SI (NM_001041) Human Untagged Clone

CAT#: SC302959

SI (untagged)-Human sucrase-isomaltase (alpha-glucosidase) (SI)



  "NM_001041" in other vectors (3)

CNY 12,288.00


货期*
现货

规格
    • 10 ug

Product images

经常一起买 (4)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00


Rabbit Polyclonal Anti-SI Antibody
    • 100 ul

CNY 5,250.00

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Vector pCMV6-XL4
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection None
Sequence Data
>OriGene ORF sequence for NM_001041 edited
TTTTTTTTTTTTTTTTTTGGTAGCCTTATCCAAGTCTGGTACAACATAGCAAAGAGAACA
GGCTATGAAATAAGATGGCAAGAAAGAAATTTAGTGGATTGGAAATCTCTCTGATTGTCC
TTTTTGTCATAGTTACTATAATAGCTATTGCCTTAATTGTTGTTTTAGCAACTAAGACAC
CTGCTGTTGATGAAATTAGTGATTCTACTTCAACTCCAGCTACTACTCGTGTGACTACAA
ATCCTTCTGATTCAGGAAAATGTCCAAATGTGTTAAATGATCCTGTCAATGTGAGAATAA
ACTGCATTCCAGAACAATTCCCAACAGAGGGAATTTGTGCACAGAGAGGCTGCTGCTGGA
GGCCGTGGAATGACTCTCTTATTCCTTGGTGCTTCTTCGTTGATAATCATGGTTATAACG
TTCAAGACATGACAACAACAAGTATTGGAGTTGAAGCCAAATTAAACAGGATACCTTCAC
CTACACTATTTGGAAATGACATCAACAGTGTTCTCTTCACAACTCAAAATCAGACACCCA
ATCGTTTCCGGTTCAAGATTACTGATCCAAATAATAGAAGATATGAAGTTCCTCATCAGT
ATGTAAAAGAGTTTACTGGACCCACAGTTTCTGATACGTTGTATGATGTGAAGGTTGCCC
AAAACCCATTTAGCATCCAAGTTATTAGGAAAAGCAACGGTAAAACTTTGTTTGACACCA
GCATTGGTCCCTTAGTGTACTCTGACCAGTACTTACAGATCTCAGCCCGTCTTCCAAGTG
ATTATATTTATGGTATTGGAGAACAAGTTCATAAGAGATTTCGTCATGATTTATCCTGGA
AAACATGGCCAATTTTTACTCGAGACCAACTTCCTGGTGATAATAATAATAATTTATACG
GCCATCAAACATTCTTTATGTGTATTGAAGATACATCTGGAAAGTCATTCGGTGTTTTTT
TAATGAATAGCAATGCAATGGAGATTTTTATCCAGCCTACTCCAATAGTAACATATAGAG
TTACCGGTGGCATTCTGGATTTTTACATCCTTCTAGGAGATACACCAGAACAAGTAGTTC
AACAGTATCAACAGCTTGTTGGACTACCAGCAATGCCAGCATATTGGAATCTTGGATTCC
AACTAAGTCGCTGGAATTATAAGTCACTAGATGTAGTGAAAGAAGTGGTAAGGAGAAACC
GGGAAGCTGGCATACCATTTGATACACAGGTCACTGATATTGACTACATGGAAGACAAGA
AAGACTTTACTTATGATCAAGTTGCGTTTAACGGACTCCCTCAATTTGTGCAAGATTTGC
ATGACCATGGACAGAAATATGTCATCATCTTGGACCCTGCAATTTCCATAGGTCGACGTG
CCAATGGAACAACATATGCAACCTATGAGAGGGGAAACACACAACATGTGTGGATAAATG
AGTCAGATGGAAGTACACCAATTATTGGAGAGGTATGGCCAGGATTAACAGTATACCCTG
ATTTCACTAATCCAAACTGCATTGATTGGTGGGCAAATGAATGCAGTATTTTCCATCAAG
AAGTGCAATATGATGGACTTTGGATTGACATGAATGAAGTTTCCAGCTTTATTCAAGGTT
CAACAAAAGGATGTAATGTAAACAAATTGAATTATCCACCGTTTACTCCTGATATTCTTG
ACAAACTCATGTATTCCAAAACAATTTGCATGGATGCTGTGCAGAACTGGGGTAAACAGT
ATGATGTTCATAGCCTCTATGGATACAGCATGGCTATAGCCACAGAGCAAGCTGTACAAA
AAGTTTTTCCTAATAAGAGAAGCTTCATTCTTACCCGCTCAACATTTGCTGGATCTGGAA
GACATGCTGCTCATTGGTTAGGAGACAATACTGCTTCATGGGAACAAATGGAATGGTCTA
TAACTGGAATGCTGGAGTTCAGTTTGTTTGGAATACCTTTGGTTGGAGCAGACATCTGTG
GATTTGTGGCTGAAACCACAGAAGAACTTTGCAGAAGATGGATGCAACTTGGGGCATTTT
ATCCATTTTCCAGAAACCATAATTCTGACGGATATGAACATCAGGATCCTGCATTTTTTG
GGCAGAATTCACTTTTGGTTAAATCATCAAGGCAGTATTTAACTATTCGCTACACCTTAT
TACCCTTCCTCTACACTCTGTTTTATAAAGCCCATGTGTTTGGAGAAACAGTAGCAAGAC
CAGTTCTTCATGAGTTTTATGAGGATACGAACAGCTGGATTGAGGACACTGAGTTTTTGT
GGGGCCCTGCATTACTTATTACTCCTGTTCTAAAACAGGGAGCAGATACTGTGAGTGCCT
ACATCCCTGATGCTATTTGGTATGATTATGAATCTGGTGCAAAAAGGCCATGGAGGAAAC
AACGGGTTGATATGTATCTTCCAGCAGACAAAATAGGATTACATCTTAGAGGAGGTTATA
TCATCCCCATTCAAGAACCAGATGTAACAACAACAGCAAGCCGTAAGAATCCTCTAGGAC
TTATAGTCGCATTAGGTGAAAACAACACAGCCAAAGGAGACTTTTTCTGGGATGATGGAG
AAACTAAAGATACAATACAAAATGGCAACTACATATTATATACATTTTCAGTTTCTAATA
ACACATTAGATATTGTGTGCACACATTCATCATATCAGGAAGGAACTACCTTAGCATTTC
AGACTGTAAAAATCCTTGGGTTGACAGACAGTGTTACAGAAGTTAGAGTGGCGGAAAATA
ATCAACCAATGAACGCTCATTCCAATTTCACTTATGATGCTTCTAACCAGGTTCTCCTAA
TTGCAGATCTCAAACTTAATCTTGGAAGAAACTTTAGTGTTCAATGGAATCAAATTTTCT
CAGAAAATGAAAGATTTAATTGTTATCCAGATGCAGATTTGGCAACTGAACAAAAGTGCA
CACAACGTGGCTGTGTATGGAGAACGGGTTCTTCTCTATCCAAAGCACCTGAGTGTTACT
TTCCCAGACAAGATAACTCTTATTCAGTCAACTCAGCTCGCTATTCATCCATGGGTATAA
CAGCTGACCTCCAACTAAATACTGCAAATGCCAGAATAAAGTTACCTTCTGACCCCATCT
CAACTCTTCGTGTGGAGGTGAAATATCACAAAAATGATATGTTGCAGTTTAAGATTTATG
ATCCCCAAAAGAAGAGATATGAAGTACCAGTACCGTTAAACATTCCAACCACCCCAATAA
GTACTTATGAAGACAGACTTTATGATGTGGAAATCAAGGAAAATCCTTTTGGCATCCAGA
TTCGACGGAGAAGCAGTGGAAGAGTCATTTGGGATTCTTGGCTGCCTGGATTTGCTTTTA
ATGACCAGTTCATTCAAATATCGACTCGCCTGCCATCAGAATATATATATGGTTTTGGGG
AAGTGGAACATACAGCATTTAAGCGAGATCTGAACTGGAATACTTGGGGAATGTTCACAA
GAGACCAACCCCCTGGTTACAAACTTAATTCCTATGGATTTCATCCCTATTACATGGCTC
TGGAAGAGGAGGGCAATGCTCATGGTGTTTTCTTACTCAACAGCAATGCAATGGATGTTA
CATTCCAGCCAACTCCTGCTCTAACTTACCGTACAGTTGGAGGGATCTTGGATTTTTATA
TGTTTTTGGGCCCAACTCCAGAAGTTGCAACAAAGCAATACCATGAAGTAATTGGCCATC
CAGTCATGCCAGCTTATTGGGCTTTGGGATTCCAATTATGTCGTTATGGATATGCAAATA
CTTCAGAGGTTCGGGAATTATATGACGCTATGGTGGCTGCTAACATCCCCTATGATGTTC
AGTACACAGACATTGACTACATGGAAAGGCAGCTAGACTTTACAATTGGTGAAGCATTCC
AGGACCTTCCTCAGTTTGTTGACAAAATAAGAGGAGAAGGAATGAGATACATTATTATCC
TGGATCCAGCAATTTCAGGAAATGAAACAAAGACTTACCCTGCATTTGAAAGAGGACAGC
AGAATGATGTCTTTGTCAAATGGCCAAACACCAATGACATTTGTTGGGCAAAGGTTTGGC
CAGATTTGCCCAACATAACAATAGATAAAACTCTAACGGAAGATGAAGCTGTTAATGCTT
CCAGAGCTCATGTAGCTTTCCCAGATTTCTTCAGGACTTCCACAGCAGAGTGGTGGGCCA
GAGAAATTGTGGACTTTTACAATGAAAAGATGAAGTTTGATGGTTTGTGGATTGATATGA
ATGAGCCATCAAGTTTTGTAAATGGAACAACTACTAATCAATGCAGAAATGACGAACTAA
ATTATCCACCTTATTTCCCAGAACTCACAAAAAGAACTGATGGATTACATTTCAGAACAA
TTTGCATGGAAGCTGAGCAGATTCTTAGTGATGGAACATCAGTTTTGCATTACGATGTTC
ACAATCTCTATGGATGGTCACAGATGAAACCTACTCATGATGCATTGCAGAAGACAACTG
GAAAAAGAGGGATTGTAATTTCTCGTTCCACGTATCCTACTAGTGGACGATGGGGAGGAC
ACTGGCTTGGAGACAACTATGCACGATGGGACAACATGGACAAATCAATCATTGGTATGA
TGGAATTTAGTCTGTTTGGAATATCATATACTGGAGCAGACATCTGTGGTTTTTTCAACA
ACTCAGAATATCATCTCTGTACCCGCTGGATGCAACTTGGAGCATTTTATCCATACTCAA
GGAATCACAACATTGCAAATACTAGAAGACAAGATCCCGCTTCCTGGAATGAAACTTTTG
CTGAAATGTCAAGGAATATTCTAAATATTAGATACACCTTATTGCCCTATTTTTACACAC
AAATGCATGAAATTCATGCTAATGGTGGCACTGTTATCCGACCCCTTTTGCATGAGTTCT
TTGATGAAAAACCAACCTGGGATATATTCAAGCAGTTCTTATGGGGTCCAGCATTTATGG
TTACCCCAGTACTGGAACCTTATGTTCAAACTGTAAATGCCTACGTCCCCAATGCTCGGT
GGTTTGACTACCATACAGGCAAAGATATTGGCGTCAGAGGACAATTTCAAACATTTAATG
CTTCTTATGACACAATAAACCTACATGTCCGTGGTGGTCACATCCTACCATGTCAAGAGC
CAGCTCAAAACACATTTTACAGTCGACAAAAACACATGAAGCTCATTGTTGCTGCAGATG
ATAATCAGATGGCACAGGGTTCTCTGTTTTGGGATGATGGAGAGAGTATAGACACCTATG
AAAGAGACCTATATTTATCTGTACAATTTAATTTAAACCAGACCACCTTAACAAGCACTA
TATTGAAGAGAGGTTACATAAATAAAAGTGAAACGAGGCTTGGATCCCTTCATGTATGGG
GGAAAGGAACTACTCCTGTCAATGCAGTTACTCTAACGTATAACGGAAATAAAAATTCGC
TTCCTTTTAATGAAGACACTACCAACATGATATTACGTATTGATCTGACCACACACAATG
TTACTCTAGAAGAACCAATAGAAATCAACTGGTCATGAAGATCACCATCAATTTTAGTTG
TCAATGGGAAAAAACACCAGGATTTAAGTTTCACAGCACTTACAATTTTCCCTCTTCACT
TGGTTCTTGTACTCTACAAAATATAGCTTTCATAACATCGAAAAGTTATTTTGTAGCGTA
CATCAATGATAATGCTAATTTTATTATAGTAATGTGACTTGGATTCAATTTTAAGGCATA
TTTAACAAAATTTGAATAGCCCTATTTATCCTTGTTAAGTATCAGCTACAATTGTAAACT
AGTTACTAAACATGTATGTAAATAGCTAAGATATAATTTAAACGTGATTTTTAAATTAAA
TAAAATTTTTATGTAATTATATATACTATATTTTTCTCAATGTTTAGCAGATTTAAGATA
TGTAACAACAATTATTTGAAGATTTAATTACTTCTTAGTATGTGCATTTAATTAGAAAAA
GAGAATAAAAAATGTAAGTGTAAAAAAAAAAAA
>Reverse primer walk for NM_001041 unedited
NGTTGGTGTCTGNATTTNGGATTGTGAANANAACACTGTTNGAGTCATTTCCAAATGTGT
AGGTGAAGGTATCCTGTTTAATTTGGCTTCAACTCCAATACTTGTTGTTGTCATGTCTTG
AACGTTATAACCATGATTATCAACGAAGAAGCACCAAGGAATAAGAGAGTCATTCCACGG
CCTCCAGCAGCAGCCTCTCTGTGCACAAATTCCCTCTGTTGGGAATTGTTCTGGAATGCA
GTTTATTCTCACATTGACAGGATCATTTAACACATTTGGACATTTTCCTGAATCAGAAGG
ATTTGTAGTCACACGAGTAGTAGCTGGAGTTGAAGTAGAATCACTAATTTCATCAACAGC
AGGTGTCTTAGTTGCTAAAACAACAATTAAGGCAATAGCTATTATAGTAACTATGACAAA
AAGGACAATCAGAGAGATTTCCAATCCACTAAATTTCTTTCTTGCCATCTTATTTCATAG
CCTGTTCTCTTTGCTATGTTGTACCAGACTTGGATAAGGCTACCAAAAAAAAAAAAAAAA
AACCTCGTGCCGAATTCGCGGCCGCCCTATAGTGAGTCGTATTACAAAATTCTGACGGTT
CACTAAACGAGCTCTGCTTATATAGACCTCCCACCGTACACGCCTACCGCCCATTTGCGT
CAACGGGGCGGGGTTATTACGACATTTTGGAAAGTCCCGTTGATTTTGGTGCCAAAACAA
ACTCCCATTGACGTCAATGGGGTGGAGACTTGGAAATCCCCGTGAGTCAAACCGCTATCC
ACGCCCATTGGTGTACTGCCCAAACCGCATCACATGGTAATAGCGATGACTAATACTAGA
TGTACTGGCCAGTAGAAAATCCCCGTAGGGCATGTTCTGGGCATAATGCCCGGCCGGGCC
TC
>Forward primer walk for NM_001041 unedited
GCTTGATGGCTTNTTNAGNACACAATAAACCTACTGTCCGTGGTGGTCACATCCTACCAT
GTCAAGAGCCAGCTCAAAACACATTTTACAGTCGACAAAAACACATGAAGCTCATTGTTG
CTGCAGATGATAATCAGATGGCACAGGGTTCTCTGTTTTGGGATGATGGAGAGAGTATAG
ACACCTATGAAAGAGACCTATATTTATCTGTACAATTTAATTTAAACCAGACCACCTTAA
CAAGCACTATATTGAAGAGAGGTTACATAAATAAAAGTGAAACGAGGCTTGGATCCCTTC
ATGTATGGGGGAAAGGAACTACTCCTGTCAATGCAGTTACTCTAACGTATAACGGAAATA
AAAATTCGCTTCCTTTTAATGAAGACACTACCAACATGATATTACGTATTGATCTGACCA
CACACAATGTTACTCTAGAAGAACCAATAGAAATCAACTGGTCATGAAGATCACCATCAA
TTTTAGTTGTCAATGGGAAAAAACACCAGGATTTAAGTTTCACAGCACTTACAATTTTCC
CTCTTCACTTGGTTCTTGTACTCTACAAAATATAGCTTTCATAACATCGAANAGTTATTT
TGTAGCGTACATCAATGATAATGCTAATTTTATTATAGTAATGTGACTTGGATTCAATTT
TAAGGCATATTTAACAAAATTTGAATAGCCCTATTTATCCTTGTTAAGTATCAGCTACAA
TTGTAAACTAGTTACTAAACATGTATGTAAATAGCTAAGATATAATTTAAACGTGATTTT
TAAATTAAATAAAATTTTTATGTAATTATATATACTATATTTTTCTCAATGTTTAGCAGA
TTTAAGATATGTAAACACCATTATTTTGAGATTTAATTACTTCTTAGTATGTGCATTTAA
TTAGGAAAAGAGAATTAAAAT
Restriction Sites NotI-NotI     
ACCN NM_001041
Insert Size 6000 bp
OTI Disclaimer Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
OTI Annotation The open reading frame of this TrueClone was fully sequenced and found to be a perfect match to the protein associated to this reference.
Product 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 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.
Reference Data
RefSeq NM_001041.1, NP_001032.1
RefSeq Size 6021 bp
RefSeq ORF 5484 bp
Locus ID 6476
UniProt ID P14410
Protein Families Druggable Genome, Transmembrane
Protein Pathways Metabolic pathways, Starch and sucrose metabolism
Gene Summary This gene encodes a sucrase-isomaltase enzyme that is expressed in the intestinal brush border. The encoded protein is synthesized as a precursor protein that is cleaved by pancreatic proteases into two enzymatic subunits sucrase and isomaltase. These two subunits heterodimerize to form the sucrose-isomaltase complex. This complex is essential for the digestion of dietary carbohydrates including starch, sucrose and isomaltose. Mutations in this gene are the cause of congenital sucrase-isomaltase deficiency.[provided by RefSeq, Apr 2010]
*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.

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