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Nbea (NM_030595) Mouse Tagged ORF Clone

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SKU
MR221055
Nbea (Myc-DDK-tagged) - Mouse neurobeachin (Nbea). Note: ORF is codon optimized
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: DDK tGFP
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Datasheet SDS Plasmid Map
NM_030595 in other vectors (2)
Reconstitution Protocol
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$2,616.00
2 Weeks*
Size
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AR100028M DDKTrap Anti-DDK 8G6 affinity resin used for the purification of DDK, DYKDDDDK, or FLAG® tagged proteins , 5 mL 5 ml
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Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Nbea
Synonyms Lyst2; mKIAA1544
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MR221055 representing NM_030595, codon optimized.
Due to the complexity of NM_030595, the ORF clone is codon optimized for mammalian Expression.
The nucleotide sequence differs from the reference sequence, yet the amino acid sequence remains identical.

Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCGAGCGACAAGCCGGGCCCGGGGCTCGAGCCGCAGCCCGTCGCGCTCCTGGCCGTCGGGGCCGGCG
GCGGTGCAGGCGGCGGAGGCGCCATGGGGGAGCCTCGGGGGGCGGCCGGCTCCGGCCCGGTGGTGCTGCC
GGCGGGCATGATCAACCCTTCGGTGCCGATCCGCAACATCCGTATGAAATTCGCCGTTCTGATCGGACTC
ATACAGGTCGGCGAGGTCAGCAACAGGGACATCGTGGAGACCGTGCTCAACCTGCTGGTTGGTGGGGAAT
TTGATTTGGAGATGAACTTTATTATCCAGGATGCTGAGAGCATAACATGTATGACAGAGCTTTTGGAGCA
CTGTGATGTGACATGCCAAGCAGAAATATGGAGCATGTTTACAGCCATCCTACGGAAGAGTGTTCGGAAT
TTACAGACCAGCACAGAAGTGGGGCTAATTGAGCAAGTGTTGCTGAAAATGAGTGCAGTAGATGACATGA
TAGCAGATCTTCTAGTGGATATGCTGGGAGTTCTGGCAAGCTACAGCATTACTGTCAAGGAGCTAAAGCT
TTTATTCAGCATGCTTCGAGGAGAAAGTGGAATCTGGCCAAGGCATGCAGTAAAATTATTATCAGTTCTT
AATCAGATGCCACAAAGACATGGTCCTGATACATTTTTCAATTTTCCTGGGTGTAGTGCTGCGGCAATTG
CATTGCCTCCCATTGCAAAGTGGCCTTATCAGAATGGCTTCACTCTCAACACTTGGTTTCGAATGGATCC
ATTAAATAACATTAATGTTGATAAGGATAAACCTTATCTGTATTGTTTTCGTACTAGCAAAGGAGTGGGC
TACTCTGCTCATTTTGTTGGCAACTGTTTGATAGTCACATCTCTGAAGTCCAAAGGAAAAGGTTTCCAGC
ACTGTGTGAAGTATGATTTCCAGCCTCGCAAGTGGTACATGATCAGCATCGTCCACATCTACAATCGATG
GAGGAACAGTGAGATCCGTTGTTATGTTAATGGCCAGCTGGTATCCTATGGTGACATGGCTTGGCATGTT
AACACAAATGATAGCTATGACAAGTGCTTTCTTGGATCTTCAGAAACTGCTGATGCCAATAGGGTGTTCT
GTGGCCAGCTTGGGGCTGTGTATGTGTTCAGTGAAGCTCTTAACCCAGCACAGATATTTGCAGTTCATCA
ATTAGGACCTGGTTATAAGAGTACCTTCAAGTTTAAGTCTGAGAGTGATATTCATTTGGCAGAACATCAC
AAACAGGTTCTGTATGATGGGAAGCTTGCCAGTAGTATTGCCTTTTCCTACAACGCCAAGGCCACCGATG
CTCAGCTTTGTCTGGAGTCCTCACCAAAAGAAAATGCATCCATCTTTGTGCACTCCCCACATGCACTGAT
GCTCCAGGATGTGAAAGCTATAGTAACACATTCAATTCATAGTGCAATCCATTCAATTGGAGGGATTCAA
GTACTTTTCCCACTTTTTGCCCAGCTGGACAATCGGCAGCTTAATGACAGTCAAGTAGAAACAACTGTCT
GTGCTACTCTTTTGGCATTCCTGGTTGAACTACTTAAAAGTTCAGTAGCCATGCAAGAACAGATGCTGGG
CGGAAAAGGCTTTTTAGTCATTGGCTACTTACTTGAAAAGTCATCAAGAGTTCATATAACTAGAGCTGTC
TTGGAGCAGTTTTTATCATTTGCAAAATACCTCGATGGCTTATCTCATGGAGCCCCATTGCTGAAGCAGC
TTTGTGACCACATTTTGTTCAATCCCGCCATCTGGATACACACACCTGCAAAGGTTCAACTTTCCCTATA
TACTTACTTGTCTGCTGAGTTCATTGGAACTGCTACCATCTATACCACCATACGCAGAGTTGGGACAGTA
TTGCAGCTCATGCACACATTAAAATATTACTACTGGGTTATTAACCCTGCTGACAGCAGTGGCATTGCAC
CTAAAGGACTAGATGGTCCCCGGCCATCACAAAAAGAAATCATATCACTTCGGGCTTTTATGCTGCTTTT
TCTGAAACAGCTCATATTAAAGGATCGAGGTGTGAAAGAAGATGAACTTCAGAGTATATTAAATTATTTA
CTTACAATGCATGAGGATGAAAATATTCATGATGTCTTACAGTTGTTAGTGGCTCTAATGTCAGAACACC
CAGCCTCAATGATACCAGCATTTGATCAAAGAAATGGAATAAGGGTGATCTACAAATTATTGGCTTCTAA
AAGTGAAAGTATCTGGGTCCAAGCGCTGAAAGTTCTGGGATATTTTTTGAAGCATTTAGGTCATAAGCGA
AAGGTTGAAATTATGCATACCCATAGTCTCTTCACTCTTCTTGGAGAAAGGCTGATGCTGCATACAAACA
CTGTGACTGTCACTACATACAACACACTTTATGAGATCTTGACAGAGCAAGTCTGTACTCAAGTTGTGCA
TAAACCACACCCGGAGCCAGACTCCACAGTCAAAATCCAGAATCCAATGATCCTTAAAGTGGTGGCAACT
CTTCTTAAAAACTCAACTCCGTCAGCCGAGCTGATGGAAGTTAGGAGGCTGTTTCTCTCTGATATGATCA
AACTTTTCAGCAATTCTAGAGAGAATAGGAGATGCCTCCTCCAGTGTAGTGTTTGGCAGGACTGGATGTT
CTCTCTTGGCTACATCAATCCTAAGTCATCCGAAGAGCAAAAGATTACCGAGATGGTGTACAACATCTTT
CGGATCTTGTTGTATCACGCTATCAAGTACGAATGGGGCGGGTGGCGGGTGTGGGTCGATACTCTCTCTA
TAGCCCATAGTAAGGTTACTTATGAAGCGCACAAAGAATATTTGGCCAAAATGTATGAGGAGTACCAGAG
ACAGGAGGAGGAGAATATCAAAAAGGGGAAGAAGGGCAATGTATCTACTATAAGCGGCCTCTCCTCTCAG
ACAGCTGGCGCAAAAGGTGGGATGGAAATCAGGGAAATAGAGGACCTGTCTCAAAGTCAGAGCCCGGAGT
CCGAGACGGACTATCCTGTGTCCACTGACACCCGCGACCTGCTGATGTCCACTAAAGTGAGCGACGACAT
CCTTGGCTCATCCGATCGGCCGGGCTCTGGTGTTCATGTGGAAGTGCACGACCTCCTGGTGGACATCAAA
GCTGAAAAGGTTGAGGCTACGGAGGTGAAGTTGGACGACATGGATCTCTCCCCTGAGACACTCGTGGGGG
GTGAAAACGGGGCCCTGGTTGAAGTGGAATCCCTGCTCGACAATGTGTACAGCGCTGCCGTTGAGAAACT
TCAGAACAATGTACATGGATCTGTCGGAATTATCAAGAAGAATGAAGAAAAGGACAATGGACCACTGATT
ACATTGGCCGACGAGAAGGAGGAGCTTCCTAACAGTAGCACACCGTTCCTTTTCGACAAAATACCTAGAC
AAGAAGAGAAGCTGCTCCCCGAACTGTCAAGTAACCATATCATCCCCAATATTCAGGACACCCAGGTTCA
TCTGGGAGTGTCCGACGATCTGGGCCTCCTTGCGCACATGACAGCCTCCGTTGAATTGACATGTACTTCA
AGTATTATGGAAGAAAAGGACTTTAGGATACATACAACTTCCGACGGCGTAAGTAGTGTGTCAGAGAGGG
AGCTCGCCTCCAGTACTAAAGGACTCGACTATGCAGAAATGACCGCCACTACCCTGGAAACAGAGTCTAG
TAATTCCAAGGCTGTACCTAACGTGGACGCCGGATCTATTATCTCAGACACTGAACGCTCAGATGATGGA
AAAGAGTCTGGTAAAGAGATCCGCAAGATACAGACAACTGCTACAACGCAGGCCGTCCAGGGGAGGTCAT
CCACCCAACAAGACCGGGACCTCAGGGTGGACCTTGGTTTCAGGGGCATGCCGATGACTGAGGAGCAGCG
AAGGCAGTTCAGCCCAGGGCCACGCACGACAATGTTTAGAATTCCCGAATTTAAGTGGTCCCCAATGCAC
CAACGGCTTCTGACTGACTTGCTCTTCGCGCTGGAGACGGACGTCCACGTGTGGCGCAGTCATTCCACAA
AGTCAGTGATGGATTTCGTCAACTCAAACGAGAACATCATCTTCGTTCACAACACTATTCACCTGATCTC
CCAAATGGTTGACAACATAATTATTGCATGCGGAGGGATTCTCCCGCTGTTGTCTGCCGCCACCTCACCC
ACCGGTAGCAAGACTGAACTGGAAAATATCGAAGTGACACAAGGCATGAGTGCCGAAACGGCGGTGACTT
TTCTGAGCCGGCTGATGGCAATGGTGGACGTGCTGGTCTTCGCGTCATCTCTTAACTTCTCTGAGATTGA
GGCCGAGAAAAACATGAGCTCTGGAGGCCTCATGCGGCAGTGTCTTAGACTGGTGTGCTGTGTTGCTGTA
CGCAATTGTCTGGAGTGCCGCCAGCGGCAACGAGACAGGGGTAGCAAATCCAGTCATGGATCCTCAAAGC
CTCAAGAGGCCCCACATAGCGTGACTGCTGCCTCTGCGTCTAAAACGCCCCTCGAAAATGTGCCCGGCAA
TCTTAGCCCAATTAAGGACCCTGACCGACTTCTCCAGGATGTGGACATTAATAGATTGAGAGCTGTGGTT
TTCCGGGACGTGGACGATTCTAAACAGGCCCAGTTCCTGGCGCTTGCAGTGGTCTACTTCATCAGTGTGT
TGATGGTGTCTAAGTACCGAGACATCCTCGAACCTCAGAGGGAAACAGCCCGAACAGGCTCTCAACCGGG
AAGAAATATACGACAGGAGATTAACAGCCCCACGTCCACTGTAGTGGTGATCCCCAGCATACCACATCCT
TCTCTGAACCATGGTCTGCTCGCCAAGCTGATGCCGGAGCAATCTTTCGCTCATAGCTTCTATAAGGAAA
CACCGGCTACGTTCCCCGACACTGTCAAGGAAAAAGAAACGCCAACACCCGGAGAGGACATCCAGTTGGA
ATCTAGTGTTCCCCATACCGATTCCGGAATGGGCGAAGAACAAGTGGCTAGTATCCTTGACGGCGCCGAG
CTGGAGCCAGCGGCCGGCCCTGATGCTATGTCTGAGCTTCTCTCTACGCTGAGCTCCGAGGTGAAGAAGA
GCCAGGAAAGCCTGACAGAGCACCCCAGCGAGATGCTCAAACCAGCGCCTTCCATTTCAAGTATTTCTCA
GACCAAGGGAATCAACGTTAAGGAGATACTGAAGAGCCTGGTCGCAGCTCCTGTCGAGATTGCGGAGTGC
GGCCCTGAGCCCATTCCATATCCAGATCCCGCCCTTAAGCGGGAAGCACATGCTATTCTGCCTATGCAGT
TTCATTCTTTCGATAGGTCAGTTGTGGTTCCCGTAAAAAAGCCACCACCAGGCTCCCTCGCAGTGACCAC
CGTTGGCGCTACTGCAGCCGGATCCGGGCTCCCAACAGGAAGCACGTCCAGTATTTTCGCTGCGCCTGGG
GCCACTCCAAAGAGCATGATTAATACTACGGGTGCCGTCGATAGTGGGTCTTCCAGCTCTAGCAGCAGTT
CCTCCTTCGTGAATGGAGCAACCTCCAAAAATCTGCCCGCTGTCCAGACCGTGGCGCCAATGCCTGAGGA
TTCCGCTGAGAATATGTCTATAACAGCTAAGCTGGAACGCGCTCTGGAGAAGGTCGCCCCACTCCTGAGA
GAGATCTTCGTCGACTTTGCCCCATTCCTTAGCAGAACACTCCTGGGTAGCCATGGCCAGGAGCTCCTGA
TCGAAGGTCTGGTGTGCATGAAGAGCTCTACATCTGTCGTCGAACTGGTTATGCTGCTTTGTTCCCAGGA
GTGGCAAAACTCAATTCAAAAAAATGCCGGACTTGCCTTCATTGAGCTCATAAACGAGGGCCGCCTCCTG
TGCCACGCGATGAAAGACCATATTGTGCGGGTCGCTAACGAGGCCGAGTTTATTCTGAACCGCCAGAGAG
CTGAGGACGTCCACAAGCATGCAGAGTTCGAGTCTCAATGTGCTCAGTATGCTGCCGACAGAAGGGAGGA
GGAAAAAATGTGTGACCACCTCATCAGTGCTGCTAAACACCGCGACCACGTTACTGCCAATCAGCTTAAA
CAGAAAATCCTGAATATCTTGACCAACAAACATGGGGCATGGGGCGCCGTCAGTCACTCCCAACTGCATG
ATTTCTGGCGGCTCGATTATTGGGAAGATGATCTCAGAAGGCGGAGAAGGTTTGTACGGAATGCCTTCGG
AAGCACACACGCCGAGGCCCTTTTGAAGTCCGCCGTTGAATACGGTACCGAAGAGGATGTGGTGAAGTCC
AAGAAAGCTTTCAGAAGCCAAGCGATTGTGAACCAGAACTCAGAGACTGAGCTGATGCTGGAAGGAGATG
ATGATGCCGTCAGCCTGCTCCAGGAGAAAGAAATTGACAACCTTGCAGGCCCTGTGGTTCTCAGCACCCC
TGCCCAGCTCATTGCTCCTGTGGTGGTGGCCAAAGGAACCCTCTCCATCACTACAACAGAAATCTACTTC
GAGGTAGATGAGGATGATGCTGCCTTCAAGAAGATCGACACAAAAGTTCTTGCATACACTGAGGGACTTC
ATGGGAAATGGATGTTCAGTGAGATTCGAGCTGTCTTTTCCAGACGGTACCTTCTGCAGAACACTGCGCT
GGAAGTGTTCATGGCGAACCGAACCTCTGTGATGTTTAATTTTCCTGACCAAGCAACAGTTAAAAAAGTT
GTCTACAGCTTGCCTCGGGTTGGAGTGGGGACCAGCTATGGTTTGCCACAAGCCAGGAGGATATCACTGG
CCACTCCTCGACAGCTGTATAAGTCTTCCAATATGACTCAGCGCTGGCAAAGAAGGGAAATCTCCAACTT
TGAGTATTTGATGTTTCTCAACACGATAGCAGGTCGGACGTATAATGATCTGAACCAGTATCCTGTGTTT
CCATGGGTGTTAACAAACTATGAATCAGAGGAGTTGGACCTGACTCTCCCAGGAAACTTCAGGGATCTGT
CAAAGCCAATTGGTGCTTTGAACCCGAAGAGAGCAGTGTTTTACGCAGAGCGCTATGAGACATGGGAGGA
GGATCAAAGCCCACCCTTCCACTACAACACACATTACTCAACGGCGACTTCCGCCCTGTCATGGCTTGTT
CGGATTGAGCCATTCACAACCTTCTTCCTCAATGCAAATGATGGGAAATTTGACCATCCAGACCGAACCT
TCTCATCCATTGCAAGGTCATGGAGAACCAGTCAGAGAGATACATCCGATGTCAAGGAACTAATTCCAGA
GTTCTACTACCTACCAGAGATGTTTGTCAACAGCAATGGGTACCATCTTGGAGTGAGGGAGGACGAAGTG
GTGGTTAATGATGTGGACCTGCCCCCCTGGGCCAAGAAGCCAGAAGACTTTGTGCGGATCAACAGGATGG
CCCTGGAAAGTGAATTTGTTTCTTGCCAACTCCATCAATGGATTGACCTTATATTTGGCTACAAACAGCG
AGGGCCAGAGGCAGTCCGTGCTCTCAATGTTTTCCACTACTTGACCTACGAAGGCTCTGTAAACCTGGAC
AGCATCACAGACCCTGTGCTCCGGGAGGCCATGGAAGCACAGATACAGAACTTTGGACAGACGCCATCTC
AGTTGCTCATTGAGCCGCATCCGCCTAGGAGTTCAGCCATGCATCTGTGTTTCCTTCCACAGAGCCCACT
CATGTTCAAAGATCAGATGCAGCAGGATGTGATCATGGTGCTGAAGTTTCCATCCAATTCTCCTGTGACT
CATGTGGCTGCCAACACCCTGCCCCACCTGACCATCCCTGCAGTGGTGACAGTGACCTGCAGCCGACTGT
TTGCAGTGAACAGATGGCACAACACAGTCGGCCTCAGAGGAGCCCCCGGATACTCCTTGGATCAAGCACA
CCATCTTCCCATTGAGATGGACCCATTAATCGCAAATAACTCTGGTGTGAACAAGCGGCAGATCACAGAC
CTTGTAGACCAGAGCATCCAGATCAATGCCCACTGCTTCGTGGTCACAGCTGATAATCGCTACATCCTCA
TCTGTGGGTTTTGGGATAAAAGTTTCAGAGTTTACTCGACAGAAACAGGGAAACTGACACAGATTGTATT
TGGCCACTGGGATGTTGTCACATGCCTGGCCAGGTCGGAGTCCTACATTGGTGGAGACTGCTACATAGTG
TCTGGATCTCGGGACGCCACCTTGCTTCTCTGGTACTGGAGTGGGCGTCACCACATCATCGGAGACAACC
CCAATAGCAGTGACTATCCTGCGCCCAGAGCTGTCCTCACAGGCCATGACCATGAAGTTGTCTGTGTCTC
CGTCTGTGCAGAACTCGGACTCGTTATCAGTGGTGCTAAAGAGGGCCCTTGCCTCGTTCATACCATCACT
GGAGATCTGCTGAGGGCCCTGGAAGGACCAGAAAACTGCTTATTTCCACGCCTAATTTCGGTATCCAGTG
AAGGCCACTGCATCATATATTATGAGCGAGGACGGTTTAGCAACTTCAGCATCAATGGGAAACTTTTGGC
TCAAATGGAGATCAATGATTCCACTAGGGCTATTCTCCTGAGCAGCGATGGACAGAACCTGGTGACTGGA
GGGGACAATGGTGTGGTGGAGGTCTGGCAGGCCTGTGACTTTAAGCAGCTGTACATTTACCCAGGATGTG
ATGCTGGCATTAGAGCGATGGATTTATCCCATGACCAAAGGACTCTGATCACTGGCATGGCTTCCGGCAG
CATTGTAGCTTTTAATATAGATTTTAATCGGTGGCATTATGAGCATCAGAACAGGTAC

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>MR221055 representing NM_030595
Red=Cloning site Green=Tags(s)

MASDKPGPGLEPQPVALLAVGAGGGAGGGGAMGEPRGAAGSGPVVLPAGMINPSVPIRNIRMKFAVLIGL
IQVGEVSNRDIVETVLNLLVGGEFDLEMNFIIQDAESITCMTELLEHCDVTCQAEIWSMFTAILRKSVRN
LQTSTEVGLIEQVLLKMSAVDDMIADLLVDMLGVLASYSITVKELKLLFSMLRGESGIWPRHAVKLLSVL
NQMPQRHGPDTFFNFPGCSAAAIALPPIAKWPYQNGFTLNTWFRMDPLNNINVDKDKPYLYCFRTSKGVG
YSAHFVGNCLIVTSLKSKGKGFQHCVKYDFQPRKWYMISIVHIYNRWRNSEIRCYVNGQLVSYGDMAWHV
NTNDSYDKCFLGSSETADANRVFCGQLGAVYVFSEALNPAQIFAVHQLGPGYKSTFKFKSESDIHLAEHH
KQVLYDGKLASSIAFSYNAKATDAQLCLESSPKENASIFVHSPHALMLQDVKAIVTHSIHSAIHSIGGIQ
VLFPLFAQLDNRQLNDSQVETTVCATLLAFLVELLKSSVAMQEQMLGGKGFLVIGYLLEKSSRVHITRAV
LEQFLSFAKYLDGLSHGAPLLKQLCDHILFNPAIWIHTPAKVQLSLYTYLSAEFIGTATIYTTIRRVGTV
LQLMHTLKYYYWVINPADSSGIAPKGLDGPRPSQKEIISLRAFMLLFLKQLILKDRGVKEDELQSILNYL
LTMHEDENIHDVLQLLVALMSEHPASMIPAFDQRNGIRVIYKLLASKSESIWVQALKVLGYFLKHLGHKR
KVEIMHTHSLFTLLGERLMLHTNTVTVTTYNTLYEILTEQVCTQVVHKPHPEPDSTVKIQNPMILKVVAT
LLKNSTPSAELMEVRRLFLSDMIKLFSNSRENRRCLLQCSVWQDWMFSLGYINPKSSEEQKITEMVYNIF
RILLYHAIKYEWGGWRVWVDTLSIAHSKVTYEAHKEYLAKMYEEYQRQEEENIKKGKKGNVSTISGLSSQ
TAGAKGGMEIREIEDLSQSQSPESETDYPVSTDTRDLLMSTKVSDDILGSSDRPGSGVHVEVHDLLVDIK
AEKVEATEVKLDDMDLSPETLVGGENGALVEVESLLDNVYSAAVEKLQNNVHGSVGIIKKNEEKDNGPLI
TLADEKEELPNSSTPFLFDKIPRQEEKLLPELSSNHIIPNIQDTQVHLGVSDDLGLLAHMTASVELTCTS
SIMEEKDFRIHTTSDGVSSVSERELASSTKGLDYAEMTATTLETESSNSKAVPNVDAGSIISDTERSDDG
KESGKEIRKIQTTATTQAVQGRSSTQQDRDLRVDLGFRGMPMTEEQRRQFSPGPRTTMFRIPEFKWSPMH
QRLLTDLLFALETDVHVWRSHSTKSVMDFVNSNENIIFVHNTIHLISQMVDNIIIACGGILPLLSAATSP
TGSKTELENIEVTQGMSAETAVTFLSRLMAMVDVLVFASSLNFSEIEAEKNMSSGGLMRQCLRLVCCVAV
RNCLECRQRQRDRGSKSSHGSSKPQEAPHSVTAASASKTPLENVPGNLSPIKDPDRLLQDVDINRLRAVV
FRDVDDSKQAQFLALAVVYFISVLMVSKYRDILEPQRETARTGSQPGRNIRQEINSPTSTVVVIPSIPHP
SLNHGLLAKLMPEQSFAHSFYKETPATFPDTVKEKETPTPGEDIQLESSVPHTDSGMGEEQVASILDGAE
LEPAAGPDAMSELLSTLSSEVKKSQESLTEHPSEMLKPAPSISSISQTKGINVKEILKSLVAAPVEIAEC
GPEPIPYPDPALKREAHAILPMQFHSFDRSVVVPVKKPPPGSLAVTTVGATAAGSGLPTGSTSSIFAAPG
ATPKSMINTTGAVDSGSSSSSSSSSFVNGATSKNLPAVQTVAPMPEDSAENMSITAKLERALEKVAPLLR
EIFVDFAPFLSRTLLGSHGQELLIEGLVCMKSSTSVVELVMLLCSQEWQNSIQKNAGLAFIELINEGRLL
CHAMKDHIVRVANEAEFILNRQRAEDVHKHAEFESQCAQYAADRREEEKMCDHLISAAKHRDHVTANQLK
QKILNILTNKHGAWGAVSHSQLHDFWRLDYWEDDLRRRRRFVRNAFGSTHAEALLKSAVEYGTEEDVVKS
KKAFRSQAIVNQNSETELMLEGDDDAVSLLQEKEIDNLAGPVVLSTPAQLIAPVVVAKGTLSITTTEIYF
EVDEDDAAFKKIDTKVLAYTEGLHGKWMFSEIRAVFSRRYLLQNTALEVFMANRTSVMFNFPDQATVKKV
VYSLPRVGVGTSYGLPQARRISLATPRQLYKSSNMTQRWQRREISNFEYLMFLNTIAGRTYNDLNQYPVF
PWVLTNYESEELDLTLPGNFRDLSKPIGALNPKRAVFYAERYETWEEDQSPPFHYNTHYSTATSALSWLV
RIEPFTTFFLNANDGKFDHPDRTFSSIARSWRTSQRDTSDVKELIPEFYYLPEMFVNSNGYHLGVREDEV
VVNDVDLPPWAKKPEDFVRINRMALESEFVSCQLHQWIDLIFGYKQRGPEAVRALNVFHYLTYEGSVNLD
SITDPVLREAMEAQIQNFGQTPSQLLIEPHPPRSSAMHLCFLPQSPLMFKDQMQQDVIMVLKFPSNSPVT
HVAANTLPHLTIPAVVTVTCSRLFAVNRWHNTVGLRGAPGYSLDQAHHLPIEMDPLIANNSGVNKRQITD
LVDQSIQINAHCFVVTADNRYILICGFWDKSFRVYSTETGKLTQIVFGHWDVVTCLARSESYIGGDCYIV
SGSRDATLLLWYWSGRHHIIGDNPNSSDYPAPRAVLTGHDHEVVCVSVCAELGLVISGAKEGPCLVHTIT
GDLLRALEGPENCLFPRLISVSSEGHCIIYYERGRFSNFSINGKLLAQMEINDSTRAILLSSDGQNLVTG
GDNGVVEVWQACDFKQLYIYPGCDAGIRAMDLSHDQRTLITGMASGSIVAFNIDFNRWHYEHQNRY

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_030595
ORF Size 8808 bp
OTI Disclaimer The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
OTI Annotation This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
Components The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution Method 1. Centrifuge at 5,000xg for 5min.
2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
3. Close the tube and incubate for 10 minutes at room temperature.
4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_030595.1, NP_085098.1
RefSeq Size 10998 bp
RefSeq ORF 8811 bp
Locus ID 26422
UniProt ID Q9EPN1
Cytogenetics 3 26.61 cM
MW 326.7 kDa
Summary Binds to type II regulatory subunits of protein kinase A and anchors/targets them to the membrane. May anchor the kinase to cytoskeletal and/or organelle-associated proteins. May have a role in membrane trafficking.[UniProtKB/Swiss-Prot Function]
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"NM_030595" in other vectors (2)
SKU Description Size Price
MC225434 Nbea (untagged) - Mouse neurobeachin (Nbea), (10ug) 10 ug
$2,617.00
MG221055 Nbea (tGFP-tagged) - Mouse neurobeachin (Nbea), (10ug). Note: ORF is codon optimized 10 ug
$2,816.00
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Citations

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