Ganab cDNA ORF clone, Mus musculus(house mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Ganab
Entrez Gene ID	14376
Full Name	alpha glucosidase 2 alpha neutral subunit
Synonyms	AU042638,G2an,GluII,mKIAA0088
General protein information	Preferred Names alpha glucosidase 2 alpha neutral subunit Names neutral alpha-glucosidase AB alpha-glucosidase 2 carbohydrate processing enzyme of the endoplasmic reticulum glucosidase II alpha-subunit glucosidase II subunit alpha
Gene Type	protein-coding
Organism	Mus musculus(house mouse)
Genome	Chromosome: 19 Map Location: 19\|19 A

mRNA and Protein(s)

mRNA	Protein	Name
NM_001293621.1	NP_001280550.1	neutral alpha-glucosidase AB isoform 2 precursor
XM_006526677.2	XP_006526740.1	neutral alpha-glucosidase AB isoform X1
NM_008060.2	NP_032086.1	neutral alpha-glucosidase AB isoform 1
XM_006526678.2	XP_006526741.1	neutral alpha-glucosidase AB isoform X2

Pathways from BioSystems

Homologies

Homo sapiens (human)	GANAB	NP_938149.2
Bos taurus (cattle)	GANAB	NP_001192706.1
Drosophila melanogaster (fruit fly)	CG14476	NP_652145.1
Caenorhabditis elegans (roundworm)	aagr-4	NP_508105.2
Saccharomyces cerevisiae (baker's yeast)	ROT2	NP_009788.3
Neurospora crassa	NCU04203	XP_961163.2
Xenopus tropicalis (tropical clawed frog)	ganab	XP_004919758.1
Canis lupus familiaris (dog)	GANAB	XP_540905.2
Mus musculus (house mouse)	Ganab	NP_032086.1
Danio rerio (zebrafish)	LOC100334924	XP_002664508.2
Oryza sativa (rice)	Os03g0216600	NP_001049385.1
Pan troglodytes (chimpanzee)	GANAB	XP_508494.2
Caenorhabditis elegans (roundworm)	aagr-3	NP_505507.1
Eremothecium gossypii	AGOS_AAR173C	NP_982716.1
	GANAB	XP_001116396.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP000862	XP_316832.4
Kluyveromyces lactis	KLLA0F09735g	XP_455522.1
Rattus norvegicus (Norway rat)	Ganab	NP_001099804.1
Danio rerio (zebrafish)	ganab	XP_002664506.1
Schizosaccharomyces pombe (fission yeast)	gls2	NP_593490.1
Magnaporthe oryzae (rice blast fungus)	MGG_08623	XP_003711051.1
Arabidopsis thaliana (thale cress)	RSW3	NP_201189.1

Gene Ontology
Bibliography

Related articles in PubMed

ESRP1 Mutations Cause Hearing Loss due to Defects in Alternative Splicing that Disrupt Cochlear Development.
Rohacek AM, Bebee TW, Tilton RK, Radens CM, McDermott-Roe C, Peart N, Kaur M, Zaykaner M, Cieply B, Musunuru K, Barash Y, Germiller JA, Krantz ID, Carstens RP, Epstein DJ
Developmental cell43(3)318-331.e5(2017 11)

Structures of mammalian ER ?-glucosidase II capture the binding modes of broad-spectrum iminosugar antivirals.
Caputo AT, Alonzi DS, Marti L, Reca IB, Kiappes JL, Struwe WB, Cross A, Basu S, Lowe ED, Darlot B, Santino A, Roversi P, Zitzmann N
Proceedings of the National Academy of Sciences of the United States of America113(32)E4630-8(2016 08)

Temporal neuropathologic and behavioral phenotype of 6neo/6neo Pompe disease mice.
Sidman RL, Taksir T, Fidler J, Zhao M, Dodge JC, Passini MA, Raben N, Thurberg BL, Cheng SH, Shihabuddin LS
Journal of neuropathology and experimental neurology67(8)803-18(2008 Aug)

Prediction of the coding sequences of mouse homologues of KIAA gene: II. The complete nucleotide sequences of 400 mouse KIAA-homologous cDNAs identified by screening of terminal sequences of cDNA clones randomly sampled from size-fractionated libraries.
Okazaki N, Kikuno R, Ohara R, Inamoto S, Aizawa H, Yuasa S, Nakajima D, Nagase T, Ohara O, Koga H
DNA research : an international journal for rapid publication of reports on genes and genomes10(1)35-48(2003 Feb)

BayGenomics: a resource of insertional mutations in mouse embryonic stem cells.
Stryke D, Kawamoto M, Huang CC, Johns SJ, King LA, Harper CA, Meng EC, Lee RE, Yee A, L'Italien L, Chuang PT, Young SG, Skarnes WC, Babbitt PC, Ferrin TE
Nucleic acids research31(1)278-81(2003 Jan)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

progression of neuropathologic and Behavioral abnormalities in a Pompe disease mouse model (6neo/6neo) that displays many features of the human disease
Title: Temporal neuropathologic and behavioral phenotype of 6neo/6neo Pompe disease mice.

The following Ganab gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ganab 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)
OMu55255	XM_006526678.2 Latest version!	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	5-7	$475.30 $679.00
OMu23475	NM_008060.2 Latest version!	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$566.30 $809.00
OMu55254	XM_006526677.2 Latest version!	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OMu23424	NM_001293621.1 Latest version!	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	5-7	$475.30 $679.00

ORF Online Only Promotion

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** 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)

Ganab ( XM_006526678.2 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006526741.1 Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMu55255
Clone ID Related Accession (Same CDS sequence)	XM_006526678.2
Accession Version	XM_006526678.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2544bp) 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	2019-08-07
Organism	Mus musculus(house mouse)
Product	neutral alpha-glucosidase AB isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000085.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 22, 2016 this sequence version replaced XM_006526678.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTCGGA TCAGGATCGA TGAGCTAGAG CCCCGGCGGC CTCGATACCG AGTGCCAGAT 
GTTTTAGTGG CTGACCCCCC CACAGCTAGG CTTTCAGTCT CTGGCCGTGA TGACAACAGT 
GTGGAGCTAA CAGTGGCTGA GGGACCCTAC AAAATCATTT TGACAGCACA GCCATTCCGC 
CTTGACCTGC TAGAAGATCG AAGCCTCCTG CTCAGTGTCA ATGCCCGAGG ACTTATGGCC 
TTTGAGCACC AGAGGGCCCC CAGGGTCCCG CAAGAATCAA AAGACCCAGC TGAAGGCAAT 
GGAGCCCAGC CTGAAGCAAC ACCTGGGGAT GGTGACAAGC CAGAGGAGAC CCAGGAAAAG 
GCTGAGAAGG ATGAGCCAGG AGCCTGGGAG GAGACATTCA AAACACATTC TGACAGCAAG 
CCTTATGGCC CCACGTCTGT AGGTTTGGAC TTTTCTCTGC CAGGAATGGA ACATGTGTAT 
GGGATCCCTG AGCATGCTGA CAGCCTGAGA CTGAAGGTCA CTGAGGGCGG TGAGCCGTAC 
CGCCTGTACA ATTTGGATGT GTTCCAGTAT GAGCTGAACA ACCCCATGGC TCTATATGGG 
TCTGTGCCTG TGCTCCTGGC ACACAGCTTT CATCGAGACC TGGGCATCTT CTGGCTTAAT 
GCTGCTGAGA CTTGGGTTGA TATATCCTCC AACACGGCTG GGAAGACCCT GTTTGGGAAG 
ATGCTTGATT ACCTGCAGGG CTCTGGGGAG ACTCCACAGA CAGACATTCG TTGGATGTCA 
GAGAGTGGCA TTATTGATGT TTTCCTAATG CTTGGCCCTT CGGTTTTTGA TGTCTTTAGG 
CAGTATGCTA GTCTCACAGG GACCCAGGCA TTGCCCCCAC TCTTCTCCCT CGGCTATCAC 
CAGAGTCGCT GGAACTACCG GGATGAGGCT GATGTTTTGG AAGTGGATCA GGGTTTTGAT 
GATCACAACA TGCCTTGTGA TGTCATTTGG TTGGACATTG AACATGCTGA TGGCAAGCGG 
TACTTCACTT GGGACCCCAC CCGATTTCCT CAGCCCCTCA ATATGCTTGA GCACTTGGCT 
TCCAAGAGGC GGAAGCTGGT GGCCATTGTG GACCCCCACA TCAAGGTAGA CTCTGGCTAC 
CGAGTTCACG AAGAATTGCG AAACCATGGG CTGTATGTTA AAACTCGGGA TGGCTCTGAT 
TACGAGGGCT GGTGCTGGCC AGGCTCAGCT AGTTACCCTG ACTTCACTAA TCCAAGGATG 
AGGGCCTGGT GGTCTAACAT GTTCAGCTTT GACAATTATG AGGGTTCAGC TCCTAATCTT 
TATGTTTGGA ATGACATGAA TGAACCGTCT GTGTTCAATG GTCCTGAGGT CACCATGTTG 
AAGGATGCTG TGCATTATGG AGGCTGGGAG CACCGGGACA TCCATAACAT CTATGGCTTA 
TATGTGCACA TGGCGACTGC TGATGGGCTA ATACAGCGCT CTGGGGGCAT AGAGCGTCCC 
TTTGTCCTGA GTAGGGCTTT CTTCTCAGGC TCCCAGCGCT TTGGAGCTGT GTGGACAGGG 
GACAACACTG CCGAATGGGA TCATTTGAAG ATCTCTATCC CTATGTGTCT CAGCCTGGCA 
CTGGTGGGGC TTTCCTTCTG TGGAGCGGAT GTGGGTGGCT TCTTCAAGAA CCCAGAGCCA 
GAGCTGCTTG TGCGCTGGTA CCAAATGGGT GCCTACCAGC CGTTCTTTCG GGCTCATGCC 
CACTTGGACA CTGGGCGGCG AGAGCCATGG CTGTTAGCGT CTCAATACCA AGATGCAATC 
CGAGATGCCT TGTTCCAGCG ATATTCTTTG CTGCCCTTCT GGTATACCCT CTTCTATCAA 
GCTCACAAGG AAGGGTTTCC TGTCATGAGG CCCCTCTGGG TACAGTATCC TGAGGATATG 
TCTACCTTCA GTATAGAGGA TCAGTTCATG CTTGGTGATG CACTCCTTAT TCACCCTGTA 
TCGGATGCTG GGGCCCACGG AGTGCAGGTC TATTTGCCTG GCCAAGAAGA AGTGTGGTAT 
GACATTCAGA GCTATCAGAA GCATCATGGG CCCCAGACCT TGTATCTGCC AGTAACTTTG 
AGCAGTATCC CCGTGTTCCA GCGTGGCGGA ACCATTGTGC CTCGATGGAT GCGTGTGAGG 
CGCTCTTCAG ACTGTATGAA GGACGATCCT ATCACTCTCT TTGTTGCTCT CAGTCCCCAG 
GGTACTGCCC AAGGAGAGCT CTTTCTAGAT GATGGACACA CCTTTAACTA TCAGACTCGC 
CATGAGTTCC TGTTGCGGCG GTTCTCTTTC TCTGGCAGCA CACTGGTCTC TAGTTCAGCA 
GACCCCAAAG GCCACCTTGA GACACCTATT TGGATTGAGC GAGTAGTCAT CATGGGGGCT 
GGAAAGCCAG CAGCTGTGGT GCTCCAGACC AAAGGATCCC CTGAAAGTCG CCTGTCCTTC 
CAGCATGACC CTGAGACCTC AGTGCTGATA TTGCGTAAAC CTGGTGTCAG CGTGGCATCC 
GACTGGAGTA TTCATCTTCG ATAA

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

RefSeq	XP_006526741.1
CDS	537..3080
Translation	MTRIRIDELEPRRPRYRVPDVLVADPPTARLSVSGRDDNSVELTVAEGPYKIILTAQPFRLDLLEDRSLLLSVNARGLMAFEHQRAPRVPQESKDPAEGNGAQPEATPGDGDKPEETQEKAEKDEPGAWEETFKTHSDSKPYGPTSVGLDFSLPGMEHVYGIPEHADSLRLKVTEGGEPYRLYNLDVFQYELNNPMALYGSVPVLLAHSFHRDLGIFWLNAAETWVDISSNTAGKTLFGKMLDYLQGSGETPQTDIRWMSESGIIDVFLMLGPSVFDVFRQYASLTGTQALPPLFSLGYHQSRWNYRDEADVLEVDQGFDDHNMPCDVIWLDIEHADGKRYFTWDPTRFPQPLNMLEHLASKRRKLVAIVDPHIKVDSGYRVHEELRNHGLYVKTRDGSDYEGWCWPGSASYPDFTNPRMRAWWSNMFSFDNYEGSAPNLYVWNDMNEPSVFNGPEVTMLKDAVHYGGWEHRDIHNIYGLYVHMATADGLIQRSGGIERPFVLSRAFFSGSQRFGAVWTGDNTAEWDHLKISIPMCLSLALVGLSFCGADVGGFFKNPEPELLVRWYQMGAYQPFFRAHAHLDTGRREPWLLASQYQDAIRDALFQRYSLLPFWYTLFYQAHKEGFPVMRPLWVQYPEDMSTFSIEDQFMLGDALLIHPVSDAGAHGVQVYLPGQEEVWYDIQSYQKHHGPQTLYLPVTLSSIPVFQRGGTIVPRWMRVRRSSDCMKDDPITLFVALSPQGTAQGELFLDDGHTFNYQTRHEFLLRRFSFSGSTLVSSSADPKGHLETPIWIERVVIMGAGKPAAVVLQTKGSPESRLSFQHDPETSVLILRKPGVSVASDWSIHLR

Target ORF information:

RefSeq Version	XM_006526678.2
Organism	Mus musculus(house mouse)
Definition	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006526678.2

ORF Insert Sequence:

ATGACTCGGA TCAGGATCGA TGAGCTAGAG CCCCGGCGGC CTCGATACCG AGTGCCAGAT 
GTTTTAGTGG CTGACCCCCC CACAGCTAGG CTTTCAGTCT CTGGCCGTGA TGACAACAGT 
GTGGAGCTAA CAGTGGCTGA GGGACCCTAC AAAATCATTT TGACAGCACA GCCATTCCGC 
CTTGACCTGC TAGAAGATCG AAGCCTCCTG CTCAGTGTCA ATGCCCGAGG ACTTATGGCC 
TTTGAGCACC AGAGGGCCCC CAGGGTCCCG CAAGAATCAA AAGACCCAGC TGAAGGCAAT 
GGAGCCCAGC CTGAAGCAAC ACCTGGGGAT GGTGACAAGC CAGAGGAGAC CCAGGAAAAG 
GCTGAGAAGG ATGAGCCAGG AGCCTGGGAG GAGACATTCA AAACACATTC TGACAGCAAG 
CCTTATGGCC CCACGTCTGT AGGTTTGGAC TTTTCTCTGC CAGGAATGGA ACATGTGTAT 
GGGATCCCTG AGCATGCTGA CAGCCTGAGA CTGAAGGTCA CTGAGGGCGG TGAGCCGTAC 
CGCCTGTACA ATTTGGATGT GTTCCAGTAT GAGCTGAACA ACCCCATGGC TCTATATGGG 
TCTGTGCCTG TGCTCCTGGC ACACAGCTTT CATCGAGACC TGGGCATCTT CTGGCTTAAT 
GCTGCTGAGA CTTGGGTTGA TATATCCTCC AACACGGCTG GGAAGACCCT GTTTGGGAAG 
ATGCTTGATT ACCTGCAGGG CTCTGGGGAG ACTCCACAGA CAGACATTCG TTGGATGTCA 
GAGAGTGGCA TTATTGATGT TTTCCTAATG CTTGGCCCTT CGGTTTTTGA TGTCTTTAGG 
CAGTATGCTA GTCTCACAGG GACCCAGGCA TTGCCCCCAC TCTTCTCCCT CGGCTATCAC 
CAGAGTCGCT GGAACTACCG GGATGAGGCT GATGTTTTGG AAGTGGATCA GGGTTTTGAT 
GATCACAACA TGCCTTGTGA TGTCATTTGG TTGGACATTG AACATGCTGA TGGCAAGCGG 
TACTTCACTT GGGACCCCAC CCGATTTCCT CAGCCCCTCA ATATGCTTGA GCACTTGGCT 
TCCAAGAGGC GGAAGCTGGT GGCCATTGTG GACCCCCACA TCAAGGTAGA CTCTGGCTAC 
CGAGTTCACG AAGAATTGCG AAACCATGGG CTGTATGTTA AAACTCGGGA TGGCTCTGAT 
TACGAGGGCT GGTGCTGGCC AGGCTCAGCT AGTTACCCTG ACTTCACTAA TCCAAGGATG 
AGGGCCTGGT GGTCTAACAT GTTCAGCTTT GACAATTATG AGGGTTCAGC TCCTAATCTT 
TATGTTTGGA ATGACATGAA TGAACCGTCT GTGTTCAATG GTCCTGAGGT CACCATGTTG 
AAGGATGCTG TGCATTATGG AGGCTGGGAG CACCGGGACA TCCATAACAT CTATGGCTTA 
TATGTGCACA TGGCGACTGC TGATGGGCTA ATACAGCGCT CTGGGGGCAT AGAGCGTCCC 
TTTGTCCTGA GTAGGGCTTT CTTCTCAGGC TCCCAGCGCT TTGGAGCTGT GTGGACAGGG 
GACAACACTG CCGAATGGGA TCATTTGAAG ATCTCTATCC CTATGTGTCT CAGCCTGGCA 
CTGGTGGGGC TTTCCTTCTG TGGAGCGGAT GTGGGTGGCT TCTTCAAGAA CCCAGAGCCA 
GAGCTGCTTG TGCGCTGGTA CCAAATGGGT GCCTACCAGC CGTTCTTTCG GGCTCATGCC 
CACTTGGACA CTGGGCGGCG AGAGCCATGG CTGTTAGCGT CTCAATACCA AGATGCAATC 
CGAGATGCCT TGTTCCAGCG ATATTCTTTG CTGCCCTTCT GGTATACCCT CTTCTATCAA 
GCTCACAAGG AAGGGTTTCC TGTCATGAGG CCCCTCTGGG TACAGTATCC TGAGGATATG 
TCTACCTTCA GTATAGAGGA TCAGTTCATG CTTGGTGATG CACTCCTTAT TCACCCTGTA 
TCGGATGCTG GGGCCCACGG AGTGCAGGTC TATTTGCCTG GCCAAGAAGA AGTGTGGTAT 
GACATTCAGA GCTATCAGAA GCATCATGGG CCCCAGACCT TGTATCTGCC AGTAACTTTG 
AGCAGTATCC CCGTGTTCCA GCGTGGCGGA ACCATTGTGC CTCGATGGAT GCGTGTGAGG 
CGCTCTTCAG ACTGTATGAA GGACGATCCT ATCACTCTCT TTGTTGCTCT CAGTCCCCAG 
GGTACTGCCC AAGGAGAGCT CTTTCTAGAT GATGGACACA CCTTTAACTA TCAGACTCGC 
CATGAGTTCC TGTTGCGGCG GTTCTCTTTC TCTGGCAGCA CACTGGTCTC TAGTTCAGCA 
GACCCCAAAG GCCACCTTGA GACACCTATT TGGATTGAGC GAGTAGTCAT CATGGGGGCT 
GGAAAGCCAG CAGCTGTGGT GCTCCAGACC AAAGGATCCC CTGAAAGTCG CCTGTCCTTC 
CAGCATGACC CTGAGACCTC AGTGCTGATA TTGCGTAAAC CTGGTGTCAG CGTGGCATCC 
GACTGGAGTA TTCATCTTCG ATAA

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

Ganab ( NM_008060.2 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_032086.1 Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OMu23475
Clone ID Related Accession (Same CDS sequence)	NM_008060.2
Accession Version	NM_008060.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2901bp) 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	2019-05-18
Organism	Mus musculus(house mouse)
Product	neutral alpha-glucosidase AB isoform 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC129217.3, BC128069.1, AK030722.1, AK081915.1 and BB002622.1. On Jun 13, 2014 this sequence version replaced NM_008060.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). ##Evidence-Data-START## Transcript exon combination :: U92793.1, SRR1660815.256965.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN00849374, SAMN00849375 [ECO:0000348] ##Evidence-Data-END##

ATGGCGGCAA TAGCGGCAGT GGCGGCGCGT AGGAGGCGGT CTTGGTTAAG TTTGGTGCTG 
GCATACTTAG GGGTCTGTCT GGGGATTACA CTTGCTGTGG ATAGAAGCAA CTTTAAGACC 
TGTGATGAGA GTTCCTTTTG CAAACGGCAG CGAAGCATTC GGCCAGGCCT CTCTCCTTAC 
CGTGCCTTGC TGGACACTCT GCAGCTTGGT CCTGATGCTC TTACAGTCCA TCTGATCCAT 
GAAGTCACCA AGGTGCTGCT TGTGCTGGAG CTCCAGGGCC TTCAGAAGAA CATGACTCGG 
ATCAGGATCG ATGAGCTAGA GCCCCGGCGG CCTCGATACC GAGTGCCAGA TGTTTTAGTG 
GCTGACCCCC CCACAGCTAG GCTTTCAGTC TCTGGCCGTG ATGACAACAG TGTGGAGCTA 
ACAGTGGCTG AGGGACCCTA CAAAATCATT TTGACAGCAC AGCCATTCCG CCTTGACCTG 
CTAGAAGATC GAAGCCTCCT GCTCAGTGTC AATGCCCGAG GACTTATGGC CTTTGAGCAC 
CAGAGGGCCC CCAGGGTCCC TTTCTCGGAT AAAGTTAGTC TCGCGCTCGG TAGCGTGTGG 
GATAAGATCA AGAACCTTTT CTCTAGGCAA GAATCAAAAG ACCCAGCTGA AGGCAATGGA 
GCCCAGCCTG AAGCAACACC TGGGGATGGT GACAAGCCAG AGGAGACCCA GGAAAAGGCT 
GAGAAGGATG AGCCAGGAGC CTGGGAGGAG ACATTCAAAA CACATTCTGA CAGCAAGCCT 
TATGGCCCCA CGTCTGTAGG TTTGGACTTT TCTCTGCCAG GAATGGAACA TGTGTATGGG 
ATCCCTGAGC ATGCTGACAG CCTGAGACTG AAGGTCACTG AGGGCGGTGA GCCGTACCGC 
CTGTACAATT TGGATGTGTT CCAGTATGAG CTGAACAACC CCATGGCTCT ATATGGGTCT 
GTGCCTGTGC TCCTGGCACA CAGCTTTCAT CGAGACCTGG GCATCTTCTG GCTTAATGCT 
GCTGAGACTT GGGTTGATAT ATCCTCCAAC ACGGCTGGGA AGACCCTGTT TGGGAAGATG 
CTTGATTACC TGCAGGGCTC TGGGGAGACT CCACAGACAG ACATTCGTTG GATGTCAGAG 
AGTGGCATTA TTGATGTTTT CCTAATGCTT GGCCCTTCGG TTTTTGATGT CTTTAGGCAG 
TATGCTAGTC TCACAGGGAC CCAGGCATTG CCCCCACTCT TCTCCCTCGG CTATCACCAG 
AGTCGCTGGA ACTACCGGGA TGAGGCTGAT GTTTTGGAAG TGGATCAGGG TTTTGATGAT 
CACAACATGC CTTGTGATGT CATTTGGTTG GACATTGAAC ATGCTGATGG CAAGCGGTAC 
TTCACTTGGG ACCCCACCCG ATTTCCTCAG CCCCTCAATA TGCTTGAGCA CTTGGCTTCC 
AAGAGGCGGA AGCTGGTGGC CATTGTGGAC CCCCACATCA AGGTAGACTC TGGCTACCGA 
GTTCACGAAG AATTGCGAAA CCATGGGCTG TATGTTAAAA CTCGGGATGG CTCTGATTAC 
GAGGGCTGGT GCTGGCCAGG CTCAGCTAGT TACCCTGACT TCACTAATCC AAGGATGAGG 
GCCTGGTGGT CTAACATGTT CAGCTTTGAC AATTATGAGG GTTCAGCTCC TAATCTTTAT 
GTTTGGAATG ACATGAATGA ACCGTCTGTG TTCAATGGTC CTGAGGTCAC CATGTTGAAG 
GATGCTGTGC ATTATGGAGG CTGGGAGCAC CGGGACATCC ATAACATCTA TGGCTTATAT 
GTGCACATGG CGACTGCTGA TGGGCTAATA CAGCGCTCTG GGGGCATAGA GCGTCCCTTT 
GTCCTGAGTA GGGCTTTCTT CTCAGGCTCC CAGCGCTTTG GAGCTGTGTG GACAGGGGAC 
AACACTGCCG AATGGGATCA TTTGAAGATC TCTATCCCTA TGTGTCTCAG CCTGGCACTG 
GTGGGGCTTT CCTTCTGTGG AGCGGATGTG GGTGGCTTCT TCAAGAACCC AGAGCCAGAG 
CTGCTTGTGC GCTGGTACCA AATGGGTGCC TACCAGCCGT TCTTTCGGGC TCATGCCCAC 
TTGGACACTG GGCGGCGAGA GCCATGGCTG TTAGCGTCTC AATACCAAGA TGCAATCCGA 
GATGCCTTGT TCCAGCGATA TTCTTTGCTG CCCTTCTGGT ATACCCTCTT CTATCAAGCT 
CACAAGGAAG GGTTTCCTGT CATGAGGCCC CTCTGGGTAC AGTATCCTGA GGATATGTCT 
ACCTTCAGTA TAGAGGATCA GTTCATGCTT GGTGATGCAC TCCTTATTCA CCCTGTATCG 
GATGCTGGGG CCCACGGAGT GCAGGTCTAT TTGCCTGGCC AAGAAGAAGT GTGGTATGAC 
ATTCAGAGCT ATCAGAAGCA TCATGGGCCC CAGACCTTGT ATCTGCCAGT AACTTTGAGC 
AGTATCCCCG TGTTCCAGCG TGGCGGAACC ATTGTGCCTC GATGGATGCG TGTGAGGCGC 
TCTTCAGACT GTATGAAGGA CGATCCTATC ACTCTCTTTG TTGCTCTCAG TCCCCAGGGT 
ACTGCCCAAG GAGAGCTCTT TCTAGATGAT GGACACACCT TTAACTATCA GACTCGCCAT 
GAGTTCCTGT TGCGGCGGTT CTCTTTCTCT GGCAGCACAC TGGTCTCTAG TTCAGCAGAC 
CCCAAAGGCC ACCTTGAGAC ACCTATTTGG ATTGAGCGAG TAGTCATCAT GGGGGCTGGA 
AAGCCAGCAG CTGTGGTGCT CCAGACCAAA GGATCCCCTG AAAGTCGCCT GTCCTTCCAG 
CATGACCCTG AGACCTCAGT GCTGATATTG CGTAAACCTG GTGTCAGCGT GGCATCCGAC 
TGGAGTATTC ATCTTCGATA A

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

RefSeq	NP_032086.1
CDS	66..2966
Translation	MAAIAAVAARRRRSWLSLVLAYLGVCLGITLAVDRSNFKTCDESSFCKRQRSIRPGLSPYRALLDTLQLGPDALTVHLIHEVTKVLLVLELQGLQKNMTRIRIDELEPRRPRYRVPDVLVADPPTARLSVSGRDDNSVELTVAEGPYKIILTAQPFRLDLLEDRSLLLSVNARGLMAFEHQRAPRVPFSDKVSLALGSVWDKIKNLFSRQESKDPAEGNGAQPEATPGDGDKPEETQEKAEKDEPGAWEETFKTHSDSKPYGPTSVGLDFSLPGMEHVYGIPEHADSLRLKVTEGGEPYRLYNLDVFQYELNNPMALYGSVPVLLAHSFHRDLGIFWLNAAETWVDISSNTAGKTLFGKMLDYLQGSGETPQTDIRWMSESGIIDVFLMLGPSVFDVFRQYASLTGTQALPPLFSLGYHQSRWNYRDEADVLEVDQGFDDHNMPCDVIWLDIEHADGKRYFTWDPTRFPQPLNMLEHLASKRRKLVAIVDPHIKVDSGYRVHEELRNHGLYVKTRDGSDYEGWCWPGSASYPDFTNPRMRAWWSNMFSFDNYEGSAPNLYVWNDMNEPSVFNGPEVTMLKDAVHYGGWEHRDIHNIYGLYVHMATADGLIQRSGGIERPFVLSRAFFSGSQRFGAVWTGDNTAEWDHLKISIPMCLSLALVGLSFCGADVGGFFKNPEPELLVRWYQMGAYQPFFRAHAHLDTGRREPWLLASQYQDAIRDALFQRYSLLPFWYTLFYQAHKEGFPVMRPLWVQYPEDMSTFSIEDQFMLGDALLIHPVSDAGAHGVQVYLPGQEEVWYDIQSYQKHHGPQTLYLPVTLSSIPVFQRGGTIVPRWMRVRRSSDCMKDDPITLFVALSPQGTAQGELFLDDGHTFNYQTRHEFLLRRFSFSGSTLVSSSADPKGHLETPIWIERVVIMGAGKPAAVVLQTKGSPESRLSFQHDPETSVLILRKPGVSVASDWSIHLR

Target ORF information:

RefSeq Version	NM_008060.2
Organism	Mus musculus(house mouse)
Definition	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant 1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_008060.2

ORF Insert Sequence:

ATGGCGGCAA TAGCGGCAGT GGCGGCGCGT AGGAGGCGGT CTTGGTTAAG TTTGGTGCTG 
GCATACTTAG GGGTCTGTCT GGGGATTACA CTTGCTGTGG ATAGAAGCAA CTTTAAGACC 
TGTGATGAGA GTTCCTTTTG CAAACGGCAG CGAAGCATTC GGCCAGGCCT CTCTCCTTAC 
CGTGCCTTGC TGGACACTCT GCAGCTTGGT CCTGATGCTC TTACAGTCCA TCTGATCCAT 
GAAGTCACCA AGGTGCTGCT TGTGCTGGAG CTCCAGGGCC TTCAGAAGAA CATGACTCGG 
ATCAGGATCG ATGAGCTAGA GCCCCGGCGG CCTCGATACC GAGTGCCAGA TGTTTTAGTG 
GCTGACCCCC CCACAGCTAG GCTTTCAGTC TCTGGCCGTG ATGACAACAG TGTGGAGCTA 
ACAGTGGCTG AGGGACCCTA CAAAATCATT TTGACAGCAC AGCCATTCCG CCTTGACCTG 
CTAGAAGATC GAAGCCTCCT GCTCAGTGTC AATGCCCGAG GACTTATGGC CTTTGAGCAC 
CAGAGGGCCC CCAGGGTCCC TTTCTCGGAT AAAGTTAGTC TCGCGCTCGG TAGCGTGTGG 
GATAAGATCA AGAACCTTTT CTCTAGGCAA GAATCAAAAG ACCCAGCTGA AGGCAATGGA 
GCCCAGCCTG AAGCAACACC TGGGGATGGT GACAAGCCAG AGGAGACCCA GGAAAAGGCT 
GAGAAGGATG AGCCAGGAGC CTGGGAGGAG ACATTCAAAA CACATTCTGA CAGCAAGCCT 
TATGGCCCCA CGTCTGTAGG TTTGGACTTT TCTCTGCCAG GAATGGAACA TGTGTATGGG 
ATCCCTGAGC ATGCTGACAG CCTGAGACTG AAGGTCACTG AGGGCGGTGA GCCGTACCGC 
CTGTACAATT TGGATGTGTT CCAGTATGAG CTGAACAACC CCATGGCTCT ATATGGGTCT 
GTGCCTGTGC TCCTGGCACA CAGCTTTCAT CGAGACCTGG GCATCTTCTG GCTTAATGCT 
GCTGAGACTT GGGTTGATAT ATCCTCCAAC ACGGCTGGGA AGACCCTGTT TGGGAAGATG 
CTTGATTACC TGCAGGGCTC TGGGGAGACT CCACAGACAG ACATTCGTTG GATGTCAGAG 
AGTGGCATTA TTGATGTTTT CCTAATGCTT GGCCCTTCGG TTTTTGATGT CTTTAGGCAG 
TATGCTAGTC TCACAGGGAC CCAGGCATTG CCCCCACTCT TCTCCCTCGG CTATCACCAG 
AGTCGCTGGA ACTACCGGGA TGAGGCTGAT GTTTTGGAAG TGGATCAGGG TTTTGATGAT 
CACAACATGC CTTGTGATGT CATTTGGTTG GACATTGAAC ATGCTGATGG CAAGCGGTAC 
TTCACTTGGG ACCCCACCCG ATTTCCTCAG CCCCTCAATA TGCTTGAGCA CTTGGCTTCC 
AAGAGGCGGA AGCTGGTGGC CATTGTGGAC CCCCACATCA AGGTAGACTC TGGCTACCGA 
GTTCACGAAG AATTGCGAAA CCATGGGCTG TATGTTAAAA CTCGGGATGG CTCTGATTAC 
GAGGGCTGGT GCTGGCCAGG CTCAGCTAGT TACCCTGACT TCACTAATCC AAGGATGAGG 
GCCTGGTGGT CTAACATGTT CAGCTTTGAC AATTATGAGG GTTCAGCTCC TAATCTTTAT 
GTTTGGAATG ACATGAATGA ACCGTCTGTG TTCAATGGTC CTGAGGTCAC CATGTTGAAG 
GATGCTGTGC ATTATGGAGG CTGGGAGCAC CGGGACATCC ATAACATCTA TGGCTTATAT 
GTGCACATGG CGACTGCTGA TGGGCTAATA CAGCGCTCTG GGGGCATAGA GCGTCCCTTT 
GTCCTGAGTA GGGCTTTCTT CTCAGGCTCC CAGCGCTTTG GAGCTGTGTG GACAGGGGAC 
AACACTGCCG AATGGGATCA TTTGAAGATC TCTATCCCTA TGTGTCTCAG CCTGGCACTG 
GTGGGGCTTT CCTTCTGTGG AGCGGATGTG GGTGGCTTCT TCAAGAACCC AGAGCCAGAG 
CTGCTTGTGC GCTGGTACCA AATGGGTGCC TACCAGCCGT TCTTTCGGGC TCATGCCCAC 
TTGGACACTG GGCGGCGAGA GCCATGGCTG TTAGCGTCTC AATACCAAGA TGCAATCCGA 
GATGCCTTGT TCCAGCGATA TTCTTTGCTG CCCTTCTGGT ATACCCTCTT CTATCAAGCT 
CACAAGGAAG GGTTTCCTGT CATGAGGCCC CTCTGGGTAC AGTATCCTGA GGATATGTCT 
ACCTTCAGTA TAGAGGATCA GTTCATGCTT GGTGATGCAC TCCTTATTCA CCCTGTATCG 
GATGCTGGGG CCCACGGAGT GCAGGTCTAT TTGCCTGGCC AAGAAGAAGT GTGGTATGAC 
ATTCAGAGCT ATCAGAAGCA TCATGGGCCC CAGACCTTGT ATCTGCCAGT AACTTTGAGC 
AGTATCCCCG TGTTCCAGCG TGGCGGAACC ATTGTGCCTC GATGGATGCG TGTGAGGCGC 
TCTTCAGACT GTATGAAGGA CGATCCTATC ACTCTCTTTG TTGCTCTCAG TCCCCAGGGT 
ACTGCCCAAG GAGAGCTCTT TCTAGATGAT GGACACACCT TTAACTATCA GACTCGCCAT 
GAGTTCCTGT TGCGGCGGTT CTCTTTCTCT GGCAGCACAC TGGTCTCTAG TTCAGCAGAC 
CCCAAAGGCC ACCTTGAGAC ACCTATTTGG ATTGAGCGAG TAGTCATCAT GGGGGCTGGA 
AAGCCAGCAG CTGTGGTGCT CCAGACCAAA GGATCCCCTG AAAGTCGCCT GTCCTTCCAG 
CATGACCCTG AGACCTCAGT GCTGATATTG CGTAAACCTG GTGTCAGCGT GGCATCCGAC 
TGGAGTATTC ATCTTCGATA A

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

Ganab ( XM_006526677.2 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006526740.1 Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant X1, mRNA.

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CloneID	OMu55254
Clone ID Related Accession (Same CDS sequence)	XM_006526677.2
Accession Version	XM_006526677.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2610bp) 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	2019-08-07
Organism	Mus musculus(house mouse)
Product	neutral alpha-glucosidase AB isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000085.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 22, 2016 this sequence version replaced XM_006526677.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTCGGA TCAGGATCGA TGAGCTAGAG CCCCGGCGGC CTCGATACCG AGTGCCAGAT 
GTTTTAGTGG CTGACCCCCC CACAGCTAGG CTTTCAGTCT CTGGCCGTGA TGACAACAGT 
GTGGAGCTAA CAGTGGCTGA GGGACCCTAC AAAATCATTT TGACAGCACA GCCATTCCGC 
CTTGACCTGC TAGAAGATCG AAGCCTCCTG CTCAGTGTCA ATGCCCGAGG ACTTATGGCC 
TTTGAGCACC AGAGGGCCCC CAGGGTCCCT TTCTCGGATA AAGTTAGTCT CGCGCTCGGT 
AGCGTGTGGG ATAAGATCAA GAACCTTTTC TCTAGGCAAG AATCAAAAGA CCCAGCTGAA 
GGCAATGGAG CCCAGCCTGA AGCAACACCT GGGGATGGTG ACAAGCCAGA GGAGACCCAG 
GAAAAGGCTG AGAAGGATGA GCCAGGAGCC TGGGAGGAGA CATTCAAAAC ACATTCTGAC 
AGCAAGCCTT ATGGCCCCAC GTCTGTAGGT TTGGACTTTT CTCTGCCAGG AATGGAACAT 
GTGTATGGGA TCCCTGAGCA TGCTGACAGC CTGAGACTGA AGGTCACTGA GGGCGGTGAG 
CCGTACCGCC TGTACAATTT GGATGTGTTC CAGTATGAGC TGAACAACCC CATGGCTCTA 
TATGGGTCTG TGCCTGTGCT CCTGGCACAC AGCTTTCATC GAGACCTGGG CATCTTCTGG 
CTTAATGCTG CTGAGACTTG GGTTGATATA TCCTCCAACA CGGCTGGGAA GACCCTGTTT 
GGGAAGATGC TTGATTACCT GCAGGGCTCT GGGGAGACTC CACAGACAGA CATTCGTTGG 
ATGTCAGAGA GTGGCATTAT TGATGTTTTC CTAATGCTTG GCCCTTCGGT TTTTGATGTC 
TTTAGGCAGT ATGCTAGTCT CACAGGGACC CAGGCATTGC CCCCACTCTT CTCCCTCGGC 
TATCACCAGA GTCGCTGGAA CTACCGGGAT GAGGCTGATG TTTTGGAAGT GGATCAGGGT 
TTTGATGATC ACAACATGCC TTGTGATGTC ATTTGGTTGG ACATTGAACA TGCTGATGGC 
AAGCGGTACT TCACTTGGGA CCCCACCCGA TTTCCTCAGC CCCTCAATAT GCTTGAGCAC 
TTGGCTTCCA AGAGGCGGAA GCTGGTGGCC ATTGTGGACC CCCACATCAA GGTAGACTCT 
GGCTACCGAG TTCACGAAGA ATTGCGAAAC CATGGGCTGT ATGTTAAAAC TCGGGATGGC 
TCTGATTACG AGGGCTGGTG CTGGCCAGGC TCAGCTAGTT ACCCTGACTT CACTAATCCA 
AGGATGAGGG CCTGGTGGTC TAACATGTTC AGCTTTGACA ATTATGAGGG TTCAGCTCCT 
AATCTTTATG TTTGGAATGA CATGAATGAA CCGTCTGTGT TCAATGGTCC TGAGGTCACC 
ATGTTGAAGG ATGCTGTGCA TTATGGAGGC TGGGAGCACC GGGACATCCA TAACATCTAT 
GGCTTATATG TGCACATGGC GACTGCTGAT GGGCTAATAC AGCGCTCTGG GGGCATAGAG 
CGTCCCTTTG TCCTGAGTAG GGCTTTCTTC TCAGGCTCCC AGCGCTTTGG AGCTGTGTGG 
ACAGGGGACA ACACTGCCGA ATGGGATCAT TTGAAGATCT CTATCCCTAT GTGTCTCAGC 
CTGGCACTGG TGGGGCTTTC CTTCTGTGGA GCGGATGTGG GTGGCTTCTT CAAGAACCCA 
GAGCCAGAGC TGCTTGTGCG CTGGTACCAA ATGGGTGCCT ACCAGCCGTT CTTTCGGGCT 
CATGCCCACT TGGACACTGG GCGGCGAGAG CCATGGCTGT TAGCGTCTCA ATACCAAGAT 
GCAATCCGAG ATGCCTTGTT CCAGCGATAT TCTTTGCTGC CCTTCTGGTA TACCCTCTTC 
TATCAAGCTC ACAAGGAAGG GTTTCCTGTC ATGAGGCCCC TCTGGGTACA GTATCCTGAG 
GATATGTCTA CCTTCAGTAT AGAGGATCAG TTCATGCTTG GTGATGCACT CCTTATTCAC 
CCTGTATCGG ATGCTGGGGC CCACGGAGTG CAGGTCTATT TGCCTGGCCA AGAAGAAGTG 
TGGTATGACA TTCAGAGCTA TCAGAAGCAT CATGGGCCCC AGACCTTGTA TCTGCCAGTA 
ACTTTGAGCA GTATCCCCGT GTTCCAGCGT GGCGGAACCA TTGTGCCTCG ATGGATGCGT 
GTGAGGCGCT CTTCAGACTG TATGAAGGAC GATCCTATCA CTCTCTTTGT TGCTCTCAGT 
CCCCAGGGTA CTGCCCAAGG AGAGCTCTTT CTAGATGATG GACACACCTT TAACTATCAG 
ACTCGCCATG AGTTCCTGTT GCGGCGGTTC TCTTTCTCTG GCAGCACACT GGTCTCTAGT 
TCAGCAGACC CCAAAGGCCA CCTTGAGACA CCTATTTGGA TTGAGCGAGT AGTCATCATG 
GGGGCTGGAA AGCCAGCAGC TGTGGTGCTC CAGACCAAAG GATCCCCTGA AAGTCGCCTG 
TCCTTCCAGC ATGACCCTGA GACCTCAGTG CTGATATTGC GTAAACCTGG TGTCAGCGTG 
GCATCCGACT GGAGTATTCA TCTTCGATAA

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

RefSeq	XP_006526740.1
CDS	537..3146
Translation	MTRIRIDELEPRRPRYRVPDVLVADPPTARLSVSGRDDNSVELTVAEGPYKIILTAQPFRLDLLEDRSLLLSVNARGLMAFEHQRAPRVPFSDKVSLALGSVWDKIKNLFSRQESKDPAEGNGAQPEATPGDGDKPEETQEKAEKDEPGAWEETFKTHSDSKPYGPTSVGLDFSLPGMEHVYGIPEHADSLRLKVTEGGEPYRLYNLDVFQYELNNPMALYGSVPVLLAHSFHRDLGIFWLNAAETWVDISSNTAGKTLFGKMLDYLQGSGETPQTDIRWMSESGIIDVFLMLGPSVFDVFRQYASLTGTQALPPLFSLGYHQSRWNYRDEADVLEVDQGFDDHNMPCDVIWLDIEHADGKRYFTWDPTRFPQPLNMLEHLASKRRKLVAIVDPHIKVDSGYRVHEELRNHGLYVKTRDGSDYEGWCWPGSASYPDFTNPRMRAWWSNMFSFDNYEGSAPNLYVWNDMNEPSVFNGPEVTMLKDAVHYGGWEHRDIHNIYGLYVHMATADGLIQRSGGIERPFVLSRAFFSGSQRFGAVWTGDNTAEWDHLKISIPMCLSLALVGLSFCGADVGGFFKNPEPELLVRWYQMGAYQPFFRAHAHLDTGRREPWLLASQYQDAIRDALFQRYSLLPFWYTLFYQAHKEGFPVMRPLWVQYPEDMSTFSIEDQFMLGDALLIHPVSDAGAHGVQVYLPGQEEVWYDIQSYQKHHGPQTLYLPVTLSSIPVFQRGGTIVPRWMRVRRSSDCMKDDPITLFVALSPQGTAQGELFLDDGHTFNYQTRHEFLLRRFSFSGSTLVSSSADPKGHLETPIWIERVVIMGAGKPAAVVLQTKGSPESRLSFQHDPETSVLILRKPGVSVASDWSIHLR

Target ORF information:

RefSeq Version	XM_006526677.2
Organism	Mus musculus(house mouse)
Definition	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006526677.2

ORF Insert Sequence:

ATGACTCGGA TCAGGATCGA TGAGCTAGAG CCCCGGCGGC CTCGATACCG AGTGCCAGAT 
GTTTTAGTGG CTGACCCCCC CACAGCTAGG CTTTCAGTCT CTGGCCGTGA TGACAACAGT 
GTGGAGCTAA CAGTGGCTGA GGGACCCTAC AAAATCATTT TGACAGCACA GCCATTCCGC 
CTTGACCTGC TAGAAGATCG AAGCCTCCTG CTCAGTGTCA ATGCCCGAGG ACTTATGGCC 
TTTGAGCACC AGAGGGCCCC CAGGGTCCCT TTCTCGGATA AAGTTAGTCT CGCGCTCGGT 
AGCGTGTGGG ATAAGATCAA GAACCTTTTC TCTAGGCAAG AATCAAAAGA CCCAGCTGAA 
GGCAATGGAG CCCAGCCTGA AGCAACACCT GGGGATGGTG ACAAGCCAGA GGAGACCCAG 
GAAAAGGCTG AGAAGGATGA GCCAGGAGCC TGGGAGGAGA CATTCAAAAC ACATTCTGAC 
AGCAAGCCTT ATGGCCCCAC GTCTGTAGGT TTGGACTTTT CTCTGCCAGG AATGGAACAT 
GTGTATGGGA TCCCTGAGCA TGCTGACAGC CTGAGACTGA AGGTCACTGA GGGCGGTGAG 
CCGTACCGCC TGTACAATTT GGATGTGTTC CAGTATGAGC TGAACAACCC CATGGCTCTA 
TATGGGTCTG TGCCTGTGCT CCTGGCACAC AGCTTTCATC GAGACCTGGG CATCTTCTGG 
CTTAATGCTG CTGAGACTTG GGTTGATATA TCCTCCAACA CGGCTGGGAA GACCCTGTTT 
GGGAAGATGC TTGATTACCT GCAGGGCTCT GGGGAGACTC CACAGACAGA CATTCGTTGG 
ATGTCAGAGA GTGGCATTAT TGATGTTTTC CTAATGCTTG GCCCTTCGGT TTTTGATGTC 
TTTAGGCAGT ATGCTAGTCT CACAGGGACC CAGGCATTGC CCCCACTCTT CTCCCTCGGC 
TATCACCAGA GTCGCTGGAA CTACCGGGAT GAGGCTGATG TTTTGGAAGT GGATCAGGGT 
TTTGATGATC ACAACATGCC TTGTGATGTC ATTTGGTTGG ACATTGAACA TGCTGATGGC 
AAGCGGTACT TCACTTGGGA CCCCACCCGA TTTCCTCAGC CCCTCAATAT GCTTGAGCAC 
TTGGCTTCCA AGAGGCGGAA GCTGGTGGCC ATTGTGGACC CCCACATCAA GGTAGACTCT 
GGCTACCGAG TTCACGAAGA ATTGCGAAAC CATGGGCTGT ATGTTAAAAC TCGGGATGGC 
TCTGATTACG AGGGCTGGTG CTGGCCAGGC TCAGCTAGTT ACCCTGACTT CACTAATCCA 
AGGATGAGGG CCTGGTGGTC TAACATGTTC AGCTTTGACA ATTATGAGGG TTCAGCTCCT 
AATCTTTATG TTTGGAATGA CATGAATGAA CCGTCTGTGT TCAATGGTCC TGAGGTCACC 
ATGTTGAAGG ATGCTGTGCA TTATGGAGGC TGGGAGCACC GGGACATCCA TAACATCTAT 
GGCTTATATG TGCACATGGC GACTGCTGAT GGGCTAATAC AGCGCTCTGG GGGCATAGAG 
CGTCCCTTTG TCCTGAGTAG GGCTTTCTTC TCAGGCTCCC AGCGCTTTGG AGCTGTGTGG 
ACAGGGGACA ACACTGCCGA ATGGGATCAT TTGAAGATCT CTATCCCTAT GTGTCTCAGC 
CTGGCACTGG TGGGGCTTTC CTTCTGTGGA GCGGATGTGG GTGGCTTCTT CAAGAACCCA 
GAGCCAGAGC TGCTTGTGCG CTGGTACCAA ATGGGTGCCT ACCAGCCGTT CTTTCGGGCT 
CATGCCCACT TGGACACTGG GCGGCGAGAG CCATGGCTGT TAGCGTCTCA ATACCAAGAT 
GCAATCCGAG ATGCCTTGTT CCAGCGATAT TCTTTGCTGC CCTTCTGGTA TACCCTCTTC 
TATCAAGCTC ACAAGGAAGG GTTTCCTGTC ATGAGGCCCC TCTGGGTACA GTATCCTGAG 
GATATGTCTA CCTTCAGTAT AGAGGATCAG TTCATGCTTG GTGATGCACT CCTTATTCAC 
CCTGTATCGG ATGCTGGGGC CCACGGAGTG CAGGTCTATT TGCCTGGCCA AGAAGAAGTG 
TGGTATGACA TTCAGAGCTA TCAGAAGCAT CATGGGCCCC AGACCTTGTA TCTGCCAGTA 
ACTTTGAGCA GTATCCCCGT GTTCCAGCGT GGCGGAACCA TTGTGCCTCG ATGGATGCGT 
GTGAGGCGCT CTTCAGACTG TATGAAGGAC GATCCTATCA CTCTCTTTGT TGCTCTCAGT 
CCCCAGGGTA CTGCCCAAGG AGAGCTCTTT CTAGATGATG GACACACCTT TAACTATCAG 
ACTCGCCATG AGTTCCTGTT GCGGCGGTTC TCTTTCTCTG GCAGCACACT GGTCTCTAGT 
TCAGCAGACC CCAAAGGCCA CCTTGAGACA CCTATTTGGA TTGAGCGAGT AGTCATCATG 
GGGGCTGGAA AGCCAGCAGC TGTGGTGCTC CAGACCAAAG GATCCCCTGA AAGTCGCCTG 
TCCTTCCAGC ATGACCCTGA GACCTCAGTG CTGATATTGC GTAAACCTGG TGTCAGCGTG 
GCATCCGACT GGAGTATTCA TCTTCGATAA

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

Ganab ( NM_001293621.1 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_001280550.1 Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant 2, mRNA.

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CloneID	OMu23424
Clone ID Related Accession (Same CDS sequence)	NM_001293621.1
Accession Version	NM_001293621.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2835bp) 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	2019-10-24
Organism	Mus musculus(house mouse)
Product	neutral alpha-glucosidase AB isoform 2 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC129217.3, BC094437.1, AK081915.1 and BB002622.1. On Jun 11, 2014 this sequence version replaced XM_006526676.1. Transcript Variant: This variant (2) lacks an alternate in-frame exon in the coding region, compared to variant 1. The encoded protein (isoform 2) is shorter, compared to isoform 1. ##Evidence-Data-START## Transcript exon combination :: AK081915.1, SRR1660817.50617.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN00849374, SAMN00849375 [ECO:0000348] ##Evidence-Data-END##

ATGGCGGCAA TAGCGGCAGT GGCGGCGCGT AGGAGGCGGT CTTGGTTAAG TTTGGTGCTG 
GCATACTTAG GGGTCTGTCT GGGGATTACA CTTGCTGTGG ATAGAAGCAA CTTTAAGACC 
TGTGATGAGA GTTCCTTTTG CAAACGGCAG CGAAGCATTC GGCCAGGCCT CTCTCCTTAC 
CGTGCCTTGC TGGACACTCT GCAGCTTGGT CCTGATGCTC TTACAGTCCA TCTGATCCAT 
GAAGTCACCA AGGTGCTGCT TGTGCTGGAG CTCCAGGGCC TTCAGAAGAA CATGACTCGG 
ATCAGGATCG ATGAGCTAGA GCCCCGGCGG CCTCGATACC GAGTGCCAGA TGTTTTAGTG 
GCTGACCCCC CCACAGCTAG GCTTTCAGTC TCTGGCCGTG ATGACAACAG TGTGGAGCTA 
ACAGTGGCTG AGGGACCCTA CAAAATCATT TTGACAGCAC AGCCATTCCG CCTTGACCTG 
CTAGAAGATC GAAGCCTCCT GCTCAGTGTC AATGCCCGAG GACTTATGGC CTTTGAGCAC 
CAGAGGGCCC CCAGGGTCCC GCAAGAATCA AAAGACCCAG CTGAAGGCAA TGGAGCCCAG 
CCTGAAGCAA CACCTGGGGA TGGTGACAAG CCAGAGGAGA CCCAGGAAAA GGCTGAGAAG 
GATGAGCCAG GAGCCTGGGA GGAGACATTC AAAACACATT CTGACAGCAA GCCTTATGGC 
CCCACGTCTG TAGGTTTGGA CTTTTCTCTG CCAGGAATGG AACATGTGTA TGGGATCCCT 
GAGCATGCTG ACAGCCTGAG ACTGAAGGTC ACTGAGGGCG GTGAGCCGTA CCGCCTGTAC 
AATTTGGATG TGTTCCAGTA TGAGCTGAAC AACCCCATGG CTCTATATGG GTCTGTGCCT 
GTGCTCCTGG CACACAGCTT TCATCGAGAC CTGGGCATCT TCTGGCTTAA TGCTGCTGAG 
ACTTGGGTTG ATATATCCTC CAACACGGCT GGGAAGACCC TGTTTGGGAA GATGCTTGAT 
TACCTGCAGG GCTCTGGGGA GACTCCACAG ACAGACATTC GTTGGATGTC AGAGAGTGGC 
ATTATTGATG TTTTCCTAAT GCTTGGCCCT TCGGTTTTTG ATGTCTTTAG GCAGTATGCT 
AGTCTCACAG GGACCCAGGC ATTGCCCCCA CTCTTCTCCC TCGGCTATCA CCAGAGTCGC 
TGGAACTACC GGGATGAGGC TGATGTTTTG GAAGTGGATC AGGGTTTTGA TGATCACAAC 
ATGCCTTGTG ATGTCATTTG GTTGGACATT GAACATGCTG ATGGCAAGCG GTACTTCACT 
TGGGACCCCA CCCGATTTCC TCAGCCCCTC AATATGCTTG AGCACTTGGC TTCCAAGAGG 
CGGAAGCTGG TGGCCATTGT GGACCCCCAC ATCAAGGTAG ACTCTGGCTA CCGAGTTCAC 
GAAGAATTGC GAAACCATGG GCTGTATGTT AAAACTCGGG ATGGCTCTGA TTACGAGGGC 
TGGTGCTGGC CAGGCTCAGC TAGTTACCCT GACTTCACTA ATCCAAGGAT GAGGGCCTGG 
TGGTCTAACA TGTTCAGCTT TGACAATTAT GAGGGTTCAG CTCCTAATCT TTATGTTTGG 
AATGACATGA ATGAACCGTC TGTGTTCAAT GGTCCTGAGG TCACCATGTT GAAGGATGCT 
GTGCATTATG GAGGCTGGGA GCACCGGGAC ATCCATAACA TCTATGGCTT ATATGTGCAC 
ATGGCGACTG CTGATGGGCT AATACAGCGC TCTGGGGGCA TAGAGCGTCC CTTTGTCCTG 
AGTAGGGCTT TCTTCTCAGG CTCCCAGCGC TTTGGAGCTG TGTGGACAGG GGACAACACT 
GCCGAATGGG ATCATTTGAA GATCTCTATC CCTATGTGTC TCAGCCTGGC ACTGGTGGGG 
CTTTCCTTCT GTGGAGCGGA TGTGGGTGGC TTCTTCAAGA ACCCAGAGCC AGAGCTGCTT 
GTGCGCTGGT ACCAAATGGG TGCCTACCAG CCGTTCTTTC GGGCTCATGC CCACTTGGAC 
ACTGGGCGGC GAGAGCCATG GCTGTTAGCG TCTCAATACC AAGATGCAAT CCGAGATGCC 
TTGTTCCAGC GATATTCTTT GCTGCCCTTC TGGTATACCC TCTTCTATCA AGCTCACAAG 
GAAGGGTTTC CTGTCATGAG GCCCCTCTGG GTACAGTATC CTGAGGATAT GTCTACCTTC 
AGTATAGAGG ATCAGTTCAT GCTTGGTGAT GCACTCCTTA TTCACCCTGT ATCGGATGCT 
GGGGCCCACG GAGTGCAGGT CTATTTGCCT GGCCAAGAAG AAGTGTGGTA TGACATTCAG 
AGCTATCAGA AGCATCATGG GCCCCAGACC TTGTATCTGC CAGTAACTTT GAGCAGTATC 
CCCGTGTTCC AGCGTGGCGG AACCATTGTG CCTCGATGGA TGCGTGTGAG GCGCTCTTCA 
GACTGTATGA AGGACGATCC TATCACTCTC TTTGTTGCTC TCAGTCCCCA GGGTACTGCC 
CAAGGAGAGC TCTTTCTAGA TGATGGACAC ACCTTTAACT ATCAGACTCG CCATGAGTTC 
CTGTTGCGGC GGTTCTCTTT CTCTGGCAGC ACACTGGTCT CTAGTTCAGC AGACCCCAAA 
GGCCACCTTG AGACACCTAT TTGGATTGAG CGAGTAGTCA TCATGGGGGC TGGAAAGCCA 
GCAGCTGTGG TGCTCCAGAC CAAAGGATCC CCTGAAAGTC GCCTGTCCTT CCAGCATGAC 
CCTGAGACCT CAGTGCTGAT ATTGCGTAAA CCTGGTGTCA GCGTGGCATC CGACTGGAGT 
ATTCATCTTC GATAA

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

RefSeq	NP_001280550.1
CDS	66..2900
Translation	MAAIAAVAARRRRSWLSLVLAYLGVCLGITLAVDRSNFKTCDESSFCKRQRSIRPGLSPYRALLDTLQLGPDALTVHLIHEVTKVLLVLELQGLQKNMTRIRIDELEPRRPRYRVPDVLVADPPTARLSVSGRDDNSVELTVAEGPYKIILTAQPFRLDLLEDRSLLLSVNARGLMAFEHQRAPRVPQESKDPAEGNGAQPEATPGDGDKPEETQEKAEKDEPGAWEETFKTHSDSKPYGPTSVGLDFSLPGMEHVYGIPEHADSLRLKVTEGGEPYRLYNLDVFQYELNNPMALYGSVPVLLAHSFHRDLGIFWLNAAETWVDISSNTAGKTLFGKMLDYLQGSGETPQTDIRWMSESGIIDVFLMLGPSVFDVFRQYASLTGTQALPPLFSLGYHQSRWNYRDEADVLEVDQGFDDHNMPCDVIWLDIEHADGKRYFTWDPTRFPQPLNMLEHLASKRRKLVAIVDPHIKVDSGYRVHEELRNHGLYVKTRDGSDYEGWCWPGSASYPDFTNPRMRAWWSNMFSFDNYEGSAPNLYVWNDMNEPSVFNGPEVTMLKDAVHYGGWEHRDIHNIYGLYVHMATADGLIQRSGGIERPFVLSRAFFSGSQRFGAVWTGDNTAEWDHLKISIPMCLSLALVGLSFCGADVGGFFKNPEPELLVRWYQMGAYQPFFRAHAHLDTGRREPWLLASQYQDAIRDALFQRYSLLPFWYTLFYQAHKEGFPVMRPLWVQYPEDMSTFSIEDQFMLGDALLIHPVSDAGAHGVQVYLPGQEEVWYDIQSYQKHHGPQTLYLPVTLSSIPVFQRGGTIVPRWMRVRRSSDCMKDDPITLFVALSPQGTAQGELFLDDGHTFNYQTRHEFLLRRFSFSGSTLVSSSADPKGHLETPIWIERVVIMGAGKPAAVVLQTKGSPESRLSFQHDPETSVLILRKPGVSVASDWSIHLR

Target ORF information:

RefSeq Version	NM_001293621.1
Organism	Mus musculus(house mouse)
Definition	Mus musculus alpha glucosidase 2 alpha neutral subunit (Ganab), transcript variant 2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001293621.1

ORF Insert Sequence:

ATGGCGGCAA TAGCGGCAGT GGCGGCGCGT AGGAGGCGGT CTTGGTTAAG TTTGGTGCTG 
GCATACTTAG GGGTCTGTCT GGGGATTACA CTTGCTGTGG ATAGAAGCAA CTTTAAGACC 
TGTGATGAGA GTTCCTTTTG CAAACGGCAG CGAAGCATTC GGCCAGGCCT CTCTCCTTAC 
CGTGCCTTGC TGGACACTCT GCAGCTTGGT CCTGATGCTC TTACAGTCCA TCTGATCCAT 
GAAGTCACCA AGGTGCTGCT TGTGCTGGAG CTCCAGGGCC TTCAGAAGAA CATGACTCGG 
ATCAGGATCG ATGAGCTAGA GCCCCGGCGG CCTCGATACC GAGTGCCAGA TGTTTTAGTG 
GCTGACCCCC CCACAGCTAG GCTTTCAGTC TCTGGCCGTG ATGACAACAG TGTGGAGCTA 
ACAGTGGCTG AGGGACCCTA CAAAATCATT TTGACAGCAC AGCCATTCCG CCTTGACCTG 
CTAGAAGATC GAAGCCTCCT GCTCAGTGTC AATGCCCGAG GACTTATGGC CTTTGAGCAC 
CAGAGGGCCC CCAGGGTCCC GCAAGAATCA AAAGACCCAG CTGAAGGCAA TGGAGCCCAG 
CCTGAAGCAA CACCTGGGGA TGGTGACAAG CCAGAGGAGA CCCAGGAAAA GGCTGAGAAG 
GATGAGCCAG GAGCCTGGGA GGAGACATTC AAAACACATT CTGACAGCAA GCCTTATGGC 
CCCACGTCTG TAGGTTTGGA CTTTTCTCTG CCAGGAATGG AACATGTGTA TGGGATCCCT 
GAGCATGCTG ACAGCCTGAG ACTGAAGGTC ACTGAGGGCG GTGAGCCGTA CCGCCTGTAC 
AATTTGGATG TGTTCCAGTA TGAGCTGAAC AACCCCATGG CTCTATATGG GTCTGTGCCT 
GTGCTCCTGG CACACAGCTT TCATCGAGAC CTGGGCATCT TCTGGCTTAA TGCTGCTGAG 
ACTTGGGTTG ATATATCCTC CAACACGGCT GGGAAGACCC TGTTTGGGAA GATGCTTGAT 
TACCTGCAGG GCTCTGGGGA GACTCCACAG ACAGACATTC GTTGGATGTC AGAGAGTGGC 
ATTATTGATG TTTTCCTAAT GCTTGGCCCT TCGGTTTTTG ATGTCTTTAG GCAGTATGCT 
AGTCTCACAG GGACCCAGGC ATTGCCCCCA CTCTTCTCCC TCGGCTATCA CCAGAGTCGC 
TGGAACTACC GGGATGAGGC TGATGTTTTG GAAGTGGATC AGGGTTTTGA TGATCACAAC 
ATGCCTTGTG ATGTCATTTG GTTGGACATT GAACATGCTG ATGGCAAGCG GTACTTCACT 
TGGGACCCCA CCCGATTTCC TCAGCCCCTC AATATGCTTG AGCACTTGGC TTCCAAGAGG 
CGGAAGCTGG TGGCCATTGT GGACCCCCAC ATCAAGGTAG ACTCTGGCTA CCGAGTTCAC 
GAAGAATTGC GAAACCATGG GCTGTATGTT AAAACTCGGG ATGGCTCTGA TTACGAGGGC 
TGGTGCTGGC CAGGCTCAGC TAGTTACCCT GACTTCACTA ATCCAAGGAT GAGGGCCTGG 
TGGTCTAACA TGTTCAGCTT TGACAATTAT GAGGGTTCAG CTCCTAATCT TTATGTTTGG 
AATGACATGA ATGAACCGTC TGTGTTCAAT GGTCCTGAGG TCACCATGTT GAAGGATGCT 
GTGCATTATG GAGGCTGGGA GCACCGGGAC ATCCATAACA TCTATGGCTT ATATGTGCAC 
ATGGCGACTG CTGATGGGCT AATACAGCGC TCTGGGGGCA TAGAGCGTCC CTTTGTCCTG 
AGTAGGGCTT TCTTCTCAGG CTCCCAGCGC TTTGGAGCTG TGTGGACAGG GGACAACACT 
GCCGAATGGG ATCATTTGAA GATCTCTATC CCTATGTGTC TCAGCCTGGC ACTGGTGGGG 
CTTTCCTTCT GTGGAGCGGA TGTGGGTGGC TTCTTCAAGA ACCCAGAGCC AGAGCTGCTT 
GTGCGCTGGT ACCAAATGGG TGCCTACCAG CCGTTCTTTC GGGCTCATGC CCACTTGGAC 
ACTGGGCGGC GAGAGCCATG GCTGTTAGCG TCTCAATACC AAGATGCAAT CCGAGATGCC 
TTGTTCCAGC GATATTCTTT GCTGCCCTTC TGGTATACCC TCTTCTATCA AGCTCACAAG 
GAAGGGTTTC CTGTCATGAG GCCCCTCTGG GTACAGTATC CTGAGGATAT GTCTACCTTC 
AGTATAGAGG ATCAGTTCAT GCTTGGTGAT GCACTCCTTA TTCACCCTGT ATCGGATGCT 
GGGGCCCACG GAGTGCAGGT CTATTTGCCT GGCCAAGAAG AAGTGTGGTA TGACATTCAG 
AGCTATCAGA AGCATCATGG GCCCCAGACC TTGTATCTGC CAGTAACTTT GAGCAGTATC 
CCCGTGTTCC AGCGTGGCGG AACCATTGTG CCTCGATGGA TGCGTGTGAG GCGCTCTTCA 
GACTGTATGA AGGACGATCC TATCACTCTC TTTGTTGCTC TCAGTCCCCA GGGTACTGCC 
CAAGGAGAGC TCTTTCTAGA TGATGGACAC ACCTTTAACT ATCAGACTCG CCATGAGTTC 
CTGTTGCGGC GGTTCTCTTT CTCTGGCAGC ACACTGGTCT CTAGTTCAGC AGACCCCAAA 
GGCCACCTTG AGACACCTAT TTGGATTGAG CGAGTAGTCA TCATGGGGGC TGGAAAGCCA 
GCAGCTGTGG TGCTCCAGAC CAAAGGATCC CCTGAAAGTC GCCTGTCCTT CCAGCATGAC 
CCTGAGACCT CAGTGCTGAT ATTGCGTAAA CCTGGTGTCA GCGTGGCATC CGACTGGAGT 
ATTCATCTTC GATAA

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

PubMed

ESRP1 Mutations Cause Hearing Loss due to Defects in Alternative Splicing that Disrupt Cochlear Development.
Developmental cell43(3)318-331.e5(2017 11)
Rohacek AM,Bebee TW,Tilton RK,Radens CM,McDermott-Roe C,Peart N,Kaur M,Zaykaner M,Cieply B,Musunuru K,Barash Y,Germiller JA,Krantz ID,Carstens RP,Epstein DJ

Structures of mammalian ER ?-glucosidase II capture the binding modes of broad-spectrum iminosugar antivirals.
Proceedings of the National Academy of Sciences of the United States of America113(32)E4630-8(2016 08)
Caputo AT,Alonzi DS,Marti L,Reca IB,Kiappes JL,Struwe WB,Cross A,Basu S,Lowe ED,Darlot B,Santino A,Roversi P,Zitzmann N

Temporal neuropathologic and behavioral phenotype of 6neo/6neo Pompe disease mice.
Journal of neuropathology and experimental neurology67(8)803-18(2008 Aug)
Sidman RL,Taksir T,Fidler J,Zhao M,Dodge JC,Passini MA,Raben N,Thurberg BL,Cheng SH,Shihabuddin LS

Prediction of the coding sequences of mouse homologues of KIAA gene: II. The complete nucleotide sequences of 400 mouse KIAA-homologous cDNAs identified by screening of terminal sequences of cDNA clones randomly sampled from size-fractionated libraries.
DNA research : an international journal for rapid publication of reports on genes and genomes10(1)35-48(2003 Feb)
Okazaki N,Kikuno R,Ohara R,Inamoto S,Aizawa H,Yuasa S,Nakajima D,Nagase T,Ohara O,Koga H

BayGenomics: a resource of insertional mutations in mouse embryonic stem cells.
Nucleic acids research31(1)278-81(2003 Jan)
Stryke D,Kawamoto M,Huang CC,Johns SJ,King LA,Harper CA,Meng EC,Lee RE,Yee A,L'Italien L,Chuang PT,Young SG,Skarnes WC,Babbitt PC,Ferrin TE

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Ganab cDNA ORF clone, Mus musculus(house mouse)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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