DAG1 cDNA ORF clone, Crocodylus porosus(Australian saltwater crocodile)

Gene
Clones
gRNAs

Summary

Gene Symbol	DAG1
Entrez Gene ID	109318324
Full Name	dystroglycan 1
Gene Type	protein-coding
Organism	Crocodylus porosus(Australian saltwater crocodile)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019547514.1	XP_019403059.1	dystroglycan

Pathways from BioSystems
Gene Ontology

The following DAG1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DAG1 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
OCr79110	XM_019547514.1 Latest version!	Crocodylus porosus dystroglycan 1 (DAG1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

DAG1 ( XM_019547514.1 ) cDNA ORF clone, Crocodylus porosus(Australian saltwater crocodile) -> XP_019403059.1 Crocodylus porosus dystroglycan 1 (DAG1), mRNA.

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CloneID	OCr79110
Clone ID Related Accession (Same CDS sequence)	XM_019547514.1
Accession Version	XM_019547514.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2685bp) 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	2016-12-19
Organism	Crocodylus porosus(Australian saltwater crocodile)
Product	dystroglycan
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017728938.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Crocodylus porosus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTGTTG GATTTTTACT GCTGCCCCCT CTGCTGGGGA GGACTTTGCT TACAGCATTA 
CTGATGTCTG CCTATATTCA GTGCCATTGG CCCAGTGAGC CCTCAGAAGT ACAGGACTGG 
GAAAACCAGT TAGAGGCCTC TATGCATTCT GTGCTGTCGG ATCTCCGAGA GACTATCCCA 
GCAGTGGTGG GGATTCCAGA CAGCTCTGCT GTGGTAGGCC GCTTCTTCAG AGCCACCATC 
CCAACAGATT TAATTGCTTC CAATGGAGAA ATGGTTCAGA TTTCTGAAGC TGGGAAAGAC 
ACCTTGCCTT CTTGGTTGCA TTGGGAAGCA GACAGTAGCA CCTTGGAAGG TCTCCCCCTT 
GATACTGACA AAGGTGTTCA TTATATCTCA GTGAATGCAA TGCTGCTTGT ACCCAATGGC 
AGTTACGTGC CCCAAAACGC AAATGTCTTT TCCATTGAGG TTCATCCTGA AGACCACAAT 
GAGCCCCAGT CAGTGCGAGT AGCTTCCCAG GACTTGAATG AGGGAATACC ATTTGTATGT 
GGTGCAGAGG AGCCAGTAAC TATCCTGACT GTAATTTTGG ATGCTGACTT AACAAAAATG 
ACACCAAAGC AGAGGATTGA ACTTCTAAAC CGAATGAGAA GCTTCTCAGA GGTGGAACTT 
CACCACATGA AGTTGGTTCC TGTTGTAAAT AATAGACTCT TTGACATGTC AGCTTTCATG 
GCTGGTCCAG GAAATGCAAA GAAGGTGGTA GAAAATGGGG CCTTACTTTC ATGGAAATTA 
GGATGCTCTC TGAGCCAAAA TAGCGTCCCT AACATCAGCA ATGTTGAAGC TCCAGCTAAG 
GAAGGGACAA TGTCTGCCCA TCTTGGCTAC CCTGTTGTCG GGTGGCACAT TGCTAACAAG 
AAACCACATC TCCCCAAGAG GATAAGGCGG CAGATCAATG CTACTCCTAC ACCTGTCACT 
GCCATTGGCC CACCCACCAC TGCCATCCAG GAACCACCAA CCAGAATCAT TCCCACCCCC 
ACATCCCCAG CCATTGCACC TCCCACAGAA ACAACAGCTC CTCCAGTCAG AGAGCCTGTA 
CCATTGCCAA GGAAACCTAC AGTTACAATT AGAACAAGAG GACCTATTGT TCAGACACCA 
ACTCTAGCAC CAACTCAGCC AACCAGATTA ATAGAAACTA CCACTGCAGT CACTGGGCAG 
ATTCGCCCAA CAATGACCAG TTATGTAGAG CCTACTGCCG TGATTACACC TCCTACAACC 
ACCAAGAGAC CAAGAGTCAC CACCCTGAAA CCAGCCACCC CTTCAACCAC AGATTCCTCT 
ACAACAACAA CACGAAGGCC TACACGAAGA CCCAAAACTC CACGACCTAC CAAGCCTTCT 
GGCACAACCA GAACACCAAT AACTAAGCTG GAAACCGCCT CCCCACCGAC CCGTGTACGG 
ACCACTACTA GTGGGATTCC CCGTGTGTGG GAACCAAATG AGCCACCAAA GCTGACAAAC 
CACATTGATA GGGTGGATGC ATGGGAAGGC ACTTACTTTG AGGTCAAAAT ACCTTCTGAT 
ACTTTCTATG ATAAAGAAGA TACCACAACA GATAAGCTAC AACTGACTCT GAAACTGAAG 
GAACAGCAAA TGATTGAAGA AAACTCTTGG GTCCAATTCA ATAGCACTAG TCAGCTGATG 
TATGGTCTGC CTGATCACAG CCACATAGGG AAGCATGAAT ATTTTATGTA TGCCACAGAC 
AAAGGTGGCC TCTCTGCTGT GGATGCTTTT GAAATACATG TCCACAAAAA GCCGCATGGG 
GAAAAGTCTC CAGTTAAATT TAAAGCCAGA TTCCATGGAG ACCACAATAC AGTAGCCAAT 
GACATTAGTA AGAAGATATT ATTGGTAAAG AAGCTGGCTT TTGCATTTGG AGACAGAAAT 
AGCAGCACCA TTACTTTACA GAACATCACC AAAGGCTCTA TCTTAGTGGA ATGGACAAAC 
AACACTTTGC CCCTAGAGCC ATGTCCAAAG GACCAGATCA AGGCCATGAG CAAAAAAATT 
GCTGATGAAT CTGGTAGTCC TAGCCCAGCC TTTTCAAATG CCTTAGACCC AGAATTCAAG 
CCTATAAACA TTTCTGTGGT TGGCTCAGGC AGTTGTAAGT CCTTCCAGTT TATTCCAGTG 
ACTGGAGATG GAAGGATTAT CTCTGAGGCA ACACCAACTT TGGCAGCAGG GAAGGACCCT 
GAAAAGAGCA GTGAGGATGA CGTGTACTTA CACACAGTCA TCCCTGCAGT TGTGGTAGCT 
GCTATCCTGC TTATTGCTGG AATCATTGCT ATGATTTGTT ATCGCAAGAA AAGAAAAGGT 
AAGCTAACCA TTGAAGACCA AGCTACCTTC ATCAAGAAAG GAGTGCCAAT CATCTTTGCT 
GATGAGCTGG ATGACTCCAA GCCACCCCCT TCTTCCAGCA TGCCCCTGAT TCTTCAAGAG 
GAGAAAGCTC CGCTTCCTCC TCCAGAGTAC CCTAACCAGA GTATGCCAGA GACCACACCA 
CTGAATCAGG ACACCATAGG AGAATATACA CCACTGCGGG ATGAAGACCC CAACGCTCCT 
CCCTATCAGC CCCCCCCACC ATTCACAGCA CCCATGGAAG GTAAAGGCTC TCGCCCGAAG 
AACATGACCC CTTACAGGTC TCCACCTCCA TATGTTCCCC CTTAA

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

RefSeq	XP_019403059.1
CDS	228..2912
Translation	MTVGFLLLPPLLGRTLLTALLMSAYIQCHWPSEPSEVQDWENQLEASMHSVLSDLRETIPAVVGIPDSSAVVGRFFRATIPTDLIASNGEMVQISEAGKDTLPSWLHWEADSSTLEGLPLDTDKGVHYISVNAMLLVPNGSYVPQNANVFSIEVHPEDHNEPQSVRVASQDLNEGIPFVCGAEEPVTILTVILDADLTKMTPKQRIELLNRMRSFSEVELHHMKLVPVVNNRLFDMSAFMAGPGNAKKVVENGALLSWKLGCSLSQNSVPNISNVEAPAKEGTMSAHLGYPVVGWHIANKKPHLPKRIRRQINATPTPVTAIGPPTTAIQEPPTRIIPTPTSPAIAPPTETTAPPVREPVPLPRKPTVTIRTRGPIVQTPTLAPTQPTRLIETTTAVTGQIRPTMTSYVEPTAVITPPTTTKRPRVTTLKPATPSTTDSSTTTTRRPTRRPKTPRPTKPSGTTRTPITKLETASPPTRVRTTTSGIPRVWEPNEPPKLTNHIDRVDAWEGTYFEVKIPSDTFYDKEDTTTDKLQLTLKLKEQQMIEENSWVQFNSTSQLMYGLPDHSHIGKHEYFMYATDKGGLSAVDAFEIHVHKKPHGEKSPVKFKARFHGDHNTVANDISKKILLVKKLAFAFGDRNSSTITLQNITKGSILVEWTNNTLPLEPCPKDQIKAMSKKIADESGSPSPAFSNALDPEFKPINISVVGSGSCKSFQFIPVTGDGRIISEATPTLAAGKDPEKSSEDDVYLHTVIPAVVVAAILLIAGIIAMICYRKKRKGKLTIEDQATFIKKGVPIIFADELDDSKPPPSSSMPLILQEEKAPLPPPEYPNQSMPETTPLNQDTIGEYTPLRDEDPNAPPYQPPPPFTAPMEGKGSRPKNMTPYRSPPPYVPP

Target ORF information:

RefSeq Version	XM_019547514.1
Organism	Crocodylus porosus(Australian saltwater crocodile)
Definition	Crocodylus porosus dystroglycan 1 (DAG1), mRNA.

Target ORF information:

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

XM_019547514.1

ORF Insert Sequence:

ATGACTGTTG GATTTTTACT GCTGCCCCCT CTGCTGGGGA GGACTTTGCT TACAGCATTA 
CTGATGTCTG CCTATATTCA GTGCCATTGG CCCAGTGAGC CCTCAGAAGT ACAGGACTGG 
GAAAACCAGT TAGAGGCCTC TATGCATTCT GTGCTGTCGG ATCTCCGAGA GACTATCCCA 
GCAGTGGTGG GGATTCCAGA CAGCTCTGCT GTGGTAGGCC GCTTCTTCAG AGCCACCATC 
CCAACAGATT TAATTGCTTC CAATGGAGAA ATGGTTCAGA TTTCTGAAGC TGGGAAAGAC 
ACCTTGCCTT CTTGGTTGCA TTGGGAAGCA GACAGTAGCA CCTTGGAAGG TCTCCCCCTT 
GATACTGACA AAGGTGTTCA TTATATCTCA GTGAATGCAA TGCTGCTTGT ACCCAATGGC 
AGTTACGTGC CCCAAAACGC AAATGTCTTT TCCATTGAGG TTCATCCTGA AGACCACAAT 
GAGCCCCAGT CAGTGCGAGT AGCTTCCCAG GACTTGAATG AGGGAATACC ATTTGTATGT 
GGTGCAGAGG AGCCAGTAAC TATCCTGACT GTAATTTTGG ATGCTGACTT AACAAAAATG 
ACACCAAAGC AGAGGATTGA ACTTCTAAAC CGAATGAGAA GCTTCTCAGA GGTGGAACTT 
CACCACATGA AGTTGGTTCC TGTTGTAAAT AATAGACTCT TTGACATGTC AGCTTTCATG 
GCTGGTCCAG GAAATGCAAA GAAGGTGGTA GAAAATGGGG CCTTACTTTC ATGGAAATTA 
GGATGCTCTC TGAGCCAAAA TAGCGTCCCT AACATCAGCA ATGTTGAAGC TCCAGCTAAG 
GAAGGGACAA TGTCTGCCCA TCTTGGCTAC CCTGTTGTCG GGTGGCACAT TGCTAACAAG 
AAACCACATC TCCCCAAGAG GATAAGGCGG CAGATCAATG CTACTCCTAC ACCTGTCACT 
GCCATTGGCC CACCCACCAC TGCCATCCAG GAACCACCAA CCAGAATCAT TCCCACCCCC 
ACATCCCCAG CCATTGCACC TCCCACAGAA ACAACAGCTC CTCCAGTCAG AGAGCCTGTA 
CCATTGCCAA GGAAACCTAC AGTTACAATT AGAACAAGAG GACCTATTGT TCAGACACCA 
ACTCTAGCAC CAACTCAGCC AACCAGATTA ATAGAAACTA CCACTGCAGT CACTGGGCAG 
ATTCGCCCAA CAATGACCAG TTATGTAGAG CCTACTGCCG TGATTACACC TCCTACAACC 
ACCAAGAGAC CAAGAGTCAC CACCCTGAAA CCAGCCACCC CTTCAACCAC AGATTCCTCT 
ACAACAACAA CACGAAGGCC TACACGAAGA CCCAAAACTC CACGACCTAC CAAGCCTTCT 
GGCACAACCA GAACACCAAT AACTAAGCTG GAAACCGCCT CCCCACCGAC CCGTGTACGG 
ACCACTACTA GTGGGATTCC CCGTGTGTGG GAACCAAATG AGCCACCAAA GCTGACAAAC 
CACATTGATA GGGTGGATGC ATGGGAAGGC ACTTACTTTG AGGTCAAAAT ACCTTCTGAT 
ACTTTCTATG ATAAAGAAGA TACCACAACA GATAAGCTAC AACTGACTCT GAAACTGAAG 
GAACAGCAAA TGATTGAAGA AAACTCTTGG GTCCAATTCA ATAGCACTAG TCAGCTGATG 
TATGGTCTGC CTGATCACAG CCACATAGGG AAGCATGAAT ATTTTATGTA TGCCACAGAC 
AAAGGTGGCC TCTCTGCTGT GGATGCTTTT GAAATACATG TCCACAAAAA GCCGCATGGG 
GAAAAGTCTC CAGTTAAATT TAAAGCCAGA TTCCATGGAG ACCACAATAC AGTAGCCAAT 
GACATTAGTA AGAAGATATT ATTGGTAAAG AAGCTGGCTT TTGCATTTGG AGACAGAAAT 
AGCAGCACCA TTACTTTACA GAACATCACC AAAGGCTCTA TCTTAGTGGA ATGGACAAAC 
AACACTTTGC CCCTAGAGCC ATGTCCAAAG GACCAGATCA AGGCCATGAG CAAAAAAATT 
GCTGATGAAT CTGGTAGTCC TAGCCCAGCC TTTTCAAATG CCTTAGACCC AGAATTCAAG 
CCTATAAACA TTTCTGTGGT TGGCTCAGGC AGTTGTAAGT CCTTCCAGTT TATTCCAGTG 
ACTGGAGATG GAAGGATTAT CTCTGAGGCA ACACCAACTT TGGCAGCAGG GAAGGACCCT 
GAAAAGAGCA GTGAGGATGA CGTGTACTTA CACACAGTCA TCCCTGCAGT TGTGGTAGCT 
GCTATCCTGC TTATTGCTGG AATCATTGCT ATGATTTGTT ATCGCAAGAA AAGAAAAGGT 
AAGCTAACCA TTGAAGACCA AGCTACCTTC ATCAAGAAAG GAGTGCCAAT CATCTTTGCT 
GATGAGCTGG ATGACTCCAA GCCACCCCCT TCTTCCAGCA TGCCCCTGAT TCTTCAAGAG 
GAGAAAGCTC CGCTTCCTCC TCCAGAGTAC CCTAACCAGA GTATGCCAGA GACCACACCA 
CTGAATCAGG ACACCATAGG AGAATATACA CCACTGCGGG ATGAAGACCC CAACGCTCCT 
CCCTATCAGC CCCCCCCACC ATTCACAGCA CCCATGGAAG GTAAAGGCTC TCGCCCGAAG 
AACATGACCC CTTACAGGTC TCCACCTCCA TATGTTCCCC CTTAA