MTR gene cDNA ORF clone, Taeniopygia guttata(zebra finch)

mRNA	Protein	Name
XM_030268239.1	XP_030124099.1	methionine synthase isoform X4
XM_030268241.1	XP_030124101.1	methionine synthase isoform X6
XM_030268238.1	XP_030124098.1	methionine synthase isoform X3
XM_030268240.1	XP_030124100.1	methionine synthase isoform X5
XM_002192686.3	XP_002192722.2	methionine synthase isoform X2
XM_002192686.4	XP_002192722.2	methionine synthase isoform X2
XM_012572578.1	XP_012428032.1	methionine synthase isoform X1
XM_012572578.2	XP_012428032.1	methionine synthase isoform X6
XM_030268236.1	XP_030124096.1	methionine synthase isoform X1

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OTd19825	XM_030268241.1 Latest version!	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd19825	XM_012572578.2 Latest version!	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd08341	XM_002192686.4 Latest version!	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd42240	XM_030268236.1 Latest version!	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd42241	XM_030268238.1 Latest version!	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd42242	XM_030268239.1 Latest version!	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd42243	XM_030268240.1 Latest version!	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
View Old Accession Versions >>
OTd08341	XM_002192686.3	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd19825	XM_012572578.1	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
Hide Old Accession Versions >>

MTR ( XM_030268241.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030124101.1 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OTd19825
Clone ID Related Accession (Same CDS sequence)	XM_030268241.1 , XM_012572578.1 , XM_012572578.2
Accession Version	XM_030268241.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2583bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

RefSeq	XP_030124101.1
CDS	574..3156
Translation	MGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_030268241.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X7, mRNA.

Target ORF information:

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

XM_030268241.1

ORF Insert Sequence:

ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

MTR ( XM_012572578.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012428032.1 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd19825
Clone ID Related Accession (Same CDS sequence)	XM_030268241.1 , XM_012572578.1 , XM_012572578.2
Accession Version	XM_012572578.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2583bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198511.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

RefSeq	XP_012428032.1
CDS	89..2671
Translation	MGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_012572578.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X1, mRNA.

Target ORF information:

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

XM_012572578.1

ORF Insert Sequence:

ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

MTR ( XM_012572578.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012428032.1 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X6, mRNA.

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CloneID	OTd19825
Clone ID Related Accession (Same CDS sequence)	XM_030268241.1 , XM_012572578.1 , XM_012572578.2
Accession Version	XM_012572578.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2583bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012572578.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

RefSeq	XP_012428032.1
CDS	111..2693
Translation	MGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_012572578.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X6, mRNA.

Target ORF information:

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

XM_012572578.2

ORF Insert Sequence:

ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

MTR ( XM_002192686.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002192722.2 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd08341
Clone ID Related Accession (Same CDS sequence)	XM_002192686.3 , XM_002192686.4
Accession Version	XM_002192686.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3786bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198511.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002192686.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGCCCA CGGGGCCGCC GGATCCCCAG AAAAGTGTGG AAGATGAAAT TGAATCTATT 
CTGCAGGAGC GGATAATGGT TTTGGATGGG GGCATGGGGA CCATGATCCA GCAACATGCA 
CTGACAGAAG AGGATTTCCG AGGGCATGAA TTTAAAGATC ATTCCAGGCC TTTGAAAGGC 
AATAATGACC TTCTGAGTAT AACTCAGCCT GATATAATCT GTGACATACA CAAGGAATAC 
TTGCTGTCAG GTGCTGACAT CATTGAAACC AACACTTTCA GCAGCACCCG AGTTGCACAG 
GCTGACTATG GCCTTGAGCA TTTGGCGTAT CGATTAAACA GAGTCTCTGC ACAGGTGGCC 
AGAAAAGCAG CAGACACTGT AACTGCTGAG ACAGGAATTA GGAGATATGT TGCTGGAGCC 
ATGGGTCCAA CAAACAGGAC ACTCTCTGTG TCACCATCTG TGGAGAGACC AGATTACAGG 
AACATAACTT TTGATGAACT GGTTGAGGCC TATACAGAAC AAGCCAAAGG ACTTTTGGAT 
GGAGGAGTTG ACATCTTACT GGTGGAAACC ATATTTGACA CTGCCAATGC TAAGGCAGCT 
CTTTTTGCAC TCCAGATGTT GTTTGAGGAA GAATATGCTT CCCGACCCAT ATTTGTTTCT 
GGAACTATTG TGGATAAGAG TGGGCGTACC CTCTCTGGCC AGACAGGAGA GGCATTTGTC 
GTTAGTGTTT CCCACAGTAA GCCACTTTGT ATTGGCTTAA ATTGTGCTTT AGGGGCAGTT 
GAAATGCGTC CATTCATTGA AACAATTGGA AAATGCACAA CCGCCTACAT CATCTGTTAC 
CCCAACGCAG GTCTTCCCAA TACATTTGGT GGTTATGATG AAACTCCAGA AGTGACTGCC 
AAGCATATAG AGAATTTTGC TTTGGATGGT TTGGTCAACA TAGTTGGAGG TTGCTGTGGT 
ACCACACCAG CGCATATCAG AAAAATTGCT GAAGCTGTGA AATTCTGTAA GCCTCGTGTT 
CCACCTTCTC TCTCTGAAGG ATATATGCTG CTGTCAGGTC TGGAGCCATT CAGGATTGGG 
CCATATACCA ACTTCGTTAA TATTGGTGAA CGGTGCAATG TTGCAGGATC ACGGAAGTTT 
GCTAAACTCA TCATGGCAGG CAACTATGAA GAAGCCCTGA GTGTAGCCAA ATTGCAAGTT 
GAGATGGGGG CCCAGATTCT TGACATAAAT ATGGATGATG GGATGTTGGA TGGCCCCACT 
GCAATGACCA AATTTTGTAA CTTGATTTCT TCGGAACCTG ATATTGCAAA GGTGCCATTA 
TGCATAGACT CCTCAAACTT TTCAGTGATT GAAGCAGGTT TGAAATGTTG CCAAGGGAAA 
TGCATTGTAA ACAGCATCAG TCTAAAGGAA GGTGAGGAAG ACTTTCTGGA GAAAGCGAGG 
AAAATTAAAT TATATGGAGC AGCTGTGGTT GTTATGGCTT TTGATGAAGT GGGGCAGGCA 
ACAGAAACAG AAACCAAGAT TGCAATCTGT TCCAGAGCTT ATCATCTCCT TGTGGGAAAA 
GTGCACTTCA ATCCAAATGA TATAATATTC GACCCTAATA TTTTGACCAT AGGAACTGGA 
ATGGAAGAAC ATAACCTTTA TGCCATAAAT TTTATCAATG CTACTAAAAC CATAAAAGAA 
ACATTGCCAG GAGCCAGGAT AAGTGGAGGT CTTTCCAATC TGTCCTTCTC CTTTCGAGGA 
ATGGATGCCA TTCGAGAAGC AATGCATGGA GTGTTCCTTT ACCACGCAAT TAAGTATGGC 
ATGGACATGG GAATTGTGAA TGCTGGGAAT CTGCCTGTGT ATGATGATAT CCACAAGGAA 
TTGCTACAGC TGTGTGAGAA TCTAATCTGG AATAAAGATC CTGATGCAAC AGAGAAACTT 
TTACATTATG CTCAGAATCA TGCCCAAGGA GGAAAAAAAG TTGTACAGAC CGATGAGTGG 
CGTAAAGGCT CTGTGGAGGA AAGGCTGGAA TATGCTCTCA TAAAGGGCAT TGAGAAGTAT 
GTCATTGCAG ATACAGAAGA AGCAAGATTA AAACAAGAAA AATATCCTAG ACCTCTAAAT 
GTAATTGAAG GGCCTTTGAT GAATGGCATG AAAATTGTTG GTGATCTTTT TGGTGCTGGA 
AAGATGTTTC TGCCTCAGGT GATAAAATCT GCTCGAGTTA TGAAGAAAGC AGTTGGCCAC 
CTTATTCCCT ATATGGAAAA AGAAAGAGAG GAAAGGAGAG CCAAGCAAGG CAGCACAGAA 
GAAGAGGATC CTTACCAGGG TACAATAGTA TTGGCAACTG TGAAGGGAGA CGTACATGAT 
ATTGGCAAGA ACATTGTGGG AGTTGTTCTG GGCTGCAACA ACTTCAGAGT TATTGATTTA 
GGAGTTATGA CTCCATGTGA TAAGATATTA AGAGCTGCTG TGGAGAACAA AGCAGATATA 
ATTGGCCTGT CTGGTCTCAT CACCCCATCT TTGGATGAGA TGATTTTTGT CGCCAAGGAA 
ATGGAGAGAT TGGCAATAAA GATTCCTTTG CTTATTGGAG GAGCAACTAC TTCTAAAACA 
CACACAGCTG TTAAAATTGC CCCAAGATAT AGCGCACCTG TAGTTCATGT CCTGGATGCA 
TCCAAGAGTG TTGTGGTTTG CTCTCAGCTC TTAGACGACA GTATAAAGGA TGATTTCTTT 
GAAGAAATAT TAGACGAATA TGAAGAAATT AGACAAGAAC ACTATGAGTC TCTCAAGGAA 
AGAAGATACT TGTCTCTACA GCAAGCTAGA AGAAAAGGTT TCCAAAATAA TTGGTTATCA 
GGCCATATAC CAGTTAAACC AAAATTCATT GGCACAAAAG TCTTTGAAGA CTATGACCTG 
AGAAGGCTGG TAGACTACAT TGACTGGAAG CCCTTCTTTG ATGTCTGGCA ACTTAGGGGA 
AAGTATCCCA ACCGGAGTTT CCCTAAGATC TTTAATGATA AAACTGTAGG TGAAGAAGCA 
AAGAGAGTTT ATAATGATGC TCAAGATCTA CTGAAAATGT TGATTAATGA AAAGAAATTA 
CAAGCCAGAG GTGTGGTTGG GTTCTGGCCA GCTCGAAGTG TTCAAGATGA TATCCACTTG 
TATGCTGTAG AAGAGGCAGT GGGATCTTCA GAACCAATAG CAAAATTTTA TGGATTGAGG 
CAACAGGCTG AAAAGGACTC TGCCTGCACA GATCCATATT ACTGCCTCTC TGACTTCATA 
GCACCGCTGG ATTCTGGCAT TTGTGACTAC TTAGGCCTGT TTGCAGTGGC CTGCTTTGGT 
GTAGATGACT TATGCAGTGA ATTTAGGAAA CAGGAGGATG AATACAACAT CATAATGGTG 
AAGGCTCTCG GTGATCGGTT GGCAGAGGCA TTTGCTGAGG AGCTTCATGA AAGAGTTCGA 
AGGGAATTCT GGGCTTACAG TAGTAGTGAG CAGCTGGATC TCTCTGGCCT ACGCAAAATT 
AAATATGAGG GAATTCGCCC TGCTCCTGGA TATCCCAGCC AGCCTGACCA TACAGAAAAA 
CTCACCATGT GGAAACTTGC AAACATTGAG GAAACAACAG GAATTGGTCT AACGGAATCA 
CTAGCAATGA TACCTGCTTC TGCAGTTTCT GGCCTCTACT TTTCCAGTCC CAATTCCAAA 
TATTTTGCTG TTGGCAAGAT ATGTAGAGAT CAGGTTGAAG ATTATGCACT GAGAAAAAAT 
TTGTCTGTGG TGGAGGTGGA GAAGTGGCTG GAACCCATTT TGGGATATGA TGCTGAACAA 
CTGTGA

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

RefSeq	XP_002192722.2
CDS	19..3804
Translation	MAPTGPPDPQKSVEDEIESILQERIMVLDGGMGTMIQQHALTEEDFRGHEFKDHSRPLKGNNDLLSITQPDIICDIHKEYLLSGADIIETNTFSSTRVAQADYGLEHLAYRLNRVSAQVARKAADTVTAETGIRRYVAGAMGPTNRTLSVSPSVERPDYRNITFDELVEAYTEQAKGLLDGGVDILLVETIFDTANAKAALFALQMLFEEEYASRPIFVSGTIVDKSGRTLSGQTGEAFVVSVSHSKPLCIGLNCALGAVEMRPFIETIGKCTTAYIICYPNAGLPNTFGGYDETPEVTAKHIENFALDGLVNIVGGCCGTTPAHIRKIAEAVKFCKPRVPPSLSEGYMLLSGLEPFRIGPYTNFVNIGERCNVAGSRKFAKLIMAGNYEEALSVAKLQVEMGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_002192686.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X2, mRNA.

Target ORF information:

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

XM_002192686.3

ORF Insert Sequence:

ATGGCGCCCA CGGGGCCGCC GGATCCCCAG AAAAGTGTGG AAGATGAAAT TGAATCTATT 
CTGCAGGAGC GGATAATGGT TTTGGATGGG GGCATGGGGA CCATGATCCA GCAACATGCA 
CTGACAGAAG AGGATTTCCG AGGGCATGAA TTTAAAGATC ATTCCAGGCC TTTGAAAGGC 
AATAATGACC TTCTGAGTAT AACTCAGCCT GATATAATCT GTGACATACA CAAGGAATAC 
TTGCTGTCAG GTGCTGACAT CATTGAAACC AACACTTTCA GCAGCACCCG AGTTGCACAG 
GCTGACTATG GCCTTGAGCA TTTGGCGTAT CGATTAAACA GAGTCTCTGC ACAGGTGGCC 
AGAAAAGCAG CAGACACTGT AACTGCTGAG ACAGGAATTA GGAGATATGT TGCTGGAGCC 
ATGGGTCCAA CAAACAGGAC ACTCTCTGTG TCACCATCTG TGGAGAGACC AGATTACAGG 
AACATAACTT TTGATGAACT GGTTGAGGCC TATACAGAAC AAGCCAAAGG ACTTTTGGAT 
GGAGGAGTTG ACATCTTACT GGTGGAAACC ATATTTGACA CTGCCAATGC TAAGGCAGCT 
CTTTTTGCAC TCCAGATGTT GTTTGAGGAA GAATATGCTT CCCGACCCAT ATTTGTTTCT 
GGAACTATTG TGGATAAGAG TGGGCGTACC CTCTCTGGCC AGACAGGAGA GGCATTTGTC 
GTTAGTGTTT CCCACAGTAA GCCACTTTGT ATTGGCTTAA ATTGTGCTTT AGGGGCAGTT 
GAAATGCGTC CATTCATTGA AACAATTGGA AAATGCACAA CCGCCTACAT CATCTGTTAC 
CCCAACGCAG GTCTTCCCAA TACATTTGGT GGTTATGATG AAACTCCAGA AGTGACTGCC 
AAGCATATAG AGAATTTTGC TTTGGATGGT TTGGTCAACA TAGTTGGAGG TTGCTGTGGT 
ACCACACCAG CGCATATCAG AAAAATTGCT GAAGCTGTGA AATTCTGTAA GCCTCGTGTT 
CCACCTTCTC TCTCTGAAGG ATATATGCTG CTGTCAGGTC TGGAGCCATT CAGGATTGGG 
CCATATACCA ACTTCGTTAA TATTGGTGAA CGGTGCAATG TTGCAGGATC ACGGAAGTTT 
GCTAAACTCA TCATGGCAGG CAACTATGAA GAAGCCCTGA GTGTAGCCAA ATTGCAAGTT 
GAGATGGGGG CCCAGATTCT TGACATAAAT ATGGATGATG GGATGTTGGA TGGCCCCACT 
GCAATGACCA AATTTTGTAA CTTGATTTCT TCGGAACCTG ATATTGCAAA GGTGCCATTA 
TGCATAGACT CCTCAAACTT TTCAGTGATT GAAGCAGGTT TGAAATGTTG CCAAGGGAAA 
TGCATTGTAA ACAGCATCAG TCTAAAGGAA GGTGAGGAAG ACTTTCTGGA GAAAGCGAGG 
AAAATTAAAT TATATGGAGC AGCTGTGGTT GTTATGGCTT TTGATGAAGT GGGGCAGGCA 
ACAGAAACAG AAACCAAGAT TGCAATCTGT TCCAGAGCTT ATCATCTCCT TGTGGGAAAA 
GTGCACTTCA ATCCAAATGA TATAATATTC GACCCTAATA TTTTGACCAT AGGAACTGGA 
ATGGAAGAAC ATAACCTTTA TGCCATAAAT TTTATCAATG CTACTAAAAC CATAAAAGAA 
ACATTGCCAG GAGCCAGGAT AAGTGGAGGT CTTTCCAATC TGTCCTTCTC CTTTCGAGGA 
ATGGATGCCA TTCGAGAAGC AATGCATGGA GTGTTCCTTT ACCACGCAAT TAAGTATGGC 
ATGGACATGG GAATTGTGAA TGCTGGGAAT CTGCCTGTGT ATGATGATAT CCACAAGGAA 
TTGCTACAGC TGTGTGAGAA TCTAATCTGG AATAAAGATC CTGATGCAAC AGAGAAACTT 
TTACATTATG CTCAGAATCA TGCCCAAGGA GGAAAAAAAG TTGTACAGAC CGATGAGTGG 
CGTAAAGGCT CTGTGGAGGA AAGGCTGGAA TATGCTCTCA TAAAGGGCAT TGAGAAGTAT 
GTCATTGCAG ATACAGAAGA AGCAAGATTA AAACAAGAAA AATATCCTAG ACCTCTAAAT 
GTAATTGAAG GGCCTTTGAT GAATGGCATG AAAATTGTTG GTGATCTTTT TGGTGCTGGA 
AAGATGTTTC TGCCTCAGGT GATAAAATCT GCTCGAGTTA TGAAGAAAGC AGTTGGCCAC 
CTTATTCCCT ATATGGAAAA AGAAAGAGAG GAAAGGAGAG CCAAGCAAGG CAGCACAGAA 
GAAGAGGATC CTTACCAGGG TACAATAGTA TTGGCAACTG TGAAGGGAGA CGTACATGAT 
ATTGGCAAGA ACATTGTGGG AGTTGTTCTG GGCTGCAACA ACTTCAGAGT TATTGATTTA 
GGAGTTATGA CTCCATGTGA TAAGATATTA AGAGCTGCTG TGGAGAACAA AGCAGATATA 
ATTGGCCTGT CTGGTCTCAT CACCCCATCT TTGGATGAGA TGATTTTTGT CGCCAAGGAA 
ATGGAGAGAT TGGCAATAAA GATTCCTTTG CTTATTGGAG GAGCAACTAC TTCTAAAACA 
CACACAGCTG TTAAAATTGC CCCAAGATAT AGCGCACCTG TAGTTCATGT CCTGGATGCA 
TCCAAGAGTG TTGTGGTTTG CTCTCAGCTC TTAGACGACA GTATAAAGGA TGATTTCTTT 
GAAGAAATAT TAGACGAATA TGAAGAAATT AGACAAGAAC ACTATGAGTC TCTCAAGGAA 
AGAAGATACT TGTCTCTACA GCAAGCTAGA AGAAAAGGTT TCCAAAATAA TTGGTTATCA 
GGCCATATAC CAGTTAAACC AAAATTCATT GGCACAAAAG TCTTTGAAGA CTATGACCTG 
AGAAGGCTGG TAGACTACAT TGACTGGAAG CCCTTCTTTG ATGTCTGGCA ACTTAGGGGA 
AAGTATCCCA ACCGGAGTTT CCCTAAGATC TTTAATGATA AAACTGTAGG TGAAGAAGCA 
AAGAGAGTTT ATAATGATGC TCAAGATCTA CTGAAAATGT TGATTAATGA AAAGAAATTA 
CAAGCCAGAG GTGTGGTTGG GTTCTGGCCA GCTCGAAGTG TTCAAGATGA TATCCACTTG 
TATGCTGTAG AAGAGGCAGT GGGATCTTCA GAACCAATAG CAAAATTTTA TGGATTGAGG 
CAACAGGCTG AAAAGGACTC TGCCTGCACA GATCCATATT ACTGCCTCTC TGACTTCATA 
GCACCGCTGG ATTCTGGCAT TTGTGACTAC TTAGGCCTGT TTGCAGTGGC CTGCTTTGGT 
GTAGATGACT TATGCAGTGA ATTTAGGAAA CAGGAGGATG AATACAACAT CATAATGGTG 
AAGGCTCTCG GTGATCGGTT GGCAGAGGCA TTTGCTGAGG AGCTTCATGA AAGAGTTCGA 
AGGGAATTCT GGGCTTACAG TAGTAGTGAG CAGCTGGATC TCTCTGGCCT ACGCAAAATT 
AAATATGAGG GAATTCGCCC TGCTCCTGGA TATCCCAGCC AGCCTGACCA TACAGAAAAA 
CTCACCATGT GGAAACTTGC AAACATTGAG GAAACAACAG GAATTGGTCT AACGGAATCA 
CTAGCAATGA TACCTGCTTC TGCAGTTTCT GGCCTCTACT TTTCCAGTCC CAATTCCAAA 
TATTTTGCTG TTGGCAAGAT ATGTAGAGAT CAGGTTGAAG ATTATGCACT GAGAAAAAAT 
TTGTCTGTGG TGGAGGTGGA GAAGTGGCTG GAACCCATTT TGGGATATGA TGCTGAACAA 
CTGTGA

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

MTR ( XM_002192686.4 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002192722.2 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd08341
Clone ID Related Accession (Same CDS sequence)	XM_002192686.3 , XM_002192686.4
Accession Version	XM_002192686.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3786bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002192686.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGCCCA CGGGGCCGCC GGATCCCCAG AAAAGTGTGG AAGATGAAAT TGAATCTATT 
CTGCAGGAGC GGATAATGGT TTTGGATGGG GGCATGGGGA CCATGATCCA GCAACATGCA 
CTGACAGAAG AGGATTTCCG AGGGCATGAA TTTAAAGATC ATTCCAGGCC TTTGAAAGGC 
AATAATGACC TTCTGAGTAT AACTCAGCCT GATATAATCT GTGACATACA CAAGGAATAC 
TTGCTGTCAG GTGCTGACAT CATTGAAACC AACACTTTCA GCAGCACCCG AGTTGCACAG 
GCTGACTATG GCCTTGAGCA TTTGGCGTAT CGATTAAACA GAGTCTCTGC ACAGGTGGCC 
AGAAAAGCAG CAGACACTGT AACTGCTGAG ACAGGAATTA GGAGATATGT TGCTGGAGCC 
ATGGGTCCAA CAAACAGGAC ACTCTCTGTG TCACCATCTG TGGAGAGACC AGATTACAGG 
AACATAACTT TTGATGAACT GGTTGAGGCC TATACAGAAC AAGCCAAAGG ACTTTTGGAT 
GGAGGAGTTG ACATCTTACT GGTGGAAACC ATATTTGACA CTGCCAATGC TAAGGCAGCT 
CTTTTTGCAC TCCAGATGTT GTTTGAGGAA GAATATGCTT CCCGACCCAT ATTTGTTTCT 
GGAACTATTG TGGATAAGAG TGGGCGTACC CTCTCTGGCC AGACAGGAGA GGCATTTGTC 
GTTAGTGTTT CCCACAGTAA GCCACTTTGT ATTGGCTTAA ATTGTGCTTT AGGGGCAGTT 
GAAATGCGTC CATTCATTGA AACAATTGGA AAATGCACAA CCGCCTACAT CATCTGTTAC 
CCCAACGCAG GTCTTCCCAA TACATTTGGT GGTTATGATG AAACTCCAGA AGTGACTGCC 
AAGCATATAG AGAATTTTGC TTTGGATGGT TTGGTCAACA TAGTTGGAGG TTGCTGTGGT 
ACCACACCAG CGCATATCAG AAAAATTGCT GAAGCTGTGA AATTCTGTAA GCCTCGTGTT 
CCACCTTCTC TCTCTGAAGG ATATATGCTG CTGTCAGGTC TGGAGCCATT CAGGATTGGG 
CCATATACCA ACTTCGTTAA TATTGGTGAA CGGTGCAATG TTGCAGGATC ACGGAAGTTT 
GCTAAACTCA TCATGGCAGG CAACTATGAA GAAGCCCTGA GTGTAGCCAA ATTGCAAGTT 
GAGATGGGGG CCCAGATTCT TGACATAAAT ATGGATGATG GGATGTTGGA TGGCCCCACT 
GCAATGACCA AATTTTGTAA CTTGATTTCT TCGGAACCTG ATATTGCAAA GGTGCCATTA 
TGCATAGACT CCTCAAACTT TTCAGTGATT GAAGCAGGTT TGAAATGTTG CCAAGGGAAA 
TGCATTGTAA ACAGCATCAG TCTAAAGGAA GGTGAGGAAG ACTTTCTGGA GAAAGCGAGG 
AAAATTAAAT TATATGGAGC AGCTGTGGTT GTTATGGCTT TTGATGAAGT GGGGCAGGCA 
ACAGAAACAG AAACCAAGAT TGCAATCTGT TCCAGAGCTT ATCATCTCCT TGTGGGAAAA 
GTGCACTTCA ATCCAAATGA TATAATATTC GACCCTAATA TTTTGACCAT AGGAACTGGA 
ATGGAAGAAC ATAACCTTTA TGCCATAAAT TTTATCAATG CTACTAAAAC CATAAAAGAA 
ACATTGCCAG GAGCCAGGAT AAGTGGAGGT CTTTCCAATC TGTCCTTCTC CTTTCGAGGA 
ATGGATGCCA TTCGAGAAGC AATGCATGGA GTGTTCCTTT ACCACGCAAT TAAGTATGGC 
ATGGACATGG GAATTGTGAA TGCTGGGAAT CTGCCTGTGT ATGATGATAT CCACAAGGAA 
TTGCTACAGC TGTGTGAGAA TCTAATCTGG AATAAAGATC CTGATGCAAC AGAGAAACTT 
TTACATTATG CTCAGAATCA TGCCCAAGGA GGAAAAAAAG TTGTACAGAC CGATGAGTGG 
CGTAAAGGCT CTGTGGAGGA AAGGCTGGAA TATGCTCTCA TAAAGGGCAT TGAGAAGTAT 
GTCATTGCAG ATACAGAAGA AGCAAGATTA AAACAAGAAA AATATCCTAG ACCTCTAAAT 
GTAATTGAAG GGCCTTTGAT GAATGGCATG AAAATTGTTG GTGATCTTTT TGGTGCTGGA 
AAGATGTTTC TGCCTCAGGT GATAAAATCT GCTCGAGTTA TGAAGAAAGC AGTTGGCCAC 
CTTATTCCCT ATATGGAAAA AGAAAGAGAG GAAAGGAGAG CCAAGCAAGG CAGCACAGAA 
GAAGAGGATC CTTACCAGGG TACAATAGTA TTGGCAACTG TGAAGGGAGA CGTACATGAT 
ATTGGCAAGA ACATTGTGGG AGTTGTTCTG GGCTGCAACA ACTTCAGAGT TATTGATTTA 
GGAGTTATGA CTCCATGTGA TAAGATATTA AGAGCTGCTG TGGAGAACAA AGCAGATATA 
ATTGGCCTGT CTGGTCTCAT CACCCCATCT TTGGATGAGA TGATTTTTGT CGCCAAGGAA 
ATGGAGAGAT TGGCAATAAA GATTCCTTTG CTTATTGGAG GAGCAACTAC TTCTAAAACA 
CACACAGCTG TTAAAATTGC CCCAAGATAT AGCGCACCTG TAGTTCATGT CCTGGATGCA 
TCCAAGAGTG TTGTGGTTTG CTCTCAGCTC TTAGACGACA GTATAAAGGA TGATTTCTTT 
GAAGAAATAT TAGACGAATA TGAAGAAATT AGACAAGAAC ACTATGAGTC TCTCAAGGAA 
AGAAGATACT TGTCTCTACA GCAAGCTAGA AGAAAAGGTT TCCAAAATAA TTGGTTATCA 
GGCCATATAC CAGTTAAACC AAAATTCATT GGCACAAAAG TCTTTGAAGA CTATGACCTG 
AGAAGGCTGG TAGACTACAT TGACTGGAAG CCCTTCTTTG ATGTCTGGCA ACTTAGGGGA 
AAGTATCCCA ACCGGAGTTT CCCTAAGATC TTTAATGATA AAACTGTAGG TGAAGAAGCA 
AAGAGAGTTT ATAATGATGC TCAAGATCTA CTGAAAATGT TGATTAATGA AAAGAAATTA 
CAAGCCAGAG GTGTGGTTGG GTTCTGGCCA GCTCGAAGTG TTCAAGATGA TATCCACTTG 
TATGCTGTAG AAGAGGCAGT GGGATCTTCA GAACCAATAG CAAAATTTTA TGGATTGAGG 
CAACAGGCTG AAAAGGACTC TGCCTGCACA GATCCATATT ACTGCCTCTC TGACTTCATA 
GCACCGCTGG ATTCTGGCAT TTGTGACTAC TTAGGCCTGT TTGCAGTGGC CTGCTTTGGT 
GTAGATGACT TATGCAGTGA ATTTAGGAAA CAGGAGGATG AATACAACAT CATAATGGTG 
AAGGCTCTCG GTGATCGGTT GGCAGAGGCA TTTGCTGAGG AGCTTCATGA AAGAGTTCGA 
AGGGAATTCT GGGCTTACAG TAGTAGTGAG CAGCTGGATC TCTCTGGCCT ACGCAAAATT 
AAATATGAGG GAATTCGCCC TGCTCCTGGA TATCCCAGCC AGCCTGACCA TACAGAAAAA 
CTCACCATGT GGAAACTTGC AAACATTGAG GAAACAACAG GAATTGGTCT AACGGAATCA 
CTAGCAATGA TACCTGCTTC TGCAGTTTCT GGCCTCTACT TTTCCAGTCC CAATTCCAAA 
TATTTTGCTG TTGGCAAGAT ATGTAGAGAT CAGGTTGAAG ATTATGCACT GAGAAAAAAT 
TTGTCTGTGG TGGAGGTGGA GAAGTGGCTG GAACCCATTT TGGGATATGA TGCTGAACAA 
CTGTGA

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

RefSeq	XP_002192722.2
CDS	54..3839
Translation	MAPTGPPDPQKSVEDEIESILQERIMVLDGGMGTMIQQHALTEEDFRGHEFKDHSRPLKGNNDLLSITQPDIICDIHKEYLLSGADIIETNTFSSTRVAQADYGLEHLAYRLNRVSAQVARKAADTVTAETGIRRYVAGAMGPTNRTLSVSPSVERPDYRNITFDELVEAYTEQAKGLLDGGVDILLVETIFDTANAKAALFALQMLFEEEYASRPIFVSGTIVDKSGRTLSGQTGEAFVVSVSHSKPLCIGLNCALGAVEMRPFIETIGKCTTAYIICYPNAGLPNTFGGYDETPEVTAKHIENFALDGLVNIVGGCCGTTPAHIRKIAEAVKFCKPRVPPSLSEGYMLLSGLEPFRIGPYTNFVNIGERCNVAGSRKFAKLIMAGNYEEALSVAKLQVEMGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_002192686.4
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X2, mRNA.

Target ORF information:

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

XM_002192686.4

ORF Insert Sequence:

ATGGCGCCCA CGGGGCCGCC GGATCCCCAG AAAAGTGTGG AAGATGAAAT TGAATCTATT 
CTGCAGGAGC GGATAATGGT TTTGGATGGG GGCATGGGGA CCATGATCCA GCAACATGCA 
CTGACAGAAG AGGATTTCCG AGGGCATGAA TTTAAAGATC ATTCCAGGCC TTTGAAAGGC 
AATAATGACC TTCTGAGTAT AACTCAGCCT GATATAATCT GTGACATACA CAAGGAATAC 
TTGCTGTCAG GTGCTGACAT CATTGAAACC AACACTTTCA GCAGCACCCG AGTTGCACAG 
GCTGACTATG GCCTTGAGCA TTTGGCGTAT CGATTAAACA GAGTCTCTGC ACAGGTGGCC 
AGAAAAGCAG CAGACACTGT AACTGCTGAG ACAGGAATTA GGAGATATGT TGCTGGAGCC 
ATGGGTCCAA CAAACAGGAC ACTCTCTGTG TCACCATCTG TGGAGAGACC AGATTACAGG 
AACATAACTT TTGATGAACT GGTTGAGGCC TATACAGAAC AAGCCAAAGG ACTTTTGGAT 
GGAGGAGTTG ACATCTTACT GGTGGAAACC ATATTTGACA CTGCCAATGC TAAGGCAGCT 
CTTTTTGCAC TCCAGATGTT GTTTGAGGAA GAATATGCTT CCCGACCCAT ATTTGTTTCT 
GGAACTATTG TGGATAAGAG TGGGCGTACC CTCTCTGGCC AGACAGGAGA GGCATTTGTC 
GTTAGTGTTT CCCACAGTAA GCCACTTTGT ATTGGCTTAA ATTGTGCTTT AGGGGCAGTT 
GAAATGCGTC CATTCATTGA AACAATTGGA AAATGCACAA CCGCCTACAT CATCTGTTAC 
CCCAACGCAG GTCTTCCCAA TACATTTGGT GGTTATGATG AAACTCCAGA AGTGACTGCC 
AAGCATATAG AGAATTTTGC TTTGGATGGT TTGGTCAACA TAGTTGGAGG TTGCTGTGGT 
ACCACACCAG CGCATATCAG AAAAATTGCT GAAGCTGTGA AATTCTGTAA GCCTCGTGTT 
CCACCTTCTC TCTCTGAAGG ATATATGCTG CTGTCAGGTC TGGAGCCATT CAGGATTGGG 
CCATATACCA ACTTCGTTAA TATTGGTGAA CGGTGCAATG TTGCAGGATC ACGGAAGTTT 
GCTAAACTCA TCATGGCAGG CAACTATGAA GAAGCCCTGA GTGTAGCCAA ATTGCAAGTT 
GAGATGGGGG CCCAGATTCT TGACATAAAT ATGGATGATG GGATGTTGGA TGGCCCCACT 
GCAATGACCA AATTTTGTAA CTTGATTTCT TCGGAACCTG ATATTGCAAA GGTGCCATTA 
TGCATAGACT CCTCAAACTT TTCAGTGATT GAAGCAGGTT TGAAATGTTG CCAAGGGAAA 
TGCATTGTAA ACAGCATCAG TCTAAAGGAA GGTGAGGAAG ACTTTCTGGA GAAAGCGAGG 
AAAATTAAAT TATATGGAGC AGCTGTGGTT GTTATGGCTT TTGATGAAGT GGGGCAGGCA 
ACAGAAACAG AAACCAAGAT TGCAATCTGT TCCAGAGCTT ATCATCTCCT TGTGGGAAAA 
GTGCACTTCA ATCCAAATGA TATAATATTC GACCCTAATA TTTTGACCAT AGGAACTGGA 
ATGGAAGAAC ATAACCTTTA TGCCATAAAT TTTATCAATG CTACTAAAAC CATAAAAGAA 
ACATTGCCAG GAGCCAGGAT AAGTGGAGGT CTTTCCAATC TGTCCTTCTC CTTTCGAGGA 
ATGGATGCCA TTCGAGAAGC AATGCATGGA GTGTTCCTTT ACCACGCAAT TAAGTATGGC 
ATGGACATGG GAATTGTGAA TGCTGGGAAT CTGCCTGTGT ATGATGATAT CCACAAGGAA 
TTGCTACAGC TGTGTGAGAA TCTAATCTGG AATAAAGATC CTGATGCAAC AGAGAAACTT 
TTACATTATG CTCAGAATCA TGCCCAAGGA GGAAAAAAAG TTGTACAGAC CGATGAGTGG 
CGTAAAGGCT CTGTGGAGGA AAGGCTGGAA TATGCTCTCA TAAAGGGCAT TGAGAAGTAT 
GTCATTGCAG ATACAGAAGA AGCAAGATTA AAACAAGAAA AATATCCTAG ACCTCTAAAT 
GTAATTGAAG GGCCTTTGAT GAATGGCATG AAAATTGTTG GTGATCTTTT TGGTGCTGGA 
AAGATGTTTC TGCCTCAGGT GATAAAATCT GCTCGAGTTA TGAAGAAAGC AGTTGGCCAC 
CTTATTCCCT ATATGGAAAA AGAAAGAGAG GAAAGGAGAG CCAAGCAAGG CAGCACAGAA 
GAAGAGGATC CTTACCAGGG TACAATAGTA TTGGCAACTG TGAAGGGAGA CGTACATGAT 
ATTGGCAAGA ACATTGTGGG AGTTGTTCTG GGCTGCAACA ACTTCAGAGT TATTGATTTA 
GGAGTTATGA CTCCATGTGA TAAGATATTA AGAGCTGCTG TGGAGAACAA AGCAGATATA 
ATTGGCCTGT CTGGTCTCAT CACCCCATCT TTGGATGAGA TGATTTTTGT CGCCAAGGAA 
ATGGAGAGAT TGGCAATAAA GATTCCTTTG CTTATTGGAG GAGCAACTAC TTCTAAAACA 
CACACAGCTG TTAAAATTGC CCCAAGATAT AGCGCACCTG TAGTTCATGT CCTGGATGCA 
TCCAAGAGTG TTGTGGTTTG CTCTCAGCTC TTAGACGACA GTATAAAGGA TGATTTCTTT 
GAAGAAATAT TAGACGAATA TGAAGAAATT AGACAAGAAC ACTATGAGTC TCTCAAGGAA 
AGAAGATACT TGTCTCTACA GCAAGCTAGA AGAAAAGGTT TCCAAAATAA TTGGTTATCA 
GGCCATATAC CAGTTAAACC AAAATTCATT GGCACAAAAG TCTTTGAAGA CTATGACCTG 
AGAAGGCTGG TAGACTACAT TGACTGGAAG CCCTTCTTTG ATGTCTGGCA ACTTAGGGGA 
AAGTATCCCA ACCGGAGTTT CCCTAAGATC TTTAATGATA AAACTGTAGG TGAAGAAGCA 
AAGAGAGTTT ATAATGATGC TCAAGATCTA CTGAAAATGT TGATTAATGA AAAGAAATTA 
CAAGCCAGAG GTGTGGTTGG GTTCTGGCCA GCTCGAAGTG TTCAAGATGA TATCCACTTG 
TATGCTGTAG AAGAGGCAGT GGGATCTTCA GAACCAATAG CAAAATTTTA TGGATTGAGG 
CAACAGGCTG AAAAGGACTC TGCCTGCACA GATCCATATT ACTGCCTCTC TGACTTCATA 
GCACCGCTGG ATTCTGGCAT TTGTGACTAC TTAGGCCTGT TTGCAGTGGC CTGCTTTGGT 
GTAGATGACT TATGCAGTGA ATTTAGGAAA CAGGAGGATG AATACAACAT CATAATGGTG 
AAGGCTCTCG GTGATCGGTT GGCAGAGGCA TTTGCTGAGG AGCTTCATGA AAGAGTTCGA 
AGGGAATTCT GGGCTTACAG TAGTAGTGAG CAGCTGGATC TCTCTGGCCT ACGCAAAATT 
AAATATGAGG GAATTCGCCC TGCTCCTGGA TATCCCAGCC AGCCTGACCA TACAGAAAAA 
CTCACCATGT GGAAACTTGC AAACATTGAG GAAACAACAG GAATTGGTCT AACGGAATCA 
CTAGCAATGA TACCTGCTTC TGCAGTTTCT GGCCTCTACT TTTCCAGTCC CAATTCCAAA 
TATTTTGCTG TTGGCAAGAT ATGTAGAGAT CAGGTTGAAG ATTATGCACT GAGAAAAAAT 
TTGTCTGTGG TGGAGGTGGA GAAGTGGCTG GAACCCATTT TGGGATATGA TGCTGAACAA 
CTGTGA

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

MTR ( XM_030268236.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030124096.1 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd42240
Clone ID Related Accession (Same CDS sequence)	XM_030268236.1
Accession Version	XM_030268236.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3789bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGCCCA CGGGGCCGCC GGCAGATCCC CAGAAAAGTG TGGAAGATGA AATTGAATCT 
ATTCTGCAGG AGCGGATAAT GGTTTTGGAT GGGGGCATGG GGACCATGAT CCAGCAACAT 
GCACTGACAG AAGAGGATTT CCGAGGGCAT GAATTTAAAG ATCATTCCAG GCCTTTGAAA 
GGCAATAATG ACCTTCTGAG TATAACTCAG CCTGATATAA TCTGTGACAT ACACAAGGAA 
TACTTGCTGT CAGGTGCTGA CATCATTGAA ACCAACACTT TCAGCAGCAC CCGAGTTGCA 
CAGGCTGACT ATGGCCTTGA GCATTTGGCG TATCGATTAA ACAGAGTCTC TGCACAGGTG 
GCCAGAAAAG CAGCAGACAC TGTAACTGCT GAGACAGGAA TTAGGAGATA TGTTGCTGGA 
GCCATGGGTC CAACAAACAG GACACTCTCT GTGTCACCAT CTGTGGAGAG ACCAGATTAC 
AGGAACATAA CTTTTGATGA ACTGGTTGAG GCCTATACAG AACAAGCCAA AGGACTTTTG 
GATGGAGGAG TTGACATCTT ACTGGTGGAA ACCATATTTG ACACTGCCAA TGCTAAGGCA 
GCTCTTTTTG CACTCCAGAT GTTGTTTGAG GAAGAATATG CTTCCCGACC CATATTTGTT 
TCTGGAACTA TTGTGGATAA GAGTGGGCGT ACCCTCTCTG GCCAGACAGG AGAGGCATTT 
GTCGTTAGTG TTTCCCACAG TAAGCCACTT TGTATTGGCT TAAATTGTGC TTTAGGGGCA 
GTTGAAATGC GTCCATTCAT TGAAACAATT GGAAAATGCA CAACCGCCTA CATCATCTGT 
TACCCCAACG CAGGTCTTCC CAATACATTT GGTGGTTATG ATGAAACTCC AGAAGTGACT 
GCCAAGCATA TAGAGAATTT TGCTTTGGAT GGTTTGGTCA ACATAGTTGG AGGTTGCTGT 
GGTACCACAC CAGCGCATAT CAGAAAAATT GCTGAAGCTG TGAAATTCTG TAAGCCTCGT 
GTTCCACCTT CTCTCTCTGA AGGATATATG CTGCTGTCAG GTCTGGAGCC ATTCAGGATT 
GGGCCATATA CCAACTTCGT TAATATTGGT GAACGGTGCA ATGTTGCAGG ATCACGGAAG 
TTTGCTAAAC TCATCATGGC AGGCAACTAT GAAGAAGCCC TGAGTGTAGC CAAATTGCAA 
GTTGAGATGG GGGCCCAGAT TCTTGACATA AATATGGATG ATGGGATGTT GGATGGCCCC 
ACTGCAATGA CCAAATTTTG TAACTTGATT TCTTCGGAAC CTGATATTGC AAAGGTGCCA 
TTATGCATAG ACTCCTCAAA CTTTTCAGTG ATTGAAGCAG GTTTGAAATG TTGCCAAGGG 
AAATGCATTG TAAACAGCAT CAGTCTAAAG GAAGGTGAGG AAGACTTTCT GGAGAAAGCG 
AGGAAAATTA AATTATATGG AGCAGCTGTG GTTGTTATGG CTTTTGATGA AGTGGGGCAG 
GCAACAGAAA CAGAAACCAA GATTGCAATC TGTTCCAGAG CTTATCATCT CCTTGTGGGA 
AAAGTGCACT TCAATCCAAA TGATATAATA TTCGACCCTA ATATTTTGAC CATAGGAACT 
GGAATGGAAG AACATAACCT TTATGCCATA AATTTTATCA ATGCTACTAA AACCATAAAA 
GAAACATTGC CAGGAGCCAG GATAAGTGGA GGTCTTTCCA ATCTGTCCTT CTCCTTTCGA 
GGAATGGATG CCATTCGAGA AGCAATGCAT GGAGTGTTCC TTTACCACGC AATTAAGTAT 
GGCATGGACA TGGGAATTGT GAATGCTGGG AATCTGCCTG TGTATGATGA TATCCACAAG 
GAATTGCTAC AGCTGTGTGA GAATCTAATC TGGAATAAAG ATCCTGATGC AACAGAGAAA 
CTTTTACATT ATGCTCAGAA TCATGCCCAA GGAGGAAAAA AAGTTGTACA GACCGATGAG 
TGGCGTAAAG GCTCTGTGGA GGAAAGGCTG GAATATGCTC TCATAAAGGG CATTGAGAAG 
TATGTCATTG CAGATACAGA AGAAGCAAGA TTAAAACAAG AAAAATATCC TAGACCTCTA 
AATGTAATTG AAGGGCCTTT GATGAATGGC ATGAAAATTG TTGGTGATCT TTTTGGTGCT 
GGAAAGATGT TTCTGCCTCA GGTGATAAAA TCTGCTCGAG TTATGAAGAA AGCAGTTGGC 
CACCTTATTC CCTATATGGA AAAAGAAAGA GAGGAAAGGA GAGCCAAGCA AGGCAGCACA 
GAAGAAGAGG ATCCTTACCA GGGTACAATA GTATTGGCAA CTGTGAAGGG AGACGTACAT 
GATATTGGCA AGAACATTGT GGGAGTTGTT CTGGGCTGCA ACAACTTCAG AGTTATTGAT 
TTAGGAGTTA TGACTCCATG TGATAAGATA TTAAGAGCTG CTGTGGAGAA CAAAGCAGAT 
ATAATTGGCC TGTCTGGTCT CATCACCCCA TCTTTGGATG AGATGATTTT TGTCGCCAAG 
GAAATGGAGA GATTGGCAAT AAAGATTCCT TTGCTTATTG GAGGAGCAAC TACTTCTAAA 
ACACACACAG CTGTTAAAAT TGCCCCAAGA TATAGCGCAC CTGTAGTTCA TGTCCTGGAT 
GCATCCAAGA GTGTTGTGGT TTGCTCTCAG CTCTTAGACG ACAGTATAAA GGATGATTTC 
TTTGAAGAAA TATTAGACGA ATATGAAGAA ATTAGACAAG AACACTATGA GTCTCTCAAG 
GAAAGAAGAT ACTTGTCTCT ACAGCAAGCT AGAAGAAAAG GTTTCCAAAA TAATTGGTTA 
TCAGGCCATA TACCAGTTAA ACCAAAATTC ATTGGCACAA AAGTCTTTGA AGACTATGAC 
CTGAGAAGGC TGGTAGACTA CATTGACTGG AAGCCCTTCT TTGATGTCTG GCAACTTAGG 
GGAAAGTATC CCAACCGGAG TTTCCCTAAG ATCTTTAATG ATAAAACTGT AGGTGAAGAA 
GCAAAGAGAG TTTATAATGA TGCTCAAGAT CTACTGAAAA TGTTGATTAA TGAAAAGAAA 
TTACAAGCCA GAGGTGTGGT TGGGTTCTGG CCAGCTCGAA GTGTTCAAGA TGATATCCAC 
TTGTATGCTG TAGAAGAGGC AGTGGGATCT TCAGAACCAA TAGCAAAATT TTATGGATTG 
AGGCAACAGG CTGAAAAGGA CTCTGCCTGC ACAGATCCAT ATTACTGCCT CTCTGACTTC 
ATAGCACCGC TGGATTCTGG CATTTGTGAC TACTTAGGCC TGTTTGCAGT GGCCTGCTTT 
GGTGTAGATG ACTTATGCAG TGAATTTAGG AAACAGGAGG ATGAATACAA CATCATAATG 
GTGAAGGCTC TCGGTGATCG GTTGGCAGAG GCATTTGCTG AGGAGCTTCA TGAAAGAGTT 
CGAAGGGAAT TCTGGGCTTA CAGTAGTAGT GAGCAGCTGG ATCTCTCTGG CCTACGCAAA 
ATTAAATATG AGGGAATTCG CCCTGCTCCT GGATATCCCA GCCAGCCTGA CCATACAGAA 
AAACTCACCA TGTGGAAACT TGCAAACATT GAGGAAACAA CAGGAATTGG TCTAACGGAA 
TCACTAGCAA TGATACCTGC TTCTGCAGTT TCTGGCCTCT ACTTTTCCAG TCCCAATTCC 
AAATATTTTG CTGTTGGCAA GATATGTAGA GATCAGGTTG AAGATTATGC ACTGAGAAAA 
AATTTGTCTG TGGTGGAGGT GGAGAAGTGG CTGGAACCCA TTTTGGGATA TGATGCTGAA 
CAACTGTGA

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

RefSeq	XP_030124096.1
CDS	45..3833
Translation	MAPTGPPADPQKSVEDEIESILQERIMVLDGGMGTMIQQHALTEEDFRGHEFKDHSRPLKGNNDLLSITQPDIICDIHKEYLLSGADIIETNTFSSTRVAQADYGLEHLAYRLNRVSAQVARKAADTVTAETGIRRYVAGAMGPTNRTLSVSPSVERPDYRNITFDELVEAYTEQAKGLLDGGVDILLVETIFDTANAKAALFALQMLFEEEYASRPIFVSGTIVDKSGRTLSGQTGEAFVVSVSHSKPLCIGLNCALGAVEMRPFIETIGKCTTAYIICYPNAGLPNTFGGYDETPEVTAKHIENFALDGLVNIVGGCCGTTPAHIRKIAEAVKFCKPRVPPSLSEGYMLLSGLEPFRIGPYTNFVNIGERCNVAGSRKFAKLIMAGNYEEALSVAKLQVEMGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_030268236.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X1, mRNA.

Target ORF information:

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

XM_030268236.1

ORF Insert Sequence:

ATGGCGCCCA CGGGGCCGCC GGCAGATCCC CAGAAAAGTG TGGAAGATGA AATTGAATCT 
ATTCTGCAGG AGCGGATAAT GGTTTTGGAT GGGGGCATGG GGACCATGAT CCAGCAACAT 
GCACTGACAG AAGAGGATTT CCGAGGGCAT GAATTTAAAG ATCATTCCAG GCCTTTGAAA 
GGCAATAATG ACCTTCTGAG TATAACTCAG CCTGATATAA TCTGTGACAT ACACAAGGAA 
TACTTGCTGT CAGGTGCTGA CATCATTGAA ACCAACACTT TCAGCAGCAC CCGAGTTGCA 
CAGGCTGACT ATGGCCTTGA GCATTTGGCG TATCGATTAA ACAGAGTCTC TGCACAGGTG 
GCCAGAAAAG CAGCAGACAC TGTAACTGCT GAGACAGGAA TTAGGAGATA TGTTGCTGGA 
GCCATGGGTC CAACAAACAG GACACTCTCT GTGTCACCAT CTGTGGAGAG ACCAGATTAC 
AGGAACATAA CTTTTGATGA ACTGGTTGAG GCCTATACAG AACAAGCCAA AGGACTTTTG 
GATGGAGGAG TTGACATCTT ACTGGTGGAA ACCATATTTG ACACTGCCAA TGCTAAGGCA 
GCTCTTTTTG CACTCCAGAT GTTGTTTGAG GAAGAATATG CTTCCCGACC CATATTTGTT 
TCTGGAACTA TTGTGGATAA GAGTGGGCGT ACCCTCTCTG GCCAGACAGG AGAGGCATTT 
GTCGTTAGTG TTTCCCACAG TAAGCCACTT TGTATTGGCT TAAATTGTGC TTTAGGGGCA 
GTTGAAATGC GTCCATTCAT TGAAACAATT GGAAAATGCA CAACCGCCTA CATCATCTGT 
TACCCCAACG CAGGTCTTCC CAATACATTT GGTGGTTATG ATGAAACTCC AGAAGTGACT 
GCCAAGCATA TAGAGAATTT TGCTTTGGAT GGTTTGGTCA ACATAGTTGG AGGTTGCTGT 
GGTACCACAC CAGCGCATAT CAGAAAAATT GCTGAAGCTG TGAAATTCTG TAAGCCTCGT 
GTTCCACCTT CTCTCTCTGA AGGATATATG CTGCTGTCAG GTCTGGAGCC ATTCAGGATT 
GGGCCATATA CCAACTTCGT TAATATTGGT GAACGGTGCA ATGTTGCAGG ATCACGGAAG 
TTTGCTAAAC TCATCATGGC AGGCAACTAT GAAGAAGCCC TGAGTGTAGC CAAATTGCAA 
GTTGAGATGG GGGCCCAGAT TCTTGACATA AATATGGATG ATGGGATGTT GGATGGCCCC 
ACTGCAATGA CCAAATTTTG TAACTTGATT TCTTCGGAAC CTGATATTGC AAAGGTGCCA 
TTATGCATAG ACTCCTCAAA CTTTTCAGTG ATTGAAGCAG GTTTGAAATG TTGCCAAGGG 
AAATGCATTG TAAACAGCAT CAGTCTAAAG GAAGGTGAGG AAGACTTTCT GGAGAAAGCG 
AGGAAAATTA AATTATATGG AGCAGCTGTG GTTGTTATGG CTTTTGATGA AGTGGGGCAG 
GCAACAGAAA CAGAAACCAA GATTGCAATC TGTTCCAGAG CTTATCATCT CCTTGTGGGA 
AAAGTGCACT TCAATCCAAA TGATATAATA TTCGACCCTA ATATTTTGAC CATAGGAACT 
GGAATGGAAG AACATAACCT TTATGCCATA AATTTTATCA ATGCTACTAA AACCATAAAA 
GAAACATTGC CAGGAGCCAG GATAAGTGGA GGTCTTTCCA ATCTGTCCTT CTCCTTTCGA 
GGAATGGATG CCATTCGAGA AGCAATGCAT GGAGTGTTCC TTTACCACGC AATTAAGTAT 
GGCATGGACA TGGGAATTGT GAATGCTGGG AATCTGCCTG TGTATGATGA TATCCACAAG 
GAATTGCTAC AGCTGTGTGA GAATCTAATC TGGAATAAAG ATCCTGATGC AACAGAGAAA 
CTTTTACATT ATGCTCAGAA TCATGCCCAA GGAGGAAAAA AAGTTGTACA GACCGATGAG 
TGGCGTAAAG GCTCTGTGGA GGAAAGGCTG GAATATGCTC TCATAAAGGG CATTGAGAAG 
TATGTCATTG CAGATACAGA AGAAGCAAGA TTAAAACAAG AAAAATATCC TAGACCTCTA 
AATGTAATTG AAGGGCCTTT GATGAATGGC ATGAAAATTG TTGGTGATCT TTTTGGTGCT 
GGAAAGATGT TTCTGCCTCA GGTGATAAAA TCTGCTCGAG TTATGAAGAA AGCAGTTGGC 
CACCTTATTC CCTATATGGA AAAAGAAAGA GAGGAAAGGA GAGCCAAGCA AGGCAGCACA 
GAAGAAGAGG ATCCTTACCA GGGTACAATA GTATTGGCAA CTGTGAAGGG AGACGTACAT 
GATATTGGCA AGAACATTGT GGGAGTTGTT CTGGGCTGCA ACAACTTCAG AGTTATTGAT 
TTAGGAGTTA TGACTCCATG TGATAAGATA TTAAGAGCTG CTGTGGAGAA CAAAGCAGAT 
ATAATTGGCC TGTCTGGTCT CATCACCCCA TCTTTGGATG AGATGATTTT TGTCGCCAAG 
GAAATGGAGA GATTGGCAAT AAAGATTCCT TTGCTTATTG GAGGAGCAAC TACTTCTAAA 
ACACACACAG CTGTTAAAAT TGCCCCAAGA TATAGCGCAC CTGTAGTTCA TGTCCTGGAT 
GCATCCAAGA GTGTTGTGGT TTGCTCTCAG CTCTTAGACG ACAGTATAAA GGATGATTTC 
TTTGAAGAAA TATTAGACGA ATATGAAGAA ATTAGACAAG AACACTATGA GTCTCTCAAG 
GAAAGAAGAT ACTTGTCTCT ACAGCAAGCT AGAAGAAAAG GTTTCCAAAA TAATTGGTTA 
TCAGGCCATA TACCAGTTAA ACCAAAATTC ATTGGCACAA AAGTCTTTGA AGACTATGAC 
CTGAGAAGGC TGGTAGACTA CATTGACTGG AAGCCCTTCT TTGATGTCTG GCAACTTAGG 
GGAAAGTATC CCAACCGGAG TTTCCCTAAG ATCTTTAATG ATAAAACTGT AGGTGAAGAA 
GCAAAGAGAG TTTATAATGA TGCTCAAGAT CTACTGAAAA TGTTGATTAA TGAAAAGAAA 
TTACAAGCCA GAGGTGTGGT TGGGTTCTGG CCAGCTCGAA GTGTTCAAGA TGATATCCAC 
TTGTATGCTG TAGAAGAGGC AGTGGGATCT TCAGAACCAA TAGCAAAATT TTATGGATTG 
AGGCAACAGG CTGAAAAGGA CTCTGCCTGC ACAGATCCAT ATTACTGCCT CTCTGACTTC 
ATAGCACCGC TGGATTCTGG CATTTGTGAC TACTTAGGCC TGTTTGCAGT GGCCTGCTTT 
GGTGTAGATG ACTTATGCAG TGAATTTAGG AAACAGGAGG ATGAATACAA CATCATAATG 
GTGAAGGCTC TCGGTGATCG GTTGGCAGAG GCATTTGCTG AGGAGCTTCA TGAAAGAGTT 
CGAAGGGAAT TCTGGGCTTA CAGTAGTAGT GAGCAGCTGG ATCTCTCTGG CCTACGCAAA 
ATTAAATATG AGGGAATTCG CCCTGCTCCT GGATATCCCA GCCAGCCTGA CCATACAGAA 
AAACTCACCA TGTGGAAACT TGCAAACATT GAGGAAACAA CAGGAATTGG TCTAACGGAA 
TCACTAGCAA TGATACCTGC TTCTGCAGTT TCTGGCCTCT ACTTTTCCAG TCCCAATTCC 
AAATATTTTG CTGTTGGCAA GATATGTAGA GATCAGGTTG AAGATTATGC ACTGAGAAAA 
AATTTGTCTG TGGTGGAGGT GGAGAAGTGG CTGGAACCCA TTTTGGGATA TGATGCTGAA 
CAACTGTGA

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

MTR ( XM_030268238.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030124098.1 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X3, mRNA.

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CloneID	OTd42241
Clone ID Related Accession (Same CDS sequence)	XM_030268238.1
Accession Version	XM_030268238.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3681bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGCCCA CGGGGCCGCC GGCAGATCCC CAGAAAAGTG TGGAAGATGA AATTGAATCT 
ATTCTGCAGG AGCGGATAAT GGTTTTGGAT GGGGGCATGG GGACCATGAT CCAGCAACAT 
GCACTGACAG AAGAGGATTT CCGAGGGCAT GAATTTAAAG ATCATTCCAG GCCTTTGAAA 
GGCAATAATG ACCTTCTGAG TATAACTCAG CCTGATATAA TCTGTGACAT ACACAAGGAA 
TACTTGCTGT CAGGTGCTGA CATCATTGAA ACCAACACTT TCAGCAGCAC CCGAGTTGCA 
CAGGCTGACT ATGGCCTTGA GCATTTGGCG TATCGATTAA ACAGAGTCTC TGCACAGGTG 
GCCAGAAAAG CAGCAGACAC TGTAACTGCT GAGACAGGAA TTAGGAGATA TGTTGCTGGA 
GCCATGGGTC CAACAAACAG GACACTCTCT GTGTCACCAT CTGTGGAGAG ACCAGATTAC 
AGGAACATAA CTTTTGATGA ACTGGTTGAG GCCTATACAG AACAAGCCAA AGGACTTTTG 
GATGGAGGAG TTGACATCTT ACTGGTGGAA ACCATATTTG ACACTGCCAA TGCTAAGGCA 
GCTCTTTTTG CACTCCAGAT GTTGTTTGAG GAAGAATATG CTTCCCGACC CATATTTGTT 
TCTGGAACTA TTGTGGATAA GAGTGGGCGT ACCCTCTCTG GCCAGACAGG AGAGGCATTT 
GTCGTTAGTG TTTCCCACAG TAAGCCACTT TGTATTGGCT TAAATTGTGC TTTAGGGGCA 
GTTGAAATGC GTCCATTCAT TGAAACAATT GGAAAATGCA CAACCGCCTA CATCATCTGT 
TACCCCAACG CAGGTCTTCC CAATACATTT GGTGGTTATG ATGAAACTCC AGAAGTGACT 
GCCAAGCATA TAGAGAATTT TGCTTTGGAT GGTTTGGTCA ACATAGTTGG AGGTTGCTGT 
GGTACCACAC CAGCGCATAT CAGAAAAATT GCTGAAGCTG TGAAATTCTG TAAGCCTCGT 
GTTCCACCTT CTCTCTCTGA AGGATATATG CTGCTGTCAG GTCTGGAGCC ATTCAGGATT 
GGGCCATATA CCAACTTCGT TAATATTGGT GAACGGTGCA ATGTTGCAGG ATCACGGAAG 
TTTGCTAAAC TCATCATGGC AGGCAACTAT GAAGAAGCCC TGAGTGTAGC CAAATTGCAA 
GTTGAGATGG GGGCCCAGAT TCTTGACATA AATATGGATG ATGGGATGTT GGATGGCCCC 
ACTGCAATGA CCAAATTTTG TAACTTGATT TCTTCGGAAC CTGATATTGC AAAGGTGCCA 
TTATGCATAG ACTCCTCAAA CTTTTCAGTG ATTGAAGCAG GTTTGAAATG TTGCCAAGGG 
AAATGCATTG TAAACAGCAT CAGTCTAAAG GAAGGTGAGG AAGACTTTCT GGAGAAAGCG 
AGGAAAATTA AATTATATGG AGCAGCTGTG GTTGTTATGG CTTTTGATGA AGTGGGGCAG 
GCAACAGAAA CAGAAACCAA GATTGCAATC TGTTCCAGAG CTTATCATCT CCTTGTGGGA 
AAAGTGCACT TCAATCCAAA TGATATAATA TTCGACCCTA ATATTTTGAC CATAGGAACT 
GGAATGGAAG AACATAACCT TTATGCCATA AATTTTATCA ATGCTACTAA AACCATAAAA 
GAAACATTGC CAGGAGCCAG GATAAGTGGA GGTCTTTCCA ATCTGTCCTT CTCCTTTCGA 
GGAATGGATG CCATTCGAGA AGCAATGCAT GGAGTGTTCC TTTACCACGC AATTAAGTAT 
GGCATGGACA TGGGAATTGT GAATGCTGGG AATCTGCCTG TGTATGATGA TATCCACAAG 
GAATTGCTAC AGCTGTGTGA GAATCTAATC TGGAATAAAG ATCCTGATGC AACAGAGAAA 
CTTTTACATT ATGCTCAGAA TCATGCCCAA GGAGGAAAAA AAGTTGTACA GACCGATGAG 
TGGCGTAAAG GCTCTGTGGA GGAAAGGCTG GAATATGCTC TCATAAAGGG CATTGAGAAG 
TATGTCATTG CAGATACAGA AGAAGCAAGA TTAAAACAAG AAAAATATCC TAGACCTCTA 
AATGTAATTG AAGGGCCTTT GATGAATGGC ATGAAAATTG TTGGTGATCT TTTTGGTGCT 
GGAAAGATGT TTCTGCCTCA GGATCCTTAC CAGGGTACAA TAGTATTGGC AACTGTGAAG 
GGAGACGTAC ATGATATTGG CAAGAACATT GTGGGAGTTG TTCTGGGCTG CAACAACTTC 
AGAGTTATTG ATTTAGGAGT TATGACTCCA TGTGATAAGA TATTAAGAGC TGCTGTGGAG 
AACAAAGCAG ATATAATTGG CCTGTCTGGT CTCATCACCC CATCTTTGGA TGAGATGATT 
TTTGTCGCCA AGGAAATGGA GAGATTGGCA ATAAAGATTC CTTTGCTTAT TGGAGGAGCA 
ACTACTTCTA AAACACACAC AGCTGTTAAA ATTGCCCCAA GATATAGCGC ACCTGTAGTT 
CATGTCCTGG ATGCATCCAA GAGTGTTGTG GTTTGCTCTC AGCTCTTAGA CGACAGTATA 
AAGGATGATT TCTTTGAAGA AATATTAGAC GAATATGAAG AAATTAGACA AGAACACTAT 
GAGTCTCTCA AGGAAAGAAG ATACTTGTCT CTACAGCAAG CTAGAAGAAA AGGTTTCCAA 
AATAATTGGT TATCAGGCCA TATACCAGTT AAACCAAAAT TCATTGGCAC AAAAGTCTTT 
GAAGACTATG ACCTGAGAAG GCTGGTAGAC TACATTGACT GGAAGCCCTT CTTTGATGTC 
TGGCAACTTA GGGGAAAGTA TCCCAACCGG AGTTTCCCTA AGATCTTTAA TGATAAAACT 
GTAGGTGAAG AAGCAAAGAG AGTTTATAAT GATGCTCAAG ATCTACTGAA AATGTTGATT 
AATGAAAAGA AATTACAAGC CAGAGGTGTG GTTGGGTTCT GGCCAGCTCG AAGTGTTCAA 
GATGATATCC ACTTGTATGC TGTAGAAGAG GCAGTGGGAT CTTCAGAACC AATAGCAAAA 
TTTTATGGAT TGAGGCAACA GGCTGAAAAG GACTCTGCCT GCACAGATCC ATATTACTGC 
CTCTCTGACT TCATAGCACC GCTGGATTCT GGCATTTGTG ACTACTTAGG CCTGTTTGCA 
GTGGCCTGCT TTGGTGTAGA TGACTTATGC AGTGAATTTA GGAAACAGGA GGATGAATAC 
AACATCATAA TGGTGAAGGC TCTCGGTGAT CGGTTGGCAG AGGCATTTGC TGAGGAGCTT 
CATGAAAGAG TTCGAAGGGA ATTCTGGGCT TACAGTAGTA GTGAGCAGCT GGATCTCTCT 
GGCCTACGCA AAATTAAATA TGAGGGAATT CGCCCTGCTC CTGGATATCC CAGCCAGCCT 
GACCATACAG AAAAACTCAC CATGTGGAAA CTTGCAAACA TTGAGGAAAC AACAGGAATT 
GGTCTAACGG AATCACTAGC AATGATACCT GCTTCTGCAG TTTCTGGCCT CTACTTTTCC 
AGTCCCAATT CCAAATATTT TGCTGTTGGC AAGATATGTA GAGATCAGGT TGAAGATTAT 
GCACTGAGAA AAAATTTGTC TGTGGTGGAG GTGGAGAAGT GGCTGGAACC CATTTTGGGA 
TATGATGCTG AACAACTGTG A

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

RefSeq	XP_030124098.1
CDS	45..3725
Translation	MAPTGPPADPQKSVEDEIESILQERIMVLDGGMGTMIQQHALTEEDFRGHEFKDHSRPLKGNNDLLSITQPDIICDIHKEYLLSGADIIETNTFSSTRVAQADYGLEHLAYRLNRVSAQVARKAADTVTAETGIRRYVAGAMGPTNRTLSVSPSVERPDYRNITFDELVEAYTEQAKGLLDGGVDILLVETIFDTANAKAALFALQMLFEEEYASRPIFVSGTIVDKSGRTLSGQTGEAFVVSVSHSKPLCIGLNCALGAVEMRPFIETIGKCTTAYIICYPNAGLPNTFGGYDETPEVTAKHIENFALDGLVNIVGGCCGTTPAHIRKIAEAVKFCKPRVPPSLSEGYMLLSGLEPFRIGPYTNFVNIGERCNVAGSRKFAKLIMAGNYEEALSVAKLQVEMGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_030268238.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X3, mRNA.

Target ORF information:

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

XM_030268238.1

ORF Insert Sequence:

ATGGCGCCCA CGGGGCCGCC GGCAGATCCC CAGAAAAGTG TGGAAGATGA AATTGAATCT 
ATTCTGCAGG AGCGGATAAT GGTTTTGGAT GGGGGCATGG GGACCATGAT CCAGCAACAT 
GCACTGACAG AAGAGGATTT CCGAGGGCAT GAATTTAAAG ATCATTCCAG GCCTTTGAAA 
GGCAATAATG ACCTTCTGAG TATAACTCAG CCTGATATAA TCTGTGACAT ACACAAGGAA 
TACTTGCTGT CAGGTGCTGA CATCATTGAA ACCAACACTT TCAGCAGCAC CCGAGTTGCA 
CAGGCTGACT ATGGCCTTGA GCATTTGGCG TATCGATTAA ACAGAGTCTC TGCACAGGTG 
GCCAGAAAAG CAGCAGACAC TGTAACTGCT GAGACAGGAA TTAGGAGATA TGTTGCTGGA 
GCCATGGGTC CAACAAACAG GACACTCTCT GTGTCACCAT CTGTGGAGAG ACCAGATTAC 
AGGAACATAA CTTTTGATGA ACTGGTTGAG GCCTATACAG AACAAGCCAA AGGACTTTTG 
GATGGAGGAG TTGACATCTT ACTGGTGGAA ACCATATTTG ACACTGCCAA TGCTAAGGCA 
GCTCTTTTTG CACTCCAGAT GTTGTTTGAG GAAGAATATG CTTCCCGACC CATATTTGTT 
TCTGGAACTA TTGTGGATAA GAGTGGGCGT ACCCTCTCTG GCCAGACAGG AGAGGCATTT 
GTCGTTAGTG TTTCCCACAG TAAGCCACTT TGTATTGGCT TAAATTGTGC TTTAGGGGCA 
GTTGAAATGC GTCCATTCAT TGAAACAATT GGAAAATGCA CAACCGCCTA CATCATCTGT 
TACCCCAACG CAGGTCTTCC CAATACATTT GGTGGTTATG ATGAAACTCC AGAAGTGACT 
GCCAAGCATA TAGAGAATTT TGCTTTGGAT GGTTTGGTCA ACATAGTTGG AGGTTGCTGT 
GGTACCACAC CAGCGCATAT CAGAAAAATT GCTGAAGCTG TGAAATTCTG TAAGCCTCGT 
GTTCCACCTT CTCTCTCTGA AGGATATATG CTGCTGTCAG GTCTGGAGCC ATTCAGGATT 
GGGCCATATA CCAACTTCGT TAATATTGGT GAACGGTGCA ATGTTGCAGG ATCACGGAAG 
TTTGCTAAAC TCATCATGGC AGGCAACTAT GAAGAAGCCC TGAGTGTAGC CAAATTGCAA 
GTTGAGATGG GGGCCCAGAT TCTTGACATA AATATGGATG ATGGGATGTT GGATGGCCCC 
ACTGCAATGA CCAAATTTTG TAACTTGATT TCTTCGGAAC CTGATATTGC AAAGGTGCCA 
TTATGCATAG ACTCCTCAAA CTTTTCAGTG ATTGAAGCAG GTTTGAAATG TTGCCAAGGG 
AAATGCATTG TAAACAGCAT CAGTCTAAAG GAAGGTGAGG AAGACTTTCT GGAGAAAGCG 
AGGAAAATTA AATTATATGG AGCAGCTGTG GTTGTTATGG CTTTTGATGA AGTGGGGCAG 
GCAACAGAAA CAGAAACCAA GATTGCAATC TGTTCCAGAG CTTATCATCT CCTTGTGGGA 
AAAGTGCACT TCAATCCAAA TGATATAATA TTCGACCCTA ATATTTTGAC CATAGGAACT 
GGAATGGAAG AACATAACCT TTATGCCATA AATTTTATCA ATGCTACTAA AACCATAAAA 
GAAACATTGC CAGGAGCCAG GATAAGTGGA GGTCTTTCCA ATCTGTCCTT CTCCTTTCGA 
GGAATGGATG CCATTCGAGA AGCAATGCAT GGAGTGTTCC TTTACCACGC AATTAAGTAT 
GGCATGGACA TGGGAATTGT GAATGCTGGG AATCTGCCTG TGTATGATGA TATCCACAAG 
GAATTGCTAC AGCTGTGTGA GAATCTAATC TGGAATAAAG ATCCTGATGC AACAGAGAAA 
CTTTTACATT ATGCTCAGAA TCATGCCCAA GGAGGAAAAA AAGTTGTACA GACCGATGAG 
TGGCGTAAAG GCTCTGTGGA GGAAAGGCTG GAATATGCTC TCATAAAGGG CATTGAGAAG 
TATGTCATTG CAGATACAGA AGAAGCAAGA TTAAAACAAG AAAAATATCC TAGACCTCTA 
AATGTAATTG AAGGGCCTTT GATGAATGGC ATGAAAATTG TTGGTGATCT TTTTGGTGCT 
GGAAAGATGT TTCTGCCTCA GGATCCTTAC CAGGGTACAA TAGTATTGGC AACTGTGAAG 
GGAGACGTAC ATGATATTGG CAAGAACATT GTGGGAGTTG TTCTGGGCTG CAACAACTTC 
AGAGTTATTG ATTTAGGAGT TATGACTCCA TGTGATAAGA TATTAAGAGC TGCTGTGGAG 
AACAAAGCAG ATATAATTGG CCTGTCTGGT CTCATCACCC CATCTTTGGA TGAGATGATT 
TTTGTCGCCA AGGAAATGGA GAGATTGGCA ATAAAGATTC CTTTGCTTAT TGGAGGAGCA 
ACTACTTCTA AAACACACAC AGCTGTTAAA ATTGCCCCAA GATATAGCGC ACCTGTAGTT 
CATGTCCTGG ATGCATCCAA GAGTGTTGTG GTTTGCTCTC AGCTCTTAGA CGACAGTATA 
AAGGATGATT TCTTTGAAGA AATATTAGAC GAATATGAAG AAATTAGACA AGAACACTAT 
GAGTCTCTCA AGGAAAGAAG ATACTTGTCT CTACAGCAAG CTAGAAGAAA AGGTTTCCAA 
AATAATTGGT TATCAGGCCA TATACCAGTT AAACCAAAAT TCATTGGCAC AAAAGTCTTT 
GAAGACTATG ACCTGAGAAG GCTGGTAGAC TACATTGACT GGAAGCCCTT CTTTGATGTC 
TGGCAACTTA GGGGAAAGTA TCCCAACCGG AGTTTCCCTA AGATCTTTAA TGATAAAACT 
GTAGGTGAAG AAGCAAAGAG AGTTTATAAT GATGCTCAAG ATCTACTGAA AATGTTGATT 
AATGAAAAGA AATTACAAGC CAGAGGTGTG GTTGGGTTCT GGCCAGCTCG AAGTGTTCAA 
GATGATATCC ACTTGTATGC TGTAGAAGAG GCAGTGGGAT CTTCAGAACC AATAGCAAAA 
TTTTATGGAT TGAGGCAACA GGCTGAAAAG GACTCTGCCT GCACAGATCC ATATTACTGC 
CTCTCTGACT TCATAGCACC GCTGGATTCT GGCATTTGTG ACTACTTAGG CCTGTTTGCA 
GTGGCCTGCT TTGGTGTAGA TGACTTATGC AGTGAATTTA GGAAACAGGA GGATGAATAC 
AACATCATAA TGGTGAAGGC TCTCGGTGAT CGGTTGGCAG AGGCATTTGC TGAGGAGCTT 
CATGAAAGAG TTCGAAGGGA ATTCTGGGCT TACAGTAGTA GTGAGCAGCT GGATCTCTCT 
GGCCTACGCA AAATTAAATA TGAGGGAATT CGCCCTGCTC CTGGATATCC CAGCCAGCCT 
GACCATACAG AAAAACTCAC CATGTGGAAA CTTGCAAACA TTGAGGAAAC AACAGGAATT 
GGTCTAACGG AATCACTAGC AATGATACCT GCTTCTGCAG TTTCTGGCCT CTACTTTTCC 
AGTCCCAATT CCAAATATTT TGCTGTTGGC AAGATATGTA GAGATCAGGT TGAAGATTAT 
GCACTGAGAA AAAATTTGTC TGTGGTGGAG GTGGAGAAGT GGCTGGAACC CATTTTGGGA 
TATGATGCTG AACAACTGTG A

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

MTR ( XM_030268239.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030124099.1 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd42242
Clone ID Related Accession (Same CDS sequence)	XM_030268239.1
Accession Version	XM_030268239.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3192bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACTGGT TGAGGCCTAT ACAGAACAAG CCAAAGGACT TTTGGATGGA GGAGTTGACA 
TCTTACTGGT GGAAACCATA TTTGACACTG CCAATGCTAA GGCAGCTCTT TTTGCACTCC 
AGATGTTGTT TGAGGAAGAA TATGCTTCCC GACCCATATT TGTTTCTGGA ACTATTGTGG 
ATAAGAGTGG GCGTACCCTC TCTGGCCAGA CAGGAGAGGC ATTTGTCGTT AGTGTTTCCC 
ACAGTAAGCC ACTTTGGTCT TCCCAATACA TTTGGTGGTT ATGATGAAAC TCCAGAAGTG 
ACTGCCAAGC ATATAGAGAA TTTTGCTTTG GATGGTTTGG TCAACATAGT TGGAGGTTGC 
TGTGGTACCA CACCAGCGCA TATCAGAAAA ATTGCTGAAG CTGTGAAATT CTGTAAGCCT 
CGTGTTCCAC CTTCTCTCTC TGAAGGATAT ATGCTGCTGT CAGGTCTGGA GCCATTCAGG 
ATTGGGCCAT ATACCAACTT CGTTAATATT GGTGAACGGT GCAATGTTGC AGGATCACGG 
AAGTTTGCTA AACTCATCAT GGCAGGCAAC TATGAAGAAG CCCTGAGTGT AGCCAAATTG 
CAAGTTGAGA TGGGGGCCCA GATTCTTGAC ATAAATATGG ATGATGGGAT GTTGGATGGC 
CCCACTGCAA TGACCAAATT TTGTAACTTG ATTTCTTCGG AACCTGATAT TGCAAAGGTG 
CCATTATGCA TAGACTCCTC AAACTTTTCA GTGATTGAAG CAGGTTTGAA ATGTTGCCAA 
GGGAAATGCA TTGTAAACAG CATCAGTCTA AAGGAAGGTG AGGAAGACTT TCTGGAGAAA 
GCGAGGAAAA TTAAATTATA TGGAGCAGCT GTGGTTGTTA TGGCTTTTGA TGAAGTGGGG 
CAGGCAACAG AAACAGAAAC CAAGATTGCA ATCTGTTCCA GAGCTTATCA TCTCCTTGTG 
GGAAAAGTGC ACTTCAATCC AAATGATATA ATATTCGACC CTAATATTTT GACCATAGGA 
ACTGGAATGG AAGAACATAA CCTTTATGCC ATAAATTTTA TCAATGCTAC TAAAACCATA 
AAAGAAACAT TGCCAGGAGC CAGGATAAGT GGAGGTCTTT CCAATCTGTC CTTCTCCTTT 
CGAGGAATGG ATGCCATTCG AGAAGCAATG CATGGAGTGT TCCTTTACCA CGCAATTAAG 
TATGGCATGG ACATGGGAAT TGTGAATGCT GGGAATCTGC CTGTGTATGA TGATATCCAC 
AAGGAATTGC TACAGCTGTG TGAGAATCTA ATCTGGAATA AAGATCCTGA TGCAACAGAG 
AAACTTTTAC ATTATGCTCA GAATCATGCC CAAGGAGGAA AAAAAGTTGT ACAGACCGAT 
GAGTGGCGTA AAGGCTCTGT GGAGGAAAGG CTGGAATATG CTCTCATAAA GGGCATTGAG 
AAGTATGTCA TTGCAGATAC AGAAGAAGCA AGATTAAAAC AAGAAAAATA TCCTAGACCT 
CTAAATGTAA TTGAAGGGCC TTTGATGAAT GGCATGAAAA TTGTTGGTGA TCTTTTTGGT 
GCTGGAAAGA TGTTTCTGCC TCAGGTGATA AAATCTGCTC GAGTTATGAA GAAAGCAGTT 
GGCCACCTTA TTCCCTATAT GGAAAAAGAA AGAGAGGAAA GGAGAGCCAA GCAAGGCAGC 
ACAGAAGAAG AGGATCCTTA CCAGGGTACA ATAGTATTGG CAACTGTGAA GGGAGACGTA 
CATGATATTG GCAAGAACAT TGTGGGAGTT GTTCTGGGCT GCAACAACTT CAGAGTTATT 
GATTTAGGAG TTATGACTCC ATGTGATAAG ATATTAAGAG CTGCTGTGGA GAACAAAGCA 
GATATAATTG GCCTGTCTGG TCTCATCACC CCATCTTTGG ATGAGATGAT TTTTGTCGCC 
AAGGAAATGG AGAGATTGGC AATAAAGATT CCTTTGCTTA TTGGAGGAGC AACTACTTCT 
AAAACACACA CAGCTGTTAA AATTGCCCCA AGATATAGCG CACCTGTAGT TCATGTCCTG 
GATGCATCCA AGAGTGTTGT GGTTTGCTCT CAGCTCTTAG ACGACAGTAT AAAGGATGAT 
TTCTTTGAAG AAATATTAGA CGAATATGAA GAAATTAGAC AAGAACACTA TGAGTCTCTC 
AAGGAAAGAA GATACTTGTC TCTACAGCAA GCTAGAAGAA AAGGTTTCCA AAATAATTGG 
TTATCAGGCC ATATACCAGT TAAACCAAAA TTCATTGGCA CAAAAGTCTT TGAAGACTAT 
GACCTGAGAA GGCTGGTAGA CTACATTGAC TGGAAGCCCT TCTTTGATGT CTGGCAACTT 
AGGGGAAAGT ATCCCAACCG GAGTTTCCCT AAGATCTTTA ATGATAAAAC TGTAGGTGAA 
GAAGCAAAGA GAGTTTATAA TGATGCTCAA GATCTACTGA AAATGTTGAT TAATGAAAAG 
AAATTACAAG CCAGAGGTGT GGTTGGGTTC TGGCCAGCTC GAAGTGTTCA AGATGATATC 
CACTTGTATG CTGTAGAAGA GGCAGTGGGA TCTTCAGAAC CAATAGCAAA ATTTTATGGA 
TTGAGGCAAC AGGCTGAAAA GGACTCTGCC TGCACAGATC CATATTACTG CCTCTCTGAC 
TTCATAGCAC CGCTGGATTC TGGCATTTGT GACTACTTAG GCCTGTTTGC AGTGGCCTGC 
TTTGGTGTAG ATGACTTATG CAGTGAATTT AGGAAACAGG AGGATGAATA CAACATCATA 
ATGGTGAAGG CTCTCGGTGA TCGGTTGGCA GAGGCATTTG CTGAGGAGCT TCATGAAAGA 
GTTCGAAGGG AATTCTGGGC TTACAGTAGT AGTGAGCAGC TGGATCTCTC TGGCCTACGC 
AAAATTAAAT ATGAGGGAAT TCGCCCTGCT CCTGGATATC CCAGCCAGCC TGACCATACA 
GAAAAACTCA CCATGTGGAA ACTTGCAAAC ATTGAGGAAA CAACAGGAAT TGGTCTAACG 
GAATCACTAG CAATGATACC TGCTTCTGCA GTTTCTGGCC TCTACTTTTC CAGTCCCAAT 
TCCAAATATT TTGCTGTTGG CAAGATATGT AGAGATCAGG TTGAAGATTA TGCACTGAGA 
AAAAATTTGT CTGTGGTGGA GGTGGAGAAG TGGCTGGAAC CCATTTTGGG ATATGATGCT 
GAACAACTGT GA

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

RefSeq	XP_030124099.1
CDS	503..3694
Translation	MNWLRPIQNKPKDFWMEELTSYWWKPYLTLPMLRQLFLHSRCCLRKNMLPDPYLFLELLWIRVGVPSLARQERHLSLVFPTVSHFGLPNTFGGYDETPEVTAKHIENFALDGLVNIVGGCCGTTPAHIRKIAEAVKFCKPRVPPSLSEGYMLLSGLEPFRIGPYTNFVNIGERCNVAGSRKFAKLIMAGNYEEALSVAKLQVEMGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_030268239.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X4, mRNA.

Target ORF information:

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

XM_030268239.1

ORF Insert Sequence:

ATGAACTGGT TGAGGCCTAT ACAGAACAAG CCAAAGGACT TTTGGATGGA GGAGTTGACA 
TCTTACTGGT GGAAACCATA TTTGACACTG CCAATGCTAA GGCAGCTCTT TTTGCACTCC 
AGATGTTGTT TGAGGAAGAA TATGCTTCCC GACCCATATT TGTTTCTGGA ACTATTGTGG 
ATAAGAGTGG GCGTACCCTC TCTGGCCAGA CAGGAGAGGC ATTTGTCGTT AGTGTTTCCC 
ACAGTAAGCC ACTTTGGTCT TCCCAATACA TTTGGTGGTT ATGATGAAAC TCCAGAAGTG 
ACTGCCAAGC ATATAGAGAA TTTTGCTTTG GATGGTTTGG TCAACATAGT TGGAGGTTGC 
TGTGGTACCA CACCAGCGCA TATCAGAAAA ATTGCTGAAG CTGTGAAATT CTGTAAGCCT 
CGTGTTCCAC CTTCTCTCTC TGAAGGATAT ATGCTGCTGT CAGGTCTGGA GCCATTCAGG 
ATTGGGCCAT ATACCAACTT CGTTAATATT GGTGAACGGT GCAATGTTGC AGGATCACGG 
AAGTTTGCTA AACTCATCAT GGCAGGCAAC TATGAAGAAG CCCTGAGTGT AGCCAAATTG 
CAAGTTGAGA TGGGGGCCCA GATTCTTGAC ATAAATATGG ATGATGGGAT GTTGGATGGC 
CCCACTGCAA TGACCAAATT TTGTAACTTG ATTTCTTCGG AACCTGATAT TGCAAAGGTG 
CCATTATGCA TAGACTCCTC AAACTTTTCA GTGATTGAAG CAGGTTTGAA ATGTTGCCAA 
GGGAAATGCA TTGTAAACAG CATCAGTCTA AAGGAAGGTG AGGAAGACTT TCTGGAGAAA 
GCGAGGAAAA TTAAATTATA TGGAGCAGCT GTGGTTGTTA TGGCTTTTGA TGAAGTGGGG 
CAGGCAACAG AAACAGAAAC CAAGATTGCA ATCTGTTCCA GAGCTTATCA TCTCCTTGTG 
GGAAAAGTGC ACTTCAATCC AAATGATATA ATATTCGACC CTAATATTTT GACCATAGGA 
ACTGGAATGG AAGAACATAA CCTTTATGCC ATAAATTTTA TCAATGCTAC TAAAACCATA 
AAAGAAACAT TGCCAGGAGC CAGGATAAGT GGAGGTCTTT CCAATCTGTC CTTCTCCTTT 
CGAGGAATGG ATGCCATTCG AGAAGCAATG CATGGAGTGT TCCTTTACCA CGCAATTAAG 
TATGGCATGG ACATGGGAAT TGTGAATGCT GGGAATCTGC CTGTGTATGA TGATATCCAC 
AAGGAATTGC TACAGCTGTG TGAGAATCTA ATCTGGAATA AAGATCCTGA TGCAACAGAG 
AAACTTTTAC ATTATGCTCA GAATCATGCC CAAGGAGGAA AAAAAGTTGT ACAGACCGAT 
GAGTGGCGTA AAGGCTCTGT GGAGGAAAGG CTGGAATATG CTCTCATAAA GGGCATTGAG 
AAGTATGTCA TTGCAGATAC AGAAGAAGCA AGATTAAAAC AAGAAAAATA TCCTAGACCT 
CTAAATGTAA TTGAAGGGCC TTTGATGAAT GGCATGAAAA TTGTTGGTGA TCTTTTTGGT 
GCTGGAAAGA TGTTTCTGCC TCAGGTGATA AAATCTGCTC GAGTTATGAA GAAAGCAGTT 
GGCCACCTTA TTCCCTATAT GGAAAAAGAA AGAGAGGAAA GGAGAGCCAA GCAAGGCAGC 
ACAGAAGAAG AGGATCCTTA CCAGGGTACA ATAGTATTGG CAACTGTGAA GGGAGACGTA 
CATGATATTG GCAAGAACAT TGTGGGAGTT GTTCTGGGCT GCAACAACTT CAGAGTTATT 
GATTTAGGAG TTATGACTCC ATGTGATAAG ATATTAAGAG CTGCTGTGGA GAACAAAGCA 
GATATAATTG GCCTGTCTGG TCTCATCACC CCATCTTTGG ATGAGATGAT TTTTGTCGCC 
AAGGAAATGG AGAGATTGGC AATAAAGATT CCTTTGCTTA TTGGAGGAGC AACTACTTCT 
AAAACACACA CAGCTGTTAA AATTGCCCCA AGATATAGCG CACCTGTAGT TCATGTCCTG 
GATGCATCCA AGAGTGTTGT GGTTTGCTCT CAGCTCTTAG ACGACAGTAT AAAGGATGAT 
TTCTTTGAAG AAATATTAGA CGAATATGAA GAAATTAGAC AAGAACACTA TGAGTCTCTC 
AAGGAAAGAA GATACTTGTC TCTACAGCAA GCTAGAAGAA AAGGTTTCCA AAATAATTGG 
TTATCAGGCC ATATACCAGT TAAACCAAAA TTCATTGGCA CAAAAGTCTT TGAAGACTAT 
GACCTGAGAA GGCTGGTAGA CTACATTGAC TGGAAGCCCT TCTTTGATGT CTGGCAACTT 
AGGGGAAAGT ATCCCAACCG GAGTTTCCCT AAGATCTTTA ATGATAAAAC TGTAGGTGAA 
GAAGCAAAGA GAGTTTATAA TGATGCTCAA GATCTACTGA AAATGTTGAT TAATGAAAAG 
AAATTACAAG CCAGAGGTGT GGTTGGGTTC TGGCCAGCTC GAAGTGTTCA AGATGATATC 
CACTTGTATG CTGTAGAAGA GGCAGTGGGA TCTTCAGAAC CAATAGCAAA ATTTTATGGA 
TTGAGGCAAC AGGCTGAAAA GGACTCTGCC TGCACAGATC CATATTACTG CCTCTCTGAC 
TTCATAGCAC CGCTGGATTC TGGCATTTGT GACTACTTAG GCCTGTTTGC AGTGGCCTGC 
TTTGGTGTAG ATGACTTATG CAGTGAATTT AGGAAACAGG AGGATGAATA CAACATCATA 
ATGGTGAAGG CTCTCGGTGA TCGGTTGGCA GAGGCATTTG CTGAGGAGCT TCATGAAAGA 
GTTCGAAGGG AATTCTGGGC TTACAGTAGT AGTGAGCAGC TGGATCTCTC TGGCCTACGC 
AAAATTAAAT ATGAGGGAAT TCGCCCTGCT CCTGGATATC CCAGCCAGCC TGACCATACA 
GAAAAACTCA CCATGTGGAA ACTTGCAAAC ATTGAGGAAA CAACAGGAAT TGGTCTAACG 
GAATCACTAG CAATGATACC TGCTTCTGCA GTTTCTGGCC TCTACTTTTC CAGTCCCAAT 
TCCAAATATT TTGCTGTTGG CAAGATATGT AGAGATCAGG TTGAAGATTA TGCACTGAGA 
AAAAATTTGT CTGTGGTGGA GGTGGAGAAG TGGCTGGAAC CCATTTTGGG ATATGATGCT 
GAACAACTGT GA

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

MTR ( XM_030268240.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030124100.1 Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OTd42243
Clone ID Related Accession (Same CDS sequence)	XM_030268240.1
Accession Version	XM_030268240.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3003bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	methionine synthase isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCGTCCAT TCATTGAAAC AATTGGAAAA TGCACAACCG CCTACATCAT CTGTTACCCC 
AACGCAGGTC TTCCCAATAC ATTTGGTGGT TATGATGAAA CTCCAGAAGT GACTGCCAAG 
CATATAGAGA ATTTTGCTTT GGATGGTTTG GTCAACATAG TTGGAGGTTG CTGTGGTACC 
ACACCAGCGC ATATCAGAAA AATTGCTGAA GCTGTGAAAT TCTGTAAGCC TCGTGTTCCA 
CCTTCTCTCT CTGAAGGATA TATGCTGCTG TCAGGTCTGG AGCCATTCAG GATTGGGCCA 
TATACCAACT TCGTTAATAT TGGTGAACGG TGCAATGTTG CAGGATCACG GAAGTTTGCT 
AAACTCATCA TGGCAGGCAA CTATGAAGAA GCCCTGAGTG TAGCCAAATT GCAAGTTGAG 
ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

RefSeq	XP_030124100.1
CDS	233..3235
Translation	MRPFIETIGKCTTAYIICYPNAGLPNTFGGYDETPEVTAKHIENFALDGLVNIVGGCCGTTPAHIRKIAEAVKFCKPRVPPSLSEGYMLLSGLEPFRIGPYTNFVNIGERCNVAGSRKFAKLIMAGNYEEALSVAKLQVEMGAQILDINMDDGMLDGPTAMTKFCNLISSEPDIAKVPLCIDSSNFSVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKLYGAAVVVMAFDEVGQATETETKIAICSRAYHLLVGKVHFNPNDIIFDPNILTIGTGMEEHNLYAINFINATKTIKETLPGARISGGLSNLSFSFRGMDAIREAMHGVFLYHAIKYGMDMGIVNAGNLPVYDDIHKELLQLCENLIWNKDPDATEKLLHYAQNHAQGGKKVVQTDEWRKGSVEERLEYALIKGIEKYVIADTEEARLKQEKYPRPLNVIEGPLMNGMKIVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPYMEKEREERRAKQGSTEEEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILRAAVENKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSKTHTAVKIAPRYSAPVVHVLDASKSVVVCSQLLDDSIKDDFFEEILDEYEEIRQEHYESLKERRYLSLQQARRKGFQNNWLSGHIPVKPKFIGTKVFEDYDLRRLVDYIDWKPFFDVWQLRGKYPNRSFPKIFNDKTVGEEAKRVYNDAQDLLKMLINEKKLQARGVVGFWPARSVQDDIHLYAVEEAVGSSEPIAKFYGLRQQAEKDSACTDPYYCLSDFIAPLDSGICDYLGLFAVACFGVDDLCSEFRKQEDEYNIIMVKALGDRLAEAFAEELHERVRREFWAYSSSEQLDLSGLRKIKYEGIRPAPGYPSQPDHTEKLTMWKLANIEETTGIGLTESLAMIPASAVSGLYFSSPNSKYFAVGKICRDQVEDYALRKNLSVVEVEKWLEPILGYDAEQL

Target ORF information:

RefSeq Version	XM_030268240.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), transcript variant X5, mRNA.

Target ORF information:

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

XM_030268240.1

ORF Insert Sequence:

ATGCGTCCAT TCATTGAAAC AATTGGAAAA TGCACAACCG CCTACATCAT CTGTTACCCC 
AACGCAGGTC TTCCCAATAC ATTTGGTGGT TATGATGAAA CTCCAGAAGT GACTGCCAAG 
CATATAGAGA ATTTTGCTTT GGATGGTTTG GTCAACATAG TTGGAGGTTG CTGTGGTACC 
ACACCAGCGC ATATCAGAAA AATTGCTGAA GCTGTGAAAT TCTGTAAGCC TCGTGTTCCA 
CCTTCTCTCT CTGAAGGATA TATGCTGCTG TCAGGTCTGG AGCCATTCAG GATTGGGCCA 
TATACCAACT TCGTTAATAT TGGTGAACGG TGCAATGTTG CAGGATCACG GAAGTTTGCT 
AAACTCATCA TGGCAGGCAA CTATGAAGAA GCCCTGAGTG TAGCCAAATT GCAAGTTGAG 
ATGGGGGCCC AGATTCTTGA CATAAATATG GATGATGGGA TGTTGGATGG CCCCACTGCA 
ATGACCAAAT TTTGTAACTT GATTTCTTCG GAACCTGATA TTGCAAAGGT GCCATTATGC 
ATAGACTCCT CAAACTTTTC AGTGATTGAA GCAGGTTTGA AATGTTGCCA AGGGAAATGC 
ATTGTAAACA GCATCAGTCT AAAGGAAGGT GAGGAAGACT TTCTGGAGAA AGCGAGGAAA 
ATTAAATTAT ATGGAGCAGC TGTGGTTGTT ATGGCTTTTG ATGAAGTGGG GCAGGCAACA 
GAAACAGAAA CCAAGATTGC AATCTGTTCC AGAGCTTATC ATCTCCTTGT GGGAAAAGTG 
CACTTCAATC CAAATGATAT AATATTCGAC CCTAATATTT TGACCATAGG AACTGGAATG 
GAAGAACATA ACCTTTATGC CATAAATTTT ATCAATGCTA CTAAAACCAT AAAAGAAACA 
TTGCCAGGAG CCAGGATAAG TGGAGGTCTT TCCAATCTGT CCTTCTCCTT TCGAGGAATG 
GATGCCATTC GAGAAGCAAT GCATGGAGTG TTCCTTTACC ACGCAATTAA GTATGGCATG 
GACATGGGAA TTGTGAATGC TGGGAATCTG CCTGTGTATG ATGATATCCA CAAGGAATTG 
CTACAGCTGT GTGAGAATCT AATCTGGAAT AAAGATCCTG ATGCAACAGA GAAACTTTTA 
CATTATGCTC AGAATCATGC CCAAGGAGGA AAAAAAGTTG TACAGACCGA TGAGTGGCGT 
AAAGGCTCTG TGGAGGAAAG GCTGGAATAT GCTCTCATAA AGGGCATTGA GAAGTATGTC 
ATTGCAGATA CAGAAGAAGC AAGATTAAAA CAAGAAAAAT ATCCTAGACC TCTAAATGTA 
ATTGAAGGGC CTTTGATGAA TGGCATGAAA ATTGTTGGTG ATCTTTTTGG TGCTGGAAAG 
ATGTTTCTGC CTCAGGTGAT AAAATCTGCT CGAGTTATGA AGAAAGCAGT TGGCCACCTT 
ATTCCCTATA TGGAAAAAGA AAGAGAGGAA AGGAGAGCCA AGCAAGGCAG CACAGAAGAA 
GAGGATCCTT ACCAGGGTAC AATAGTATTG GCAACTGTGA AGGGAGACGT ACATGATATT 
GGCAAGAACA TTGTGGGAGT TGTTCTGGGC TGCAACAACT TCAGAGTTAT TGATTTAGGA 
GTTATGACTC CATGTGATAA GATATTAAGA GCTGCTGTGG AGAACAAAGC AGATATAATT 
GGCCTGTCTG GTCTCATCAC CCCATCTTTG GATGAGATGA TTTTTGTCGC CAAGGAAATG 
GAGAGATTGG CAATAAAGAT TCCTTTGCTT ATTGGAGGAG CAACTACTTC TAAAACACAC 
ACAGCTGTTA AAATTGCCCC AAGATATAGC GCACCTGTAG TTCATGTCCT GGATGCATCC 
AAGAGTGTTG TGGTTTGCTC TCAGCTCTTA GACGACAGTA TAAAGGATGA TTTCTTTGAA 
GAAATATTAG ACGAATATGA AGAAATTAGA CAAGAACACT ATGAGTCTCT CAAGGAAAGA 
AGATACTTGT CTCTACAGCA AGCTAGAAGA AAAGGTTTCC AAAATAATTG GTTATCAGGC 
CATATACCAG TTAAACCAAA ATTCATTGGC ACAAAAGTCT TTGAAGACTA TGACCTGAGA 
AGGCTGGTAG ACTACATTGA CTGGAAGCCC TTCTTTGATG TCTGGCAACT TAGGGGAAAG 
TATCCCAACC GGAGTTTCCC TAAGATCTTT AATGATAAAA CTGTAGGTGA AGAAGCAAAG 
AGAGTTTATA ATGATGCTCA AGATCTACTG AAAATGTTGA TTAATGAAAA GAAATTACAA 
GCCAGAGGTG TGGTTGGGTT CTGGCCAGCT CGAAGTGTTC AAGATGATAT CCACTTGTAT 
GCTGTAGAAG AGGCAGTGGG ATCTTCAGAA CCAATAGCAA AATTTTATGG ATTGAGGCAA 
CAGGCTGAAA AGGACTCTGC CTGCACAGAT CCATATTACT GCCTCTCTGA CTTCATAGCA 
CCGCTGGATT CTGGCATTTG TGACTACTTA GGCCTGTTTG CAGTGGCCTG CTTTGGTGTA 
GATGACTTAT GCAGTGAATT TAGGAAACAG GAGGATGAAT ACAACATCAT AATGGTGAAG 
GCTCTCGGTG ATCGGTTGGC AGAGGCATTT GCTGAGGAGC TTCATGAAAG AGTTCGAAGG 
GAATTCTGGG CTTACAGTAG TAGTGAGCAG CTGGATCTCT CTGGCCTACG CAAAATTAAA 
TATGAGGGAA TTCGCCCTGC TCCTGGATAT CCCAGCCAGC CTGACCATAC AGAAAAACTC 
ACCATGTGGA AACTTGCAAA CATTGAGGAA ACAACAGGAA TTGGTCTAAC GGAATCACTA 
GCAATGATAC CTGCTTCTGC AGTTTCTGGC CTCTACTTTT CCAGTCCCAA TTCCAAATAT 
TTTGCTGTTG GCAAGATATG TAGAGATCAG GTTGAAGATT ATGCACTGAG AAAAAATTTG 
TCTGTGGTGG AGGTGGAGAA GTGGCTGGAA CCCATTTTGG GATATGATGC TGAACAACTG 
TGA

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

Gene Symbol	MTR
Entrez Gene ID	100230827
Full Name	5-methyltetrahydrofolate-homocysteine methyltransferase
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

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

MTR cDNA ORF clone, Taeniopygia guttata(zebra finch)

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:

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:

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