ADGRA3 cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADGRA3
Entrez Gene ID	102372816
Full Name	adhesion G protein-coupled receptor A3
Synonyms	GPR125
Gene Type	protein-coding
Organism	Alligator sinensis(Chinese alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025205586.1	XP_025061371.1	adhesion G protein-coupled receptor A3
XM_006024820.2	XP_006024882.1	adhesion G protein-coupled receptor A3

Pathways from BioSystems
Gene Ontology

The following ADGRA3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADGRA3 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
OAl19296	XM_006024820.2 Latest version!	Alligator sinensis adhesion G protein-coupled receptor A3 (ADGRA3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00

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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)

ADGRA3 ( XM_006024820.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006024882.1 Alligator sinensis adhesion G protein-coupled receptor A3 (ADGRA3), mRNA.

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CloneID	OAl19296
Clone ID Related Accession (Same CDS sequence)	XM_006024820.2
Accession Version	XM_006024820.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3780bp) 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	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
Product	adhesion G protein-coupled receptor A3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842119.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006024820.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGAAAAACA ATGAAGGCAG CCTGGAGCTG GCGCGGGCCC CGCCGCCCGC CGCGCTGCCC 
AACAGGACCG TCACGCTGAT TCTGAGCAAC AATAAAATAA CAGAGTTGAA GAATGATTCC 
TTTATTGGAT TAAGCGTTCT TGAAAGATTG GACCTTAAGA ACAATCTTAT TAGTACTATA 
GATCCAGGAG CTTTTCTGGA GCTTTCATCT CTTAAAAAAC TAGACTTGAC TAACAACCGA 
ATAGGCTGTC TCAATGGAGA TATATTTAGA GGGCTCGTAA ACCTTATTAG ATTAAATCTT 
TCAGGAAATT TATTTTCTTC ATTAACACAA GGAACATTTG ATCATCTTGG GTCACTGAAG 
TCTTTAGAAT TTCAGACTGA TTACCTTCTG TGTGATTGTA ACCTGTTATG GATACATCAG 
TGGTTAAAAG AAAGAAATAT AACTGTACGT GAAACTAAAT GTGCCTATCC CAAGTCATTG 
CAGGCCCAAC CTGTAACAGG TGTGAAACCA GAGCTTCTGA CGTGTGAATC ACCTCTTGAA 
TTACCATCTT TCTACATGAC TCCATCTCAT CGTCAGGTTG TCTTTGAGGG AGATAGTCTA 
CCCTTCCAGT GTATGGCTTC ATATATTGAT CAAGACATGC AGGTGTTGTG GTATCAGGAT 
GGGAAGATAG TTGAAACTGA TGAATCCCAG GGTATTTTTG TTGAAAAAAA CATGGTTCAT 
AACTGCTCAT TAATAGCAAG CTCTTTGACA ATCTCAAATA TTCAAGCTGG ATCCACTGGA 
AACTGGGGTT GTCACGTGCA GACTAGACGG GGGAATAATA CAAGAGCTGT AGACATTGTG 
GTATTGGAGA GTTCTGCACA GTATTGCCCT CCAGAGAGGG TTGTCAACAA TAAAGGAGAT 
TTCAGGTGGC CTAGAACATT GGCAGGCATT ACTGCATACC TACTGTGTAC TCGCTACTCT 
GCTGGCAGTG GGATATATCC AGGCAGCTCT CAGGATGAGA GAAGAGCTTG GCGCAGATGT 
GATAGGGGAG GATTCTGGGC AGAAGAAGAC TATTCTCGGT GCCAATATGC GAATGATGTC 
ACTCGAGTGC TATATATGTT TAATCAGATG CCGCTCAACC TGACTAATGC AGTAGCAACA 
GCAAGACAGT TATTGGCTTA CACTGTTGAA GCAGCAAATT TTTCTGATAA GATGGATGTT 
ATTTTTGTGG CTGAAATGAT AGAAAAATTT GGAAGATTTG CTGAAAAGTA TAAAGAGCTT 
GGTGATGTGA TGGTGGACAT TGCAAGTAAC ATTATGCTAA CTGATGAACG TGTGTTATGG 
ATGGCACAAA AGGAAGCCAA AGCTTGCACT AGAGTTGTAC AGTGTTTGCA GAGAATTGCT 
ATGTATCGAC TGGCAAATGG GGCTCAAGTC TACTCAACTT ACTCCCCAAA TATTGCTCTG 
GAGGCTTATG TAATAAAAGC TGCTGGATTC ACTGGAATGA CCTGCACCGT ATTTCAAAAA 
GTGGCTACAT CAGACCGTAC AGGACTACCT GATTTTGGGA GGAGAGATCC AGATGGAAAC 
CTAGATAAGC AGCTAAGCTT TAAGTGCAAT GTTTCAAATA CGCTGTCAAG CTTGGCACTA 
AAGAACACTA TTGTAGAGGC GTCTATCCAA CTGCCGCCCT CCCTCTTTGC ACAAAAGCAG 
AAAAGGGAAA TCAGGCCAGC AGATGAGTTA GTCTACAAGC TTCAACTTAT TGCATTTCGC 
AATGGAAAAC TTTTCCCGGC AACAGGAAAT TCAACAAATC TGGCTGATGA TGGGAAAAGA 
CGGACAGTTG TGACCCCGGT TATTCTCACC AAGATAGATG GCTTAAACCT AGCCAGTCAC 
CAGATTCCTA TTAATGTGAC ACTGCGACGG ATTGCACATG GAGCAGATGC TGTTGCAGCA 
CAATGGGATT TTGATCTGCT AAATGGACAA GGAGGATGGA AGTCTGATGG CTGTCGCATT 
ATCTCTTCAG ACGAAAATAT TACTACCATT CAGTGCTACT CTCTCAGTAA CTATGCGGTT 
TTGATGGATT TGACAGGAGC TGAACTATAT ACCCAGCCAG CTGATCTTTT ACACCCAGTT 
ATTTATGCCA CTGCCATGGT TTTACTGATG TGCCTCTTGA TGATTATAGT CAGCTACACA 
TACCATCATG GCGTGATCAG GATTAGCCTT AAAAGCTGGC ACATGTTAGT TAACCTGAGC 
TTTCATATTT TCCTGACGTG TGTGATGTTT ATTGGAGGTA TAACTCAGAC CAGAAATGCC 
AGCATTTGCC AAGCAGTTGG GATAATTCTT CATTATTCTA CTCTAGCCAC AGTGTTGTGG 
GTAGGAGTGA CATCTCGTAA CATCTATAAG CAAGCCACTA AAAAAGCAAA GAGGTGTCAA 
GACCCTGATG AGCCACCGCC TCCACCTAGA CCAATGCTCA GATTCTACCT TATTGGTGGA 
GGGATTCCTA TCATAGTCTG TGGAATAACA GCAGCAGCCA ACATCCGGAA TTATGGCAGC 
AGGCCAAATG CTCCATATTG TTGGATGACA TGGGAACCTA GCTTGGGAGC CTTCTATGGA 
CCAGCTAGTT TCATCATTTT CATAAATTGT ATGTATTTTC TCAGTATATT TATACAATTG 
AAACGACACC CTGAACGTAA ATATGAACTT AAAGAGCCAG CTGAGGAACA GCAGCGTTTA 
GCAACCAATG AACATGGGGA ACTGACTCCT CAGGATTCGC TGTCAGTGTC ACTGGTTTCC 
ACATCAGCTT TGGAGAATGA ACACAGTTTT CAAGCTCAGC TTTTGGGAGT GAGCCTCACT 
TTGCTTTTAT ATGTTGCTCT ATGGATTTTT GGGGCTTTGT CTGTTTCTTT GTATTATCCC 
GTGAACTTGA TTTTTAGCTG CTTTTTTGGG GCCACATGTT TAAGTCTTAG TGCCTTTTTG 
CTGGTGCATC ACTGCATCAA CAGGGAAGAT GTTAGGCATG CTTGGATAAC AACCTGCTGC 
CCTGGAAGGA GCACGTACTC CGTGCAAGTT AACGTTCAGC CCTCCAATTC CAGTGGGACC 
AGTGGAGAGG CTCCCAAATG CACCAACAGC AGTGCAGAAT CCTCATGCAC AAACAAGAGT 
GCATCAAGCC TAAAACATTC GTCTCAAGGT TGCAAACTAA CTAATATACA GGCTGCAGCA 
GCTCAGTGCC ATCCTAGTTC TCTACCAGTA AGCCCGGGTC CTCAGCTGGA TAATAGTTTG 
ACTGAACATT CGGTGGACAA TGATATTAAG ATGCATGTAG CACCATTAGA GGTACAATTT 
CGGACAAATG GGCACCCGAA CCGTCACCAT AAAAACAGAA GTAAGGGCCA TCGTGCAAGC 
AGGCTTACTG TTTTGAGGGA ATATGCATAT GATGTCCCCA CAAGTGTGGA AGGAAGTGTG 
CAGAATGGCT TATCTAAAGG TCGACAAAGC AACAGTGAAG GGCATTCAAG GAGTCGAAGA 
GCCTATTTAG CCTACAGAGA GCGTCAGTAT AACCAGTCCC AACAAGATAG CAGTGATGCT 
TGCAGTACGC TTCCAAAATG CAGTCGAAAT ACTGAAAAAA CTGTTGCTAC AAACAACAAG 
AAGGATATTT TGAGAAAACC AATAACAGTT GAACTTGAAA GCCAGCAAAA ATCTTATGGC 
TTAAATTTAG CTGTTCAGAA TGGGCCACTT AAAGGCATTG GACAGGATGG ACCTTTGCTC 
ACCGCAGACA GTACAGGCAA TATTAGGACT GGGTTGTGGA AGCATGAAAC TACTGTGTAG

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

RefSeq	XP_006024882.1
CDS	1..3780
Translation	MKNNEGSLELARAPPPAALPNRTVTLILSNNKITELKNDSFIGLSVLERLDLKNNLISTIDPGAFLELSSLKKLDLTNNRIGCLNGDIFRGLVNLIRLNLSGNLFSSLTQGTFDHLGSLKSLEFQTDYLLCDCNLLWIHQWLKERNITVRETKCAYPKSLQAQPVTGVKPELLTCESPLELPSFYMTPSHRQVVFEGDSLPFQCMASYIDQDMQVLWYQDGKIVETDESQGIFVEKNMVHNCSLIASSLTISNIQAGSTGNWGCHVQTRRGNNTRAVDIVVLESSAQYCPPERVVNNKGDFRWPRTLAGITAYLLCTRYSAGSGIYPGSSQDERRAWRRCDRGGFWAEEDYSRCQYANDVTRVLYMFNQMPLNLTNAVATARQLLAYTVEAANFSDKMDVIFVAEMIEKFGRFAEKYKELGDVMVDIASNIMLTDERVLWMAQKEAKACTRVVQCLQRIAMYRLANGAQVYSTYSPNIALEAYVIKAAGFTGMTCTVFQKVATSDRTGLPDFGRRDPDGNLDKQLSFKCNVSNTLSSLALKNTIVEASIQLPPSLFAQKQKREIRPADELVYKLQLIAFRNGKLFPATGNSTNLADDGKRRTVVTPVILTKIDGLNLASHQIPINVTLRRIAHGADAVAAQWDFDLLNGQGGWKSDGCRIISSDENITTIQCYSLSNYAVLMDLTGAELYTQPADLLHPVIYATAMVLLMCLLMIIVSYTYHHGVIRISLKSWHMLVNLSFHIFLTCVMFIGGITQTRNASICQAVGIILHYSTLATVLWVGVTSRNIYKQATKKAKRCQDPDEPPPPPRPMLRFYLIGGGIPIIVCGITAAANIRNYGSRPNAPYCWMTWEPSLGAFYGPASFIIFINCMYFLSIFIQLKRHPERKYELKEPAEEQQRLATNEHGELTPQDSLSVSLVSTSALENEHSFQAQLLGVSLTLLLYVALWIFGALSVSLYYPVNLIFSCFFGATCLSLSAFLLVHHCINREDVRHAWITTCCPGRSTYSVQVNVQPSNSSGTSGEAPKCTNSSAESSCTNKSASSLKHSSQGCKLTNIQAAAAQCHPSSLPVSPGPQLDNSLTEHSVDNDIKMHVAPLEVQFRTNGHPNRHHKNRSKGHRASRLTVLREYAYDVPTSVEGSVQNGLSKGRQSNSEGHSRSRRAYLAYRERQYNQSQQDSSDACSTLPKCSRNTEKTVATNNKKDILRKPITVELESQQKSYGLNLAVQNGPLKGIGQDGPLLTADSTGNIRTGLWKHETTV

Target ORF information:

RefSeq Version	XM_006024820.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis adhesion G protein-coupled receptor A3 (ADGRA3), mRNA.

Target ORF information:

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

XM_006024820.2

ORF Insert Sequence:

ATGAAAAACA ATGAAGGCAG CCTGGAGCTG GCGCGGGCCC CGCCGCCCGC CGCGCTGCCC 
AACAGGACCG TCACGCTGAT TCTGAGCAAC AATAAAATAA CAGAGTTGAA GAATGATTCC 
TTTATTGGAT TAAGCGTTCT TGAAAGATTG GACCTTAAGA ACAATCTTAT TAGTACTATA 
GATCCAGGAG CTTTTCTGGA GCTTTCATCT CTTAAAAAAC TAGACTTGAC TAACAACCGA 
ATAGGCTGTC TCAATGGAGA TATATTTAGA GGGCTCGTAA ACCTTATTAG ATTAAATCTT 
TCAGGAAATT TATTTTCTTC ATTAACACAA GGAACATTTG ATCATCTTGG GTCACTGAAG 
TCTTTAGAAT TTCAGACTGA TTACCTTCTG TGTGATTGTA ACCTGTTATG GATACATCAG 
TGGTTAAAAG AAAGAAATAT AACTGTACGT GAAACTAAAT GTGCCTATCC CAAGTCATTG 
CAGGCCCAAC CTGTAACAGG TGTGAAACCA GAGCTTCTGA CGTGTGAATC ACCTCTTGAA 
TTACCATCTT TCTACATGAC TCCATCTCAT CGTCAGGTTG TCTTTGAGGG AGATAGTCTA 
CCCTTCCAGT GTATGGCTTC ATATATTGAT CAAGACATGC AGGTGTTGTG GTATCAGGAT 
GGGAAGATAG TTGAAACTGA TGAATCCCAG GGTATTTTTG TTGAAAAAAA CATGGTTCAT 
AACTGCTCAT TAATAGCAAG CTCTTTGACA ATCTCAAATA TTCAAGCTGG ATCCACTGGA 
AACTGGGGTT GTCACGTGCA GACTAGACGG GGGAATAATA CAAGAGCTGT AGACATTGTG 
GTATTGGAGA GTTCTGCACA GTATTGCCCT CCAGAGAGGG TTGTCAACAA TAAAGGAGAT 
TTCAGGTGGC CTAGAACATT GGCAGGCATT ACTGCATACC TACTGTGTAC TCGCTACTCT 
GCTGGCAGTG GGATATATCC AGGCAGCTCT CAGGATGAGA GAAGAGCTTG GCGCAGATGT 
GATAGGGGAG GATTCTGGGC AGAAGAAGAC TATTCTCGGT GCCAATATGC GAATGATGTC 
ACTCGAGTGC TATATATGTT TAATCAGATG CCGCTCAACC TGACTAATGC AGTAGCAACA 
GCAAGACAGT TATTGGCTTA CACTGTTGAA GCAGCAAATT TTTCTGATAA GATGGATGTT 
ATTTTTGTGG CTGAAATGAT AGAAAAATTT GGAAGATTTG CTGAAAAGTA TAAAGAGCTT 
GGTGATGTGA TGGTGGACAT TGCAAGTAAC ATTATGCTAA CTGATGAACG TGTGTTATGG 
ATGGCACAAA AGGAAGCCAA AGCTTGCACT AGAGTTGTAC AGTGTTTGCA GAGAATTGCT 
ATGTATCGAC TGGCAAATGG GGCTCAAGTC TACTCAACTT ACTCCCCAAA TATTGCTCTG 
GAGGCTTATG TAATAAAAGC TGCTGGATTC ACTGGAATGA CCTGCACCGT ATTTCAAAAA 
GTGGCTACAT CAGACCGTAC AGGACTACCT GATTTTGGGA GGAGAGATCC AGATGGAAAC 
CTAGATAAGC AGCTAAGCTT TAAGTGCAAT GTTTCAAATA CGCTGTCAAG CTTGGCACTA 
AAGAACACTA TTGTAGAGGC GTCTATCCAA CTGCCGCCCT CCCTCTTTGC ACAAAAGCAG 
AAAAGGGAAA TCAGGCCAGC AGATGAGTTA GTCTACAAGC TTCAACTTAT TGCATTTCGC 
AATGGAAAAC TTTTCCCGGC AACAGGAAAT TCAACAAATC TGGCTGATGA TGGGAAAAGA 
CGGACAGTTG TGACCCCGGT TATTCTCACC AAGATAGATG GCTTAAACCT AGCCAGTCAC 
CAGATTCCTA TTAATGTGAC ACTGCGACGG ATTGCACATG GAGCAGATGC TGTTGCAGCA 
CAATGGGATT TTGATCTGCT AAATGGACAA GGAGGATGGA AGTCTGATGG CTGTCGCATT 
ATCTCTTCAG ACGAAAATAT TACTACCATT CAGTGCTACT CTCTCAGTAA CTATGCGGTT 
TTGATGGATT TGACAGGAGC TGAACTATAT ACCCAGCCAG CTGATCTTTT ACACCCAGTT 
ATTTATGCCA CTGCCATGGT TTTACTGATG TGCCTCTTGA TGATTATAGT CAGCTACACA 
TACCATCATG GCGTGATCAG GATTAGCCTT AAAAGCTGGC ACATGTTAGT TAACCTGAGC 
TTTCATATTT TCCTGACGTG TGTGATGTTT ATTGGAGGTA TAACTCAGAC CAGAAATGCC 
AGCATTTGCC AAGCAGTTGG GATAATTCTT CATTATTCTA CTCTAGCCAC AGTGTTGTGG 
GTAGGAGTGA CATCTCGTAA CATCTATAAG CAAGCCACTA AAAAAGCAAA GAGGTGTCAA 
GACCCTGATG AGCCACCGCC TCCACCTAGA CCAATGCTCA GATTCTACCT TATTGGTGGA 
GGGATTCCTA TCATAGTCTG TGGAATAACA GCAGCAGCCA ACATCCGGAA TTATGGCAGC 
AGGCCAAATG CTCCATATTG TTGGATGACA TGGGAACCTA GCTTGGGAGC CTTCTATGGA 
CCAGCTAGTT TCATCATTTT CATAAATTGT ATGTATTTTC TCAGTATATT TATACAATTG 
AAACGACACC CTGAACGTAA ATATGAACTT AAAGAGCCAG CTGAGGAACA GCAGCGTTTA 
GCAACCAATG AACATGGGGA ACTGACTCCT CAGGATTCGC TGTCAGTGTC ACTGGTTTCC 
ACATCAGCTT TGGAGAATGA ACACAGTTTT CAAGCTCAGC TTTTGGGAGT GAGCCTCACT 
TTGCTTTTAT ATGTTGCTCT ATGGATTTTT GGGGCTTTGT CTGTTTCTTT GTATTATCCC 
GTGAACTTGA TTTTTAGCTG CTTTTTTGGG GCCACATGTT TAAGTCTTAG TGCCTTTTTG 
CTGGTGCATC ACTGCATCAA CAGGGAAGAT GTTAGGCATG CTTGGATAAC AACCTGCTGC 
CCTGGAAGGA GCACGTACTC CGTGCAAGTT AACGTTCAGC CCTCCAATTC CAGTGGGACC 
AGTGGAGAGG CTCCCAAATG CACCAACAGC AGTGCAGAAT CCTCATGCAC AAACAAGAGT 
GCATCAAGCC TAAAACATTC GTCTCAAGGT TGCAAACTAA CTAATATACA GGCTGCAGCA 
GCTCAGTGCC ATCCTAGTTC TCTACCAGTA AGCCCGGGTC CTCAGCTGGA TAATAGTTTG 
ACTGAACATT CGGTGGACAA TGATATTAAG ATGCATGTAG CACCATTAGA GGTACAATTT 
CGGACAAATG GGCACCCGAA CCGTCACCAT AAAAACAGAA GTAAGGGCCA TCGTGCAAGC 
AGGCTTACTG TTTTGAGGGA ATATGCATAT GATGTCCCCA CAAGTGTGGA AGGAAGTGTG 
CAGAATGGCT TATCTAAAGG TCGACAAAGC AACAGTGAAG GGCATTCAAG GAGTCGAAGA 
GCCTATTTAG CCTACAGAGA GCGTCAGTAT AACCAGTCCC AACAAGATAG CAGTGATGCT 
TGCAGTACGC TTCCAAAATG CAGTCGAAAT ACTGAAAAAA CTGTTGCTAC AAACAACAAG 
AAGGATATTT TGAGAAAACC AATAACAGTT GAACTTGAAA GCCAGCAAAA ATCTTATGGC 
TTAAATTTAG CTGTTCAGAA TGGGCCACTT AAAGGCATTG GACAGGATGG ACCTTTGCTC 
ACCGCAGACA GTACAGGCAA TATTAGGACT GGGTTGTGGA AGCATGAAAC TACTGTGTAG