| Gene Symbol | AMP1D2-1 |
| Entrez Gene ID | 9642280 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Selaginella moellendorffii |
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AMP1D2-1 cDNA ORF clone, Selaginella moellendorffii
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Gene
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Clones
gRNAs
The following AMP1D2-1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AMP1D2-1 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.
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Reference Sequences (Refseq)
CloneID OSb10569 Clone ID Related Accession (Same CDS sequence) XM_002960492.1 Accession Version XM_002960492.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2886bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag 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 hypothetical 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_003314261). ##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
2881ATGGCGATCG GCGCATTGCC GCCACTGGAG CACAGCCTGT TGCCGCGTAG GAAGAATGCC
GGGAATGTGG AGGCCCGATG GAGTGGAAAT TATCGCAGGG TTCTGTCTGG AGCGAGGCAG
ACGAATCTAG CGACTGAGCA GCAACGCCAG GATGAGAATC CGGACCACGA TCAGCAGCTG
TCTATCAAGA AGAGGAATCT CGTCAAGGAG CTCGTCAAGC AGCAAATCCG AGAGGAGATT
CGCAAGAGAA GGGAGGAGGA CAAGAACCGT GCTCCCAAGA CCGAGAAGGA GTTTCTCGAA
GCTTTGTACA CGATCGATCT CAACAGGACG GAGATCCGGC GAAAGCATTC GTCCCATCTT
ACCGAAGGAA ACCATTGCTT GCGAGAAACG GAGCCTCTGA GTGAAAGAGA GGCGGCGCAC
TACGCAAGGA TTGGAAACAA AAACCAGAAG TTTGCGTCCG TCGGATCACC CCGCCACAAC
AGCATGGAGG AGACGCGGAG AATCGGTGCC GAGCTAGCGA GATTGAGTGG AGGCATCGTG
CTCGATGTCC TTGAGGACAG GACGGTGATT ATGTTTCGTG GTAAGAACTA CCAGACACCA
GAGGAGCTCT ATCCTCCAAC TTTGGAAGCT GTCGACAGGA GAAATGCCGA TTCTAGGCAC
CACATCCAAC GGGCTTTGGA TTCACAAGTT TACAGGCTGG GGCAATACAT TTCCAGGTAC
CACTTTCTCA AAGAAGACAG AGAGCCCGCT CAAGCCACGC AGCCGATGAT AGTCTTACCA
GGGGCTGGCA ACGAAGACAG AGAAGAAGGT TTAGATCAAG GTTGTCAAGT AGAAGGCGAG
AATGATGATA AAGATCAGGC TAGAGCAGCA GCAGCGGATG TTATAGCTGC ACAGGCGAGC
CTCGAGCGAG TGGAAAAAAA GATGGCGTCC AGATTTGCGA GAGAACTTGG CCGCCACAAG
ACCAAGATTG GGAAGGAGAG GAGACGAGCG AGAAAGAACT TGTTTGATTA CAAGATTCGC
AGCTCGAAGA AAGAGATGTT TGGCACTCTC GCCACCCACA TTTTACTGCT GTTCGTCGCG
ATCATCGCGA TCAATCTCTA CCTGAGCTCG CTCCCGGCTT GGTTCTTCGT GACCCAAGTT
AGCACTCGGT CCATCGCCGC CTTCCTCCAC AACCTCACGC TCCACCCCCA CGTCGCGGGG
ACGCCGCAGG GATTCGCCAC CGCCAAGTTC GTCGAGGAGA GATTCCGCGA GTTTGGGCTC
TCGACGCGCA CGGTCGACTA CGAGGTACTC GTCTCGTATC CCTTGAAGCG ATCGTTGTCC
GTGGTCTACC CAAGCAACTC GTCACTCAGC TTGGCTCTTG ACGAAGAGAC CGTGGATGGC
GATGGCGATT CCTCTGGAGT CATTCCAACT TTCTTCGCTT ACTCGCCGTC TGGGGAAGCT
CTTGCCGAGG TGGTGTACGC AAACTACGGC CAAAAATCCG ATTTTGACGA GCTCAAGAGC
CTGGGAGTGG AGGTGAGAGG GAGCGTGGTG ATCGCCAGGC TTGGCAAAAG CTTTCGAGGG
GATATCGTGT TTAACGCGCA GGAGGAAGGC GCAGTGGCCG TGGTTTTGTA TCCGGATCCT
CGAGACTACG CCACGAACGC TACCACTGAA GGCTACTATC CATTCTCGCG ATGGTTGCCT
CCAAGTGGAG TCCAGAGAGG CTTCGTGATC CAGGACCCCG GGGATCCTCT CACGCCGGGG
TGGCCGAGTA GCAAGCTTTC CGAGAGACTG GACGCTTCCA ACTTGACAAG GCTGGGAGTT
CCAGCGATCG CCGTGCTGCC AATCTCCGCT CGCGACGCTC TTCCAATCAA CGAGGCGCTA
GGAGGCCCTG TTGCTCCTGA TTCCTGGCAA GGAGGACTTG CGGTGGACGC GTATCGAGCT
GGGAAAGGAC CTGTGAAACT TGATCTTCGC TACGAGATAT GTGCTTCCTG GGAATCACCG
AGACGCTTGG ACGTATGGAG CCAGCGATCC AAACAGCGGA ACTGCCTGCC TTTTGGAGAT
AGCTCGCATC TTTGGACAGC TTCTGAGAAG ACCAGCGAGC ACAATCGTAT TTTGCAGCTG
GGATGCCGTG AGTGGGTCGA GGACAATTTG GCCATGCTTA AGGCTCGAGC GGTGGCTTAT
TTAAACGTGG ATGAAGCAGT AACAGGCAGT TCTTTCTCAG CGTCTGCTAC GCCTCAGCTT
GACAACCTTT TATTCGAAGT CACCAAAATG GTGAAAGATC CAGACTCAAA TGGAACCATA
TTTGACTCGT GGTGTGGAAA ATCAAACGAT TGTGTCGGGA GGCTGGGCGG TGGTGGCTCC
GACTACGCTC CATTCTTGCA GCACGCAGGA ATTCCCTCCA CCAGCATGAC GTACGAAGAA
AAAAACTCAG ATTTTCCCGT GTATCATTCA CTCTATGACA ATTACAACTG GATGAAAAAC
TTTGGAGATC CTGAGTTTCA TCGCCATGCA ACAGATTTCG AGGCTTTGGT GCCAGTGGTG
AAAGTCTGGG GACTGCTTGC GAGGCGCTTG GCCATGGACA CGATCTTGCC TTTCAACTAT
GTCTCGTATG CAAATGTGTT GGAGGTCGCT GTAAAGGATT TGGAGGCCAG GTTCCTGCTT
ATTTCGGGTC ATCCAGTTAA TATACTTAGC CTCAGCAAGT CGCGCGACGT AAATTTCTTC
CCACTTCATT CTGTGGTGGA TCAACCTCGT GAACTTGCCT CCAAGATCCC TTCCTTCACT
GCACCCAGAA ATGGCGAAGG CCTTCCAGGG AAGCCATGGT TCAAACACTT GATCTCAAAC
AAATGTCTAT GGTACCTCGA CATTCCCTGC TATTGCGGAC GTTATATCGA AGATGGCTGT
GGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002960538.1 CDS 1..2886 Translation 
Target ORF information:
RefSeq Version XM_002960492.1 Organism Selaginella moellendorffii Definition Selaginella moellendorffii hypothetical protein (AMP1D2-1), partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002960492.1
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
2881ATGGCGATCG GCGCATTGCC GCCACTGGAG CACAGCCTGT TGCCGCGTAG GAAGAATGCC
GGGAATGTGG AGGCCCGATG GAGTGGAAAT TATCGCAGGG TTCTGTCTGG AGCGAGGCAG
ACGAATCTAG CGACTGAGCA GCAACGCCAG GATGAGAATC CGGACCACGA TCAGCAGCTG
TCTATCAAGA AGAGGAATCT CGTCAAGGAG CTCGTCAAGC AGCAAATCCG AGAGGAGATT
CGCAAGAGAA GGGAGGAGGA CAAGAACCGT GCTCCCAAGA CCGAGAAGGA GTTTCTCGAA
GCTTTGTACA CGATCGATCT CAACAGGACG GAGATCCGGC GAAAGCATTC GTCCCATCTT
ACCGAAGGAA ACCATTGCTT GCGAGAAACG GAGCCTCTGA GTGAAAGAGA GGCGGCGCAC
TACGCAAGGA TTGGAAACAA AAACCAGAAG TTTGCGTCCG TCGGATCACC CCGCCACAAC
AGCATGGAGG AGACGCGGAG AATCGGTGCC GAGCTAGCGA GATTGAGTGG AGGCATCGTG
CTCGATGTCC TTGAGGACAG GACGGTGATT ATGTTTCGTG GTAAGAACTA CCAGACACCA
GAGGAGCTCT ATCCTCCAAC TTTGGAAGCT GTCGACAGGA GAAATGCCGA TTCTAGGCAC
CACATCCAAC GGGCTTTGGA TTCACAAGTT TACAGGCTGG GGCAATACAT TTCCAGGTAC
CACTTTCTCA AAGAAGACAG AGAGCCCGCT CAAGCCACGC AGCCGATGAT AGTCTTACCA
GGGGCTGGCA ACGAAGACAG AGAAGAAGGT TTAGATCAAG GTTGTCAAGT AGAAGGCGAG
AATGATGATA AAGATCAGGC TAGAGCAGCA GCAGCGGATG TTATAGCTGC ACAGGCGAGC
CTCGAGCGAG TGGAAAAAAA GATGGCGTCC AGATTTGCGA GAGAACTTGG CCGCCACAAG
ACCAAGATTG GGAAGGAGAG GAGACGAGCG AGAAAGAACT TGTTTGATTA CAAGATTCGC
AGCTCGAAGA AAGAGATGTT TGGCACTCTC GCCACCCACA TTTTACTGCT GTTCGTCGCG
ATCATCGCGA TCAATCTCTA CCTGAGCTCG CTCCCGGCTT GGTTCTTCGT GACCCAAGTT
AGCACTCGGT CCATCGCCGC CTTCCTCCAC AACCTCACGC TCCACCCCCA CGTCGCGGGG
ACGCCGCAGG GATTCGCCAC CGCCAAGTTC GTCGAGGAGA GATTCCGCGA GTTTGGGCTC
TCGACGCGCA CGGTCGACTA CGAGGTACTC GTCTCGTATC CCTTGAAGCG ATCGTTGTCC
GTGGTCTACC CAAGCAACTC GTCACTCAGC TTGGCTCTTG ACGAAGAGAC CGTGGATGGC
GATGGCGATT CCTCTGGAGT CATTCCAACT TTCTTCGCTT ACTCGCCGTC TGGGGAAGCT
CTTGCCGAGG TGGTGTACGC AAACTACGGC CAAAAATCCG ATTTTGACGA GCTCAAGAGC
CTGGGAGTGG AGGTGAGAGG GAGCGTGGTG ATCGCCAGGC TTGGCAAAAG CTTTCGAGGG
GATATCGTGT TTAACGCGCA GGAGGAAGGC GCAGTGGCCG TGGTTTTGTA TCCGGATCCT
CGAGACTACG CCACGAACGC TACCACTGAA GGCTACTATC CATTCTCGCG ATGGTTGCCT
CCAAGTGGAG TCCAGAGAGG CTTCGTGATC CAGGACCCCG GGGATCCTCT CACGCCGGGG
TGGCCGAGTA GCAAGCTTTC CGAGAGACTG GACGCTTCCA ACTTGACAAG GCTGGGAGTT
CCAGCGATCG CCGTGCTGCC AATCTCCGCT CGCGACGCTC TTCCAATCAA CGAGGCGCTA
GGAGGCCCTG TTGCTCCTGA TTCCTGGCAA GGAGGACTTG CGGTGGACGC GTATCGAGCT
GGGAAAGGAC CTGTGAAACT TGATCTTCGC TACGAGATAT GTGCTTCCTG GGAATCACCG
AGACGCTTGG ACGTATGGAG CCAGCGATCC AAACAGCGGA ACTGCCTGCC TTTTGGAGAT
AGCTCGCATC TTTGGACAGC TTCTGAGAAG ACCAGCGAGC ACAATCGTAT TTTGCAGCTG
GGATGCCGTG AGTGGGTCGA GGACAATTTG GCCATGCTTA AGGCTCGAGC GGTGGCTTAT
TTAAACGTGG ATGAAGCAGT AACAGGCAGT TCTTTCTCAG CGTCTGCTAC GCCTCAGCTT
GACAACCTTT TATTCGAAGT CACCAAAATG GTGAAAGATC CAGACTCAAA TGGAACCATA
TTTGACTCGT GGTGTGGAAA ATCAAACGAT TGTGTCGGGA GGCTGGGCGG TGGTGGCTCC
GACTACGCTC CATTCTTGCA GCACGCAGGA ATTCCCTCCA CCAGCATGAC GTACGAAGAA
AAAAACTCAG ATTTTCCCGT GTATCATTCA CTCTATGACA ATTACAACTG GATGAAAAAC
TTTGGAGATC CTGAGTTTCA TCGCCATGCA ACAGATTTCG AGGCTTTGGT GCCAGTGGTG
AAAGTCTGGG GACTGCTTGC GAGGCGCTTG GCCATGGACA CGATCTTGCC TTTCAACTAT
GTCTCGTATG CAAATGTGTT GGAGGTCGCT GTAAAGGATT TGGAGGCCAG GTTCCTGCTT
ATTTCGGGTC ATCCAGTTAA TATACTTAGC CTCAGCAAGT CGCGCGACGT AAATTTCTTC
CCACTTCATT CTGTGGTGGA TCAACCTCGT GAACTTGCCT CCAAGATCCC TTCCTTCACT
GCACCCAGAA ATGGCGAAGG CCTTCCAGGG AAGCCATGGT TCAAACACTT GATCTCAAAC
AAATGTCTAT GGTACCTCGA CATTCCCTGC TATTGCGGAC GTTATATCGA AGATGGCTGT
GGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSb27343 Clone ID Related Accession (Same CDS sequence) XM_024680052.1 Accession Version XM_024680052.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2052bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag 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 probable glutamate carboxypeptidase LAMP1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003314261.1) 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## ##RefSeq-Attributes-START## ab initio :: 15% 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
2041ATGTTTGGCA CTCTCGCCAC CCACATTTTA CTGCTGTTCG TCGCGATCAT CGCGATCAAT
CTCTACCTGA GCTCGCTCCC GGCTTGGTTC TTCGTGACCC AAGTTAGCAC TCGGTCCATC
GCCGCCTTCC TCCACAACCT CACGCTCCAC CCCCACGTCG CGGGGACGCC GCAGGGATTC
GCCACCGCCA AGTTCGTCGA GGAGAGATTC CGCGAGTTTG GGCTCTCGAC GCGCACGGTC
GACTACGAGG TACTCGTCTC GTATCCCTTG AAGCGATCGT TGTCCGTGGT CTACCCAAGC
AACTCGTCAC TCAGCTTGGC TCTTGACGAA GAGACCGTGG ATGGCGATGG CGATTCCTCT
GGAGTCATTC CAACTTTCTT CGCTTACTCG CCGTCTGGGG AAGCTCTTGC CGAGGTGGTG
TACGCAAACT ACGGCCAAAA ATCCGATTTT GACGAGCTCA AGAGCCTGGG AGTGGAGGTG
AGAGGGAGCG TGGTGATCGC CAGGCTTGGC AAAAGCTTTC GAGGGGATAT CGTGTTTAAC
GCGCAGGAGG AAGGCGCAGT GGCCGTGGTT TTGTATCCGG ATCCTCGAGA CTACGCCACG
AACGCTACCA CTGAAGGCTA CTATCCATTC TCGCGATGGT TGCCTCCAAG TGGAGTCCAG
AGAGGCTTCG TGATCCAGGA CCCCGGGGAT CCTCTCACGC CGGGGTGGCC GAGTAGCAAG
CTTTCCGAGA GACTGGACGC TTCCAACTTG ACAAGGCTGG GAGTTCCAGC GATCGCCGTG
CTGCCAATCT CCGCTCGCGA CGCTCTTCCA ATCAACGAGG CGCTAGGAGG CCCTGTTGCT
CCTGATTCCT GGCAAGGAGG ACTTGCGGTG GACGCGTATC GAGCTGGGAA AGGACCTGTG
AAACTTGATC TTCGCTACGA GGCTAACCTG ACCACTGCGA CAATTCGTAA CGTTTTTGGA
ATTATAGAAG GCTCTGAGAA AGATAGATAT GTGCTTCCTG GGAATCACCG AGACGCTTGG
ACGTATGGAG CCAGCGATCC AAACAGCGGA ACTGCCTGCC TTTTGGAGAT AGCTCGCATC
TTTGGACAGC TTCTGAGAAG ACCAGCGAGC ACAATCGTAT TTTGCAGCTG GGATGCCGTG
ACTGGTTCTA CAGAGTGGGT CGAGGACAAT TTGGCCATGC TTAAGGCTCG AGCGGTGGCT
TATTTAAACG TGGATGAAGC AGTAACAGGC AGTTCTTTCT CAGCGTCTGC TACGCCTCAG
CTTGACAACC TTTTATTCGA AGTCACCAAA ATGGTGAAAG ATCCAGACTC AAATGGAACC
ATATTTGACT CGTGGTGTGG AAAATCAAAC GATTGTGTCG GGAGGCTGGG CGGTGGTGGC
TCCGACTACG CTCCATTCTT GCAGCACGCA GGAATTCCCT CCACCAGCAT GACGTACGAA
GAAAAAAACT CAGATTTTCC CGTGTATCAT TCACTCTATG ACAATTACAA CTGGATGAAA
AACTTTGGAG ATCCTGAGTT TCATCGCCAT GCAACAGTGG TGAAAGTCTG GGGACTGCTT
GCGAGGCGCT TGGCCATGGA CACGATCTTG CCTTTCAACT ATGTCTCGTA TGCAAATGTG
TTGGAGGTCG CTGTAAAGGA TTTGGAGGCC AGGTTCCTGC TTATTTCGGG TCATCCAGTT
AATATACTTA GCCTCAGCAA GTCGCGCGAC GTAAATTTCT TCCCACTTCA TTCTGTGGTG
GATCAACCTC GTGAACTTGC CTCCAAGATC CCTTCCTTCA CTGCACCCAG AAAATTGTGT
AGATCTCAAA CAAATGTCTA TGGTACCTCG ACATTCCCTG CTATTGCGGA CGTTATATCG
AAGATGGCTG TGGGTGAGGA CAAAGAAGAG CTTAAAGCTT TAAAACAAGA CTTGCAACAT
GAAATATGGA GAGCTTCGAG CTATCCACGT CACGCCATTG CATTGAATAT AGTCAACGGT
ATGGTCAAAA TAGTCAACGA TCAGACGGTC ACGGTCTGTG CTGGTGTAAG GGTGCGAAAG
GACAAAGTTT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024535820.1 CDS 96..2147 Translation
Target ORF information:
RefSeq Version XM_024680052.1 Organism Selaginella moellendorffii Definition Selaginella moellendorffii probable glutamate carboxypeptidase LAMP1 (LOC9642280), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024680052.1
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
2041ATGTTTGGCA CTCTCGCCAC CCACATTTTA CTGCTGTTCG TCGCGATCAT CGCGATCAAT
CTCTACCTGA GCTCGCTCCC GGCTTGGTTC TTCGTGACCC AAGTTAGCAC TCGGTCCATC
GCCGCCTTCC TCCACAACCT CACGCTCCAC CCCCACGTCG CGGGGACGCC GCAGGGATTC
GCCACCGCCA AGTTCGTCGA GGAGAGATTC CGCGAGTTTG GGCTCTCGAC GCGCACGGTC
GACTACGAGG TACTCGTCTC GTATCCCTTG AAGCGATCGT TGTCCGTGGT CTACCCAAGC
AACTCGTCAC TCAGCTTGGC TCTTGACGAA GAGACCGTGG ATGGCGATGG CGATTCCTCT
GGAGTCATTC CAACTTTCTT CGCTTACTCG CCGTCTGGGG AAGCTCTTGC CGAGGTGGTG
TACGCAAACT ACGGCCAAAA ATCCGATTTT GACGAGCTCA AGAGCCTGGG AGTGGAGGTG
AGAGGGAGCG TGGTGATCGC CAGGCTTGGC AAAAGCTTTC GAGGGGATAT CGTGTTTAAC
GCGCAGGAGG AAGGCGCAGT GGCCGTGGTT TTGTATCCGG ATCCTCGAGA CTACGCCACG
AACGCTACCA CTGAAGGCTA CTATCCATTC TCGCGATGGT TGCCTCCAAG TGGAGTCCAG
AGAGGCTTCG TGATCCAGGA CCCCGGGGAT CCTCTCACGC CGGGGTGGCC GAGTAGCAAG
CTTTCCGAGA GACTGGACGC TTCCAACTTG ACAAGGCTGG GAGTTCCAGC GATCGCCGTG
CTGCCAATCT CCGCTCGCGA CGCTCTTCCA ATCAACGAGG CGCTAGGAGG CCCTGTTGCT
CCTGATTCCT GGCAAGGAGG ACTTGCGGTG GACGCGTATC GAGCTGGGAA AGGACCTGTG
AAACTTGATC TTCGCTACGA GGCTAACCTG ACCACTGCGA CAATTCGTAA CGTTTTTGGA
ATTATAGAAG GCTCTGAGAA AGATAGATAT GTGCTTCCTG GGAATCACCG AGACGCTTGG
ACGTATGGAG CCAGCGATCC AAACAGCGGA ACTGCCTGCC TTTTGGAGAT AGCTCGCATC
TTTGGACAGC TTCTGAGAAG ACCAGCGAGC ACAATCGTAT TTTGCAGCTG GGATGCCGTG
ACTGGTTCTA CAGAGTGGGT CGAGGACAAT TTGGCCATGC TTAAGGCTCG AGCGGTGGCT
TATTTAAACG TGGATGAAGC AGTAACAGGC AGTTCTTTCT CAGCGTCTGC TACGCCTCAG
CTTGACAACC TTTTATTCGA AGTCACCAAA ATGGTGAAAG ATCCAGACTC AAATGGAACC
ATATTTGACT CGTGGTGTGG AAAATCAAAC GATTGTGTCG GGAGGCTGGG CGGTGGTGGC
TCCGACTACG CTCCATTCTT GCAGCACGCA GGAATTCCCT CCACCAGCAT GACGTACGAA
GAAAAAAACT CAGATTTTCC CGTGTATCAT TCACTCTATG ACAATTACAA CTGGATGAAA
AACTTTGGAG ATCCTGAGTT TCATCGCCAT GCAACAGTGG TGAAAGTCTG GGGACTGCTT
GCGAGGCGCT TGGCCATGGA CACGATCTTG CCTTTCAACT ATGTCTCGTA TGCAAATGTG
TTGGAGGTCG CTGTAAAGGA TTTGGAGGCC AGGTTCCTGC TTATTTCGGG TCATCCAGTT
AATATACTTA GCCTCAGCAA GTCGCGCGAC GTAAATTTCT TCCCACTTCA TTCTGTGGTG
GATCAACCTC GTGAACTTGC CTCCAAGATC CCTTCCTTCA CTGCACCCAG AAAATTGTGT
AGATCTCAAA CAAATGTCTA TGGTACCTCG ACATTCCCTG CTATTGCGGA CGTTATATCG
AAGATGGCTG TGGGTGAGGA CAAAGAAGAG CTTAAAGCTT TAAAACAAGA CTTGCAACAT
GAAATATGGA GAGCTTCGAG CTATCCACGT CACGCCATTG CATTGAATAT AGTCAACGGT
ATGGTCAAAA TAGTCAACGA TCAGACGGTC ACGGTCTGTG CTGGTGTAAG GGTGCGAAAG
GACAAAGTTT AGThe 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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