ORF » Species Summary » Selaginella moellendorffii » LOC9647328 cDNA ORF clone

LOC9647328 cDNA ORF clone, Selaginella moellendorffii

The following LOC9647328 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC9647328 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
OSb47132 XM_024685099.1
Latest version!		 Selaginella moellendorffii cilia- and flagella-associated protein 61 (LOC9647328), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OSb14556 XM_002980079.1
Latest version!		 Selaginella moellendorffii flagellar associated protein 61 (FAP61), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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)
    LOC9647328 ( XM_024685099.1 ) cDNA ORF clone, Selaginella moellendorffii -> XP_024540867.1 Selaginella moellendorffii cilia- and flagella-associated protein 61 (LOC9647328), mRNA.
    Price & Availability↑
    CloneID OSb47132
    Clone ID Related Accession (Same CDS sequence) XM_024685099.1
    Accession Version XM_024685099.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2727bp)
    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 1523376000000
    Organism Selaginella moellendorffii
    Product cilia- and flagella-associated protein 61
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003314304.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Selaginella moellendorffii 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
    ATGTCCCGCG ATGCTGATGC TCTTGCGGAG TTCTTGGCAG ATTTTAAGGA CTGCAAGAGC 
    ATTGTCGACT TGGTCGAGCA TCCACGAAAA GGATGCCATA CCATAGTCGC TGTGCTGTCT 
    GCTCAAATTG TTGGCTTGGC AATGATTGAG GAGACCGTTC CTGTGGAAGC TCTGACAACG 
    CAGTTTTGCG TCAAGTCCTT CATCAATCTG GAACATCACC CTCCAGCAAA CCAAGCGTGC 
    GTTACTCTTT TGGCACTGAG TCCAATTTTT CGTCATCGCA GAAGACTATT CCTGAGAGAG 
    ATCATGCGCC AGACAGAGAA AACGCTGCTC TACTGCCCCA TTTTTCCAGA CCAGGATCTT 
    CCCGACGTTA TTGAAGACAT GCTGCTAATT CCCGCAAGAC AACACGTTTA TATGAGCCCC 
    TCTCAGAAGT GGGGCAGACA TCCCGAGACT ATTGGACCGT CCAAAAGAGC CTTACGGCGA 
    GGGTCAGTTG CAAACTTCTC ACCAAGGGGA CTATTTTCCG GATTCGACTG TGCGCTTTAC 
    TTCACCACTC ACAGGCTTAC AAGCAGGCAC AGGATTCCTG TCAACTCGAA AATTTTAGTT 
    GCCGGTGCGT CGCGCACCGC GGAGGCTTTT CTTCACAAGC TCATTGCGAA TCCTCTGATG 
    CAGTTTACAA ACGTCACGTT GGTATCTCCG TGCGGTTTTA TGGGATTCTC GTCGTCAGCA 
    GCTTCCATTC TCGACGTAGA ATCAGGCCCG GCACGGTGCT TCAGTAAGCT CGGGATTGAT 
    TGCCAGGTCG GACTAAAGTC GTCTCTCGTG ACTGACTTCG ACAGAGAAGC GCAGACGATA 
    ACACTCAAGA ACGGGGAAGT TCTATCGTAT GATCTCTTCA TTATGACAAC CGGGATGCAA 
    GACCAGACGG GGTGCAAGCT TGGGATCAGT GCAGTGAAGG AAGTTATCCG GGCGGATGAG 
    TTCCTTGCGA GGCTGGACGT CATTACAGGG TCACTTGAGA AGCTTAAAGT CCCCCGCGAA 
    GTCCTTGTCG ACGGTGAAGG TCACGCAGTG GTTTACGGCT CCACTTTAGA AGCTTTCTAC 
    GTTATCCAGC TCTTGCTTTC CAGAGGACTG AGGGGATCGA ACATCGTACT GTGCCACGCT 
    GAGAAGAAGT TGACGAACAA GTACGTCCAC GGGGATGCAA ACATTTTGAG TTGTTTGCTG 
    GAGGAGCTGG CTTGGTGTCA AGTAGCTGTC AAGTCGGGTT TGAAGCTTGT TGGAGTCACT 
    ACGAACGAGT CCGGAAGTTT GAAGGCAGCG AAGTTTGAAG CTCAGGGTGA AGAAGAGGAC 
    GAGAAAATCC ACCACGAGCT CCCGTGTTGT CTCTTGGTGA CCTGCGAGCG GAAGCAAGTC 
    GACATCCCTC TTTTCAACGT GATGAGAAGG GAGAACATCA TATTTGATGG ACGTGTGATT 
    GTGGACGGAA AGTTTCAAAC GAATGACCCA CTCATTTATG CTGCTGGGAC TGCTTGCAAG 
    TTTAGCCGAA ACTGTGGAAA GCTGCCGAAG CTTGAGACTT TCTGTTCCCA AGAGGTTGGC 
    GAAGCTTTGG CAGCATCACT GATCTCCCGG TTCAACAGTC ATCTCCCAGA TGTAGGCAAG 
    CTATGGCTGA GCTATCTACC GTGGTTTCCT GAGAAAACGA AGGATTGCGG TGGCGGGAAG 
    AAGTGGCCTG CGCCAGTTAC GCCACTCTTG GGCCGACCGA AATGCACTGG TGGAATTCTC 
    CCTGGCGGCG TTCAGCTTTT CAGCATTGTG CTTCCCAGTT GTCACACTAC GAACTGGGAC 
    GACTTGCGGA TCTACTCCAT GCTAACCAAG TTCAGCAACT TCTACGCGAG AGTGGACATC 
    GCAGAGAACA AGCAGCTCGC CAGGATCCTC TACGCCGGGA AGGTGAAGGC AGACGCTTGG 
    AAATTCAGCC AAGTCGTCGG GCTTCCAGTG TCTCTTCTCA ACAGTCTTCC GAGAAGATAT 
    AGCGACGGAA GCTTGAATGA CATCATGAAC TTCCTCTTGC AACCGTGGTC ATCAGTGCTC 
    TTCCACGACG ATTTCCTCCC CTTCTACACA AACCTGACGC AGAACGTTGT TGACACAAGC 
    AAGAGCCACC CGAAAGGAGG GCCTGACGTC TCCTCGTTTG AGAGCTGCGA CAAGATCGAC 
    CCGGAGCTGG CGGAAGCAAT CTCCAGGCTG GTGAGAAAGG AACTCCTCAA GTTCATCGAG 
    AAGCATCGGC TGGAGCTACC GATGTACACT CTCCCGCGGA AGAAGGTGGA CCTGCGGCTG 
    CTGCTTCCTA GAGTTATTTC CTCGGACGAC GTAGAGGTGG TGGAGAAGAA GAAGCAGACG 
    GCCGCGGCGG TGGCAGCAGC TGCATCGGCA GCACTTGTCA CTGCCTCAGA CCTCATCAAC 
    ACCGCATTCG AGCAGCTGAT CCAGAAGGCC GAGACCGAGG AGCGGGACAA GAAGACGATC 
    AAAGAGATTG TTGGTCAGCT GGTGCAAGGG ATGGAGGAGC TCAAACCGGT GCTGCTCACG 
    CTCAGGGGAG AGGGATACAT TGGGCCGACT GTGGATCATC TTATCAAGGA GATCGATAAG 
    AAGGTACTGT CCATTTCCGT GTGGGACGAG AGCTTGGATC TGGAAGGCAG GGAAGACGAA 
    GAACAGATCA AACGAGCCAT TCAAGGGATG ATTGGGCTGT TAGAGCAGTC ATCTCCCGTC 
    ATGCTGGCTC TAGATCGAGT AGACTGA

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

    RefSeq XP_024540867.1
    CDS161..2887
    Translation

    Target ORF information:

    RefSeq Version XM_024685099.1
    Organism Selaginella moellendorffii
    Definition Selaginella moellendorffii cilia- and flagella-associated protein 61 (LOC9647328), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024685099.1

    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
    ATGTCCCGCG ATGCTGATGC TCTTGCGGAG TTCTTGGCAG ATTTTAAGGA CTGCAAGAGC 
    ATTGTCGACT TGGTCGAGCA TCCACGAAAA GGATGCCATA CCATAGTCGC TGTGCTGTCT 
    GCTCAAATTG TTGGCTTGGC AATGATTGAG GAGACCGTTC CTGTGGAAGC TCTGACAACG 
    CAGTTTTGCG TCAAGTCCTT CATCAATCTG GAACATCACC CTCCAGCAAA CCAAGCGTGC 
    GTTACTCTTT TGGCACTGAG TCCAATTTTT CGTCATCGCA GAAGACTATT CCTGAGAGAG 
    ATCATGCGCC AGACAGAGAA AACGCTGCTC TACTGCCCCA TTTTTCCAGA CCAGGATCTT 
    CCCGACGTTA TTGAAGACAT GCTGCTAATT CCCGCAAGAC AACACGTTTA TATGAGCCCC 
    TCTCAGAAGT GGGGCAGACA TCCCGAGACT ATTGGACCGT CCAAAAGAGC CTTACGGCGA 
    GGGTCAGTTG CAAACTTCTC ACCAAGGGGA CTATTTTCCG GATTCGACTG TGCGCTTTAC 
    TTCACCACTC ACAGGCTTAC AAGCAGGCAC AGGATTCCTG TCAACTCGAA AATTTTAGTT 
    GCCGGTGCGT CGCGCACCGC GGAGGCTTTT CTTCACAAGC TCATTGCGAA TCCTCTGATG 
    CAGTTTACAA ACGTCACGTT GGTATCTCCG TGCGGTTTTA TGGGATTCTC GTCGTCAGCA 
    GCTTCCATTC TCGACGTAGA ATCAGGCCCG GCACGGTGCT TCAGTAAGCT CGGGATTGAT 
    TGCCAGGTCG GACTAAAGTC GTCTCTCGTG ACTGACTTCG ACAGAGAAGC GCAGACGATA 
    ACACTCAAGA ACGGGGAAGT TCTATCGTAT GATCTCTTCA TTATGACAAC CGGGATGCAA 
    GACCAGACGG GGTGCAAGCT TGGGATCAGT GCAGTGAAGG AAGTTATCCG GGCGGATGAG 
    TTCCTTGCGA GGCTGGACGT CATTACAGGG TCACTTGAGA AGCTTAAAGT CCCCCGCGAA 
    GTCCTTGTCG ACGGTGAAGG TCACGCAGTG GTTTACGGCT CCACTTTAGA AGCTTTCTAC 
    GTTATCCAGC TCTTGCTTTC CAGAGGACTG AGGGGATCGA ACATCGTACT GTGCCACGCT 
    GAGAAGAAGT TGACGAACAA GTACGTCCAC GGGGATGCAA ACATTTTGAG TTGTTTGCTG 
    GAGGAGCTGG CTTGGTGTCA AGTAGCTGTC AAGTCGGGTT TGAAGCTTGT TGGAGTCACT 
    ACGAACGAGT CCGGAAGTTT GAAGGCAGCG AAGTTTGAAG CTCAGGGTGA AGAAGAGGAC 
    GAGAAAATCC ACCACGAGCT CCCGTGTTGT CTCTTGGTGA CCTGCGAGCG GAAGCAAGTC 
    GACATCCCTC TTTTCAACGT GATGAGAAGG GAGAACATCA TATTTGATGG ACGTGTGATT 
    GTGGACGGAA AGTTTCAAAC GAATGACCCA CTCATTTATG CTGCTGGGAC TGCTTGCAAG 
    TTTAGCCGAA ACTGTGGAAA GCTGCCGAAG CTTGAGACTT TCTGTTCCCA AGAGGTTGGC 
    GAAGCTTTGG CAGCATCACT GATCTCCCGG TTCAACAGTC ATCTCCCAGA TGTAGGCAAG 
    CTATGGCTGA GCTATCTACC GTGGTTTCCT GAGAAAACGA AGGATTGCGG TGGCGGGAAG 
    AAGTGGCCTG CGCCAGTTAC GCCACTCTTG GGCCGACCGA AATGCACTGG TGGAATTCTC 
    CCTGGCGGCG TTCAGCTTTT CAGCATTGTG CTTCCCAGTT GTCACACTAC GAACTGGGAC 
    GACTTGCGGA TCTACTCCAT GCTAACCAAG TTCAGCAACT TCTACGCGAG AGTGGACATC 
    GCAGAGAACA AGCAGCTCGC CAGGATCCTC TACGCCGGGA AGGTGAAGGC AGACGCTTGG 
    AAATTCAGCC AAGTCGTCGG GCTTCCAGTG TCTCTTCTCA ACAGTCTTCC GAGAAGATAT 
    AGCGACGGAA GCTTGAATGA CATCATGAAC TTCCTCTTGC AACCGTGGTC ATCAGTGCTC 
    TTCCACGACG ATTTCCTCCC CTTCTACACA AACCTGACGC AGAACGTTGT TGACACAAGC 
    AAGAGCCACC CGAAAGGAGG GCCTGACGTC TCCTCGTTTG AGAGCTGCGA CAAGATCGAC 
    CCGGAGCTGG CGGAAGCAAT CTCCAGGCTG GTGAGAAAGG AACTCCTCAA GTTCATCGAG 
    AAGCATCGGC TGGAGCTACC GATGTACACT CTCCCGCGGA AGAAGGTGGA CCTGCGGCTG 
    CTGCTTCCTA GAGTTATTTC CTCGGACGAC GTAGAGGTGG TGGAGAAGAA GAAGCAGACG 
    GCCGCGGCGG TGGCAGCAGC TGCATCGGCA GCACTTGTCA CTGCCTCAGA CCTCATCAAC 
    ACCGCATTCG AGCAGCTGAT CCAGAAGGCC GAGACCGAGG AGCGGGACAA GAAGACGATC 
    AAAGAGATTG TTGGTCAGCT GGTGCAAGGG ATGGAGGAGC TCAAACCGGT GCTGCTCACG 
    CTCAGGGGAG AGGGATACAT TGGGCCGACT GTGGATCATC TTATCAAGGA GATCGATAAG 
    AAGGTACTGT CCATTTCCGT GTGGGACGAG AGCTTGGATC TGGAAGGCAG GGAAGACGAA 
    GAACAGATCA AACGAGCCAT TCAAGGGATG ATTGGGCTGT TAGAGCAGTC ATCTCCCGTC 
    ATGCTGGCTC TAGATCGAGT AGACTGA

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

    LOC9647328 ( XM_002980079.1 ) cDNA ORF clone, Selaginella moellendorffii -> XP_002980125.1 Selaginella moellendorffii flagellar associated protein 61 (FAP61), partial mRNA.
    Price & Availability↑
    CloneID OSb14556
    Clone ID Related Accession (Same CDS sequence) XM_002980079.1
    Accession Version XM_002980079.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4236bp)
    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 1490112000000
    Organism Selaginella moellendorffii
    Product flagellar associated protein 61
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_003314304). ##Metadata-START## Organism Display Name :: Selaginella moellendorfii GOLD Stamp ID :: Gi00760 Genome size :: 212.5 Mb ##Metadata-END## COMPLETENESS: incomplete on both ends. 

    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
    ATGGAAGCGC TCAGCCTGTG CGGAGGATTC AAGCTCCGCC TGGCGGCCGC CGAGGATGCC 
    GATGCCGCCA CGGCCGCATT CCTGCCTCAG CGCGTGGCGC TTCAATCCAC ATTTGGAGCT 
    TTCGATTTCC ATTTCATCAT TGAGATGTCC ATCTACTCGT TTGTGGTGCT GAATGCCGAC 
    GACAAATTGG TGGCGTTTTG TTCTTTCAAC GACGCGCCAT CAGTTCCCGG GACTGTTGCA 
    ATGAGAAAAA TTCCTGACGC TAGAGCTTGG GCGAGGCAAG AAGCATCGGA TCTTGGATTC 
    CTGGCAAGTT TCTTACTCTC GCGAACGGAT AGCTTGTTAT GGATGGGGGT GTGTGCGATG 
    TGCTCGCTTA CTGAGGATGA AATGCAGCGT GCTTCATCAG CTTTTATGCG CGCTGTCTTT 
    ACCCTTTGTC CCGATATCCA AGCTGTTCTT CTTCCAAGCC CTGCGCAATA TCCAGTTTTT 
    CCCCAGTTAT TCAAGACGAT GTCACGGACT TCTGATTATG GGCTTCTCAT GTGTGCATGC 
    TTGCGAAGCA CAGTTCTTCC GACCATGAAA ATCAGAAGGG CTGTGGTTGA GGACAATGAT 
    GAGCTGCTTC CGGTCATTGA GCGGGCTCAG AAGAGGGGCT CGCCGTTGGC TCAAGTGCCT 
    GAAATCGCAA TTCCGTCTCA GCCTTACGCA GTTGCTAGAC TCATTGCTGC TCAAGATAAA 
    GACAATACCG TTTTTGTGGC CGAGGTGGAC GATAAGATCG TTGGACTGAT GGCCATCACT 
    GCTCTAATCA GCAATGACTA TTGCTTCAAT TTCAATACTG ATGACTATGA CGCGCTGACA 
    AAGAAGGTGA CGAGAAAATT CGAATTTACT GTCCAAGAGC CTGTGGCTGC TCAAAATTCT 
    TCGGCTGAAG CTACACCAGG GAGTACACCG TTAAGCACAC CAGCAAGCAC ACCAACTCCG 
    GAAGTGACAC AAAACCAAGC GGAGGCTCCT GCTGCTCCTT CTCCGGCCTC TTCGAATTCT 
    CCTGCTCCGT CTCCTTCTCC TGCTCCTTCT CCAGCTCCTG CTCCCCCATC TCCTTCTCCA 
    GTTCCTTCTC CAGTTCCGCA ACAGGTCACT CAGCAGGTTA CTGATATTGC TGAAATGAAG 
    GCTGAGGAAG CACCAAAATT TCGAGTCGTG GAAGTCGACG TTCCTGTGGA GATTACGAAC 
    GCGTTCCAAA TCAGCATGCT TTGCATCGAG GAAGAGTTTG AAAATCAGGG CATTGACTTC 
    GTTATGTCGG CTTTCGAGCT AGAGACTAGA GATTACTGTT TGGTGGGCTT TCCATACACC 
    AGTCGGATAC ATCCGTTGCT CCGACTGTTT GCGAGAGTAC CCTGCAGATC TTCAAGGAAA 
    ATTGAAAACG TCAAGCTGCC GGAAACTCGT ATGATGACGG ATCATCCCCC AGACCTGTCA 
    ATCGCTCATT TATGCCTATA TCTTCTTCAC CGTGATTCTT TGGCTCCTGG ATTTGAAGTC 
    CGACATACTA TGTCCCGCGA TGCTGATGCT CTTGCGGAGT TCTTGGCAGA TTTTAAGGAC 
    TGCAAGAGCA TTGTCGACTT GGTCGAGCAT CCACGAAAAG GATGCCATAC CATAGTCGCT 
    GTGCTGTCTG CTCAAATTGT TGGCTTGGCA ATGATTGAGG AGACCGTTCC TGTGGAAGCT 
    CTGACAACGC AGTTTTGCGT CAAGTCCTTC ATCAATCTGG AACATCACCC TCCAGCAAAC 
    CAAGCGTGCG TTACTCTTTT GGCACTGAGT CCAATTTTTC GTCATCGCAG AAGACTATTC 
    CTGAGAGAGA TCATGCGCCA GACAGAGAAA ACGCTGCTCT ACTGCCCCAT TTTTCCAGAC 
    CAGGATCTTC CCGACGTTAT TGAAGACATG CTGCTAATTC CCGCAAGACA ACACGTTTAT 
    ATGAGCCCCT CTCAGAAGTG GGGCAGACAT CCCGAGACTA TTGGACCGTC CAAAAGAGCC 
    TTACGGCGAG GGTCAGTTGC AAACTTCTCA CCAAGGGGAC TATTTTCCGG ATTCGACTGT 
    GCGCTTTACT TCACCACTCA CAGGCTTACA AGCAGGCACA GGATTCCTGT CAACTCGAAA 
    ATTTTAGTTG CCGGTGCGTC GCGCACCGCG GAGGCTTTTC TTCACAAGCT CATTGCGAAT 
    CCTCTGATGC AGTTTACAAA CGTCACGTTG GTATCTCCGT GCGGTTTTAT GGGATTCTCG 
    TCGTCAGCAG CTTCCATTCT CGACGTAGAA TCAGGCCCGG CACGGTGCTT CAGTAAGCTC 
    GGGATTGATT GCCAGGTCGG ACTAAAGTCG TCTCTCGTGA CTGACTTCGA CAGAGAAGCG 
    CAGACGATAA CACTCAAGAA CGGGGAAGTT CTATCGTATG ATCTCTTCAT TATGACAACC 
    GGGATGCAAG ACCAGACGGG GTGCAAGCTT GGGATCAGTG CAGTGAAGGA AGTTATCCGG 
    GCGGATGAGT TCCTTGCGAG GCTGGACGTC ATTACAGGGT CACTTGAGAA GCTTAAAGTC 
    CCCCGCGAAG TCCTTGTCGA CGGTGAAGGT CACGCAGTGG TTTACGGCTC CACTTTAGAA 
    GCTTTCTACG TTATCCAGCT CTTGCTTTCC AGAGGACTGA GGGGATCGAA CATCGTACTG 
    TGCCACGCTG AGAAGAAGTT GACGAACAAG TACGTCCACG GGGATGCAAA CATTTTGAGT 
    TGTTTGCTGG AGGAGCTGGC TTGGTGTCAA GTAGCTGTCA AGTCGGGTTT GAAGCTTGTT 
    GGAGTCACTA CGAACGAGTC CGGAAGTTTG AAGGCAGCGA AGTTTGAAGC TCAGGGTGAA 
    GAAGAGGACG AGAAAATCCA CCACGAGCTC CCGTGTTGTC TCTTGGTGAC CTGCGAGCGG 
    AAGCAAGTCG ACATCCCTCT TTTCAACGTG ATGAGAAGGG AGAACATCAT ATTTGATGGA 
    CGTGTGATTG TGGACGGAAA GTTTCAAACG AATGACCCAC TCATTTATGC TGCTGGGACT 
    GCTTGCAAGT TTAGCCGAAA CTGTGGAAAG CTGCCGAAGC TTGAGACTTT CTGTTCCCAA 
    GAGGTTGGCG AAGCTTTGGC AGCATCACTG ATCTCCCGGT TCAACAGTCA TCTCCCAGAT 
    GTAGGCAAGC TATGGCTGAG CTATCTACCG TGGTTTCCTG AGAAAACGAA GGATTGCGGT 
    GGCGGGAAGA AGTGGCCTGC GCCAGTTACG CCACTCTTGG GCCGACCGAA ATGCACTGGT 
    GGAATTCTCC CTGGCGGCGT TCAGCTTTTC AGCATTGTGC TTCCCAGTTG TCACACTACG 
    AACTGGGACG ACTTGCGGAT CTACTCCATG CTAACCAAGT TCAGCAACTT CTACGCGAGA 
    GTGGACATCG CAGAGAACAA GCAGCTCGCC AGGATCCTCT ACGCCGGGAA GGTGAAGGCA 
    GACGCTTGGA AATTCAGCCA AGTCGTCGGG CTTCCAGTGT CTCTTCTCAA CAGTCTTCCG 
    AGAAGATATA GCGACGGAAG CTTGAATGAC ATCATGAACT TCCTCTTGCA ACCGTGGTCA 
    TCAGTGCTCT TCCACGACGA TTTCCTCCCC TTCTACACAA ACCTGACGCA GAACGTTGTT 
    GACACAAGCA AGAGCCACCC GAAAGGAGGG CCTGACGTCT CCTCGTTTGA GAGCTGCGAC 
    AAGATCGACC CGGAGCTGGC GGAAGCAATC TCCAGGCTGG TGAGAAAGGA ACTCCTCAAG 
    TTCATCGAGA AGCATCGGCT GGAGCTACCG ATGTACACTC TCCCGCGGAA GAAGGTGGAC 
    CTGCGGCTGC TGCTTCCTAG AGTTATTTCC TCGGACGACG TAGAGGTGGT GGAGAAGAAG 
    AAGCAGACGG CCGCGGCGGT GGCAGCAGCT GCATCGGCAG CACTTGTCAC TGCCTCAGAC 
    CTCATCAACA CCGCATTCGA GCAGCTGATC CAGAAGGCCG AGACCGAGGA GCGGGACAAG 
    AAGACGATCA AAGAGATTGT TGGTCAGCTG GTGCAAGGGA TGGAGGAGCT CAAACCGGTG 
    CTGCTCACGC TCAGGGGAGA GGGATACATT GGGCCGACTG TGGATCATCT TATCAAGGAG 
    ATCGATAAGA AGGTACTGTC CATTTCCGTG TGGGACGAGA GCTTGGATCT GGAAGGCAGG 
    GAAGACGAAG AACAGATCAA ACGAGCCATT CAAGGGATGA TTGGGCTGTT AGAGCAGTCA 
    TCTCCCGTCA TGCTGGCTCT AGATCGAGTA GACTGA

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

    RefSeq XP_002980125.1
    CDS1..4236
    Translation

    Target ORF information:

    RefSeq Version XM_002980079.1
    Organism Selaginella moellendorffii
    Definition Selaginella moellendorffii flagellar associated protein 61 (FAP61), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002980079.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGAAGCGC TCAGCCTGTG CGGAGGATTC AAGCTCCGCC TGGCGGCCGC CGAGGATGCC 
    GATGCCGCCA CGGCCGCATT CCTGCCTCAG CGCGTGGCGC TTCAATCCAC ATTTGGAGCT 
    TTCGATTTCC ATTTCATCAT TGAGATGTCC ATCTACTCGT TTGTGGTGCT GAATGCCGAC 
    GACAAATTGG TGGCGTTTTG TTCTTTCAAC GACGCGCCAT CAGTTCCCGG GACTGTTGCA 
    ATGAGAAAAA TTCCTGACGC TAGAGCTTGG GCGAGGCAAG AAGCATCGGA TCTTGGATTC 
    CTGGCAAGTT TCTTACTCTC GCGAACGGAT AGCTTGTTAT GGATGGGGGT GTGTGCGATG 
    TGCTCGCTTA CTGAGGATGA AATGCAGCGT GCTTCATCAG CTTTTATGCG CGCTGTCTTT 
    ACCCTTTGTC CCGATATCCA AGCTGTTCTT CTTCCAAGCC CTGCGCAATA TCCAGTTTTT 
    CCCCAGTTAT TCAAGACGAT GTCACGGACT TCTGATTATG GGCTTCTCAT GTGTGCATGC 
    TTGCGAAGCA CAGTTCTTCC GACCATGAAA ATCAGAAGGG CTGTGGTTGA GGACAATGAT 
    GAGCTGCTTC CGGTCATTGA GCGGGCTCAG AAGAGGGGCT CGCCGTTGGC TCAAGTGCCT 
    GAAATCGCAA TTCCGTCTCA GCCTTACGCA GTTGCTAGAC TCATTGCTGC TCAAGATAAA 
    GACAATACCG TTTTTGTGGC CGAGGTGGAC GATAAGATCG TTGGACTGAT GGCCATCACT 
    GCTCTAATCA GCAATGACTA TTGCTTCAAT TTCAATACTG ATGACTATGA CGCGCTGACA 
    AAGAAGGTGA CGAGAAAATT CGAATTTACT GTCCAAGAGC CTGTGGCTGC TCAAAATTCT 
    TCGGCTGAAG CTACACCAGG GAGTACACCG TTAAGCACAC CAGCAAGCAC ACCAACTCCG 
    GAAGTGACAC AAAACCAAGC GGAGGCTCCT GCTGCTCCTT CTCCGGCCTC TTCGAATTCT 
    CCTGCTCCGT CTCCTTCTCC TGCTCCTTCT CCAGCTCCTG CTCCCCCATC TCCTTCTCCA 
    GTTCCTTCTC CAGTTCCGCA ACAGGTCACT CAGCAGGTTA CTGATATTGC TGAAATGAAG 
    GCTGAGGAAG CACCAAAATT TCGAGTCGTG GAAGTCGACG TTCCTGTGGA GATTACGAAC 
    GCGTTCCAAA TCAGCATGCT TTGCATCGAG GAAGAGTTTG AAAATCAGGG CATTGACTTC 
    GTTATGTCGG CTTTCGAGCT AGAGACTAGA GATTACTGTT TGGTGGGCTT TCCATACACC 
    AGTCGGATAC ATCCGTTGCT CCGACTGTTT GCGAGAGTAC CCTGCAGATC TTCAAGGAAA 
    ATTGAAAACG TCAAGCTGCC GGAAACTCGT ATGATGACGG ATCATCCCCC AGACCTGTCA 
    ATCGCTCATT TATGCCTATA TCTTCTTCAC CGTGATTCTT TGGCTCCTGG ATTTGAAGTC 
    CGACATACTA TGTCCCGCGA TGCTGATGCT CTTGCGGAGT TCTTGGCAGA TTTTAAGGAC 
    TGCAAGAGCA TTGTCGACTT GGTCGAGCAT CCACGAAAAG GATGCCATAC CATAGTCGCT 
    GTGCTGTCTG CTCAAATTGT TGGCTTGGCA ATGATTGAGG AGACCGTTCC TGTGGAAGCT 
    CTGACAACGC AGTTTTGCGT CAAGTCCTTC ATCAATCTGG AACATCACCC TCCAGCAAAC 
    CAAGCGTGCG TTACTCTTTT GGCACTGAGT CCAATTTTTC GTCATCGCAG AAGACTATTC 
    CTGAGAGAGA TCATGCGCCA GACAGAGAAA ACGCTGCTCT ACTGCCCCAT TTTTCCAGAC 
    CAGGATCTTC CCGACGTTAT TGAAGACATG CTGCTAATTC CCGCAAGACA ACACGTTTAT 
    ATGAGCCCCT CTCAGAAGTG GGGCAGACAT CCCGAGACTA TTGGACCGTC CAAAAGAGCC 
    TTACGGCGAG GGTCAGTTGC AAACTTCTCA CCAAGGGGAC TATTTTCCGG ATTCGACTGT 
    GCGCTTTACT TCACCACTCA CAGGCTTACA AGCAGGCACA GGATTCCTGT CAACTCGAAA 
    ATTTTAGTTG CCGGTGCGTC GCGCACCGCG GAGGCTTTTC TTCACAAGCT CATTGCGAAT 
    CCTCTGATGC AGTTTACAAA CGTCACGTTG GTATCTCCGT GCGGTTTTAT GGGATTCTCG 
    TCGTCAGCAG CTTCCATTCT CGACGTAGAA TCAGGCCCGG CACGGTGCTT CAGTAAGCTC 
    GGGATTGATT GCCAGGTCGG ACTAAAGTCG TCTCTCGTGA CTGACTTCGA CAGAGAAGCG 
    CAGACGATAA CACTCAAGAA CGGGGAAGTT CTATCGTATG ATCTCTTCAT TATGACAACC 
    GGGATGCAAG ACCAGACGGG GTGCAAGCTT GGGATCAGTG CAGTGAAGGA AGTTATCCGG 
    GCGGATGAGT TCCTTGCGAG GCTGGACGTC ATTACAGGGT CACTTGAGAA GCTTAAAGTC 
    CCCCGCGAAG TCCTTGTCGA CGGTGAAGGT CACGCAGTGG TTTACGGCTC CACTTTAGAA 
    GCTTTCTACG TTATCCAGCT CTTGCTTTCC AGAGGACTGA GGGGATCGAA CATCGTACTG 
    TGCCACGCTG AGAAGAAGTT GACGAACAAG TACGTCCACG GGGATGCAAA CATTTTGAGT 
    TGTTTGCTGG AGGAGCTGGC TTGGTGTCAA GTAGCTGTCA AGTCGGGTTT GAAGCTTGTT 
    GGAGTCACTA CGAACGAGTC CGGAAGTTTG AAGGCAGCGA AGTTTGAAGC TCAGGGTGAA 
    GAAGAGGACG AGAAAATCCA CCACGAGCTC CCGTGTTGTC TCTTGGTGAC CTGCGAGCGG 
    AAGCAAGTCG ACATCCCTCT TTTCAACGTG ATGAGAAGGG AGAACATCAT ATTTGATGGA 
    CGTGTGATTG TGGACGGAAA GTTTCAAACG AATGACCCAC TCATTTATGC TGCTGGGACT 
    GCTTGCAAGT TTAGCCGAAA CTGTGGAAAG CTGCCGAAGC TTGAGACTTT CTGTTCCCAA 
    GAGGTTGGCG AAGCTTTGGC AGCATCACTG ATCTCCCGGT TCAACAGTCA TCTCCCAGAT 
    GTAGGCAAGC TATGGCTGAG CTATCTACCG TGGTTTCCTG AGAAAACGAA GGATTGCGGT 
    GGCGGGAAGA AGTGGCCTGC GCCAGTTACG CCACTCTTGG GCCGACCGAA ATGCACTGGT 
    GGAATTCTCC CTGGCGGCGT TCAGCTTTTC AGCATTGTGC TTCCCAGTTG TCACACTACG 
    AACTGGGACG ACTTGCGGAT CTACTCCATG CTAACCAAGT TCAGCAACTT CTACGCGAGA 
    GTGGACATCG CAGAGAACAA GCAGCTCGCC AGGATCCTCT ACGCCGGGAA GGTGAAGGCA 
    GACGCTTGGA AATTCAGCCA AGTCGTCGGG CTTCCAGTGT CTCTTCTCAA CAGTCTTCCG 
    AGAAGATATA GCGACGGAAG CTTGAATGAC ATCATGAACT TCCTCTTGCA ACCGTGGTCA 
    TCAGTGCTCT TCCACGACGA TTTCCTCCCC TTCTACACAA ACCTGACGCA GAACGTTGTT 
    GACACAAGCA AGAGCCACCC GAAAGGAGGG CCTGACGTCT CCTCGTTTGA GAGCTGCGAC 
    AAGATCGACC CGGAGCTGGC GGAAGCAATC TCCAGGCTGG TGAGAAAGGA ACTCCTCAAG 
    TTCATCGAGA AGCATCGGCT GGAGCTACCG ATGTACACTC TCCCGCGGAA GAAGGTGGAC 
    CTGCGGCTGC TGCTTCCTAG AGTTATTTCC TCGGACGACG TAGAGGTGGT GGAGAAGAAG 
    AAGCAGACGG CCGCGGCGGT GGCAGCAGCT GCATCGGCAG CACTTGTCAC TGCCTCAGAC 
    CTCATCAACA CCGCATTCGA GCAGCTGATC CAGAAGGCCG AGACCGAGGA GCGGGACAAG 
    AAGACGATCA AAGAGATTGT TGGTCAGCTG GTGCAAGGGA TGGAGGAGCT CAAACCGGTG 
    CTGCTCACGC TCAGGGGAGA GGGATACATT GGGCCGACTG TGGATCATCT TATCAAGGAG 
    ATCGATAAGA AGGTACTGTC CATTTCCGTG TGGGACGAGA GCTTGGATCT GGAAGGCAGG 
    GAAGACGAAG AACAGATCAA ACGAGCCATT CAAGGGATGA TTGGGCTGTT AGAGCAGTCA 
    TCTCCCGTCA TGCTGGCTCT AGATCGAGTA GACTGA

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

  • PubMed

    The Selaginella genome identifies genetic changes associated with the evolution of vascular plants.
    Science (New York, N.Y.)332(6032)960-3(2011 May)
    Banks JA,Nishiyama T,Hasebe M,Bowman JL,Gribskov M,dePamphilis C,Albert VA,Aono N,Aoyama T,Ambrose BA,Ashton NW,Axtell MJ,Barker E,Barker MS,Bennetzen JL,Bonawitz ND,Chapple C,Cheng C,Correa LG,Dacre M,DeBarry J,Dreyer I,Elias M,Engstrom EM,Estelle M,Feng L,Finet C,Floyd SK,Frommer WB,Fujita T,Gramzow L,Gutensohn M,Harholt J,Hattori M,Heyl A,Hirai T,Hiwatashi Y,Ishikawa M,Iwata M,Karol KG,Koehler B,Kolukisaoglu U,Kubo M,Kurata T,Lalonde S,Li K,Li Y,Litt A,Lyons E,Manning G,Maruyama T,Michael TP,Mikami K,Miyazaki S,Morinaga S,Murata T,Mueller-Roeber B,Nelson DR,Obara M,Oguri Y,Olmstead RG,Onodera N,Petersen BL,Pils B,Prigge M,Rensing SA,Riaño-Pachón DM,Roberts AW,Sato Y,Scheller HV,Schulz B,Schulz C,Shakirov EV,Shibagaki N,Shinohara N,Shippen DE,Sørensen I,Sotooka R,Sugimoto N,Sugita M,Sumikawa N,Tanurdzic M,Theissen G,Ulvskov P,Wakazuki S,Weng JK,Willats WW,Wipf D,Wolf PG,Yang L,Zimmer AD,Zhu Q,Mitros T,Hellsten U,Loqué D,Otillar R,Salamov A,Schmutz J,Shapiro H,Lindquist E,Lucas S,Rokhsar D,Grigoriev IV


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