MTR cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	MTR
Entrez Gene ID	100482394
Full Name	5-methyltetrahydrofolate-homocysteine methyltransferase
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019809303.1	XP_019664862.1	methionine synthase

Pathways from BioSystems
Gene Ontology

The following MTR gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MTR cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OAc31626	XM_019809303.1 Latest version!	Ailuropoda melanoleuca 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

MTR ( XM_019809303.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019664862.1 Ailuropoda melanoleuca 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), mRNA.

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CloneID	OAc31626
Clone ID Related Accession (Same CDS sequence)	XM_019809303.1
Accession Version	XM_019809303.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3711bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	methionine synthase
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218830.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTGCTGG ATGGAGGGAT GGGGACCATG ATCCAGCGGC ATAAGCTAAG TGAAGAAGAC 
TTCCGAGGTC ACGAATTTCA AGATCACGCC AGGCCGCTGA AAGGCAACAA TGACATTTTA 
AGCATAACTC AACCCAGTGT TATTTACCAA ATCCATAAGG ATTACTTGCT GGCTGGGGCA 
GATATCATCG AAACAAACAC TTTCAGCAGC ACTAACATTG CCCAAGCAGA CTATGGCCTC 
GAACACTTGG CCTACCGGAT GAACAAATGC TCCGCGGGAC TGGCCAGAAA GGCAGCCGAG 
GAGGTGTCCT TCCAGACAGG AATTAAGAGG TTTGTGGCAG GAGCTCTGGG TCCAACTAAT 
AAGACACTGT CTGTGTCTCC GTCTGTGGAG AAACCAGATT ACAGGAACAT TACATTTGAT 
GAACTCGTTG AAGCGTACCA AGAGCAGGCC AAAGGGCTTC TGGATGGTGG GGCTGATATC 
TTACTCATTG AAACTATTTT TGATACCGCC AATGCCAAGG CAGCCTTGTT CGCACTCCAG 
ACACTTTTTG AAGAGGAGTA TTCCCCCCGG CCTATCTTCA TTTCAGGGAC AATTATTGAT 
AAAAGTGGGC GAACTCTTTC CGGACAGATG GGAGAGGCAT TTGTCATCAG TGTGTCTCAC 
GCAGACCCCC TCTGCATTGG ATTAAACTGC GCTCTGGGTG CAGCTGAAAT GAGACCTTTT 
ATTGAAACAA TTGGAAAATG TACAACAGCC TATGTCCTCT GTTATCCCAA TGCAGGTCTT 
CCCAACACGT TTGGTGACTA CGATGAGACT CCGCATATGA TGGCCACGCA ACTAAAGGAC 
TTTGCTATGG ATGGCTTGGT CAATATAGTG GGTGGCTGCT GTGGTACGAC TCCTGATCAC 
ATCAGGGAGA TTGCTAAAGC TGTGAGAAAC TGTAAGCCTA GAGTTCCACC TGCCACTGTT 
TTTGAAGAGC ATATGTTACT ATCTGGTCTA GAGCCCTTCA GGATCGGACC GTACACCAAC 
TTTGTTAACA TTGGAGAGCG CTGTAACGTG GCAGGATCCA GGAGGTTTGC TAAACTCATC 
ATGGCAGGAA ACTATGAAGA AGCGCTGAGT GTTGCCAAAG TGCAGGTGGA AATGGGAGCG 
CAGGTGTTGG ATATCAACAT GGATGACGGC ATGCTGGACG GTTCCAGTGC AATGACCAGA 
TTTTGCAACT TCATTGCTTC CGAGCCCGAT ATTGCCAAGG TGCCCTTGTG CATCGACTCT 
TCCAATTTTG CTGTGATTGA AGCCGGCTTG AAGTGCTGCC AGGGCAAGTG CATTGTCAAC 
AGCATTAGCC TGAAGGAGGG AGAGGAAGAC TTCTTGGAGA AGGCTAGAAA GATTAAGAAG 
TTTGGAGCTG CTGTGGTGGT CATGGCTTTT GATGAAGAAG GGCAGGCGAC AGAAACAGAC 
ACCAAAATCA GCGTGTGCAT GCGGGCCTAC CGTCTACTTG TGAAAAAACT GGGCTTTAAT 
CCAAATGACA TCATCTTTGA CCCCAACATC CTCACCATTG GTACTGGGAT GGAAGAGCAC 
AACTTGTATG CTGTTAATTT TATCCGTGCA ACAAAAATCA TTAAAGAAAC CCTACCTGGA 
GCCCGAGTAA GTGGAGGTCT TTCCAACTTG TCCTTCTCCT TCCGAGGAAT GGAAGCCATT 
CGAGAAGCAA TGCATGGGGT TTTCCTTTAC CACGCAATCA AGTTTGGTAT GGACATGGGG 
ATAGTGAATG CAGGAAACCT CCCTGTATAT GACGATATCC ACAAGGAGCT TCTCCAGCTC 
TGTGAAGATC TCATCTGGAA CAAAGACCCC GAGGCCACTG AGAAGCTCCT GCGCTATGCT 
CAGACGCATG GCAAAGGAGG GAAGAAAGTC ATCCAGACTG ATGAGTGGAG GAATGGCCCC 
ATTGAAGAAC GCCTGGAGTA CGCCCTTGTG AAGGGTATCG AAAAATATAT TATTGAGGAC 
ACTGAGGAAG CCAGGTTAAA CCAGGAAAAA TATCCCCGGC CTCTGAATAT AATCGAAGGG 
CCTCTGATGA ACGGCATGAA AGTTGTCGGT GACCTCTTTG GAGCTGGAAA AATGTTTCTA 
CCTCAGGTTA TAAAGTCAGC TCGAGTCATG AAGAAAGCTG TTGGCCACCT TATTCCCTTC 
ATGGAGAAAG AAAGAGAAGA GAACAAAATG CATGCTGGCA CAGAAGAAAA AGAGGACCCC 
TACCAGGGCA CCATTGTGTT GGCTACCGTG AAGGGCGACG TGCACGACAT AGGCAAGAAC 
ATAGTTGGTG TGGTCCTTGG CTGCAATAAC TTCAGAGTTA TTGATTTAGG GGTCATGACT 
CCCTGTGACA AGATCCTGAA AGCTGCTCTT GACCACAAAG CAGATATAAT TGGCCTATCA 
GGACTCATCA CTCCTTCCCT GGATGAAATG ATTTTTGTTG CCAAGGAAAT GGAGAGATTG 
GCTATAAAGA TTCCACTGTT GATCGGAGGA GCAACCACAT CCAGAACCCA CACGGCAGTG 
AAAATAGCTC CAAGATACAG CGCACCTGTC ATCCACGTCC TGGATGCATC CAAGAGTGTG 
GTGGTGTGCT CGCAGCTGTT AGATGAGAAT CTAAAGGATG AATTTTTTGA GGAGATCCTG 
GAAGAATATG AAGATATTAG ACAGGACCAT TATGAGTCTC TCAAGGAGAG AAGATACTTA 
ACCTTAAGTC AAGCTAGAAA AAATGGTTTC CATATTGACT GGCTGTCAGA GCCCCCTCCA 
GTGAAGCCCA CATTTCTTGG GACTCGGGTC TTCGAAGACT ATGACCTGCG GAAGCTGGTG 
GCCTACATCG ACTGGAAACC CTTCTTCGAT GTCTGGCAGC TCCGGGGCAA GTACCCGAAT 
CGAAGCTTTC CCAAGATATT TAAGGACAAA ACTGTAGGTG AAGAGGCCAG AAAAGTCTAT 
GATGATGCCC AAAACATGCT GGAAGTGCTG ATCAGTCAGA AGAAGCTCCG AGCCAGGGGC 
GTGGTGGGGT TTTGGCCGGC ACAGAGCGTG GAAGACGACA TCCACCTGTA CGCAGAGGGC 
GCCACGCCGC AGGCCGCAGA GCCCATAGCT ACCTTCCACG GGCTGAGGCA GCAGGCCGAG 
AAGGACTCTG CCAGCACGGA CCCATACCAC TGCCTCTCGG ACTTCATCGC TCCACTGCAT 
TCTGGCGTCC GCGACTACCT GGGCCTGTTT GCTGTCGCCT GCTTCGGGGT GGAGGAGCTG 
AGCAAGGCCT ACGAGCAGGA GTGTGACGAC TACAGCAGCA TCATGGTCAA GGCTCTGGGA 
GACCGGCTGG CTGAGGCCTT TGCGGAGGAG CTCCACGAGC GGGTCCGCCG GGAGCTGTGG 
GCCTACTGCA GCTGTGAGCA GCTGGATGTC GCCGACCTGC GGCGGCTTCG ATACGAGGGT 
ATCCGGCCGG CTCCCGGCTA CCCCAGCCAG CCCGACCACA GCGAGAAGCT CACCATGTGG 
AAGCTTGCTG ATGTGGAGCG GTGCACGGGC ATTAGGTTAA CGGAGTCCTT AGCAATGGCA 
CCTGCTTCAG CGGTATCTGG CCTCTACTTC TCCAATTTGA AGTCGAAATA CTTTGCAGTG 
GGGAAAATTT CCAAGGATCA GATTGAGGAC TACGCTGTGC GGAAGAACAT GTCCGTGGCC 
GAGGTTGAGA AATGGCTGGG ACCCATTTTG GGATACGACA TAGAAAGTTA A

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

RefSeq	XP_019664862.1
CDS	84..3794
Translation	MVLDGGMGTMIQRHKLSEEDFRGHEFQDHARPLKGNNDILSITQPSVIYQIHKDYLLAGADIIETNTFSSTNIAQADYGLEHLAYRMNKCSAGLARKAAEEVSFQTGIKRFVAGALGPTNKTLSVSPSVEKPDYRNITFDELVEAYQEQAKGLLDGGADILLIETIFDTANAKAALFALQTLFEEEYSPRPIFISGTIIDKSGRTLSGQMGEAFVISVSHADPLCIGLNCALGAAEMRPFIETIGKCTTAYVLCYPNAGLPNTFGDYDETPHMMATQLKDFAMDGLVNIVGGCCGTTPDHIREIAKAVRNCKPRVPPATVFEEHMLLSGLEPFRIGPYTNFVNIGERCNVAGSRRFAKLIMAGNYEEALSVAKVQVEMGAQVLDINMDDGMLDGSSAMTRFCNFIASEPDIAKVPLCIDSSNFAVIEAGLKCCQGKCIVNSISLKEGEEDFLEKARKIKKFGAAVVVMAFDEEGQATETDTKISVCMRAYRLLVKKLGFNPNDIIFDPNILTIGTGMEEHNLYAVNFIRATKIIKETLPGARVSGGLSNLSFSFRGMEAIREAMHGVFLYHAIKFGMDMGIVNAGNLPVYDDIHKELLQLCEDLIWNKDPEATEKLLRYAQTHGKGGKKVIQTDEWRNGPIEERLEYALVKGIEKYIIEDTEEARLNQEKYPRPLNIIEGPLMNGMKVVGDLFGAGKMFLPQVIKSARVMKKAVGHLIPFMEKEREENKMHAGTEEKEDPYQGTIVLATVKGDVHDIGKNIVGVVLGCNNFRVIDLGVMTPCDKILKAALDHKADIIGLSGLITPSLDEMIFVAKEMERLAIKIPLLIGGATTSRTHTAVKIAPRYSAPVIHVLDASKSVVVCSQLLDENLKDEFFEEILEEYEDIRQDHYESLKERRYLTLSQARKNGFHIDWLSEPPPVKPTFLGTRVFEDYDLRKLVAYIDWKPFFDVWQLRGKYPNRSFPKIFKDKTVGEEARKVYDDAQNMLEVLISQKKLRARGVVGFWPAQSVEDDIHLYAEGATPQAAEPIATFHGLRQQAEKDSASTDPYHCLSDFIAPLHSGVRDYLGLFAVACFGVEELSKAYEQECDDYSSIMVKALGDRLAEAFAEELHERVRRELWAYCSCEQLDVADLRRLRYEGIRPAPGYPSQPDHSEKLTMWKLADVERCTGIRLTESLAMAPASAVSGLYFSNLKSKYFAVGKISKDQIEDYAVRKNMSVAEVEKWLGPILGYDIES

Target ORF information:

RefSeq Version	XM_019809303.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), mRNA.

Target ORF information:

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

XM_019809303.1

ORF Insert Sequence:

ATGGTGCTGG ATGGAGGGAT GGGGACCATG ATCCAGCGGC ATAAGCTAAG TGAAGAAGAC 
TTCCGAGGTC ACGAATTTCA AGATCACGCC AGGCCGCTGA AAGGCAACAA TGACATTTTA 
AGCATAACTC AACCCAGTGT TATTTACCAA ATCCATAAGG ATTACTTGCT GGCTGGGGCA 
GATATCATCG AAACAAACAC TTTCAGCAGC ACTAACATTG CCCAAGCAGA CTATGGCCTC 
GAACACTTGG CCTACCGGAT GAACAAATGC TCCGCGGGAC TGGCCAGAAA GGCAGCCGAG 
GAGGTGTCCT TCCAGACAGG AATTAAGAGG TTTGTGGCAG GAGCTCTGGG TCCAACTAAT 
AAGACACTGT CTGTGTCTCC GTCTGTGGAG AAACCAGATT ACAGGAACAT TACATTTGAT 
GAACTCGTTG AAGCGTACCA AGAGCAGGCC AAAGGGCTTC TGGATGGTGG GGCTGATATC 
TTACTCATTG AAACTATTTT TGATACCGCC AATGCCAAGG CAGCCTTGTT CGCACTCCAG 
ACACTTTTTG AAGAGGAGTA TTCCCCCCGG CCTATCTTCA TTTCAGGGAC AATTATTGAT 
AAAAGTGGGC GAACTCTTTC CGGACAGATG GGAGAGGCAT TTGTCATCAG TGTGTCTCAC 
GCAGACCCCC TCTGCATTGG ATTAAACTGC GCTCTGGGTG CAGCTGAAAT GAGACCTTTT 
ATTGAAACAA TTGGAAAATG TACAACAGCC TATGTCCTCT GTTATCCCAA TGCAGGTCTT 
CCCAACACGT TTGGTGACTA CGATGAGACT CCGCATATGA TGGCCACGCA ACTAAAGGAC 
TTTGCTATGG ATGGCTTGGT CAATATAGTG GGTGGCTGCT GTGGTACGAC TCCTGATCAC 
ATCAGGGAGA TTGCTAAAGC TGTGAGAAAC TGTAAGCCTA GAGTTCCACC TGCCACTGTT 
TTTGAAGAGC ATATGTTACT ATCTGGTCTA GAGCCCTTCA GGATCGGACC GTACACCAAC 
TTTGTTAACA TTGGAGAGCG CTGTAACGTG GCAGGATCCA GGAGGTTTGC TAAACTCATC 
ATGGCAGGAA ACTATGAAGA AGCGCTGAGT GTTGCCAAAG TGCAGGTGGA AATGGGAGCG 
CAGGTGTTGG ATATCAACAT GGATGACGGC ATGCTGGACG GTTCCAGTGC AATGACCAGA 
TTTTGCAACT TCATTGCTTC CGAGCCCGAT ATTGCCAAGG TGCCCTTGTG CATCGACTCT 
TCCAATTTTG CTGTGATTGA AGCCGGCTTG AAGTGCTGCC AGGGCAAGTG CATTGTCAAC 
AGCATTAGCC TGAAGGAGGG AGAGGAAGAC TTCTTGGAGA AGGCTAGAAA GATTAAGAAG 
TTTGGAGCTG CTGTGGTGGT CATGGCTTTT GATGAAGAAG GGCAGGCGAC AGAAACAGAC 
ACCAAAATCA GCGTGTGCAT GCGGGCCTAC CGTCTACTTG TGAAAAAACT GGGCTTTAAT 
CCAAATGACA TCATCTTTGA CCCCAACATC CTCACCATTG GTACTGGGAT GGAAGAGCAC 
AACTTGTATG CTGTTAATTT TATCCGTGCA ACAAAAATCA TTAAAGAAAC CCTACCTGGA 
GCCCGAGTAA GTGGAGGTCT TTCCAACTTG TCCTTCTCCT TCCGAGGAAT GGAAGCCATT 
CGAGAAGCAA TGCATGGGGT TTTCCTTTAC CACGCAATCA AGTTTGGTAT GGACATGGGG 
ATAGTGAATG CAGGAAACCT CCCTGTATAT GACGATATCC ACAAGGAGCT TCTCCAGCTC 
TGTGAAGATC TCATCTGGAA CAAAGACCCC GAGGCCACTG AGAAGCTCCT GCGCTATGCT 
CAGACGCATG GCAAAGGAGG GAAGAAAGTC ATCCAGACTG ATGAGTGGAG GAATGGCCCC 
ATTGAAGAAC GCCTGGAGTA CGCCCTTGTG AAGGGTATCG AAAAATATAT TATTGAGGAC 
ACTGAGGAAG CCAGGTTAAA CCAGGAAAAA TATCCCCGGC CTCTGAATAT AATCGAAGGG 
CCTCTGATGA ACGGCATGAA AGTTGTCGGT GACCTCTTTG GAGCTGGAAA AATGTTTCTA 
CCTCAGGTTA TAAAGTCAGC TCGAGTCATG AAGAAAGCTG TTGGCCACCT TATTCCCTTC 
ATGGAGAAAG AAAGAGAAGA GAACAAAATG CATGCTGGCA CAGAAGAAAA AGAGGACCCC 
TACCAGGGCA CCATTGTGTT GGCTACCGTG AAGGGCGACG TGCACGACAT AGGCAAGAAC 
ATAGTTGGTG TGGTCCTTGG CTGCAATAAC TTCAGAGTTA TTGATTTAGG GGTCATGACT 
CCCTGTGACA AGATCCTGAA AGCTGCTCTT GACCACAAAG CAGATATAAT TGGCCTATCA 
GGACTCATCA CTCCTTCCCT GGATGAAATG ATTTTTGTTG CCAAGGAAAT GGAGAGATTG 
GCTATAAAGA TTCCACTGTT GATCGGAGGA GCAACCACAT CCAGAACCCA CACGGCAGTG 
AAAATAGCTC CAAGATACAG CGCACCTGTC ATCCACGTCC TGGATGCATC CAAGAGTGTG 
GTGGTGTGCT CGCAGCTGTT AGATGAGAAT CTAAAGGATG AATTTTTTGA GGAGATCCTG 
GAAGAATATG AAGATATTAG ACAGGACCAT TATGAGTCTC TCAAGGAGAG AAGATACTTA 
ACCTTAAGTC AAGCTAGAAA AAATGGTTTC CATATTGACT GGCTGTCAGA GCCCCCTCCA 
GTGAAGCCCA CATTTCTTGG GACTCGGGTC TTCGAAGACT ATGACCTGCG GAAGCTGGTG 
GCCTACATCG ACTGGAAACC CTTCTTCGAT GTCTGGCAGC TCCGGGGCAA GTACCCGAAT 
CGAAGCTTTC CCAAGATATT TAAGGACAAA ACTGTAGGTG AAGAGGCCAG AAAAGTCTAT 
GATGATGCCC AAAACATGCT GGAAGTGCTG ATCAGTCAGA AGAAGCTCCG AGCCAGGGGC 
GTGGTGGGGT TTTGGCCGGC ACAGAGCGTG GAAGACGACA TCCACCTGTA CGCAGAGGGC 
GCCACGCCGC AGGCCGCAGA GCCCATAGCT ACCTTCCACG GGCTGAGGCA GCAGGCCGAG 
AAGGACTCTG CCAGCACGGA CCCATACCAC TGCCTCTCGG ACTTCATCGC TCCACTGCAT 
TCTGGCGTCC GCGACTACCT GGGCCTGTTT GCTGTCGCCT GCTTCGGGGT GGAGGAGCTG 
AGCAAGGCCT ACGAGCAGGA GTGTGACGAC TACAGCAGCA TCATGGTCAA GGCTCTGGGA 
GACCGGCTGG CTGAGGCCTT TGCGGAGGAG CTCCACGAGC GGGTCCGCCG GGAGCTGTGG 
GCCTACTGCA GCTGTGAGCA GCTGGATGTC GCCGACCTGC GGCGGCTTCG ATACGAGGGT 
ATCCGGCCGG CTCCCGGCTA CCCCAGCCAG CCCGACCACA GCGAGAAGCT CACCATGTGG 
AAGCTTGCTG ATGTGGAGCG GTGCACGGGC ATTAGGTTAA CGGAGTCCTT AGCAATGGCA 
CCTGCTTCAG CGGTATCTGG CCTCTACTTC TCCAATTTGA AGTCGAAATA CTTTGCAGTG 
GGGAAAATTT CCAAGGATCA GATTGAGGAC TACGCTGTGC GGAAGAACAT GTCCGTGGCC 
GAGGTTGAGA AATGGCTGGG ACCCATTTTG GGATACGACA TAGAAAGTTA A

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

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MTR cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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