MLLT6 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	MLLT6
Entrez Gene ID	102573855
Full Name	MLLT6, PHD finger containing
Synonyms	MLLT10-1
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019482561.1	XP_019338106.1	protein AF-17 isoform X1
XM_019482564.1	XP_019338109.1	protein AF-17 isoform X5
XM_019482562.1	XP_019338107.1	protein AF-17 isoform X2
XM_019482563.1	XP_019338108.1	protein AF-17 isoform X3
XM_014603631.2	XP_014459117.1	protein AF-17 isoform X4
XM_019482565.1	XP_019338110.1	protein AF-17 isoform X6

Pathways from BioSystems
Gene Ontology

The following MLLT6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MLLT6 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)
OAl50825	XM_019482565.1 Latest version!	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl50820	XM_019482561.1 Latest version!	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl50821	XM_019482562.1 Latest version!	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl50822	XM_019482563.1 Latest version!	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl50823	XM_014603631.2 Latest version!	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl50824	XM_019482564.1 Latest version!	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

MLLT6 ( XM_019482565.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019338110.1 Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OAl50825
Clone ID Related Accession (Same CDS sequence)	XM_019482565.1
Accession Version	XM_019482565.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2652bp) 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	protein AF-17 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017708231.1) 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##

ATGTCACAAG TGCTTATGGC TGCAGCCTGC AGAGCTTTGT GTGGAAAGAA GCATGGAGTG 
GCAGGGAGAC AGCCCCGCAC TCAGAGTCGG AAGGACAAGG AAAGACCTAA ACAGAAGCAC 
AAAAAGCGGC CAGAGTCTCC CACCAGCCTC ACCCCGTCTT CTGTGCCTGT CACTACTGAG 
AAGAGCTCCA CCAGCCATCA TGAGGGTAAT AAGGAGAGCT CTGAGGGCAG CAGATCAGAG 
GTGAAAGGCA AGAAATCCTC AAGCCATGGC ACCAGCCACA AAGGGAAGAA GACGGGAAGT 
GGAAAAAGCT CAACTGGCTT CAGCTCGGCC GCCTCCAGCG GGACGTTCCA GCCTGCAGGC 
ACTTCGTGCA GCTCTTTGCA GTGCTCCCAG GACTTTGTGA CATTCCCTAA GCTAGAGCAG 
GAGGAGGAAA AGTACCGGAA GCCCGTCTCC TCCTCCTCCT CTTCCCACTG CTCCCCACTC 
TATGAAGGGC AGAAGGGGGA CATCTTCGAG CAGAAGGTGA TCTTCTCTGG CTTTGGCTCC 
ATCATGCGTT TCTCCACCTC GGCTGTGAGC CAGCAGAGGG GCCGGGACAC CTCCCCTGTG 
GACTACAAGG CCTCGAATCC AGTCAGTGGC CCCTCAGGAG GCGGCGGCAG CAGTGGCAAT 
GGTGGCAGCA GCAGCCACAA GCGCATGCCG TCCCTCAGCA TCGAGGATGG GGAGGTGCTG 
AAGGAGAAGA AGCACAAGGC CAGCAAGAAA AACAAGCATG GGCCTGGCCG GCCAAAAGGC 
GGCAAGAGCA AGGAGGTCCT AGGGGCCCAG CTGGCTGGGT CCACTGCTAC CTCTGCCTCC 
CCCTTCTCTG GGGGCTCCCT GGTCAGCGCC AGCATTGGCA ACTCATCCCG CTCCTTCAGC 
CACACAGGGA GCCTGCCCAG TCTCAGCCTA GAGTCCCCGC TGCTGGGTTC AGGGATCTAC 
ACCAGTAACA AGGACCCCAT TTCTCATGGG GGTGGGGTGC TCCGAGCTGT ATGCAGCACC 
CCACTCTCCT CCAGCCTCCT GGCACACCAG GGCACCTCAT CTCTCCCACA GCTCAACCGC 
TCTCCCTTTG CCAGTACCAT CCCGGCCTCC TCCTCTTCCT CTGTCTCCAC CACCCAGGTG 
TTCTCCTTGG CAGGATCCAC TTTCAGCCTC CCCTCCTCGC ACATTTTTGG CAGCCCCCTC 
ACCTCAGGGC TATCTATCAA CCCTCTCCTG AACCAGTCTG AAAGCAGCCG GGCAGAACCT 
GATCTGGAAG ACTGCAGTTT TGGCTGTCGA GGGACCTCCC CACAGGAAAG CCTCTCCTCT 
ATGTCCCCTA TCAGCAGCCT CCCTACCCTC TTCGACCAGA CCGTGTCCTG CAGCAGCAGC 
GGGCAGCTGG AGAACGTGCC CCAGGCCACC CCCAACATTG AGCAGCTCCT GGAGAAGCAA 
GGCAATGGCG AAGCGGGTGT AAACAGTGAG CCACTTGTGG AAATGCTCAA GGCTCTGCAC 
TCCTTGCAGA AGGAGAACCA GCGGTTGCAG GAGCAGATCA TGACCTTGAC AGCCAAGAAG 
GAGCGCCTGC AGCTCCTCAA CGTCCAGCTC TCTGTCCCCT TCCCAGTGGT GACCAGCAGC 
AATGGCCCAG CCAGCCAGGC CCAGTACATC TTGCCTCCCA CTGTGTGCAC CAATGACTCC 
CTGAGCATCA GCAAGAGCCC TCCCTGTAAG AACAGCTTTG GGATTGAAAA CTCCCTCTCC 
ACCTCCTCCG AGGATCCACA CTCAGGCTGC CCCAGCAGAA GCAGCTCTTC CCTCTCGTTC 
CACAGCACCC CTCCTCCCCT GCCATTGCTG CAGCAGAGCC CTGCCACACT GCCCCTCTCG 
GGGGTGCAGC CACAGCAGCA AGTCAACGGC TTGGCCAGGG TGACAGGAAA CACGCTGGCA 
GGAGGCACAG CAGGCAGTCA CAGCCTGCCC TCTGTGCCAA TGGTGGATGG CCTGATCGGG 
AGCCTGGCAG GAAGCCAGCA GATGCCCATC AACGGGATCC TGGGGAATCT CAATGGTGCT 
ACAGCTGCCC AGCAGCAGAA CCCCCTGACA CAGACCAGTG GGCCACCTAC CTTGCAGCTC 
TCCACCAACT TGAGCAGCAT ACCAGGCCTC AGCCCCCTGA CGGAGCAGCA GCGACACGCC 
TTGCACCAAC ATGAGCAGCA ACTCCAGCAG CTCCAGCAGC TCCTGACATC CCAGCTACTC 
AGTCCAGAGC AGCAGGCCTT AGTGTTCCAG ATGATCCAGC AAATCCAACA GAAGAGGGAC 
CTGCAGCGGC TACAGATGAC AGGCACCTCT CAACTGCCCA TGACCAGTCT CCTAACAGCC 
ACCTCCACAC CCCTCCTCCA CTCAAATGCC AATGCCCTGA TGACCTCTGC CACCCAGCCC 
GCACCCAGCA GCAGCTCCCT CATGGCTTCC ATCTCTCCCC AACAGCTCAA CCCTGGCAAC 
AGCCTGATGG CTACTCCAGC AGCCCCACCC CTTAGCGCTC CTGGGAACAG CCTGGTGGCT 
TCAGGAGCAG GTGTTCCACC AGTCCTTACA GCACAAAGCA ACCCCTTCCT CAACCTCCAG 
GCTGACAGCA ATGCCCAGAA AGGAACGAGC ATGAATGAAA AGGTTGCTCC TCTCACCCAG 
GACAAGGGCT AA

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

RefSeq	XP_019338110.1
CDS	408..3059
Translation	MSQVLMAAACRALCGKKHGVAGRQPRTQSRKDKERPKQKHKKRPESPTSLTPSSVPVTTEKSSTSHHEGNKESSEGSRSEVKGKKSSSHGTSHKGKKTGSGKSSTGFSSAASSGTFQPAGTSCSSLQCSQDFVTFPKLEQEEEKYRKPVSSSSSSHCSPLYEGQKGDIFEQKVIFSGFGSIMRFSTSAVSQQRGRDTSPVDYKASNPVSGPSGGGGSSGNGGSSSHKRMPSLSIEDGEVLKEKKHKASKKNKHGPGRPKGGKSKEVLGAQLAGSTATSASPFSGGSLVSASIGNSSRSFSHTGSLPSLSLESPLLGSGIYTSNKDPISHGGGVLRAVCSTPLSSSLLAHQGTSSLPQLNRSPFASTIPASSSSSVSTTQVFSLAGSTFSLPSSHIFGSPLTSGLSINPLLNQSESSRAEPDLEDCSFGCRGTSPQESLSSMSPISSLPTLFDQTVSCSSSGQLENVPQATPNIEQLLEKQGNGEAGVNSEPLVEMLKALHSLQKENQRLQEQIMTLTAKKERLQLLNVQLSVPFPVVTSSNGPASQAQYILPPTVCTNDSLSISKSPPCKNSFGIENSLSTSSEDPHSGCPSRSSSSLSFHSTPPPLPLLQQSPATLPLSGVQPQQQVNGLARVTGNTLAGGTAGSHSLPSVPMVDGLIGSLAGSQQMPINGILGNLNGATAAQQQNPLTQTSGPPTLQLSTNLSSIPGLSPLTEQQRHALHQHEQQLQQLQQLLTSQLLSPEQQALVFQMIQQIQQKRDLQRLQMTGTSQLPMTSLLTATSTPLLHSNANALMTSATQPAPSSSSLMASISPQQLNPGNSLMATPAAPPLSAPGNSLVASGAGVPPVLTAQSNPFLNLQADSNAQKGTSMNEKVAPLTQDKG

Target ORF information:

RefSeq Version	XM_019482565.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X6, mRNA.

Target ORF information:

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

XM_019482565.1

ORF Insert Sequence:

ATGTCACAAG TGCTTATGGC TGCAGCCTGC AGAGCTTTGT GTGGAAAGAA GCATGGAGTG 
GCAGGGAGAC AGCCCCGCAC TCAGAGTCGG AAGGACAAGG AAAGACCTAA ACAGAAGCAC 
AAAAAGCGGC CAGAGTCTCC CACCAGCCTC ACCCCGTCTT CTGTGCCTGT CACTACTGAG 
AAGAGCTCCA CCAGCCATCA TGAGGGTAAT AAGGAGAGCT CTGAGGGCAG CAGATCAGAG 
GTGAAAGGCA AGAAATCCTC AAGCCATGGC ACCAGCCACA AAGGGAAGAA GACGGGAAGT 
GGAAAAAGCT CAACTGGCTT CAGCTCGGCC GCCTCCAGCG GGACGTTCCA GCCTGCAGGC 
ACTTCGTGCA GCTCTTTGCA GTGCTCCCAG GACTTTGTGA CATTCCCTAA GCTAGAGCAG 
GAGGAGGAAA AGTACCGGAA GCCCGTCTCC TCCTCCTCCT CTTCCCACTG CTCCCCACTC 
TATGAAGGGC AGAAGGGGGA CATCTTCGAG CAGAAGGTGA TCTTCTCTGG CTTTGGCTCC 
ATCATGCGTT TCTCCACCTC GGCTGTGAGC CAGCAGAGGG GCCGGGACAC CTCCCCTGTG 
GACTACAAGG CCTCGAATCC AGTCAGTGGC CCCTCAGGAG GCGGCGGCAG CAGTGGCAAT 
GGTGGCAGCA GCAGCCACAA GCGCATGCCG TCCCTCAGCA TCGAGGATGG GGAGGTGCTG 
AAGGAGAAGA AGCACAAGGC CAGCAAGAAA AACAAGCATG GGCCTGGCCG GCCAAAAGGC 
GGCAAGAGCA AGGAGGTCCT AGGGGCCCAG CTGGCTGGGT CCACTGCTAC CTCTGCCTCC 
CCCTTCTCTG GGGGCTCCCT GGTCAGCGCC AGCATTGGCA ACTCATCCCG CTCCTTCAGC 
CACACAGGGA GCCTGCCCAG TCTCAGCCTA GAGTCCCCGC TGCTGGGTTC AGGGATCTAC 
ACCAGTAACA AGGACCCCAT TTCTCATGGG GGTGGGGTGC TCCGAGCTGT ATGCAGCACC 
CCACTCTCCT CCAGCCTCCT GGCACACCAG GGCACCTCAT CTCTCCCACA GCTCAACCGC 
TCTCCCTTTG CCAGTACCAT CCCGGCCTCC TCCTCTTCCT CTGTCTCCAC CACCCAGGTG 
TTCTCCTTGG CAGGATCCAC TTTCAGCCTC CCCTCCTCGC ACATTTTTGG CAGCCCCCTC 
ACCTCAGGGC TATCTATCAA CCCTCTCCTG AACCAGTCTG AAAGCAGCCG GGCAGAACCT 
GATCTGGAAG ACTGCAGTTT TGGCTGTCGA GGGACCTCCC CACAGGAAAG CCTCTCCTCT 
ATGTCCCCTA TCAGCAGCCT CCCTACCCTC TTCGACCAGA CCGTGTCCTG CAGCAGCAGC 
GGGCAGCTGG AGAACGTGCC CCAGGCCACC CCCAACATTG AGCAGCTCCT GGAGAAGCAA 
GGCAATGGCG AAGCGGGTGT AAACAGTGAG CCACTTGTGG AAATGCTCAA GGCTCTGCAC 
TCCTTGCAGA AGGAGAACCA GCGGTTGCAG GAGCAGATCA TGACCTTGAC AGCCAAGAAG 
GAGCGCCTGC AGCTCCTCAA CGTCCAGCTC TCTGTCCCCT TCCCAGTGGT GACCAGCAGC 
AATGGCCCAG CCAGCCAGGC CCAGTACATC TTGCCTCCCA CTGTGTGCAC CAATGACTCC 
CTGAGCATCA GCAAGAGCCC TCCCTGTAAG AACAGCTTTG GGATTGAAAA CTCCCTCTCC 
ACCTCCTCCG AGGATCCACA CTCAGGCTGC CCCAGCAGAA GCAGCTCTTC CCTCTCGTTC 
CACAGCACCC CTCCTCCCCT GCCATTGCTG CAGCAGAGCC CTGCCACACT GCCCCTCTCG 
GGGGTGCAGC CACAGCAGCA AGTCAACGGC TTGGCCAGGG TGACAGGAAA CACGCTGGCA 
GGAGGCACAG CAGGCAGTCA CAGCCTGCCC TCTGTGCCAA TGGTGGATGG CCTGATCGGG 
AGCCTGGCAG GAAGCCAGCA GATGCCCATC AACGGGATCC TGGGGAATCT CAATGGTGCT 
ACAGCTGCCC AGCAGCAGAA CCCCCTGACA CAGACCAGTG GGCCACCTAC CTTGCAGCTC 
TCCACCAACT TGAGCAGCAT ACCAGGCCTC AGCCCCCTGA CGGAGCAGCA GCGACACGCC 
TTGCACCAAC ATGAGCAGCA ACTCCAGCAG CTCCAGCAGC TCCTGACATC CCAGCTACTC 
AGTCCAGAGC AGCAGGCCTT AGTGTTCCAG ATGATCCAGC AAATCCAACA GAAGAGGGAC 
CTGCAGCGGC TACAGATGAC AGGCACCTCT CAACTGCCCA TGACCAGTCT CCTAACAGCC 
ACCTCCACAC CCCTCCTCCA CTCAAATGCC AATGCCCTGA TGACCTCTGC CACCCAGCCC 
GCACCCAGCA GCAGCTCCCT CATGGCTTCC ATCTCTCCCC AACAGCTCAA CCCTGGCAAC 
AGCCTGATGG CTACTCCAGC AGCCCCACCC CTTAGCGCTC CTGGGAACAG CCTGGTGGCT 
TCAGGAGCAG GTGTTCCACC AGTCCTTACA GCACAAAGCA ACCCCTTCCT CAACCTCCAG 
GCTGACAGCA ATGCCCAGAA AGGAACGAGC ATGAATGAAA AGGTTGCTCC TCTCACCCAG 
GACAAGGGCT AA

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

MLLT6 ( XM_019482561.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019338106.1 Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl50820
Clone ID Related Accession (Same CDS sequence)	XM_019482561.1
Accession Version	XM_019482561.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3228bp) 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	protein AF-17 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017708231.1) 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##

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAAGACATC ACGTCACTCC GGAGGTAGCT CCTTCATTTC TGGGAGAAGG 
AGCCAGTCTG CATCACCCAC TCAGGAGAAG CACATGTCCC ACCATGAGAG GCCAAAGAAG 
AGTCGGAAGG ACAAGGAAAG ACCTAAACAG AAGCACAAAA AGCGGCCAGA GTCTCCCACC 
AGCCTCACCC CGTCTTCTGT GCCTGTCACT ACTGAGAAGA GCTCCACCAG CCATCATGAG 
GGTAATAAGG AGAGCTCTGA GGGCAGCAGA TCAGAGGTGA AAGGCAAGAA ATCCTCAAGC 
CATGGCACCA GCCACAAAGG GAAGAAGACG GGAAGTGGAA AAAGCTCAAC TGGCTTCAGC 
TCGGCCGCCT CCAGCGGGAC GTTCCAGCCT GCAGGCACTT CGTGCAGCTC TTTGCAGTGC 
TCCCAGGACT TTGTGACATT CCCTAAGCTA GAGCAGGAGG AGGAAAAGTA CCGGAAGCCC 
GTCTCCTCCT CCTCCTCTTC CCACTGCTCC CCACTCTATG AAGGGCAGAA GGGGGACATC 
TTCGAGCAGA AGGTGATCTT CTCTGGCTTT GGCTCCATCA TGCGTTTCTC CACCTCGGCT 
GTGAGCCAGC AGAGGGGCCG GGACACCTCC CCTGTGGACT ACAAGGCCTC GAATCCAGTC 
AGTGGCCCCT CAGGAGGCGG CGGCAGCAGT GGCAATGGTG GCAGCAGCAG CCACAAGCGC 
ATGCCGTCCC TCAGCATCGA GGATGGGGAG GTGCTGAAGG AGAAGAAGCA CAAGGCCAGC 
AAGAAAAACA AGCATGGGCC TGGCCGGCCA AAAGGCGGCA AGAGCAAGGA GGTCCTAGGG 
GCCCAGCTGG CTGGGTCCAC TGCTACCTCT GCCTCCCCCT TCTCTGGGGG CTCCCTGGTC 
AGCGCCAGCA TTGGCAACTC ATCCCGCTCC TTCAGCCACA CAGGGAGCCT GCCCAGTCTC 
AGCCTAGAGT CCCCGCTGCT GGGTTCAGGG ATCTACACCA GTAACAAGGA CCCCATTTCT 
CATGGGGGTG GGGTGCTCCG AGCTGTATGC AGCACCCCAC TCTCCTCCAG CCTCCTGGCA 
CACCAGGGCA CCTCATCTCT CCCACAGCTC AACCGCTCTC CCTTTGCCAG TACCATCCCG 
GCCTCCTCCT CTTCCTCTGT CTCCACCACC CAGGTGTTCT CCTTGGCAGG ATCCACTTTC 
AGCCTCCCCT CCTCGCACAT TTTTGGCAGC CCCCTCACCT CAGGGCTATC TATCAACCCT 
CTCCTGAACC AGTCTGAAAG CAGCCGGGCA GAACCTGATC TGGAAGACTG CAGTTTTGGC 
TGTCGAGGGA CCTCCCCACA GGAAAGCCTC TCCTCTATGT CCCCTATCAG CAGCCTCCCT 
ACCCTCTTCG ACCAGACCGT GTCCTGCAGC AGCAGCGGGC AGCTGGAGAA CGTGCCCCAG 
GCCACCCCCA ACATTGAGCA GCTCCTGGAG AAGCAAGGCA ATGGCGAAGC GGGTGTAAAC 
AGTGAGCCAC TTGTGGAAAT GCTCAAGGCT CTGCACTCCT TGCAGAAGGA GAACCAGCGG 
TTGCAGGAGC AGATCATGAC CTTGACAGCC AAGAAGGAGC GCCTGCAGCT CCTCAACGTC 
CAGCTCTCTG TCCCCTTCCC AGTGGTGACC AGCAGCAATG GCCCAGCCAG CCAGGCCCAG 
TACATCTTGC CTCCCACTGT GTGCACCAAT GACTCCCTGA GCATCAGCAA GAGCCCTCCC 
TGTAAGAACA GCTTTGGGAT TGAAAACTCC CTCTCCACCT CCTCCGAGGA TCCACACTCA 
GGCTGCCCCA GCAGAAGCAG CTCTTCCCTC TCGTTCCACA GCACCCCTCC TCCCCTGCCA 
TTGCTGCAGC AGAGCCCTGC CACACTGCCC CTCTCGGGGG TGCAGCCACA GCAGCAAGTC 
AACGGCTTGG CCAGGGTGAC AGGAAACACG CTGGCAGGAG GCACAGCAGG CAGTCACAGC 
CTGCCCTCTG TGCCAATGGT GGATGGCCTG ATCGGGAGCC TGGCAGGAAG CCAGCAGATG 
CCCATCAACG GGATCCTGGG GAATCTCAAT GGTGCTACAG CTGCCCAGCA GCAGAACCCC 
CTGACACAGA CCAGTGGGCC ACCTACCTTG CAGCTCTCCA CCAACTTGAG CAGCATACCA 
GGCCTCAGCC CCCTGACGGA GCAGCAGCGA CACGCCTTGC ACCAACATGA GCAGCAACTC 
CAGCAGCTCC AGCAGCTCCT GACATCCCAG CTACTCAGTC CAGAGCAGCA GGCCTTAGTG 
TTCCAGATGA TCCAGCAAAT CCAACAGAAG AGGGACCTGC AGCGGCTACA GATGACAGGC 
ACCTCTCAAC TGCCCATGAC CAGTCTCCTA ACAGCCACCT CCACACCCCT CCTCCACTCA 
AATGCCAATG CCCTGATGAC CTCTGCCACC CAGCCCGCAC CCAGCAGCAG CTCCCTCATG 
GCTTCCATCT CTCCCCAACA GCTCAACCCT GGCAACAGCC TGATGGCTAC TCCAGCAGCC 
CCACCCCTTA GCGCTCCTGG GAACAGCCTG GTGGCTTCAG GAGCAGGTGT TCCACCAGTC 
CTTACAGCAC AAAGCAACCC CTTCCTCAAC CTCCAGGCTG ACAGCAATGC CCAGAAAGGA 
ACGAGCATGA ATGAAAAGGT TGCTCCTCTC ACCCAGGACA AGGGCTAA

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

RefSeq	XP_019338106.1
CDS	61..3288
Translation	MKEMVGGCCVCSDERGWAENPLVYCDGHGCNVAVHQACYGIVQVPTGPWFCRKCESQERAARVRCELCPHKDGALKRTDNGGWAHVVCALYIPEVQFANVLTMEPIVLQYVPHDRFNKTCYICEEQGRESKAASGACMTCNRHGCRQAFHVTCAQMAGLLCEEEVLEVDNVKYCGYCKYHFNKMKTSRHSGGSSFISGRRSQSASPTQEKHMSHHERPKKSRKDKERPKQKHKKRPESPTSLTPSSVPVTTEKSSTSHHEGNKESSEGSRSEVKGKKSSSHGTSHKGKKTGSGKSSTGFSSAASSGTFQPAGTSCSSLQCSQDFVTFPKLEQEEEKYRKPVSSSSSSHCSPLYEGQKGDIFEQKVIFSGFGSIMRFSTSAVSQQRGRDTSPVDYKASNPVSGPSGGGGSSGNGGSSSHKRMPSLSIEDGEVLKEKKHKASKKNKHGPGRPKGGKSKEVLGAQLAGSTATSASPFSGGSLVSASIGNSSRSFSHTGSLPSLSLESPLLGSGIYTSNKDPISHGGGVLRAVCSTPLSSSLLAHQGTSSLPQLNRSPFASTIPASSSSSVSTTQVFSLAGSTFSLPSSHIFGSPLTSGLSINPLLNQSESSRAEPDLEDCSFGCRGTSPQESLSSMSPISSLPTLFDQTVSCSSSGQLENVPQATPNIEQLLEKQGNGEAGVNSEPLVEMLKALHSLQKENQRLQEQIMTLTAKKERLQLLNVQLSVPFPVVTSSNGPASQAQYILPPTVCTNDSLSISKSPPCKNSFGIENSLSTSSEDPHSGCPSRSSSSLSFHSTPPPLPLLQQSPATLPLSGVQPQQQVNGLARVTGNTLAGGTAGSHSLPSVPMVDGLIGSLAGSQQMPINGILGNLNGATAAQQQNPLTQTSGPPTLQLSTNLSSIPGLSPLTEQQRHALHQHEQQLQQLQQLLTSQLLSPEQQALVFQMIQQIQQKRDLQRLQMTGTSQLPMTSLLTATSTPLLHSNANALMTSATQPAPSSSSLMASISPQQLNPGNSLMATPAAPPLSAPGNSLVASGAGVPPVLTAQSNPFLNLQADSNAQKGTSMNEKVAPLTQDKG

Target ORF information:

RefSeq Version	XM_019482561.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X1, mRNA.

Target ORF information:

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

XM_019482561.1

ORF Insert Sequence:

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAAGACATC ACGTCACTCC GGAGGTAGCT CCTTCATTTC TGGGAGAAGG 
AGCCAGTCTG CATCACCCAC TCAGGAGAAG CACATGTCCC ACCATGAGAG GCCAAAGAAG 
AGTCGGAAGG ACAAGGAAAG ACCTAAACAG AAGCACAAAA AGCGGCCAGA GTCTCCCACC 
AGCCTCACCC CGTCTTCTGT GCCTGTCACT ACTGAGAAGA GCTCCACCAG CCATCATGAG 
GGTAATAAGG AGAGCTCTGA GGGCAGCAGA TCAGAGGTGA AAGGCAAGAA ATCCTCAAGC 
CATGGCACCA GCCACAAAGG GAAGAAGACG GGAAGTGGAA AAAGCTCAAC TGGCTTCAGC 
TCGGCCGCCT CCAGCGGGAC GTTCCAGCCT GCAGGCACTT CGTGCAGCTC TTTGCAGTGC 
TCCCAGGACT TTGTGACATT CCCTAAGCTA GAGCAGGAGG AGGAAAAGTA CCGGAAGCCC 
GTCTCCTCCT CCTCCTCTTC CCACTGCTCC CCACTCTATG AAGGGCAGAA GGGGGACATC 
TTCGAGCAGA AGGTGATCTT CTCTGGCTTT GGCTCCATCA TGCGTTTCTC CACCTCGGCT 
GTGAGCCAGC AGAGGGGCCG GGACACCTCC CCTGTGGACT ACAAGGCCTC GAATCCAGTC 
AGTGGCCCCT CAGGAGGCGG CGGCAGCAGT GGCAATGGTG GCAGCAGCAG CCACAAGCGC 
ATGCCGTCCC TCAGCATCGA GGATGGGGAG GTGCTGAAGG AGAAGAAGCA CAAGGCCAGC 
AAGAAAAACA AGCATGGGCC TGGCCGGCCA AAAGGCGGCA AGAGCAAGGA GGTCCTAGGG 
GCCCAGCTGG CTGGGTCCAC TGCTACCTCT GCCTCCCCCT TCTCTGGGGG CTCCCTGGTC 
AGCGCCAGCA TTGGCAACTC ATCCCGCTCC TTCAGCCACA CAGGGAGCCT GCCCAGTCTC 
AGCCTAGAGT CCCCGCTGCT GGGTTCAGGG ATCTACACCA GTAACAAGGA CCCCATTTCT 
CATGGGGGTG GGGTGCTCCG AGCTGTATGC AGCACCCCAC TCTCCTCCAG CCTCCTGGCA 
CACCAGGGCA CCTCATCTCT CCCACAGCTC AACCGCTCTC CCTTTGCCAG TACCATCCCG 
GCCTCCTCCT CTTCCTCTGT CTCCACCACC CAGGTGTTCT CCTTGGCAGG ATCCACTTTC 
AGCCTCCCCT CCTCGCACAT TTTTGGCAGC CCCCTCACCT CAGGGCTATC TATCAACCCT 
CTCCTGAACC AGTCTGAAAG CAGCCGGGCA GAACCTGATC TGGAAGACTG CAGTTTTGGC 
TGTCGAGGGA CCTCCCCACA GGAAAGCCTC TCCTCTATGT CCCCTATCAG CAGCCTCCCT 
ACCCTCTTCG ACCAGACCGT GTCCTGCAGC AGCAGCGGGC AGCTGGAGAA CGTGCCCCAG 
GCCACCCCCA ACATTGAGCA GCTCCTGGAG AAGCAAGGCA ATGGCGAAGC GGGTGTAAAC 
AGTGAGCCAC TTGTGGAAAT GCTCAAGGCT CTGCACTCCT TGCAGAAGGA GAACCAGCGG 
TTGCAGGAGC AGATCATGAC CTTGACAGCC AAGAAGGAGC GCCTGCAGCT CCTCAACGTC 
CAGCTCTCTG TCCCCTTCCC AGTGGTGACC AGCAGCAATG GCCCAGCCAG CCAGGCCCAG 
TACATCTTGC CTCCCACTGT GTGCACCAAT GACTCCCTGA GCATCAGCAA GAGCCCTCCC 
TGTAAGAACA GCTTTGGGAT TGAAAACTCC CTCTCCACCT CCTCCGAGGA TCCACACTCA 
GGCTGCCCCA GCAGAAGCAG CTCTTCCCTC TCGTTCCACA GCACCCCTCC TCCCCTGCCA 
TTGCTGCAGC AGAGCCCTGC CACACTGCCC CTCTCGGGGG TGCAGCCACA GCAGCAAGTC 
AACGGCTTGG CCAGGGTGAC AGGAAACACG CTGGCAGGAG GCACAGCAGG CAGTCACAGC 
CTGCCCTCTG TGCCAATGGT GGATGGCCTG ATCGGGAGCC TGGCAGGAAG CCAGCAGATG 
CCCATCAACG GGATCCTGGG GAATCTCAAT GGTGCTACAG CTGCCCAGCA GCAGAACCCC 
CTGACACAGA CCAGTGGGCC ACCTACCTTG CAGCTCTCCA CCAACTTGAG CAGCATACCA 
GGCCTCAGCC CCCTGACGGA GCAGCAGCGA CACGCCTTGC ACCAACATGA GCAGCAACTC 
CAGCAGCTCC AGCAGCTCCT GACATCCCAG CTACTCAGTC CAGAGCAGCA GGCCTTAGTG 
TTCCAGATGA TCCAGCAAAT CCAACAGAAG AGGGACCTGC AGCGGCTACA GATGACAGGC 
ACCTCTCAAC TGCCCATGAC CAGTCTCCTA ACAGCCACCT CCACACCCCT CCTCCACTCA 
AATGCCAATG CCCTGATGAC CTCTGCCACC CAGCCCGCAC CCAGCAGCAG CTCCCTCATG 
GCTTCCATCT CTCCCCAACA GCTCAACCCT GGCAACAGCC TGATGGCTAC TCCAGCAGCC 
CCACCCCTTA GCGCTCCTGG GAACAGCCTG GTGGCTTCAG GAGCAGGTGT TCCACCAGTC 
CTTACAGCAC AAAGCAACCC CTTCCTCAAC CTCCAGGCTG ACAGCAATGC CCAGAAAGGA 
ACGAGCATGA ATGAAAAGGT TGCTCCTCTC ACCCAGGACA AGGGCTAA

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

MLLT6 ( XM_019482562.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019338107.1 Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl50821
Clone ID Related Accession (Same CDS sequence)	XM_019482562.1
Accession Version	XM_019482562.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3225bp) 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	protein AF-17 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017708231.1) 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##

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGACATCACG TCACTCCGGA GGTAGCTCCT TCATTTCTGG GAGAAGGAGC 
CAGTCTGCAT CACCCACTCA GGAGAAGCAC ATGTCCCACC ATGAGAGGCC AAAGAAGAGT 
CGGAAGGACA AGGAAAGACC TAAACAGAAG CACAAAAAGC GGCCAGAGTC TCCCACCAGC 
CTCACCCCGT CTTCTGTGCC TGTCACTACT GAGAAGAGCT CCACCAGCCA TCATGAGGGT 
AATAAGGAGA GCTCTGAGGG CAGCAGATCA GAGGTGAAAG GCAAGAAATC CTCAAGCCAT 
GGCACCAGCC ACAAAGGGAA GAAGACGGGA AGTGGAAAAA GCTCAACTGG CTTCAGCTCG 
GCCGCCTCCA GCGGGACGTT CCAGCCTGCA GGCACTTCGT GCAGCTCTTT GCAGTGCTCC 
CAGGACTTTG TGACATTCCC TAAGCTAGAG CAGGAGGAGG AAAAGTACCG GAAGCCCGTC 
TCCTCCTCCT CCTCTTCCCA CTGCTCCCCA CTCTATGAAG GGCAGAAGGG GGACATCTTC 
GAGCAGAAGG TGATCTTCTC TGGCTTTGGC TCCATCATGC GTTTCTCCAC CTCGGCTGTG 
AGCCAGCAGA GGGGCCGGGA CACCTCCCCT GTGGACTACA AGGCCTCGAA TCCAGTCAGT 
GGCCCCTCAG GAGGCGGCGG CAGCAGTGGC AATGGTGGCA GCAGCAGCCA CAAGCGCATG 
CCGTCCCTCA GCATCGAGGA TGGGGAGGTG CTGAAGGAGA AGAAGCACAA GGCCAGCAAG 
AAAAACAAGC ATGGGCCTGG CCGGCCAAAA GGCGGCAAGA GCAAGGAGGT CCTAGGGGCC 
CAGCTGGCTG GGTCCACTGC TACCTCTGCC TCCCCCTTCT CTGGGGGCTC CCTGGTCAGC 
GCCAGCATTG GCAACTCATC CCGCTCCTTC AGCCACACAG GGAGCCTGCC CAGTCTCAGC 
CTAGAGTCCC CGCTGCTGGG TTCAGGGATC TACACCAGTA ACAAGGACCC CATTTCTCAT 
GGGGGTGGGG TGCTCCGAGC TGTATGCAGC ACCCCACTCT CCTCCAGCCT CCTGGCACAC 
CAGGGCACCT CATCTCTCCC ACAGCTCAAC CGCTCTCCCT TTGCCAGTAC CATCCCGGCC 
TCCTCCTCTT CCTCTGTCTC CACCACCCAG GTGTTCTCCT TGGCAGGATC CACTTTCAGC 
CTCCCCTCCT CGCACATTTT TGGCAGCCCC CTCACCTCAG GGCTATCTAT CAACCCTCTC 
CTGAACCAGT CTGAAAGCAG CCGGGCAGAA CCTGATCTGG AAGACTGCAG TTTTGGCTGT 
CGAGGGACCT CCCCACAGGA AAGCCTCTCC TCTATGTCCC CTATCAGCAG CCTCCCTACC 
CTCTTCGACC AGACCGTGTC CTGCAGCAGC AGCGGGCAGC TGGAGAACGT GCCCCAGGCC 
ACCCCCAACA TTGAGCAGCT CCTGGAGAAG CAAGGCAATG GCGAAGCGGG TGTAAACAGT 
GAGCCACTTG TGGAAATGCT CAAGGCTCTG CACTCCTTGC AGAAGGAGAA CCAGCGGTTG 
CAGGAGCAGA TCATGACCTT GACAGCCAAG AAGGAGCGCC TGCAGCTCCT CAACGTCCAG 
CTCTCTGTCC CCTTCCCAGT GGTGACCAGC AGCAATGGCC CAGCCAGCCA GGCCCAGTAC 
ATCTTGCCTC CCACTGTGTG CACCAATGAC TCCCTGAGCA TCAGCAAGAG CCCTCCCTGT 
AAGAACAGCT TTGGGATTGA AAACTCCCTC TCCACCTCCT CCGAGGATCC ACACTCAGGC 
TGCCCCAGCA GAAGCAGCTC TTCCCTCTCG TTCCACAGCA CCCCTCCTCC CCTGCCATTG 
CTGCAGCAGA GCCCTGCCAC ACTGCCCCTC TCGGGGGTGC AGCCACAGCA GCAAGTCAAC 
GGCTTGGCCA GGGTGACAGG AAACACGCTG GCAGGAGGCA CAGCAGGCAG TCACAGCCTG 
CCCTCTGTGC CAATGGTGGA TGGCCTGATC GGGAGCCTGG CAGGAAGCCA GCAGATGCCC 
ATCAACGGGA TCCTGGGGAA TCTCAATGGT GCTACAGCTG CCCAGCAGCA GAACCCCCTG 
ACACAGACCA GTGGGCCACC TACCTTGCAG CTCTCCACCA ACTTGAGCAG CATACCAGGC 
CTCAGCCCCC TGACGGAGCA GCAGCGACAC GCCTTGCACC AACATGAGCA GCAACTCCAG 
CAGCTCCAGC AGCTCCTGAC ATCCCAGCTA CTCAGTCCAG AGCAGCAGGC CTTAGTGTTC 
CAGATGATCC AGCAAATCCA ACAGAAGAGG GACCTGCAGC GGCTACAGAT GACAGGCACC 
TCTCAACTGC CCATGACCAG TCTCCTAACA GCCACCTCCA CACCCCTCCT CCACTCAAAT 
GCCAATGCCC TGATGACCTC TGCCACCCAG CCCGCACCCA GCAGCAGCTC CCTCATGGCT 
TCCATCTCTC CCCAACAGCT CAACCCTGGC AACAGCCTGA TGGCTACTCC AGCAGCCCCA 
CCCCTTAGCG CTCCTGGGAA CAGCCTGGTG GCTTCAGGAG CAGGTGTTCC ACCAGTCCTT 
ACAGCACAAA GCAACCCCTT CCTCAACCTC CAGGCTGACA GCAATGCCCA GAAAGGAACG 
AGCATGAATG AAAAGGTTGC TCCTCTCACC CAGGACAAGG GCTAA

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

RefSeq	XP_019338107.1
CDS	61..3285
Translation	MKEMVGGCCVCSDERGWAENPLVYCDGHGCNVAVHQACYGIVQVPTGPWFCRKCESQERAARVRCELCPHKDGALKRTDNGGWAHVVCALYIPEVQFANVLTMEPIVLQYVPHDRFNKTCYICEEQGRESKAASGACMTCNRHGCRQAFHVTCAQMAGLLCEEEVLEVDNVKYCGYCKYHFNKMTSRHSGGSSFISGRRSQSASPTQEKHMSHHERPKKSRKDKERPKQKHKKRPESPTSLTPSSVPVTTEKSSTSHHEGNKESSEGSRSEVKGKKSSSHGTSHKGKKTGSGKSSTGFSSAASSGTFQPAGTSCSSLQCSQDFVTFPKLEQEEEKYRKPVSSSSSSHCSPLYEGQKGDIFEQKVIFSGFGSIMRFSTSAVSQQRGRDTSPVDYKASNPVSGPSGGGGSSGNGGSSSHKRMPSLSIEDGEVLKEKKHKASKKNKHGPGRPKGGKSKEVLGAQLAGSTATSASPFSGGSLVSASIGNSSRSFSHTGSLPSLSLESPLLGSGIYTSNKDPISHGGGVLRAVCSTPLSSSLLAHQGTSSLPQLNRSPFASTIPASSSSSVSTTQVFSLAGSTFSLPSSHIFGSPLTSGLSINPLLNQSESSRAEPDLEDCSFGCRGTSPQESLSSMSPISSLPTLFDQTVSCSSSGQLENVPQATPNIEQLLEKQGNGEAGVNSEPLVEMLKALHSLQKENQRLQEQIMTLTAKKERLQLLNVQLSVPFPVVTSSNGPASQAQYILPPTVCTNDSLSISKSPPCKNSFGIENSLSTSSEDPHSGCPSRSSSSLSFHSTPPPLPLLQQSPATLPLSGVQPQQQVNGLARVTGNTLAGGTAGSHSLPSVPMVDGLIGSLAGSQQMPINGILGNLNGATAAQQQNPLTQTSGPPTLQLSTNLSSIPGLSPLTEQQRHALHQHEQQLQQLQQLLTSQLLSPEQQALVFQMIQQIQQKRDLQRLQMTGTSQLPMTSLLTATSTPLLHSNANALMTSATQPAPSSSSLMASISPQQLNPGNSLMATPAAPPLSAPGNSLVASGAGVPPVLTAQSNPFLNLQADSNAQKGTSMNEKVAPLTQDKG

Target ORF information:

RefSeq Version	XM_019482562.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X2, mRNA.

Target ORF information:

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

XM_019482562.1

ORF Insert Sequence:

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGACATCACG TCACTCCGGA GGTAGCTCCT TCATTTCTGG GAGAAGGAGC 
CAGTCTGCAT CACCCACTCA GGAGAAGCAC ATGTCCCACC ATGAGAGGCC AAAGAAGAGT 
CGGAAGGACA AGGAAAGACC TAAACAGAAG CACAAAAAGC GGCCAGAGTC TCCCACCAGC 
CTCACCCCGT CTTCTGTGCC TGTCACTACT GAGAAGAGCT CCACCAGCCA TCATGAGGGT 
AATAAGGAGA GCTCTGAGGG CAGCAGATCA GAGGTGAAAG GCAAGAAATC CTCAAGCCAT 
GGCACCAGCC ACAAAGGGAA GAAGACGGGA AGTGGAAAAA GCTCAACTGG CTTCAGCTCG 
GCCGCCTCCA GCGGGACGTT CCAGCCTGCA GGCACTTCGT GCAGCTCTTT GCAGTGCTCC 
CAGGACTTTG TGACATTCCC TAAGCTAGAG CAGGAGGAGG AAAAGTACCG GAAGCCCGTC 
TCCTCCTCCT CCTCTTCCCA CTGCTCCCCA CTCTATGAAG GGCAGAAGGG GGACATCTTC 
GAGCAGAAGG TGATCTTCTC TGGCTTTGGC TCCATCATGC GTTTCTCCAC CTCGGCTGTG 
AGCCAGCAGA GGGGCCGGGA CACCTCCCCT GTGGACTACA AGGCCTCGAA TCCAGTCAGT 
GGCCCCTCAG GAGGCGGCGG CAGCAGTGGC AATGGTGGCA GCAGCAGCCA CAAGCGCATG 
CCGTCCCTCA GCATCGAGGA TGGGGAGGTG CTGAAGGAGA AGAAGCACAA GGCCAGCAAG 
AAAAACAAGC ATGGGCCTGG CCGGCCAAAA GGCGGCAAGA GCAAGGAGGT CCTAGGGGCC 
CAGCTGGCTG GGTCCACTGC TACCTCTGCC TCCCCCTTCT CTGGGGGCTC CCTGGTCAGC 
GCCAGCATTG GCAACTCATC CCGCTCCTTC AGCCACACAG GGAGCCTGCC CAGTCTCAGC 
CTAGAGTCCC CGCTGCTGGG TTCAGGGATC TACACCAGTA ACAAGGACCC CATTTCTCAT 
GGGGGTGGGG TGCTCCGAGC TGTATGCAGC ACCCCACTCT CCTCCAGCCT CCTGGCACAC 
CAGGGCACCT CATCTCTCCC ACAGCTCAAC CGCTCTCCCT TTGCCAGTAC CATCCCGGCC 
TCCTCCTCTT CCTCTGTCTC CACCACCCAG GTGTTCTCCT TGGCAGGATC CACTTTCAGC 
CTCCCCTCCT CGCACATTTT TGGCAGCCCC CTCACCTCAG GGCTATCTAT CAACCCTCTC 
CTGAACCAGT CTGAAAGCAG CCGGGCAGAA CCTGATCTGG AAGACTGCAG TTTTGGCTGT 
CGAGGGACCT CCCCACAGGA AAGCCTCTCC TCTATGTCCC CTATCAGCAG CCTCCCTACC 
CTCTTCGACC AGACCGTGTC CTGCAGCAGC AGCGGGCAGC TGGAGAACGT GCCCCAGGCC 
ACCCCCAACA TTGAGCAGCT CCTGGAGAAG CAAGGCAATG GCGAAGCGGG TGTAAACAGT 
GAGCCACTTG TGGAAATGCT CAAGGCTCTG CACTCCTTGC AGAAGGAGAA CCAGCGGTTG 
CAGGAGCAGA TCATGACCTT GACAGCCAAG AAGGAGCGCC TGCAGCTCCT CAACGTCCAG 
CTCTCTGTCC CCTTCCCAGT GGTGACCAGC AGCAATGGCC CAGCCAGCCA GGCCCAGTAC 
ATCTTGCCTC CCACTGTGTG CACCAATGAC TCCCTGAGCA TCAGCAAGAG CCCTCCCTGT 
AAGAACAGCT TTGGGATTGA AAACTCCCTC TCCACCTCCT CCGAGGATCC ACACTCAGGC 
TGCCCCAGCA GAAGCAGCTC TTCCCTCTCG TTCCACAGCA CCCCTCCTCC CCTGCCATTG 
CTGCAGCAGA GCCCTGCCAC ACTGCCCCTC TCGGGGGTGC AGCCACAGCA GCAAGTCAAC 
GGCTTGGCCA GGGTGACAGG AAACACGCTG GCAGGAGGCA CAGCAGGCAG TCACAGCCTG 
CCCTCTGTGC CAATGGTGGA TGGCCTGATC GGGAGCCTGG CAGGAAGCCA GCAGATGCCC 
ATCAACGGGA TCCTGGGGAA TCTCAATGGT GCTACAGCTG CCCAGCAGCA GAACCCCCTG 
ACACAGACCA GTGGGCCACC TACCTTGCAG CTCTCCACCA ACTTGAGCAG CATACCAGGC 
CTCAGCCCCC TGACGGAGCA GCAGCGACAC GCCTTGCACC AACATGAGCA GCAACTCCAG 
CAGCTCCAGC AGCTCCTGAC ATCCCAGCTA CTCAGTCCAG AGCAGCAGGC CTTAGTGTTC 
CAGATGATCC AGCAAATCCA ACAGAAGAGG GACCTGCAGC GGCTACAGAT GACAGGCACC 
TCTCAACTGC CCATGACCAG TCTCCTAACA GCCACCTCCA CACCCCTCCT CCACTCAAAT 
GCCAATGCCC TGATGACCTC TGCCACCCAG CCCGCACCCA GCAGCAGCTC CCTCATGGCT 
TCCATCTCTC CCCAACAGCT CAACCCTGGC AACAGCCTGA TGGCTACTCC AGCAGCCCCA 
CCCCTTAGCG CTCCTGGGAA CAGCCTGGTG GCTTCAGGAG CAGGTGTTCC ACCAGTCCTT 
ACAGCACAAA GCAACCCCTT CCTCAACCTC CAGGCTGACA GCAATGCCCA GAAAGGAACG 
AGCATGAATG AAAAGGTTGC TCCTCTCACC CAGGACAAGG GCTAA

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

MLLT6 ( XM_019482563.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019338108.1 Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAl50822
Clone ID Related Accession (Same CDS sequence)	XM_019482563.1
Accession Version	XM_019482563.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3219bp) 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	protein AF-17 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017708231.1) 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##

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAAGACATC ACGTCACTCC GGAGGTAGCT CCTTCATTTC TGGGAGAAGG 
AGCCAGTCTG CATCACCCAC TCAGGAGAAG CACATGTCCC ACCATGAGAG GCCAAAGAAG 
AGTCGGAAGG ACAAGGAAAG ACCTAAACAG AAGCACAAAA AGCGGCCAGA GTCTCCCACC 
AGCCTCACCC CGTCTTCTGT GCCTGTCACT ACTGAGAAGA GCTCCACCAG CCATCATGAG 
GGTAATAAGG AGAGCTCTGA GGGCAGCAGA TCAGAGGTGA AAGGCAAGAA ATCCTCAAGC 
CATGGCACCA GCCACAAAGG GAAGAAGACG GGAAGTGGAA AAAGCTCAAC TGGCTTCAGC 
TCGGCCGCCT CCAGCGGGAC GTTCCAGCCT GCAGGCACTT CGTGCAGCTC TTTGCAGTGC 
TCCCAGGACT TTGTGACATT CCCTAAGCTA GAGCAGGAGG AGGAAAAGTA CCGGAAGCCC 
GTCTCCTCCT CCTCCTCTTC CCACTGCTCC CCACTCTATG AAGGGCAGAA GGGGGACATC 
TTCGAGCAGA AGGTGATCTT CTCTGGCTTT GGCTCCATCA TGCGTTTCTC CACCTCGGCT 
GTGAGCCAGC AGAGGGGCCG GGACACCTCC CCTGTGGACT ACAAGGCCTC GAATCCAGTC 
AGTGGCCCCT CAGGAGGCGG CGGCAGCAGT GGCAATGGTG GCAGCAGCAG CCACAAGCGC 
ATGCCGTCCC TCAGCATCGA GGATGGGGAG GTGCTGAAGG AGAAGAAGCA CAAGGCCAGC 
AAGAAAAACA AGCATGGGCC TGGCCGGCCA AAAGGCGGCA AGAGCAAGGA GGTCCTAGGG 
GCCCAGCTGG CTGGGTCCAC TGCTACCTCT GCCTCCCCCT TCTCTGGGGG CTCCCTGGTC 
AGCGCCAGCA TTGGCAACTC ATCCCGCTCC TTCAGCCACA CAGGGAGCCT GCCCAGTCTC 
AGCCTAGAGT CCCCGCTGCT GGGTTCAGGG ATCTACACCA GTAACAAGGA CCCCATTTCT 
CATGGGGGTG GGGTGCTCCG AGCTGTATGC AGCACCCCAC TCTCCTCCAG CCTCCTGGCA 
CACCAGGGCA CCTCATCTCT CCCACAGCTC AACCGCTCTC CCTTTGCCAG TACCATCCCG 
GCCTCCTCCT CTTCCTCTGT CTCCACCACC CAGGTGTTCT CCTTGGCAGG ATCCACTTTC 
AGCCTCCCCT CCTCGCACAT TTTTGGCAGC CCCCTCACCT CAGGGCTATC TATCAACCCT 
CTCCTGAACC AGTCTGAAAG CAGCCGGGCA GAACCTGATC TGGAAGACTG CAGTTTTGGC 
TGTCGAGGGA CCTCCCCACA GGAAAGCCTC TCCTCTATGT CCCCTATCAG CAGCCTCCCT 
ACCCTCTTCG ACCAGACCGT GTCCTGCAGC AGCAGCGGGC AGCTGGAGAA CGTGCCCCAG 
GCCACCCCCA ACATTGAGCA GCTCCTGGAG AAGCAAGGCA ATGGCGAAGC GGGTGTAAAC 
ATTGTGGAAA TGCTCAAGGC TCTGCACTCC TTGCAGAAGG AGAACCAGCG GTTGCAGGAG 
CAGATCATGA CCTTGACAGC CAAGAAGGAG CGCCTGCAGC TCCTCAACGT CCAGCTCTCT 
GTCCCCTTCC CAGTGGTGAC CAGCAGCAAT GGCCCAGCCA GCCAGGCCCA GTACATCTTG 
CCTCCCACTG TGTGCACCAA TGACTCCCTG AGCATCAGCA AGAGCCCTCC CTGTAAGAAC 
AGCTTTGGGA TTGAAAACTC CCTCTCCACC TCCTCCGAGG ATCCACACTC AGGCTGCCCC 
AGCAGAAGCA GCTCTTCCCT CTCGTTCCAC AGCACCCCTC CTCCCCTGCC ATTGCTGCAG 
CAGAGCCCTG CCACACTGCC CCTCTCGGGG GTGCAGCCAC AGCAGCAAGT CAACGGCTTG 
GCCAGGGTGA CAGGAAACAC GCTGGCAGGA GGCACAGCAG GCAGTCACAG CCTGCCCTCT 
GTGCCAATGG TGGATGGCCT GATCGGGAGC CTGGCAGGAA GCCAGCAGAT GCCCATCAAC 
GGGATCCTGG GGAATCTCAA TGGTGCTACA GCTGCCCAGC AGCAGAACCC CCTGACACAG 
ACCAGTGGGC CACCTACCTT GCAGCTCTCC ACCAACTTGA GCAGCATACC AGGCCTCAGC 
CCCCTGACGG AGCAGCAGCG ACACGCCTTG CACCAACATG AGCAGCAACT CCAGCAGCTC 
CAGCAGCTCC TGACATCCCA GCTACTCAGT CCAGAGCAGC AGGCCTTAGT GTTCCAGATG 
ATCCAGCAAA TCCAACAGAA GAGGGACCTG CAGCGGCTAC AGATGACAGG CACCTCTCAA 
CTGCCCATGA CCAGTCTCCT AACAGCCACC TCCACACCCC TCCTCCACTC AAATGCCAAT 
GCCCTGATGA CCTCTGCCAC CCAGCCCGCA CCCAGCAGCA GCTCCCTCAT GGCTTCCATC 
TCTCCCCAAC AGCTCAACCC TGGCAACAGC CTGATGGCTA CTCCAGCAGC CCCACCCCTT 
AGCGCTCCTG GGAACAGCCT GGTGGCTTCA GGAGCAGGTG TTCCACCAGT CCTTACAGCA 
CAAAGCAACC CCTTCCTCAA CCTCCAGGCT GACAGCAATG CCCAGAAAGG AACGAGCATG 
AATGAAAAGG TTGCTCCTCT CACCCAGGAC AAGGGCTAA

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

RefSeq	XP_019338108.1
CDS	61..3279
Translation	MKEMVGGCCVCSDERGWAENPLVYCDGHGCNVAVHQACYGIVQVPTGPWFCRKCESQERAARVRCELCPHKDGALKRTDNGGWAHVVCALYIPEVQFANVLTMEPIVLQYVPHDRFNKTCYICEEQGRESKAASGACMTCNRHGCRQAFHVTCAQMAGLLCEEEVLEVDNVKYCGYCKYHFNKMKTSRHSGGSSFISGRRSQSASPTQEKHMSHHERPKKSRKDKERPKQKHKKRPESPTSLTPSSVPVTTEKSSTSHHEGNKESSEGSRSEVKGKKSSSHGTSHKGKKTGSGKSSTGFSSAASSGTFQPAGTSCSSLQCSQDFVTFPKLEQEEEKYRKPVSSSSSSHCSPLYEGQKGDIFEQKVIFSGFGSIMRFSTSAVSQQRGRDTSPVDYKASNPVSGPSGGGGSSGNGGSSSHKRMPSLSIEDGEVLKEKKHKASKKNKHGPGRPKGGKSKEVLGAQLAGSTATSASPFSGGSLVSASIGNSSRSFSHTGSLPSLSLESPLLGSGIYTSNKDPISHGGGVLRAVCSTPLSSSLLAHQGTSSLPQLNRSPFASTIPASSSSSVSTTQVFSLAGSTFSLPSSHIFGSPLTSGLSINPLLNQSESSRAEPDLEDCSFGCRGTSPQESLSSMSPISSLPTLFDQTVSCSSSGQLENVPQATPNIEQLLEKQGNGEAGVNIVEMLKALHSLQKENQRLQEQIMTLTAKKERLQLLNVQLSVPFPVVTSSNGPASQAQYILPPTVCTNDSLSISKSPPCKNSFGIENSLSTSSEDPHSGCPSRSSSSLSFHSTPPPLPLLQQSPATLPLSGVQPQQQVNGLARVTGNTLAGGTAGSHSLPSVPMVDGLIGSLAGSQQMPINGILGNLNGATAAQQQNPLTQTSGPPTLQLSTNLSSIPGLSPLTEQQRHALHQHEQQLQQLQQLLTSQLLSPEQQALVFQMIQQIQQKRDLQRLQMTGTSQLPMTSLLTATSTPLLHSNANALMTSATQPAPSSSSLMASISPQQLNPGNSLMATPAAPPLSAPGNSLVASGAGVPPVLTAQSNPFLNLQADSNAQKGTSMNEKVAPLTQDKG

Target ORF information:

RefSeq Version	XM_019482563.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X3, mRNA.

Target ORF information:

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

XM_019482563.1

ORF Insert Sequence:

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAAGACATC ACGTCACTCC GGAGGTAGCT CCTTCATTTC TGGGAGAAGG 
AGCCAGTCTG CATCACCCAC TCAGGAGAAG CACATGTCCC ACCATGAGAG GCCAAAGAAG 
AGTCGGAAGG ACAAGGAAAG ACCTAAACAG AAGCACAAAA AGCGGCCAGA GTCTCCCACC 
AGCCTCACCC CGTCTTCTGT GCCTGTCACT ACTGAGAAGA GCTCCACCAG CCATCATGAG 
GGTAATAAGG AGAGCTCTGA GGGCAGCAGA TCAGAGGTGA AAGGCAAGAA ATCCTCAAGC 
CATGGCACCA GCCACAAAGG GAAGAAGACG GGAAGTGGAA AAAGCTCAAC TGGCTTCAGC 
TCGGCCGCCT CCAGCGGGAC GTTCCAGCCT GCAGGCACTT CGTGCAGCTC TTTGCAGTGC 
TCCCAGGACT TTGTGACATT CCCTAAGCTA GAGCAGGAGG AGGAAAAGTA CCGGAAGCCC 
GTCTCCTCCT CCTCCTCTTC CCACTGCTCC CCACTCTATG AAGGGCAGAA GGGGGACATC 
TTCGAGCAGA AGGTGATCTT CTCTGGCTTT GGCTCCATCA TGCGTTTCTC CACCTCGGCT 
GTGAGCCAGC AGAGGGGCCG GGACACCTCC CCTGTGGACT ACAAGGCCTC GAATCCAGTC 
AGTGGCCCCT CAGGAGGCGG CGGCAGCAGT GGCAATGGTG GCAGCAGCAG CCACAAGCGC 
ATGCCGTCCC TCAGCATCGA GGATGGGGAG GTGCTGAAGG AGAAGAAGCA CAAGGCCAGC 
AAGAAAAACA AGCATGGGCC TGGCCGGCCA AAAGGCGGCA AGAGCAAGGA GGTCCTAGGG 
GCCCAGCTGG CTGGGTCCAC TGCTACCTCT GCCTCCCCCT TCTCTGGGGG CTCCCTGGTC 
AGCGCCAGCA TTGGCAACTC ATCCCGCTCC TTCAGCCACA CAGGGAGCCT GCCCAGTCTC 
AGCCTAGAGT CCCCGCTGCT GGGTTCAGGG ATCTACACCA GTAACAAGGA CCCCATTTCT 
CATGGGGGTG GGGTGCTCCG AGCTGTATGC AGCACCCCAC TCTCCTCCAG CCTCCTGGCA 
CACCAGGGCA CCTCATCTCT CCCACAGCTC AACCGCTCTC CCTTTGCCAG TACCATCCCG 
GCCTCCTCCT CTTCCTCTGT CTCCACCACC CAGGTGTTCT CCTTGGCAGG ATCCACTTTC 
AGCCTCCCCT CCTCGCACAT TTTTGGCAGC CCCCTCACCT CAGGGCTATC TATCAACCCT 
CTCCTGAACC AGTCTGAAAG CAGCCGGGCA GAACCTGATC TGGAAGACTG CAGTTTTGGC 
TGTCGAGGGA CCTCCCCACA GGAAAGCCTC TCCTCTATGT CCCCTATCAG CAGCCTCCCT 
ACCCTCTTCG ACCAGACCGT GTCCTGCAGC AGCAGCGGGC AGCTGGAGAA CGTGCCCCAG 
GCCACCCCCA ACATTGAGCA GCTCCTGGAG AAGCAAGGCA ATGGCGAAGC GGGTGTAAAC 
ATTGTGGAAA TGCTCAAGGC TCTGCACTCC TTGCAGAAGG AGAACCAGCG GTTGCAGGAG 
CAGATCATGA CCTTGACAGC CAAGAAGGAG CGCCTGCAGC TCCTCAACGT CCAGCTCTCT 
GTCCCCTTCC CAGTGGTGAC CAGCAGCAAT GGCCCAGCCA GCCAGGCCCA GTACATCTTG 
CCTCCCACTG TGTGCACCAA TGACTCCCTG AGCATCAGCA AGAGCCCTCC CTGTAAGAAC 
AGCTTTGGGA TTGAAAACTC CCTCTCCACC TCCTCCGAGG ATCCACACTC AGGCTGCCCC 
AGCAGAAGCA GCTCTTCCCT CTCGTTCCAC AGCACCCCTC CTCCCCTGCC ATTGCTGCAG 
CAGAGCCCTG CCACACTGCC CCTCTCGGGG GTGCAGCCAC AGCAGCAAGT CAACGGCTTG 
GCCAGGGTGA CAGGAAACAC GCTGGCAGGA GGCACAGCAG GCAGTCACAG CCTGCCCTCT 
GTGCCAATGG TGGATGGCCT GATCGGGAGC CTGGCAGGAA GCCAGCAGAT GCCCATCAAC 
GGGATCCTGG GGAATCTCAA TGGTGCTACA GCTGCCCAGC AGCAGAACCC CCTGACACAG 
ACCAGTGGGC CACCTACCTT GCAGCTCTCC ACCAACTTGA GCAGCATACC AGGCCTCAGC 
CCCCTGACGG AGCAGCAGCG ACACGCCTTG CACCAACATG AGCAGCAACT CCAGCAGCTC 
CAGCAGCTCC TGACATCCCA GCTACTCAGT CCAGAGCAGC AGGCCTTAGT GTTCCAGATG 
ATCCAGCAAA TCCAACAGAA GAGGGACCTG CAGCGGCTAC AGATGACAGG CACCTCTCAA 
CTGCCCATGA CCAGTCTCCT AACAGCCACC TCCACACCCC TCCTCCACTC AAATGCCAAT 
GCCCTGATGA CCTCTGCCAC CCAGCCCGCA CCCAGCAGCA GCTCCCTCAT GGCTTCCATC 
TCTCCCCAAC AGCTCAACCC TGGCAACAGC CTGATGGCTA CTCCAGCAGC CCCACCCCTT 
AGCGCTCCTG GGAACAGCCT GGTGGCTTCA GGAGCAGGTG TTCCACCAGT CCTTACAGCA 
CAAAGCAACC CCTTCCTCAA CCTCCAGGCT GACAGCAATG CCCAGAAAGG AACGAGCATG 
AATGAAAAGG TTGCTCCTCT CACCCAGGAC AAGGGCTAA

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

MLLT6 ( XM_014603631.2 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_014459117.1 Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAl50823
Clone ID Related Accession (Same CDS sequence)	XM_014603631.2
Accession Version	XM_014603631.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3195bp) 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	protein AF-17 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017708231.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_014603631.1. ##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##

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAAGACATC ACGTCACTCC GGAGGTAGCT CCTTCATTTC TGGGAGAAGG 
AGCCAGTCTG CATCACCCAC TCAGGAGAAG CACATGTCCC ACCATGAGAG GCCAAAGAAG 
AGTCGGAAGG ACAAGGAAAG ACCTAAACAG AAGCACAAAA AGCGGCCAGA GTCTCCCACC 
AGCCTCACCC CGTCTTCTGT GCCTGTCACT ACTGAGAAGA GCTCCACCAG CCATCATGAG 
GGTAATAAGG AGAGCTCTGA GGGCAGCAGA TCAGAGGTGA AAGGCAAGAA ATCCTCAAGC 
CATGGCACCA GCCACAAAGG GAAGAAGACG GGAAGTGGAA AAAGCTCAAC TGGCTTCAGC 
TCGGCCGCCT CCAGCGGGAC GTTCCAGCCT GCAGGCACTT CGTGCAGCTC TTTGCAGTGC 
TCCCAGGACT TTGTGACATT CCCTAAGCTA GAGCAGGAGG AGGAAAAGTA CCGGAAGCCC 
GTCTCCTCCT CCTCCTCTTC CCACTGCTCC CCACTCTATG AAGGGCAGAA GGGGGACATC 
TTCGAGCAGA AGGTGATCTT CTCTGGCTTT GGCTCCATCA TGCGTTTCTC CACCTCGGCT 
GTGAGCCAGC AGAGGGGCCG GGACACCTCC CCTGTGGACT ACAAGGCCTC GAATCCAGTC 
AGTGGCCCCT CAGGAGGCGG CGGCAGCAGT GGCAATGGTG GCAGCAGCAG CCACAAGCGC 
ATGCCGTCCC TCAGCATCGA GGATGGGGAG GTGCTGAAGG AGAAGAAGCA CAAGGCCAGC 
AAGAAAAACA AGCATGGGCC TGGCCGGCCA AAAGGCGGCA AGAGCAAGGA GGTCCTAGGG 
GCCCAGCTGG CTGGGTCCAC TGCTACCTCT GCCTCCCCCT TCTCTGGGGG CTCCCTGGTC 
AGCGCCAGCA TTGGCAACTC ATCCCGCTCC TTCAGCCACA CAGGGAGCCT GCCCAGTCTC 
AGCCTAGAGT CCCCGCTGCT GGGTTCAGGG ATCTACACCA GTAACAAGGA CCCCATTTCT 
CATGGGGGTG GGGTGCTCCG AGCTGTATGC AGCACCCCAC TCTCCTCCAG CCTCCTGGCA 
CACCAGGGCA CCTCATCTCT CCCACAGCTC AACCGCTCTC CCTTTGCCAG TACCATCCCG 
GCCTCCTCCT CTTCCTCTGT CTCCACCACC CAGGTGTTCT CCTTGGCAGG ATCCACTTTC 
AGCCTCCCCT CCTCGCACAT TTTTGGCAGC CCCCTCACCT CAGGGCTATC TATCAACCCT 
CTCCTGAACC AGTCTGAAAG CAGCCGGGCA GAACCTGATC TGGAAGACTG CAGTTTTGGC 
TGTCGAGGGA CCTCCCCACA GGAAAGCCTC TCCTCTATGT CCCCTATCAG CAGCCTCCCT 
ACCCTCTTCG ACCAGACCGT GTCCTGCAGC AGCAGCGGGC AGCTGGAGAA CGTGCCCCAG 
GCCACCCCCA ACATTGAGCA GCTCCTGGAG AAGCAAGTTG TGGAAATGCT CAAGGCTCTG 
CACTCCTTGC AGAAGGAGAA CCAGCGGTTG CAGGAGCAGA TCATGACCTT GACAGCCAAG 
AAGGAGCGCC TGCAGCTCCT CAACGTCCAG CTCTCTGTCC CCTTCCCAGT GGTGACCAGC 
AGCAATGGCC CAGCCAGCCA GGCCCAGTAC ATCTTGCCTC CCACTGTGTG CACCAATGAC 
TCCCTGAGCA TCAGCAAGAG CCCTCCCTGT AAGAACAGCT TTGGGATTGA AAACTCCCTC 
TCCACCTCCT CCGAGGATCC ACACTCAGGC TGCCCCAGCA GAAGCAGCTC TTCCCTCTCG 
TTCCACAGCA CCCCTCCTCC CCTGCCATTG CTGCAGCAGA GCCCTGCCAC ACTGCCCCTC 
TCGGGGGTGC AGCCACAGCA GCAAGTCAAC GGCTTGGCCA GGGTGACAGG AAACACGCTG 
GCAGGAGGCA CAGCAGGCAG TCACAGCCTG CCCTCTGTGC CAATGGTGGA TGGCCTGATC 
GGGAGCCTGG CAGGAAGCCA GCAGATGCCC ATCAACGGGA TCCTGGGGAA TCTCAATGGT 
GCTACAGCTG CCCAGCAGCA GAACCCCCTG ACACAGACCA GTGGGCCACC TACCTTGCAG 
CTCTCCACCA ACTTGAGCAG CATACCAGGC CTCAGCCCCC TGACGGAGCA GCAGCGACAC 
GCCTTGCACC AACATGAGCA GCAACTCCAG CAGCTCCAGC AGCTCCTGAC ATCCCAGCTA 
CTCAGTCCAG AGCAGCAGGC CTTAGTGTTC CAGATGATCC AGCAAATCCA ACAGAAGAGG 
GACCTGCAGC GGCTACAGAT GACAGGCACC TCTCAACTGC CCATGACCAG TCTCCTAACA 
GCCACCTCCA CACCCCTCCT CCACTCAAAT GCCAATGCCC TGATGACCTC TGCCACCCAG 
CCCGCACCCA GCAGCAGCTC CCTCATGGCT TCCATCTCTC CCCAACAGCT CAACCCTGGC 
AACAGCCTGA TGGCTACTCC AGCAGCCCCA CCCCTTAGCG CTCCTGGGAA CAGCCTGGTG 
GCTTCAGGAG CAGGTGTTCC ACCAGTCCTT ACAGCACAAA GCAACCCCTT CCTCAACCTC 
CAGGCTGACA GCAATGCCCA GAAAGGAACG AGCATGAATG AAAAGGTTGC TCCTCTCACC 
CAGGACAAGG GCTAA

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

RefSeq	XP_014459117.1
CDS	61..3255
Translation	MKEMVGGCCVCSDERGWAENPLVYCDGHGCNVAVHQACYGIVQVPTGPWFCRKCESQERAARVRCELCPHKDGALKRTDNGGWAHVVCALYIPEVQFANVLTMEPIVLQYVPHDRFNKTCYICEEQGRESKAASGACMTCNRHGCRQAFHVTCAQMAGLLCEEEVLEVDNVKYCGYCKYHFNKMKTSRHSGGSSFISGRRSQSASPTQEKHMSHHERPKKSRKDKERPKQKHKKRPESPTSLTPSSVPVTTEKSSTSHHEGNKESSEGSRSEVKGKKSSSHGTSHKGKKTGSGKSSTGFSSAASSGTFQPAGTSCSSLQCSQDFVTFPKLEQEEEKYRKPVSSSSSSHCSPLYEGQKGDIFEQKVIFSGFGSIMRFSTSAVSQQRGRDTSPVDYKASNPVSGPSGGGGSSGNGGSSSHKRMPSLSIEDGEVLKEKKHKASKKNKHGPGRPKGGKSKEVLGAQLAGSTATSASPFSGGSLVSASIGNSSRSFSHTGSLPSLSLESPLLGSGIYTSNKDPISHGGGVLRAVCSTPLSSSLLAHQGTSSLPQLNRSPFASTIPASSSSSVSTTQVFSLAGSTFSLPSSHIFGSPLTSGLSINPLLNQSESSRAEPDLEDCSFGCRGTSPQESLSSMSPISSLPTLFDQTVSCSSSGQLENVPQATPNIEQLLEKQVVEMLKALHSLQKENQRLQEQIMTLTAKKERLQLLNVQLSVPFPVVTSSNGPASQAQYILPPTVCTNDSLSISKSPPCKNSFGIENSLSTSSEDPHSGCPSRSSSSLSFHSTPPPLPLLQQSPATLPLSGVQPQQQVNGLARVTGNTLAGGTAGSHSLPSVPMVDGLIGSLAGSQQMPINGILGNLNGATAAQQQNPLTQTSGPPTLQLSTNLSSIPGLSPLTEQQRHALHQHEQQLQQLQQLLTSQLLSPEQQALVFQMIQQIQQKRDLQRLQMTGTSQLPMTSLLTATSTPLLHSNANALMTSATQPAPSSSSLMASISPQQLNPGNSLMATPAAPPLSAPGNSLVASGAGVPPVLTAQSNPFLNLQADSNAQKGTSMNEKVAPLTQDKG

Target ORF information:

RefSeq Version	XM_014603631.2
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X4, mRNA.

Target ORF information:

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

XM_014603631.2

ORF Insert Sequence:

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAAGACATC ACGTCACTCC GGAGGTAGCT CCTTCATTTC TGGGAGAAGG 
AGCCAGTCTG CATCACCCAC TCAGGAGAAG CACATGTCCC ACCATGAGAG GCCAAAGAAG 
AGTCGGAAGG ACAAGGAAAG ACCTAAACAG AAGCACAAAA AGCGGCCAGA GTCTCCCACC 
AGCCTCACCC CGTCTTCTGT GCCTGTCACT ACTGAGAAGA GCTCCACCAG CCATCATGAG 
GGTAATAAGG AGAGCTCTGA GGGCAGCAGA TCAGAGGTGA AAGGCAAGAA ATCCTCAAGC 
CATGGCACCA GCCACAAAGG GAAGAAGACG GGAAGTGGAA AAAGCTCAAC TGGCTTCAGC 
TCGGCCGCCT CCAGCGGGAC GTTCCAGCCT GCAGGCACTT CGTGCAGCTC TTTGCAGTGC 
TCCCAGGACT TTGTGACATT CCCTAAGCTA GAGCAGGAGG AGGAAAAGTA CCGGAAGCCC 
GTCTCCTCCT CCTCCTCTTC CCACTGCTCC CCACTCTATG AAGGGCAGAA GGGGGACATC 
TTCGAGCAGA AGGTGATCTT CTCTGGCTTT GGCTCCATCA TGCGTTTCTC CACCTCGGCT 
GTGAGCCAGC AGAGGGGCCG GGACACCTCC CCTGTGGACT ACAAGGCCTC GAATCCAGTC 
AGTGGCCCCT CAGGAGGCGG CGGCAGCAGT GGCAATGGTG GCAGCAGCAG CCACAAGCGC 
ATGCCGTCCC TCAGCATCGA GGATGGGGAG GTGCTGAAGG AGAAGAAGCA CAAGGCCAGC 
AAGAAAAACA AGCATGGGCC TGGCCGGCCA AAAGGCGGCA AGAGCAAGGA GGTCCTAGGG 
GCCCAGCTGG CTGGGTCCAC TGCTACCTCT GCCTCCCCCT TCTCTGGGGG CTCCCTGGTC 
AGCGCCAGCA TTGGCAACTC ATCCCGCTCC TTCAGCCACA CAGGGAGCCT GCCCAGTCTC 
AGCCTAGAGT CCCCGCTGCT GGGTTCAGGG ATCTACACCA GTAACAAGGA CCCCATTTCT 
CATGGGGGTG GGGTGCTCCG AGCTGTATGC AGCACCCCAC TCTCCTCCAG CCTCCTGGCA 
CACCAGGGCA CCTCATCTCT CCCACAGCTC AACCGCTCTC CCTTTGCCAG TACCATCCCG 
GCCTCCTCCT CTTCCTCTGT CTCCACCACC CAGGTGTTCT CCTTGGCAGG ATCCACTTTC 
AGCCTCCCCT CCTCGCACAT TTTTGGCAGC CCCCTCACCT CAGGGCTATC TATCAACCCT 
CTCCTGAACC AGTCTGAAAG CAGCCGGGCA GAACCTGATC TGGAAGACTG CAGTTTTGGC 
TGTCGAGGGA CCTCCCCACA GGAAAGCCTC TCCTCTATGT CCCCTATCAG CAGCCTCCCT 
ACCCTCTTCG ACCAGACCGT GTCCTGCAGC AGCAGCGGGC AGCTGGAGAA CGTGCCCCAG 
GCCACCCCCA ACATTGAGCA GCTCCTGGAG AAGCAAGTTG TGGAAATGCT CAAGGCTCTG 
CACTCCTTGC AGAAGGAGAA CCAGCGGTTG CAGGAGCAGA TCATGACCTT GACAGCCAAG 
AAGGAGCGCC TGCAGCTCCT CAACGTCCAG CTCTCTGTCC CCTTCCCAGT GGTGACCAGC 
AGCAATGGCC CAGCCAGCCA GGCCCAGTAC ATCTTGCCTC CCACTGTGTG CACCAATGAC 
TCCCTGAGCA TCAGCAAGAG CCCTCCCTGT AAGAACAGCT TTGGGATTGA AAACTCCCTC 
TCCACCTCCT CCGAGGATCC ACACTCAGGC TGCCCCAGCA GAAGCAGCTC TTCCCTCTCG 
TTCCACAGCA CCCCTCCTCC CCTGCCATTG CTGCAGCAGA GCCCTGCCAC ACTGCCCCTC 
TCGGGGGTGC AGCCACAGCA GCAAGTCAAC GGCTTGGCCA GGGTGACAGG AAACACGCTG 
GCAGGAGGCA CAGCAGGCAG TCACAGCCTG CCCTCTGTGC CAATGGTGGA TGGCCTGATC 
GGGAGCCTGG CAGGAAGCCA GCAGATGCCC ATCAACGGGA TCCTGGGGAA TCTCAATGGT 
GCTACAGCTG CCCAGCAGCA GAACCCCCTG ACACAGACCA GTGGGCCACC TACCTTGCAG 
CTCTCCACCA ACTTGAGCAG CATACCAGGC CTCAGCCCCC TGACGGAGCA GCAGCGACAC 
GCCTTGCACC AACATGAGCA GCAACTCCAG CAGCTCCAGC AGCTCCTGAC ATCCCAGCTA 
CTCAGTCCAG AGCAGCAGGC CTTAGTGTTC CAGATGATCC AGCAAATCCA ACAGAAGAGG 
GACCTGCAGC GGCTACAGAT GACAGGCACC TCTCAACTGC CCATGACCAG TCTCCTAACA 
GCCACCTCCA CACCCCTCCT CCACTCAAAT GCCAATGCCC TGATGACCTC TGCCACCCAG 
CCCGCACCCA GCAGCAGCTC CCTCATGGCT TCCATCTCTC CCCAACAGCT CAACCCTGGC 
AACAGCCTGA TGGCTACTCC AGCAGCCCCA CCCCTTAGCG CTCCTGGGAA CAGCCTGGTG 
GCTTCAGGAG CAGGTGTTCC ACCAGTCCTT ACAGCACAAA GCAACCCCTT CCTCAACCTC 
CAGGCTGACA GCAATGCCCA GAAAGGAACG AGCATGAATG AAAAGGTTGC TCCTCTCACC 
CAGGACAAGG GCTAA

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

MLLT6 ( XM_019482564.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019338109.1 Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OAl50824
Clone ID Related Accession (Same CDS sequence)	XM_019482564.1
Accession Version	XM_019482564.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3120bp) 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	protein AF-17 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017708231.1) 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##

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAGTCGGAA GGACAAGGAA AGACCTAAAC AGAAGCACAA AAAGCGGCCA 
GAGTCTCCCA CCAGCCTCAC CCCGTCTTCT GTGCCTGTCA CTACTGAGAA GAGCTCCACC 
AGCCATCATG AGGGTAATAA GGAGAGCTCT GAGGGCAGCA GATCAGAGGT GAAAGGCAAG 
AAATCCTCAA GCCATGGCAC CAGCCACAAA GGGAAGAAGA CGGGAAGTGG AAAAAGCTCA 
ACTGGCTTCA GCTCGGCCGC CTCCAGCGGG ACGTTCCAGC CTGCAGGCAC TTCGTGCAGC 
TCTTTGCAGT GCTCCCAGGA CTTTGTGACA TTCCCTAAGC TAGAGCAGGA GGAGGAAAAG 
TACCGGAAGC CCGTCTCCTC CTCCTCCTCT TCCCACTGCT CCCCACTCTA TGAAGGGCAG 
AAGGGGGACA TCTTCGAGCA GAAGGTGATC TTCTCTGGCT TTGGCTCCAT CATGCGTTTC 
TCCACCTCGG CTGTGAGCCA GCAGAGGGGC CGGGACACCT CCCCTGTGGA CTACAAGGCC 
TCGAATCCAG TCAGTGGCCC CTCAGGAGGC GGCGGCAGCA GTGGCAATGG TGGCAGCAGC 
AGCCACAAGC GCATGCCGTC CCTCAGCATC GAGGATGGGG AGGTGCTGAA GGAGAAGAAG 
CACAAGGCCA GCAAGAAAAA CAAGCATGGG CCTGGCCGGC CAAAAGGCGG CAAGAGCAAG 
GAGGTCCTAG GGGCCCAGCT GGCTGGGTCC ACTGCTACCT CTGCCTCCCC CTTCTCTGGG 
GGCTCCCTGG TCAGCGCCAG CATTGGCAAC TCATCCCGCT CCTTCAGCCA CACAGGGAGC 
CTGCCCAGTC TCAGCCTAGA GTCCCCGCTG CTGGGTTCAG GGATCTACAC CAGTAACAAG 
GACCCCATTT CTCATGGGGG TGGGGTGCTC CGAGCTGTAT GCAGCACCCC ACTCTCCTCC 
AGCCTCCTGG CACACCAGGG CACCTCATCT CTCCCACAGC TCAACCGCTC TCCCTTTGCC 
AGTACCATCC CGGCCTCCTC CTCTTCCTCT GTCTCCACCA CCCAGGTGTT CTCCTTGGCA 
GGATCCACTT TCAGCCTCCC CTCCTCGCAC ATTTTTGGCA GCCCCCTCAC CTCAGGGCTA 
TCTATCAACC CTCTCCTGAA CCAGTCTGAA AGCAGCCGGG CAGAACCTGA TCTGGAAGAC 
TGCAGTTTTG GCTGTCGAGG GACCTCCCCA CAGGAAAGCC TCTCCTCTAT GTCCCCTATC 
AGCAGCCTCC CTACCCTCTT CGACCAGACC GTGTCCTGCA GCAGCAGCGG GCAGCTGGAG 
AACGTGCCCC AGGCCACCCC CAACATTGAG CAGCTCCTGG AGAAGCAAGG CAATGGCGAA 
GCGGGTGTAA ACAGTGAGCC ACTTGTGGAA ATGCTCAAGG CTCTGCACTC CTTGCAGAAG 
GAGAACCAGC GGTTGCAGGA GCAGATCATG ACCTTGACAG CCAAGAAGGA GCGCCTGCAG 
CTCCTCAACG TCCAGCTCTC TGTCCCCTTC CCAGTGGTGA CCAGCAGCAA TGGCCCAGCC 
AGCCAGGCCC AGTACATCTT GCCTCCCACT GTGTGCACCA ATGACTCCCT GAGCATCAGC 
AAGAGCCCTC CCTGTAAGAA CAGCTTTGGG ATTGAAAACT CCCTCTCCAC CTCCTCCGAG 
GATCCACACT CAGGCTGCCC CAGCAGAAGC AGCTCTTCCC TCTCGTTCCA CAGCACCCCT 
CCTCCCCTGC CATTGCTGCA GCAGAGCCCT GCCACACTGC CCCTCTCGGG GGTGCAGCCA 
CAGCAGCAAG TCAACGGCTT GGCCAGGGTG ACAGGAAACA CGCTGGCAGG AGGCACAGCA 
GGCAGTCACA GCCTGCCCTC TGTGCCAATG GTGGATGGCC TGATCGGGAG CCTGGCAGGA 
AGCCAGCAGA TGCCCATCAA CGGGATCCTG GGGAATCTCA ATGGTGCTAC AGCTGCCCAG 
CAGCAGAACC CCCTGACACA GACCAGTGGG CCACCTACCT TGCAGCTCTC CACCAACTTG 
AGCAGCATAC CAGGCCTCAG CCCCCTGACG GAGCAGCAGC GACACGCCTT GCACCAACAT 
GAGCAGCAAC TCCAGCAGCT CCAGCAGCTC CTGACATCCC AGCTACTCAG TCCAGAGCAG 
CAGGCCTTAG TGTTCCAGAT GATCCAGCAA ATCCAACAGA AGAGGGACCT GCAGCGGCTA 
CAGATGACAG GCACCTCTCA ACTGCCCATG ACCAGTCTCC TAACAGCCAC CTCCACACCC 
CTCCTCCACT CAAATGCCAA TGCCCTGATG ACCTCTGCCA CCCAGCCCGC ACCCAGCAGC 
AGCTCCCTCA TGGCTTCCAT CTCTCCCCAA CAGCTCAACC CTGGCAACAG CCTGATGGCT 
ACTCCAGCAG CCCCACCCCT TAGCGCTCCT GGGAACAGCC TGGTGGCTTC AGGAGCAGGT 
GTTCCACCAG TCCTTACAGC ACAAAGCAAC CCCTTCCTCA ACCTCCAGGC TGACAGCAAT 
GCCCAGAAAG GAACGAGCAT GAATGAAAAG GTTGCTCCTC TCACCCAGGA CAAGGGCTAA

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

RefSeq	XP_019338109.1
CDS	62..3181
Translation	MKEMVGGCCVCSDERGWAENPLVYCDGHGCNVAVHQACYGIVQVPTGPWFCRKCESQERAARVRCELCPHKDGALKRTDNGGWAHVVCALYIPEVQFANVLTMEPIVLQYVPHDRFNKTCYICEEQGRESKAASGACMTCNRHGCRQAFHVTCAQMAGLLCEEEVLEVDNVKYCGYCKYHFNKMSRKDKERPKQKHKKRPESPTSLTPSSVPVTTEKSSTSHHEGNKESSEGSRSEVKGKKSSSHGTSHKGKKTGSGKSSTGFSSAASSGTFQPAGTSCSSLQCSQDFVTFPKLEQEEEKYRKPVSSSSSSHCSPLYEGQKGDIFEQKVIFSGFGSIMRFSTSAVSQQRGRDTSPVDYKASNPVSGPSGGGGSSGNGGSSSHKRMPSLSIEDGEVLKEKKHKASKKNKHGPGRPKGGKSKEVLGAQLAGSTATSASPFSGGSLVSASIGNSSRSFSHTGSLPSLSLESPLLGSGIYTSNKDPISHGGGVLRAVCSTPLSSSLLAHQGTSSLPQLNRSPFASTIPASSSSSVSTTQVFSLAGSTFSLPSSHIFGSPLTSGLSINPLLNQSESSRAEPDLEDCSFGCRGTSPQESLSSMSPISSLPTLFDQTVSCSSSGQLENVPQATPNIEQLLEKQGNGEAGVNSEPLVEMLKALHSLQKENQRLQEQIMTLTAKKERLQLLNVQLSVPFPVVTSSNGPASQAQYILPPTVCTNDSLSISKSPPCKNSFGIENSLSTSSEDPHSGCPSRSSSSLSFHSTPPPLPLLQQSPATLPLSGVQPQQQVNGLARVTGNTLAGGTAGSHSLPSVPMVDGLIGSLAGSQQMPINGILGNLNGATAAQQQNPLTQTSGPPTLQLSTNLSSIPGLSPLTEQQRHALHQHEQQLQQLQQLLTSQLLSPEQQALVFQMIQQIQQKRDLQRLQMTGTSQLPMTSLLTATSTPLLHSNANALMTSATQPAPSSSSLMASISPQQLNPGNSLMATPAAPPLSAPGNSLVASGAGVPPVLTAQSNPFLNLQADSNAQKGTSMNEKVAPLTQDKG

Target ORF information:

RefSeq Version	XM_019482564.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis MLLT6, PHD finger domain containing (MLLT6), transcript variant X5, mRNA.

Target ORF information:

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

XM_019482564.1

ORF Insert Sequence:

ATGAAGGAGA TGGTGGGAGG CTGCTGTGTC TGTTCTGATG AGAGGGGCTG GGCGGAGAAC 
CCGCTGGTGT ACTGCGATGG ACACGGGTGT AACGTGGCCG TGCATCAAGC TTGCTATGGA 
ATTGTCCAGG TTCCCACTGG ACCCTGGTTC TGTCGAAAAT GTGAGTCACA AGAGAGAGCC 
GCCCGGGTGA GATGTGAGCT GTGTCCTCAC AAAGATGGAG CCCTAAAACG GACTGACAAT 
GGAGGCTGGG CCCATGTCGT CTGTGCTTTG TACATCCCTG AGGTGCAGTT TGCCAATGTG 
CTGACCATGG AGCCAATTGT CCTGCAGTAC GTGCCCCATG ACCGCTTCAA CAAGACTTGC 
TATATCTGTG AAGAACAGGG CAGGGAGAGC AAAGCAGCCT CTGGGGCCTG CATGACCTGC 
AATCGACATG GCTGCCGGCA AGCCTTCCAC GTCACCTGTG CCCAGATGGC TGGCCTCTTG 
TGTGAAGAGG AAGTCCTGGA GGTTGACAAT GTCAAATATT GTGGCTACTG CAAGTATCAC 
TTCAATAAAA TGAGTCGGAA GGACAAGGAA AGACCTAAAC AGAAGCACAA AAAGCGGCCA 
GAGTCTCCCA CCAGCCTCAC CCCGTCTTCT GTGCCTGTCA CTACTGAGAA GAGCTCCACC 
AGCCATCATG AGGGTAATAA GGAGAGCTCT GAGGGCAGCA GATCAGAGGT GAAAGGCAAG 
AAATCCTCAA GCCATGGCAC CAGCCACAAA GGGAAGAAGA CGGGAAGTGG AAAAAGCTCA 
ACTGGCTTCA GCTCGGCCGC CTCCAGCGGG ACGTTCCAGC CTGCAGGCAC TTCGTGCAGC 
TCTTTGCAGT GCTCCCAGGA CTTTGTGACA TTCCCTAAGC TAGAGCAGGA GGAGGAAAAG 
TACCGGAAGC CCGTCTCCTC CTCCTCCTCT TCCCACTGCT CCCCACTCTA TGAAGGGCAG 
AAGGGGGACA TCTTCGAGCA GAAGGTGATC TTCTCTGGCT TTGGCTCCAT CATGCGTTTC 
TCCACCTCGG CTGTGAGCCA GCAGAGGGGC CGGGACACCT CCCCTGTGGA CTACAAGGCC 
TCGAATCCAG TCAGTGGCCC CTCAGGAGGC GGCGGCAGCA GTGGCAATGG TGGCAGCAGC 
AGCCACAAGC GCATGCCGTC CCTCAGCATC GAGGATGGGG AGGTGCTGAA GGAGAAGAAG 
CACAAGGCCA GCAAGAAAAA CAAGCATGGG CCTGGCCGGC CAAAAGGCGG CAAGAGCAAG 
GAGGTCCTAG GGGCCCAGCT GGCTGGGTCC ACTGCTACCT CTGCCTCCCC CTTCTCTGGG 
GGCTCCCTGG TCAGCGCCAG CATTGGCAAC TCATCCCGCT CCTTCAGCCA CACAGGGAGC 
CTGCCCAGTC TCAGCCTAGA GTCCCCGCTG CTGGGTTCAG GGATCTACAC CAGTAACAAG 
GACCCCATTT CTCATGGGGG TGGGGTGCTC CGAGCTGTAT GCAGCACCCC ACTCTCCTCC 
AGCCTCCTGG CACACCAGGG CACCTCATCT CTCCCACAGC TCAACCGCTC TCCCTTTGCC 
AGTACCATCC CGGCCTCCTC CTCTTCCTCT GTCTCCACCA CCCAGGTGTT CTCCTTGGCA 
GGATCCACTT TCAGCCTCCC CTCCTCGCAC ATTTTTGGCA GCCCCCTCAC CTCAGGGCTA 
TCTATCAACC CTCTCCTGAA CCAGTCTGAA AGCAGCCGGG CAGAACCTGA TCTGGAAGAC 
TGCAGTTTTG GCTGTCGAGG GACCTCCCCA CAGGAAAGCC TCTCCTCTAT GTCCCCTATC 
AGCAGCCTCC CTACCCTCTT CGACCAGACC GTGTCCTGCA GCAGCAGCGG GCAGCTGGAG 
AACGTGCCCC AGGCCACCCC CAACATTGAG CAGCTCCTGG AGAAGCAAGG CAATGGCGAA 
GCGGGTGTAA ACAGTGAGCC ACTTGTGGAA ATGCTCAAGG CTCTGCACTC CTTGCAGAAG 
GAGAACCAGC GGTTGCAGGA GCAGATCATG ACCTTGACAG CCAAGAAGGA GCGCCTGCAG 
CTCCTCAACG TCCAGCTCTC TGTCCCCTTC CCAGTGGTGA CCAGCAGCAA TGGCCCAGCC 
AGCCAGGCCC AGTACATCTT GCCTCCCACT GTGTGCACCA ATGACTCCCT GAGCATCAGC 
AAGAGCCCTC CCTGTAAGAA CAGCTTTGGG ATTGAAAACT CCCTCTCCAC CTCCTCCGAG 
GATCCACACT CAGGCTGCCC CAGCAGAAGC AGCTCTTCCC TCTCGTTCCA CAGCACCCCT 
CCTCCCCTGC CATTGCTGCA GCAGAGCCCT GCCACACTGC CCCTCTCGGG GGTGCAGCCA 
CAGCAGCAAG TCAACGGCTT GGCCAGGGTG ACAGGAAACA CGCTGGCAGG AGGCACAGCA 
GGCAGTCACA GCCTGCCCTC TGTGCCAATG GTGGATGGCC TGATCGGGAG CCTGGCAGGA 
AGCCAGCAGA TGCCCATCAA CGGGATCCTG GGGAATCTCA ATGGTGCTAC AGCTGCCCAG 
CAGCAGAACC CCCTGACACA GACCAGTGGG CCACCTACCT TGCAGCTCTC CACCAACTTG 
AGCAGCATAC CAGGCCTCAG CCCCCTGACG GAGCAGCAGC GACACGCCTT GCACCAACAT 
GAGCAGCAAC TCCAGCAGCT CCAGCAGCTC CTGACATCCC AGCTACTCAG TCCAGAGCAG 
CAGGCCTTAG TGTTCCAGAT GATCCAGCAA ATCCAACAGA AGAGGGACCT GCAGCGGCTA 
CAGATGACAG GCACCTCTCA ACTGCCCATG ACCAGTCTCC TAACAGCCAC CTCCACACCC 
CTCCTCCACT CAAATGCCAA TGCCCTGATG ACCTCTGCCA CCCAGCCCGC ACCCAGCAGC 
AGCTCCCTCA TGGCTTCCAT CTCTCCCCAA CAGCTCAACC CTGGCAACAG CCTGATGGCT 
ACTCCAGCAG CCCCACCCCT TAGCGCTCCT GGGAACAGCC TGGTGGCTTC AGGAGCAGGT 
GTTCCACCAG TCCTTACAGC ACAAAGCAAC CCCTTCCTCA ACCTCCAGGC TGACAGCAAT 
GCCCAGAAAG GAACGAGCAT GAATGAAAAG GTTGCTCCTC TCACCCAGGA CAAGGGCTAA

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

PubMed

- Most Popular Services
  - 人工遺伝子合成& DNA合成-納期保証
- Services & Products

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文

MLLT6 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene

Clones

gRNAs

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム