AFF3 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	AFF3
Entrez Gene ID	102563459
Full Name	AF4/FMR2 family member 3
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019485071.1	XP_019340616.1	AF4/FMR2 family member 3

Pathways from BioSystems
Gene Ontology

The following AFF3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AFF3 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
OAl53747	XM_019485071.1 Latest version!	Alligator mississippiensis AF4/FMR2 family member 3 (AFF3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$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)

AFF3 ( XM_019485071.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019340616.1 Alligator mississippiensis AF4/FMR2 family member 3 (AFF3), mRNA.

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CloneID	OAl53747
Clone ID Related Accession (Same CDS sequence)	XM_019485071.1
Accession Version	XM_019485071.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3762bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	AF4/FMR2 family member 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017709042.1) 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 :: Alligator mississippiensis Annotation Release 102 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##

ATGGACAGCT TCGACTTGGC GCTGCTGCAG GACTGGGACC TGGACTCGCT GTGTGTCTAT 
GAACCAGACA GAAATGTGCT GCGGAAGAAA GAATGGGAAA GGAGAAATCA GGAAACACAG 
CAGGAAGATG GCACATTTAA CACAAGTTAC TCCCTCTTCA GTGAACCATA CAAGACTAAC 
AAGGGGGATG AGCTCTCAAA TCGCATCCAG AATACATTAG GCAACTATGA TGAAATGAAA 
GATTTACTGA CTGATCGATC CAACCAGAGC CACCTTGTTG GGGTTCCAAA ACCAGGGATC 
CCACAGGCAT CTGTAGCTAA AGCAGATGAA CATTTCATTA CAGACTCAAG ACCACAGTCC 
CAGCCTTCCA TCAGCAGTTC ATCCTCCATA CCAGCAGCAT TATGTGGACA GAACAAGAGC 
ACCACAATGG GTTGGCAAAA AGTTGGGCAA AATGCTTCTG ATGGCCAGCA GAGGACAAGC 
AAGCATGGCC ACAGATTACT TGAATCACAC AACAGTGACT TCAAAATGAC TAACCAAAAA 
TCCAGTCTAG AAAAGCTAAA ACACTATGCA TCAAGTCCAA CATCCTCTGC CTCCAATGCT 
ACACAACCAG GTACTTTAAG ATCCACACTT GGAGACAGTG TCAGCAGAGT GCAACAGCAG 
TCAAAAATAA GTTGCAATGC AGAAGTTGGA CCTCAGGCTC AAGAAAGGCC AACAAAACAT 
ACCACTGGGC ATTGTGTTCA AAACTTTCCT CCTTCACTTG CTTCAAAGCC CACTATAGTG 
CAGCAGAAAC CAACAGCTTA TGTAAGGCCA ATGGATGGAC AAGATCAGGC TCCTGATGAA 
TCCCCAAAGC TAAAATTATC TGCAGAAACT AACAAGCACT GTACATCATA TAGGGGAGTT 
CCTTCTAATA AACCTGACTC AACTAGAACC AAGTCTAAGA TTACAAAATT TAGCATTCCC 
AAGCAAGAAG AGGACAGTGG AACAGGAGAT AACAGCTGCA TTGAAGAAAT TTTACAGGAG 
ATGACCCATT CTTGGCCACC ACCACTCTCA GCTATTCACA CGCCTGGAAA AGTAGAACAG 
AGCAAGTTTT CATTCCCAAA CAAGGAGTCA CAACAGGGAT CAACAGGACC CAGCAATACA 
AGGAAAAGTG ATGTTGAGCC AAAGAGTCCA GAAAATAGTG CATCTCATAC ATCGATGTTA 
TTACAAGCAA GTTTACTGCT CTTTGATTTG CTGAACTGGA GACTGCCTTC AGGAATGCTA 
GAAGATGACC TCAAGTTAAG TAGTGATGAA GAAGAGAATG ATCAGCAGGC AGCACAGAGA 
TCTACTCTCC GCGTTCTATC TGACAGCACT GGCGTGCAAC AGCCCAATAG CAGAACCTCA 
GGACTCTCCA GCAAGGGGTC AAGCAGCAGC AGCTCCAGTG AATCCGAGAG CAGTTCAGAG 
TCTGATTCAG AGAGTGAAAG CAGTTCTAGT GAGAGTGACG GCAGCAAGCC CTCTCATTAC 
TCCAGCCCAG AGCCTGAACA ACCATCATCA AACAAGTGGC AACTGGATAA ATGGCTAAAT 
AAAGTTAATC CTCACAAAAC GCCTATTCTT AGCCAAAATG ATAACCATGG ACTGGAGAGT 
AATCAGTATT ACAGCAGGAT AAAGGAGGAA GGACAGGAGT GTGAGAAATT ACCAGATATT 
TGCCAAACAG ACCTCAGAGA CAAAGAAATT AAGAATGCCA GCAAAGAGGA GCTGAGGCCT 
AGAACTGCTA ATAAAGCACC AGGCAATAAA GGAGGGAAGC AGAAATCACC TCTCGCTGCT 
GTTGCTGCTG CTTCTGGAGA CAGCGGCCCT CAGAGAAAGC CAATCTGTAA AAAACAGCCA 
AGAAGGACAG AGAGGACCTC TGGTGGAGAT GCTTTGAACT GCCATACATC TGAGGATCTC 
ACCCTGAGCC AAGGATTTTT AGAAAATAAC ATCTGTGAGC AACCTAAAGC CAGGCCCTGC 
AGCAACAGAA CTGGGCACAG GAAAGAGCCC CGCTCTGTCA CTACATGCGA AAAGAGACGT 
ACCCGGGGGC CAAGCAAAAC AGCACCTAAA TCCAGGGAAT TTATCGAGAC AGAGTCTTCA 
TCATCCTCCT CTTCCTCCGA TTCAGATTCA GAATCCGAAC AAGAGGACTA TTCTCTCCCT 
AAACCTCAGA CTGTGGCCTC TGCTTCAGCT GGAAATGACC AGAGGTTGAA GGACTCTGGG 
AGCAGTAACT CCAACAAAAC CAACAGCAGC TGCAGTGCCT TTGGCTCCAT TAATGCCAGG 
ACTAGTAATG AAATAGCAAA GGAGCTGGAG GAACAATTTT ACACCCTGGT TCCTTTTGGT 
AGGAATGAGC TCCTGTCTCC TCTGAAAGAC AGCGATGAGG TAAAATCACT GTGGGTCAAA 
ATTGATTTGA CTCTTTTGTC CAGGATTCCA GAGCGTTCAC CTGAGGAGCC ATTGGCAATG 
AGCACTGGAG CAAAAGAAGT AGCCAGCATT CACCAGAATA ACAGTATTGA CCCACCAGCG 
GAAAAGGTTT TACCAAAATC TAGAAGGAAA CGCAAGTGTG AAAATGAAGA GGAGCACAGG 
GAGAGCAAGA AGCCTCATTT AGAGCGAGAG TGTTCTTCAC GATTAATTGC CTCTGCCCAA 
AGTATTTCAA CAACAAATCA TTGCAACATA AATGAAAATA GCTTGGCAAT ACCAATAAAT 
AAAAATGAGA AAATGCTTCG GTCACCCATC TCACCCCTCT CGGATGCATC AAAACACAAA 
TACTCCAGCA ATGATTTAAC TTCTTCCAGT AGACCTAATG GCAGCAGTCT GTTACCTTCC 
ATCTCCTCCA GCAAAAAACA TAAGGGTGAA ATCCAGTCAC AGCAACATCC TGGAGATTTC 
AATAAAGCAA TTCATATCAA TTCAGAAAAT GTTCTCTGCA ATAAGCCACA GTTCCAAACA 
GAGCCATGGT CACCTTTATC CAATGCACCG AGGGACTGCA GAAGAACAAA GCTTGTCTTC 
GATGATATGC CACGCAATGC AGATTACTTT ATGCAAGAAG CTAAACGGAA GAAACATAAA 
GCAGATGCAA TGGTGGAGAA ATTTGGAAAG GCACTTAATT ATGCTGAAGC AGCATTGTCA 
TTTATTGAAT GTGGAAATGC TATGGAACAA GGCCCCATGG AATCTAAATC CCCTTATACA 
ATGTACTCAG AAACAGTTGA ACTTATCAGG TATGCTGTGA GACTAAAAAC CCACTCAGGC 
CCTAACGCCA CTCCGGAGGA CAAACAGCTC GCAGCATTAT GTTTCCGCTG CTTGGCCCTT 
CTGTACTGGA GAATGTTCCG ACTCAAAAGA GACCATGCTG TAAAGTATTC AAAAGCACTT 
ATTGAATATT TCAAGAATTC ATCAAAAGCT GCACAGGCCC CATCCCCCTG GGGTGCCAGT 
GGAAAGAGCA CAGGAACTCC ATCCCCCATG TCCCCAAGTC CTTCTCCAGT CAGCTCTGTA 
GGATCCCAGG GGAGCACCGG TACCCCTTCC CCTTCCTCCA TCATCAGCAT TCCCCAGCGT 
ATTCATCAGA TGGCTGCCAA TCATGTCAGC ATCACCAACA GCATCTTGCA CAGTTATGAC 
TACTGGGAGA TGGCTGACAA TCTGGCCAAG GAAAACAGAG ATTTTTTTAA TGACTTGGAT 
GCATTGATGG GACCTGTCAC CTTGCACAGC AGTATGGAGC ATTTAGTTCA GTATACTCAA 
CAAGGACTTC ACTGGGTGCG GAATAGTGCT CACTTGTCAT AA

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

RefSeq	XP_019340616.1
CDS	50..3811
Translation	MDSFDLALLQDWDLDSLCVYEPDRNVLRKKEWERRNQETQQEDGTFNTSYSLFSEPYKTNKGDELSNRIQNTLGNYDEMKDLLTDRSNQSHLVGVPKPGIPQASVAKADEHFITDSRPQSQPSISSSSSIPAALCGQNKSTTMGWQKVGQNASDGQQRTSKHGHRLLESHNSDFKMTNQKSSLEKLKHYASSPTSSASNATQPGTLRSTLGDSVSRVQQQSKISCNAEVGPQAQERPTKHTTGHCVQNFPPSLASKPTIVQQKPTAYVRPMDGQDQAPDESPKLKLSAETNKHCTSYRGVPSNKPDSTRTKSKITKFSIPKQEEDSGTGDNSCIEEILQEMTHSWPPPLSAIHTPGKVEQSKFSFPNKESQQGSTGPSNTRKSDVEPKSPENSASHTSMLLQASLLLFDLLNWRLPSGMLEDDLKLSSDEEENDQQAAQRSTLRVLSDSTGVQQPNSRTSGLSSKGSSSSSSSESESSSESDSESESSSSESDGSKPSHYSSPEPEQPSSNKWQLDKWLNKVNPHKTPILSQNDNHGLESNQYYSRIKEEGQECEKLPDICQTDLRDKEIKNASKEELRPRTANKAPGNKGGKQKSPLAAVAAASGDSGPQRKPICKKQPRRTERTSGGDALNCHTSEDLTLSQGFLENNICEQPKARPCSNRTGHRKEPRSVTTCEKRRTRGPSKTAPKSREFIETESSSSSSSSDSDSESEQEDYSLPKPQTVASASAGNDQRLKDSGSSNSNKTNSSCSAFGSINARTSNEIAKELEEQFYTLVPFGRNELLSPLKDSDEVKSLWVKIDLTLLSRIPERSPEEPLAMSTGAKEVASIHQNNSIDPPAEKVLPKSRRKRKCENEEEHRESKKPHLERECSSRLIASAQSISTTNHCNINENSLAIPINKNEKMLRSPISPLSDASKHKYSSNDLTSSSRPNGSSLLPSISSSKKHKGEIQSQQHPGDFNKAIHINSENVLCNKPQFQTEPWSPLSNAPRDCRRTKLVFDDMPRNADYFMQEAKRKKHKADAMVEKFGKALNYAEAALSFIECGNAMEQGPMESKSPYTMYSETVELIRYAVRLKTHSGPNATPEDKQLAALCFRCLALLYWRMFRLKRDHAVKYSKALIEYFKNSSKAAQAPSPWGASGKSTGTPSPMSPSPSPVSSVGSQGSTGTPSPSSIISIPQRIHQMAANHVSITNSILHSYDYWEMADNLAKENRDFFNDLDALMGPVTLHSSMEHLVQYTQQGLHWVRNSAHLS

Target ORF information:

RefSeq Version	XM_019485071.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis AF4/FMR2 family member 3 (AFF3), mRNA.

Target ORF information:

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

XM_019485071.1

ORF Insert Sequence:

ATGGACAGCT TCGACTTGGC GCTGCTGCAG GACTGGGACC TGGACTCGCT GTGTGTCTAT 
GAACCAGACA GAAATGTGCT GCGGAAGAAA GAATGGGAAA GGAGAAATCA GGAAACACAG 
CAGGAAGATG GCACATTTAA CACAAGTTAC TCCCTCTTCA GTGAACCATA CAAGACTAAC 
AAGGGGGATG AGCTCTCAAA TCGCATCCAG AATACATTAG GCAACTATGA TGAAATGAAA 
GATTTACTGA CTGATCGATC CAACCAGAGC CACCTTGTTG GGGTTCCAAA ACCAGGGATC 
CCACAGGCAT CTGTAGCTAA AGCAGATGAA CATTTCATTA CAGACTCAAG ACCACAGTCC 
CAGCCTTCCA TCAGCAGTTC ATCCTCCATA CCAGCAGCAT TATGTGGACA GAACAAGAGC 
ACCACAATGG GTTGGCAAAA AGTTGGGCAA AATGCTTCTG ATGGCCAGCA GAGGACAAGC 
AAGCATGGCC ACAGATTACT TGAATCACAC AACAGTGACT TCAAAATGAC TAACCAAAAA 
TCCAGTCTAG AAAAGCTAAA ACACTATGCA TCAAGTCCAA CATCCTCTGC CTCCAATGCT 
ACACAACCAG GTACTTTAAG ATCCACACTT GGAGACAGTG TCAGCAGAGT GCAACAGCAG 
TCAAAAATAA GTTGCAATGC AGAAGTTGGA CCTCAGGCTC AAGAAAGGCC AACAAAACAT 
ACCACTGGGC ATTGTGTTCA AAACTTTCCT CCTTCACTTG CTTCAAAGCC CACTATAGTG 
CAGCAGAAAC CAACAGCTTA TGTAAGGCCA ATGGATGGAC AAGATCAGGC TCCTGATGAA 
TCCCCAAAGC TAAAATTATC TGCAGAAACT AACAAGCACT GTACATCATA TAGGGGAGTT 
CCTTCTAATA AACCTGACTC AACTAGAACC AAGTCTAAGA TTACAAAATT TAGCATTCCC 
AAGCAAGAAG AGGACAGTGG AACAGGAGAT AACAGCTGCA TTGAAGAAAT TTTACAGGAG 
ATGACCCATT CTTGGCCACC ACCACTCTCA GCTATTCACA CGCCTGGAAA AGTAGAACAG 
AGCAAGTTTT CATTCCCAAA CAAGGAGTCA CAACAGGGAT CAACAGGACC CAGCAATACA 
AGGAAAAGTG ATGTTGAGCC AAAGAGTCCA GAAAATAGTG CATCTCATAC ATCGATGTTA 
TTACAAGCAA GTTTACTGCT CTTTGATTTG CTGAACTGGA GACTGCCTTC AGGAATGCTA 
GAAGATGACC TCAAGTTAAG TAGTGATGAA GAAGAGAATG ATCAGCAGGC AGCACAGAGA 
TCTACTCTCC GCGTTCTATC TGACAGCACT GGCGTGCAAC AGCCCAATAG CAGAACCTCA 
GGACTCTCCA GCAAGGGGTC AAGCAGCAGC AGCTCCAGTG AATCCGAGAG CAGTTCAGAG 
TCTGATTCAG AGAGTGAAAG CAGTTCTAGT GAGAGTGACG GCAGCAAGCC CTCTCATTAC 
TCCAGCCCAG AGCCTGAACA ACCATCATCA AACAAGTGGC AACTGGATAA ATGGCTAAAT 
AAAGTTAATC CTCACAAAAC GCCTATTCTT AGCCAAAATG ATAACCATGG ACTGGAGAGT 
AATCAGTATT ACAGCAGGAT AAAGGAGGAA GGACAGGAGT GTGAGAAATT ACCAGATATT 
TGCCAAACAG ACCTCAGAGA CAAAGAAATT AAGAATGCCA GCAAAGAGGA GCTGAGGCCT 
AGAACTGCTA ATAAAGCACC AGGCAATAAA GGAGGGAAGC AGAAATCACC TCTCGCTGCT 
GTTGCTGCTG CTTCTGGAGA CAGCGGCCCT CAGAGAAAGC CAATCTGTAA AAAACAGCCA 
AGAAGGACAG AGAGGACCTC TGGTGGAGAT GCTTTGAACT GCCATACATC TGAGGATCTC 
ACCCTGAGCC AAGGATTTTT AGAAAATAAC ATCTGTGAGC AACCTAAAGC CAGGCCCTGC 
AGCAACAGAA CTGGGCACAG GAAAGAGCCC CGCTCTGTCA CTACATGCGA AAAGAGACGT 
ACCCGGGGGC CAAGCAAAAC AGCACCTAAA TCCAGGGAAT TTATCGAGAC AGAGTCTTCA 
TCATCCTCCT CTTCCTCCGA TTCAGATTCA GAATCCGAAC AAGAGGACTA TTCTCTCCCT 
AAACCTCAGA CTGTGGCCTC TGCTTCAGCT GGAAATGACC AGAGGTTGAA GGACTCTGGG 
AGCAGTAACT CCAACAAAAC CAACAGCAGC TGCAGTGCCT TTGGCTCCAT TAATGCCAGG 
ACTAGTAATG AAATAGCAAA GGAGCTGGAG GAACAATTTT ACACCCTGGT TCCTTTTGGT 
AGGAATGAGC TCCTGTCTCC TCTGAAAGAC AGCGATGAGG TAAAATCACT GTGGGTCAAA 
ATTGATTTGA CTCTTTTGTC CAGGATTCCA GAGCGTTCAC CTGAGGAGCC ATTGGCAATG 
AGCACTGGAG CAAAAGAAGT AGCCAGCATT CACCAGAATA ACAGTATTGA CCCACCAGCG 
GAAAAGGTTT TACCAAAATC TAGAAGGAAA CGCAAGTGTG AAAATGAAGA GGAGCACAGG 
GAGAGCAAGA AGCCTCATTT AGAGCGAGAG TGTTCTTCAC GATTAATTGC CTCTGCCCAA 
AGTATTTCAA CAACAAATCA TTGCAACATA AATGAAAATA GCTTGGCAAT ACCAATAAAT 
AAAAATGAGA AAATGCTTCG GTCACCCATC TCACCCCTCT CGGATGCATC AAAACACAAA 
TACTCCAGCA ATGATTTAAC TTCTTCCAGT AGACCTAATG GCAGCAGTCT GTTACCTTCC 
ATCTCCTCCA GCAAAAAACA TAAGGGTGAA ATCCAGTCAC AGCAACATCC TGGAGATTTC 
AATAAAGCAA TTCATATCAA TTCAGAAAAT GTTCTCTGCA ATAAGCCACA GTTCCAAACA 
GAGCCATGGT CACCTTTATC CAATGCACCG AGGGACTGCA GAAGAACAAA GCTTGTCTTC 
GATGATATGC CACGCAATGC AGATTACTTT ATGCAAGAAG CTAAACGGAA GAAACATAAA 
GCAGATGCAA TGGTGGAGAA ATTTGGAAAG GCACTTAATT ATGCTGAAGC AGCATTGTCA 
TTTATTGAAT GTGGAAATGC TATGGAACAA GGCCCCATGG AATCTAAATC CCCTTATACA 
ATGTACTCAG AAACAGTTGA ACTTATCAGG TATGCTGTGA GACTAAAAAC CCACTCAGGC 
CCTAACGCCA CTCCGGAGGA CAAACAGCTC GCAGCATTAT GTTTCCGCTG CTTGGCCCTT 
CTGTACTGGA GAATGTTCCG ACTCAAAAGA GACCATGCTG TAAAGTATTC AAAAGCACTT 
ATTGAATATT TCAAGAATTC ATCAAAAGCT GCACAGGCCC CATCCCCCTG GGGTGCCAGT 
GGAAAGAGCA CAGGAACTCC ATCCCCCATG TCCCCAAGTC CTTCTCCAGT CAGCTCTGTA 
GGATCCCAGG GGAGCACCGG TACCCCTTCC CCTTCCTCCA TCATCAGCAT TCCCCAGCGT 
ATTCATCAGA TGGCTGCCAA TCATGTCAGC ATCACCAACA GCATCTTGCA CAGTTATGAC 
TACTGGGAGA TGGCTGACAA TCTGGCCAAG GAAAACAGAG ATTTTTTTAA TGACTTGGAT 
GCATTGATGG GACCTGTCAC CTTGCACAGC AGTATGGAGC ATTTAGTTCA GTATACTCAA 
CAAGGACTTC ACTGGGTGCG GAATAGTGCT CACTTGTCAT AA