Gm9573 cDNA ORF clone, Mus musculus(house mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Gm9573
Entrez Gene ID	672682
Full Name	predicted gene 9573
Synonyms	Muc21
General protein information	Preferred Names predicted gene 9573 Names mucin-22 epiglycanin mucin 21
Gene Type	protein-coding
Organism	Mus musculus(house mouse)
Genome	Chromosome: 17 Map Location: 17 B1\|17

mRNA and Protein(s)

mRNA	Protein	Name
NM_001244654.1	NP_001231583.1	mucin-21 precursor

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Mucin 21/epiglycanin modulates cell adhesion.
Yi Y, Kamata-Sakurai M, Denda-Nagai K, Itoh T, Okada K, Ishii-Schrade K, Iguchi A, Sugiura D, Irimura T
The Journal of biological chemistry285(28)21233-40(2010 Jul)

Identification and expression of human epiglycanin/MUC21: a novel transmembrane mucin.
Itoh Y, Kamata-Sakurai M, Denda-Nagai K, Nagai S, Tsuiji M, Ishii-Schrade K, Okada K, Goto A, Fukayama M, Irimura T
Glycobiology18(1)74-83(2008 Jan)

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

Mucin 21/epiglycanin modulates cell adhesion
Title: Mucin 21/epiglycanin modulates cell adhesion.

The following Gm9573 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Gm9573 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)	Select
OMu04485	NM_001244654.1 Latest version!	Mus musculus predicted gene 9573 (Gm9573), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$811.30 $1159.00

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** 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)

Gm9573 ( NM_001244654.1 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_001231583.1 Mus musculus predicted gene 9573 (Gm9573), mRNA.

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CloneID	OMu04485
Clone ID Related Accession (Same CDS sequence)	NM_001244654.1
Accession Version	NM_001244654.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4821bp) 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	2019-04-15
Organism	Mus musculus(house mouse)
Product	mucin-21 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CR974473.23. On or before Sep 24, 2011 this sequence version replaced XM_003086065.1, XM_001479464.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: HM596785.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN00849381 [ECO:0000348] ##Evidence-Data-END##

ATGCAGAGGA GAAGCAGCCT CTGGTGCTGG CTGCTTTTGC AGATCCTGCT TTTAGGAAGT 
GGTTATGCCC ATATTTCCTC CACCACAACT TCAAATCCTT CATCAGAAAC GAAGAGCATA 
GCCACAGACT ATGAAACCAC CCCGACCACC ACTATATCTA GCACTGCCTC AGGATCTATG 
CCCACCCTGA CCACCAAGGC ATCCAGCATT GCCTCAGACT CTAAGCCCAC CCTGACCACC 
ACTGCATCCA GCACTGCCTC AGGATCTATG TCCACCCCGA CCACCCCTGC ATCCAGCACT 
GCCTCAGGCT CTACACCCAC AACGACCACC ACTGCATCCA GCACTGCCTC AGGATCTACA 
CCCACCCCAA CCACCCCTGC ATCCAGCACT GCCTCAGGAT CTACACCTAC CCCGACCACT 
ACTGCATCTA GCAAAGCCTC AAGATCTGTG CCCACCACTG TATCCAGCAC TGGCTCAGGC 
TCTACACCCA CTCCGACCAC CACTGCATCC AGCACTGCCT CAGGATCTAC GCCCACCCTG 
ACCACCACTC CATCAAGCAC TGCCTCAGGA TCTACACCTA CCCCGACCAC CCCTGCATCC 
AGCACTGCCT CAGGCTCTTC ACCCACCCCA ACCACCCCTG TATCCAGCAC TGCCTCAGGA 
TCTACACCCA CCCCGACCAC CACTGCATCT AGCAAGGCCT CAGGATCTGT GCCCACCACT 
GTATCCAGCA CTGGCTCAGG CTCTACACCC ACTCTGACCA CCACTGTATC CAGCACTGTC 
TCAGACTCTA CACCCACCCC GACCACCACT GCATCCAGCA CTGCCTCAGG ATCAGCACCC 
ACCCCGACCA CCACTGCATC TAGCACTGCC TCAGGATCTA CACCCACCCT AACCACCACT 
GCATCCAGCA GTGGCTCAGG CTCTACCCCC ACCCTGCCCA CCACTGAATC CAGCACTGCC 
TCAGGCTCTA CACCTACCCG GACCACCACT ACATCCAGCA CTGCCTCAAG ATCTACACCC 
ACTCCTACCA CCACTGCATC TAGCACTGCC TCAGGATCTA CGCCCACCCC GACCACCACT 
GTATCCAGCA CTGGATCAGG CTCTACACCT ACCCTGACCA CCACTGCATC CAGGAGTGGC 
TCAGGCTCTA CCCCCACCCT GACCACCACT GAATCCAGCA CTGCCTCAGG CTCCTCACCC 
ACCCTGACCA CCACTGCATC CAGCTCTGCC TCAGGATCTA TGCCCACCCC GACCACCACT 
GCATCCAGCA CTGCCTCAGG CTCCTCACCC ACCCTGACCA CCACTGCATC CAGCTCTGCC 
TCAGGATCTA TGCCCACCCT GACCACCACT GCATCCAGCT CTGCCTCAGG CTCCTCACCC 
ACCCTGACCA CCACTGCATC CAGCTCTGCC TCAGGATCTA TGCCCACCCC GACCACCACT 
GTATCCAGCA CTGGCTCAGG CTCTACCCCC ACCCTGACCA CCACTGAATC CAGCACTGCC 
TCAGGCTCTA CACCTACCTG GACCACCACT ACATCCAGCA CTGCCTCAAG ATCTACACCC 
ACCCCTACCA CCACTGCATC TAGCACTGCC TCAGGATCTA CGCCCACCCC GACCACCACT 
GTATCCAGCA CTGGCTCAGG CTCTACACCT ACCCTGACCA CCACTGCATC CAGGAGTGGC 
TCAGGCTCTA CCCCCACCCT GACCACCACT GAATCCAGCA CTGCCTCAGG CTCTATTCCT 
ACCCTGACCA CCGCTGCATC CAGCACTGCC TCAGGCTCTA CACCCACCCC TACCACCACT 
GCATCTAGCA CTGCCTCAGG ATCTATGCCC ACCCCAACCA CTACTGCATC CAGCACTGGA 
TCAGGCTCTA CACCCACTCT GACCACCACT GCATCTAGCA GTGGCTCAGG CTCTACCCCC 
ACCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCTA TACCTACCCT GACCTCCGCT 
GCATCCAGCT CTGCCTCAGG ATCTATGCCC ACCCCGACCA CCACTGTATC CAGCACTGGC 
TCAGGCTCTA CACCCACCCT GACCACCACT GCATCCAGCT CTGCCTCAGG ATCTATGCCC 
ACCCCAACCA CTACTGCATC CAGCACTGCC TCAGGCTCCT CACCCACCCT GACCACCACT 
GCATCCAGCT CTGCCTCAGG ATCTGCGCCC AACCCGACCA CCACTGTATC CAGCACTGGC 
TCAGGCTCTA CACCCACCCT GACCACCACT GCATCCAGCA GTGGCTCAGG CTCTACCCCC 
ACCCTGCCCA CCACTGAATC CAGCACTGCC TCAGGCTCTA CACCTACCCG GACCACCACT 
ACATCCAGCA CTGCCTCAAG ATCTACACCC ACTCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGATCTA CGCCCACCCC GACCACCACT GTATCCAGCA CTGCCTCAGG CTCTACACCT 
ACCCTGACCA CCACTGCATC CAGGAGTGGC TCAGGCTCTA CCCCCACCCT GACCACCACT 
GAATCCAGCA CTGCCTCAGG CTCTACACCC ACCCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGATCTG CGCCCAACCC GACCACCACT GTATCCAGCA CTGCCTCAGG CTCTACCCCC 
ACCCTGCCCA CCACTGCATC TAGCAGTGGC TCAGGCTCTA CCCCCACCCT GACCACCACT 
GAATCCAGCA CTGCCTCAGG CTCCTCACCC ACCCTGACCA CCACTGCATC CAGCTCTGCC 
TCAGGATCTA TGCCCACCCC GACCACCACT GCATCCAGCA CTGCCTCAGG CTCCTCACCC 
ACCCTGACCA CCACTGCATC CAGCTCTGCC TCAGGATCTA TGCCCACCCT GACCACCACT 
GCATCCAGCT CTGCCTCAGG CTCCTCACCC ACCCTGACCA CCACTGCATC CAGCTCTGCC 
TCAGGATCTA TGCCCACCCC GACCACCACT GTATCCAGCA CTGGCTCAGG CTCTACCCCC 
ACCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCTA CACCTACCTG GACCACCACT 
ACATCCAGCA CTGCCTCAAG ATCTACACCC ACCCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGATCTA CGCCCACCCC GACCACCACT GTATCCAGCA CTGGCTCAGG CTCTACACCT 
ACCCTGACCA CCACTGCATC CAGGCGTGGC TCAGGCTCTA CCCCCACCCT GACCACCACT 
GAATCCAGCA CTGGCTCAGG CTCTACACCC ACCCTGACCA CCACTGCATC CAGCAGTGGC 
TCAGGCTCTA CCCCCACCCT GCCCACCACT GAATCCAGCA CTGCCTCAGG CTCTACACCT 
ACCCGGACCA CCACTACATC CAGCACTGCC TCAAGATCTA CACCCACTCC TACCACCACT 
GCATCTAGCA CTGCCTCAGG ATCTACGCCC ACCCCGACCA CCACTGTATC CAGCACTGCC 
TCAGGCTCTA CACCTACCCT GACCACCACT GCATCCAGGA GTGGCTCAGG CTCTACCCCC 
ATCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCTA CACCTACCCT GACCACCGCT 
GCATCCAGCT CTGCCTCAGG ATCTACACCC ACCCCGACCA CCACTGTATC CAGCACTGGC 
TCAGGCTCTA CACCCACCCT GACCACCACT GCATCCAGCA GTGGCTCAGG CTCTACCCCC 
ACCCTGACCA CCACTGAATC TAGCACTGCC TCAGGCTCTA CACCTACCCA GACCACCACT 
ACATCCAGCA CTGCCTCAAG ATCTACACCC ACTCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGCTCTA TACCTACCCC GACCACAACT GCATCAAGCA TTGCCTCAGG TACTACCCCC 
ACCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCCT CACCCACCCC GACCACTGCT 
TCATCCAGCA GTGCCTCAGA CTCTAAGCCC ACCTCGACCA CCACTGCATC CAGCACTGTC 
TCAGACTCTA CACCCACCCC GACCACCAAT GCATCCAGCA GTGCCTCAGG CTCTACACCC 
ACCCAGACCA CCACTGCATC CAGAAGTGCC TCAGGATCTG TGCCCACCCT GACCACCATT 
GCATTCAGCA CTGCCTCAGG CTCTACACCT ACCCTGACCA CCACTGCATC CAACTCTGCC 
TCCTCTTCTT CACCCACCCC GACTACCACT GGGCTCAGCA AGACCTCTGC ATCTTCACTC 
AGCTTGACCT CCACTATGAC CAGCATAACC TCTGCCTCTA CATTCACCCC AGCCTCCATT 
AGGACCAGCA AAGCTTCTGC TTCTACATCC ACCTCAGCCT CCATTAGGAC CAGCATAGCC 
TTTGCATCTA CATCTACCCC GACCACCTCT GGACCTAGCA CAGCCTCAGT CTCTACACTC 
AACTCGACCT CCATCAGAAC CAGCACAGGT TCCAGCTCTA GCCTGAGTGC CACCCACACT 
TCCTCTAGCC TGACAGTTTC CACTGGAACA CACACTACCT CCAACCACAC TGGGACTCCA 
GTGATGGAAG TGAAGCCCAG TGGATCCCTG AAGCCCTGGG AAATCTTTCT CATCACCCTA 
GCCTCTGTTA TCGTGGTCAT GGGACTCTCT GCTGGGCTAT TTATTTATGT GAGAAGATAC 
CTGTCTCTGA GAAATGCTGC TGATGGAATA TTCTACAACT CCCATCCTGA TCCTGGAGGA 
TCTGCTATGA CTCCAGGGAG CCCTACCTGC TCCTGGAGGA GACCAAGAAC CTTCAATGTC 
GTAGAGATGA CAAGGATATA A

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

RefSeq	NP_001231583.1
CDS	201..5021
Translation	MQRRSSLWCWLLLQILLLGSGYAHISSTTTSNPSSETKSIATDYETTPTTTISSTASGSMPTLTTKASSIASDSKPTLTTTASSTASGSMSTPTTPASSTASGSTPTTTTTASSTASGSTPTPTTPASSTASGSTPTPTTTASSKASRSVPTTVSSTGSGSTPTPTTTASSTASGSTPTLTTTPSSTASGSTPTPTTPASSTASGSSPTPTTPVSSTASGSTPTPTTTASSKASGSVPTTVSSTGSGSTPTLTTTVSSTVSDSTPTPTTTASSTASGSAPTPTTTASSTASGSTPTLTTTASSSGSGSTPTLPTTESSTASGSTPTRTTTTSSTASRSTPTPTTTASSTASGSTPTPTTTVSSTGSGSTPTLTTTASRSGSGSTPTLTTTESSTASGSSPTLTTTASSSASGSMPTPTTTASSTASGSSPTLTTTASSSASGSMPTLTTTASSSASGSSPTLTTTASSSASGSMPTPTTTVSSTGSGSTPTLTTTESSTASGSTPTWTTTTSSTASRSTPTPTTTASSTASGSTPTPTTTVSSTGSGSTPTLTTTASRSGSGSTPTLTTTESSTASGSIPTLTTAASSTASGSTPTPTTTASSTASGSMPTPTTTASSTGSGSTPTLTTTASSSGSGSTPTLTTTESSTASGSIPTLTSAASSSASGSMPTPTTTVSSTGSGSTPTLTTTASSSASGSMPTPTTTASSTASGSSPTLTTTASSSASGSAPNPTTTVSSTGSGSTPTLTTTASSSGSGSTPTLPTTESSTASGSTPTRTTTTSSTASRSTPTPTTTASSTASGSTPTPTTTVSSTASGSTPTLTTTASRSGSGSTPTLTTTESSTASGSTPTPTTTASSTASGSAPNPTTTVSSTASGSTPTLPTTASSSGSGSTPTLTTTESSTASGSSPTLTTTASSSASGSMPTPTTTASSTASGSSPTLTTTASSSASGSMPTLTTTASSSASGSSPTLTTTASSSASGSMPTPTTTVSSTGSGSTPTLTTTESSTASGSTPTWTTTTSSTASRSTPTPTTTASSTASGSTPTPTTTVSSTGSGSTPTLTTTASRRGSGSTPTLTTTESSTGSGSTPTLTTTASSSGSGSTPTLPTTESSTASGSTPTRTTTTSSTASRSTPTPTTTASSTASGSTPTPTTTVSSTASGSTPTLTTTASRSGSGSTPILTTTESSTASGSTPTLTTAASSSASGSTPTPTTTVSSTGSGSTPTLTTTASSSGSGSTPTLTTTESSTASGSTPTQTTTTSSTASRSTPTPTTTASSTASGSIPTPTTTASSIASGTTPTLTTTESSTASGSSPTPTTASSSSASDSKPTSTTTASSTVSDSTPTPTTNASSSASGSTPTQTTTASRSASGSVPTLTTIAFSTASGSTPTLTTTASNSASSSSPTPTTTGLSKTSASSLSLTSTMTSITSASTFTPASIRTSKASASTSTSASIRTSIAFASTSTPTTSGPSTASVSTLNSTSIRTSTGSSSSLSATHTSSSLTVSTGTHTTSNHTGTPVMEVKPSGSLKPWEIFLITLASVIVVMGLSAGLFIYVRRYLSLRNAADGIFYNSHPDPGGSAMTPGSPTCSWRRPRTFNVVEMTRI

Target ORF information:

RefSeq Version	NM_001244654.1
Organism	Mus musculus(house mouse)
Definition	Mus musculus predicted gene 9573 (Gm9573), mRNA.

Target ORF information:

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

NM_001244654.1

ORF Insert Sequence:

ATGCAGAGGA GAAGCAGCCT CTGGTGCTGG CTGCTTTTGC AGATCCTGCT TTTAGGAAGT 
GGTTATGCCC ATATTTCCTC CACCACAACT TCAAATCCTT CATCAGAAAC GAAGAGCATA 
GCCACAGACT ATGAAACCAC CCCGACCACC ACTATATCTA GCACTGCCTC AGGATCTATG 
CCCACCCTGA CCACCAAGGC ATCCAGCATT GCCTCAGACT CTAAGCCCAC CCTGACCACC 
ACTGCATCCA GCACTGCCTC AGGATCTATG TCCACCCCGA CCACCCCTGC ATCCAGCACT 
GCCTCAGGCT CTACACCCAC AACGACCACC ACTGCATCCA GCACTGCCTC AGGATCTACA 
CCCACCCCAA CCACCCCTGC ATCCAGCACT GCCTCAGGAT CTACACCTAC CCCGACCACT 
ACTGCATCTA GCAAAGCCTC AAGATCTGTG CCCACCACTG TATCCAGCAC TGGCTCAGGC 
TCTACACCCA CTCCGACCAC CACTGCATCC AGCACTGCCT CAGGATCTAC GCCCACCCTG 
ACCACCACTC CATCAAGCAC TGCCTCAGGA TCTACACCTA CCCCGACCAC CCCTGCATCC 
AGCACTGCCT CAGGCTCTTC ACCCACCCCA ACCACCCCTG TATCCAGCAC TGCCTCAGGA 
TCTACACCCA CCCCGACCAC CACTGCATCT AGCAAGGCCT CAGGATCTGT GCCCACCACT 
GTATCCAGCA CTGGCTCAGG CTCTACACCC ACTCTGACCA CCACTGTATC CAGCACTGTC 
TCAGACTCTA CACCCACCCC GACCACCACT GCATCCAGCA CTGCCTCAGG ATCAGCACCC 
ACCCCGACCA CCACTGCATC TAGCACTGCC TCAGGATCTA CACCCACCCT AACCACCACT 
GCATCCAGCA GTGGCTCAGG CTCTACCCCC ACCCTGCCCA CCACTGAATC CAGCACTGCC 
TCAGGCTCTA CACCTACCCG GACCACCACT ACATCCAGCA CTGCCTCAAG ATCTACACCC 
ACTCCTACCA CCACTGCATC TAGCACTGCC TCAGGATCTA CGCCCACCCC GACCACCACT 
GTATCCAGCA CTGGATCAGG CTCTACACCT ACCCTGACCA CCACTGCATC CAGGAGTGGC 
TCAGGCTCTA CCCCCACCCT GACCACCACT GAATCCAGCA CTGCCTCAGG CTCCTCACCC 
ACCCTGACCA CCACTGCATC CAGCTCTGCC TCAGGATCTA TGCCCACCCC GACCACCACT 
GCATCCAGCA CTGCCTCAGG CTCCTCACCC ACCCTGACCA CCACTGCATC CAGCTCTGCC 
TCAGGATCTA TGCCCACCCT GACCACCACT GCATCCAGCT CTGCCTCAGG CTCCTCACCC 
ACCCTGACCA CCACTGCATC CAGCTCTGCC TCAGGATCTA TGCCCACCCC GACCACCACT 
GTATCCAGCA CTGGCTCAGG CTCTACCCCC ACCCTGACCA CCACTGAATC CAGCACTGCC 
TCAGGCTCTA CACCTACCTG GACCACCACT ACATCCAGCA CTGCCTCAAG ATCTACACCC 
ACCCCTACCA CCACTGCATC TAGCACTGCC TCAGGATCTA CGCCCACCCC GACCACCACT 
GTATCCAGCA CTGGCTCAGG CTCTACACCT ACCCTGACCA CCACTGCATC CAGGAGTGGC 
TCAGGCTCTA CCCCCACCCT GACCACCACT GAATCCAGCA CTGCCTCAGG CTCTATTCCT 
ACCCTGACCA CCGCTGCATC CAGCACTGCC TCAGGCTCTA CACCCACCCC TACCACCACT 
GCATCTAGCA CTGCCTCAGG ATCTATGCCC ACCCCAACCA CTACTGCATC CAGCACTGGA 
TCAGGCTCTA CACCCACTCT GACCACCACT GCATCTAGCA GTGGCTCAGG CTCTACCCCC 
ACCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCTA TACCTACCCT GACCTCCGCT 
GCATCCAGCT CTGCCTCAGG ATCTATGCCC ACCCCGACCA CCACTGTATC CAGCACTGGC 
TCAGGCTCTA CACCCACCCT GACCACCACT GCATCCAGCT CTGCCTCAGG ATCTATGCCC 
ACCCCAACCA CTACTGCATC CAGCACTGCC TCAGGCTCCT CACCCACCCT GACCACCACT 
GCATCCAGCT CTGCCTCAGG ATCTGCGCCC AACCCGACCA CCACTGTATC CAGCACTGGC 
TCAGGCTCTA CACCCACCCT GACCACCACT GCATCCAGCA GTGGCTCAGG CTCTACCCCC 
ACCCTGCCCA CCACTGAATC CAGCACTGCC TCAGGCTCTA CACCTACCCG GACCACCACT 
ACATCCAGCA CTGCCTCAAG ATCTACACCC ACTCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGATCTA CGCCCACCCC GACCACCACT GTATCCAGCA CTGCCTCAGG CTCTACACCT 
ACCCTGACCA CCACTGCATC CAGGAGTGGC TCAGGCTCTA CCCCCACCCT GACCACCACT 
GAATCCAGCA CTGCCTCAGG CTCTACACCC ACCCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGATCTG CGCCCAACCC GACCACCACT GTATCCAGCA CTGCCTCAGG CTCTACCCCC 
ACCCTGCCCA CCACTGCATC TAGCAGTGGC TCAGGCTCTA CCCCCACCCT GACCACCACT 
GAATCCAGCA CTGCCTCAGG CTCCTCACCC ACCCTGACCA CCACTGCATC CAGCTCTGCC 
TCAGGATCTA TGCCCACCCC GACCACCACT GCATCCAGCA CTGCCTCAGG CTCCTCACCC 
ACCCTGACCA CCACTGCATC CAGCTCTGCC TCAGGATCTA TGCCCACCCT GACCACCACT 
GCATCCAGCT CTGCCTCAGG CTCCTCACCC ACCCTGACCA CCACTGCATC CAGCTCTGCC 
TCAGGATCTA TGCCCACCCC GACCACCACT GTATCCAGCA CTGGCTCAGG CTCTACCCCC 
ACCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCTA CACCTACCTG GACCACCACT 
ACATCCAGCA CTGCCTCAAG ATCTACACCC ACCCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGATCTA CGCCCACCCC GACCACCACT GTATCCAGCA CTGGCTCAGG CTCTACACCT 
ACCCTGACCA CCACTGCATC CAGGCGTGGC TCAGGCTCTA CCCCCACCCT GACCACCACT 
GAATCCAGCA CTGGCTCAGG CTCTACACCC ACCCTGACCA CCACTGCATC CAGCAGTGGC 
TCAGGCTCTA CCCCCACCCT GCCCACCACT GAATCCAGCA CTGCCTCAGG CTCTACACCT 
ACCCGGACCA CCACTACATC CAGCACTGCC TCAAGATCTA CACCCACTCC TACCACCACT 
GCATCTAGCA CTGCCTCAGG ATCTACGCCC ACCCCGACCA CCACTGTATC CAGCACTGCC 
TCAGGCTCTA CACCTACCCT GACCACCACT GCATCCAGGA GTGGCTCAGG CTCTACCCCC 
ATCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCTA CACCTACCCT GACCACCGCT 
GCATCCAGCT CTGCCTCAGG ATCTACACCC ACCCCGACCA CCACTGTATC CAGCACTGGC 
TCAGGCTCTA CACCCACCCT GACCACCACT GCATCCAGCA GTGGCTCAGG CTCTACCCCC 
ACCCTGACCA CCACTGAATC TAGCACTGCC TCAGGCTCTA CACCTACCCA GACCACCACT 
ACATCCAGCA CTGCCTCAAG ATCTACACCC ACTCCTACCA CCACTGCATC TAGCACTGCC 
TCAGGCTCTA TACCTACCCC GACCACAACT GCATCAAGCA TTGCCTCAGG TACTACCCCC 
ACCCTGACCA CCACTGAATC CAGCACTGCC TCAGGCTCCT CACCCACCCC GACCACTGCT 
TCATCCAGCA GTGCCTCAGA CTCTAAGCCC ACCTCGACCA CCACTGCATC CAGCACTGTC 
TCAGACTCTA CACCCACCCC GACCACCAAT GCATCCAGCA GTGCCTCAGG CTCTACACCC 
ACCCAGACCA CCACTGCATC CAGAAGTGCC TCAGGATCTG TGCCCACCCT GACCACCATT 
GCATTCAGCA CTGCCTCAGG CTCTACACCT ACCCTGACCA CCACTGCATC CAACTCTGCC 
TCCTCTTCTT CACCCACCCC GACTACCACT GGGCTCAGCA AGACCTCTGC ATCTTCACTC 
AGCTTGACCT CCACTATGAC CAGCATAACC TCTGCCTCTA CATTCACCCC AGCCTCCATT 
AGGACCAGCA AAGCTTCTGC TTCTACATCC ACCTCAGCCT CCATTAGGAC CAGCATAGCC 
TTTGCATCTA CATCTACCCC GACCACCTCT GGACCTAGCA CAGCCTCAGT CTCTACACTC 
AACTCGACCT CCATCAGAAC CAGCACAGGT TCCAGCTCTA GCCTGAGTGC CACCCACACT 
TCCTCTAGCC TGACAGTTTC CACTGGAACA CACACTACCT CCAACCACAC TGGGACTCCA 
GTGATGGAAG TGAAGCCCAG TGGATCCCTG AAGCCCTGGG AAATCTTTCT CATCACCCTA 
GCCTCTGTTA TCGTGGTCAT GGGACTCTCT GCTGGGCTAT TTATTTATGT GAGAAGATAC 
CTGTCTCTGA GAAATGCTGC TGATGGAATA TTCTACAACT CCCATCCTGA TCCTGGAGGA 
TCTGCTATGA CTCCAGGGAG CCCTACCTGC TCCTGGAGGA GACCAAGAAC CTTCAATGTC 
GTAGAGATGA CAAGGATATA A

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

PubMed

Mucin 21/epiglycanin modulates cell adhesion.
The Journal of biological chemistry285(28)21233-40(2010 Jul)
Yi Y,Kamata-Sakurai M,Denda-Nagai K,Itoh T,Okada K,Ishii-Schrade K,Iguchi A,Sugiura D,Irimura T

Identification and expression of human epiglycanin/MUC21: a novel transmembrane mucin.
Glycobiology18(1)74-83(2008 Jan)
Itoh Y,Kamata-Sakurai M,Denda-Nagai K,Nagai S,Tsuiji M,Ishii-Schrade K,Okada K,Goto A,Fukayama M,Irimura T

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Gm9573 cDNA ORF clone, Mus musculus(house mouse)

Gene

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gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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