ORF » Species Summary » Selaginella moellendorffii » LOC9652675 cDNA ORF clone

LOC9652675 cDNA ORF clone, Selaginella moellendorffii

The following LOC9652675 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC9652675 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
OSb18729 XM_002993133.1
Latest version!		 Selaginella moellendorffii XLG1, extra-large G protein (XLG1-2), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
OSb59798 XM_024666818.1
Latest version!		 Selaginella moellendorffii extra-large guanine nucleotide-binding protein 3 (LOC9652675), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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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)
    LOC9652675 ( XM_002993133.1 ) cDNA ORF clone, Selaginella moellendorffii -> XP_002993179.1 Selaginella moellendorffii XLG1, extra-large G protein (XLG1-2), partial mRNA.
    Price & Availability↑
    CloneID OSb18729
    Clone ID Related Accession (Same CDS sequence) XM_002993133.1
    Accession Version XM_002993133.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2739bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-03-22
    Organism Selaginella moellendorffii
    Product XLG1, extra-large G protein
    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_003314410). ##Metadata-START## Organism Display Name :: Selaginella moellendorfii GOLD Stamp ID :: Gi00760 Genome size :: 212.5 Mb ##Metadata-END## COMPLETENESS: incomplete on the 5' 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
    ATGGAGCCGC AGCCTCTAGA CCCGCCGGAC ATCTCACTGG AGAATCTCTT GAGGCCCATG 
    CTGCCGCCGG GAGCGCCTAT TCCAGACTAC GATCAGCTCG ATTATTCATT CGCAATGGAG 
    TACTCGGGAC ATGTAGGTGA TCATCCGGTT CCCAGGGCTG ATCCACTGGT TGGATCTCGG 
    GATAGTTCCA GCCAGGTGGA TTCGTCGTCG GTTTCCAAGA CGCCAAGGCC CAAGCCGTCT 
    GCGCTACACA TAGATACCAG GAAACGAGCT CATTTGGCAG CAGAGAAGCT GATAAGCGAG 
    TCGGGGTCAG CAAGATCACC TATCACAGGA CTGGTAGAGA AGGACAGCTC GTCTACCACA 
    GGAAGAAGTC CTTTGTCCAA CAGTGGGACA AGAGGAAAGG CTGCCTCTAA AGAGAAGGAG 
    GCCGGCTCGA GTTCCCCGGA TTCAAGGCTA GCGTACTCCG GATTGAACTC CCTGTCGCGG 
    AAATCCTCCT CCTCGGAGAT TGAAGAGCTG AACGTCCAGT TTTCCGCGGC AGTGTCAGCT 
    GCGGCCTCTG CACTGCCTTC TCCGTCGGCT TTAAGATCCG TGTCGCTCAG TGAGAACCAC 
    AACTTGGAAA ACTCGGACTT CCATTCCACT CCGCGGTCCA TTTCGATGCC AGAGAGGGAT 
    AGAGCTGACG GATCTTCGAG GCCTGGCTCG CCATCTGGTG TTACTGCGGT GGAGCCAGTG 
    GTGGTGGTGA CGAAAAAGCG TGAATGCCAT CGGTGTCTTA AAAAACACAT GTTACAGGAG 
    AAAGAGACGT GCCTCGTCTG CACTGCGAGG TACTGTCGGA ACTGCGTCCT TATTGCAATG 
    GGCTCCATGC CGGAGGGGCG GAAGTGCTTA CGGTGCATTG GCCTGCCTAT TCATGAATCA 
    CGACGACCGT ATCTTGGGAA GCCGTCCAGG CTGCTCAAAA GCATTCTGAG TCCCTTGGAG 
    ATCCAGCAGA TCATGCGCAC AGAGAAGGAT TGTTTGGCCA ATCAACTACG TCCCGAGCAG 
    CTTATTGTGA ACGGCAGGGC CCTCGCTGCG CCGGAGATGT CCGAGCTATT GAGCTGCAGC 
    AATCCTCCTC CAAAACTTAA GCCCGGCAAA TACTGGTACG ACAAAACCTC TGGACTGTGG 
    GGAAAGGAAG GTGAAAAGCC AAGCAAGATC GTCACTGCAG AGTTGAAAGT TGGTGGCAAC 
    CTTAAGCCGG ATGCAAGCCT TGGTACAACG GAGGTCTATA TAAATTGTCG TCAGATCACC 
    AAGTCTGAAT TAAAAATGTT GAAGTTGGCA GGAGTGCAGT GTCCTCCGAG TACTTACCTT 
    TTTCTATCAC CCGATGGATC GTATATGGAA GAAGGACAGA ACAACTATAA AGGAAACATA 
    TGGGAGAAGG CTTCCATAAG AGTGATGTAT TCTCTGTTCT CATTGCCGAC GCCTCGTGGA 
    AGTGTACGTG CCAACAAACC AAGTGCTCGT GAGCTTTCGG CTAGGTACCC TCCCGCCATT 
    TTGGAGCATA AGAATGTGAG CAAGCTGCTT TTACTGGGTC ACGAGGGCTC TGGCAGGAGT 
    ACAATCTTCA AGCAGGCCAA GTTTCTCTAC AGAGGTGGTT TCGAGCAGAA GGAACTTGAG 
    AGATACAAGG AAATGATTCA AACGTACATC TACAAGTATC TTGTTATATT GTTAGAAGGT 
    CGCGAGCGTT TTGAAGATGA AGAAGGTGAT GCTTTGTTGA AGATCAAATG TGATCCTCCT 
    GCGACAGGCG AAACCTCAAA GAATATGTAT TCGATGGATA CGCGGTTGAA GAATCTAGCG 
    GACTGGTTCC TTGACATTAC AGCTGATGGA TCTTTGGAAA GGTACTTTCC TGCTGCTACA 
    CGAGAGTACG CAGCATCTGT GGAAGAGCTT TGGCGCGATC CTGCTATTCA AGCTACATTC 
    AAGAGGAAGG AGGAACTTCA TAAGCTACCT GATGTTGCCG GAGAATTCCT AGAAAGGGTC 
    GTGGAGCTCT CAAGCAATGA GTACGAGCCT GTGGATCACG ATATCTTATA TGCAGAAGGC 
    TTGACCCAAG GTTCCGGACT TGCAGAGATA GAATTTGGTT TACCCGATCG GGAGCAGACT 
    TCAGGTGCAA TGCATGACAC AGTGGATTAC TCTCCTACGG GAAGGTACCA GCTTATACGA 
    GTGGGTGGTA TCGGTCTTAA AGAAGGAAAG AAATGGCTGG GAATGTTCGA GGACGTTCGA 
    GCGGTTGTCT TTACTGTGGC ACTCAGCGAA TTCGATCAAT TATGGATAGA CAGCGATGGC 
    GTTGCCCGAA ACAAACTTCT TATAAGCAAG GAGCTTTTTC AGGACATTGT GGCACGCCCC 
    TGCTTCAAGG GAACCCCCTT CATTCTCTTT CTCAACAAGT ACGACAAGTT TGAAGAGAAG 
    ATCATGAAAG GCGTTCCACT CACGACGTGT GACTGGTTTT CCGACTTCAG CCCCGTTGGT 
    GTTCCTCACT CTACCCAAGC TCAACAGGCC TACACATACG TTGTCCACAA GTTCAAGAAG 
    CTCGTCGGTG ACCGCAAGCT CTACACCTTC CAGCTGAACG CTCTCGAGCG GAACTTGGTG 
    GCCTCGGCAT TCCAGTACGT GAAACACATA CTCAAGCACG AAGAGAGCAA GGCGGCCGGC 
    TGGATGGCAC TCCCAGAGGA CTCTTCCTAT TGCACAGACT TGAGCTCATA CTCGCTGCAT 
    TCCGCGAGGC AAGAGAATGG CAACTCCTGG GACAGGTGA

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

    RefSeq XP_002993179.1
    CDS1..2739
    Translation

    Target ORF information:

    RefSeq Version XM_002993133.1
    Organism Selaginella moellendorffii
    Definition Selaginella moellendorffii XLG1, extra-large G protein (XLG1-2), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002993133.1

    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
    ATGGAGCCGC AGCCTCTAGA CCCGCCGGAC ATCTCACTGG AGAATCTCTT GAGGCCCATG 
    CTGCCGCCGG GAGCGCCTAT TCCAGACTAC GATCAGCTCG ATTATTCATT CGCAATGGAG 
    TACTCGGGAC ATGTAGGTGA TCATCCGGTT CCCAGGGCTG ATCCACTGGT TGGATCTCGG 
    GATAGTTCCA GCCAGGTGGA TTCGTCGTCG GTTTCCAAGA CGCCAAGGCC CAAGCCGTCT 
    GCGCTACACA TAGATACCAG GAAACGAGCT CATTTGGCAG CAGAGAAGCT GATAAGCGAG 
    TCGGGGTCAG CAAGATCACC TATCACAGGA CTGGTAGAGA AGGACAGCTC GTCTACCACA 
    GGAAGAAGTC CTTTGTCCAA CAGTGGGACA AGAGGAAAGG CTGCCTCTAA AGAGAAGGAG 
    GCCGGCTCGA GTTCCCCGGA TTCAAGGCTA GCGTACTCCG GATTGAACTC CCTGTCGCGG 
    AAATCCTCCT CCTCGGAGAT TGAAGAGCTG AACGTCCAGT TTTCCGCGGC AGTGTCAGCT 
    GCGGCCTCTG CACTGCCTTC TCCGTCGGCT TTAAGATCCG TGTCGCTCAG TGAGAACCAC 
    AACTTGGAAA ACTCGGACTT CCATTCCACT CCGCGGTCCA TTTCGATGCC AGAGAGGGAT 
    AGAGCTGACG GATCTTCGAG GCCTGGCTCG CCATCTGGTG TTACTGCGGT GGAGCCAGTG 
    GTGGTGGTGA CGAAAAAGCG TGAATGCCAT CGGTGTCTTA AAAAACACAT GTTACAGGAG 
    AAAGAGACGT GCCTCGTCTG CACTGCGAGG TACTGTCGGA ACTGCGTCCT TATTGCAATG 
    GGCTCCATGC CGGAGGGGCG GAAGTGCTTA CGGTGCATTG GCCTGCCTAT TCATGAATCA 
    CGACGACCGT ATCTTGGGAA GCCGTCCAGG CTGCTCAAAA GCATTCTGAG TCCCTTGGAG 
    ATCCAGCAGA TCATGCGCAC AGAGAAGGAT TGTTTGGCCA ATCAACTACG TCCCGAGCAG 
    CTTATTGTGA ACGGCAGGGC CCTCGCTGCG CCGGAGATGT CCGAGCTATT GAGCTGCAGC 
    AATCCTCCTC CAAAACTTAA GCCCGGCAAA TACTGGTACG ACAAAACCTC TGGACTGTGG 
    GGAAAGGAAG GTGAAAAGCC AAGCAAGATC GTCACTGCAG AGTTGAAAGT TGGTGGCAAC 
    CTTAAGCCGG ATGCAAGCCT TGGTACAACG GAGGTCTATA TAAATTGTCG TCAGATCACC 
    AAGTCTGAAT TAAAAATGTT GAAGTTGGCA GGAGTGCAGT GTCCTCCGAG TACTTACCTT 
    TTTCTATCAC CCGATGGATC GTATATGGAA GAAGGACAGA ACAACTATAA AGGAAACATA 
    TGGGAGAAGG CTTCCATAAG AGTGATGTAT TCTCTGTTCT CATTGCCGAC GCCTCGTGGA 
    AGTGTACGTG CCAACAAACC AAGTGCTCGT GAGCTTTCGG CTAGGTACCC TCCCGCCATT 
    TTGGAGCATA AGAATGTGAG CAAGCTGCTT TTACTGGGTC ACGAGGGCTC TGGCAGGAGT 
    ACAATCTTCA AGCAGGCCAA GTTTCTCTAC AGAGGTGGTT TCGAGCAGAA GGAACTTGAG 
    AGATACAAGG AAATGATTCA AACGTACATC TACAAGTATC TTGTTATATT GTTAGAAGGT 
    CGCGAGCGTT TTGAAGATGA AGAAGGTGAT GCTTTGTTGA AGATCAAATG TGATCCTCCT 
    GCGACAGGCG AAACCTCAAA GAATATGTAT TCGATGGATA CGCGGTTGAA GAATCTAGCG 
    GACTGGTTCC TTGACATTAC AGCTGATGGA TCTTTGGAAA GGTACTTTCC TGCTGCTACA 
    CGAGAGTACG CAGCATCTGT GGAAGAGCTT TGGCGCGATC CTGCTATTCA AGCTACATTC 
    AAGAGGAAGG AGGAACTTCA TAAGCTACCT GATGTTGCCG GAGAATTCCT AGAAAGGGTC 
    GTGGAGCTCT CAAGCAATGA GTACGAGCCT GTGGATCACG ATATCTTATA TGCAGAAGGC 
    TTGACCCAAG GTTCCGGACT TGCAGAGATA GAATTTGGTT TACCCGATCG GGAGCAGACT 
    TCAGGTGCAA TGCATGACAC AGTGGATTAC TCTCCTACGG GAAGGTACCA GCTTATACGA 
    GTGGGTGGTA TCGGTCTTAA AGAAGGAAAG AAATGGCTGG GAATGTTCGA GGACGTTCGA 
    GCGGTTGTCT TTACTGTGGC ACTCAGCGAA TTCGATCAAT TATGGATAGA CAGCGATGGC 
    GTTGCCCGAA ACAAACTTCT TATAAGCAAG GAGCTTTTTC AGGACATTGT GGCACGCCCC 
    TGCTTCAAGG GAACCCCCTT CATTCTCTTT CTCAACAAGT ACGACAAGTT TGAAGAGAAG 
    ATCATGAAAG GCGTTCCACT CACGACGTGT GACTGGTTTT CCGACTTCAG CCCCGTTGGT 
    GTTCCTCACT CTACCCAAGC TCAACAGGCC TACACATACG TTGTCCACAA GTTCAAGAAG 
    CTCGTCGGTG ACCGCAAGCT CTACACCTTC CAGCTGAACG CTCTCGAGCG GAACTTGGTG 
    GCCTCGGCAT TCCAGTACGT GAAACACATA CTCAAGCACG AAGAGAGCAA GGCGGCCGGC 
    TGGATGGCAC TCCCAGAGGA CTCTTCCTAT TGCACAGACT TGAGCTCATA CTCGCTGCAT 
    TCCGCGAGGC AAGAGAATGG CAACTCCTGG GACAGGTGA

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

    LOC9652675 ( XM_024666818.1 ) cDNA ORF clone, Selaginella moellendorffii -> XP_024522586.1 Selaginella moellendorffii extra-large guanine nucleotide-binding protein 3 (LOC9652675), mRNA.
    Price & Availability↑
    CloneID OSb59798
    Clone ID Related Accession (Same CDS sequence) XM_024666818.1
    Accession Version XM_024666818.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3402bp)
    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 2018-04-11
    Organism Selaginella moellendorffii
    Product extra-large guanine nucleotide-binding protein 3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003314410.1) 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 :: 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
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    ATGGGATCTC CCCCGACGAG ATCACCTTCA CGAGCGTGCT CCACGCGTGT GGGCACCTCG 
    GCCTGCTCGA TCGCGCGCGC GATTTCTTCT CCAGTATCGG ACACGACCAC TGCCTGGTGC 
    CGATCCGCGA GCACTACTGC TGCCTGGTGG ATTTGCTGGG GCGATTGGGG CGGCTGCGCG 
    ACGCCGAGGA TCTCGTCCAG GGCATGCCAT TCCCGGCGAG TCACAACGAT TGGACGAGCC 
    TGCTCAACGC CTACATCGTT CACGATGAGA TGGATCAGGG GCGCCAGGCA TTGGGCAATG 
    TGGTGCGCCA TCGCCTCTCT CTTGACGAGC TCCTCGGATG ATCCTAGCGC TTCATACAGT 
    ACGGGCCGTT GTTATTTGTG GACCATGTGG CCCAAGAGGC AGTGTACGGC GCCATTCCAC 
    GCGCTCATCT CTTTCAGTCA CTTCTTGTGC GCCTGGCCGT GTAAAAAAGA TGCGCAGCTA 
    GGGTTATGGA GCAGCGATGG CGGCCAGCGG CTCTACAGTA ATGGATTCTT CTCTCGCAGC 
    GCGCGGAGGC GAGCTGGAGC TGCGGCGCGG CAGATCCTCC TCGTCCTGCC GCCGACAGCG 
    CCGCGCCCGA AGAGGATGAC CGTTGTCGCA AGCATCATGG AGCCGCAGCC TCTAGACCCG 
    CCGGACATCT CACTGGAGAA TCTCTTGAGG CCCATGCTGC CGCCGGGAGC GCCTATTCCA 
    GACTACGATC AGCTCGATTA TTCATTCGCA ATGGAGTACT CGGGACATGT AGGTGATCAT 
    CCGGTTCCCA GGGCTGATCC ACTGGTTGGA TCTCGGGATA GTTCCAGCCA GGTGGATTCG 
    TCGTCGGTTT CCAAGACGCC AAGGCCCAAG CCGTCTGCGC TACACATAGA TACCAGGAAA 
    CGAGCTCATT TGGCAGCAGA GAAGCTGATA AGCGAGTCGG GGTCAGCAAG ATCACCTATC 
    ACAGGACTGG TAGAGAAGGA CAGCTCGTCT ACCACAGGAA GAAGTCCTTT GTCCAACAGT 
    GGGACAAGAG GAAAGGCTGC CTCTAAAGAG AAGGAGGCCG GCTCGAGTTC CCCGGATTCA 
    AGGCTAGCGT ACTCCGGATT GAACTCCCTG TCGCGGAAAT CCTCCTCCTC GGAGATTGAA 
    GAGCTGAACG TCCAGTTTTC CGCGGCAGTG TCAGCTGCGG CCTCTGCACT GCCTTCTCCG 
    TCGGCTTTAA GATCCGTGTC GCTCAGTGAG AACCACAACT TGGAAAACTC GGACTTCCAT 
    TCCACTCCGC GGTCCATTTC GATGCCAGAG AGGGATAGAG CTGACGGATC TTCGAGGCCT 
    GGCTCGCCAT CTGGTGTTAC TGCGGTGGAG CCAGTGGTGG TGGTGACGAA AAAGCGTGAA 
    TGCCATCGGT GTCTTAAAAA ACACATGTTA CAGGAGAAAG AGACGTGCCT CGTCTGCACT 
    GCGAGGTACT GTCGGAACTG CGTCCTTATT GCAATGGGCT CCATGCCGGA GGGGCGGAAG 
    TGCTTACGGT GCATTGGCCT GCCTATTCAT GAATCACGAC GACCGTATCT TGGGAAGCCG 
    TCCAGGCTGC TCAAAAGCAT TCTGAGTCCC TTGGAGATCC AGCAGATCAT GCGCACAGAG 
    AAGGATTGTT TGGCCAATCA ACTACGTCCC GAGCAGCTTA TTGTGAACGG CAGGGCCCTC 
    GCTGCGCCGG AGATGTCCGA GCTATTGAGC TGCAGCAATC CTCCTCCAAA ACTTAAGCCC 
    GGCAAATACT GGTACGACAA AACCTCTGGA CTGTGGGGAA AGGAAGGTGA AAAGCCAAGC 
    AAGATCGTCA CTGCAGAGTT GAAAGTTGGT GGCAACCTTA AGCCGGATGC AAGCCTTGGT 
    ACAACGGAGG TCTATATAAA TTGTCGTCAG ATCACCAAGT CTGAATTAAA AATGTTGAAG 
    TTGGCAGGAG TGCAGTGTCC TCCGAGTACT TACCTTTTTC TATCACCCGA TGGATCGTAT 
    ATGGAAGAAG GACAGAACAA CTATAAAGGA AACATATGGG AGAAGGCTTC CATAAGAGTG 
    ATGTATTCTC TGTTCTCATT GCCGACGCCT CGTGGAAGTG TACGTGCCAA CAAACCAAGT 
    GCTCGTGAGC TTTCGGCTAG GTACCCTCCC GCCATTTTGG AGCATAAGAA TGTGAGCAAG 
    CTGCTTTTAC TGGGTCACGA GGGCTCTGGC AGGAGTACAA TCTTCAAGCA GGCCAAGTTT 
    CTCTACAGAG GTGGTTTCGA GCAGAAGGAA CTTGAGAGAT ACAAGGAAAT GATTCAAACG 
    TACATCTACA AGTATCTTGT TATATTGTTA GAAGGTCGCG AGCGTTTTGA AGATGAAGAA 
    GGTGATGCTT TGTTGAAGAT CAAATGTGAT CCTCCTGCGA CAGGCGAAAC CTCAAAGAAT 
    ATGTATTCGA TGGATACGCG GTTGAAGAAT CTAGCGGACT GGTTCCTTGA CATTACAGCT 
    GATGGATCTT TGGAAAGGTA CTTTCCTGCT GCTACACGAG AGTACGCAGC ATCTGTGGAA 
    GAGCTTTGGC GCGATCCTGC TATTCAAGCT ACATTCAAGA GGAAGGAGGA ACTTCATAAG 
    CTACCTGATG TTGCCGGAGA ATTCCTAGAA AGGGTCGTGG AGCTCTCAAG CAATGAGTAC 
    GAGCCTGTGG ATCACGATAT CTTATATGCA GAAGGCTTGA CCCAAGGTTC CGGACTTGCA 
    GAGATAGAAT TTGGTTTACC CGATCGGGAG CAGACTTCAG GTGCAATGCA TGACACAGTG 
    GATTACTCTC CTACGGGAAG GTACCAGCTT ATACGAGTGG GTGGTATCGG TCTTAAAGAA 
    GGAAAGAAAT GGCTGGGAAT GTTCGAGGAC GTTCGAGCGG TTGTCTTTAC TGTGGCACTC 
    AGCGAATTCG ATCAATTATG GATAGACAGC GATGGCGTTG CCCGAAACAA ACTTCTTATA 
    AGCAAGGAGC TTTTTCAGGA CATTGTGGCA CGCCCCTGCT TCAAGGGAAC CCCCTTCATT 
    CTCTTTCTCA ACAAGTACGA CAAGTTTGAA GAGAAGATCA TGAAAGGCGT TCCACTCACG 
    ACGTGTGACT GGTTTTCCGA CTTCAGCCCC GTTGGTGTTC CTCACTCTAC CCAAGCTCAA 
    CAGGCCTACA CATACGTTGT CCACAAGTTC AAGAAGCTCG TCGGTGACCG CAAGCTCTAC 
    ACCTTCCAGC TGAACGCTCT CGAGCGGAAC TTGGTGGCCT CGGCATTCCA GTACGTGAAA 
    CACATACTCA AGCACGAAGA GAGCAAGGCG GCCGGCTGGA TGGCACTCCC AGAGGACTCT 
    TCCTATTGCA CAGACTTGAG CTCATACTCG CTGCATTCCG CGAGGCAAGA GAATGGCAAC 
    TCCTGGGACA GAAGTGCAAG ATATGGTACA TATGTTTCAT AA

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

    RefSeq XP_024522586.1
    CDS95..3496
    Translation

    Target ORF information:

    RefSeq Version XM_024666818.1
    Organism Selaginella moellendorffii
    Definition Selaginella moellendorffii extra-large guanine nucleotide-binding protein 3 (LOC9652675), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024666818.1

    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
    ATGGGATCTC CCCCGACGAG ATCACCTTCA CGAGCGTGCT CCACGCGTGT GGGCACCTCG 
    GCCTGCTCGA TCGCGCGCGC GATTTCTTCT CCAGTATCGG ACACGACCAC TGCCTGGTGC 
    CGATCCGCGA GCACTACTGC TGCCTGGTGG ATTTGCTGGG GCGATTGGGG CGGCTGCGCG 
    ACGCCGAGGA TCTCGTCCAG GGCATGCCAT TCCCGGCGAG TCACAACGAT TGGACGAGCC 
    TGCTCAACGC CTACATCGTT CACGATGAGA TGGATCAGGG GCGCCAGGCA TTGGGCAATG 
    TGGTGCGCCA TCGCCTCTCT CTTGACGAGC TCCTCGGATG ATCCTAGCGC TTCATACAGT 
    ACGGGCCGTT GTTATTTGTG GACCATGTGG CCCAAGAGGC AGTGTACGGC GCCATTCCAC 
    GCGCTCATCT CTTTCAGTCA CTTCTTGTGC GCCTGGCCGT GTAAAAAAGA TGCGCAGCTA 
    GGGTTATGGA GCAGCGATGG CGGCCAGCGG CTCTACAGTA ATGGATTCTT CTCTCGCAGC 
    GCGCGGAGGC GAGCTGGAGC TGCGGCGCGG CAGATCCTCC TCGTCCTGCC GCCGACAGCG 
    CCGCGCCCGA AGAGGATGAC CGTTGTCGCA AGCATCATGG AGCCGCAGCC TCTAGACCCG 
    CCGGACATCT CACTGGAGAA TCTCTTGAGG CCCATGCTGC CGCCGGGAGC GCCTATTCCA 
    GACTACGATC AGCTCGATTA TTCATTCGCA ATGGAGTACT CGGGACATGT AGGTGATCAT 
    CCGGTTCCCA GGGCTGATCC ACTGGTTGGA TCTCGGGATA GTTCCAGCCA GGTGGATTCG 
    TCGTCGGTTT CCAAGACGCC AAGGCCCAAG CCGTCTGCGC TACACATAGA TACCAGGAAA 
    CGAGCTCATT TGGCAGCAGA GAAGCTGATA AGCGAGTCGG GGTCAGCAAG ATCACCTATC 
    ACAGGACTGG TAGAGAAGGA CAGCTCGTCT ACCACAGGAA GAAGTCCTTT GTCCAACAGT 
    GGGACAAGAG GAAAGGCTGC CTCTAAAGAG AAGGAGGCCG GCTCGAGTTC CCCGGATTCA 
    AGGCTAGCGT ACTCCGGATT GAACTCCCTG TCGCGGAAAT CCTCCTCCTC GGAGATTGAA 
    GAGCTGAACG TCCAGTTTTC CGCGGCAGTG TCAGCTGCGG CCTCTGCACT GCCTTCTCCG 
    TCGGCTTTAA GATCCGTGTC GCTCAGTGAG AACCACAACT TGGAAAACTC GGACTTCCAT 
    TCCACTCCGC GGTCCATTTC GATGCCAGAG AGGGATAGAG CTGACGGATC TTCGAGGCCT 
    GGCTCGCCAT CTGGTGTTAC TGCGGTGGAG CCAGTGGTGG TGGTGACGAA AAAGCGTGAA 
    TGCCATCGGT GTCTTAAAAA ACACATGTTA CAGGAGAAAG AGACGTGCCT CGTCTGCACT 
    GCGAGGTACT GTCGGAACTG CGTCCTTATT GCAATGGGCT CCATGCCGGA GGGGCGGAAG 
    TGCTTACGGT GCATTGGCCT GCCTATTCAT GAATCACGAC GACCGTATCT TGGGAAGCCG 
    TCCAGGCTGC TCAAAAGCAT TCTGAGTCCC TTGGAGATCC AGCAGATCAT GCGCACAGAG 
    AAGGATTGTT TGGCCAATCA ACTACGTCCC GAGCAGCTTA TTGTGAACGG CAGGGCCCTC 
    GCTGCGCCGG AGATGTCCGA GCTATTGAGC TGCAGCAATC CTCCTCCAAA ACTTAAGCCC 
    GGCAAATACT GGTACGACAA AACCTCTGGA CTGTGGGGAA AGGAAGGTGA AAAGCCAAGC 
    AAGATCGTCA CTGCAGAGTT GAAAGTTGGT GGCAACCTTA AGCCGGATGC AAGCCTTGGT 
    ACAACGGAGG TCTATATAAA TTGTCGTCAG ATCACCAAGT CTGAATTAAA AATGTTGAAG 
    TTGGCAGGAG TGCAGTGTCC TCCGAGTACT TACCTTTTTC TATCACCCGA TGGATCGTAT 
    ATGGAAGAAG GACAGAACAA CTATAAAGGA AACATATGGG AGAAGGCTTC CATAAGAGTG 
    ATGTATTCTC TGTTCTCATT GCCGACGCCT CGTGGAAGTG TACGTGCCAA CAAACCAAGT 
    GCTCGTGAGC TTTCGGCTAG GTACCCTCCC GCCATTTTGG AGCATAAGAA TGTGAGCAAG 
    CTGCTTTTAC TGGGTCACGA GGGCTCTGGC AGGAGTACAA TCTTCAAGCA GGCCAAGTTT 
    CTCTACAGAG GTGGTTTCGA GCAGAAGGAA CTTGAGAGAT ACAAGGAAAT GATTCAAACG 
    TACATCTACA AGTATCTTGT TATATTGTTA GAAGGTCGCG AGCGTTTTGA AGATGAAGAA 
    GGTGATGCTT TGTTGAAGAT CAAATGTGAT CCTCCTGCGA CAGGCGAAAC CTCAAAGAAT 
    ATGTATTCGA TGGATACGCG GTTGAAGAAT CTAGCGGACT GGTTCCTTGA CATTACAGCT 
    GATGGATCTT TGGAAAGGTA CTTTCCTGCT GCTACACGAG AGTACGCAGC ATCTGTGGAA 
    GAGCTTTGGC GCGATCCTGC TATTCAAGCT ACATTCAAGA GGAAGGAGGA ACTTCATAAG 
    CTACCTGATG TTGCCGGAGA ATTCCTAGAA AGGGTCGTGG AGCTCTCAAG CAATGAGTAC 
    GAGCCTGTGG ATCACGATAT CTTATATGCA GAAGGCTTGA CCCAAGGTTC CGGACTTGCA 
    GAGATAGAAT TTGGTTTACC CGATCGGGAG CAGACTTCAG GTGCAATGCA TGACACAGTG 
    GATTACTCTC CTACGGGAAG GTACCAGCTT ATACGAGTGG GTGGTATCGG TCTTAAAGAA 
    GGAAAGAAAT GGCTGGGAAT GTTCGAGGAC GTTCGAGCGG TTGTCTTTAC TGTGGCACTC 
    AGCGAATTCG ATCAATTATG GATAGACAGC GATGGCGTTG CCCGAAACAA ACTTCTTATA 
    AGCAAGGAGC TTTTTCAGGA CATTGTGGCA CGCCCCTGCT TCAAGGGAAC CCCCTTCATT 
    CTCTTTCTCA ACAAGTACGA CAAGTTTGAA GAGAAGATCA TGAAAGGCGT TCCACTCACG 
    ACGTGTGACT GGTTTTCCGA CTTCAGCCCC GTTGGTGTTC CTCACTCTAC CCAAGCTCAA 
    CAGGCCTACA CATACGTTGT CCACAAGTTC AAGAAGCTCG TCGGTGACCG CAAGCTCTAC 
    ACCTTCCAGC TGAACGCTCT CGAGCGGAAC TTGGTGGCCT CGGCATTCCA GTACGTGAAA 
    CACATACTCA AGCACGAAGA GAGCAAGGCG GCCGGCTGGA TGGCACTCCC AGAGGACTCT 
    TCCTATTGCA CAGACTTGAG CTCATACTCG CTGCATTCCG CGAGGCAAGA GAATGGCAAC 
    TCCTGGGACA GAAGTGCAAG ATATGGTACA TATGTTTCAT AA

    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,Ria?o-Pach?n DM,Roberts AW,Sato Y,Scheller HV,Schulz B,Schulz C,Shakirov EV,Shibagaki N,Shinohara N,Shippen DE,S?rensen 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,Loqu? D,Otillar R,Salamov A,Schmutz J,Shapiro H,Lindquist E,Lucas S,Rokhsar D,Grigoriev IV


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