lrrc9 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following lrrc9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the lrrc9 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
OXa63824 XM_018096335.2
Latest version!
Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa63825 XM_012968697.3
Latest version!
Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa63826 XM_031890598.1
Latest version!
Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa01128 NM_001079279.1
Latest version!
Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa29585 XM_018096335.1
Latest version!
Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa29585 XM_018096336.1
Latest version!
Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa29586 XM_012968697.2
Latest version!
Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    CloneID OXa63824
    Clone ID Related Accession (Same CDS sequence) XM_018096335.2
    Accession Version XM_018096335.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4545bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product leucine-rich repeat-containing protein 9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018096335.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGG AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACG CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CACCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CACAACACAC AGTGTATTCC CCCAGCATTA TATAAATCAC CATGA

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

    RefSeq XP_017951824.1
    CDS164..4708
    Translation

    Target ORF information:

    RefSeq Version XM_018096335.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018096335.2

    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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGG AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACG CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CACCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CACAACACAC AGTGTATTCC CCCAGCATTA TATAAATCAC CATGA

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

    CloneID OXa63825
    Clone ID Related Accession (Same CDS sequence) XM_012968697.3
    Accession Version XM_012968697.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4539bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product leucine-rich repeat-containing protein 9 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012968697.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGG AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACG CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CACCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CTACTAGGTA ACGAGAACGT ACGGCAAAAT CGCCCATGA

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

    RefSeq XP_012824151.1
    CDS163..4701
    Translation

    Target ORF information:

    RefSeq Version XM_012968697.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012968697.3

    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
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGG AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACG CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CACCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CTACTAGGTA ACGAGAACGT ACGGCAAAAT CGCCCATGA

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

    CloneID OXa63826
    Clone ID Related Accession (Same CDS sequence) XM_031890598.1
    Accession Version XM_031890598.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4524bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product leucine-rich repeat-containing protein 9 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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 :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGG AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACG CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CACCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    ATGCAGAGAA ATCTGAGTGA TTAG

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

    RefSeq XP_031746458.1
    CDS164..4687
    Translation

    Target ORF information:

    RefSeq Version XM_031890598.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031890598.1

    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
    4261
    4321
    4381
    4441
    4501
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGG AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACG CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CACCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    ATGCAGAGAA ATCTGAGTGA TTAG

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

    CloneID OXa01128
    Clone ID Related Accession (Same CDS sequence) NM_001079279.1
    Accession Version NM_001079279.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 2019-12-28
    Organism Xenopus tropicalis(tropical clawed frog)
    Product leucine-rich repeat-containing protein 9
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC125746.1. ##Evidence-Data-START## Transcript exon combination :: BC125746.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028294, SAMD00028295 [ECO:0000348] ##Evidence-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
    ATGTTTTTCT CTGGATACCC CAAGATGGCG GGGCTTTCCT ACTTTCCAAA TCTCACCCAA 
    CTCATTCTTG TTGGACAAAA TATACATTGT ATTGCTGGTC TGGAGTCTTG TCATTTTCTT
    AAGGAACTGT GGATTACTGA GTGTCACTTA AGTAAAATTC AGGGCCTTCA TCATTGTGCA
    GATTTGCAAA AGCTTTACCT TTATCATAAC GAAATTTCTG TTATCGAGGG TCTAGAAAAC
    CTGCTCAAGT TGGAAGTGTT ATGGCTGAAT AATAATCAAA TTAACGTAAT AGAGGGATTA
    GATATGATGC AGAATTTAAA AGAGCTCAAT CTTGCCAACA ATTTAATACA TTCCATAGGA
    GAGAGCTTAG ATCCTAATGT ACAACTTGAA AGACTAAATC TGTCTGGTAA CAAAATATCC
    TCTTTCAAGG AACTGACCAA TTTAGCAAGG TTGCCAAGCC TAATGGACTT GGGTCTGAAG
    GATCCACAGT ATAGCCCTAA TCCTGTCTGC CTTCTCTGCA ACTATGCTAT ACATGTATTA
    TATCACATAC CTCAGCTGCA GAGACTTGAC ACGTATGATG TATCTGAGAA GCAGATCAAG
    AACCTTGCTG AATCTACAGT GGTTAAGAAA ATAATGTATT ATAACATGCG TATGAAGAAT
    AACCAAAGGC AACAAAGAGA GGAACTTGAA AAAGTGAGAG AAAGGACATC CAAGGCAAAG
    CAGGTTCCAG AGAATCGGAT CAGAGCACTT AGTTTCTTAG TCAAAAATTT AGAGCATGAA
    CTCACTGACA TGAAGTCATC TGGCAACATG CAAGCAAATA TTCCCATTTC CAATAAGTTT
    CATGAGAATA ACTGTGACAC AGAAGAGTCA AACTCACAGC AATCCAGTGA AAGACGCAAG
    AATAATTCAG ATCGTCTGGA GCAGATCCAT AAAAAAATAT GTGCACTGAA AGAAAGGATG
    ATATTCTGGA CAAGGAAATT GTCTGAAGTA GAAAAACATC ATGAGGAAAA ATGTAGAAGG
    ATGAAAGATA GCTTCCACCT GCTAGACCAG TTTCTTCAGA CTGAGCTTGA AACTGTCGGG
    AATGTACGCT TTGAAGAAGG CACTGCAGCA GATTCATGGT TTAAATCTTG CTATGATTTG
    ATTGTTTCGA GATTTTGTGC AATGAACTTT AGAGCTTATG GAATTTCGGG CATTAAAATT
    CACAGAATAG TCAGAGTACA CAATCGTATT CTTAGACTAA AATTTGAAGA TAAAGTGCAG
    TACTGGATGG ATAATGAAGA CCTGTACACC ACAGAGAGCT ACAAGAAAAA ACTGGAGTAT
    CTTTTTTACA TATTTGACCC CAAACTCCCT ATAGATAAAA AGGAACTTCT TCACGTTCTT
    GAAAATGGCT GCAATATCAC CAGGTCATCC CAGCTGCCTG AACAAGAACA AGTTGAGGCT
    GTTCTACTTA CTAACAGTAT GAGTTTGTGC GAGGGACCAA GATTAGAGTT CTTACAAAAA
    CAAGCAATGA ACAAGAGCTG CGATCCAGAG GCTTTTAAAG ATGGTATAAT TGTCATTGCT
    AAAGTGTTTC TGGGACGAAG TGTAAAAGCA CGGGATGATC TTCCTATCAA GCCAAATAAT
    TATGCAAAGG TGAATTCAGT CTACAGACTG CAGAAGTTTG CAAACAGCAC CTTTAATTCA
    TTAAATGATG AAATCTGTTC TTCTAAGGAA CATGGGAACT GTGATTGCAG TCTGCGACAG
    TGCGAGTGGC TTGTGTTTGA TCATGAATTC ATTTTGCCTG AATACGTTGT CGAGTTTGAA
    TACATTTCCA TGGAAAAGTC ATCAGGGTTT GTCACGCCAT CTAATGAAAA TGCTGAAGAT
    GTATCACATG ATCTTAAGCT TGATGAAGAT GCCATTGCTC TAGAACCTTT TTTAAAGCCA
    AAACCCAAAA TTATCAGCCT CGATGAAAAG ACAGTTCTAT CAGTGGCTAG AGCTAATATT
    TATAGCCAGA TAACAGTCCT AAATTTACAT GGAAACAGTC TAAGTAAACT GAAAGATATC
    TCAAGACTAA ACGGACTTCG AAAACTCATT ATAAGCTTTA ATGAGTTTTC TAGCTTGGAA
    GATGTGTCTT ACCTGACTAA TTTGGAATAC TTGGATGCCA GCCACAATCA GGTGATAACT
    CTGGAAGGAT TTAAAGGTTT AGGAAAACTG AAGTACTTAG ACTTAAGTTG GAACAAGTTG
    ACTAATAGCA GAGAAGATCT ACACATTTTA CGTAAGCATG CAATACAGCT TTCATCCCTG
    GACATTCGAT ACAATTTCTG GCAAAAGCCA GCTTCAGTGC TCAAGGACAC TATTGCAATA
    TTGCCATCAT TGACTCATTT GAATGGTGTC ACCATAACAG AAGATGAGAT TTCGGAGGCT
    TTGCAGATTT CCTCTGGGTC CAGAATTACA CAGGCTTCAC TACTAATCAA CGCAAGGACA
    GATACTGTAA AACCGCGCTG CCTAAATTTA TTGCCATCTG CACAAATTCT TGCTCAATTT
    AGCAAGAACT GTCTGGATCC AAATGCTGAA CTGAGTAACA GTTGGTACAC CAAGATAACC
    TCCCTGACCT TAGACAGCCA GAATCTCGTC AGAATTACAA ACCTGGAAAA ACTAGTAAAT
    CTACGATGGG CATCTTTCAG CAGCAACCAT TTGACAAAAA TCGAGGGATT GGAACATTGT
    GTGAATCTGG AAGAGCTTAA CCTTGATGAT AACTCCATCT CCAAACTAGA GGGGCTTTCA
    AAGCTGACTA AATTAAGAAG GCTAAGTATT AATAACAATC TCCTTGCTGG CTTTGACAGA
    CATGTTATTG AGAGCCTGTC TCATCTTCAC TTCCTTTCTG CTGAGAACAA CAATATCAGC
    TCACTAGCTG GTCTGCAGAG AGGTTACAAA TTAATTGAAC TGTACCTCAG CAATAACTGT
    ATCAGTAGCA ACCAAGAAAT CTACAGTCTG AAGGGTTTAA ATAACTTAGT AATTCTGGAT
    ATGTGGGGCA ATCCAATTCT GTTGAAACAC GAGAACTACA GATTATTTGT TATTTTCCAT
    CTTTCTGCCA TAAAAGCTTT GGATGGCGTT GCAGTGGAAC CATCAGAATG TGAGAATGCT
    AAGGATATGT TTGGCGGAAG ACTTACATCT GATATGATTG CAGAAAGAAT AGGCCACCAG
    AGATTTACTG AATTGCAGGA CTTAAACTGG AGAACTTCAT CTATCAGATC AATTGATCTT
    GTTCCTGCTG ACCACTTTAG GAACGTGCAA ACTGTGAATT TAGAGAATAA TAATCTCACG
    TCATTCAGCG GATTAATTTT CCTTCCAAAT ATTAAGAACC TGTATCTTAA TCACAATCGC
    ATTGAATCGA TTTTGCCCCA ACAAAAGTCT CAAAGTCACC TTACTAACAG ACAGATCCTT
    CACCAGAAAG TCAGTTCCAG TGGTTATGGA CAACAAGGAA CTTCCAAGGG AAGCCGAGAT
    ACAGTATATG GAGAAGCCCT AAGTCCAGTA ATGCAAAGTT TAGAAGTTCT TCACCTGGGT
    TACAATGGCA TCAATAGTCT GCCCATGCTT CAGCTAGGCA GGTTACGAAA TCTGAAATCA
    CTGTATTTGC AAGGTAATGA AATTAGTCAT GTGGAAGGTC TTGAAAATCT ACAGTTTCTC
    CGAGAGCTTG TGTTAGACCA TAACCGTATT AAAGCTATTG CAGAGACATC ATTTGCCAAA
    CTGAATTCTC TGGTCTCTCT TAATCTGGAA GAAAACAGAC TCCGGGACCT AAATAACTTA
    CCGCCTCTTC TTAAGTTAAG AAAGCTACTT ATTGGTTCCA ATAAAATTCA GGAAATATCT
    GAAATAGAAA AACTTGAAGT TATTCCAGCA CTGGTGGAAC TTTCTATTTC TGGAAATCCA
    ATTTCCCGCA AGCCTTTCCT CCGAAATCTG CTTGTTGTTC GTTTGCAAAA CCTGCAGATA
    TTAGATGGCA TTCTCATAAC TGCAGAAGAC AGAGCAAGAG CAGAAATGTA TTTCATGGAA
    CAGCAGTCAC TGACTGTTCC GAATGCAGTA ATGGATCTGG GGAATCCTGT TTCCACTATG
    ATTGTGAGCA AGCCTTTGCC ACTACGTGTA ACTAACTTCC CTCTGGCAGG AGGGGCCCAC
    CACTCCCTTG GTGCTGACCT CCATTTTAAT AATGGCCATG AAGACATCTT TCAAAATGAA
    GCAAACAAGT ACAAGAAGTT AAAGAATTAC ACTGTAGGTG TAGGACATAA TCCACAGAAC
    ACCCAAGATA TTGCCTTGAG GCAGCTCAGA GGAGGAACAC ATTTTCCTGC ATCCTACTTA
    ACTCAACAAA GTGGCCAAGC TCGCAGCCAA CAAAAGCACC CATTCAATCA AGAAAATGAG
    GGAAGGTGTG TATAA

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

    RefSeq NP_001072747.1
    CDS203..4597
    Translation

    Target ORF information:

    RefSeq Version NM_001079279.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001079279.1

    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
    4261
    4321
    4381
    ATGTTTTTCT CTGGATACCC CAAGATGGCG GGGCTTTCCT ACTTTCCAAA TCTCACCCAA 
    CTCATTCTTG TTGGACAAAA TATACATTGT ATTGCTGGTC TGGAGTCTTG TCATTTTCTT
    AAGGAACTGT GGATTACTGA GTGTCACTTA AGTAAAATTC AGGGCCTTCA TCATTGTGCA
    GATTTGCAAA AGCTTTACCT TTATCATAAC GAAATTTCTG TTATCGAGGG TCTAGAAAAC
    CTGCTCAAGT TGGAAGTGTT ATGGCTGAAT AATAATCAAA TTAACGTAAT AGAGGGATTA
    GATATGATGC AGAATTTAAA AGAGCTCAAT CTTGCCAACA ATTTAATACA TTCCATAGGA
    GAGAGCTTAG ATCCTAATGT ACAACTTGAA AGACTAAATC TGTCTGGTAA CAAAATATCC
    TCTTTCAAGG AACTGACCAA TTTAGCAAGG TTGCCAAGCC TAATGGACTT GGGTCTGAAG
    GATCCACAGT ATAGCCCTAA TCCTGTCTGC CTTCTCTGCA ACTATGCTAT ACATGTATTA
    TATCACATAC CTCAGCTGCA GAGACTTGAC ACGTATGATG TATCTGAGAA GCAGATCAAG
    AACCTTGCTG AATCTACAGT GGTTAAGAAA ATAATGTATT ATAACATGCG TATGAAGAAT
    AACCAAAGGC AACAAAGAGA GGAACTTGAA AAAGTGAGAG AAAGGACATC CAAGGCAAAG
    CAGGTTCCAG AGAATCGGAT CAGAGCACTT AGTTTCTTAG TCAAAAATTT AGAGCATGAA
    CTCACTGACA TGAAGTCATC TGGCAACATG CAAGCAAATA TTCCCATTTC CAATAAGTTT
    CATGAGAATA ACTGTGACAC AGAAGAGTCA AACTCACAGC AATCCAGTGA AAGACGCAAG
    AATAATTCAG ATCGTCTGGA GCAGATCCAT AAAAAAATAT GTGCACTGAA AGAAAGGATG
    ATATTCTGGA CAAGGAAATT GTCTGAAGTA GAAAAACATC ATGAGGAAAA ATGTAGAAGG
    ATGAAAGATA GCTTCCACCT GCTAGACCAG TTTCTTCAGA CTGAGCTTGA AACTGTCGGG
    AATGTACGCT TTGAAGAAGG CACTGCAGCA GATTCATGGT TTAAATCTTG CTATGATTTG
    ATTGTTTCGA GATTTTGTGC AATGAACTTT AGAGCTTATG GAATTTCGGG CATTAAAATT
    CACAGAATAG TCAGAGTACA CAATCGTATT CTTAGACTAA AATTTGAAGA TAAAGTGCAG
    TACTGGATGG ATAATGAAGA CCTGTACACC ACAGAGAGCT ACAAGAAAAA ACTGGAGTAT
    CTTTTTTACA TATTTGACCC CAAACTCCCT ATAGATAAAA AGGAACTTCT TCACGTTCTT
    GAAAATGGCT GCAATATCAC CAGGTCATCC CAGCTGCCTG AACAAGAACA AGTTGAGGCT
    GTTCTACTTA CTAACAGTAT GAGTTTGTGC GAGGGACCAA GATTAGAGTT CTTACAAAAA
    CAAGCAATGA ACAAGAGCTG CGATCCAGAG GCTTTTAAAG ATGGTATAAT TGTCATTGCT
    AAAGTGTTTC TGGGACGAAG TGTAAAAGCA CGGGATGATC TTCCTATCAA GCCAAATAAT
    TATGCAAAGG TGAATTCAGT CTACAGACTG CAGAAGTTTG CAAACAGCAC CTTTAATTCA
    TTAAATGATG AAATCTGTTC TTCTAAGGAA CATGGGAACT GTGATTGCAG TCTGCGACAG
    TGCGAGTGGC TTGTGTTTGA TCATGAATTC ATTTTGCCTG AATACGTTGT CGAGTTTGAA
    TACATTTCCA TGGAAAAGTC ATCAGGGTTT GTCACGCCAT CTAATGAAAA TGCTGAAGAT
    GTATCACATG ATCTTAAGCT TGATGAAGAT GCCATTGCTC TAGAACCTTT TTTAAAGCCA
    AAACCCAAAA TTATCAGCCT CGATGAAAAG ACAGTTCTAT CAGTGGCTAG AGCTAATATT
    TATAGCCAGA TAACAGTCCT AAATTTACAT GGAAACAGTC TAAGTAAACT GAAAGATATC
    TCAAGACTAA ACGGACTTCG AAAACTCATT ATAAGCTTTA ATGAGTTTTC TAGCTTGGAA
    GATGTGTCTT ACCTGACTAA TTTGGAATAC TTGGATGCCA GCCACAATCA GGTGATAACT
    CTGGAAGGAT TTAAAGGTTT AGGAAAACTG AAGTACTTAG ACTTAAGTTG GAACAAGTTG
    ACTAATAGCA GAGAAGATCT ACACATTTTA CGTAAGCATG CAATACAGCT TTCATCCCTG
    GACATTCGAT ACAATTTCTG GCAAAAGCCA GCTTCAGTGC TCAAGGACAC TATTGCAATA
    TTGCCATCAT TGACTCATTT GAATGGTGTC ACCATAACAG AAGATGAGAT TTCGGAGGCT
    TTGCAGATTT CCTCTGGGTC CAGAATTACA CAGGCTTCAC TACTAATCAA CGCAAGGACA
    GATACTGTAA AACCGCGCTG CCTAAATTTA TTGCCATCTG CACAAATTCT TGCTCAATTT
    AGCAAGAACT GTCTGGATCC AAATGCTGAA CTGAGTAACA GTTGGTACAC CAAGATAACC
    TCCCTGACCT TAGACAGCCA GAATCTCGTC AGAATTACAA ACCTGGAAAA ACTAGTAAAT
    CTACGATGGG CATCTTTCAG CAGCAACCAT TTGACAAAAA TCGAGGGATT GGAACATTGT
    GTGAATCTGG AAGAGCTTAA CCTTGATGAT AACTCCATCT CCAAACTAGA GGGGCTTTCA
    AAGCTGACTA AATTAAGAAG GCTAAGTATT AATAACAATC TCCTTGCTGG CTTTGACAGA
    CATGTTATTG AGAGCCTGTC TCATCTTCAC TTCCTTTCTG CTGAGAACAA CAATATCAGC
    TCACTAGCTG GTCTGCAGAG AGGTTACAAA TTAATTGAAC TGTACCTCAG CAATAACTGT
    ATCAGTAGCA ACCAAGAAAT CTACAGTCTG AAGGGTTTAA ATAACTTAGT AATTCTGGAT
    ATGTGGGGCA ATCCAATTCT GTTGAAACAC GAGAACTACA GATTATTTGT TATTTTCCAT
    CTTTCTGCCA TAAAAGCTTT GGATGGCGTT GCAGTGGAAC CATCAGAATG TGAGAATGCT
    AAGGATATGT TTGGCGGAAG ACTTACATCT GATATGATTG CAGAAAGAAT AGGCCACCAG
    AGATTTACTG AATTGCAGGA CTTAAACTGG AGAACTTCAT CTATCAGATC AATTGATCTT
    GTTCCTGCTG ACCACTTTAG GAACGTGCAA ACTGTGAATT TAGAGAATAA TAATCTCACG
    TCATTCAGCG GATTAATTTT CCTTCCAAAT ATTAAGAACC TGTATCTTAA TCACAATCGC
    ATTGAATCGA TTTTGCCCCA ACAAAAGTCT CAAAGTCACC TTACTAACAG ACAGATCCTT
    CACCAGAAAG TCAGTTCCAG TGGTTATGGA CAACAAGGAA CTTCCAAGGG AAGCCGAGAT
    ACAGTATATG GAGAAGCCCT AAGTCCAGTA ATGCAAAGTT TAGAAGTTCT TCACCTGGGT
    TACAATGGCA TCAATAGTCT GCCCATGCTT CAGCTAGGCA GGTTACGAAA TCTGAAATCA
    CTGTATTTGC AAGGTAATGA AATTAGTCAT GTGGAAGGTC TTGAAAATCT ACAGTTTCTC
    CGAGAGCTTG TGTTAGACCA TAACCGTATT AAAGCTATTG CAGAGACATC ATTTGCCAAA
    CTGAATTCTC TGGTCTCTCT TAATCTGGAA GAAAACAGAC TCCGGGACCT AAATAACTTA
    CCGCCTCTTC TTAAGTTAAG AAAGCTACTT ATTGGTTCCA ATAAAATTCA GGAAATATCT
    GAAATAGAAA AACTTGAAGT TATTCCAGCA CTGGTGGAAC TTTCTATTTC TGGAAATCCA
    ATTTCCCGCA AGCCTTTCCT CCGAAATCTG CTTGTTGTTC GTTTGCAAAA CCTGCAGATA
    TTAGATGGCA TTCTCATAAC TGCAGAAGAC AGAGCAAGAG CAGAAATGTA TTTCATGGAA
    CAGCAGTCAC TGACTGTTCC GAATGCAGTA ATGGATCTGG GGAATCCTGT TTCCACTATG
    ATTGTGAGCA AGCCTTTGCC ACTACGTGTA ACTAACTTCC CTCTGGCAGG AGGGGCCCAC
    CACTCCCTTG GTGCTGACCT CCATTTTAAT AATGGCCATG AAGACATCTT TCAAAATGAA
    GCAAACAAGT ACAAGAAGTT AAAGAATTAC ACTGTAGGTG TAGGACATAA TCCACAGAAC
    ACCCAAGATA TTGCCTTGAG GCAGCTCAGA GGAGGAACAC ATTTTCCTGC ATCCTACTTA
    ACTCAACAAA GTGGCCAAGC TCGCAGCCAA CAAAAGCACC CATTCAATCA AGAAAATGAG
    GGAAGGTGTG TATAA

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

    CloneID OXa29585
    Clone ID Related Accession (Same CDS sequence) XM_018096335.1 , XM_018096336.1
    Accession Version XM_018096335.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4545bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product leucine-rich repeat-containing protein 9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) 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 Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGA AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACA CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CATCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CACAACACAC AGTGTATTCC CCCAGCATTA TATAAATCAC CATGA

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

    RefSeq XP_017951824.1
    CDS190..4734
    Translation

    Target ORF information:

    RefSeq Version XM_018096335.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018096335.1

    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
    4261
    4321
    4381
    4441
    4501
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGA AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACA CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CATCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CACAACACAC AGTGTATTCC CCCAGCATTA TATAAATCAC CATGA

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

    CloneID OXa29585
    Clone ID Related Accession (Same CDS sequence) XM_018096335.1 , XM_018096336.1
    Accession Version XM_018096336.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4545bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product leucine-rich repeat-containing protein 9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) 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 Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGA AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACA CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CATCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CACAACACAC AGTGTATTCC CCCAGCATTA TATAAATCAC CATGA

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

    RefSeq XP_017951825.1
    CDS653..5197
    Translation

    Target ORF information:

    RefSeq Version XM_018096336.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018096336.1

    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
    4261
    4321
    4381
    4441
    4501
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGA AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACA CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CATCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CACAACACAC AGTGTATTCC CCCAGCATTA TATAAATCAC CATGA

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

    CloneID OXa29586
    Clone ID Related Accession (Same CDS sequence) XM_012968697.2
    Accession Version XM_012968697.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4539bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product leucine-rich repeat-containing protein 9 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012968697.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGA AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACA CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CATCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CTACTAGGTA ACGAGAACGT ACGGCAAAAT CGCCCATGA

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

    RefSeq XP_012824151.1
    CDS188..4726
    Translation

    Target ORF information:

    RefSeq Version XM_012968697.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis leucine rich repeat containing 9 (lrrc9), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012968697.2

    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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGCTGTCAA ATGAAAACTT GAATTCTGAA GAAATCATAA GAGAATTGTG TGCGTGCAAT 
    GGCTTAAGTT TTGAGAAGAT CAGACAGGAT GGACCAGCGA CAACAACACT GGAAATGTTT
    TTCTCTGGAT ACCCCAAGAT GGCGGGGCTT TCCTACTTTC CAAATCTCAC CCAACTCATT
    CTTGTTGGAC AAAATATACA TTGTATTGCT GGTCTGGAGT CTTGTCATTT TCTTAAGGAA
    CTGTGGATTA CTGAGTGTCA CTTAAGTAAA ATTCAGGGCC TTCATCATTG TGCAGATTTG
    CAAAAGCTTT ACCTTTATCA TAACGAAATT TCTGTTATCG AGGGTCTAGA AAACCTGCTC
    AAGTTGGAAG TGTTATGGCT GAATAATAAT CAAATTAACG TAATAGAGGG ATTAGATATG
    ATGCAGAATT TAAAAGAGCT CAATCTTGCC AACAATTTAA TACATTCCAT AGGAGAGAGC
    TTAGATCCTA ATGTACAACT TGAAAGACTA AATCTGTCTG GTAACAAAAT ATCCTCTTTC
    AAGGAACTGA CCAATTTAGC AAGGTTGCCA AGCCTAATGG ACTTGGGTCT GAAGGATCCA
    CAGTATAGCC CTAATCCTGT CTGCCTTCTC TGCAACTATG CTATACATGT ATTATATCAC
    ATACCTCAGC TGCAGAGACT TGACACGTAT GATGTATCTG AGAAGCAGAT CAAGAACCTT
    GCTGAATCTA CAGTGGTTAA GAAAATAATG TATTATAACA TGCGTATGAA GAATAACCAA
    AGGCAACAAA GAGAGGAACT TGAAAAAGTG AGAGAAAGGA CATCCAAGGC AAAGCAGGTT
    CCAGAGAATC GGATCAGAGC ACTTAGTTTC TTAGTCAAAA ATTTAGAGCA TGAACTCACT
    GACATGCAGT CATCTGGCAA CATGCAAGCA AATATTCCCA TTTCCAATAA GTTTCATGAG
    AATAACTGTG ACACAGAAGA GTCAAACTCA CAGCAATCCA GTGAAAGACG CAAGAATAAT
    TCAGATCGTC TGGAGCAGAT CCATAAAAAA ATATGTGCAC TGAAAGAAAG GATGATATTC
    TGGACAAGGA AATTGTCTGA AGTAGAAAAA CATCATGAGG AAAAATGTAG AAGGATGAAA
    GATAGCTTCC ACCTGCTAGA CCAGTTTCTT CAGACTGAGC TTGAAACTGT CGGGAATGTA
    CGCTTTGAAG AAGGCACTGC AGCAGATTCA TGGTTTAAAT CTTGCTATGA TTTGATTGTT
    TCGAGATTTT GTGCAATGAA CTTTAGAGCT TATGGAATTT CGGGCATTAA AATTCACAGA
    ATAGTCAGAG TACACAATCG TATTCTTAGA CTAAAATTTG AAGATAAAGT GCAGTACTGG
    ATGGATAATG AAGACCTGTA CACCACAGAG AGCTACAAGA AAAAACTGGA GTATCTTTTT
    TACATATTTG ACCCCAAACT CCCTATAGAT AAAAAGGAAC TTCTTCACGT TCTTGAAAAT
    GGCTGCAATA TCACCAGGTC ATCCCAGCTG CCTGAACAAG AACAAGTTGA GGCTGTTCTA
    CTTACTAACA GTATGAGTTT GTGCGAGGGA CCAAGATTAG AGTTCTTACA AAAACAAGCA
    ATGAACAAGA GCTGCGATCC AGAGGCTTTT AAAGATGGTA TAATTGTCAT TGCTAAAGTG
    TTTCTGGGAC GAAGTGTAAA AGCACGGGAT GATCTTCCTA TCAAGCCAAA TAATTATGCA
    AAGGTGAATT CAGTCTACAG ACTGCAGAAG TTTGCAAACA GCACCTTTAA TTCATTAAAT
    GATGAAATCT GTTCTTCTAA GGAACATGGA AACTGTGATT GCAGTCTGCG ACAGTGCGAG
    TGGCTTGTGT TTGATCATGA ATTCATTTTG CCTGAATACG TTGTCGAGTT TGAATACATT
    TCCATGGAAA AGTCATCAGG GTTTGTCACA CCATCTAATG AAAATGCTGA AGATGTATCA
    CATGATCTTA AGCTTGATGA AGATGCCATT GCTCTAGAAC CTTTTTTAAA GCCAAAACCC
    AAAATTATCA GCCTCGATGA AAAGACAGTT CTATCAGTGG CTAGAGCTAA TATTTATAGC
    CAGATAACAG TCCTAAATTT ACATGGAAAC AGTCTAAGTA AACTGAAAGA TATCTCAAGA
    CTAAACGGAC TTCGAAAACT CATTATAAGT TTTAATGAGT TTTCTAGCTT GGAAGATGTG
    TCTTACCTGA CTAATTTGGA ATACTTGGAT GCCAGCCACA ATCAGGTGAT AACTCTGGAA
    GGATTTAAAG GTTTAGGAAA ACTGAAGTAC TTAGACTTAA GTTGGAACAA GTTGACTAAT
    AGCAGAGAAG ATCTACACAT TTTACGTAAG CATGCAATAC AGCTTTCATC CCTGGACATT
    CGATACAATT TCTGGCAAAA GCCAGCTTCA GTGCTCAAGG ACACTATTGC AATATTGCCA
    TCATTGACTC ATTTGAATGG TGTCACCATA ACAGAAGATG AGATTTCGGA GGCTTTGCAG
    ATTTCCTCTG GGTCCAGAAT TACACAGGCT TCACTACTAA TCAACGCAAG GACAGATACT
    GTAAAACCGC GCTGCCTAAA TTTATTGCCA TCTGCACAAA TTCTTGCTCA ATTTAGCAAG
    AACTGTCTGG ATCCAAATGC TGAACTGAGT AACAGTTGGT ACACCAAGAT AACCTCCCTG
    ACCTTAGACA GCCAGAATCT CGTCAGAATT ACAAACCTGG AAAAACTAGT AAATCTACGA
    TGGGCATCTT TCAGCAGCAA CCATTTGACA AAAATCGAGG GATTGGAACA TTGTGTGAAT
    CTGGAAGAGC TTAACCTTGA TGATAACTCC ATCTCCAAAC TAGAGGGGCT TTCAAAGCTG
    ACTAAATTAA GAAGGCTAAG TATTAATAAC AATCTCCTTG CTGGCTTTGA CAGACATGTT
    ATTGAGAGCC TGTCTCATCT TCACTTCCTT TCTGCTGAGA ACAACAATAT CAGCTCACTA
    GCTGGTCTGC AGAGAGGTTA CAAATTAATT GAACTGTACC TCAGCAATAA CTGTATCAGT
    AGCAACCAAG AAATCTACAG TCTGAAGGGT TTAAATAACT TAGTAATTCT GGATATGTGG
    GGCAATCCAA TTCTGTTGAA ACACGAGAAC TACAGATTAT TTGTTATTTT CCATCTTTCT
    GCCATAAAAG CTTTGGATGG CGTTGCAGTG GAACCATCAG AATGTGAGAA TGCTAAGGAT
    ATGTTTGGCG GAAGACTTAC ATCTGATATG ATTGCAGAAA GAATAGGCCA CCAGAGATTT
    ACTGAATTGC AGGACTTAAA CTGGAGAACT TCATCTATCA GATCAATTGA TCTTGTTCCT
    GCTGACCACT TTAGGAACGT GCAAACTGTG AATTTAGAGA ATAATAATCT CACGTCATTC
    AGCGGATTAA TTTTCCTTCC AAATATTAAG AACCTGTATC TTAATCACAA TCGCATTGAA
    TCGATTTTGC CCCAACAAAA GTCTCAAAGT CATCTTACTA ACAGACAGAT CCTTCACCAG
    AAAGTCAGTT CCAGTGGTTA TGGACAACAA GGAACTTCCA AGGGAAGCCG AGATACAGTA
    TATGGAGAAG CCCTAAGTCC AGTAATGCAA AGTTTAGAAG TTCTTCACCT GGGTTACAAT
    GGCATCAATA GTCTGCCCAT GCTTCAGCTA GGCAGGTTAC GAAATCTGAA ATCACTGTAT
    TTGCAAGGTA ATGAAATTAG TCATGTGGAA GGTCTTGAAA ATCTACAGTT TCTCCGAGAG
    CTTGTGTTAG ACCATAACCG TATTAAAGCT ATTGCAGAGA CATCATTTGC CAAACTGAAT
    TCTCTGGTCT CTCTTAATCT GGAAGAAAAC AGACTCCGGG ACCTAAATAA CTTACCGCCT
    CTTCTTAAGT TAAGAAAGCT ACTTATTGGT TCCAATAAAA TTCAGGAAAT ATCTGAAATA
    GAAAAACTTG AAGTTATTCC AGCACTGGTG GAACTTTCTA TTTCTGGAAA TCCAATTTCC
    CGCAAGCCTT TCCTCCGAAA TCTGCTTGTT GTTCGTTTGC AAAACCTGCA GATATTAGAT
    GGCATTCTCA TAACTGCAGA AGACAGAGCA AGAGCAGAAA TGTATTTCAT GGAACAGCAG
    TCACTGACTG TTCCGAATGC AGTAATGGAT CTGGGGAATC CTGTTTCCAC TATGATTGTG
    AGCAAGCCTT TGCCACTACG TGTAACTAAC TTCCCTCTGG CAGGAGGGGC CCACCACTCC
    CTTGGTGCTG ACCTCCATTT TAATAATGGC CATGAAGACA TCTTTCAAAA TGAAGCAAAC
    AAGTACAAGA AGTTAAAGAA TTACACTGTA GGTGTAGGAC ATAATCCACA GAACACCCAA
    GATATTGCCT TGAGGCAGCT CAGAGGAGGA ACACATTTTC CTGCATCCTA CTTAACTCAA
    CAAAGTGGCC AAGCTCGCAG CCAACAAAAG CACCCATTCA ATCAAGAAAA TGAGGGAAGG
    CTACTAGGTA ACGAGAACGT ACGGCAAAAT CGCCCATGA

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