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MGAM (NM_004668) Human Tagged ORF Clone

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SKU
RG216305
MGAM (tGFP-tagged) - Human maltase-glucoamylase (alpha-glucosidase) (MGAM). Note: ORF is codon optimized
  • TrueORF®
    TrueORF®

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

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ORF Plasmid: tGFP DDK
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Datasheet SDS Plasmid Map
NM_004668 in other vectors (2)
Reconstitution Protocol
$1,760.00
3 Weeks*
Size
Bulk Requests & Clone Modifications

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Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol MGAM
Synonyms MG; MGA
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG216305 ORF sequence, codon optimized.
Due to the complexity of NM_004668, 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

ATGGCAAGAAAGAAGCTGAAAAAATTTACTACTTTGGAGATTGTGCTCAGTGTTCTTCTGCTTGTGTTGT
TTATCATCAGTATTGTTCTAATTGTGCTTTTAGCCAAAGAGTCACTGAAATCAACAGCCCCAGATCCTGG
GACAACTGGTACCCCAGATCCTGGGACAACTGGTACCCCAGATCCTGGAACAACTGGTACCACACATGCT
AGGACAACGGGTCCCCCAGATCCTGGAACAACTGGTACCACTCCTGTTTCTGCTGAATGTCCAGTGGTAA
ATGAATTGGAACGAATTAATTGCATCCCTGACCAGCCGCCAACAAAGGCCACATGTGACCAACGTGGCTG
TTGCTGGAATCCCCAGGGAGCTGTAAGTGTTCCCTGGTGCTACTATTCCAAGAATCATAGCTACCATGTA
GAGGGCAACCTTGTCAACACAAATGCAGGATTCACAGCCCGGTTGAAAAATCTGCCTTCTTCACCAGTGT
TTGGCAGCAACGTCGATAACGTCCTCCTGACCGCTGAATATCAGACATCTAACAGATTTCATTTCAAACT
CACCGACCAAACCAATAATCGCTTCGAGGTGCCCCACGAACACGTCCAATCATTTAGCGGCAATGCCGCA
GCATCTCTGACTTACCAGGTGGAGATTTCCAGACAGCCTTTTAGTATCAAAGTGACCCGGCGCAGTAATA
ACCGAGTTCTCTTCGATTCTTCCATTGGGCCTTTGTTGTTTGCAGATCAGTTCCTCCAACTGTCCACCCG
CCTGCCTAGTACTAACGTGTATGGCCTCGGAGAGCACGTGCACCAGCAATATCGCCACGATATGAATTGG
AAAACTTGGCCCATCTTCAACCGCGACACCACACCTAACGGAAATGGCACCAATCTGTATGGTGCACAAA
CATTCTTCCTCTGTCTGGAAGATGCATCCGGGTTGTCATTTGGCGTATTTCTGATGAATTCTAACGCAAT
GGAGGTCGTGCTCCAGCCGGCCCCAGCCATCACATACAGAACAATCGGAGGAATCCTGGATTTCTACGTG
TTCCTCGGGAACACACCAGAGCAGGTCGTGCAAGAGTATTTGGAACTCATTGGTAGGCCTGCCCTGCCCT
CTTACTGGGCTCTGGGTTTTCATCTTTCACGATACGAATATGGCACCCTGGACAACATGAGGGAGGTCGT
CGAACGCAACCGAGCCGCCCAACTGCCGTACGACGTGCAGCACGCTGATATAGATTACATGGATGAACGG
CGGGACTTTACATATGACTCTGTGGATTTCAAAGGCTTCCCAGAATTCGTGAACGAACTTCATAATAATG
GCCAGAAACTGGTAATCATCGTGGACCCTGCTATATCCAACAACTCTTCCTCAAGTAAACCCTATGGCCC
ATATGACAGGGGTTCAGATATGAAGATATGGGTGAATAGTTCAGATGGAGTGACTCCACTCATTGGGGAG
GTCTGGCCTGGACAAACTGTGTTTCCTGATTATACCAATCCCAACTGTGCTGTTTGGTGGACAAAGGAAT
TTGAGCTTTTTCACAATCAAGTAGAGTTTGATGGAATCTGGATTGATATGAATGAAGTCTCCAACTTTGT
TGATGGTTCGGTCTCAGGATGTTCCACAAACAACCTAAATAATCCCCCATTCACTCCCAGAATCCTGGAT
GGGTACCTGTTCTGCAAGACTCTCTGTATGGATGCAGTGCAGCACTGGGGCAAGCAGTATGACATTCACA
ATCTGTATGGCTACTCCATGGCGGTCGCCACAGCAGAAGCTGCCAAGACTGTGTTCCCTAATAAGAGAAG
CTTCATTCTGACCCGTTCTACCTTTGCGGGCTCTGGCAAGTTTGCAGCACATTGGTTAGGAGACAACACT
GCCACCTGGGATGACCTGAGATGGTCCATCCCTGGCGTGCTTGAGTTCAACCTTTTTGGCATCCCAATGG
TGGGTCCTGACATATGTGGCTTTGCTTTGGACACCCCTGAGGAGCTCTGTAGGCGGTGGATGCAGTTGGG
TGCATTTTATCCGTTTTCTAGAAATCACAATGGCCAAGGCTACAAGGACCAGGATCCTGCCTCCTTTGGA
GCTGACTCCCTGCTGTTGAATTCCTCCAGGCACTACCTTAACATCCGCTATACTCTATTGCCCTACCTAT
ACACCCTCTTCTTCCGTGCTCACAGCCGAGGGGACACGGTGGCCAGGCCCCTTTTGCATGAGTTCTACGA
GGACAACAGCACTTGGGATGTGCACCAACAGTTCTTATGGGGGCCCGGCCTCCTCATCACTCCAGTTCTG
GATGAAGGTGCAGAGAAAGTGATGGCATATGTGCCTGATGCTGTCTGGTATGACTACGAGACTGGGAGCC
AAGTGAGATGGAGGAAGCAAAAAGTCGAGATGGAACTTCCTGGAGACAAAATTGGACTTCACCTTCGAGG
AGGCTACATCTTCCCCACACAGCAGCCAAATACAACCACTCTGGCCAGTCGAAAGAACCCTCTTGGTCTT
ATCATTGCCCTAGATGAGAACAAAGAAGCAAAAGGAGAACTTTTCTGGGATAATGGGGAAACGAAGGATA
CTGTGGCCAATAAAGTGTATCTTTTATGTGAGTTTTCTGTCACTCAAAACCGCTTGGAGGTGAATATTTC
ACAATCAACCTACAAGGACCCCAATAATTTAGCATTTAATGAGATTAAAATTCTTGGGACGGAGGAACCT
AGCAATGTTACAGTGAAACACAATGGTGTCCCAAGTCAGACTTCTCCTACAGTCACTTATGATTCTAACC
TGAAGGTTGCCATTATCACAGATATTGATCTTCTCCTGGGAGAAGCATACACAGTGGAATGGAGCATAAA
GATAAGGGATGAAGAAAAAATAGACTGTTACCCTGATGAGAATGGTGCTTCTGCCGAAAACTGCACTGCC
CGTGGCTGTATCTGGGAGGCATCCAATTCTTCTGGAGTCCCTTTTTGCTATTTTGTCAACGACCTATACT
CTGTCAGTGATGTTCAGTATAATTCCCATGGGGCCACAGCTGACATCTCCTTAAAGTCTTCCGTTTATGC
CAATGCCTTCCCCTCCACACCCGTGAACCCCCTTCGCCTGGATGTCACTTACCATAAGAATGAAATGCTG
CAGTTCAAGATTTATGATCCCAACAAGAATCGGTATGAAGTTCCAGTCCCTCTGAACATACCCAGCATGC
CATCCAGCACCCCTGAGGGTCAACTCTATGATGTGCTCATTAAGAAGAATCCATTTGGGATTGAAATTCG
CCGGAAGAGTACAGGCACTATAATTTGGGACTCTCAGCTCCTTGGCTTTACCTTCAGTGACATGTTTATC
CGCATCTCCACCCGCCTTCCCTCCAAGTACCTCTATGGCTTTGGGGAAACTGAGCACAGGTCCTATAGGA
GAGACTTGGAGTGGCACACTTGGGGGATGTTCTCCCGAGACCAGCCCCCAGGGTACAAGAAGAATTCCTA
TGGTGTCCACCCCTACTACATGGGGCTGGAGGAGGACGGCAGTGCCCATGGAGTGCTCCTGCTGAACAGC
AATGCCATGGATGTGACGTTCCAGCCCCTGCCTGCCTTGACATACCGCACCACAGGGGGAGTTCTGGACT
TTTATGTGTTCTTGGGGCCGACTCCAGAGCTTGTCACCCAGCAGTACACTGAGTTGATTGGCCGGCCTGT
GATGGTACCTTACTGGTCTTTGGGGTTCCAGCTGTGTCGCTATGGCTACCAGAATGACTCTGAGATCGCC
AGCTTGTATGATGAGATGGTGGCTGCCCAGATCCCTTATGATGTGCAGTACTCAGACATCGACTACATGG
AGCGGCAGCTGGACTTCACCCTCAGCCCCAAGTTTGCTGGGTTTCCAGCTCTGATCAATCGCATGAAGGC
TGATGGGATGCGGGTCATCCTCATTCTGGATCCAGCCATTTCTGGCAATGAGACACAGCCTTATCCTGCC
TTCACTCGGGGCGTGGAGGATGACGTCTTCATCAAATACCCAAATGATGGAGACATTGTCTGGGGAAAGG
TCTGGCCTGATTTTCCTGATGTTGTTGTGAATGGGTCTCTAGACTGGGACAGCCAAGTGGAGCTATATCG
AGCTTATGTGGCCTTCCCAGACTTTTTCCGTAATTCAACTGCCAAGTGGTGGAAGAGGGAAATAGAAGAA
CTATACAACAATCCACAGAATCCAGAGAGGAGCTTGAAGTTTGATGGCATGTGGATTGATATGAATGAAC
CATCAAGCTTCGTGAATGGGGCAGTTTCTCCAGGCTGCAGGGACGCCTCTCTGAACCACCCTCCCTACAT
GCCACATTTGGAGTCCAGGGACAGGGGCCTGAGCAGCAAGACCCTTTGTATGGAGAGTCAGCAGATCCTC
CCAGACGGCTCCCTGGTGCAGCACTACAACGTGCACAACCTGTATGGGTGGTCCCAGACCAGACCCACAT
ACGAAGCCGTGCAGGAGGTGACGGGACAGCGAGGGGTCGTCATCACCCGCTCCACATTTCCCTCTTCTGG
CCGCTGGGCAGGACATTGGCTGGGAGACAACACGGCCGCATGGGATCAGCTGAAGAAGTCTATCATTGGC
ATGATGGAGTTCAGCCTCTTCGGCATATCCTATACGGGAGCAGATATCTGTGGGTTCTTTCAAGATGCTG
AATATGAGATGTGTGTTCGCTGGATGCAGCTGGGGGCCTTTTACCCCTTCTCAAGAAACCACAACACCAT
TGGGACCAGGAGACAAGACCCTGTGTCCTGGGATGTTGCTTTTGTGAATATTTCCAGAACTGTCCTGCAG
ACCAGATACACCCTGTTGCCATATCTGTATACCTTGATGCATAAGGCCCACACGGAGGGCGTCACTGTTG
TGCGGCCTCTGCTCCATGAGTTTGTGTCAGACCAGGTGACATGGGACATAGACAGTCAGTTCCTGCTGGG
CCCAGCCTTCCTGGTCAGCCCTGTCCTGGAGCGTAATGCCAGAAATGTCACTGCATATTTCCCTAGAGCC
CGCTGGTATGATTACTACACGGGTGTGGATATTAATGCAAGAGGAGAGTGGAAGACCTTGCCAGCCCCTC
TTGACCACATTAATCTTCATGTCCGTGGGGGCTACATCCTGCCCTGGCAAGAGCCTGCACTGAACACCCA
CTTAAGCCGCCAGAAATTCATGGGCTTCAAAATTGCCTTGGATGATGAAGGAACTGCTGGGGGCTGGCTC
TTCTGGGATGATGGGCAAAGCATTGATACCTATGGGAAAGGACTCTATTACTTGGCCAGCTTTTCTGCCA
GCCAGAATACGATGCAAAGCCATATAATTTTCAACAATTACATCACTGGTACAAATCCTTTGAAACTGGG
CTACATTGAAATCTGGGGAGTGGGCAGTGTCCCCGTTACCAGTGTCAGCATCTCTGTGAGTGGCATGGTC
ATAACACCCTCCTTCAACAATGACCCCACGACACAGGTATTAAGCATCGATGTGACTGACAGAAACATCA
GCCTACATAATTTTACTTCATTGACGTGGATAAGCACTCTG

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG216305 representing NM_004668
Red=Cloning site Green=Tags(s)

MARKKLKKFTTLEIVLSVLLLVLFIISIVLIVLLAKESLKSTAPDPGTTGTPDPGTTGTPDPGTTGTTHA
RTTGPPDPGTTGTTPVSAECPVVNELERINCIPDQPPTKATCDQRGCCWNPQGAVSVPWCYYSKNHSYHV
EGNLVNTNAGFTARLKNLPSSPVFGSNVDNVLLTAEYQTSNRFHFKLTDQTNNRFEVPHEHVQSFSGNAA
ASLTYQVEISRQPFSIKVTRRSNNRVLFDSSIGPLLFADQFLQLSTRLPSTNVYGLGEHVHQQYRHDMNW
KTWPIFNRDTTPNGNGTNLYGAQTFFLCLEDASGLSFGVFLMNSNAMEVVLQPAPAITYRTIGGILDFYV
FLGNTPEQVVQEYLELIGRPALPSYWALGFHLSRYEYGTLDNMREVVERNRAAQLPYDVQHADIDYMDER
RDFTYDSVDFKGFPEFVNELHNNGQKLVIIVDPAISNNSSSSKPYGPYDRGSDMKIWVNSSDGVTPLIGE
VWPGQTVFPDYTNPNCAVWWTKEFELFHNQVEFDGIWIDMNEVSNFVDGSVSGCSTNNLNNPPFTPRILD
GYLFCKTLCMDAVQHWGKQYDIHNLYGYSMAVATAEAAKTVFPNKRSFILTRSTFAGSGKFAAHWLGDNT
ATWDDLRWSIPGVLEFNLFGIPMVGPDICGFALDTPEELCRRWMQLGAFYPFSRNHNGQGYKDQDPASFG
ADSLLLNSSRHYLNIRYTLLPYLYTLFFRAHSRGDTVARPLLHEFYEDNSTWDVHQQFLWGPGLLITPVL
DEGAEKVMAYVPDAVWYDYETGSQVRWRKQKVEMELPGDKIGLHLRGGYIFPTQQPNTTTLASRKNPLGL
IIALDENKEAKGELFWDNGETKDTVANKVYLLCEFSVTQNRLEVNISQSTYKDPNNLAFNEIKILGTEEP
SNVTVKHNGVPSQTSPTVTYDSNLKVAIITDIDLLLGEAYTVEWSIKIRDEEKIDCYPDENGASAENCTA
RGCIWEASNSSGVPFCYFVNDLYSVSDVQYNSHGATADISLKSSVYANAFPSTPVNPLRLDVTYHKNEML
QFKIYDPNKNRYEVPVPLNIPSMPSSTPEGQLYDVLIKKNPFGIEIRRKSTGTIIWDSQLLGFTFSDMFI
RISTRLPSKYLYGFGETEHRSYRRDLEWHTWGMFSRDQPPGYKKNSYGVHPYYMGLEEDGSAHGVLLLNS
NAMDVTFQPLPALTYRTTGGVLDFYVFLGPTPELVTQQYTELIGRPVMVPYWSLGFQLCRYGYQNDSEIA
SLYDEMVAAQIPYDVQYSDIDYMERQLDFTLSPKFAGFPALINRMKADGMRVILILDPAISGNETQPYPA
FTRGVEDDVFIKYPNDGDIVWGKVWPDFPDVVVNGSLDWDSQVELYRAYVAFPDFFRNSTAKWWKREIEE
LYNNPQNPERSLKFDGMWIDMNEPSSFVNGAVSPGCRDASLNHPPYMPHLESRDRGLSSKTLCMESQQIL
PDGSLVQHYNVHNLYGWSQTRPTYEAVQEVTGQRGVVITRSTFPSSGRWAGHWLGDNTAAWDQLKKSIIG
MMEFSLFGISYTGADICGFFQDAEYEMCVRWMQLGAFYPFSRNHNTIGTRRQDPVSWDVAFVNISRTVLQ
TRYTLLPYLYTLMHKAHTEGVTVVRPLLHEFVSDQVTWDIDSQFLLGPAFLVSPVLERNARNVTAYFPRA
RWYDYYTGVDINARGEWKTLPAPLDHINLHVRGGYILPWQEPALNTHLSRQKFMGFKIALDDEGTAGGWL
FWDDGQSIDTYGKGLYYLASFSASQNTMQSHIIFNNYITGTNPLKLGYIEIWGVGSVPVTSVSISVSGMV
ITPSFNNDPTTQVLSIDVTDRNISLHNFTSLTWISTL

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_004668
ORF Size 5571 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_004668.2, NP_004659.2
RefSeq Size 6513 bp
RefSeq ORF 5574 bp
Locus ID 8972
UniProt ID O43451
Cytogenetics 7q34
Protein Families Druggable Genome, Transmembrane
Protein Pathways Galactose metabolism, Metabolic pathways, Starch and sucrose metabolism
Summary This gene encodes maltase-glucoamylase, which is a brush border membrane enzyme that plays a role in the final steps of digestion of starch. The protein has two catalytic sites identical to those of sucrase-isomaltase, but the proteins are only 59% homologous. Both are members of glycosyl hydrolase family 31, which has a variety of substrate specificities. [provided by RefSeq, Jul 2008]
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"NM_004668" in other vectors (2)
SKU Description Size Price
RC216305 MGAM (Myc-DDK-tagged)-Human maltase-glucoamylase (alpha-glucosidase) (MGAM). Note: ORF is codon optimized 10 ug
$1,560.00
SC303516 MGAM (untagged)-Human maltase-glucoamylase (alpha-glucosidase) (MGAM) 10 ug
$1,792.00

Citations

*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.