ORF » Species Summary » Rattus norvegicus » Ccdc141 cDNA ORF clone

Ccdc141 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Ccdc141 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ccdc141 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
ORa46959 XM_008761963.2
Latest version!		 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
ORa46960 XM_008761964.2
Latest version!		 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
ORa15848 XM_006224630.3
Latest version!		 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
ORa26012 XM_003749494.4
Latest version!		 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00

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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)
    Ccdc141 ( XM_008761963.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008760185.1 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ORa46959
    Clone ID Related Accession (Same CDS sequence) XM_008761963.2
    Accession Version XM_008761963.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3777bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product coiled-coil domain-containing protein 141 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005102.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008761963.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGGCCTCTG GGCACCGCAC TCTGCGTGCC GGGAGAATGA GGGACTCCTT TTTTCTCTAC 
    GATGACCCTA CAATTGTACA GGAATGGGAT TTGGCCATGG AGAAGCTGAA GAGCCAGGCT 
    CTGGGGATTC TGCTGTCAAA GGACTTGACA GAAAAGGAAC ATCTGCAGCT CTCTAACCAG 
    AAACTCAATC GGCTTCAAGA AGAGTTTGGA CGACTCATGG TGGACAGGAA AGCCTGGCTG 
    ACAATGGCGC ATGACTTCTT TACCAGTGCT AACGAGGCAT TTGATGTACT TGGAAAAGTT 
    GAAGATTACC TTAAGCTCCT TAAATCAGAG GGTTTAAGCC TGCCTGCCTT GGCAGCAAAA 
    CATGAGGAAT TACACAGAGA AATTAAAGAC TCTACAGCCG CCGCTCTGCA AAAGGGACGG 
    ACCTTAATCA GCCAAGTAGA CTCCTGCCGC GCTCAGGTGA CAGGAATTCA TGAGACGATG 
    GGACGCATTC AGAAGCGAGT GGATCGTCTC AGCCAGCAAT GTACAGCGCA CCAGGAGTTT 
    GCCCTTAAGA AACAGCAATT AGCAACGTCA GTGGACGACT ACCTAAGGAA GGTGGAAATG 
    TCAGTTCAAG AAATGAGGTT GGTTCTTGCT ACCACATTGG ATGTCGGTTC TAGTCCTTCT 
    GAATCAGAGA AGATTTTAAA TAAATATCTG GAATTGGATA TCCAAGCCAA GGAGACAGCA 
    CATGCATTAG AAGCAGCAGC AAAAATCACG ACAGAGAAAA ATGAACTTGA ACTCAATGAA 
    GTGGCATTGC TTCCTTTTAA AGTGAAACGG CTAGAAGAAG AATTAAGCAC GCTTAGTCGA 
    AGCGTCAGCT ACAGGTCACA AGTCCTGCAA ACTTACATAG CATTTCGAAA GTCATCCGAG 
    GAGGTAGAGG AGCAGCTTCA GAGCCTAAAG GAATTTTATC TGACCGAAAG CCCTTGGGAA 
    GATGAAGACG ATGCTGTGGT CACGTGCCAG TCTAACTCTG CCGAAAGAAA ATGGCAGCTA 
    TTTCTAAAGA AGAGTTTTTT GACCCAGGAC TTGAGCCTCG AGTTCCTGAA CTTAATAAGC 
    ATGGCAAAAG AGAATGAGAT ATTAAATGTT AAAAAGGAAA TGCACATTGT GGAGAACGTG 
    ATGGAAAAGC AAACAAACGG AAGGGAAGAG CTCAGCCGTC TCCGAATGGC ATGGCACCTC 
    AAAGCCATGG AAGGCAAGCC TGTGAAAGAA CGGTGGGAAA CGTTCAAAGA GAAACTTAAA 
    AAGACAACTC ACAATGTAAA ACTTCTCCAT GAAGTTCTGA TGCCTGTCTC TGCGCTGGAC 
    CTTGGAGGGA ACCTCCAGAG CATGTCAGAT CTGCGAAGAA GGTGGATCGC AATGCAGCCT 
    CAGCTCCAGC AACTGCATGA GGACGTTCAG CAAATCATGA AAGAGTGGGA AGTGCTAAGT 
    GGTCAGGGAG TTCCTTTGAA GGAGAAGGCT GAACAACTGA AGGACCTTAT CCATCTCCAT 
    CAGAGGCAGA GAGAGCGAAT CCAGGAATAT GAGGAAATCC TGTACAAGAC AGTCCAGTTC 
    CACCAGGTCA AGGAAGAGCT GACCCATCTC ATCAAACCAA GAGAACTGGA GCTCCTAGCA 
    CAGCCCATGG AACTGGAAGG TTCTAAGGAG GTCCTGATGC AACTGGGCCG TTCTCAAGGA 
    AGACGGGCAC ACGTAGACCA TCTCCATCGG CTGGCCCTAT CCTTAGGAGT GGACATCATT 
    TCATCCGTGC AACGACCTAA TTGCTCGAAT ATTTCTGCAA AGAGCCTGCA GCAGCAGCTG 
    GAGGCCCTCG AACTGGATAG CAGGGATTGG AGTGCCAAAG CCAAGGAATA TGAACAGGTC 
    CTGGCCTGCA GCTTGGAGTA CTGCACCACA CGAGAGGAGA TCAATGAGCT CAAAGAGTCA 
    TTCAAAGATA TAAAAAAGAA ATTCAACAAT CTGAAGTTTA ATTACTCTAA GAAAAATGAG 
    AAATCTCGAA ACTTAAAGAC TCTTCAATAT CAAATCCAAC AAGTGGAAAC ATATGCTGAC 
    AAAATTCAGG CTTTAAGGAA GAAAATGGAA AAGGTTAATA AAAAGATATC CGATTCAGTC 
    TTAAGTTATC CAAGTAATAA AGCTAACACC CTTGTGGAAG CCATGGAGGA TTTGAAAAAA 
    CACGTCGATG ACTTTGACAA AGTTGTGACA GATTATAAGA TGAATTTGGA CCTGACTGAG 
    CATCTCCAGG AAGTAATAGA AGAGTGTAAC TTTTGGTATG AGGATGCTAG TGCCACTGTG 
    GTAAGAGTTG GGAAGTATTC CATGGAGTGC CAAACAAGGG AAGCTGTAGA CATCCTCCAC 
    AGGCAGTTCC AGAAGTTTGT TACTCCCTCA GTGCCCCAGC AAGAAGAAAG GATTCAGGAG 
    GTCGTCAGCC TTGCTCAACG ACTATATGGT TTGGAAGAGG GGCAGAAATA CGCTGAGAAA 
    ATCGTCACAA GACACAAGGA GATTCTTGAA TCTATTACTG AATTATGTGG GTCTCTCGTG 
    GAACTTAAAG AAAAACTGAT GCAGGGAGAT GTTCCAAAGG TGAATTCAAA TTTGGAAGAT 
    TTCCACGGCA ATTCCATTGA TCTGCTAAAG GAGCCAGGGA GGGATGAGCA GACAACATTC 
    AGTGAAGAAA GGAGTGAGGG GCAGGCGCAG GGAGCAGATG TGTCGGCCAT CAATGGAACA 
    AGAGAAGATG GGCTTCCCGT GGGCTTGAGG CAGTCCTTTG ACAAAGAGGA CAGTGCCCAG 
    GGTCTGACCC TGCCAGAAGA CACGCTCTCC GGAGAAGACT CTGAGTGTAT CTCCTCTGAT 
    GACATTTCTT TGCCTCCACT GCCAGTGACC CCCGAGTCCC CTCTGGCACC ATCAGACATG 
    GAGGTAGAAG AACCTGCCAG TTCTTCAGCC CTCGCCCTGC ATATCAGCGG CTACAGGATG 
    CGTACAGGGA CAGGTGGTCT AGGGAAGGCC CCGGAGTCTG TTCTGCCCCC ACCCACTGCT 
    TTTACTGATG GGTACCATAA TAAGAAAGAC ACATTTACAA GTCATTTTGA GAGGCCCTAT 
    CCACAGTTCA AAGCTGAACC CTTATTAACC TCCAGAGGGT CAGGAGAGAT GAGTACCAAG 
    TTGCACGTCA ATGTGAAATG TCCAGCGCGC ATGCCCCGTG AAGTGCACGA CAAAGCTTTG 
    CCGCCAAGCT CCCAGGCTCA GGAGATCTCG CTAGGAACGC AGGAGAAAGT GCATGCTGAT 
    TCTAACGTCA CTAAAACCCA AGACAGGCTG CATGCTGCCC TTGATGTATC CCCTGGCCTC 
    AGCTCTCAAT CAGACACCAG CAGAAGCCAT CAGAGGCAAG TGGGTCCCCA AGGAGACAGG 
    AAAAACTCAT CAGCAGAAAA AAGCGTGGTC AGCCTAGCTG GCCAGGCGCC TCATTTCTCC 
    AGGCTGCTGT CCAATGTAAC TGTCACGGAA GGTTCCCCGG TGACTTTGGA AGTCGAAGTA 
    ACAGGATTCC CAGAGCCTAC ACTGACATGG TTCAAGAAGG GCCAGAAACT GTGTGCAGAT 
    GGACACTTAC AGGTTTTGCA CAAGGACACA AAGCATTCGG TGTTCATCCC GAAGGTATGT 
    GAGGCAGATG CTGGCCTCTA TGTGGCTCAA GCCCAAAACT CTAGTGGCAC CCTGTCTTCC 
    AAAGCCATCC TCCATGTGAC AGGTAACCAT GGGCCACCAA TTACAAGAAT AAACTGGATT 
    GTGCTGTGTA TCATCTATGT CAGCGTATCA GTAATATACT GGCTACTTAC ACAGTAG

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

    RefSeq XP_008760185.1
    CDS447..4223
    Translation

    Target ORF information:

    RefSeq Version XM_008761963.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008761963.2

    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
    ATGGCCTCTG GGCACCGCAC TCTGCGTGCC GGGAGAATGA GGGACTCCTT TTTTCTCTAC 
    GATGACCCTA CAATTGTACA GGAATGGGAT TTGGCCATGG AGAAGCTGAA GAGCCAGGCT 
    CTGGGGATTC TGCTGTCAAA GGACTTGACA GAAAAGGAAC ATCTGCAGCT CTCTAACCAG 
    AAACTCAATC GGCTTCAAGA AGAGTTTGGA CGACTCATGG TGGACAGGAA AGCCTGGCTG 
    ACAATGGCGC ATGACTTCTT TACCAGTGCT AACGAGGCAT TTGATGTACT TGGAAAAGTT 
    GAAGATTACC TTAAGCTCCT TAAATCAGAG GGTTTAAGCC TGCCTGCCTT GGCAGCAAAA 
    CATGAGGAAT TACACAGAGA AATTAAAGAC TCTACAGCCG CCGCTCTGCA AAAGGGACGG 
    ACCTTAATCA GCCAAGTAGA CTCCTGCCGC GCTCAGGTGA CAGGAATTCA TGAGACGATG 
    GGACGCATTC AGAAGCGAGT GGATCGTCTC AGCCAGCAAT GTACAGCGCA CCAGGAGTTT 
    GCCCTTAAGA AACAGCAATT AGCAACGTCA GTGGACGACT ACCTAAGGAA GGTGGAAATG 
    TCAGTTCAAG AAATGAGGTT GGTTCTTGCT ACCACATTGG ATGTCGGTTC TAGTCCTTCT 
    GAATCAGAGA AGATTTTAAA TAAATATCTG GAATTGGATA TCCAAGCCAA GGAGACAGCA 
    CATGCATTAG AAGCAGCAGC AAAAATCACG ACAGAGAAAA ATGAACTTGA ACTCAATGAA 
    GTGGCATTGC TTCCTTTTAA AGTGAAACGG CTAGAAGAAG AATTAAGCAC GCTTAGTCGA 
    AGCGTCAGCT ACAGGTCACA AGTCCTGCAA ACTTACATAG CATTTCGAAA GTCATCCGAG 
    GAGGTAGAGG AGCAGCTTCA GAGCCTAAAG GAATTTTATC TGACCGAAAG CCCTTGGGAA 
    GATGAAGACG ATGCTGTGGT CACGTGCCAG TCTAACTCTG CCGAAAGAAA ATGGCAGCTA 
    TTTCTAAAGA AGAGTTTTTT GACCCAGGAC TTGAGCCTCG AGTTCCTGAA CTTAATAAGC 
    ATGGCAAAAG AGAATGAGAT ATTAAATGTT AAAAAGGAAA TGCACATTGT GGAGAACGTG 
    ATGGAAAAGC AAACAAACGG AAGGGAAGAG CTCAGCCGTC TCCGAATGGC ATGGCACCTC 
    AAAGCCATGG AAGGCAAGCC TGTGAAAGAA CGGTGGGAAA CGTTCAAAGA GAAACTTAAA 
    AAGACAACTC ACAATGTAAA ACTTCTCCAT GAAGTTCTGA TGCCTGTCTC TGCGCTGGAC 
    CTTGGAGGGA ACCTCCAGAG CATGTCAGAT CTGCGAAGAA GGTGGATCGC AATGCAGCCT 
    CAGCTCCAGC AACTGCATGA GGACGTTCAG CAAATCATGA AAGAGTGGGA AGTGCTAAGT 
    GGTCAGGGAG TTCCTTTGAA GGAGAAGGCT GAACAACTGA AGGACCTTAT CCATCTCCAT 
    CAGAGGCAGA GAGAGCGAAT CCAGGAATAT GAGGAAATCC TGTACAAGAC AGTCCAGTTC 
    CACCAGGTCA AGGAAGAGCT GACCCATCTC ATCAAACCAA GAGAACTGGA GCTCCTAGCA 
    CAGCCCATGG AACTGGAAGG TTCTAAGGAG GTCCTGATGC AACTGGGCCG TTCTCAAGGA 
    AGACGGGCAC ACGTAGACCA TCTCCATCGG CTGGCCCTAT CCTTAGGAGT GGACATCATT 
    TCATCCGTGC AACGACCTAA TTGCTCGAAT ATTTCTGCAA AGAGCCTGCA GCAGCAGCTG 
    GAGGCCCTCG AACTGGATAG CAGGGATTGG AGTGCCAAAG CCAAGGAATA TGAACAGGTC 
    CTGGCCTGCA GCTTGGAGTA CTGCACCACA CGAGAGGAGA TCAATGAGCT CAAAGAGTCA 
    TTCAAAGATA TAAAAAAGAA ATTCAACAAT CTGAAGTTTA ATTACTCTAA GAAAAATGAG 
    AAATCTCGAA ACTTAAAGAC TCTTCAATAT CAAATCCAAC AAGTGGAAAC ATATGCTGAC 
    AAAATTCAGG CTTTAAGGAA GAAAATGGAA AAGGTTAATA AAAAGATATC CGATTCAGTC 
    TTAAGTTATC CAAGTAATAA AGCTAACACC CTTGTGGAAG CCATGGAGGA TTTGAAAAAA 
    CACGTCGATG ACTTTGACAA AGTTGTGACA GATTATAAGA TGAATTTGGA CCTGACTGAG 
    CATCTCCAGG AAGTAATAGA AGAGTGTAAC TTTTGGTATG AGGATGCTAG TGCCACTGTG 
    GTAAGAGTTG GGAAGTATTC CATGGAGTGC CAAACAAGGG AAGCTGTAGA CATCCTCCAC 
    AGGCAGTTCC AGAAGTTTGT TACTCCCTCA GTGCCCCAGC AAGAAGAAAG GATTCAGGAG 
    GTCGTCAGCC TTGCTCAACG ACTATATGGT TTGGAAGAGG GGCAGAAATA CGCTGAGAAA 
    ATCGTCACAA GACACAAGGA GATTCTTGAA TCTATTACTG AATTATGTGG GTCTCTCGTG 
    GAACTTAAAG AAAAACTGAT GCAGGGAGAT GTTCCAAAGG TGAATTCAAA TTTGGAAGAT 
    TTCCACGGCA ATTCCATTGA TCTGCTAAAG GAGCCAGGGA GGGATGAGCA GACAACATTC 
    AGTGAAGAAA GGAGTGAGGG GCAGGCGCAG GGAGCAGATG TGTCGGCCAT CAATGGAACA 
    AGAGAAGATG GGCTTCCCGT GGGCTTGAGG CAGTCCTTTG ACAAAGAGGA CAGTGCCCAG 
    GGTCTGACCC TGCCAGAAGA CACGCTCTCC GGAGAAGACT CTGAGTGTAT CTCCTCTGAT 
    GACATTTCTT TGCCTCCACT GCCAGTGACC CCCGAGTCCC CTCTGGCACC ATCAGACATG 
    GAGGTAGAAG AACCTGCCAG TTCTTCAGCC CTCGCCCTGC ATATCAGCGG CTACAGGATG 
    CGTACAGGGA CAGGTGGTCT AGGGAAGGCC CCGGAGTCTG TTCTGCCCCC ACCCACTGCT 
    TTTACTGATG GGTACCATAA TAAGAAAGAC ACATTTACAA GTCATTTTGA GAGGCCCTAT 
    CCACAGTTCA AAGCTGAACC CTTATTAACC TCCAGAGGGT CAGGAGAGAT GAGTACCAAG 
    TTGCACGTCA ATGTGAAATG TCCAGCGCGC ATGCCCCGTG AAGTGCACGA CAAAGCTTTG 
    CCGCCAAGCT CCCAGGCTCA GGAGATCTCG CTAGGAACGC AGGAGAAAGT GCATGCTGAT 
    TCTAACGTCA CTAAAACCCA AGACAGGCTG CATGCTGCCC TTGATGTATC CCCTGGCCTC 
    AGCTCTCAAT CAGACACCAG CAGAAGCCAT CAGAGGCAAG TGGGTCCCCA AGGAGACAGG 
    AAAAACTCAT CAGCAGAAAA AAGCGTGGTC AGCCTAGCTG GCCAGGCGCC TCATTTCTCC 
    AGGCTGCTGT CCAATGTAAC TGTCACGGAA GGTTCCCCGG TGACTTTGGA AGTCGAAGTA 
    ACAGGATTCC CAGAGCCTAC ACTGACATGG TTCAAGAAGG GCCAGAAACT GTGTGCAGAT 
    GGACACTTAC AGGTTTTGCA CAAGGACACA AAGCATTCGG TGTTCATCCC GAAGGTATGT 
    GAGGCAGATG CTGGCCTCTA TGTGGCTCAA GCCCAAAACT CTAGTGGCAC CCTGTCTTCC 
    AAAGCCATCC TCCATGTGAC AGGTAACCAT GGGCCACCAA TTACAAGAAT AAACTGGATT 
    GTGCTGTGTA TCATCTATGT CAGCGTATCA GTAATATACT GGCTACTTAC ACAGTAG

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

    Ccdc141 ( XM_008761964.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008760186.1 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ORa46960
    Clone ID Related Accession (Same CDS sequence) XM_008761964.2
    Accession Version XM_008761964.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3681bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product coiled-coil domain-containing protein 141 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005102.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008761964.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGGAGAAGC TGAAGAGCCA GGCTCTGGGG ATTCTGCTGT CAAAGGACTT GACAGAAAAG 
    GAACATCTGC AGCTCTCTAA CCAGAAACTC AATCGGCTTC AAGAAGAGTT TGGACGACTC 
    ATGGTGGACA GGAAAGCCTG GCTGACAATG GCGCATGACT TCTTTACCAG TGCTAACGAG 
    GCATTTGATG TACTTGGAAA AGTTGAAGAT TACCTTAAGC TCCTTAAATC AGAGGGTTTA 
    AGCCTGCCTG CCTTGGCAGC AAAACATGAG GAATTACACA GAGAAATTAA AGACTCTACA 
    GCCGCCGCTC TGCAAAAGGG ACGGACCTTA ATCAGCCAAG TAGACTCCTG CCGCGCTCAG 
    GTGACAGGAA TTCATGAGAC GATGGGACGC ATTCAGAAGC GAGTGGATCG TCTCAGCCAG 
    CAATGTACAG CGCACCAGGA GTTTGCCCTT AAGAAACAGC AATTAGCAAC GTCAGTGGAC 
    GACTACCTAA GGAAGGTGGA AATGTCAGTT CAAGAAATGA GGTTGGTTCT TGCTACCACA 
    TTGGATGTCG GTTCTAGTCC TTCTGAATCA GAGAAGATTT TAAATAAATA TCTGGAATTG 
    GATATCCAAG CCAAGGAGAC AGCACATGCA TTAGAAGCAG CAGCAAAAAT CACGACAGAG 
    AAAAATGAAC TTGAACTCAA TGAAGTGGCA TTGCTTCCTT TTAAAGTGAA ACGGCTAGAA 
    GAAGAATTAA GCACGCTTAG TCGAAGCGTC AGCTACAGGT CACAAGTCCT GCAAACTTAC 
    ATAGCATTTC GAAAGTCATC CGAGGAGGTA GAGGAGCAGC TTCAGAGCCT AAAGGAATTT 
    TATCTGACCG AAAGCCCTTG GGAAGATGAA GACGATGCTG TGGTCACGTG CCAGTCTAAC 
    TCTGCCGAAA GAAAATGGCA GCTATTTCTA AAGAAGAGTT TTTTGACCCA GGACTTGAGC 
    CTCGAGTTCC TGAACTTAAT AAGCATGGCA AAAGAGAATG AGATATTAAA TGTTAAAAAG 
    GAAATGCACA TTGTGGAGAA CGTGATGGAA AAGCAAACAA ACGGAAGGGA AGAGCTCAGC 
    CGTCTCCGAA TGGCATGGCA CCTCAAAGCC ATGGAAGGCA AGCCTGTGAA AGAACGGTGG 
    GAAACGTTCA AAGAGAAACT TAAAAAGACA ACTCACAATG TAAAACTTCT CCATGAAGTT 
    CTGATGCCTG TCTCTGCGCT GGACCTTGGA GGGAACCTCC AGAGCATGTC AGATCTGCGA 
    AGAAGGTGGA TCGCAATGCA GCCTCAGCTC CAGCAACTGC ATGAGGACGT TCAGCAAATC 
    ATGAAAGAGT GGGAAGTGCT AAGTGGTCAG GGAGTTCCTT TGAAGGAGAA GGCTGAACAA 
    CTGAAGGACC TTATCCATCT CCATCAGAGG CAGAGAGAGC GAATCCAGGA ATATGAGGAA 
    ATCCTGTACA AGACAGTCCA GTTCCACCAG GTCAAGGAAG AGCTGACCCA TCTCATCAAA 
    CCAAGAGAAC TGGAGCTCCT AGCACAGCCC ATGGAACTGG AAGGTTCTAA GGAGGTCCTG 
    ATGCAACTGG GCCGTTCTCA AGGAAGACGG GCACACGTAG ACCATCTCCA TCGGCTGGCC 
    CTATCCTTAG GAGTGGACAT CATTTCATCC GTGCAACGAC CTAATTGCTC GAATATTTCT 
    GCAAAGAGCC TGCAGCAGCA GCTGGAGGCC CTCGAACTGG ATAGCAGGGA TTGGAGTGCC 
    AAAGCCAAGG AATATGAACA GGTCCTGGCC TGCAGCTTGG AGTACTGCAC CACACGAGAG 
    GAGATCAATG AGCTCAAAGA GTCATTCAAA GATATAAAAA AGAAATTCAA CAATCTGAAG 
    TTTAATTACT CTAAGAAAAA TGAGAAATCT CGAAACTTAA AGACTCTTCA ATATCAAATC 
    CAACAAGTGG AAACATATGC TGACAAAATT CAGGCTTTAA GGAAGAAAAT GGAAAAGGTT 
    AATAAAAAGA TATCCGATTC AGTCTTAAGT TATCCAAGTA ATAAAGCTAA CACCCTTGTG 
    GAAGCCATGG AGGATTTGAA AAAACACGTC GATGACTTTG ACAAAGTTGT GACAGATTAT 
    AAGATGAATT TGGACCTGAC TGAGCATCTC CAGGAAGTAA TAGAAGAGTG TAACTTTTGG 
    TATGAGGATG CTAGTGCCAC TGTGGTAAGA GTTGGGAAGT ATTCCATGGA GTGCCAAACA 
    AGGGAAGCTG TAGACATCCT CCACAGGCAG TTCCAGAAGT TTGTTACTCC CTCAGTGCCC 
    CAGCAAGAAG AAAGGATTCA GGAGGTCGTC AGCCTTGCTC AACGACTATA TGGTTTGGAA 
    GAGGGGCAGA AATACGCTGA GAAAATCGTC ACAAGACACA AGGAGATTCT TGAATCTATT 
    ACTGAATTAT GTGGGTCTCT CGTGGAACTT AAAGAAAAAC TGATGCAGGG AGATGTTCCA 
    AAGGTGAATT CAAATTTGGA AGATTTCCAC GGCAATTCCA TTGATCTGCT AAAGGAGCCA 
    GGGAGGGATG AGCAGACAAC ATTCAGTGAA GAAAGGAGTG AGGGGCAGGC GCAGGGAGCA 
    GATGTGTCGG CCATCAATGG AACAAGAGAA GATGGGCTTC CCGTGGGCTT GAGGCAGTCC 
    TTTGACAAAG AGGACAGTGC CCAGGGTCTG ACCCTGCCAG AAGACACGCT CTCCGGAGAA 
    GACTCTGAGT GTATCTCCTC TGATGACATT TCTTTGCCTC CACTGCCAGT GACCCCCGAG 
    TCCCCTCTGG CACCATCAGA CATGGAGGTA GAAGAACCTG CCAGTTCTTC AGCCCTCGCC 
    CTGCATATCA GCGGCTACAG GATGCGTACA GGGACAGGTG GTCTAGGGAA GGCCCCGGAG 
    TCTGTTCTGC CCCCACCCAC TGCTTTTACT GATGGGTACC ATAATAAGAA AGACACATTT 
    ACAAGTCATT TTGAGAGGCC CTATCCACAG TTCAAAGCTG AACCCTTATT AACCTCCAGA 
    GGGTCAGGAG AGATGAGTAC CAAGTTGCAC GTCAATGTGA AATGTCCAGC GCGCATGCCC 
    CGTGAAGTGC ACGACAAAGC TTTGCCGCCA AGCTCCCAGG CTCAGGAGAT CTCGCTAGGA 
    ACGCAGGAGA AAGTGCATGC TGATTCTAAC GTCACTAAAA CCCAAGACAG GCTGCATGCT 
    GCCCTTGATG TATCCCCTGG CCTCAGCTCT CAATCAGACA CCAGCAGAAG CCATCAGAGG 
    CAAGTGGGTC CCCAAGGAGA CAGGAAAAAC TCATCAGCAG AAAAAAGCGT GGTCAGCCTA 
    GCTGGCCAGG CGCCTCATTT CTCCAGGCTG CTGTCCAATG TAACTGTCAC GGAAGGTTCC 
    CCGGTGACTT TGGAAGTCGA AGTAACAGGA TTCCCAGAGC CTACACTGAC ATGGTTCAAG 
    AAGGGCCAGA AACTGTGTGC AGATGGACAC TTACAGGTTT TGCACAAGGA CACAAAGCAT 
    TCGGTGTTCA TCCCGAAGGT ATGTGAGGCA GATGCTGGCC TCTATGTGGC TCAAGCCCAA 
    AACTCTAGTG GCACCCTGTC TTCCAAAGCC ATCCTCCATG TGACAGGTAA CCATGGGCCA 
    CCAATTACAA GAATAAACTG GATTGTGCTG TGTATCATCT ATGTCAGCGT ATCAGTAATA 
    TACTGGCTAC TTACACAGTA G

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

    RefSeq XP_008760186.1
    CDS1158..4838
    Translation

    Target ORF information:

    RefSeq Version XM_008761964.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008761964.2

    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
    ATGGAGAAGC TGAAGAGCCA GGCTCTGGGG ATTCTGCTGT CAAAGGACTT GACAGAAAAG 
    GAACATCTGC AGCTCTCTAA CCAGAAACTC AATCGGCTTC AAGAAGAGTT TGGACGACTC 
    ATGGTGGACA GGAAAGCCTG GCTGACAATG GCGCATGACT TCTTTACCAG TGCTAACGAG 
    GCATTTGATG TACTTGGAAA AGTTGAAGAT TACCTTAAGC TCCTTAAATC AGAGGGTTTA 
    AGCCTGCCTG CCTTGGCAGC AAAACATGAG GAATTACACA GAGAAATTAA AGACTCTACA 
    GCCGCCGCTC TGCAAAAGGG ACGGACCTTA ATCAGCCAAG TAGACTCCTG CCGCGCTCAG 
    GTGACAGGAA TTCATGAGAC GATGGGACGC ATTCAGAAGC GAGTGGATCG TCTCAGCCAG 
    CAATGTACAG CGCACCAGGA GTTTGCCCTT AAGAAACAGC AATTAGCAAC GTCAGTGGAC 
    GACTACCTAA GGAAGGTGGA AATGTCAGTT CAAGAAATGA GGTTGGTTCT TGCTACCACA 
    TTGGATGTCG GTTCTAGTCC TTCTGAATCA GAGAAGATTT TAAATAAATA TCTGGAATTG 
    GATATCCAAG CCAAGGAGAC AGCACATGCA TTAGAAGCAG CAGCAAAAAT CACGACAGAG 
    AAAAATGAAC TTGAACTCAA TGAAGTGGCA TTGCTTCCTT TTAAAGTGAA ACGGCTAGAA 
    GAAGAATTAA GCACGCTTAG TCGAAGCGTC AGCTACAGGT CACAAGTCCT GCAAACTTAC 
    ATAGCATTTC GAAAGTCATC CGAGGAGGTA GAGGAGCAGC TTCAGAGCCT AAAGGAATTT 
    TATCTGACCG AAAGCCCTTG GGAAGATGAA GACGATGCTG TGGTCACGTG CCAGTCTAAC 
    TCTGCCGAAA GAAAATGGCA GCTATTTCTA AAGAAGAGTT TTTTGACCCA GGACTTGAGC 
    CTCGAGTTCC TGAACTTAAT AAGCATGGCA AAAGAGAATG AGATATTAAA TGTTAAAAAG 
    GAAATGCACA TTGTGGAGAA CGTGATGGAA AAGCAAACAA ACGGAAGGGA AGAGCTCAGC 
    CGTCTCCGAA TGGCATGGCA CCTCAAAGCC ATGGAAGGCA AGCCTGTGAA AGAACGGTGG 
    GAAACGTTCA AAGAGAAACT TAAAAAGACA ACTCACAATG TAAAACTTCT CCATGAAGTT 
    CTGATGCCTG TCTCTGCGCT GGACCTTGGA GGGAACCTCC AGAGCATGTC AGATCTGCGA 
    AGAAGGTGGA TCGCAATGCA GCCTCAGCTC CAGCAACTGC ATGAGGACGT TCAGCAAATC 
    ATGAAAGAGT GGGAAGTGCT AAGTGGTCAG GGAGTTCCTT TGAAGGAGAA GGCTGAACAA 
    CTGAAGGACC TTATCCATCT CCATCAGAGG CAGAGAGAGC GAATCCAGGA ATATGAGGAA 
    ATCCTGTACA AGACAGTCCA GTTCCACCAG GTCAAGGAAG AGCTGACCCA TCTCATCAAA 
    CCAAGAGAAC TGGAGCTCCT AGCACAGCCC ATGGAACTGG AAGGTTCTAA GGAGGTCCTG 
    ATGCAACTGG GCCGTTCTCA AGGAAGACGG GCACACGTAG ACCATCTCCA TCGGCTGGCC 
    CTATCCTTAG GAGTGGACAT CATTTCATCC GTGCAACGAC CTAATTGCTC GAATATTTCT 
    GCAAAGAGCC TGCAGCAGCA GCTGGAGGCC CTCGAACTGG ATAGCAGGGA TTGGAGTGCC 
    AAAGCCAAGG AATATGAACA GGTCCTGGCC TGCAGCTTGG AGTACTGCAC CACACGAGAG 
    GAGATCAATG AGCTCAAAGA GTCATTCAAA GATATAAAAA AGAAATTCAA CAATCTGAAG 
    TTTAATTACT CTAAGAAAAA TGAGAAATCT CGAAACTTAA AGACTCTTCA ATATCAAATC 
    CAACAAGTGG AAACATATGC TGACAAAATT CAGGCTTTAA GGAAGAAAAT GGAAAAGGTT 
    AATAAAAAGA TATCCGATTC AGTCTTAAGT TATCCAAGTA ATAAAGCTAA CACCCTTGTG 
    GAAGCCATGG AGGATTTGAA AAAACACGTC GATGACTTTG ACAAAGTTGT GACAGATTAT 
    AAGATGAATT TGGACCTGAC TGAGCATCTC CAGGAAGTAA TAGAAGAGTG TAACTTTTGG 
    TATGAGGATG CTAGTGCCAC TGTGGTAAGA GTTGGGAAGT ATTCCATGGA GTGCCAAACA 
    AGGGAAGCTG TAGACATCCT CCACAGGCAG TTCCAGAAGT TTGTTACTCC CTCAGTGCCC 
    CAGCAAGAAG AAAGGATTCA GGAGGTCGTC AGCCTTGCTC AACGACTATA TGGTTTGGAA 
    GAGGGGCAGA AATACGCTGA GAAAATCGTC ACAAGACACA AGGAGATTCT TGAATCTATT 
    ACTGAATTAT GTGGGTCTCT CGTGGAACTT AAAGAAAAAC TGATGCAGGG AGATGTTCCA 
    AAGGTGAATT CAAATTTGGA AGATTTCCAC GGCAATTCCA TTGATCTGCT AAAGGAGCCA 
    GGGAGGGATG AGCAGACAAC ATTCAGTGAA GAAAGGAGTG AGGGGCAGGC GCAGGGAGCA 
    GATGTGTCGG CCATCAATGG AACAAGAGAA GATGGGCTTC CCGTGGGCTT GAGGCAGTCC 
    TTTGACAAAG AGGACAGTGC CCAGGGTCTG ACCCTGCCAG AAGACACGCT CTCCGGAGAA 
    GACTCTGAGT GTATCTCCTC TGATGACATT TCTTTGCCTC CACTGCCAGT GACCCCCGAG 
    TCCCCTCTGG CACCATCAGA CATGGAGGTA GAAGAACCTG CCAGTTCTTC AGCCCTCGCC 
    CTGCATATCA GCGGCTACAG GATGCGTACA GGGACAGGTG GTCTAGGGAA GGCCCCGGAG 
    TCTGTTCTGC CCCCACCCAC TGCTTTTACT GATGGGTACC ATAATAAGAA AGACACATTT 
    ACAAGTCATT TTGAGAGGCC CTATCCACAG TTCAAAGCTG AACCCTTATT AACCTCCAGA 
    GGGTCAGGAG AGATGAGTAC CAAGTTGCAC GTCAATGTGA AATGTCCAGC GCGCATGCCC 
    CGTGAAGTGC ACGACAAAGC TTTGCCGCCA AGCTCCCAGG CTCAGGAGAT CTCGCTAGGA 
    ACGCAGGAGA AAGTGCATGC TGATTCTAAC GTCACTAAAA CCCAAGACAG GCTGCATGCT 
    GCCCTTGATG TATCCCCTGG CCTCAGCTCT CAATCAGACA CCAGCAGAAG CCATCAGAGG 
    CAAGTGGGTC CCCAAGGAGA CAGGAAAAAC TCATCAGCAG AAAAAAGCGT GGTCAGCCTA 
    GCTGGCCAGG CGCCTCATTT CTCCAGGCTG CTGTCCAATG TAACTGTCAC GGAAGGTTCC 
    CCGGTGACTT TGGAAGTCGA AGTAACAGGA TTCCCAGAGC CTACACTGAC ATGGTTCAAG 
    AAGGGCCAGA AACTGTGTGC AGATGGACAC TTACAGGTTT TGCACAAGGA CACAAAGCAT 
    TCGGTGTTCA TCCCGAAGGT ATGTGAGGCA GATGCTGGCC TCTATGTGGC TCAAGCCCAA 
    AACTCTAGTG GCACCCTGTC TTCCAAAGCC ATCCTCCATG TGACAGGTAA CCATGGGCCA 
    CCAATTACAA GAATAAACTG GATTGTGCTG TGTATCATCT ATGTCAGCGT ATCAGTAATA 
    TACTGGCTAC TTACACAGTA G

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

    Ccdc141 ( XM_006224630.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006224692.1 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ORa15848
    Clone ID Related Accession (Same CDS sequence) XM_006224630.3
    Accession Version XM_006224630.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4737bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product coiled-coil domain-containing protein 141 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000071.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006224630.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 3% of CDS bases ##RefSeq-Attributes-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
    ATGTCCTGCA AAGAAAGTCC CCACGTGGGT GTTTCCACCA CCACTGTCAG CTCTGTAGCT 
    GTGCAAGCTG GGGACTCCAA GATCGTGATA GCCGTTGTCA AGTGTGGCAA ATGGGTGCGG 
    CTCCAACTGG CTGAGGCACA GCCCAATCTC CTAGAAATTG GGAGCAGTCA AGATGAAACC 
    AGAAAACTGC TTCACGATCA CGAGCTCCTT CTGGCCAAGC TTAAGGCCTT GGAAGATCGT 
    GTGTGGGGAC TCTTACAGGA AGCAGACAGG ACGGCTGAAG CAAACAAGGA GCAAAGTGAG 
    GTGTACGATG CCATGGCCCA GACTCTGGGC GAAGCATGGG CCACCCTGGT CTCCATGCTT 
    GAAAGAAGAA GGGAGCTCCT CGGACTGACA TCTGAGTTTT TTCAAAGCGC CTTGGAGTTT 
    GCTATAAAAA TAGACCAAGC TGAAGATTTT CTGCAGAATC CTCACGAGTT TGAGAGTGCC 
    GAAGCCTTAC AGTCACTTCT TCTGCTTCAT GACCGACACG CCAAAGAACT CTTAGAACGA 
    TCTCTAGTCC TTTTAAACAA AAGCCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GATGGATCTC CTGTGAATTC TGAGCTCATC CAGGGAGCTC AGAGCAGTTG TCTGAAGATC 
    GACAGCCTCC TTGAACTTCT GCAAGACAGG AGAAGGCAGC TGGACAAGCA CTTGCAGCAA 
    CAGAGGCAGG AGTTGTCTCA GGTTCTGCAG TTATGTCTGT GGGACCAACA AGAAAGCCAG 
    GTTTCTTGTT GGTTTCAGAA AACAATAAGA GATCTGCAGG AACAGAGTCT GGGTTCATCC 
    CTTTCAGACA ACAAAGAGTT AATCCGTAAG CACGAGGACC TGACCATCAA AGCAAAGGAA 
    TGGGATTTGG CCATGGAGAA GCTGAAGAGC CAGGCTCTGG GGATTCTGCT GTCAAAGGAC 
    TTGACAGAAA AGGAACATCT GCAGCTCTCT AACCAGAAAC TCAATCGGCT TCAAGAAGAG 
    TTTGGACGAC TCATGGTGGA CAGGAAAGCC TGGCTGACAA TGGCGCATGA CTTCTTTACC 
    AGTGCTAACG AGGCATTTGA TGTACTTGGA AAAGTTGAAG ATTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGCCTGCC TGCCTTGGCA GCAAAACATG AGGAATTACA CAGAGAAATT 
    AAAGACTCTA CAGCCGCCGC TCTGCAAAAG GGACGGACCT TAATCAGCCA AGTAGACTCC 
    TGCCGCGCTC AGGTGACAGG AATTCATGAG ACGATGGGAC GCATTCAGAA GCGAGTGGAT 
    CGTCTCAGCC AGCAATGTAC AGCGCACCAG GAGTTTGCCC TTAAGAAACA GCAATTAGCA 
    ACGTCAGTGG ACGACTACCT AAGGAAGGTG GAAATGTCAG TTCAAGAAAT GAGGTTGGTT 
    CTTGCTACCA CATTGGATGT CGGTTCTAGT CCTTCTGAAT CAGAGAAGAT TTTAAATAAA 
    TATCTGGAAT TGGATATCCA AGCCAAGGAG ACAGCACATG CATTAGAAGC AGCAGCAAAA 
    ATCACGACAG AGAAAAATGA ACTTGAACTC AATGAAGTGG CATTGCTTCC TTTTAAAGTG 
    AAACGGCTAG AAGAAGAATT AAGCACGCTT AGTCGAAGCG TCAGCTACAG GTCACAAGTC 
    CTGCAAACTT ACATAGCATT TCGAAAGTCA TCCGAGGAGG TAGAGGAGCA GCTTCAGAGC 
    CTAAAGGAAT TTTATCTGAC CGAAAGCCCT TGGGAAGATG AAGACGATGC TGTGGTCACG 
    TGCCAGTCTA ACTCTGCCGA AAGAAAATGG CAGCTATTTC TAAAGAAGAG TTTTTTGACC 
    CAGGACTTGA GCCTCGAGTT CCTGAACTTA ATAAGCATGG CAAAAGAGAA TGAGATATTA 
    AATGTTAAAA AGGAAATGCA CATTGTGGAG AACGTGATGG AAAAGCAAAC AAACGGAAGG 
    GAAGAGCTCA GCCGTCTCCG AATGGCATGG CACCTCAAAG CCATGGAAGG CAAGCCTGTG 
    AAAGAACGGT GGGAAACGTT CAAAGAGAAA CTTAAAAAGA CAACTCACAA TGTAAAACTT 
    CTCCATGAAG TTCTGATGCC TGTCTCTGCG CTGGACCTTG GAGGGAACCT CCAGAGCATG 
    TCAGATCTGC GAAGAAGGTG GATCGCAATG CAGCCTCAGC TCCAGCAACT GCATGAGGAC 
    GTTCAGCAAA TCATGAAAGA GTGGGAAGTG CTAAGTGGTC AGGGAGTTCC TTTGAAGGAG 
    AAGGCTGAAC AACTGAAGGA CCTTATCCAT CTCCATCAGA GGCAGAGAGA GCGAATCCAG 
    GAATATGAGG AAATCCTGTA CAAGACAGTC CAGTTCCACC AGGTCAAGGA AGAGCTGACC 
    CATCTCATCA AACCAAGAGA ACTGGAGCTC CTAGCACAGC CCATGGAACT GGAAGGTTCT 
    AAGGAGGTCC TGATGCAACT GGGCCGTTCT CAAGGAAGAC GGGCACACGT AGACCATCTC 
    CATCGGCTGG CCCTATCCTT AGGAGTGGAC ATCATTTCAT CCGTGCAACG ACCTAATTGC 
    TCGAATATTT CTGCAAAGAG CCTGCAGCAG CAGCTGGAGG CCCTCGAACT GGATAGCAGG 
    GATTGGAGTG CCAAAGCCAA GGAATATGAA CAGGTCCTGG CCTGCAGCTT GGAGTACTGC 
    ACCACACGAG AGGAGATCAA TGAGCTCAAA GAGTCATTCA AAGATATAAA AAAGAAATTC 
    AACAATCTGA AGTTTAATTA CTCTAAGAAA AATGAGAAAT CTCGAAACTT AAAGACTCTT 
    CAATATCAAA TCCAACAAGT GGAAACATAT GCTGACAAAA TTCAGGCTTT AAGGAAGAAA 
    ATGGAAAAGG TTAATAAAAA GATATCCGAT TCAGTCTTAA GTTATCCAAG TAATAAAGCT 
    AACACCCTTG TGGAAGCCAT GGAGGATTTG AAAAAACACG TCGATGACTT TGACAAAGTT 
    GTGACAGATT ATAAGATGAA TTTGGACCTG ACTGAGCATC TCCAGGAAGT AATAGAAGAG 
    TGTAACTTTT GGTATGAGGA TGCTAGTGCC ACTGTGGTAA GAGTTGGGAA GTATTCCATG 
    GAGTGCCAAA CAAGGGAAGC TGTAGACATC CTCCACAGGC AGTTCCAGAA GTTTGTTACT 
    CCCTCAGTGC CCCAGCAAGA AGAAAGGATT CAGGAGGTCG TCAGCCTTGC TCAACGACTA 
    TATGGTTTGG AAGAGGGGCA GAAATACGCT GAGAAAATCG TCACAAGACA CAAGGAGATT 
    CTTGAATCTA TTACTGAATT ATGTGGGTCT CTCGTGGAAC TTAAAGAAAA ACTGATGCAG 
    GGAGATGTTC CAAAGGTGAA TTCAAATTTG GAAGATTTCC ACGGCAATTC CATTGATCTG 
    CTAAAGGAGC CAGGGAGGGA TGAGCAGACA ACATTCAGTG AAGAAAGGAG TGAGGGGCAG 
    GCGCAGGGAG CAGATGTGTC GGCCATCAAT GGAACAAGAG AAGATGGGCT TCCCGTGGGC 
    TTGAGGCAGT CCTTTGACAA AGAGGACAGT GCCCAGGGTC TGACCCTGCC AGAAGACACG 
    CTCTCCGGAG AAGACTCTGA GTGTATCTCC TCTGATGACA TTTCTTTGCC TCCACTGCCA 
    GTGACCCCCG AGTCCCCTCT GGCACCATCA GACATGGAGG TAGAAGAACC TGCCAGTTCT 
    TCAGCCCTCG CCCTGCATAT CAGCGGCTAC AGGATGCGTA CAGGGACAGG TGGTCTAGGG 
    AAGGCCCCGG AGTCTGTTCT GCCCCCACCC ACTGCTTTTA CTGATGGGTA CCATAATAAG 
    AAAGACACAT TTACAAGTCA TTTTGAGAGG CCCTATCCAC AGTTCAAAGC TGAACCCTTA 
    TTAACCTCCA GAGGGTCAGG AGAGATGAGT ACCAAGTTGC ACGTCAATGT GAAATGTCCA 
    GCGCGCATGC CCCGTGAAGT GCACGACAAA GCTTTGCCGC CAAGCTCCCA GGCTCAGGAG 
    ATCTCGCTAG GAACGCAGGA GAAAGTGCAT GCTGATTCTA ACGTCACTAA AACCCAAGAC 
    AGGCTGCATG CTGCCCTTGA TGTATCCCCT GGCCTCAGCT CTCAATCAGA CACCAGCAGA 
    AGCCATCAGA GGCAAGTGGG TCCCCAAGGA GACAGGAAAA ACTCATCAGC AGAAAAAAGC 
    GTGGTCAGCC TAGCTGGCCA GGCGCCTCAT TTCTCCAGGC TGCTACTCTG GCAAATTAAC 
    ACTGAGAGCC AATCAGCCTT CTCCCATACC GATGCCAAAT GGGAGTCAGG AGTCACGGGT 
    GCTGCTAAAA GCTACAGAGA GGATGAAGTA GGCTGGATAC GCAAGTGCCA CTTCACACTC 
    AAGCTAATTG TTGGTGCCCC TCCGGGAGAA CTCGGGGAAA AAATGGAATC AAGGAGTGAC 
    CCTGACTTAA AACTGACTCT CTGCTTTAGG TTCAAGAAGG GCCAGAAACT GTGTGCAGAT 
    GGACACTTAC AGGTTTTGCA CAAGGACACA AAGCATTCGG TGTTCATCCC GAAGGTATGT 
    GAGGCAGATG CTGGCCTCTA TGTGGCTCAA GCCCAAAACT CTAGTGGCAC CCTGTCTTCC 
    AAAGCCATCC TCCATGTGAC AGGTAACCAT GGGCCACCAA TTACAAGAAT AAACTGGATT 
    GTGCTGTGTA TCATCTATGT CAGCGTATCA GTAATATACT GGCTACTTAC ACAGTAG

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

    RefSeq XP_006224692.1
    CDS175..4911
    Translation

    Target ORF information:

    RefSeq Version XM_006224630.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006224630.3

    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
    ATGTCCTGCA AAGAAAGTCC CCACGTGGGT GTTTCCACCA CCACTGTCAG CTCTGTAGCT 
    GTGCAAGCTG GGGACTCCAA GATCGTGATA GCCGTTGTCA AGTGTGGCAA ATGGGTGCGG 
    CTCCAACTGG CTGAGGCACA GCCCAATCTC CTAGAAATTG GGAGCAGTCA AGATGAAACC 
    AGAAAACTGC TTCACGATCA CGAGCTCCTT CTGGCCAAGC TTAAGGCCTT GGAAGATCGT 
    GTGTGGGGAC TCTTACAGGA AGCAGACAGG ACGGCTGAAG CAAACAAGGA GCAAAGTGAG 
    GTGTACGATG CCATGGCCCA GACTCTGGGC GAAGCATGGG CCACCCTGGT CTCCATGCTT 
    GAAAGAAGAA GGGAGCTCCT CGGACTGACA TCTGAGTTTT TTCAAAGCGC CTTGGAGTTT 
    GCTATAAAAA TAGACCAAGC TGAAGATTTT CTGCAGAATC CTCACGAGTT TGAGAGTGCC 
    GAAGCCTTAC AGTCACTTCT TCTGCTTCAT GACCGACACG CCAAAGAACT CTTAGAACGA 
    TCTCTAGTCC TTTTAAACAA AAGCCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GATGGATCTC CTGTGAATTC TGAGCTCATC CAGGGAGCTC AGAGCAGTTG TCTGAAGATC 
    GACAGCCTCC TTGAACTTCT GCAAGACAGG AGAAGGCAGC TGGACAAGCA CTTGCAGCAA 
    CAGAGGCAGG AGTTGTCTCA GGTTCTGCAG TTATGTCTGT GGGACCAACA AGAAAGCCAG 
    GTTTCTTGTT GGTTTCAGAA AACAATAAGA GATCTGCAGG AACAGAGTCT GGGTTCATCC 
    CTTTCAGACA ACAAAGAGTT AATCCGTAAG CACGAGGACC TGACCATCAA AGCAAAGGAA 
    TGGGATTTGG CCATGGAGAA GCTGAAGAGC CAGGCTCTGG GGATTCTGCT GTCAAAGGAC 
    TTGACAGAAA AGGAACATCT GCAGCTCTCT AACCAGAAAC TCAATCGGCT TCAAGAAGAG 
    TTTGGACGAC TCATGGTGGA CAGGAAAGCC TGGCTGACAA TGGCGCATGA CTTCTTTACC 
    AGTGCTAACG AGGCATTTGA TGTACTTGGA AAAGTTGAAG ATTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGCCTGCC TGCCTTGGCA GCAAAACATG AGGAATTACA CAGAGAAATT 
    AAAGACTCTA CAGCCGCCGC TCTGCAAAAG GGACGGACCT TAATCAGCCA AGTAGACTCC 
    TGCCGCGCTC AGGTGACAGG AATTCATGAG ACGATGGGAC GCATTCAGAA GCGAGTGGAT 
    CGTCTCAGCC AGCAATGTAC AGCGCACCAG GAGTTTGCCC TTAAGAAACA GCAATTAGCA 
    ACGTCAGTGG ACGACTACCT AAGGAAGGTG GAAATGTCAG TTCAAGAAAT GAGGTTGGTT 
    CTTGCTACCA CATTGGATGT CGGTTCTAGT CCTTCTGAAT CAGAGAAGAT TTTAAATAAA 
    TATCTGGAAT TGGATATCCA AGCCAAGGAG ACAGCACATG CATTAGAAGC AGCAGCAAAA 
    ATCACGACAG AGAAAAATGA ACTTGAACTC AATGAAGTGG CATTGCTTCC TTTTAAAGTG 
    AAACGGCTAG AAGAAGAATT AAGCACGCTT AGTCGAAGCG TCAGCTACAG GTCACAAGTC 
    CTGCAAACTT ACATAGCATT TCGAAAGTCA TCCGAGGAGG TAGAGGAGCA GCTTCAGAGC 
    CTAAAGGAAT TTTATCTGAC CGAAAGCCCT TGGGAAGATG AAGACGATGC TGTGGTCACG 
    TGCCAGTCTA ACTCTGCCGA AAGAAAATGG CAGCTATTTC TAAAGAAGAG TTTTTTGACC 
    CAGGACTTGA GCCTCGAGTT CCTGAACTTA ATAAGCATGG CAAAAGAGAA TGAGATATTA 
    AATGTTAAAA AGGAAATGCA CATTGTGGAG AACGTGATGG AAAAGCAAAC AAACGGAAGG 
    GAAGAGCTCA GCCGTCTCCG AATGGCATGG CACCTCAAAG CCATGGAAGG CAAGCCTGTG 
    AAAGAACGGT GGGAAACGTT CAAAGAGAAA CTTAAAAAGA CAACTCACAA TGTAAAACTT 
    CTCCATGAAG TTCTGATGCC TGTCTCTGCG CTGGACCTTG GAGGGAACCT CCAGAGCATG 
    TCAGATCTGC GAAGAAGGTG GATCGCAATG CAGCCTCAGC TCCAGCAACT GCATGAGGAC 
    GTTCAGCAAA TCATGAAAGA GTGGGAAGTG CTAAGTGGTC AGGGAGTTCC TTTGAAGGAG 
    AAGGCTGAAC AACTGAAGGA CCTTATCCAT CTCCATCAGA GGCAGAGAGA GCGAATCCAG 
    GAATATGAGG AAATCCTGTA CAAGACAGTC CAGTTCCACC AGGTCAAGGA AGAGCTGACC 
    CATCTCATCA AACCAAGAGA ACTGGAGCTC CTAGCACAGC CCATGGAACT GGAAGGTTCT 
    AAGGAGGTCC TGATGCAACT GGGCCGTTCT CAAGGAAGAC GGGCACACGT AGACCATCTC 
    CATCGGCTGG CCCTATCCTT AGGAGTGGAC ATCATTTCAT CCGTGCAACG ACCTAATTGC 
    TCGAATATTT CTGCAAAGAG CCTGCAGCAG CAGCTGGAGG CCCTCGAACT GGATAGCAGG 
    GATTGGAGTG CCAAAGCCAA GGAATATGAA CAGGTCCTGG CCTGCAGCTT GGAGTACTGC 
    ACCACACGAG AGGAGATCAA TGAGCTCAAA GAGTCATTCA AAGATATAAA AAAGAAATTC 
    AACAATCTGA AGTTTAATTA CTCTAAGAAA AATGAGAAAT CTCGAAACTT AAAGACTCTT 
    CAATATCAAA TCCAACAAGT GGAAACATAT GCTGACAAAA TTCAGGCTTT AAGGAAGAAA 
    ATGGAAAAGG TTAATAAAAA GATATCCGAT TCAGTCTTAA GTTATCCAAG TAATAAAGCT 
    AACACCCTTG TGGAAGCCAT GGAGGATTTG AAAAAACACG TCGATGACTT TGACAAAGTT 
    GTGACAGATT ATAAGATGAA TTTGGACCTG ACTGAGCATC TCCAGGAAGT AATAGAAGAG 
    TGTAACTTTT GGTATGAGGA TGCTAGTGCC ACTGTGGTAA GAGTTGGGAA GTATTCCATG 
    GAGTGCCAAA CAAGGGAAGC TGTAGACATC CTCCACAGGC AGTTCCAGAA GTTTGTTACT 
    CCCTCAGTGC CCCAGCAAGA AGAAAGGATT CAGGAGGTCG TCAGCCTTGC TCAACGACTA 
    TATGGTTTGG AAGAGGGGCA GAAATACGCT GAGAAAATCG TCACAAGACA CAAGGAGATT 
    CTTGAATCTA TTACTGAATT ATGTGGGTCT CTCGTGGAAC TTAAAGAAAA ACTGATGCAG 
    GGAGATGTTC CAAAGGTGAA TTCAAATTTG GAAGATTTCC ACGGCAATTC CATTGATCTG 
    CTAAAGGAGC CAGGGAGGGA TGAGCAGACA ACATTCAGTG AAGAAAGGAG TGAGGGGCAG 
    GCGCAGGGAG CAGATGTGTC GGCCATCAAT GGAACAAGAG AAGATGGGCT TCCCGTGGGC 
    TTGAGGCAGT CCTTTGACAA AGAGGACAGT GCCCAGGGTC TGACCCTGCC AGAAGACACG 
    CTCTCCGGAG AAGACTCTGA GTGTATCTCC TCTGATGACA TTTCTTTGCC TCCACTGCCA 
    GTGACCCCCG AGTCCCCTCT GGCACCATCA GACATGGAGG TAGAAGAACC TGCCAGTTCT 
    TCAGCCCTCG CCCTGCATAT CAGCGGCTAC AGGATGCGTA CAGGGACAGG TGGTCTAGGG 
    AAGGCCCCGG AGTCTGTTCT GCCCCCACCC ACTGCTTTTA CTGATGGGTA CCATAATAAG 
    AAAGACACAT TTACAAGTCA TTTTGAGAGG CCCTATCCAC AGTTCAAAGC TGAACCCTTA 
    TTAACCTCCA GAGGGTCAGG AGAGATGAGT ACCAAGTTGC ACGTCAATGT GAAATGTCCA 
    GCGCGCATGC CCCGTGAAGT GCACGACAAA GCTTTGCCGC CAAGCTCCCA GGCTCAGGAG 
    ATCTCGCTAG GAACGCAGGA GAAAGTGCAT GCTGATTCTA ACGTCACTAA AACCCAAGAC 
    AGGCTGCATG CTGCCCTTGA TGTATCCCCT GGCCTCAGCT CTCAATCAGA CACCAGCAGA 
    AGCCATCAGA GGCAAGTGGG TCCCCAAGGA GACAGGAAAA ACTCATCAGC AGAAAAAAGC 
    GTGGTCAGCC TAGCTGGCCA GGCGCCTCAT TTCTCCAGGC TGCTACTCTG GCAAATTAAC 
    ACTGAGAGCC AATCAGCCTT CTCCCATACC GATGCCAAAT GGGAGTCAGG AGTCACGGGT 
    GCTGCTAAAA GCTACAGAGA GGATGAAGTA GGCTGGATAC GCAAGTGCCA CTTCACACTC 
    AAGCTAATTG TTGGTGCCCC TCCGGGAGAA CTCGGGGAAA AAATGGAATC AAGGAGTGAC 
    CCTGACTTAA AACTGACTCT CTGCTTTAGG TTCAAGAAGG GCCAGAAACT GTGTGCAGAT 
    GGACACTTAC AGGTTTTGCA CAAGGACACA AAGCATTCGG TGTTCATCCC GAAGGTATGT 
    GAGGCAGATG CTGGCCTCTA TGTGGCTCAA GCCCAAAACT CTAGTGGCAC CCTGTCTTCC 
    AAAGCCATCC TCCATGTGAC AGGTAACCAT GGGCCACCAA TTACAAGAAT AAACTGGATT 
    GTGCTGTGTA TCATCTATGT CAGCGTATCA GTAATATACT GGCTACTTAC ACAGTAG

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

    Ccdc141 ( XM_003749494.4 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_003749542.2 Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ORa26012
    Clone ID Related Accession (Same CDS sequence) XM_003749494.4
    Accession Version XM_003749494.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product coiled-coil domain-containing protein 141 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005102.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_003749494.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCCTGCA AAGAAAGTCC CCACGTGGGT GTTTCCACCA CCACTGTCAG CTCTGTAGCT 
    GTGCAAGCTG GGGACTCCAA GATCGTGATA GCCGTTGTCA AGTGTGGCAA ATGGGTGCGG 
    CTCCAACTGG CTGAGGCACA GCCCAATCTC CTAGAAATTG GGAGCAGTCA AGATGAAACC 
    AGAAAACTGC TTCACGATCA CGAGCTCCTT CTGGCCAAGC TTAAGGCCTT GGAAGATCGT 
    GTGTGGGGAC TCTTACAGGA AGCAGACAGG ACGGCTGAAG CAAACAAGGA GCAAAGTGAG 
    GTGTACGATG CCATGGCCCA GACTCTGGGC GAAGCATGGG CCACCCTGGT CTCCATGCTT 
    GAAAGAAGAA GGGAGCTCCT CGGACTGACA TCTGAGTTTT TTCAAAGCGC CTTGGAGTTT 
    GCTATAAAAA TAGACCAAGC TGAAGATTTT CTGCAGAATC CTCACGAGTT TGAGAGTGCC 
    GAAGCCTTAC AGTCACTTCT TCTGCTTCAT GACCGACACG CCAAAGAACT CTTAGAACGA 
    TCTCTAGTCC TTTTAAACAA AAGCCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GATGGATCTC CTGTGAATTC TGAGCTCATC CAGGGAGCTC AGAGCAGTTG TCTGAAGATC 
    GACAGCCTCC TTGAACTTCT GCAAGACAGG AGAAGGCAGC TGGACAAGCA CTTGCAGCAA 
    CAGAGGCAGG AGTTGTCTCA GGTTCTGCAG TTATGTCTGT GGGACCAACA AGAAAGCCAG 
    GTTTCTTGTT GGTTTCAGAA AACAATAAGA GATCTGCAGG AACAGAGTCT GGGTTCATCC 
    CTTTCAGACA ACAAAGAGTT AATCCGTAAG CACGAGGACC TGACCATCAA AGCAAAGGAA 
    TGGGATTTGG CCATGGAGAA GCTGAAGAGC CAGGCTCTGG GGATTCTGCT GTCAAAGGAC 
    TTGACAGAAA AGGAACATCT GCAGCTCTCT AACCAGAAAC TCAATCGGCT TCAAGAAGAG 
    TTTGGACGAC TCATGGTGGA CAGGAAAGCC TGGCTGACAA TGGCGCATGA CTTCTTTACC 
    AGTGCTAACG AGGCATTTGA TGTACTTGGA AAAGTTGAAG ATTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGCCTGCC TGCCTTGGCA GCAAAACATG AGGAATTACA CAGAGAAATT 
    AAAGACTCTA CAGCCGCCGC TCTGCAAAAG GGACGGACCT TAATCAGCCA AGTAGACTCC 
    TGCCGCGCTC AGGTGACAGG AATTCATGAG ACGATGGGAC GCATTCAGAA GCGAGTGGAT 
    CGTCTCAGCC AGCAATGTAC AGCGCACCAG GAGTTTGCCC TTAAGAAACA GCAATTAGCA 
    ACGTCAGTGG ACGACTACCT AAGGAAGGTG GAAATGTCAG TTCAAGAAAT GAGGTTGGTT 
    CTTGCTACCA CATTGGATGT CGGTTCTAGT CCTTCTGAAT CAGAGAAGAT TTTAAATAAA 
    TATCTGGAAT TGGATATCCA AGCCAAGGAG ACAGCACATG CATTAGAAGC AGCAGCAAAA 
    ATCACGACAG AGAAAAATGA ACTTGAACTC AATGAAGTGG CATTGCTTCC TTTTAAAGTG 
    AAACGGCTAG AAGAAGAATT AAGCACGCTT AGTCGAAGCG TCAGCTACAG GTCACAAGTC 
    CTGCAAACTT ACATAGCATT TCGAAAGTCA TCCGAGGAGG TAGAGGAGCA GCTTCAGAGC 
    CTAAAGGAAT TTTATCTGAC CGAAAGCCCT TGGGAAGATG AAGACGATGC TGTGGTCACG 
    TGCCAGTCTA ACTCTGCCGA AAGAAAATGG CAGCTATTTC TAAAGAAGAG TTTTTTGACC 
    CAGGACTTGA GCCTCGAGTT CCTGAACTTA ATAAGCATGG CAAAAGAGAA TGAGATATTA 
    AATGTTAAAA AGGAAATGCA CATTGTGGAG AACGTGATGG AAAAGCAAAC AAACGGAAGG 
    GAAGAGCTCA GCCGTCTCCG AATGGCATGG CACCTCAAAG CCATGGAAGG CAAGCCTGTG 
    AAAGAACGGT GGGAAACGTT CAAAGAGAAA CTTAAAAAGA CAACTCACAA TGTAAAACTT 
    CTCCATGAAG TTCTGATGCC TGTCTCTGCG CTGGACCTTG GAGGGAACCT CCAGAGCATG 
    TCAGATCTGC GAAGAAGGTG GATCGCAATG CAGCCTCAGC TCCAGCAACT GCATGAGGAC 
    GTTCAGCAAA TCATGAAAGA GTGGGAAGTG CTAAGTGGTC AGGGAGTTCC TTTGAAGGAG 
    AAGGCTGAAC AACTGAAGGA CCTTATCCAT CTCCATCAGA GGCAGAGAGA GCGAATCCAG 
    GAATATGAGG AAATCCTGTA CAAGACAGTC CAGTTCCACC AGGTCAAGGA AGAGCTGACC 
    CATCTCATCA AACCAAGAGA ACTGGAGCTC CTAGCACAGC CCATGGAACT GGAAGGTTCT 
    AAGGAGGTCC TGATGCAACT GGGCCGTTCT CAAGGAAGAC GGGCACACGT AGACCATCTC 
    CATCGGCTGG CCCTATCCTT AGGAGTGGAC ATCATTTCAT CCGTGCAACG ACCTAATTGC 
    TCGAATATTT CTGCAAAGAG CCTGCAGCAG CAGCTGGAGG CCCTCGAACT GGATAGCAGG 
    GATTGGAGTG CCAAAGCCAA GGAATATGAA CAGGTCCTGG CCTGCAGCTT GGAGTACTGC 
    ACCACACGAG AGGAGATCAA TGAGCTCAAA GAGTCATTCA AAGATATAAA AAAGAAATTC 
    AACAATCTGA AGTTTAATTA CTCTAAGAAA AATGAGAAAT CTCGAAACTT AAAGACTCTT 
    CAATATCAAA TCCAACAAGT GGAAACATAT GCTGACAAAA TTCAGGCTTT AAGGAAGAAA 
    ATGGAAAAGG TTAATAAAAA GATATCCGAT TCAGTCTTAA GTTATCCAAG TAATAAAGCT 
    AACACCCTTG TGGAAGCCAT GGAGGATTTG AAAAAACACG TCGATGACTT TGACAAAGTT 
    GTGACAGATT ATAAGATGAA TTTGGACCTG ACTGAGCATC TCCAGGAAGT AATAGAAGAG 
    TGTAACTTTT GGTATGAGGA TGCTAGTGCC ACTGTGGTAA GAGTTGGGAA GTATTCCATG 
    GAGTGCCAAA CAAGGGAAGC TGTAGACATC CTCCACAGGC AGTTCCAGAA GTTTGTTACT 
    CCCTCAGTGC CCCAGCAAGA AGAAAGGATT CAGGAGGTCG TCAGCCTTGC TCAACGACTA 
    TATGGTTTGG AAGAGGGGCA GAAATACGCT GAGAAAATCG TCACAAGACA CAAGGAGATT 
    CTTGAATCTA TTACTGAATT ATGTGGGTCT CTCGTGGAAC TTAAAGAAAA ACTGATGCAG 
    GGAGATGTTC CAAAGGTGAA TTCAAATTTG GAAGATTTCC ACGGCAATTC CATTGATCTG 
    CTAAAGGAGC CAGGGAGGGA TGAGCAGACA ACATTCAGTG AAGAAAGGAG TGAGGGGCAG 
    GCGCAGGGAG CAGATGTGTC GGCCATCAAT GGAACAAGAG AAGATGGGCT TCCCGTGGGC 
    TTGAGGCAGT CCTTTGACAA AGAGGACAGT GCCCAGGGTC TGACCCTGCC AGAAGACACG 
    CTCTCCGGAG AAGACTCTGA GTGTATCTCC TCTGATGACA TTTCTTTGCC TCCACTGCCA 
    GTGACCCCCG AGTCCCCTCT GGCACCATCA GACATGGAGG TAGAAGAACC TGCCAGTTCT 
    TCAGCCCTCG CCCTGCATAT CAGCGGCTAC AGGATGCGTA CAGGGACAGG TGGTCTAGGG 
    AAGGCCCCGG AGTCTGTTCT GCCCCCACCC ACTGCTTTTA CTGATGGGTA CCATAATAAG 
    AAAGACACAT TTACAAGTCA TTTTGAGAGG CCCTATCCAC AGTTCAAAGC TGAACCCTTA 
    TTAACCTCCA GAGGGTCAGG AGAGATGAGT ACCAAGTTGC ACGTCAATGT GAAATGTCCA 
    GCGCGCATGC CCCGTGAAGT GCACGACAAA GCTTTGCCGC CAAGCTCCCA GGCTCAGGAG 
    ATCTCGCTAG GAACGCAGGA GAAAGTGCAT GCTGATTCTA ACGTCACTAA AACCCAAGAC 
    AGGCTGCATG CTGCCCTTGA TGTATCCCCT GGCCTCAGCT CTCAATCAGA CACCAGCAGA 
    AGCCATCAGA GGCAAGTGGG TCCCCAAGGA GACAGGAAAA ACTCATCAGC AGAAAAAAGC 
    GTGGTCAGCC TAGCTGGCCA GGCGCCTCAT TTCTCCAGGC TGCTGTCCAA TGTAACTGTC 
    ACGGAAGGTT CCCCGGTGAC TTTGGAAGTC GAAGTAACAG GATTCCCAGA GCCTACACTG 
    ACATGGTTCA AGAAGGGCCA GAAACTGTGT GCAGATGGAC ACTTACAGGT TTTGCACAAG 
    GACACAAAGC ATTCGGTGTT CATCCCGAAG GTATGTGAGG CAGATGCTGG CCTCTATGTG 
    GCTCAAGCCC AAAACTCTAG TGGCACCCTG TCTTCCAAAG CCATCCTCCA TGTGACAGGT 
    AACCATGGGC CACCAATTAC AAGAATAAAC TGGATTGTGC TGTGTATCAT CTATGTCAGC 
    GTATCAGTAA TATACTGGCT ACTTACACAG TAG

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

    RefSeq XP_003749542.2
    CDS188..4780
    Translation

    Target ORF information:

    RefSeq Version XM_003749494.4
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus coiled-coil domain containing 141 (Ccdc141), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003749494.4

    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
    ATGTCCTGCA AAGAAAGTCC CCACGTGGGT GTTTCCACCA CCACTGTCAG CTCTGTAGCT 
    GTGCAAGCTG GGGACTCCAA GATCGTGATA GCCGTTGTCA AGTGTGGCAA ATGGGTGCGG 
    CTCCAACTGG CTGAGGCACA GCCCAATCTC CTAGAAATTG GGAGCAGTCA AGATGAAACC 
    AGAAAACTGC TTCACGATCA CGAGCTCCTT CTGGCCAAGC TTAAGGCCTT GGAAGATCGT 
    GTGTGGGGAC TCTTACAGGA AGCAGACAGG ACGGCTGAAG CAAACAAGGA GCAAAGTGAG 
    GTGTACGATG CCATGGCCCA GACTCTGGGC GAAGCATGGG CCACCCTGGT CTCCATGCTT 
    GAAAGAAGAA GGGAGCTCCT CGGACTGACA TCTGAGTTTT TTCAAAGCGC CTTGGAGTTT 
    GCTATAAAAA TAGACCAAGC TGAAGATTTT CTGCAGAATC CTCACGAGTT TGAGAGTGCC 
    GAAGCCTTAC AGTCACTTCT TCTGCTTCAT GACCGACACG CCAAAGAACT CTTAGAACGA 
    TCTCTAGTCC TTTTAAACAA AAGCCAACAA CTCACTGACT TCATAGAAAA ATTCAAGTGT 
    GATGGATCTC CTGTGAATTC TGAGCTCATC CAGGGAGCTC AGAGCAGTTG TCTGAAGATC 
    GACAGCCTCC TTGAACTTCT GCAAGACAGG AGAAGGCAGC TGGACAAGCA CTTGCAGCAA 
    CAGAGGCAGG AGTTGTCTCA GGTTCTGCAG TTATGTCTGT GGGACCAACA AGAAAGCCAG 
    GTTTCTTGTT GGTTTCAGAA AACAATAAGA GATCTGCAGG AACAGAGTCT GGGTTCATCC 
    CTTTCAGACA ACAAAGAGTT AATCCGTAAG CACGAGGACC TGACCATCAA AGCAAAGGAA 
    TGGGATTTGG CCATGGAGAA GCTGAAGAGC CAGGCTCTGG GGATTCTGCT GTCAAAGGAC 
    TTGACAGAAA AGGAACATCT GCAGCTCTCT AACCAGAAAC TCAATCGGCT TCAAGAAGAG 
    TTTGGACGAC TCATGGTGGA CAGGAAAGCC TGGCTGACAA TGGCGCATGA CTTCTTTACC 
    AGTGCTAACG AGGCATTTGA TGTACTTGGA AAAGTTGAAG ATTACCTTAA GCTCCTTAAA 
    TCAGAGGGTT TAAGCCTGCC TGCCTTGGCA GCAAAACATG AGGAATTACA CAGAGAAATT 
    AAAGACTCTA CAGCCGCCGC TCTGCAAAAG GGACGGACCT TAATCAGCCA AGTAGACTCC 
    TGCCGCGCTC AGGTGACAGG AATTCATGAG ACGATGGGAC GCATTCAGAA GCGAGTGGAT 
    CGTCTCAGCC AGCAATGTAC AGCGCACCAG GAGTTTGCCC TTAAGAAACA GCAATTAGCA 
    ACGTCAGTGG ACGACTACCT AAGGAAGGTG GAAATGTCAG TTCAAGAAAT GAGGTTGGTT 
    CTTGCTACCA CATTGGATGT CGGTTCTAGT CCTTCTGAAT CAGAGAAGAT TTTAAATAAA 
    TATCTGGAAT TGGATATCCA AGCCAAGGAG ACAGCACATG CATTAGAAGC AGCAGCAAAA 
    ATCACGACAG AGAAAAATGA ACTTGAACTC AATGAAGTGG CATTGCTTCC TTTTAAAGTG 
    AAACGGCTAG AAGAAGAATT AAGCACGCTT AGTCGAAGCG TCAGCTACAG GTCACAAGTC 
    CTGCAAACTT ACATAGCATT TCGAAAGTCA TCCGAGGAGG TAGAGGAGCA GCTTCAGAGC 
    CTAAAGGAAT TTTATCTGAC CGAAAGCCCT TGGGAAGATG AAGACGATGC TGTGGTCACG 
    TGCCAGTCTA ACTCTGCCGA AAGAAAATGG CAGCTATTTC TAAAGAAGAG TTTTTTGACC 
    CAGGACTTGA GCCTCGAGTT CCTGAACTTA ATAAGCATGG CAAAAGAGAA TGAGATATTA 
    AATGTTAAAA AGGAAATGCA CATTGTGGAG AACGTGATGG AAAAGCAAAC AAACGGAAGG 
    GAAGAGCTCA GCCGTCTCCG AATGGCATGG CACCTCAAAG CCATGGAAGG CAAGCCTGTG 
    AAAGAACGGT GGGAAACGTT CAAAGAGAAA CTTAAAAAGA CAACTCACAA TGTAAAACTT 
    CTCCATGAAG TTCTGATGCC TGTCTCTGCG CTGGACCTTG GAGGGAACCT CCAGAGCATG 
    TCAGATCTGC GAAGAAGGTG GATCGCAATG CAGCCTCAGC TCCAGCAACT GCATGAGGAC 
    GTTCAGCAAA TCATGAAAGA GTGGGAAGTG CTAAGTGGTC AGGGAGTTCC TTTGAAGGAG 
    AAGGCTGAAC AACTGAAGGA CCTTATCCAT CTCCATCAGA GGCAGAGAGA GCGAATCCAG 
    GAATATGAGG AAATCCTGTA CAAGACAGTC CAGTTCCACC AGGTCAAGGA AGAGCTGACC 
    CATCTCATCA AACCAAGAGA ACTGGAGCTC CTAGCACAGC CCATGGAACT GGAAGGTTCT 
    AAGGAGGTCC TGATGCAACT GGGCCGTTCT CAAGGAAGAC GGGCACACGT AGACCATCTC 
    CATCGGCTGG CCCTATCCTT AGGAGTGGAC ATCATTTCAT CCGTGCAACG ACCTAATTGC 
    TCGAATATTT CTGCAAAGAG CCTGCAGCAG CAGCTGGAGG CCCTCGAACT GGATAGCAGG 
    GATTGGAGTG CCAAAGCCAA GGAATATGAA CAGGTCCTGG CCTGCAGCTT GGAGTACTGC 
    ACCACACGAG AGGAGATCAA TGAGCTCAAA GAGTCATTCA AAGATATAAA AAAGAAATTC 
    AACAATCTGA AGTTTAATTA CTCTAAGAAA AATGAGAAAT CTCGAAACTT AAAGACTCTT 
    CAATATCAAA TCCAACAAGT GGAAACATAT GCTGACAAAA TTCAGGCTTT AAGGAAGAAA 
    ATGGAAAAGG TTAATAAAAA GATATCCGAT TCAGTCTTAA GTTATCCAAG TAATAAAGCT 
    AACACCCTTG TGGAAGCCAT GGAGGATTTG AAAAAACACG TCGATGACTT TGACAAAGTT 
    GTGACAGATT ATAAGATGAA TTTGGACCTG ACTGAGCATC TCCAGGAAGT AATAGAAGAG 
    TGTAACTTTT GGTATGAGGA TGCTAGTGCC ACTGTGGTAA GAGTTGGGAA GTATTCCATG 
    GAGTGCCAAA CAAGGGAAGC TGTAGACATC CTCCACAGGC AGTTCCAGAA GTTTGTTACT 
    CCCTCAGTGC CCCAGCAAGA AGAAAGGATT CAGGAGGTCG TCAGCCTTGC TCAACGACTA 
    TATGGTTTGG AAGAGGGGCA GAAATACGCT GAGAAAATCG TCACAAGACA CAAGGAGATT 
    CTTGAATCTA TTACTGAATT ATGTGGGTCT CTCGTGGAAC TTAAAGAAAA ACTGATGCAG 
    GGAGATGTTC CAAAGGTGAA TTCAAATTTG GAAGATTTCC ACGGCAATTC CATTGATCTG 
    CTAAAGGAGC CAGGGAGGGA TGAGCAGACA ACATTCAGTG AAGAAAGGAG TGAGGGGCAG 
    GCGCAGGGAG CAGATGTGTC GGCCATCAAT GGAACAAGAG AAGATGGGCT TCCCGTGGGC 
    TTGAGGCAGT CCTTTGACAA AGAGGACAGT GCCCAGGGTC TGACCCTGCC AGAAGACACG 
    CTCTCCGGAG AAGACTCTGA GTGTATCTCC TCTGATGACA TTTCTTTGCC TCCACTGCCA 
    GTGACCCCCG AGTCCCCTCT GGCACCATCA GACATGGAGG TAGAAGAACC TGCCAGTTCT 
    TCAGCCCTCG CCCTGCATAT CAGCGGCTAC AGGATGCGTA CAGGGACAGG TGGTCTAGGG 
    AAGGCCCCGG AGTCTGTTCT GCCCCCACCC ACTGCTTTTA CTGATGGGTA CCATAATAAG 
    AAAGACACAT TTACAAGTCA TTTTGAGAGG CCCTATCCAC AGTTCAAAGC TGAACCCTTA 
    TTAACCTCCA GAGGGTCAGG AGAGATGAGT ACCAAGTTGC ACGTCAATGT GAAATGTCCA 
    GCGCGCATGC CCCGTGAAGT GCACGACAAA GCTTTGCCGC CAAGCTCCCA GGCTCAGGAG 
    ATCTCGCTAG GAACGCAGGA GAAAGTGCAT GCTGATTCTA ACGTCACTAA AACCCAAGAC 
    AGGCTGCATG CTGCCCTTGA TGTATCCCCT GGCCTCAGCT CTCAATCAGA CACCAGCAGA 
    AGCCATCAGA GGCAAGTGGG TCCCCAAGGA GACAGGAAAA ACTCATCAGC AGAAAAAAGC 
    GTGGTCAGCC TAGCTGGCCA GGCGCCTCAT TTCTCCAGGC TGCTGTCCAA TGTAACTGTC 
    ACGGAAGGTT CCCCGGTGAC TTTGGAAGTC GAAGTAACAG GATTCCCAGA GCCTACACTG 
    ACATGGTTCA AGAAGGGCCA GAAACTGTGT GCAGATGGAC ACTTACAGGT TTTGCACAAG 
    GACACAAAGC ATTCGGTGTT CATCCCGAAG GTATGTGAGG CAGATGCTGG CCTCTATGTG 
    GCTCAAGCCC AAAACTCTAG TGGCACCCTG TCTTCCAAAG CCATCCTCCA TGTGACAGGT 
    AACCATGGGC CACCAATTAC AAGAATAAAC TGGATTGTGC TGTGTATCAT CTATGTCAGC 
    GTATCAGTAA TATACTGGCT ACTTACACAG TAG

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

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