTTTCT 
    CGACCTCTAT TGGAACCTGT TCATGATGAT GAAGAAGAAA TATCAGCTCG CCGTGAAAGA 
    AGAGACCGAG AAGCCCAGGA CGGCATTACC AAGTGCCAGC ATTCAAGTGT GAGCAAAGTC 
    AGCGACCAAA TTGCGAGCTG GGATACTGGG TCTGAAATGG GGACTAAAAC AGTGCTTTTG 
    CATCCATTTA AGCCCCTTGT CTGTACTGCT GATGATAAGG AGACCATCCG AATATGGGAC 
    TACGAAGAAG CTGCAGTCGT GAATACTTTT GACAATCATA ACACTCCTGA CAAGGGTGTC 
    TCCAAGCTCT GTTTACTCAA CGAATCAGAC GATAGTCTTC TCCTCGTTGC TTCAAGTGAC 
    GGTAGTGTGC GTGTTTGGAG AGACTATACA CAGAAGGACA ATCACCGCTT GGCAACTGCA 
    TGGCAGACTG TGCAAGGCCA CAAACCTGGT TCTCGTAGTA TCGATGCTGT TGTAGACTGG 
    CAACAAACGA CAGGGTATTT GTATGCATCG GGTCAAATTT CGTGGATCTC GGTGTGGGAT 
    CTCGATCGAG AACAGCTGAT TTCGACCATT TCTTCTCATT CAGATAGTTC CGTATCTGCT 
    TTGGCGGCTT GCCAAACACA TGATGCGCAT GTGGTCACTG GATGTGGAGA CGGTTCTGTA 
    CGGCTTTACG ACATCCGGTC TCGAGATATG CTTGTGTGTG CTATGCAGCC TCATGCACAT 
    AAGGCGGTGG GCATTGGGTT CCAACCTGGA ATGGGATTTT CCAAGGTGGT TTCTGCTTCG 
    CAAGCTGGAG ATTTGAAGTT CCTTGACATG CGGAAGAGCT CATCTCCTTA TCTGGAGGTG 
    AACGCCCACA AGGGCCACTT GACCTGTTTA ACTGTCCACC GGCATGCACC TGTGATAGCT 
    ACAGGGTCAG GAAAGCAGTT GATTAAAACT TTTAGCACGA GTGGGGAGCA GCTTAGTATG 
    GTAAAATACC ATAGCAGCTT CATAGGTCAA AGGATTGGAT CTGTCAGTGC TTTGGGTTTT 
    CATCCTTACA AGGTCTTGTT GGCTGCTGGG GCACTTGACT CCATTGTATC CATATACGCT 
    GGAGATAGTA TTCAAGGTTG TTAA

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

    RefSeq XP_024365359.1
    CDS35..4198
    Translation

    Target ORF information:

    RefSeq Version XM_024509591.1
    Organism Physcomitrella patens
    Definition Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024509591.1

    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
    ATGGCAGTAA GTGATTTTGT TCTCCGCAGA CAGCGAGTCA TGGACAGCAT AAGGGATGGG 
    CGCATGTTTC CGCCTGATTC CCTTCACTCT TCGCCTCCGC TGGTTAATGA CGTGGATGGA 
    AGGTTCCAAA TCGAGGAGGA GGGGCATCAA TCATCTGAAG AGGCTAGAGA TTATAACCAC 
    CGGACGGGCG TGACTTCCTA TCTCTGTGAC TTAAGGCATG AAGCCGATCA TTCGTCTACT 
    GTCGCTATGG CAGTGGCCGA GCCCGGTGTT GTGTCGCAAT GGAGGATGAA GGACAGAATG 
    AAAACAGGAT ATGTGGCGCT CGCTTTGTGC TTGAATATAG GTGTAGATCC ACCGGATGTA 
    ATCAAAATAT CTCCATGTGC TCGCATGGAA TGCTGGATAG ATCCATTTTC CACGACATCT 
    TCGAAAGCGC TTGATGCAAT TGGGAAAAAC CTCCAAGTGC AGTATGAGCG GTGGCAACCT 
    AGGGCGAAGT ATAAGGTCTG TCTTGACCCC ACCGTAGACG ACGTTAAAAA GTTGTGTTTG 
    CATTGTCGAA AAAATGCCAA AAATGAAAGA GTTCTGTTTC ATTATAATGG GCACGGCGTG 
    CCAAGACCAA CCCTCAATGG GGAGATCTGG CTGTTTAACA AGCATTTCAC CCAGTACATA 
    CCTCTGTCAG TTTACGATTT GGAGTCATGT CTTGGGAATC CATCTATCTA TGTGTTTGAT 
    TGCTCGGCAG CAGGCATGAT TGTCAATGCT TTCTGTGAGC GACCAGAATG GGGGACGACA 
    ACGTCTTCTA CTCCCTCCAT GAGGGACTGC ATTCTATTAG CTGCGTGTGG GGCGCTTGAA 
    ACACTTCCGC AAAATTCTGA GCTTCCAGCT GACGTCTTTA CATCGTGTCT CACGACTCCT 
    ATTCAAATTG CTTTGAGATG GTTTTGTCCA CGATCTTTAC TCTCTTTGGA TCCTGATTTA 
    ATTGACAAGA TTCCTGGGCG TCAGAATGAT AGGAAAACAC CATTGGGTGA ACTCAATTGG 
    ATTTTCACGG CTATTACAGA TACTATAGCT TGGAATGTGC TCCCTCGAGA GCTATTCCAG 
    CGGCTGTTCC GGCAGGATCT ACTTGTAGCA AGTCTATTTC GGAATTTCCT ACTAGCGGAG 
    CGTATTTTAC GAGCTTTCAA CTGTTGCCCG CAATCATTCC CTCGCTTACC ACCAACACAT 
    CAACACTCTA TGTGGCATGC TTGGGATATG GCTGCAGAAA TTTGTCTCTC ACAGCTACCT 
    TCCTTGTTAA GGAACCCAGG TGCAGAATTT CAGCCAAGTC CATTTTTTAC GGAACAGCTG 
    ACAGCTTTCG AGGTGTGGTT GGAGCATGGT TCGGAAGGGA AGAAGCCACC GGAACAACTT 
    CCCATAGTTC TGCAGGTTCT TCTGAGCCAG TCCCACAGGT TCCGAGCACT CGTACTTTTG 
    GGCCGGTTTC TGGACATGGG GGCCTGGGCT GTGTATCTGG CATTGTCAGT GGGAATTTTT 
    CCCTATGTAC TTAAGCTACT GCATACCACG GCTGCTGATT TGCGACAAAT CCTTGTGTTC 
    ATATGGACTA AAATTCTAGC CTTGGATAAG TCATGCCAAG TTGATCTAGT CAAAGATGGT 
    GGCCATTTGT ACTTCATCAA CTTCCTAGAG AGTCCTGACA TACATCCTGA GCAGCGTGCC 
    ATGGCTGCAT TTGTCCTTGC AGTTATAGTA GATGGGCATC CCCGTGGGCA GCAAGCATGT 
    ATTTATCCGG AAGGTCACCC AGTTGGACTA ATATACACAT GTCTCTCCCA CATACAAGAA 
    GCCCACAATG TTCTTGAGGG ACAACCTGAC CCCTTGCTCT TGCAGTGGCT ATGTCTTTGC 
    TTGGGGAAGC TTTGGGATGG GGCTTCGAAC GGTGTTGCTA TGGCCCTCGA TGACGATGCA 
    CCAGCAATTC TTGGAAAAGT TCTGTCTGAG CCACAGCCTG AGGTTCGTGC TGCAGCCGCC 
    TATGCATTAG GAACTCTTAT CAAAGTGGGT TCAGAACTGT CTCGCAATGA TGGAGGACGT 
    GATGATGGTT TGGATGAAGC CACTCAAGTT GCAGAGCAAG GAATAGCTCG TGTGTTGCTA 
    GAAGTTCTTT GCGACGGAAG TCCACTTGTG AGGACTGAGC TTGCTATTGC TCTGGCACGA 
    TTAGCTTCCA GTCACAACAG AATGTTTCGT CAAGCCGCTG CAGCTTATTT GAAGCCGCCA 
    TCTCATTCAA CAATTTTACC AGCGTCCGGA GCAGGATACA GAAGCCCAAG AGCTTACCCT 
    TCCTCGACAC TGGATGTTGA ACATAGTATA CGCTCTAATG GGGGGACACC ATATCGTTCA 
    GGACTCCGAG TTGTTTCGAG TAATGGCTCC GCAGGCACTT CTCCATTGTC GGAAAGCCAA 
    ATGCTCGGAG ATTCAGTCAG TTGTGGAGGT TCCACAGACT TAGGCGATCG ATCTTGGAGA 
    CGCTCTGAGG ATGGGAATGT TTATATACAA TGCGTCACAG CTGTGTATGC CTTGGCTAGG 
    GATCCTTCCC CCCGGGTTGC ATGTTTAGGC CGACAAGTGC TACGAATGAT GGGAGTCGAG 
    TCAGCTCAAA TTGTTGTGTC TGCAAGATCT GGCGCAAGTA AGGTTTCCCG TCATCAACGA 
    AACTCATCTG TACCTGCTCT GCCTCCTACT CCCTCTATAC CGGGTGTTCT GCTCCGATCG 
    ACTTCTTGGG TAGCATCCAC TTCAGGGAAT CTTGCGAGTA CTTGGCGTAT TTCAACTCCA 
    CCACCCAGCC CTCCCAACCA GCAGGCATTT ATGGTTGGTC CTCCTAGTAG TTTACGACGG 
    GCGGCATCCT TGGATATATC TTCAACATTA AATACTCCAT GGGATGCACC TAGACCATCG 
    GTAAGAGTGC TTGGAGATAA TGCTGTACAG GTAACGTCTT TAAATCCGAG CACTGGACAT 
    GGAAATATCG GTCTCGCTGA TGCCGCAGGG ATGTTGTCCC CTGGACAATC AGCGGTATAT 
    CTTGAGGCGA TTCCCTTGCC AGAATCTACA TTTTTCAAGT GGAGTTGTGG ACATTTTTCT 
    CGACCTCTAT TGGAACCTGT TCATGATGAT GAAGAAGAAA TATCAGCTCG CCGTGAAAGA 
    AGAGACCGAG AAGCCCAGGA CGGCATTACC AAGTGCCAGC ATTCAAGTGT GAGCAAAGTC 
    AGCGACCAAA TTGCGAGCTG GGATACTGGG TCTGAAATGG GGACTAAAAC AGTGCTTTTG 
    CATCCATTTA AGCCCCTTGT CTGTACTGCT GATGATAAGG AGACCATCCG AATATGGGAC 
    TACGAAGAAG CTGCAGTCGT GAATACTTTT GACAATCATA ACACTCCTGA CAAGGGTGTC 
    TCCAAGCTCT GTTTACTCAA CGAATCAGAC GATAGTCTTC TCCTCGTTGC TTCAAGTGAC 
    GGTAGTGTGC GTGTTTGGAG AGACTATACA CAGAAGGACA ATCACCGCTT GGCAACTGCA 
    TGGCAGACTG TGCAAGGCCA CAAACCTGGT TCTCGTAGTA TCGATGCTGT TGTAGACTGG 
    CAACAAACGA CAGGGTATTT GTATGCATCG GGTCAAATTT CGTGGATCTC GGTGTGGGAT 
    CTCGATCGAG AACAGCTGAT TTCGACCATT TCTTCTCATT CAGATAGTTC CGTATCTGCT 
    TTGGCGGCTT GCCAAACACA TGATGCGCAT GTGGTCACTG GATGTGGAGA CGGTTCTGTA 
    CGGCTTTACG ACATCCGGTC TCGAGATATG CTTGTGTGTG CTATGCAGCC TCATGCACAT 
    AAGGCGGTGG GCATTGGGTT CCAACCTGGA ATGGGATTTT CCAAGGTGGT TTCTGCTTCG 
    CAAGCTGGAG ATTTGAAGTT CCTTGACATG CGGAAGAGCT CATCTCCTTA TCTGGAGGTG 
    AACGCCCACA AGGGCCACTT GACCTGTTTA ACTGTCCACC GGCATGCACC TGTGATAGCT 
    ACAGGGTCAG GAAAGCAGTT GATTAAAACT TTTAGCACGA GTGGGGAGCA GCTTAGTATG 
    GTAAAATACC ATAGCAGCTT CATAGGTCAA AGGATTGGAT CTGTCAGTGC TTTGGGTTTT 
    CATCCTTACA AGGTCTTGTT GGCTGCTGGG GCACTTGACT CCATTGTATC CATATACGCT 
    GGAGATAGTA TTCAAGGTTG TTAA

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

    LOC112277378 ( XM_024509592.1 ) cDNA ORF clone, -> XP_024365360.1 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OPn65503
    Clone ID Related Accession (Same CDS sequence) XM_024509592.1
    Accession Version XM_024509592.1 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 2018-04-03
    Organism Physcomitrella patens
    Product regulatory-associated protein of TOR 1-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_037277.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physcomitrella patens Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGACAGCA TAAGGGATGG GCGCATGTTT CCGCCTGATT CCCTTCACTC TTCGCCTCCG 
    CTGGTTAATG ACGTGGATGG AAGGTTCCAA ATCGAGGAGG AGGGGCATCA ATCATCTGAA 
    GAGGCTAGAG ATTATAACCA CCGGACGGGC GTGACTTCCT ATCTCTGTGA CTTAAGGCAT 
    GAAGCCGATC ATTCGTCTAC TGTCGCTATG GCAGTGGCCG AGCCCGGTGT TGTGTCGCAA 
    TGGAGGATGA AGGACAGAAT GAAAACAGGA TATGTGGCGC TCGCTTTGTG CTTGAATATA 
    GGTGTAGATC CACCGGATGT AATCAAAATA TCTCCATGTG CTCGCATGGA ATGCTGGATA 
    GATCCATTTT CCACGACATC TTCGAAAGCG CTTGATGCAA TTGGGAAAAA CCTCCAAGTG 
    CAGTATGAGC GGTGGCAACC TAGGGCGAAG TATAAGGTCT GTCTTGACCC CACCGTAGAC 
    GACGTTAAAA AGTTGTGTTT GCATTGTCGA AAAAATGCCA AAAATGAAAG AGTTCTGTTT 
    CATTATAATG GGCACGGCGT GCCAAGACCA ACCCTCAATG GGGAGATCTG GCTGTTTAAC 
    AAGCATTTCA CCCAGTACAT ACCTCTGTCA GTTTACGATT TGGAGTCATG TCTTGGGAAT 
    CCATCTATCT ATGTGTTTGA TTGCTCGGCA GCAGGCATGA TTGTCAATGC TTTCTGTGAG 
    CGACCAGAAT GGGGGACGAC AACGTCTTCT ACTCCCTCCA TGAGGGACTG CATTCTATTA 
    GCTGCGTGTG GGGCGCTTGA AACACTTCCG CAAAATTCTG AGCTTCCAGC TGACGTCTTT 
    ACATCGTGTC TCACGACTCC TATTCAAATT GCTTTGAGAT GGTTTTGTCC ACGATCTTTA 
    CTCTCTTTGG ATCCTGATTT AATTGACAAG ATTCCTGGGC GTCAGAATGA TAGGAAAACA 
    CCATTGGGTG AACTCAATTG GATTTTCACG GCTATTACAG ATACTATAGC TTGGAATGTG 
    CTCCCTCGAG AGCTATTCCA GCGGCTGTTC CGGCAGGATC TACTTGTAGC AAGTCTATTT 
    CGGAATTTCC TACTAGCGGA GCGTATTTTA CGAGCTTTCA ACTGTTGCCC GCAATCATTC 
    CCTCGCTTAC CACCAACACA TCAACACTCT ATGTGGCATG CTTGGGATAT GGCTGCAGAA 
    ATTTGTCTCT CACAGCTACC TTCCTTGTTA AGGAACCCAG GTGCAGAATT TCAGCCAAGT 
    CCATTTTTTA CGGAACAGCT GACAGCTTTC GAGGTGTGGT TGGAGCATGG TTCGGAAGGG 
    AAGAAGCCAC CGGAACAACT TCCCATAGTT CTGCAGGTTC TTCTGAGCCA GTCCCACAGG 
    TTCCGAGCAC TCGTACTTTT GGGCCGGTTT CTGGACATGG GGGCCTGGGC TGTGTATCTG 
    GCATTGTCAG TGGGAATTTT TCCCTATGTA CTTAAGCTAC TGCATACCAC GGCTGCTGAT 
    TTGCGACAAA TCCTTGTGTT CATATGGACT AAAATTCTAG CCTTGGATAA GTCATGCCAA 
    GTTGATCTAG TCAAAGATGG TGGCCATTTG TACTTCATCA ACTTCCTAGA GAGTCCTGAC 
    ATACATCCTG AGCAGCGTGC CATGGCTGCA TTTGTCCTTG CAGTTATAGT AGATGGGCAT 
    CCCCGTGGGC AGCAAGCATG TATTTATCCG GAAGGTCACC CAGTTGGACT AATATACACA 
    TGTCTCTCCC ACATACAAGA AGCCCACAAT GTTCTTGAGG GACAACCTGA CCCCTTGCTC 
    TTGCAGTGGC TATGTCTTTG CTTGGGGAAG CTTTGGGATG GGGCTTCGAA CGGTGTTGCT 
    ATGGCCCTCG ATGACGATGC ACCAGCAATT CTTGGAAAAG TTCTGTCTGA GCCACAGCCT 
    GAGGTTCGTG CTGCAGCCGC CTATGCATTA GGAACTCTTA TCAAAGTGGG TTCAGAACTG 
    TCTCGCAATG ATGGAGGACG TGATGATGGT TTGGATGAAG CCACTCAAGT TGCAGAGCAA 
    GGAATAGCTC GTGTGTTGCT AGAAGTTCTT TGCGACGGAA GTCCACTTGT GAGGACTGAG 
    CTTGCTATTG CTCTGGCACG ATTAGCTTCC AGTCACAACA GAATGTTTCG TCAAGCCGCT 
    GCAGCTTATT TGAAGCCGCC ATCTCATTCA ACAATTTTAC CAGCGTCCGG AGCAGGATAC 
    AGAAGCCCAA GAGCTTACCC TTCCTCGACA CTGGATGTTG AACATAGTAT ACGCTCTAAT 
    GGGGGGACAC CATATCGTTC AGGACTCCGA GTTGTTTCGA GTAATGGCTC CGCAGGTTCT 
    GCAGGCACTT CTCCATTGTC GGAAAGCCAA ATGCTCGGAG ATTCAGTCAG TTGTGGAGGT 
    TCCACAGACT TAGGCGATCG ATCTTGGAGA CGCTCTGAGG ATGGGAATGT TTATATACAA 
    TGCGTCACAG CTGTGTATGC CTTGGCTAGG GATCCTTCCC CCCGGGTTGC ATGTTTAGGC 
    CGACAAGTGC TACGAATGAT GGGAGTCGAG TCAGCTCAAA TTGTTGTGTC TGCAAGATCT 
    GGCGCAAGTA AGGTTTCCCG TCATCAACGA AACTCATCTG TACCTGCTCT GCCTCCTACT 
    CCCTCTATAC CGGGTGTTCT GCTCCGATCG ACTTCTTGGG TAGCATCCAC TTCAGGGAAT 
    CTTGCGAGTA CTTGGCGTAT TTCAACTCCA CCACCCAGCC CTCCCAACCA GCAGGCATTT 
    ATGGTTGGTC CTCCTAGTAG TTTACGACGG GCGGCATCCT TGGATATATC TTCAACATTA 
    AATACTCCAT GGGATGCACC TAGACCATCG GTAAGAGTGC TTGGAGATAA TGCTGTACAG 
    GTAACGTCTT TAAATCCGAG CACTGGACAT GGAAATATCG GTCTCGCTGA TGCCGCAGGG 
    ATGTTGTCCC CTGGACAATC AGCGGTATAT CTTGAGGCGA TTCCCTTGCC AGAATCTACA 
    TTTTTCAAGT GGAGTTGTGG ACATTTTTCT CGACCTCTAT TGGAACCTGT TCATGATGAT 
    GAAGAAGAAA TATCAGCTCG CCGTGAAAGA AGAGACCGAG AAGCCCAGGA CGGCATTACC 
    AAGTGCCAGC ATTCAAGTGT GAGCAAAGTC AGCGACCAAA TTGCGAGCTG GGATACTGGG 
    TCTGAAATGG GGACTAAAAC AGTGCTTTTG CATCCATTTA AGCCCCTTGT CTGTACTGCT 
    GATGATAAGG AGACCATCCG AATATGGGAC TACGAAGAAG CTGCAGTCGT GAATACTTTT 
    GACAATCATA ACACTCCTGA CAAGGGTGTC TCCAAGCTCT GTTTACTCAA CGAATCAGAC 
    GATAGTCTTC TCCTCGTTGC TTCAAGTGAC GGTAGTGTGC GTGTTTGGAG AGACTATACA 
    CAGAAGGACA ATCACCGCTT GGCAACTGCA TGGCAGACTG TGCAAGGCCA CAAACCTGGT 
    TCTCGTAGTA TCGATGCTGT TGTAGACTGG CAACAAACGA CAGGGTATTT GTATGCATCG 
    GGTCAAATTT CGTGGATCTC GGTGTGGGAT CTCGATCGAG AACAGCTGAT TTCGACCATT 
    TCTTCTCATT CAGATAGTTC CGTATCTGCT TTGGCGGCTT GCCAAACACA TGATGCGCAT 
    GTGGTCACTG GATGTGGAGA CGGTTCTGTA CGGCTTTACG ACATCCGGTC TCGAGATATG 
    CTTGTGTGTG CTATGCAGCC TCATGCACAT AAGGCGGTGG GCATTGGGTT CCAACCTGGA 
    ATGGGATTTT CCAAGGTGGT TTCTGCTTCG CAAGCTGGAG ATTTGAAGTT CCTTGACATG 
    CGGAAGAGCT CATCTCCTTA TCTGGAGGTG AACGCCCACA AGGGCCACTT GACCTGTTTA 
    ACTGTCCACC GGCATGCACC TGTGATAGCT ACAGGGTCAG GAAAGCAGTT GATTAAAACT 
    TTTAGCACGA GTGGGGAGCA GCTTAGTATG GTAAAATACC ATAGCAGCTT CATAGGTCAA 
    AGGATTGGAT CTGTCAGTGC TTTGGGTTTT CATCCTTACA AGGTCTTGTT GGCTGCTGGG 
    GCACTTGACT CCATTGTATC CATATACGCT GGAGATAGTA TTCAAGGTTG TTAA

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

    RefSeq XP_024365360.1
    CDS154..4287
    Translation

    Target ORF information:

    RefSeq Version XM_024509592.1
    Organism Physcomitrella patens
    Definition Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024509592.1

    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
    ATGGACAGCA TAAGGGATGG GCGCATGTTT CCGCCTGATT CCCTTCACTC TTCGCCTCCG 
    CTGGTTAATG ACGTGGATGG AAGGTTCCAA ATCGAGGAGG AGGGGCATCA ATCATCTGAA 
    GAGGCTAGAG ATTATAACCA CCGGACGGGC GTGACTTCCT ATCTCTGTGA CTTAAGGCAT 
    GAAGCCGATC ATTCGTCTAC TGTCGCTATG GCAGTGGCCG AGCCCGGTGT TGTGTCGCAA 
    TGGAGGATGA AGGACAGAAT GAAAACAGGA TATGTGGCGC TCGCTTTGTG CTTGAATATA 
    GGTGTAGATC CACCGGATGT AATCAAAATA TCTCCATGTG CTCGCATGGA ATGCTGGATA 
    GATCCATTTT CCACGACATC TTCGAAAGCG CTTGATGCAA TTGGGAAAAA CCTCCAAGTG 
    CAGTATGAGC GGTGGCAACC TAGGGCGAAG TATAAGGTCT GTCTTGACCC CACCGTAGAC 
    GACGTTAAAA AGTTGTGTTT GCATTGTCGA AAAAATGCCA AAAATGAAAG AGTTCTGTTT 
    CATTATAATG GGCACGGCGT GCCAAGACCA ACCCTCAATG GGGAGATCTG GCTGTTTAAC 
    AAGCATTTCA CCCAGTACAT ACCTCTGTCA GTTTACGATT TGGAGTCATG TCTTGGGAAT 
    CCATCTATCT ATGTGTTTGA TTGCTCGGCA GCAGGCATGA TTGTCAATGC TTTCTGTGAG 
    CGACCAGAAT GGGGGACGAC AACGTCTTCT ACTCCCTCCA TGAGGGACTG CATTCTATTA 
    GCTGCGTGTG GGGCGCTTGA AACACTTCCG CAAAATTCTG AGCTTCCAGC TGACGTCTTT 
    ACATCGTGTC TCACGACTCC TATTCAAATT GCTTTGAGAT GGTTTTGTCC ACGATCTTTA 
    CTCTCTTTGG ATCCTGATTT AATTGACAAG ATTCCTGGGC GTCAGAATGA TAGGAAAACA 
    CCATTGGGTG AACTCAATTG GATTTTCACG GCTATTACAG ATACTATAGC TTGGAATGTG 
    CTCCCTCGAG AGCTATTCCA GCGGCTGTTC CGGCAGGATC TACTTGTAGC AAGTCTATTT 
    CGGAATTTCC TACTAGCGGA GCGTATTTTA CGAGCTTTCA ACTGTTGCCC GCAATCATTC 
    CCTCGCTTAC CACCAACACA TCAACACTCT ATGTGGCATG CTTGGGATAT GGCTGCAGAA 
    ATTTGTCTCT CACAGCTACC TTCCTTGTTA AGGAACCCAG GTGCAGAATT TCAGCCAAGT 
    CCATTTTTTA CGGAACAGCT GACAGCTTTC GAGGTGTGGT TGGAGCATGG TTCGGAAGGG 
    AAGAAGCCAC CGGAACAACT TCCCATAGTT CTGCAGGTTC TTCTGAGCCA GTCCCACAGG 
    TTCCGAGCAC TCGTACTTTT GGGCCGGTTT CTGGACATGG GGGCCTGGGC TGTGTATCTG 
    GCATTGTCAG TGGGAATTTT TCCCTATGTA CTTAAGCTAC TGCATACCAC GGCTGCTGAT 
    TTGCGACAAA TCCTTGTGTT CATATGGACT AAAATTCTAG CCTTGGATAA GTCATGCCAA 
    GTTGATCTAG TCAAAGATGG TGGCCATTTG TACTTCATCA ACTTCCTAGA GAGTCCTGAC 
    ATACATCCTG AGCAGCGTGC CATGGCTGCA TTTGTCCTTG CAGTTATAGT AGATGGGCAT 
    CCCCGTGGGC AGCAAGCATG TATTTATCCG GAAGGTCACC CAGTTGGACT AATATACACA 
    TGTCTCTCCC ACATACAAGA AGCCCACAAT GTTCTTGAGG GACAACCTGA CCCCTTGCTC 
    TTGCAGTGGC TATGTCTTTG CTTGGGGAAG CTTTGGGATG GGGCTTCGAA CGGTGTTGCT 
    ATGGCCCTCG ATGACGATGC ACCAGCAATT CTTGGAAAAG TTCTGTCTGA GCCACAGCCT 
    GAGGTTCGTG CTGCAGCCGC CTATGCATTA GGAACTCTTA TCAAAGTGGG TTCAGAACTG 
    TCTCGCAATG ATGGAGGACG TGATGATGGT TTGGATGAAG CCACTCAAGT TGCAGAGCAA 
    GGAATAGCTC GTGTGTTGCT AGAAGTTCTT TGCGACGGAA GTCCACTTGT GAGGACTGAG 
    CTTGCTATTG CTCTGGCACG ATTAGCTTCC AGTCACAACA GAATGTTTCG TCAAGCCGCT 
    GCAGCTTATT TGAAGCCGCC ATCTCATTCA ACAATTTTAC CAGCGTCCGG AGCAGGATAC 
    AGAAGCCCAA GAGCTTACCC TTCCTCGACA CTGGATGTTG AACATAGTAT ACGCTCTAAT 
    GGGGGGACAC CATATCGTTC AGGACTCCGA GTTGTTTCGA GTAATGGCTC CGCAGGTTCT 
    GCAGGCACTT CTCCATTGTC GGAAAGCCAA ATGCTCGGAG ATTCAGTCAG TTGTGGAGGT 
    TCCACAGACT TAGGCGATCG ATCTTGGAGA CGCTCTGAGG ATGGGAATGT TTATATACAA 
    TGCGTCACAG CTGTGTATGC CTTGGCTAGG GATCCTTCCC CCCGGGTTGC ATGTTTAGGC 
    CGACAAGTGC TACGAATGAT GGGAGTCGAG TCAGCTCAAA TTGTTGTGTC TGCAAGATCT 
    GGCGCAAGTA AGGTTTCCCG TCATCAACGA AACTCATCTG TACCTGCTCT GCCTCCTACT 
    CCCTCTATAC CGGGTGTTCT GCTCCGATCG ACTTCTTGGG TAGCATCCAC TTCAGGGAAT 
    CTTGCGAGTA CTTGGCGTAT TTCAACTCCA CCACCCAGCC CTCCCAACCA GCAGGCATTT 
    ATGGTTGGTC CTCCTAGTAG TTTACGACGG GCGGCATCCT TGGATATATC TTCAACATTA 
    AATACTCCAT GGGATGCACC TAGACCATCG GTAAGAGTGC TTGGAGATAA TGCTGTACAG 
    GTAACGTCTT TAAATCCGAG CACTGGACAT GGAAATATCG GTCTCGCTGA TGCCGCAGGG 
    ATGTTGTCCC CTGGACAATC AGCGGTATAT CTTGAGGCGA TTCCCTTGCC AGAATCTACA 
    TTTTTCAAGT GGAGTTGTGG ACATTTTTCT CGACCTCTAT TGGAACCTGT TCATGATGAT 
    GAAGAAGAAA TATCAGCTCG CCGTGAAAGA AGAGACCGAG AAGCCCAGGA CGGCATTACC 
    AAGTGCCAGC ATTCAAGTGT GAGCAAAGTC AGCGACCAAA TTGCGAGCTG GGATACTGGG 
    TCTGAAATGG GGACTAAAAC AGTGCTTTTG CATCCATTTA AGCCCCTTGT CTGTACTGCT 
    GATGATAAGG AGACCATCCG AATATGGGAC TACGAAGAAG CTGCAGTCGT GAATACTTTT 
    GACAATCATA ACACTCCTGA CAAGGGTGTC TCCAAGCTCT GTTTACTCAA CGAATCAGAC 
    GATAGTCTTC TCCTCGTTGC TTCAAGTGAC GGTAGTGTGC GTGTTTGGAG AGACTATACA 
    CAGAAGGACA ATCACCGCTT GGCAACTGCA TGGCAGACTG TGCAAGGCCA CAAACCTGGT 
    TCTCGTAGTA TCGATGCTGT TGTAGACTGG CAACAAACGA CAGGGTATTT GTATGCATCG 
    GGTCAAATTT CGTGGATCTC GGTGTGGGAT CTCGATCGAG AACAGCTGAT TTCGACCATT 
    TCTTCTCATT CAGATAGTTC CGTATCTGCT TTGGCGGCTT GCCAAACACA TGATGCGCAT 
    GTGGTCACTG GATGTGGAGA CGGTTCTGTA CGGCTTTACG ACATCCGGTC TCGAGATATG 
    CTTGTGTGTG CTATGCAGCC TCATGCACAT AAGGCGGTGG GCATTGGGTT CCAACCTGGA 
    ATGGGATTTT CCAAGGTGGT TTCTGCTTCG CAAGCTGGAG ATTTGAAGTT CCTTGACATG 
    CGGAAGAGCT CATCTCCTTA TCTGGAGGTG AACGCCCACA AGGGCCACTT GACCTGTTTA 
    ACTGTCCACC GGCATGCACC TGTGATAGCT ACAGGGTCAG GAAAGCAGTT GATTAAAACT 
    TTTAGCACGA GTGGGGAGCA GCTTAGTATG GTAAAATACC ATAGCAGCTT CATAGGTCAA 
    AGGATTGGAT CTGTCAGTGC TTTGGGTTTT CATCCTTACA AGGTCTTGTT GGCTGCTGGG 
    GCACTTGACT CCATTGTATC CATATACGCT GGAGATAGTA TTCAAGGTTG TTAA

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

    LOC112277378 ( XM_024509593.1 ) cDNA ORF clone, -> XP_024365361.1 Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OPn65504
    Clone ID Related Accession (Same CDS sequence) XM_024509593.1
    Accession Version XM_024509593.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3876bp)
    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 2018-04-03
    Organism Physcomitrella patens
    Product regulatory-associated protein of TOR 1-like isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_037277.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physcomitrella patens Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGAAAACAG GATATGTGGC GCTCGCTTTG TGCTTGAATA TAGGTGTAGA TCCACCGGAT 
    GTAATCAAAA TATCTCCATG TGCTCGCATG GAATGCTGGA TAGATCCATT TTCCACGACA 
    TCTTCGAAAG CGCTTGATGC AATTGGGAAA AACCTCCAAG TGCAGTATGA GCGGTGGCAA 
    CCTAGGGCGA AGTATAAGGT CTGTCTTGAC CCCACCGTAG ACGACGTTAA AAAGTTGTGT 
    TTGCATTGTC GAAAAAATGC CAAAAATGAA AGAGTTCTGT TTCATTATAA TGGGCACGGC 
    GTGCCAAGAC CAACCCTCAA TGGGGAGATC TGGCTGTTTA ACAAGCATTT CACCCAGTAC 
    ATACCTCTGT CAGTTTACGA TTTGGAGTCA TGTCTTGGGA ATCCATCTAT CTATGTGTTT 
    GATTGCTCGG CAGCAGGCAT GATTGTCAAT GCTTTCTGTG AGCGACCAGA ATGGGGGACG 
    ACAACGTCTT CTACTCCCTC CATGAGGGAC TGCATTCTAT TAGCTGCGTG TGGGGCGCTT 
    GAAACACTTC CGCAAAATTC TGAGCTTCCA GCTGACGTCT TTACATCGTG TCTCACGACT 
    CCTATTCAAA TTGCTTTGAG ATGGTTTTGT CCACGATCTT TACTCTCTTT GGATCCTGAT 
    TTAATTGACA AGATTCCTGG GCGTCAGAAT GATAGGAAAA CACCATTGGG TGAACTCAAT 
    TGGATTTTCA CGGCTATTAC AGATACTATA GCTTGGAATG TGCTCCCTCG AGAGCTATTC 
    CAGCGGCTGT TCCGGCAGGA TCTACTTGTA GCAAGTCTAT TTCGGAATTT CCTACTAGCG 
    GAGCGTATTT TACGAGCTTT CAACTGTTGC CCGCAATCAT TCCCTCGCTT ACCACCAACA 
    CATCAACACT CTATGTGGCA TGCTTGGGAT ATGGCTGCAG AAATTTGTCT CTCACAGCTA 
    CCTTCCTTGT TAAGGAACCC AGGTGCAGAA TTTCAGCCAA GTCCATTTTT TACGGAACAG 
    CTGACAGCTT TCGAGGTGTG GTTGGAGCAT GGTTCGGAAG GGAAGAAGCC ACCGGAACAA 
    CTTCCCATAG TTCTGCAGGT TCTTCTGAGC CAGTCCCACA GGTTCCGAGC ACTCGTACTT 
    TTGGGCCGGT TTCTGGACAT GGGGGCCTGG GCTGTGTATC TGGCATTGTC AGTGGGAATT 
    TTTCCCTATG TACTTAAGCT ACTGCATACC ACGGCTGCTG ATTTGCGACA AATCCTTGTG 
    TTCATATGGA CTAAAATTCT AGCCTTGGAT AAGTCATGCC AAGTTGATCT AGTCAAAGAT 
    GGTGGCCATT TGTACTTCAT CAACTTCCTA GAGAGTCCTG ACATACATCC TGAGCAGCGT 
    GCCATGGCTG CATTTGTCCT TGCAGTTATA GTAGATGGGC ATCCCCGTGG GCAGCAAGCA 
    TGTATTTATC CGGAAGGTCA CCCAGTTGGA CTAATATACA CATGTCTCTC CCACATACAA 
    GAAGCCCACA ATGTTCTTGA GGGACAACCT GACCCCTTGC TCTTGCAGTG GCTATGTCTT 
    TGCTTGGGGA AGCTTTGGGA TGGGGCTTCG AACGGTGTTG CTATGGCCCT CGATGACGAT 
    GCACCAGCAA TTCTTGGAAA AGTTCTGTCT GAGCCACAGC CTGAGGTTCG TGCTGCAGCC 
    GCCTATGCAT TAGGAACTCT TATCAAAGTG GGTTCAGAAC TGTCTCGCAA TGATGGAGGA 
    CGTGATGATG GTTTGGATGA AGCCACTCAA GTTGCAGAGC AAGGAATAGC TCGTGTGTTG 
    CTAGAAGTTC TTTGCGACGG AAGTCCACTT GTGAGGACTG AGCTTGCTAT TGCTCTGGCA 
    CGATTAGCTT CCAGTCACAA CAGAATGTTT CGTCAAGCCG CTGCAGCTTA TTTGAAGCCG 
    CCATCTCATT CAACAATTTT ACCAGCGTCC GGAGCAGGAT ACAGAAGCCC AAGAGCTTAC 
    CCTTCCTCGA CACTGGATGT TGAACATAGT ATACGCTCTA ATGGGGGGAC ACCATATCGT 
    TCAGGACTCC GAGTTGTTTC GAGTAATGGC TCCGCAGGTT CTGCAGGCAC TTCTCCATTG 
    TCGGAAAGCC AAATGCTCGG AGATTCAGTC AGTTGTGGAG GTTCCACAGA CTTAGGCGAT 
    CGATCTTGGA GACGCTCTGA GGATGGGAAT GTTTATATAC AATGCGTCAC AGCTGTGTAT 
    GCCTTGGCTA GGGATCCTTC CCCCCGGGTT GCATGTTTAG GCCGACAAGT GCTACGAATG 
    ATGGGAGTCG AGTCAGCTCA AATTGTTGTG TCTGCAAGAT CTGGCGCAAG TAAGGTTTCC 
    CGTCATCAAC GAAACTCATC TGTACCTGCT CTGCCTCCTA CTCCCTCTAT ACCGGGTGTT 
    CTGCTCCGAT CGACTTCTTG GGTAGCATCC ACTTCAGGGA ATCTTGCGAG TACTTGGCGT 
    ATTTCAACTC CACCACCCAG CCCTCCCAAC CAGCAGGCAT TTATGGTTGG TCCTCCTAGT 
    AGTTTACGAC GGGCGGCATC CTTGGATATA TCTTCAACAT TAAATACTCC ATGGGATGCA 
    CCTAGACCAT CGGTAAGAGT GCTTGGAGAT AATGCTGTAC AGGTAACGTC TTTAAATCCG 
    AGCACTGGAC ATGGAAATAT CGGTCTCGCT GATGCCGCAG GGATGTTGTC CCCTGGACAA 
    TCAGCGGTAT ATCTTGAGGC GATTCCCTTG CCAGAATCTA CATTTTTCAA GTGGAGTTGT 
    GGACATTTTT CTCGACCTCT ATTGGAACCT GTTCATGATG ATGAAGAAGA AATATCAGCT 
    CGCCGTGAAA GAAGAGACCG AGAAGCCCAG GACGGCATTA CCAAGTGCCA GCATTCAAGT 
    GTGAGCAAAG TCAGCGACCA AATTGCGAGC TGGGATACTG GGTCTGAAAT GGGGACTAAA 
    ACAGTGCTTT TGCATCCATT TAAGCCCCTT GTCTGTACTG CTGATGATAA GGAGACCATC 
    CGAATATGGG ACTACGAAGA AGCTGCAGTC GTGAATACTT TTGACAATCA TAACACTCCT 
    GACAAGGGTG TCTCCAAGCT CTGTTTACTC AACGAATCAG ACGATAGTCT TCTCCTCGTT 
    GCTTCAAGTG ACGGTAGTGT GCGTGTTTGG AGAGACTATA CACAGAAGGA CAATCACCGC 
    TTGGCAACTG CATGGCAGAC TGTGCAAGGC CACAAACCTG GTTCTCGTAG TATCGATGCT 
    GTTGTAGACT GGCAACAAAC GACAGGGTAT TTGTATGCAT CGGGTCAAAT TTCGTGGATC 
    TCGGTGTGGG ATCTCGATCG AGAACAGCTG ATTTCGACCA TTTCTTCTCA TTCAGATAGT 
    TCCGTATCTG CTTTGGCGGC TTGCCAAACA CATGATGCGC ATGTGGTCAC TGGATGTGGA 
    GACGGTTCTG TACGGCTTTA CGACATCCGG TCTCGAGATA TGCTTGTGTG TGCTATGCAG 
    CCTCATGCAC ATAAGGCGGT GGGCATTGGG TTCCAACCTG GAATGGGATT TTCCAAGGTG 
    GTTTCTGCTT CGCAAGCTGG AGATTTGAAG TTCCTTGACA TGCGGAAGAG CTCATCTCCT 
    TATCTGGAGG TGAACGCCCA CAAGGGCCAC TTGACCTGTT TAACTGTCCA CCGGCATGCA 
    CCTGTGATAG CTACAGGGTC AGGAAAGCAG TTGATTAAAA CTTTTAGCAC GAGTGGGGAG 
    CAGCTTAGTA TGGTAAAATA CCATAGCAGC TTCATAGGTC AAAGGATTGG ATCTGTCAGT 
    GCTTTGGGTT TTCATCCTTA CAAGGTCTTG TTGGCTGCTG GGGCACTTGA CTCCATTGTA 
    TCCATATACG CTGGAGATAG TATTCAAGGT TGTTAA

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

    RefSeq XP_024365361.1
    CDS235..4110
    Translation

    Target ORF information:

    RefSeq Version XM_024509593.1
    Organism Physcomitrella patens
    Definition Physcomitrella patens regulatory-associated protein of TOR 1-like (LOC112277378), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024509593.1

    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
    ATGAAAACAG GATATGTGGC GCTCGCTTTG TGCTTGAATA TAGGTGTAGA TCCACCGGAT 
    GTAATCAAAA TATCTCCATG TGCTCGCATG GAATGCTGGA TAGATCCATT TTCCACGACA 
    TCTTCGAAAG CGCTTGATGC AATTGGGAAA AACCTCCAAG TGCAGTATGA GCGGTGGCAA 
    CCTAGGGCGA AGTATAAGGT CTGTCTTGAC CCCACCGTAG ACGACGTTAA AAAGTTGTGT 
    TTGCATTGTC GAAAAAATGC CAAAAATGAA AGAGTTCTGT TTCATTATAA TGGGCACGGC 
    GTGCCAAGAC CAACCCTCAA TGGGGAGATC TGGCTGTTTA ACAAGCATTT CACCCAGTAC 
    ATACCTCTGT CAGTTTACGA TTTGGAGTCA TGTCTTGGGA ATCCATCTAT CTATGTGTTT 
    GATTGCTCGG CAGCAGGCAT GATTGTCAAT GCTTTCTGTG AGCGACCAGA ATGGGGGACG 
    ACAACGTCTT CTACTCCCTC CATGAGGGAC TGCATTCTAT TAGCTGCGTG TGGGGCGCTT 
    GAAACACTTC CGCAAAATTC TGAGCTTCCA GCTGACGTCT TTACATCGTG TCTCACGACT 
    CCTATTCAAA TTGCTTTGAG ATGGTTTTGT CCACGATCTT TACTCTCTTT GGATCCTGAT 
    TTAATTGACA AGATTCCTGG GCGTCAGAAT GATAGGAAAA CACCATTGGG TGAACTCAAT 
    TGGATTTTCA CGGCTATTAC AGATACTATA GCTTGGAATG TGCTCCCTCG AGAGCTATTC 
    CAGCGGCTGT TCCGGCAGGA TCTACTTGTA GCAAGTCTAT TTCGGAATTT CCTACTAGCG 
    GAGCGTATTT TACGAGCTTT CAACTGTTGC CCGCAATCAT TCCCTCGCTT ACCACCAACA 
    CATCAACACT CTATGTGGCA TGCTTGGGAT ATGGCTGCAG AAATTTGTCT CTCACAGCTA 
    CCTTCCTTGT TAAGGAACCC AGGTGCAGAA TTTCAGCCAA GTCCATTTTT TACGGAACAG 
    CTGACAGCTT TCGAGGTGTG GTTGGAGCAT GGTTCGGAAG GGAAGAAGCC ACCGGAACAA 
    CTTCCCATAG TTCTGCAGGT TCTTCTGAGC CAGTCCCACA GGTTCCGAGC ACTCGTACTT 
    TTGGGCCGGT TTCTGGACAT GGGGGCCTGG GCTGTGTATC TGGCATTGTC AGTGGGAATT 
    TTTCCCTATG TACTTAAGCT ACTGCATACC ACGGCTGCTG ATTTGCGACA AATCCTTGTG 
    TTCATATGGA CTAAAATTCT AGCCTTGGAT AAGTCATGCC AAGTTGATCT AGTCAAAGAT 
    GGTGGCCATT TGTACTTCAT CAACTTCCTA GAGAGTCCTG ACATACATCC TGAGCAGCGT 
    GCCATGGCTG CATTTGTCCT TGCAGTTATA GTAGATGGGC ATCCCCGTGG GCAGCAAGCA 
    TGTATTTATC CGGAAGGTCA CCCAGTTGGA CTAATATACA CATGTCTCTC CCACATACAA 
    GAAGCCCACA ATGTTCTTGA GGGACAACCT GACCCCTTGC TCTTGCAGTG GCTATGTCTT 
    TGCTTGGGGA AGCTTTGGGA TGGGGCTTCG AACGGTGTTG CTATGGCCCT CGATGACGAT 
    GCACCAGCAA TTCTTGGAAA AGTTCTGTCT GAGCCACAGC CTGAGGTTCG TGCTGCAGCC 
    GCCTATGCAT TAGGAACTCT TATCAAAGTG GGTTCAGAAC TGTCTCGCAA TGATGGAGGA 
    CGTGATGATG GTTTGGATGA AGCCACTCAA GTTGCAGAGC AAGGAATAGC TCGTGTGTTG 
    CTAGAAGTTC TTTGCGACGG AAGTCCACTT GTGAGGACTG AGCTTGCTAT TGCTCTGGCA 
    CGATTAGCTT CCAGTCACAA CAGAATGTTT CGTCAAGCCG CTGCAGCTTA TTTGAAGCCG 
    CCATCTCATT CAACAATTTT ACCAGCGTCC GGAGCAGGAT ACAGAAGCCC AAGAGCTTAC 
    CCTTCCTCGA CACTGGATGT TGAACATAGT ATACGCTCTA ATGGGGGGAC ACCATATCGT 
    TCAGGACTCC GAGTTGTTTC GAGTAATGGC TCCGCAGGTT CTGCAGGCAC TTCTCCATTG 
    TCGGAAAGCC AAATGCTCGG AGATTCAGTC AGTTGTGGAG GTTCCACAGA CTTAGGCGAT 
    CGATCTTGGA GACGCTCTGA GGATGGGAAT GTTTATATAC AATGCGTCAC AGCTGTGTAT 
    GCCTTGGCTA GGGATCCTTC CCCCCGGGTT GCATGTTTAG GCCGACAAGT GCTACGAATG 
    ATGGGAGTCG AGTCAGCTCA AATTGTTGTG TCTGCAAGAT CTGGCGCAAG TAAGGTTTCC 
    CGTCATCAAC GAAACTCATC TGTACCTGCT CTGCCTCCTA CTCCCTCTAT ACCGGGTGTT 
    CTGCTCCGAT CGACTTCTTG GGTAGCATCC ACTTCAGGGA ATCTTGCGAG TACTTGGCGT 
    ATTTCAACTC CACCACCCAG CCCTCCCAAC CAGCAGGCAT TTATGGTTGG TCCTCCTAGT 
    AGTTTACGAC GGGCGGCATC CTTGGATATA TCTTCAACAT TAAATACTCC ATGGGATGCA 
    CCTAGACCAT CGGTAAGAGT GCTTGGAGAT AATGCTGTAC AGGTAACGTC TTTAAATCCG 
    AGCACTGGAC ATGGAAATAT CGGTCTCGCT GATGCCGCAG GGATGTTGTC CCCTGGACAA 
    TCAGCGGTAT ATCTTGAGGC GATTCCCTTG CCAGAATCTA CATTTTTCAA GTGGAGTTGT 
    GGACATTTTT CTCGACCTCT ATTGGAACCT GTTCATGATG ATGAAGAAGA AATATCAGCT 
    CGCCGTGAAA GAAGAGACCG AGAAGCCCAG GACGGCATTA CCAAGTGCCA GCATTCAAGT 
    GTGAGCAAAG TCAGCGACCA AATTGCGAGC TGGGATACTG GGTCTGAAAT GGGGACTAAA 
    ACAGTGCTTT TGCATCCATT TAAGCCCCTT GTCTGTACTG CTGATGATAA GGAGACCATC 
    CGAATATGGG ACTACGAAGA AGCTGCAGTC GTGAATACTT TTGACAATCA TAACACTCCT 
    GACAAGGGTG TCTCCAAGCT CTGTTTACTC AACGAATCAG ACGATAGTCT TCTCCTCGTT 
    GCTTCAAGTG ACGGTAGTGT GCGTGTTTGG AGAGACTATA CACAGAAGGA CAATCACCGC 
    TTGGCAACTG CATGGCAGAC TGTGCAAGGC CACAAACCTG GTTCTCGTAG TATCGATGCT 
    GTTGTAGACT GGCAACAAAC GACAGGGTAT TTGTATGCAT CGGGTCAAAT TTCGTGGATC 
    TCGGTGTGGG ATCTCGATCG AGAACAGCTG ATTTCGACCA TTTCTTCTCA TTCAGATAGT 
    TCCGTATCTG CTTTGGCGGC TTGCCAAACA CATGATGCGC ATGTGGTCAC TGGATGTGGA 
    GACGGTTCTG TACGGCTTTA CGACATCCGG TCTCGAGATA TGCTTGTGTG TGCTATGCAG 
    CCTCATGCAC ATAAGGCGGT GGGCATTGGG TTCCAACCTG GAATGGGATT TTCCAAGGTG 
    GTTTCTGCTT CGCAAGCTGG AGATTTGAAG TTCCTTGACA TGCGGAAGAG CTCATCTCCT 
    TATCTGGAGG TGAACGCCCA CAAGGGCCAC TTGACCTGTT TAACTGTCCA CCGGCATGCA 
    CCTGTGATAG CTACAGGGTC AGGAAAGCAG TTGATTAAAA CTTTTAGCAC GAGTGGGGAG 
    CAGCTTAGTA TGGTAAAATA CCATAGCAGC TTCATAGGTC AAAGGATTGG ATCTGTCAGT 
    GCTTTGGGTT TTCATCCTTA CAAGGTCTTG TTGGCTGCTG GGGCACTTGA CTCCATTGTA 
    TCCATATACG CTGGAGATAG TATTCAAGGT TGTTAA

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

REQUEST A QUOTE

EMAIL

[email protected]

PHONE

1-877-436-7274

ONLINE FORM

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ONLINE FORM

Online Quote Submission

FAX

1-732-210-0262