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Megf8 (NM_001160400) Mouse Tagged ORF Clone

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SKU
MG216465
Megf8 (tGFP-tagged) - Mouse multiple EGF-like-domains 8 (Megf8), (10ug)
  • TrueORF®
    TrueORF®

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

    Click here to learn more.

ORF Plasmid: tGFP DDK
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Datasheet SDS Plasmid Map
NM_001160400 in other vectors (2)
Reconstitution Protocol
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$2,460.00
3 Weeks*
Size
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Frequently Bought Together (4)

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Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Megf8
Synonyms AW049492; b2b288Clo; b2b1702.2Clo; b2b1702Clo; Egfl4; m687Ddg; mKIAA0817
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MG216465 representing NM_001160400
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCCTTGGGTGGAGCTCTGGCCTTGGCCCTTGCACTGGCCTTGGCAGTGCTGGGACCGCTGTCCCTCA
GGGTCCTGGCTGGTGACTGCAAGGGGCAGCGGCAGGTGCTACGGGAGGCGCCAGGCTTCGTGACGGATGG
TGCGGGCAACTACAGCGTCAACGGCAACTGCGAGTGGCTTATCGAGGCCCCGAGCCCTCAGCACCGGATC
CTGCTGGACTTCCTTTTCCTGGACACGGAGTGCACTTATGACTACCTCTTTGTGTATGACGGTGACTCGC
CCCAAGGCCCTCTGCTTGCTAGTCTGAGTGGGAGCACCCGGCCCCCACCCATTGAGGCTTCCTCAGGCAA
GATGCTCCTCCACCTCTTCAGCGATGCCAACTACAACCTGCTGGGCTTTAACGCCTCCTTCCGCTTCTCC
CTGTGTCCCGGAGGCTGCCAGAACCATGGGCAGTGCAAGTCCCCGGGAGTGTGCGTTTGCGAGCCGGGCT
GGGGAGGTCCAGACTGCGGCCTGCAGGAGTGCTCAGCCTACTGTGGCAGCCATGGCACCTGCGCCTCGAC
CCTGGGACCATGCCGCTGTGAACCTGGATTCTTGGGACGAGCCTGTGACCTGCACTTGTGGGAGAACCAG
GGGGCTGGTTGGTGGCACAGTGTGAGTGCCGGGGACCCTGCCTTCTCTGCCCGAATTGGGGCAGCTGGTG
CCTTTCTGTCCCCACCAGGGCTGCTGGCTGTCTTTGGAGGCCAGGACCTTAACAAGGCCCTGGGTGACCT
TGTCCTGTATAACTTCTCCACGAACACCTGGGAGTCCTGGGACCTGACGCCTGCTCCGGCTGCCCGTCAT
TCTCATGTGGCCGTGGCCTGGGCTGGCTTGCTGGTGCTGATGGGTGGTGAGCTGGCCAATGGCTTGCTAA
CCAATGATGTGTGGGCCTTTAGCCCCCTGGGTGGAGGCCACTGGGAGCTCCTGGCACCACCTGCTTCCAG
TTCTTCTGGGCCCCCGGGGCTGGCAGGCCATGCAGCTGCTCTGGTGGATGACATCTGGCTTTATGTGTCC
GGTGGCCGCACTCAGCATGACCTCTTTTCTTCTGGCCTCTTCCGGTTCCGCCTGGACCACACCAGCAGGG
GCTATTGGGAGCAGGTGATCCCGGCAGGTGGGCGGCCCCCTGCTGCCACTGGGCACTCTATGGTGTTCCA
TGCCCCATCTCGTACTCTGCTGGTCCATGGTGGACACCGGCCTTCCACTGCCCGGTTTTCTGTGCGGGTG
AATTCCACTGAGCTCTTCCACGTGGAACGGCGTGTGTGGACCACGCTGAAGGGCCGGGATGGGCTCCAGG
GTCCACGGGAGAGAGCCTTCCACACTGCCAGTGTTCTAGGAAACTACATGGTGGTCTATGGGGGCAATGT
GCATACGCATTACCAGGAGGAAAAGTGTTACGAAGATGGCATCTTCTTCTACCACCTTGGCTGCCACCAG
TGGGTGTCAGGGGCTGAGCTTGCCCCGCCAGGAACCCCTGAGGGTCGAGCGGCGCCTCCTAGTGGCCGTT
ACTCACATGTGGCAGCTGTTCTTGGTGGCAGTGTCCTGCTGGTGGCTGGGGGATATAGTGGCCGGCCTCG
TGGGGACTTGATGGCCTACAAGGTGCCCCCCTTCGTGTTTCAGGCACCTGCCCTAGATTACCACCTGGAC
TATTGTTCCATGTACACAGACCACAGTGTCTGCTCCCGAGACCCGGAATGCAGCTGGTGTCAGGGCGCTT
GCCAAGCTGCGCCCCCTCCTGGGACTCCCTCAGGAGCTTGTCCAGCGGCCAGCTGCCTGGGCCTAGGCCG
CCTGCTAAGTGACTGCCAAGCATGCCTGGCCTTCAGCAGCCCCACAGCTCCTCCCCGGGGACCTGGCGCC
CTAGGTTGGTGTGTGCACAATGAGAGCTGCCTTCCTCGGCCTGAGCAGGCCCGCTGCCGAGGGGAGCAGA
TCTCAGGCACCGTGGGCTGGTGGGGGCCAGCACCCGTCTTCGTCACTTCCCTGGAGGCTTGTGTCACCCA
GAGCTTCCTCCCTGGCCTGCACCTGCTCACCTTCCAGCAGCCACCCAACGCCTCTCAGCCTGACAAGGTC
TCCATTGTCCGAAGTACAACTATCACCTTGACACCCAGCCCGGAGACAGATGTGTCCCTAGTCTACCGAG
GCTTCATCCACCCCCTGCTGCCAGGAGGACCAGGCGGCCCTGGGGCTGAAGATGTGGCTGTGTGGGCTCG
GGCCCAGCGTCTCCATGTCCTGGCCCGGATGGCCAGAGGCCCTGACACTGAGAACATGGAGGAGGTGGGA
CGCTGGGTGGCTCAGCAGGAGAAGGAGACACGGCGTCTGCAGCGCCCTGGCTCTGATCGCCTCTTCCCAT
TGCCGGGGAGAGGCAACAAGTACGCGGTGGAGATCCGAGGCCAGCTCAACGGCTCGGCAGGCCCTGGGCA
TAGTGAGCTCACCCTCCTGTGGGATCGGACTGGAGTGCCGGGTGGCAGTGAGATCTCCTTCTTCTTCCTG
GAGCCCTACCGCTCTTCGGCCTGCACCTCCTACTCCTCCTGTCTGGGCTGCCTGGCTGATCAGGGCTGTG
GCTGGTGCCTCAACAGTGCCACCTGTCACCTGCGTCAAGGCAGGGCCCACTGTGAGGATGATGGGAGCGG
CGAGTCCCTGCTGGTGCTGGTGCCTGCCCTCTGTCCACTCTGTGAGGAGCATCGTGACTGTCATGCCTGC
ACCCAGGACCCCTTCTGTGAGTGGCATCAGAGCACCAACCGCAAAGGAGATGCAGCGTGCAGCCGGCGAG
GCCGGGGCCGAGGCGCTCTGAAGAACCCAGAGGAATGCCCCCCACTCTGCAGCCAACGGCTGACCTGTGA
GGACTGCCTGGCCAACTCCAGCCAGTGTGCCTGGTGCCAGTCTACTCACACCTGCTTCCTGTTTGCTGCC
TACCTGGCCCGGTACCCACATGGGGGCTGCCGTGGCTGGGATGACAGTGTGCACTCAGAGCCACGGTGCA
GGAGCTGCGGTGGCTTTTTGACTTGTCATGAGTGTCTGCAGAGCCACGAGTGTGGTTGGTGTGGCAACGA
AGACAACCCCACTCTGGGACGGTGCCTACAAGGGGACTTCTCTGGACCCCTGGGTGGGGGGAACTGCTCC
CTCTGGGTGGGAGAGGGCCTGGGCCTGCCTGTGGCTCTCCCTGCCCGCTGGGCTTATGCCCGCTGTCCAG
ATGTGGATGAATGTCGCCTGGGCCTGGCGAGGTGTCACCCACGGGCAACCTGCCTGAACACGCCTCTCAG
CTATGAGTGTCATTGCCAGCGTGGCTACCAGGGCGATGGCATCACACACTGTAACCGCACGTGCCTGGAA
GACTGTGGCCACGGTGTGTGTAGCGGTCCTCCGGACTTCACTTGTGTGTGTGACCTGGGCTGGACCTCAG
ACCTGCCCCCACCCACGCCTGCCCCAGGACCCCCTGCCCCTCGTTGCTCTCGGGACTGTGGCTGCAGCTT
TCATAGCCACTGCCGCAGGCGGGGACCTGGCTACTGTGACGAGTGCCAGGACTGGACGTGGGGGGAACAC
TGTGAACGGTGCCGGCCTGGCAGCTTTGGCAATGCAACCGGCTCTGGTGGCTGCCGACCCTGCCAGTGTA
ACGGGCATGGGGACCCACGTCGTGGCCACTGTGACAACCTCACTGGGCTCTGCTTCTGCCAGGACCACAC
TGAGGGTGCCCACTGTCAGATTTGCTCTCCAGGATACTATGGGGACCCCCGAGCTGGTGGCTCCTGCTTC
CGGGAGTGTGGGGGTCGTGCGCTCCTCACCAATGTGTCCTCGGTGGCTCTGGGCTCCCGCCGCTTTGGGG
GACTTCTGCCTCCAGGTGGTGGGGCAGCAAGAGCTGGGCCCGGGCTGTCCTACTGCGTGTGGGTTGTCTC
TGCCACAGAAGCGCTGCAGCCCTGTGTCCCTGGCACCCTCTGCCCCCCGCTCACCCTCACCTTCTCTCCA
GACAGCAGCACGCCTTGCACACTGAGCTACGTCCTGGCCTTTGATGGATTCCCACGCTTCCTGGACACTG
GTGTTGTTCAGTCAGACCGGAGCCTCATAGCTGCCTTCTGCGGCCAGCGGCGTGACAGACCTCTCACTGT
GCAGGCTTTATCAGGGTTACTTGTGTTGCACTGGGAAGCCAACGGCTCCTCCTCCTGGGGATTCAATGCT
TCTGTGGGCTCTGCCCGGTGTGGATCAGGAGGTCCTGGCAGTTGCCCTGTCCCTCAGGAATGTGTGCCCC
AGGATGGGGCTGCAGGTGCTGGCCTCTGCCGCTGTCCTCAGGGCTGGGCTGGCCCTCACTGCCGCATGGC
TCTGTGTCCTGAGAATTGCAACGCCCACACCGGGGCAGGGATTTGTAACCAGAGCCTAGGTGTGTGCATC
TGTGCTGAGGGCTTTGGCGGCCCAGACTGTGCCACGAAGCTGGATGGTGGACAGTTGGTCTGGGAAACGC
TCATGGACAGCCGCCTCTCAGCTGATACTGCTAGTCGCTTCCTTCACCGCCTGGGACATACTATGGTAGA
GGGGCCTGATGCCACTTTGTGGATGTTTGGGGGCCTGGGTCTGCCACAGGGCCTGCTGGGAAACCTGTAC
AGGTATTCAGTCAGTGAGCGCAGATGGACACAGATGTTGGCAGGAGCTGAGGATGGGGGCCCAGGCCCAT
CACCCCGTTCCTTCCATGCAGCCGCCTATGTGCCTGCTGGCCGAGGTGCCATGTACCTGCTGGGGGGCCT
CACAGCTGGAGGCGTCACCCGTGACTTCTGGGTCCTTAACCTCACTACCCTGCAGTGGAGACAGGAGAAG
CCCCCTCAGAACATGGAGTTGCCAGCGGTCGCTGGTCACACCCTTACTGCCCGTCGAGGCCTATCTCTGC
TCTTGGTGGGTGGCTACTCCCCCGAAAATGGCTTCAACCAGCAGTTGTTGGAGTACCAGCTAGCAACCGG
CACCTGGGTATCTGGAGCCCAGAGTGGGACACCCCCAACAGGTCTCTATGGTCATTCTGCAGTCTACCAC
GAGGCCACCGACTCCCTCTATGTGTTTGGGGGTTTCCGCTTCCACGTGGAGCTGGCAGCACCTTCTCCGG
AGCTCTACTCCCTGCACTGTCCTGACCGTACCTGGAGCCTGCTGGCACCTTCTCAGGGGGCAAAGCCCCG
ACCCCGGCTTTTCCACGCTTCAGCTCTGCTCGGAGACACCATGGTGGTCCTTGGGGGGCGCTCGGACCCT
GATGAATTCAGCAGTGATGTTCTGCTCTACCAGGTCAACTGCAACACCTGGCTCCTGCCTGCCCTCACCC
GTCCAGCCTTTGTGGGGTCCCCGATGGAGGAGTCTGTGGCCCATGCAGTGGCAGCAGTTGGTAGCCGCCT
GTACATCTCTGGAGGATTTGGGGGAGTAGCCTTGGGCCGCCTGCTGGCATTGACCTTGCCCCCCGACCCC
TGCCGTCTGCTGCCTTCACCTGAAGCTTGTAATCAGTCTGGGGCCTGCACCTGGTGCCATGGTGCTTGCC
TGTCTGGGGACCAGGCCCACAGGCTGGGTTGTGGGGTGCCCCCTTGCTCCCCAATGCCTCGCTCGCCTGA
GGAATGTCGGAGGCTGCGGACCTGCAGTGAGTGCCTGGCCCGCCATCCTCGGACCCTGCAGCCTGGAGAT
GGAGAGGCATCCATTCCCCGTTGTAAGTGGTGTACCAACTGCCCAGAGGGTGCCTGCATTGGGCGCAATG
GGTCCTGCACCTCAGAGAATGACTGCCGAATCAACCAGCGAGAGGTCTTCTGGGCTGGCAACTGCTCAGA
GGCTGCGTGTGGGGCTGCTGACTGTGAGCAGTGCACGCGGGAGGGCAAGTGCATGTGGACGCGGCAGTTC
AAGAGGACCGGGGAGACTCGCCGAATCCTGTCAGTGCAGCCCACCTATGACTGGACTTGCTTCAGCCATT
CCCTGTTGAATGTGTCTCCTATGCCAGTGGAGTCCTCGCCTCCACTGCCCTGCCCCACGCCCTGTCACCT
CCTGCCCAACTGCACATCGTGCCTGGCCTCCAAGGGTGCAGATGGGGGCTGGCAGCACTGTGTGTGGAGC
AGCAGCCTCCAGCAGTGTCTGAGCCCCTCCTATCTGCCCTTGCGATGTATGGCTGGAGGCTGTGGGCGGC
TGCTTAGAGGGCCAGAGAGCTGCTCGCTGGGCTGTGCTCAGGCGACACAGTGTGCCCTGTGCCTGCGACG
ACCCCACTGTGGCTGGTGTGCCTGGGGAGGCCAGGATGGGGGTGGCCATTGCATGGAAGGAGGTCTCAGT
GGTCCCCGAGACGGGCTAACGTGTGGACGTCCCGGGGCCTCCTGGGCCTTCCTGTCTTGCCCCCCTGAGG
ACGAGTGTGCAAATGGGCACCATGACTGCAATGAGACCCAGAACTGCCATGACCAGCCCCACGGCTACGA
GTGCAGCTGCAAGACAGGCTACACCATGGACAATGTGACTGGCGTCTGCCGCCCTGTGTGCGCCCAGGGC
TGTGTGAACGGATCCTGTGTGGAGCCTGATCACTGCCGCTGTCACTTTGGCTTTGTTGGCCGCAACTGCT
CCACAGAGTGTCGCTGCAACCGCCACAGTGAGTGTGCCGGCGTTGGAGCACAGGACCACTGCCTGCTGTG
CCGGAACCACACCAAGGGTAGCCACTGTGAGCAGTGTCTCCCACTGTTCGTGGGTTCGGCTTTGGGCGGT
GGGACCTGCCGACCCTGCCATGCCTTCTGTCGCGGGAACAGCCATGTGTGCGTCTCCAGGAAAGAGCTAG
AAATGGCCAGAAAGGAGCCAGAGAAGTACTCACTGGATCCAGAGGAGATTGAAACCTGGGTGGCAGAAGG
TCCCAGTGAAGATGAAGCTGTGTGTGTGAACTGTCAGAACAACAGCTACGGGGACAGATGTGAGAGCTGC
CTCCACGGCTACTTTCTCCTGGACGGGAAATGCACCAAGTGCCAGTGTAATGGCCACGCTGACACCTGTA
ACGAGCAGGACGGGACAGGATGCCCATGTCAGAACAACACAGAGACAGGCACCTGCCAGGGCAGCTCTCC
CAGTGACCGCCGAGACTGCTACAAGTACCAGTGTGCTAAGTGCCGCGAGTCATTCCACGGGAGCCCGCTA
GGTGGCCAGCAGTGTTACCGACTCATCTCTGTGGAACAAGAGTGCTGCCTGGACCCCACTTCCCAGACCA
ACTGCTTCCATGAGCCAAAGCGCCGGGCCCTGGGTCCTGGCCGCACCGTGCTGTTTGGCGTCCAACCCAA
GTTCACCAATGTGGACATTCGCCTGACACTAGACGTGACCTTCGGCGCTGTGGACCTCTATGTCTCCACC
TCCTATGACACTTTTGTGGTCCGAGTGGCCCCTGACACAGGCGTCCACACTGTGCACATCCAGCCACCTC
CACCTCCCCCACCTCCCCCGCCTCCTGCTGATGGTGTACCTCGGGTGGCTGCGGACCTAGGAGGATTGGG
GACTGGAAGTGGGTCAGGATCTCCGGTGGAGCCACGGGTCCGGGAGGTGTGGCCACGGGGCCTGATTACC
TACGTCACAGTGACGGAACCCTCGGCAGTGCTGGTGGTCCGCAGTGTGAGGGACAGGCTGGTGATCACCT
ATCCCCATGAGCACCACGCCCTCAAATCCAGCCGCTTCTACCTGCTGCTGCTGGGTGTAGGAGACCCCAA
CGGGCCTGGTGCCAACGGTTCAGCAGACTCACAGGGCCTGCTCTTCTTCCGGCAAGACCAGGCCCACATT
GACCTGTTCGTCTTCTTCTCTGTCTTCTTTTCCTGCTTCTTCCTCTTCCTCTCACTCTGTGTGCTCCTCT
GGAAGGCCAAGCAGGCTCTGGACCAGCGACAAGAGCAGCGCCGCCACCTGCAGGAGATGACCAAGATGGC
CAGCCGCCCCTTTGCCAAGGTCACTGTCTGCTTCCCTCCAGACCCTGCAGGCCCAGCACCTGCATGGAAG
CCAGCTGGGCTCCCTCCTCCTGCCTTCCGCCGCTCTGAGCCTTTCCTAGCACCCCTGTTGCTGACAGGAG
CCGGGGGTCCCTGGGGACCCATGGGAGGCGGGTGCTGCCCACCAGCCCTCCCTGCCACCACAGCTGGCCT
ACGAGCTGGACCCATCACCCTTGAGCCCACAGAAGATGGCATGGCTGGTGTGGCCACTCTGCTGCTCCAG
CTGCCTGGGGGTCCTCATGCTCCCAATGGGGCCTGCCTTGGGTCAGCCCTCGTCACTCTGCGTCATAGGC
TCCATGAGTACTGTGGGGGCAGCGGGGGTGCTGGAGGCAGTGGACACGGGGGTGGTGGAGGCCGGAAGGG
ACTGTTGAGTCAGGACAATCTCACTAGCATGTCCCTT

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>MG216465 representing NM_001160400
Red=Cloning site Green=Tags(s)

MALGGALALALALALAVLGPLSLRVLAGDCKGQRQVLREAPGFVTDGAGNYSVNGNCEWLIEAPSPQHRI
LLDFLFLDTECTYDYLFVYDGDSPQGPLLASLSGSTRPPPIEASSGKMLLHLFSDANYNLLGFNASFRFS
LCPGGCQNHGQCKSPGVCVCEPGWGGPDCGLQECSAYCGSHGTCASTLGPCRCEPGFLGRACDLHLWENQ
GAGWWHSVSAGDPAFSARIGAAGAFLSPPGLLAVFGGQDLNKALGDLVLYNFSTNTWESWDLTPAPAARH
SHVAVAWAGLLVLMGGELANGLLTNDVWAFSPLGGGHWELLAPPASSSSGPPGLAGHAAALVDDIWLYVS
GGRTQHDLFSSGLFRFRLDHTSRGYWEQVIPAGGRPPAATGHSMVFHAPSRTLLVHGGHRPSTARFSVRV
NSTELFHVERRVWTTLKGRDGLQGPRERAFHTASVLGNYMVVYGGNVHTHYQEEKCYEDGIFFYHLGCHQ
WVSGAELAPPGTPEGRAAPPSGRYSHVAAVLGGSVLLVAGGYSGRPRGDLMAYKVPPFVFQAPALDYHLD
YCSMYTDHSVCSRDPECSWCQGACQAAPPPGTPSGACPAASCLGLGRLLSDCQACLAFSSPTAPPRGPGA
LGWCVHNESCLPRPEQARCRGEQISGTVGWWGPAPVFVTSLEACVTQSFLPGLHLLTFQQPPNASQPDKV
SIVRSTTITLTPSPETDVSLVYRGFIHPLLPGGPGGPGAEDVAVWARAQRLHVLARMARGPDTENMEEVG
RWVAQQEKETRRLQRPGSDRLFPLPGRGNKYAVEIRGQLNGSAGPGHSELTLLWDRTGVPGGSEISFFFL
EPYRSSACTSYSSCLGCLADQGCGWCLNSATCHLRQGRAHCEDDGSGESLLVLVPALCPLCEEHRDCHAC
TQDPFCEWHQSTNRKGDAACSRRGRGRGALKNPEECPPLCSQRLTCEDCLANSSQCAWCQSTHTCFLFAA
YLARYPHGGCRGWDDSVHSEPRCRSCGGFLTCHECLQSHECGWCGNEDNPTLGRCLQGDFSGPLGGGNCS
LWVGEGLGLPVALPARWAYARCPDVDECRLGLARCHPRATCLNTPLSYECHCQRGYQGDGITHCNRTCLE
DCGHGVCSGPPDFTCVCDLGWTSDLPPPTPAPGPPAPRCSRDCGCSFHSHCRRRGPGYCDECQDWTWGEH
CERCRPGSFGNATGSGGCRPCQCNGHGDPRRGHCDNLTGLCFCQDHTEGAHCQICSPGYYGDPRAGGSCF
RECGGRALLTNVSSVALGSRRFGGLLPPGGGAARAGPGLSYCVWVVSATEALQPCVPGTLCPPLTLTFSP
DSSTPCTLSYVLAFDGFPRFLDTGVVQSDRSLIAAFCGQRRDRPLTVQALSGLLVLHWEANGSSSWGFNA
SVGSARCGSGGPGSCPVPQECVPQDGAAGAGLCRCPQGWAGPHCRMALCPENCNAHTGAGICNQSLGVCI
CAEGFGGPDCATKLDGGQLVWETLMDSRLSADTASRFLHRLGHTMVEGPDATLWMFGGLGLPQGLLGNLY
RYSVSERRWTQMLAGAEDGGPGPSPRSFHAAAYVPAGRGAMYLLGGLTAGGVTRDFWVLNLTTLQWRQEK
PPQNMELPAVAGHTLTARRGLSLLLVGGYSPENGFNQQLLEYQLATGTWVSGAQSGTPPTGLYGHSAVYH
EATDSLYVFGGFRFHVELAAPSPELYSLHCPDRTWSLLAPSQGAKPRPRLFHASALLGDTMVVLGGRSDP
DEFSSDVLLYQVNCNTWLLPALTRPAFVGSPMEESVAHAVAAVGSRLYISGGFGGVALGRLLALTLPPDP
CRLLPSPEACNQSGACTWCHGACLSGDQAHRLGCGVPPCSPMPRSPEECRRLRTCSECLARHPRTLQPGD
GEASIPRCKWCTNCPEGACIGRNGSCTSENDCRINQREVFWAGNCSEAACGAADCEQCTREGKCMWTRQF
KRTGETRRILSVQPTYDWTCFSHSLLNVSPMPVESSPPLPCPTPCHLLPNCTSCLASKGADGGWQHCVWS
SSLQQCLSPSYLPLRCMAGGCGRLLRGPESCSLGCAQATQCALCLRRPHCGWCAWGGQDGGGHCMEGGLS
GPRDGLTCGRPGASWAFLSCPPEDECANGHHDCNETQNCHDQPHGYECSCKTGYTMDNVTGVCRPVCAQG
CVNGSCVEPDHCRCHFGFVGRNCSTECRCNRHSECAGVGAQDHCLLCRNHTKGSHCEQCLPLFVGSALGG
GTCRPCHAFCRGNSHVCVSRKELEMARKEPEKYSLDPEEIETWVAEGPSEDEAVCVNCQNNSYGDRCESC
LHGYFLLDGKCTKCQCNGHADTCNEQDGTGCPCQNNTETGTCQGSSPSDRRDCYKYQCAKCRESFHGSPL
GGQQCYRLISVEQECCLDPTSQTNCFHEPKRRALGPGRTVLFGVQPKFTNVDIRLTLDVTFGAVDLYVST
SYDTFVVRVAPDTGVHTVHIQPPPPPPPPPPPADGVPRVAADLGGLGTGSGSGSPVEPRVREVWPRGLIT
YVTVTEPSAVLVVRSVRDRLVITYPHEHHALKSSRFYLLLLGVGDPNGPGANGSADSQGLLFFRQDQAHI
DLFVFFSVFFSCFFLFLSLCVLLWKAKQALDQRQEQRRHLQEMTKMASRPFAKVTVCFPPDPAGPAPAWK
PAGLPPPAFRRSEPFLAPLLLTGAGGPWGPMGGGCCPPALPATTAGLRAGPITLEPTEDGMAGVATLLLQ
LPGGPHAPNGACLGSALVTLRHRLHEYCGGSGGAGGSGHGGGGGRKGLLSQDNLTSMSL

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_001160400
ORF Size 8367 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_001160400.1, NP_001153872.1
RefSeq Size 10040 bp
RefSeq ORF 8370 bp
Locus ID 269878
UniProt ID P60882
Cytogenetics 7 A3
Summary Acts as a negative regulator of hedgehog signaling (PubMed:29290584).[UniProtKB/Swiss-Prot Function]
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"NM_001160400" in other vectors (2)
SKU Description Size Price
MC225411 Megf8 (untagged) - Mouse multiple EGF-like-domains 8 (Megf8), (10ug) 10 ug
$2,486.00
MR216465 Megf8 (Myc-DDK-tagged) - Mouse multiple EGF-like-domains 8 (Megf8) 10 ug
$2,260.00
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Citations

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