MMS19 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	MMS19
Entrez Gene ID	100225711
Full Name	MMS19 homolog, cytosolic iron-sulfur assembly component
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012574643.1	XP_012430097.1	MMS19 nucleotide excision repair protein homolog isoform X1
XM_012574644.1	XP_012430098.1	MMS19 nucleotide excision repair protein homolog isoform X2
XM_030276222.1	XP_030132082.1	MMS19 nucleotide excision repair protein homolog isoform X3
XM_030276223.1	XP_030132083.1	MMS19 nucleotide excision repair protein homolog isoform X4
XM_030276221.1	XP_030132081.1	MMS19 nucleotide excision repair protein homolog isoform X2
XM_030276220.1	XP_030132080.1	MMS19 nucleotide excision repair protein homolog isoform X1

Pathways from BioSystems
Gene Ontology

The following MMS19 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MMS19 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)
OTd17540	XM_012574643.1 Latest version!	Taeniopygia guttata MMS19 nucleotide excision repair homolog (S. cerevisiae) (MMS19), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd17541	XM_012574644.1 Latest version!	Taeniopygia guttata MMS19 nucleotide excision repair homolog (S. cerevisiae) (MMS19), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd48591	XM_030276220.1 Latest version!	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd48592	XM_030276221.1 Latest version!	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd48593	XM_030276222.1 Latest version!	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd48594	XM_030276223.1 Latest version!	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

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

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

Reference Sequences (Refseq)

MMS19 ( XM_012574643.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430097.1 Taeniopygia guttata MMS19 nucleotide excision repair homolog (S. cerevisiae) (MMS19), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd17540
Clone ID Related Accession (Same CDS sequence)	XM_012574643.1
Accession Version	XM_012574643.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2898bp) 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	MMS19 nucleotide excision repair protein homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198841.1) 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 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##

ATGCGAGGGC GAGGCATCCA GCTGTTGTCA CAAGTCCTGC TCCAGTGTTA CTCCCTGCTT 
CAGGAGAAGG AAGTGCTGCA TCTGGTCATG TTCTATGAGA GCCGGCTGCA AGATAATCAC 
CTGGTGATCC CCTCGGTGCT CCAGGGACTC CGGGCACTGA GCATGTGTGA GGTGCTGTCC 
CCAGGGCTAG CAGTGTCTGT GCTCAAAGCC ATCTTCCAGG AGGTACATGT GCAGTCCTTG 
CCGCAACTGG ACCGCCACAC AGTCTACAGC ATCATCACCA ACTTCATGAG CACCAGGGAG 
GAAGAGCTGA AAGGCCTGGG TGCCAACTTC ACCTTCGGTT TCATCCAGGT CATGGATGGG 
GAGAAGGATC CCCGCAATCT GCTTGTGGCC TTCCAGATTG TGCGTGATCT CATTGCCAAG 
GACTATGCCC TGGGTCCCTT TGTGGAGGAG CTCTTTGAAG TTACATCCTG CTACTTCCCT 
GTTGATTTTA CTCCACCCCC CAATGATCCT CATGGCATCC AGAGAGAAGA CCTGATCCTG 
AGCCTCCGGG CTGTACTGGC TTCCACAACC CAGTTTGCTG AGTTCCTTCT CCCTCTGCTT 
ATTGAGAAGT TGGACTCAGA ACTGCAAAGT GCCAAGCTTG ACTCGCTGCA GACTCTGACT 
GCCTGCTGTG CCATCTATGG GCAGAAGGAG CTGCAGGAAT TCCTTCCCAG CCTCTGGTCA 
TCCCTGCGCA GAGAGGTGTT CCAGACAGCG AGTGAGAAGA TTGAGACGGA ATGCCTGGCT 
GCACTGCGTG CTCTCTCTGC CTGCCTCTCC CGCTCCGTGC TCAGCTCTGA TTCTGAGGAT 
CTGCTGGATT CCTTCCTCAG CAGCATCCTG CAAGATTGCA GGCACCATCT GTGCGAGCCC 
GACATGAAGC TGGTGTGGCC CAGTGCCAAA CTCCTGCAGG CAGCAGCGGG TGCCTCCCTC 
CGCACCTACC ACTGCATCAC CCATAGCGTC CTGCCCCTGC TGCTGGAGCA GTACACCAAG 
CACACGCAGA GCAGCCAGAG GAGAACAATC CTGGAAATGC TGCTAGGCTT CCTGGAGTTG 
CAGCAGAAGT GGGGAAATGT GGAAGAAGGT GAAGATGAGA GCGCTCTGCT GTTGCTCCAA 
GCCCAGATTT GCTCTGTGGT GTTCTCGGCG CTGCTGGATC CCAGTGTGCA GCTGCAGCTG 
GTTGGGATCA AAGCACTGAC TGTCCTGGGC TCCTTGCAAG GCTTCCTGTC TTCCTCTAAT 
CTGGAGCTGG TTGCGGATCA CCTCATCCGT CTTGCTCTGC ATGAGGATTC CCAGAGCAGT 
GAAGCAGCAA TGGAGGCAGC TGGGTCCCTG GCCCCCACCT TCCCAAAGGT TTTCTCTGGA 
CACATGGTAC CCAGGCTTAA AGAGGAGCTG CAGTCAGAGC GGGAGGAGAG CTACCACAAC 
CGCCACTCCT TGCAGCAGCG CTGCCTGCAG GCCCTGGCAG CTGTGTCCAC CCACACCAGC 
ATCGTGAAGG AGACTGTCCC CATCCTGCTA CAGCATCTCC AGAAGGTGCA GAAAGGGACT 
GAGGCCAGGA ACACCCAAGA CATGATCTCT GTGTGCCAGA GCCTGCACCG TGTGGCCCTG 
CAGTGCCAGC AGGATGCCGA GGGCTGCTGG TACTTCCACC AGACGGTGGT GCCGTGCCTG 
CTGGCCATGG CTGTGCAGGC AGCCATGCCA GAGAGCACTC ATACACTGCC AGGCAAGGCA 
CTGCTGGAGG AAGAGGTGCT GGCTGCCATG ATCCCAGTCA TCAGTGCTGC CACCACTCAC 
CTGCGCCCTG AGCTGGCTGC CCAGAGTGTG TCTCATGTGG TGCCCCTCTT TCTGGATGGA 
GATGTCTCCT TCCTACCCCA GAACAGTTTT CCCTGCTCCT TCCAGCCTTT CGGGGATGGG 
GAGTTCTTGG AGGCACAGAG ACGCCTGGTT GCCCTCCTCA TGGCCTTCAT CTGTTCCTTG 
CCCCGCGATG TGGCAATCCC TCAGCATGAA TGGCTGCTCC GGGAGCTGCT GGCATTGAGC 
TGTTCCTGCA ACTGTCCCTT CACGGCCACC ACAGCTGCCA AGTGCTTTGC AGGGCTGGTG 
AACAAGCACC CAGCAGGGCA GCAGCTGGAT GAAATCCTGC AGCTTGCAGT GAACAGGATG 
GAGCCCAGCC TTGCAGAGGG GCCCCGCCGA ACGCAGGCAC TCACCCTGCT GCTCTGGGTG 
ACCAAAGCCC TGGTGCTGCG CTACCACCCC CTAAGCTCTT GCCTGACAGA CAAGCTGCTG 
GGCCTGCTGG GTGACACGGA GCTGGGCCCT GCCACAGCCG ATGGCTTCTC CTTGCTCATG 
GCCGAGTCCC CGGACGTGCT GCACAAGGGC TGCCACGCTG ACGTGCGCAT CATGTTCCGC 
CAGCGCTTCT TCACTGACAA TGTCCCCAAG CTGGTGCAAG GCTTCCATGG GGCCGGCCCC 
GATGTGAAGG CCAATTACCT GAAGGGCCTG TCCCATGTGC TCAACCACCT CCCCAAACCT 
GTGCTGGTGA CAGAGCTGCC CACGCTTCTT TCCCTCCTGC TTGAGGCCTT GTCCTGCTCA 
GATCGTGTAG TGCAGCTCTC CACACTGAGC TGCCTCCACC CACTGCTGCT TGAAGCTCCC 
CAGATCATGA GCCTGCATGT CGACACACTG GTCACCAAGT TCCTCAACCT CACCTCCAGC 
CCCACCATGG CTGTCCGCAT CGCTGCCCTG CGCTGTGCCC ACGCCCTTAC CAGTCTGCCC 
ACAACAGTGC TGCTTCCATA CAAGGGCCGA GTTATCCGGG CACTGGCCAA GCCTTTGGAT 
GACAAAAAGA GGCTGGTGCG GAAGGAAGCA GTGGCAGCAC GCGGAGAATG GTTCCTGCTT 
GGGAGCCCAG GCAGGTGA

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

RefSeq	XP_012430097.1
CDS	74..2971
Translation	MRGRGIQLLSQVLLQCYSLLQEKEVLHLVMFYESRLQDNHLVIPSVLQGLRALSMCEVLSPGLAVSVLKAIFQEVHVQSLPQLDRHTVYSIITNFMSTREEELKGLGANFTFGFIQVMDGEKDPRNLLVAFQIVRDLIAKDYALGPFVEELFEVTSCYFPVDFTPPPNDPHGIQREDLILSLRAVLASTTQFAEFLLPLLIEKLDSELQSAKLDSLQTLTACCAIYGQKELQEFLPSLWSSLRREVFQTASEKIETECLAALRALSACLSRSVLSSDSEDLLDSFLSSILQDCRHHLCEPDMKLVWPSAKLLQAAAGASLRTYHCITHSVLPLLLEQYTKHTQSSQRRTILEMLLGFLELQQKWGNVEEGEDESALLLLQAQICSVVFSALLDPSVQLQLVGIKALTVLGSLQGFLSSSNLELVADHLIRLALHEDSQSSEAAMEAAGSLAPTFPKVFSGHMVPRLKEELQSEREESYHNRHSLQQRCLQALAAVSTHTSIVKETVPILLQHLQKVQKGTEARNTQDMISVCQSLHRVALQCQQDAEGCWYFHQTVVPCLLAMAVQAAMPESTHTLPGKALLEEEVLAAMIPVISAATTHLRPELAAQSVSHVVPLFLDGDVSFLPQNSFPCSFQPFGDGEFLEAQRRLVALLMAFICSLPRDVAIPQHEWLLRELLALSCSCNCPFTATTAAKCFAGLVNKHPAGQQLDEILQLAVNRMEPSLAEGPRRTQALTLLLWVTKALVLRYHPLSSCLTDKLLGLLGDTELGPATADGFSLLMAESPDVLHKGCHADVRIMFRQRFFTDNVPKLVQGFHGAGPDVKANYLKGLSHVLNHLPKPVLVTELPTLLSLLLEALSCSDRVVQLSTLSCLHPLLLEAPQIMSLHVDTLVTKFLNLTSSPTMAVRIAALRCAHALTSLPTTVLLPYKGRVIRALAKPLDDKKRLVRKEAVAARGEWFLLGSPGR

Target ORF information:

RefSeq Version	XM_012574643.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata MMS19 nucleotide excision repair homolog (S. cerevisiae) (MMS19), transcript variant X1, mRNA.

Target ORF information:

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

XM_012574643.1

ORF Insert Sequence:

ATGCGAGGGC GAGGCATCCA GCTGTTGTCA CAAGTCCTGC TCCAGTGTTA CTCCCTGCTT 
CAGGAGAAGG AAGTGCTGCA TCTGGTCATG TTCTATGAGA GCCGGCTGCA AGATAATCAC 
CTGGTGATCC CCTCGGTGCT CCAGGGACTC CGGGCACTGA GCATGTGTGA GGTGCTGTCC 
CCAGGGCTAG CAGTGTCTGT GCTCAAAGCC ATCTTCCAGG AGGTACATGT GCAGTCCTTG 
CCGCAACTGG ACCGCCACAC AGTCTACAGC ATCATCACCA ACTTCATGAG CACCAGGGAG 
GAAGAGCTGA AAGGCCTGGG TGCCAACTTC ACCTTCGGTT TCATCCAGGT CATGGATGGG 
GAGAAGGATC CCCGCAATCT GCTTGTGGCC TTCCAGATTG TGCGTGATCT CATTGCCAAG 
GACTATGCCC TGGGTCCCTT TGTGGAGGAG CTCTTTGAAG TTACATCCTG CTACTTCCCT 
GTTGATTTTA CTCCACCCCC CAATGATCCT CATGGCATCC AGAGAGAAGA CCTGATCCTG 
AGCCTCCGGG CTGTACTGGC TTCCACAACC CAGTTTGCTG AGTTCCTTCT CCCTCTGCTT 
ATTGAGAAGT TGGACTCAGA ACTGCAAAGT GCCAAGCTTG ACTCGCTGCA GACTCTGACT 
GCCTGCTGTG CCATCTATGG GCAGAAGGAG CTGCAGGAAT TCCTTCCCAG CCTCTGGTCA 
TCCCTGCGCA GAGAGGTGTT CCAGACAGCG AGTGAGAAGA TTGAGACGGA ATGCCTGGCT 
GCACTGCGTG CTCTCTCTGC CTGCCTCTCC CGCTCCGTGC TCAGCTCTGA TTCTGAGGAT 
CTGCTGGATT CCTTCCTCAG CAGCATCCTG CAAGATTGCA GGCACCATCT GTGCGAGCCC 
GACATGAAGC TGGTGTGGCC CAGTGCCAAA CTCCTGCAGG CAGCAGCGGG TGCCTCCCTC 
CGCACCTACC ACTGCATCAC CCATAGCGTC CTGCCCCTGC TGCTGGAGCA GTACACCAAG 
CACACGCAGA GCAGCCAGAG GAGAACAATC CTGGAAATGC TGCTAGGCTT CCTGGAGTTG 
CAGCAGAAGT GGGGAAATGT GGAAGAAGGT GAAGATGAGA GCGCTCTGCT GTTGCTCCAA 
GCCCAGATTT GCTCTGTGGT GTTCTCGGCG CTGCTGGATC CCAGTGTGCA GCTGCAGCTG 
GTTGGGATCA AAGCACTGAC TGTCCTGGGC TCCTTGCAAG GCTTCCTGTC TTCCTCTAAT 
CTGGAGCTGG TTGCGGATCA CCTCATCCGT CTTGCTCTGC ATGAGGATTC CCAGAGCAGT 
GAAGCAGCAA TGGAGGCAGC TGGGTCCCTG GCCCCCACCT TCCCAAAGGT TTTCTCTGGA 
CACATGGTAC CCAGGCTTAA AGAGGAGCTG CAGTCAGAGC GGGAGGAGAG CTACCACAAC 
CGCCACTCCT TGCAGCAGCG CTGCCTGCAG GCCCTGGCAG CTGTGTCCAC CCACACCAGC 
ATCGTGAAGG AGACTGTCCC CATCCTGCTA CAGCATCTCC AGAAGGTGCA GAAAGGGACT 
GAGGCCAGGA ACACCCAAGA CATGATCTCT GTGTGCCAGA GCCTGCACCG TGTGGCCCTG 
CAGTGCCAGC AGGATGCCGA GGGCTGCTGG TACTTCCACC AGACGGTGGT GCCGTGCCTG 
CTGGCCATGG CTGTGCAGGC AGCCATGCCA GAGAGCACTC ATACACTGCC AGGCAAGGCA 
CTGCTGGAGG AAGAGGTGCT GGCTGCCATG ATCCCAGTCA TCAGTGCTGC CACCACTCAC 
CTGCGCCCTG AGCTGGCTGC CCAGAGTGTG TCTCATGTGG TGCCCCTCTT TCTGGATGGA 
GATGTCTCCT TCCTACCCCA GAACAGTTTT CCCTGCTCCT TCCAGCCTTT CGGGGATGGG 
GAGTTCTTGG AGGCACAGAG ACGCCTGGTT GCCCTCCTCA TGGCCTTCAT CTGTTCCTTG 
CCCCGCGATG TGGCAATCCC TCAGCATGAA TGGCTGCTCC GGGAGCTGCT GGCATTGAGC 
TGTTCCTGCA ACTGTCCCTT CACGGCCACC ACAGCTGCCA AGTGCTTTGC AGGGCTGGTG 
AACAAGCACC CAGCAGGGCA GCAGCTGGAT GAAATCCTGC AGCTTGCAGT GAACAGGATG 
GAGCCCAGCC TTGCAGAGGG GCCCCGCCGA ACGCAGGCAC TCACCCTGCT GCTCTGGGTG 
ACCAAAGCCC TGGTGCTGCG CTACCACCCC CTAAGCTCTT GCCTGACAGA CAAGCTGCTG 
GGCCTGCTGG GTGACACGGA GCTGGGCCCT GCCACAGCCG ATGGCTTCTC CTTGCTCATG 
GCCGAGTCCC CGGACGTGCT GCACAAGGGC TGCCACGCTG ACGTGCGCAT CATGTTCCGC 
CAGCGCTTCT TCACTGACAA TGTCCCCAAG CTGGTGCAAG GCTTCCATGG GGCCGGCCCC 
GATGTGAAGG CCAATTACCT GAAGGGCCTG TCCCATGTGC TCAACCACCT CCCCAAACCT 
GTGCTGGTGA CAGAGCTGCC CACGCTTCTT TCCCTCCTGC TTGAGGCCTT GTCCTGCTCA 
GATCGTGTAG TGCAGCTCTC CACACTGAGC TGCCTCCACC CACTGCTGCT TGAAGCTCCC 
CAGATCATGA GCCTGCATGT CGACACACTG GTCACCAAGT TCCTCAACCT CACCTCCAGC 
CCCACCATGG CTGTCCGCAT CGCTGCCCTG CGCTGTGCCC ACGCCCTTAC CAGTCTGCCC 
ACAACAGTGC TGCTTCCATA CAAGGGCCGA GTTATCCGGG CACTGGCCAA GCCTTTGGAT 
GACAAAAAGA GGCTGGTGCG GAAGGAAGCA GTGGCAGCAC GCGGAGAATG GTTCCTGCTT 
GGGAGCCCAG GCAGGTGA

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

MMS19 ( XM_012574644.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430098.1 Taeniopygia guttata MMS19 nucleotide excision repair homolog (S. cerevisiae) (MMS19), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd17541
Clone ID Related Accession (Same CDS sequence)	XM_012574644.1
Accession Version	XM_012574644.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) 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	MMS19 nucleotide excision repair protein homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198841.1) 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##

ATGCGAGGGC GAGGCATCCA GCTGTTGTCA CAAGTCCTGC TCCAGTGTTA CTCCCTGCTT 
CAGGAGAAGG AAGTGCTGCA TCTGGTCATG TTCTATGAGA GCCGGCTGCA AGATAATCAC 
CTGGTGATCC CCTCGGTGCT CCAGGGACTC CGGGCACTGA GCATGTGTGA GGTGCTGTCC 
CCAGGGCTAG CAGTGTCTGT GCTCAAAGCC ATCTTCCAGG AGGTACATGT GCAGTCCTTG 
CCGCAACTGG ACCGCCACAC AGTCTACAGC ATCATCACCA ACTTCATGAG CACCAGGGAG 
GAAGAGCTGA AAGGCCTGGG TGCCAACTTC ACCTTCGGTT TCATCCAGGT CATGGATGGG 
GAGAAGGATC CCCGCAATCT GCTTGTGGCC TTCCAGATTG TGCGTGATCT CATTGCCAAG 
GACTATGCCC TGGGTCCCTT TGTGGAGGAG CTCTTTGAAG TTACATCCTG CTACTTCCCT 
GTTGATTTTA CTCCACCCCC CAATGATCCT CATGGCATCC AGAGAGAAGA CCTGATCCTG 
AGCCTCCGGG CTGTACTGGC TTCCACAACC CAGTTTGCTG AGTTCCTTCT CCCTCTGCTT 
ATTGAGAAGT TGGACTCAGA ACTGCAAAGT GCCAAGCTTG ACTCGCTGCA GACTCTGACT 
GCCTGCTGTG CCATCTATGG GCAGAAGGAG CTGCAGGAAT TCCTTCCCAG CCTCTGGTCA 
TCCCTGCGCA GAGAGGTGTT CCAGACAGCG AGTGAGAAGA TTGAGACGGA ATGCCTGGCT 
GCACTGCGTG CTCTCTCTGC CTGCCTCTCC CGCTCCGTGC TCAGCTCTGA TTCTGAGGAT 
CTGCTGGATT CCTTCCTCAG CAGCATCCTG CAAGATTGCA GGCACCATCT GTGCGAGCCC 
GACATGAAGC TGGTGTGGCC CAGTGCCAAA CTCCTGCAGG CAGCAGCGGG TGCCTCCCTC 
CGCACCTACC ACTGCATCAC CCATAGCGTC CTGCCCCTGC TGCTGGAGCA GTACACCAAG 
CACACGCAGA GCAGCCAGAG GAGAACAATC CTGGAAATGC TGCTAGGCTT CCTGGAGTTG 
CAGCAGAAGT GGGGAAATGT GGAAGAAGAT GAGAGCGCTC TGCTGTTGCT CCAAGCCCAG 
ATTTGCTCTG TGGTGTTCTC GGCGCTGCTG GATCCCAGTG TGCAGCTGCA GCTGGTTGGG 
ATCAAAGCAC TGACTGTCCT GGGCTCCTTG CAAGGCTTCC TGTCTTCCTC TAATCTGGAG 
CTGGTTGCGG ATCACCTCAT CCGTCTTGCT CTGCATGAGG ATTCCCAGAG CAGTGAAGCA 
GCAATGGAGG CAGCTGGGTC CCTGGCCCCC ACCTTCCCAA AGGTTTTCTC TGGACACATG 
GTACCCAGGC TTAAAGAGGA GCTGCAGTCA GAGCGGGAGG AGAGCTACCA CAACCGCCAC 
TCCTTGCAGC AGCGCTGCCT GCAGGCCCTG GCAGCTGTGT CCACCCACAC CAGCATCGTG 
AAGGAGACTG TCCCCATCCT GCTACAGCAT CTCCAGAAGG TGCAGAAAGG GACTGAGGCC 
AGGAACACCC AAGACATGAT CTCTGTGTGC CAGAGCCTGC ACCGTGTGGC CCTGCAGTGC 
CAGCAGGATG CCGAGGGCTG CTGGTACTTC CACCAGACGG TGGTGCCGTG CCTGCTGGCC 
ATGGCTGTGC AGGCAGCCAT GCCAGAGAGC ACTCATACAC TGCCAGGCAA GGCACTGCTG 
GAGGAAGAGG TGCTGGCTGC CATGATCCCA GTCATCAGTG CTGCCACCAC TCACCTGCGC 
CCTGAGCTGG CTGCCCAGAG TGTGTCTCAT GTGGTGCCCC TCTTTCTGGA TGGAGATGTC 
TCCTTCCTAC CCCAGAACAG TTTTCCCTGC TCCTTCCAGC CTTTCGGGGA TGGGGAGTTC 
TTGGAGGCAC AGAGACGCCT GGTTGCCCTC CTCATGGCCT TCATCTGTTC CTTGCCCCGC 
GATGTGGCAA TCCCTCAGCA TGAATGGCTG CTCCGGGAGC TGCTGGCATT GAGCTGTTCC 
TGCAACTGTC CCTTCACGGC CACCACAGCT GCCAAGTGCT TTGCAGGGCT GGTGAACAAG 
CACCCAGCAG GGCAGCAGCT GGATGAAATC CTGCAGCTTG CAGTGAACAG GATGGAGCCC 
AGCCTTGCAG AGGGGCCCCG CCGAACGCAG GCACTCACCC TGCTGCTCTG GGTGACCAAA 
GCCCTGGTGC TGCGCTACCA CCCCCTAAGC TCTTGCCTGA CAGACAAGCT GCTGGGCCTG 
CTGGGTGACA CGGAGCTGGG CCCTGCCACA GCCGATGGCT TCTCCTTGCT CATGGCCGAG 
TCCCCGGACG TGCTGCACAA GGGCTGCCAC GCTGACGTGC GCATCATGTT CCGCCAGCGC 
TTCTTCACTG ACAATGTCCC CAAGCTGGTG CAAGGCTTCC ATGGGGCCGG CCCCGATGTG 
AAGGCCAATT ACCTGAAGGG CCTGTCCCAT GTGCTCAACC ACCTCCCCAA ACCTGTGCTG 
GTGACAGAGC TGCCCACGCT TCTTTCCCTC CTGCTTGAGG CCTTGTCCTG CTCAGATCGT 
GTAGTGCAGC TCTCCACACT GAGCTGCCTC CACCCACTGC TGCTTGAAGC TCCCCAGATC 
ATGAGCCTGC ATGTCGACAC ACTGGTCACC AAGTTCCTCA ACCTCACCTC CAGCCCCACC 
ATGGCTGTCC GCATCGCTGC CCTGCGCTGT GCCCACGCCC TTACCAGTCT GCCCACAACA 
GTGCTGCTTC CATACAAGGG CCGAGTTATC CGGGCACTGG CCAAGCCTTT GGATGACAAA 
AAGAGGCTGG TGCGGAAGGA AGCAGTGGCA GCACGCGGAG AATGGTTCCT GCTTGGGAGC 
CCAGGCAGGT GA

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

RefSeq	XP_012430098.1
CDS	74..2965
Translation	MRGRGIQLLSQVLLQCYSLLQEKEVLHLVMFYESRLQDNHLVIPSVLQGLRALSMCEVLSPGLAVSVLKAIFQEVHVQSLPQLDRHTVYSIITNFMSTREEELKGLGANFTFGFIQVMDGEKDPRNLLVAFQIVRDLIAKDYALGPFVEELFEVTSCYFPVDFTPPPNDPHGIQREDLILSLRAVLASTTQFAEFLLPLLIEKLDSELQSAKLDSLQTLTACCAIYGQKELQEFLPSLWSSLRREVFQTASEKIETECLAALRALSACLSRSVLSSDSEDLLDSFLSSILQDCRHHLCEPDMKLVWPSAKLLQAAAGASLRTYHCITHSVLPLLLEQYTKHTQSSQRRTILEMLLGFLELQQKWGNVEEDESALLLLQAQICSVVFSALLDPSVQLQLVGIKALTVLGSLQGFLSSSNLELVADHLIRLALHEDSQSSEAAMEAAGSLAPTFPKVFSGHMVPRLKEELQSEREESYHNRHSLQQRCLQALAAVSTHTSIVKETVPILLQHLQKVQKGTEARNTQDMISVCQSLHRVALQCQQDAEGCWYFHQTVVPCLLAMAVQAAMPESTHTLPGKALLEEEVLAAMIPVISAATTHLRPELAAQSVSHVVPLFLDGDVSFLPQNSFPCSFQPFGDGEFLEAQRRLVALLMAFICSLPRDVAIPQHEWLLRELLALSCSCNCPFTATTAAKCFAGLVNKHPAGQQLDEILQLAVNRMEPSLAEGPRRTQALTLLLWVTKALVLRYHPLSSCLTDKLLGLLGDTELGPATADGFSLLMAESPDVLHKGCHADVRIMFRQRFFTDNVPKLVQGFHGAGPDVKANYLKGLSHVLNHLPKPVLVTELPTLLSLLLEALSCSDRVVQLSTLSCLHPLLLEAPQIMSLHVDTLVTKFLNLTSSPTMAVRIAALRCAHALTSLPTTVLLPYKGRVIRALAKPLDDKKRLVRKEAVAARGEWFLLGSPGR

Target ORF information:

RefSeq Version	XM_012574644.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata MMS19 nucleotide excision repair homolog (S. cerevisiae) (MMS19), transcript variant X2, mRNA.

Target ORF information:

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

XM_012574644.1

ORF Insert Sequence:

ATGCGAGGGC GAGGCATCCA GCTGTTGTCA CAAGTCCTGC TCCAGTGTTA CTCCCTGCTT 
CAGGAGAAGG AAGTGCTGCA TCTGGTCATG TTCTATGAGA GCCGGCTGCA AGATAATCAC 
CTGGTGATCC CCTCGGTGCT CCAGGGACTC CGGGCACTGA GCATGTGTGA GGTGCTGTCC 
CCAGGGCTAG CAGTGTCTGT GCTCAAAGCC ATCTTCCAGG AGGTACATGT GCAGTCCTTG 
CCGCAACTGG ACCGCCACAC AGTCTACAGC ATCATCACCA ACTTCATGAG CACCAGGGAG 
GAAGAGCTGA AAGGCCTGGG TGCCAACTTC ACCTTCGGTT TCATCCAGGT CATGGATGGG 
GAGAAGGATC CCCGCAATCT GCTTGTGGCC TTCCAGATTG TGCGTGATCT CATTGCCAAG 
GACTATGCCC TGGGTCCCTT TGTGGAGGAG CTCTTTGAAG TTACATCCTG CTACTTCCCT 
GTTGATTTTA CTCCACCCCC CAATGATCCT CATGGCATCC AGAGAGAAGA CCTGATCCTG 
AGCCTCCGGG CTGTACTGGC TTCCACAACC CAGTTTGCTG AGTTCCTTCT CCCTCTGCTT 
ATTGAGAAGT TGGACTCAGA ACTGCAAAGT GCCAAGCTTG ACTCGCTGCA GACTCTGACT 
GCCTGCTGTG CCATCTATGG GCAGAAGGAG CTGCAGGAAT TCCTTCCCAG CCTCTGGTCA 
TCCCTGCGCA GAGAGGTGTT CCAGACAGCG AGTGAGAAGA TTGAGACGGA ATGCCTGGCT 
GCACTGCGTG CTCTCTCTGC CTGCCTCTCC CGCTCCGTGC TCAGCTCTGA TTCTGAGGAT 
CTGCTGGATT CCTTCCTCAG CAGCATCCTG CAAGATTGCA GGCACCATCT GTGCGAGCCC 
GACATGAAGC TGGTGTGGCC CAGTGCCAAA CTCCTGCAGG CAGCAGCGGG TGCCTCCCTC 
CGCACCTACC ACTGCATCAC CCATAGCGTC CTGCCCCTGC TGCTGGAGCA GTACACCAAG 
CACACGCAGA GCAGCCAGAG GAGAACAATC CTGGAAATGC TGCTAGGCTT CCTGGAGTTG 
CAGCAGAAGT GGGGAAATGT GGAAGAAGAT GAGAGCGCTC TGCTGTTGCT CCAAGCCCAG 
ATTTGCTCTG TGGTGTTCTC GGCGCTGCTG GATCCCAGTG TGCAGCTGCA GCTGGTTGGG 
ATCAAAGCAC TGACTGTCCT GGGCTCCTTG CAAGGCTTCC TGTCTTCCTC TAATCTGGAG 
CTGGTTGCGG ATCACCTCAT CCGTCTTGCT CTGCATGAGG ATTCCCAGAG CAGTGAAGCA 
GCAATGGAGG CAGCTGGGTC CCTGGCCCCC ACCTTCCCAA AGGTTTTCTC TGGACACATG 
GTACCCAGGC TTAAAGAGGA GCTGCAGTCA GAGCGGGAGG AGAGCTACCA CAACCGCCAC 
TCCTTGCAGC AGCGCTGCCT GCAGGCCCTG GCAGCTGTGT CCACCCACAC CAGCATCGTG 
AAGGAGACTG TCCCCATCCT GCTACAGCAT CTCCAGAAGG TGCAGAAAGG GACTGAGGCC 
AGGAACACCC AAGACATGAT CTCTGTGTGC CAGAGCCTGC ACCGTGTGGC CCTGCAGTGC 
CAGCAGGATG CCGAGGGCTG CTGGTACTTC CACCAGACGG TGGTGCCGTG CCTGCTGGCC 
ATGGCTGTGC AGGCAGCCAT GCCAGAGAGC ACTCATACAC TGCCAGGCAA GGCACTGCTG 
GAGGAAGAGG TGCTGGCTGC CATGATCCCA GTCATCAGTG CTGCCACCAC TCACCTGCGC 
CCTGAGCTGG CTGCCCAGAG TGTGTCTCAT GTGGTGCCCC TCTTTCTGGA TGGAGATGTC 
TCCTTCCTAC CCCAGAACAG TTTTCCCTGC TCCTTCCAGC CTTTCGGGGA TGGGGAGTTC 
TTGGAGGCAC AGAGACGCCT GGTTGCCCTC CTCATGGCCT TCATCTGTTC CTTGCCCCGC 
GATGTGGCAA TCCCTCAGCA TGAATGGCTG CTCCGGGAGC TGCTGGCATT GAGCTGTTCC 
TGCAACTGTC CCTTCACGGC CACCACAGCT GCCAAGTGCT TTGCAGGGCT GGTGAACAAG 
CACCCAGCAG GGCAGCAGCT GGATGAAATC CTGCAGCTTG CAGTGAACAG GATGGAGCCC 
AGCCTTGCAG AGGGGCCCCG CCGAACGCAG GCACTCACCC TGCTGCTCTG GGTGACCAAA 
GCCCTGGTGC TGCGCTACCA CCCCCTAAGC TCTTGCCTGA CAGACAAGCT GCTGGGCCTG 
CTGGGTGACA CGGAGCTGGG CCCTGCCACA GCCGATGGCT TCTCCTTGCT CATGGCCGAG 
TCCCCGGACG TGCTGCACAA GGGCTGCCAC GCTGACGTGC GCATCATGTT CCGCCAGCGC 
TTCTTCACTG ACAATGTCCC CAAGCTGGTG CAAGGCTTCC ATGGGGCCGG CCCCGATGTG 
AAGGCCAATT ACCTGAAGGG CCTGTCCCAT GTGCTCAACC ACCTCCCCAA ACCTGTGCTG 
GTGACAGAGC TGCCCACGCT TCTTTCCCTC CTGCTTGAGG CCTTGTCCTG CTCAGATCGT 
GTAGTGCAGC TCTCCACACT GAGCTGCCTC CACCCACTGC TGCTTGAAGC TCCCCAGATC 
ATGAGCCTGC ATGTCGACAC ACTGGTCACC AAGTTCCTCA ACCTCACCTC CAGCCCCACC 
ATGGCTGTCC GCATCGCTGC CCTGCGCTGT GCCCACGCCC TTACCAGTCT GCCCACAACA 
GTGCTGCTTC CATACAAGGG CCGAGTTATC CGGGCACTGG CCAAGCCTTT GGATGACAAA 
AAGAGGCTGG TGCGGAAGGA AGCAGTGGCA GCACGCGGAG AATGGTTCCT GCTTGGGAGC 
CCAGGCAGGT GA

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

MMS19 ( XM_030276220.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132080.1 Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd48591
Clone ID Related Accession (Same CDS sequence)	XM_030276220.1
Accession Version	XM_030276220.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3129bp) 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	MMS19 nucleotide excision repair protein homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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##

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG CCTCCTTTCT TTCTAGTCCT 
CACAGCAACT TTTGGCTTCT CCAAGATTGC AGGCACCATC TGTGCGAGCC CGACATGAAG 
CTGGTGTGGC CCAGTGCCAA ACTCCTGCAG GCAGCAGCGG GTGCCTCCCT CCGCACCTAC 
CACTGCATCA CCCATAGCGT CCTGCCCCTG CTGCTGGAGC AGTACACCAA GCACACGCAG 
AGCAGCCAGA GGAGGACAAT CCTGGAAATG CTGCTAGGCT TCCTGGAGTT GCAGCAGAAG 
TGGGGAAATG TGGAAGAAGG TGAAGATGAG AGCGCTCTGC TGTTGCTCCA AGCCCAGATT 
TGCTCTGTGG TGTTCTCGGC GCTGCTGGAT CCCAGTGTGC AGCTGCAGCT GGTTGGGATC 
AAAGCACTGA CTGTCCTGGG CTCCTTGCAA GGCTTCCTGT CTTCCTCTAA TCTGGAGCTG 
GTTGCGGATC ACCTCATCCG TCTTGCTCTG CATGAGGATT CCCAGAGCAG TGAAGCAGCA 
ATGGAGGCAG CTGGGTCCCT GGCCCCCACC TTCCCAAAGG TTTTCTCTGG ACACATGGTA 
CCCAGGCTTA AAGAGGAGCT GCAGTCAGAG CGGGAGGAGA GCTACCACAA CCGCCACTCC 
TTGCAGCAGC GCTGCCTGCA GGCCCTGGCA GCTGTGTCCA CCCACACCAG CATCGTGAAG 
GAGACTGTCC CCATCCTGCT ACAGCATCTC CAGAAGGTGC AGAAAGGGAC TGAGGCCAGG 
AACACCCAAG ACATGATCTC TGTGTGCCAG AGCCTGCACC GTGTGGCCCT GCAGTGCCAG 
CAGGATGCCG AGGGCTGCTG GTACTTCCAC CAGACGGTGG TGCCGTGCCT GCTGGCCATG 
GCTGTGCAGG CAGCCATGCC AGAGAGCACT CATACACTGC CAGGCAAGGC ACTGCTGGAG 
GAAGAGGTGC TGGCTGCCAT GATCCCAGTC ATCAGTGCTG CCACCACTCA CCTGCGCCCT 
GAGCTGGCTG CCCAGAGTGT GTCTCATGTG GTGCCCCTCT TTCTGGATGG AGATGTCTCC 
TTCCTACCCC AGAACAGTTT TCCCTGCTCC TTCCAGCCTT TCGGGGATGG GGAGTTCTTG 
GAGGCACAGA GACGCCTGGT TGCCCTCCTC ATGGCCTTCA TCTGCTCCTT GCCCCGCGAT 
GTGGCAATCC CTCAGCAGGA ATGGCTGCTC CGGGAGCTGC TGGCATTGAG CTGTTCCTGC 
AACTGTCCCT TCACAGCCAC CACAGCTGCC AAGTGCTTTG CAGGGCTGGT GAACAAGCAC 
CCAGCAGGGC AGCAGCTGGA TGAAATCCTG CAGCTTGCAG TGAACAGGAT GGAGCCCAGC 
CTTGCAGAGG GGCCCCGCCG AACGCAGGCA CTCACCCTGC TGCTCTGGGT GACCAAAGCC 
CTGGTGCTGC GCTACCACCC CCTAAGCTCT TGCCTGACAG ACAAGCTGCT GGGCCTGCTG 
GGTGACACGG AGCTGGGCCC TGCCACAGCC GATGGCTTCT CCTTGCTCAT GGCCGAGTCC 
CCGGACGTGC TGCACAAGGG CTGCCACGCT GACGTGCGCA TCATGTTCCG CCAGCGCTTC 
TTCACTGACA ATGTCCCCAA GCTGGTGCAA GGCTTCCATG GGGCCGGCCC TGATGTGAAA 
GCCAATTACC TGAAGGGCCT GTCCCATGTG CTCAACCACC TCCCCAAACC TGTGCTGGTG 
ACAGAGCTGC CCACGCTTCT TTCCCTCCTG CTTGAGGCCT TGTCCTGCTC AGATCGTGTA 
GTGCAGCTCT CCACACTGAG CTGCCTCCAC CCACTGCTGC TCGAAGCTCC CCAGATCATG 
AGCCTGCATG TCGACACACT GGTCACCAAG TTCCTCAACC TCACCTCCAG CCCCACCATG 
GCTGTCCGCA TCGCTGCCCT GCGCTGTGCC CACGCCCTTA CCAGTCTGCC CACAACAGTG 
CTGCTTCCAT ACAAGGGCCG AGTTATCCGG GCACTGGCCA AGCCTTTGGA TGACAAAAAG 
AGGCTGGTGC GGAAGGAAGC AGTGGCAGCA CGCGGAGAAT GGTTCCTGCT TGGGAGCCCA 
GGCAGGTGA

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

RefSeq	XP_030132080.1
CDS	37..3165
Translation	MAAAGPGPGAEVQALAASVRDFVSGQQDGRAAEVAAGVKDGRWTVLQLVEALGFCLENTDPRMRGRGIQLLSQVLLQCYSLLQEKEVLHLVMFYESRLQDNHLVIPSVLQGLRALSMCEVLSPGLAVSVLKAIFQEVHVQSLPQLDRHTVYSIITNFMSTREEELKGLGANFTFGFIQVMDGEKDPRNLLVAFQIVRDLIAKDYALGPFVEELFEVTSCYFPVDFTPPPNDPHGIQREDLILSLRAVLASTTQFAEFLLPLLIEKLDSELQSAKLDSLQTLTACCAIYGQKELQEFLPSLWSSLRREVFQTASEKIETECLAALRALSACLSRSVLSSDSEDLLDSFLSSILQASFLSSPHSNFWLLQDCRHHLCEPDMKLVWPSAKLLQAAAGASLRTYHCITHSVLPLLLEQYTKHTQSSQRRTILEMLLGFLELQQKWGNVEEGEDESALLLLQAQICSVVFSALLDPSVQLQLVGIKALTVLGSLQGFLSSSNLELVADHLIRLALHEDSQSSEAAMEAAGSLAPTFPKVFSGHMVPRLKEELQSEREESYHNRHSLQQRCLQALAAVSTHTSIVKETVPILLQHLQKVQKGTEARNTQDMISVCQSLHRVALQCQQDAEGCWYFHQTVVPCLLAMAVQAAMPESTHTLPGKALLEEEVLAAMIPVISAATTHLRPELAAQSVSHVVPLFLDGDVSFLPQNSFPCSFQPFGDGEFLEAQRRLVALLMAFICSLPRDVAIPQQEWLLRELLALSCSCNCPFTATTAAKCFAGLVNKHPAGQQLDEILQLAVNRMEPSLAEGPRRTQALTLLLWVTKALVLRYHPLSSCLTDKLLGLLGDTELGPATADGFSLLMAESPDVLHKGCHADVRIMFRQRFFTDNVPKLVQGFHGAGPDVKANYLKGLSHVLNHLPKPVLVTELPTLLSLLLEALSCSDRVVQLSTLSCLHPLLLEAPQIMSLHVDTLVTKFLNLTSSPTMAVRIAALRCAHALTSLPTTVLLPYKGRVIRALAKPLDDKKRLVRKEAVAARGEWFLLGSPGR

Target ORF information:

RefSeq Version	XM_030276220.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X1, mRNA.

Target ORF information:

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

XM_030276220.1

ORF Insert Sequence:

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG CCTCCTTTCT TTCTAGTCCT 
CACAGCAACT TTTGGCTTCT CCAAGATTGC AGGCACCATC TGTGCGAGCC CGACATGAAG 
CTGGTGTGGC CCAGTGCCAA ACTCCTGCAG GCAGCAGCGG GTGCCTCCCT CCGCACCTAC 
CACTGCATCA CCCATAGCGT CCTGCCCCTG CTGCTGGAGC AGTACACCAA GCACACGCAG 
AGCAGCCAGA GGAGGACAAT CCTGGAAATG CTGCTAGGCT TCCTGGAGTT GCAGCAGAAG 
TGGGGAAATG TGGAAGAAGG TGAAGATGAG AGCGCTCTGC TGTTGCTCCA AGCCCAGATT 
TGCTCTGTGG TGTTCTCGGC GCTGCTGGAT CCCAGTGTGC AGCTGCAGCT GGTTGGGATC 
AAAGCACTGA CTGTCCTGGG CTCCTTGCAA GGCTTCCTGT CTTCCTCTAA TCTGGAGCTG 
GTTGCGGATC ACCTCATCCG TCTTGCTCTG CATGAGGATT CCCAGAGCAG TGAAGCAGCA 
ATGGAGGCAG CTGGGTCCCT GGCCCCCACC TTCCCAAAGG TTTTCTCTGG ACACATGGTA 
CCCAGGCTTA AAGAGGAGCT GCAGTCAGAG CGGGAGGAGA GCTACCACAA CCGCCACTCC 
TTGCAGCAGC GCTGCCTGCA GGCCCTGGCA GCTGTGTCCA CCCACACCAG CATCGTGAAG 
GAGACTGTCC CCATCCTGCT ACAGCATCTC CAGAAGGTGC AGAAAGGGAC TGAGGCCAGG 
AACACCCAAG ACATGATCTC TGTGTGCCAG AGCCTGCACC GTGTGGCCCT GCAGTGCCAG 
CAGGATGCCG AGGGCTGCTG GTACTTCCAC CAGACGGTGG TGCCGTGCCT GCTGGCCATG 
GCTGTGCAGG CAGCCATGCC AGAGAGCACT CATACACTGC CAGGCAAGGC ACTGCTGGAG 
GAAGAGGTGC TGGCTGCCAT GATCCCAGTC ATCAGTGCTG CCACCACTCA CCTGCGCCCT 
GAGCTGGCTG CCCAGAGTGT GTCTCATGTG GTGCCCCTCT TTCTGGATGG AGATGTCTCC 
TTCCTACCCC AGAACAGTTT TCCCTGCTCC TTCCAGCCTT TCGGGGATGG GGAGTTCTTG 
GAGGCACAGA GACGCCTGGT TGCCCTCCTC ATGGCCTTCA TCTGCTCCTT GCCCCGCGAT 
GTGGCAATCC CTCAGCAGGA ATGGCTGCTC CGGGAGCTGC TGGCATTGAG CTGTTCCTGC 
AACTGTCCCT TCACAGCCAC CACAGCTGCC AAGTGCTTTG CAGGGCTGGT GAACAAGCAC 
CCAGCAGGGC AGCAGCTGGA TGAAATCCTG CAGCTTGCAG TGAACAGGAT GGAGCCCAGC 
CTTGCAGAGG GGCCCCGCCG AACGCAGGCA CTCACCCTGC TGCTCTGGGT GACCAAAGCC 
CTGGTGCTGC GCTACCACCC CCTAAGCTCT TGCCTGACAG ACAAGCTGCT GGGCCTGCTG 
GGTGACACGG AGCTGGGCCC TGCCACAGCC GATGGCTTCT CCTTGCTCAT GGCCGAGTCC 
CCGGACGTGC TGCACAAGGG CTGCCACGCT GACGTGCGCA TCATGTTCCG CCAGCGCTTC 
TTCACTGACA ATGTCCCCAA GCTGGTGCAA GGCTTCCATG GGGCCGGCCC TGATGTGAAA 
GCCAATTACC TGAAGGGCCT GTCCCATGTG CTCAACCACC TCCCCAAACC TGTGCTGGTG 
ACAGAGCTGC CCACGCTTCT TTCCCTCCTG CTTGAGGCCT TGTCCTGCTC AGATCGTGTA 
GTGCAGCTCT CCACACTGAG CTGCCTCCAC CCACTGCTGC TCGAAGCTCC CCAGATCATG 
AGCCTGCATG TCGACACACT GGTCACCAAG TTCCTCAACC TCACCTCCAG CCCCACCATG 
GCTGTCCGCA TCGCTGCCCT GCGCTGTGCC CACGCCCTTA CCAGTCTGCC CACAACAGTG 
CTGCTTCCAT ACAAGGGCCG AGTTATCCGG GCACTGGCCA AGCCTTTGGA TGACAAAAAG 
AGGCTGGTGC GGAAGGAAGC AGTGGCAGCA CGCGGAGAAT GGTTCCTGCT TGGGAGCCCA 
GGCAGGTGA

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

MMS19 ( XM_030276221.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132081.1 Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd48592
Clone ID Related Accession (Same CDS sequence)	XM_030276221.1
Accession Version	XM_030276221.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3123bp) 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	MMS19 nucleotide excision repair protein homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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##

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG CCTCCTTTCT TTCTAGTCCT 
CACAGCAACT TTTGGCTTCT CCAAGATTGC AGGCACCATC TGTGCGAGCC CGACATGAAG 
CTGGTGTGGC CCAGTGCCAA ACTCCTGCAG GCAGCAGCGG GTGCCTCCCT CCGCACCTAC 
CACTGCATCA CCCATAGCGT CCTGCCCCTG CTGCTGGAGC AGTACACCAA GCACACGCAG 
AGCAGCCAGA GGAGGACAAT CCTGGAAATG CTGCTAGGCT TCCTGGAGTT GCAGCAGAAG 
TGGGGAAATG TGGAAGAAGA TGAGAGCGCT CTGCTGTTGC TCCAAGCCCA GATTTGCTCT 
GTGGTGTTCT CGGCGCTGCT GGATCCCAGT GTGCAGCTGC AGCTGGTTGG GATCAAAGCA 
CTGACTGTCC TGGGCTCCTT GCAAGGCTTC CTGTCTTCCT CTAATCTGGA GCTGGTTGCG 
GATCACCTCA TCCGTCTTGC TCTGCATGAG GATTCCCAGA GCAGTGAAGC AGCAATGGAG 
GCAGCTGGGT CCCTGGCCCC CACCTTCCCA AAGGTTTTCT CTGGACACAT GGTACCCAGG 
CTTAAAGAGG AGCTGCAGTC AGAGCGGGAG GAGAGCTACC ACAACCGCCA CTCCTTGCAG 
CAGCGCTGCC TGCAGGCCCT GGCAGCTGTG TCCACCCACA CCAGCATCGT GAAGGAGACT 
GTCCCCATCC TGCTACAGCA TCTCCAGAAG GTGCAGAAAG GGACTGAGGC CAGGAACACC 
CAAGACATGA TCTCTGTGTG CCAGAGCCTG CACCGTGTGG CCCTGCAGTG CCAGCAGGAT 
GCCGAGGGCT GCTGGTACTT CCACCAGACG GTGGTGCCGT GCCTGCTGGC CATGGCTGTG 
CAGGCAGCCA TGCCAGAGAG CACTCATACA CTGCCAGGCA AGGCACTGCT GGAGGAAGAG 
GTGCTGGCTG CCATGATCCC AGTCATCAGT GCTGCCACCA CTCACCTGCG CCCTGAGCTG 
GCTGCCCAGA GTGTGTCTCA TGTGGTGCCC CTCTTTCTGG ATGGAGATGT CTCCTTCCTA 
CCCCAGAACA GTTTTCCCTG CTCCTTCCAG CCTTTCGGGG ATGGGGAGTT CTTGGAGGCA 
CAGAGACGCC TGGTTGCCCT CCTCATGGCC TTCATCTGCT CCTTGCCCCG CGATGTGGCA 
ATCCCTCAGC AGGAATGGCT GCTCCGGGAG CTGCTGGCAT TGAGCTGTTC CTGCAACTGT 
CCCTTCACAG CCACCACAGC TGCCAAGTGC TTTGCAGGGC TGGTGAACAA GCACCCAGCA 
GGGCAGCAGC TGGATGAAAT CCTGCAGCTT GCAGTGAACA GGATGGAGCC CAGCCTTGCA 
GAGGGGCCCC GCCGAACGCA GGCACTCACC CTGCTGCTCT GGGTGACCAA AGCCCTGGTG 
CTGCGCTACC ACCCCCTAAG CTCTTGCCTG ACAGACAAGC TGCTGGGCCT GCTGGGTGAC 
ACGGAGCTGG GCCCTGCCAC AGCCGATGGC TTCTCCTTGC TCATGGCCGA GTCCCCGGAC 
GTGCTGCACA AGGGCTGCCA CGCTGACGTG CGCATCATGT TCCGCCAGCG CTTCTTCACT 
GACAATGTCC CCAAGCTGGT GCAAGGCTTC CATGGGGCCG GCCCTGATGT GAAAGCCAAT 
TACCTGAAGG GCCTGTCCCA TGTGCTCAAC CACCTCCCCA AACCTGTGCT GGTGACAGAG 
CTGCCCACGC TTCTTTCCCT CCTGCTTGAG GCCTTGTCCT GCTCAGATCG TGTAGTGCAG 
CTCTCCACAC TGAGCTGCCT CCACCCACTG CTGCTCGAAG CTCCCCAGAT CATGAGCCTG 
CATGTCGACA CACTGGTCAC CAAGTTCCTC AACCTCACCT CCAGCCCCAC CATGGCTGTC 
CGCATCGCTG CCCTGCGCTG TGCCCACGCC CTTACCAGTC TGCCCACAAC AGTGCTGCTT 
CCATACAAGG GCCGAGTTAT CCGGGCACTG GCCAAGCCTT TGGATGACAA AAAGAGGCTG 
GTGCGGAAGG AAGCAGTGGC AGCACGCGGA GAATGGTTCC TGCTTGGGAG CCCAGGCAGG 
TGA

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

RefSeq	XP_030132081.1
CDS	37..3159
Translation	MAAAGPGPGAEVQALAASVRDFVSGQQDGRAAEVAAGVKDGRWTVLQLVEALGFCLENTDPRMRGRGIQLLSQVLLQCYSLLQEKEVLHLVMFYESRLQDNHLVIPSVLQGLRALSMCEVLSPGLAVSVLKAIFQEVHVQSLPQLDRHTVYSIITNFMSTREEELKGLGANFTFGFIQVMDGEKDPRNLLVAFQIVRDLIAKDYALGPFVEELFEVTSCYFPVDFTPPPNDPHGIQREDLILSLRAVLASTTQFAEFLLPLLIEKLDSELQSAKLDSLQTLTACCAIYGQKELQEFLPSLWSSLRREVFQTASEKIETECLAALRALSACLSRSVLSSDSEDLLDSFLSSILQASFLSSPHSNFWLLQDCRHHLCEPDMKLVWPSAKLLQAAAGASLRTYHCITHSVLPLLLEQYTKHTQSSQRRTILEMLLGFLELQQKWGNVEEDESALLLLQAQICSVVFSALLDPSVQLQLVGIKALTVLGSLQGFLSSSNLELVADHLIRLALHEDSQSSEAAMEAAGSLAPTFPKVFSGHMVPRLKEELQSEREESYHNRHSLQQRCLQALAAVSTHTSIVKETVPILLQHLQKVQKGTEARNTQDMISVCQSLHRVALQCQQDAEGCWYFHQTVVPCLLAMAVQAAMPESTHTLPGKALLEEEVLAAMIPVISAATTHLRPELAAQSVSHVVPLFLDGDVSFLPQNSFPCSFQPFGDGEFLEAQRRLVALLMAFICSLPRDVAIPQQEWLLRELLALSCSCNCPFTATTAAKCFAGLVNKHPAGQQLDEILQLAVNRMEPSLAEGPRRTQALTLLLWVTKALVLRYHPLSSCLTDKLLGLLGDTELGPATADGFSLLMAESPDVLHKGCHADVRIMFRQRFFTDNVPKLVQGFHGAGPDVKANYLKGLSHVLNHLPKPVLVTELPTLLSLLLEALSCSDRVVQLSTLSCLHPLLLEAPQIMSLHVDTLVTKFLNLTSSPTMAVRIAALRCAHALTSLPTTVLLPYKGRVIRALAKPLDDKKRLVRKEAVAARGEWFLLGSPGR

Target ORF information:

RefSeq Version	XM_030276221.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X2, mRNA.

Target ORF information:

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

XM_030276221.1

ORF Insert Sequence:

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG CCTCCTTTCT TTCTAGTCCT 
CACAGCAACT TTTGGCTTCT CCAAGATTGC AGGCACCATC TGTGCGAGCC CGACATGAAG 
CTGGTGTGGC CCAGTGCCAA ACTCCTGCAG GCAGCAGCGG GTGCCTCCCT CCGCACCTAC 
CACTGCATCA CCCATAGCGT CCTGCCCCTG CTGCTGGAGC AGTACACCAA GCACACGCAG 
AGCAGCCAGA GGAGGACAAT CCTGGAAATG CTGCTAGGCT TCCTGGAGTT GCAGCAGAAG 
TGGGGAAATG TGGAAGAAGA TGAGAGCGCT CTGCTGTTGC TCCAAGCCCA GATTTGCTCT 
GTGGTGTTCT CGGCGCTGCT GGATCCCAGT GTGCAGCTGC AGCTGGTTGG GATCAAAGCA 
CTGACTGTCC TGGGCTCCTT GCAAGGCTTC CTGTCTTCCT CTAATCTGGA GCTGGTTGCG 
GATCACCTCA TCCGTCTTGC TCTGCATGAG GATTCCCAGA GCAGTGAAGC AGCAATGGAG 
GCAGCTGGGT CCCTGGCCCC CACCTTCCCA AAGGTTTTCT CTGGACACAT GGTACCCAGG 
CTTAAAGAGG AGCTGCAGTC AGAGCGGGAG GAGAGCTACC ACAACCGCCA CTCCTTGCAG 
CAGCGCTGCC TGCAGGCCCT GGCAGCTGTG TCCACCCACA CCAGCATCGT GAAGGAGACT 
GTCCCCATCC TGCTACAGCA TCTCCAGAAG GTGCAGAAAG GGACTGAGGC CAGGAACACC 
CAAGACATGA TCTCTGTGTG CCAGAGCCTG CACCGTGTGG CCCTGCAGTG CCAGCAGGAT 
GCCGAGGGCT GCTGGTACTT CCACCAGACG GTGGTGCCGT GCCTGCTGGC CATGGCTGTG 
CAGGCAGCCA TGCCAGAGAG CACTCATACA CTGCCAGGCA AGGCACTGCT GGAGGAAGAG 
GTGCTGGCTG CCATGATCCC AGTCATCAGT GCTGCCACCA CTCACCTGCG CCCTGAGCTG 
GCTGCCCAGA GTGTGTCTCA TGTGGTGCCC CTCTTTCTGG ATGGAGATGT CTCCTTCCTA 
CCCCAGAACA GTTTTCCCTG CTCCTTCCAG CCTTTCGGGG ATGGGGAGTT CTTGGAGGCA 
CAGAGACGCC TGGTTGCCCT CCTCATGGCC TTCATCTGCT CCTTGCCCCG CGATGTGGCA 
ATCCCTCAGC AGGAATGGCT GCTCCGGGAG CTGCTGGCAT TGAGCTGTTC CTGCAACTGT 
CCCTTCACAG CCACCACAGC TGCCAAGTGC TTTGCAGGGC TGGTGAACAA GCACCCAGCA 
GGGCAGCAGC TGGATGAAAT CCTGCAGCTT GCAGTGAACA GGATGGAGCC CAGCCTTGCA 
GAGGGGCCCC GCCGAACGCA GGCACTCACC CTGCTGCTCT GGGTGACCAA AGCCCTGGTG 
CTGCGCTACC ACCCCCTAAG CTCTTGCCTG ACAGACAAGC TGCTGGGCCT GCTGGGTGAC 
ACGGAGCTGG GCCCTGCCAC AGCCGATGGC TTCTCCTTGC TCATGGCCGA GTCCCCGGAC 
GTGCTGCACA AGGGCTGCCA CGCTGACGTG CGCATCATGT TCCGCCAGCG CTTCTTCACT 
GACAATGTCC CCAAGCTGGT GCAAGGCTTC CATGGGGCCG GCCCTGATGT GAAAGCCAAT 
TACCTGAAGG GCCTGTCCCA TGTGCTCAAC CACCTCCCCA AACCTGTGCT GGTGACAGAG 
CTGCCCACGC TTCTTTCCCT CCTGCTTGAG GCCTTGTCCT GCTCAGATCG TGTAGTGCAG 
CTCTCCACAC TGAGCTGCCT CCACCCACTG CTGCTCGAAG CTCCCCAGAT CATGAGCCTG 
CATGTCGACA CACTGGTCAC CAAGTTCCTC AACCTCACCT CCAGCCCCAC CATGGCTGTC 
CGCATCGCTG CCCTGCGCTG TGCCCACGCC CTTACCAGTC TGCCCACAAC AGTGCTGCTT 
CCATACAAGG GCCGAGTTAT CCGGGCACTG GCCAAGCCTT TGGATGACAA AAAGAGGCTG 
GTGCGGAAGG AAGCAGTGGC AGCACGCGGA GAATGGTTCC TGCTTGGGAG CCCAGGCAGG 
TGA

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

MMS19 ( XM_030276222.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132082.1 Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OTd48593
Clone ID Related Accession (Same CDS sequence)	XM_030276222.1
Accession Version	XM_030276222.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3084bp) 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	MMS19 nucleotide excision repair protein homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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##

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG ATTGCAGGCA CCATCTGTGC 
GAGCCCGACA TGAAGCTGGT GTGGCCCAGT GCCAAACTCC TGCAGGCAGC AGCGGGTGCC 
TCCCTCCGCA CCTACCACTG CATCACCCAT AGCGTCCTGC CCCTGCTGCT GGAGCAGTAC 
ACCAAGCACA CGCAGAGCAG CCAGAGGAGG ACAATCCTGG AAATGCTGCT AGGCTTCCTG 
GAGTTGCAGC AGAAGTGGGG AAATGTGGAA GAAGGTGAAG ATGAGAGCGC TCTGCTGTTG 
CTCCAAGCCC AGATTTGCTC TGTGGTGTTC TCGGCGCTGC TGGATCCCAG TGTGCAGCTG 
CAGCTGGTTG GGATCAAAGC ACTGACTGTC CTGGGCTCCT TGCAAGGCTT CCTGTCTTCC 
TCTAATCTGG AGCTGGTTGC GGATCACCTC ATCCGTCTTG CTCTGCATGA GGATTCCCAG 
AGCAGTGAAG CAGCAATGGA GGCAGCTGGG TCCCTGGCCC CCACCTTCCC AAAGGTTTTC 
TCTGGACACA TGGTACCCAG GCTTAAAGAG GAGCTGCAGT CAGAGCGGGA GGAGAGCTAC 
CACAACCGCC ACTCCTTGCA GCAGCGCTGC CTGCAGGCCC TGGCAGCTGT GTCCACCCAC 
ACCAGCATCG TGAAGGAGAC TGTCCCCATC CTGCTACAGC ATCTCCAGAA GGTGCAGAAA 
GGGACTGAGG CCAGGAACAC CCAAGACATG ATCTCTGTGT GCCAGAGCCT GCACCGTGTG 
GCCCTGCAGT GCCAGCAGGA TGCCGAGGGC TGCTGGTACT TCCACCAGAC GGTGGTGCCG 
TGCCTGCTGG CCATGGCTGT GCAGGCAGCC ATGCCAGAGA GCACTCATAC ACTGCCAGGC 
AAGGCACTGC TGGAGGAAGA GGTGCTGGCT GCCATGATCC CAGTCATCAG TGCTGCCACC 
ACTCACCTGC GCCCTGAGCT GGCTGCCCAG AGTGTGTCTC ATGTGGTGCC CCTCTTTCTG 
GATGGAGATG TCTCCTTCCT ACCCCAGAAC AGTTTTCCCT GCTCCTTCCA GCCTTTCGGG 
GATGGGGAGT TCTTGGAGGC ACAGAGACGC CTGGTTGCCC TCCTCATGGC CTTCATCTGC 
TCCTTGCCCC GCGATGTGGC AATCCCTCAG CAGGAATGGC TGCTCCGGGA GCTGCTGGCA 
TTGAGCTGTT CCTGCAACTG TCCCTTCACA GCCACCACAG CTGCCAAGTG CTTTGCAGGG 
CTGGTGAACA AGCACCCAGC AGGGCAGCAG CTGGATGAAA TCCTGCAGCT TGCAGTGAAC 
AGGATGGAGC CCAGCCTTGC AGAGGGGCCC CGCCGAACGC AGGCACTCAC CCTGCTGCTC 
TGGGTGACCA AAGCCCTGGT GCTGCGCTAC CACCCCCTAA GCTCTTGCCT GACAGACAAG 
CTGCTGGGCC TGCTGGGTGA CACGGAGCTG GGCCCTGCCA CAGCCGATGG CTTCTCCTTG 
CTCATGGCCG AGTCCCCGGA CGTGCTGCAC AAGGGCTGCC ACGCTGACGT GCGCATCATG 
TTCCGCCAGC GCTTCTTCAC TGACAATGTC CCCAAGCTGG TGCAAGGCTT CCATGGGGCC 
GGCCCTGATG TGAAAGCCAA TTACCTGAAG GGCCTGTCCC ATGTGCTCAA CCACCTCCCC 
AAACCTGTGC TGGTGACAGA GCTGCCCACG CTTCTTTCCC TCCTGCTTGA GGCCTTGTCC 
TGCTCAGATC GTGTAGTGCA GCTCTCCACA CTGAGCTGCC TCCACCCACT GCTGCTCGAA 
GCTCCCCAGA TCATGAGCCT GCATGTCGAC ACACTGGTCA CCAAGTTCCT CAACCTCACC 
TCCAGCCCCA CCATGGCTGT CCGCATCGCT GCCCTGCGCT GTGCCCACGC CCTTACCAGT 
CTGCCCACAA CAGTGCTGCT TCCATACAAG GGCCGAGTTA TCCGGGCACT GGCCAAGCCT 
TTGGATGACA AAAAGAGGCT GGTGCGGAAG GAAGCAGTGG CAGCACGCGG AGAATGGTTC 
CTGCTTGGGA GCCCAGGCAG GTGA

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

RefSeq	XP_030132082.1
CDS	36..3119
Translation	MAAAGPGPGAEVQALAASVRDFVSGQQDGRAAEVAAGVKDGRWTVLQLVEALGFCLENTDPRMRGRGIQLLSQVLLQCYSLLQEKEVLHLVMFYESRLQDNHLVIPSVLQGLRALSMCEVLSPGLAVSVLKAIFQEVHVQSLPQLDRHTVYSIITNFMSTREEELKGLGANFTFGFIQVMDGEKDPRNLLVAFQIVRDLIAKDYALGPFVEELFEVTSCYFPVDFTPPPNDPHGIQREDLILSLRAVLASTTQFAEFLLPLLIEKLDSELQSAKLDSLQTLTACCAIYGQKELQEFLPSLWSSLRREVFQTASEKIETECLAALRALSACLSRSVLSSDSEDLLDSFLSSILQDCRHHLCEPDMKLVWPSAKLLQAAAGASLRTYHCITHSVLPLLLEQYTKHTQSSQRRTILEMLLGFLELQQKWGNVEEGEDESALLLLQAQICSVVFSALLDPSVQLQLVGIKALTVLGSLQGFLSSSNLELVADHLIRLALHEDSQSSEAAMEAAGSLAPTFPKVFSGHMVPRLKEELQSEREESYHNRHSLQQRCLQALAAVSTHTSIVKETVPILLQHLQKVQKGTEARNTQDMISVCQSLHRVALQCQQDAEGCWYFHQTVVPCLLAMAVQAAMPESTHTLPGKALLEEEVLAAMIPVISAATTHLRPELAAQSVSHVVPLFLDGDVSFLPQNSFPCSFQPFGDGEFLEAQRRLVALLMAFICSLPRDVAIPQQEWLLRELLALSCSCNCPFTATTAAKCFAGLVNKHPAGQQLDEILQLAVNRMEPSLAEGPRRTQALTLLLWVTKALVLRYHPLSSCLTDKLLGLLGDTELGPATADGFSLLMAESPDVLHKGCHADVRIMFRQRFFTDNVPKLVQGFHGAGPDVKANYLKGLSHVLNHLPKPVLVTELPTLLSLLLEALSCSDRVVQLSTLSCLHPLLLEAPQIMSLHVDTLVTKFLNLTSSPTMAVRIAALRCAHALTSLPTTVLLPYKGRVIRALAKPLDDKKRLVRKEAVAARGEWFLLGSPGR

Target ORF information:

RefSeq Version	XM_030276222.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X3, mRNA.

Target ORF information:

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

XM_030276222.1

ORF Insert Sequence:

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG ATTGCAGGCA CCATCTGTGC 
GAGCCCGACA TGAAGCTGGT GTGGCCCAGT GCCAAACTCC TGCAGGCAGC AGCGGGTGCC 
TCCCTCCGCA CCTACCACTG CATCACCCAT AGCGTCCTGC CCCTGCTGCT GGAGCAGTAC 
ACCAAGCACA CGCAGAGCAG CCAGAGGAGG ACAATCCTGG AAATGCTGCT AGGCTTCCTG 
GAGTTGCAGC AGAAGTGGGG AAATGTGGAA GAAGGTGAAG ATGAGAGCGC TCTGCTGTTG 
CTCCAAGCCC AGATTTGCTC TGTGGTGTTC TCGGCGCTGC TGGATCCCAG TGTGCAGCTG 
CAGCTGGTTG GGATCAAAGC ACTGACTGTC CTGGGCTCCT TGCAAGGCTT CCTGTCTTCC 
TCTAATCTGG AGCTGGTTGC GGATCACCTC ATCCGTCTTG CTCTGCATGA GGATTCCCAG 
AGCAGTGAAG CAGCAATGGA GGCAGCTGGG TCCCTGGCCC CCACCTTCCC AAAGGTTTTC 
TCTGGACACA TGGTACCCAG GCTTAAAGAG GAGCTGCAGT CAGAGCGGGA GGAGAGCTAC 
CACAACCGCC ACTCCTTGCA GCAGCGCTGC CTGCAGGCCC TGGCAGCTGT GTCCACCCAC 
ACCAGCATCG TGAAGGAGAC TGTCCCCATC CTGCTACAGC ATCTCCAGAA GGTGCAGAAA 
GGGACTGAGG CCAGGAACAC CCAAGACATG ATCTCTGTGT GCCAGAGCCT GCACCGTGTG 
GCCCTGCAGT GCCAGCAGGA TGCCGAGGGC TGCTGGTACT TCCACCAGAC GGTGGTGCCG 
TGCCTGCTGG CCATGGCTGT GCAGGCAGCC ATGCCAGAGA GCACTCATAC ACTGCCAGGC 
AAGGCACTGC TGGAGGAAGA GGTGCTGGCT GCCATGATCC CAGTCATCAG TGCTGCCACC 
ACTCACCTGC GCCCTGAGCT GGCTGCCCAG AGTGTGTCTC ATGTGGTGCC CCTCTTTCTG 
GATGGAGATG TCTCCTTCCT ACCCCAGAAC AGTTTTCCCT GCTCCTTCCA GCCTTTCGGG 
GATGGGGAGT TCTTGGAGGC ACAGAGACGC CTGGTTGCCC TCCTCATGGC CTTCATCTGC 
TCCTTGCCCC GCGATGTGGC AATCCCTCAG CAGGAATGGC TGCTCCGGGA GCTGCTGGCA 
TTGAGCTGTT CCTGCAACTG TCCCTTCACA GCCACCACAG CTGCCAAGTG CTTTGCAGGG 
CTGGTGAACA AGCACCCAGC AGGGCAGCAG CTGGATGAAA TCCTGCAGCT TGCAGTGAAC 
AGGATGGAGC CCAGCCTTGC AGAGGGGCCC CGCCGAACGC AGGCACTCAC CCTGCTGCTC 
TGGGTGACCA AAGCCCTGGT GCTGCGCTAC CACCCCCTAA GCTCTTGCCT GACAGACAAG 
CTGCTGGGCC TGCTGGGTGA CACGGAGCTG GGCCCTGCCA CAGCCGATGG CTTCTCCTTG 
CTCATGGCCG AGTCCCCGGA CGTGCTGCAC AAGGGCTGCC ACGCTGACGT GCGCATCATG 
TTCCGCCAGC GCTTCTTCAC TGACAATGTC CCCAAGCTGG TGCAAGGCTT CCATGGGGCC 
GGCCCTGATG TGAAAGCCAA TTACCTGAAG GGCCTGTCCC ATGTGCTCAA CCACCTCCCC 
AAACCTGTGC TGGTGACAGA GCTGCCCACG CTTCTTTCCC TCCTGCTTGA GGCCTTGTCC 
TGCTCAGATC GTGTAGTGCA GCTCTCCACA CTGAGCTGCC TCCACCCACT GCTGCTCGAA 
GCTCCCCAGA TCATGAGCCT GCATGTCGAC ACACTGGTCA CCAAGTTCCT CAACCTCACC 
TCCAGCCCCA CCATGGCTGT CCGCATCGCT GCCCTGCGCT GTGCCCACGC CCTTACCAGT 
CTGCCCACAA CAGTGCTGCT TCCATACAAG GGCCGAGTTA TCCGGGCACT GGCCAAGCCT 
TTGGATGACA AAAAGAGGCT GGTGCGGAAG GAAGCAGTGG CAGCACGCGG AGAATGGTTC 
CTGCTTGGGA GCCCAGGCAG GTGA

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

MMS19 ( XM_030276223.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132083.1 Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OTd48594
Clone ID Related Accession (Same CDS sequence)	XM_030276223.1
Accession Version	XM_030276223.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3078bp) 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	MMS19 nucleotide excision repair protein homolog isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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##

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG ATTGCAGGCA CCATCTGTGC 
GAGCCCGACA TGAAGCTGGT GTGGCCCAGT GCCAAACTCC TGCAGGCAGC AGCGGGTGCC 
TCCCTCCGCA CCTACCACTG CATCACCCAT AGCGTCCTGC CCCTGCTGCT GGAGCAGTAC 
ACCAAGCACA CGCAGAGCAG CCAGAGGAGG ACAATCCTGG AAATGCTGCT AGGCTTCCTG 
GAGTTGCAGC AGAAGTGGGG AAATGTGGAA GAAGATGAGA GCGCTCTGCT GTTGCTCCAA 
GCCCAGATTT GCTCTGTGGT GTTCTCGGCG CTGCTGGATC CCAGTGTGCA GCTGCAGCTG 
GTTGGGATCA AAGCACTGAC TGTCCTGGGC TCCTTGCAAG GCTTCCTGTC TTCCTCTAAT 
CTGGAGCTGG TTGCGGATCA CCTCATCCGT CTTGCTCTGC ATGAGGATTC CCAGAGCAGT 
GAAGCAGCAA TGGAGGCAGC TGGGTCCCTG GCCCCCACCT TCCCAAAGGT TTTCTCTGGA 
CACATGGTAC CCAGGCTTAA AGAGGAGCTG CAGTCAGAGC GGGAGGAGAG CTACCACAAC 
CGCCACTCCT TGCAGCAGCG CTGCCTGCAG GCCCTGGCAG CTGTGTCCAC CCACACCAGC 
ATCGTGAAGG AGACTGTCCC CATCCTGCTA CAGCATCTCC AGAAGGTGCA GAAAGGGACT 
GAGGCCAGGA ACACCCAAGA CATGATCTCT GTGTGCCAGA GCCTGCACCG TGTGGCCCTG 
CAGTGCCAGC AGGATGCCGA GGGCTGCTGG TACTTCCACC AGACGGTGGT GCCGTGCCTG 
CTGGCCATGG CTGTGCAGGC AGCCATGCCA GAGAGCACTC ATACACTGCC AGGCAAGGCA 
CTGCTGGAGG AAGAGGTGCT GGCTGCCATG ATCCCAGTCA TCAGTGCTGC CACCACTCAC 
CTGCGCCCTG AGCTGGCTGC CCAGAGTGTG TCTCATGTGG TGCCCCTCTT TCTGGATGGA 
GATGTCTCCT TCCTACCCCA GAACAGTTTT CCCTGCTCCT TCCAGCCTTT CGGGGATGGG 
GAGTTCTTGG AGGCACAGAG ACGCCTGGTT GCCCTCCTCA TGGCCTTCAT CTGCTCCTTG 
CCCCGCGATG TGGCAATCCC TCAGCAGGAA TGGCTGCTCC GGGAGCTGCT GGCATTGAGC 
TGTTCCTGCA ACTGTCCCTT CACAGCCACC ACAGCTGCCA AGTGCTTTGC AGGGCTGGTG 
AACAAGCACC CAGCAGGGCA GCAGCTGGAT GAAATCCTGC AGCTTGCAGT GAACAGGATG 
GAGCCCAGCC TTGCAGAGGG GCCCCGCCGA ACGCAGGCAC TCACCCTGCT GCTCTGGGTG 
ACCAAAGCCC TGGTGCTGCG CTACCACCCC CTAAGCTCTT GCCTGACAGA CAAGCTGCTG 
GGCCTGCTGG GTGACACGGA GCTGGGCCCT GCCACAGCCG ATGGCTTCTC CTTGCTCATG 
GCCGAGTCCC CGGACGTGCT GCACAAGGGC TGCCACGCTG ACGTGCGCAT CATGTTCCGC 
CAGCGCTTCT TCACTGACAA TGTCCCCAAG CTGGTGCAAG GCTTCCATGG GGCCGGCCCT 
GATGTGAAAG CCAATTACCT GAAGGGCCTG TCCCATGTGC TCAACCACCT CCCCAAACCT 
GTGCTGGTGA CAGAGCTGCC CACGCTTCTT TCCCTCCTGC TTGAGGCCTT GTCCTGCTCA 
GATCGTGTAG TGCAGCTCTC CACACTGAGC TGCCTCCACC CACTGCTGCT CGAAGCTCCC 
CAGATCATGA GCCTGCATGT CGACACACTG GTCACCAAGT TCCTCAACCT CACCTCCAGC 
CCCACCATGG CTGTCCGCAT CGCTGCCCTG CGCTGTGCCC ACGCCCTTAC CAGTCTGCCC 
ACAACAGTGC TGCTTCCATA CAAGGGCCGA GTTATCCGGG CACTGGCCAA GCCTTTGGAT 
GACAAAAAGA GGCTGGTGCG GAAGGAAGCA GTGGCAGCAC GCGGAGAATG GTTCCTGCTT 
GGGAGCCCAG GCAGGTGA

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

RefSeq	XP_030132083.1
CDS	37..3114
Translation	MAAAGPGPGAEVQALAASVRDFVSGQQDGRAAEVAAGVKDGRWTVLQLVEALGFCLENTDPRMRGRGIQLLSQVLLQCYSLLQEKEVLHLVMFYESRLQDNHLVIPSVLQGLRALSMCEVLSPGLAVSVLKAIFQEVHVQSLPQLDRHTVYSIITNFMSTREEELKGLGANFTFGFIQVMDGEKDPRNLLVAFQIVRDLIAKDYALGPFVEELFEVTSCYFPVDFTPPPNDPHGIQREDLILSLRAVLASTTQFAEFLLPLLIEKLDSELQSAKLDSLQTLTACCAIYGQKELQEFLPSLWSSLRREVFQTASEKIETECLAALRALSACLSRSVLSSDSEDLLDSFLSSILQDCRHHLCEPDMKLVWPSAKLLQAAAGASLRTYHCITHSVLPLLLEQYTKHTQSSQRRTILEMLLGFLELQQKWGNVEEDESALLLLQAQICSVVFSALLDPSVQLQLVGIKALTVLGSLQGFLSSSNLELVADHLIRLALHEDSQSSEAAMEAAGSLAPTFPKVFSGHMVPRLKEELQSEREESYHNRHSLQQRCLQALAAVSTHTSIVKETVPILLQHLQKVQKGTEARNTQDMISVCQSLHRVALQCQQDAEGCWYFHQTVVPCLLAMAVQAAMPESTHTLPGKALLEEEVLAAMIPVISAATTHLRPELAAQSVSHVVPLFLDGDVSFLPQNSFPCSFQPFGDGEFLEAQRRLVALLMAFICSLPRDVAIPQQEWLLRELLALSCSCNCPFTATTAAKCFAGLVNKHPAGQQLDEILQLAVNRMEPSLAEGPRRTQALTLLLWVTKALVLRYHPLSSCLTDKLLGLLGDTELGPATADGFSLLMAESPDVLHKGCHADVRIMFRQRFFTDNVPKLVQGFHGAGPDVKANYLKGLSHVLNHLPKPVLVTELPTLLSLLLEALSCSDRVVQLSTLSCLHPLLLEAPQIMSLHVDTLVTKFLNLTSSPTMAVRIAALRCAHALTSLPTTVLLPYKGRVIRALAKPLDDKKRLVRKEAVAARGEWFLLGSPGR

Target ORF information:

RefSeq Version	XM_030276223.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata MMS19 homolog, cytosolic iron-sulfur assembly component (MMS19), transcript variant X4, mRNA.

Target ORF information:

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

XM_030276223.1

ORF Insert Sequence:

ATGGCGGCGG CCGGGCCCGG GCCCGGGGCG GAGGTTCAGG CTCTCGCCGC CTCCGTCCGG 
GACTTCGTGT CCGGGCAGCA GGACGGCCGT GCCGCGGAGG TGGCGGCAGG GGTGAAAGAT 
GGAAGGTGGA CAGTGCTGCA GCTTGTGGAA GCCCTGGGGT TTTGCCTGGA GAACACAGAT 
CCTCGGATGC GAGGGCGAGG CATCCAGCTG TTGTCACAAG TCCTGCTCCA GTGTTATTCC 
CTGCTTCAGG AGAAGGAAGT GCTGCATCTG GTCATGTTCT ATGAGAGCCG GCTGCAAGAT 
AATCACCTGG TGATCCCCTC GGTGCTCCAG GGACTCCGGG CACTGAGCAT GTGTGAGGTG 
CTGTCCCCAG GGCTAGCAGT GTCTGTGCTC AAAGCCATCT TCCAGGAGGT ACATGTGCAG 
TCCTTGCCGC AACTGGACCG CCACACAGTC TACAGCATCA TCACCAACTT CATGAGCACC 
AGGGAGGAAG AGCTGAAAGG CCTGGGTGCC AACTTCACCT TCGGTTTCAT CCAGGTCATG 
GATGGGGAGA AGGATCCCCG CAATCTGCTT GTGGCCTTCC AGATTGTGCG TGATCTCATT 
GCCAAGGACT ATGCCCTGGG TCCCTTTGTG GAGGAGCTCT TTGAAGTTAC ATCCTGCTAC 
TTCCCTGTTG ATTTTACTCC ACCCCCCAAT GATCCTCATG GCATCCAGAG AGAAGACCTG 
ATCCTGAGCC TCCGGGCTGT ACTGGCTTCC ACAACCCAGT TTGCTGAGTT CCTTCTCCCT 
CTGCTTATTG AGAAGTTGGA CTCAGAACTG CAAAGTGCCA AGCTTGACTC GCTGCAGACT 
CTGACTGCCT GCTGTGCCAT CTATGGGCAG AAGGAGCTGC AGGAATTCCT TCCCAGCCTC 
TGGTCATCCC TGCGCAGAGA GGTGTTCCAG ACAGCGAGTG AGAAGATTGA GACGGAATGC 
CTGGCTGCAC TGCGTGCTCT CTCTGCCTGC CTCTCCCGCT CCGTGCTCAG CTCTGATTCT 
GAGGATCTGC TGGATTCCTT CCTCAGCAGC ATCCTGCAAG ATTGCAGGCA CCATCTGTGC 
GAGCCCGACA TGAAGCTGGT GTGGCCCAGT GCCAAACTCC TGCAGGCAGC AGCGGGTGCC 
TCCCTCCGCA CCTACCACTG CATCACCCAT AGCGTCCTGC CCCTGCTGCT GGAGCAGTAC 
ACCAAGCACA CGCAGAGCAG CCAGAGGAGG ACAATCCTGG AAATGCTGCT AGGCTTCCTG 
GAGTTGCAGC AGAAGTGGGG AAATGTGGAA GAAGATGAGA GCGCTCTGCT GTTGCTCCAA 
GCCCAGATTT GCTCTGTGGT GTTCTCGGCG CTGCTGGATC CCAGTGTGCA GCTGCAGCTG 
GTTGGGATCA AAGCACTGAC TGTCCTGGGC TCCTTGCAAG GCTTCCTGTC TTCCTCTAAT 
CTGGAGCTGG TTGCGGATCA CCTCATCCGT CTTGCTCTGC ATGAGGATTC CCAGAGCAGT 
GAAGCAGCAA TGGAGGCAGC TGGGTCCCTG GCCCCCACCT TCCCAAAGGT TTTCTCTGGA 
CACATGGTAC CCAGGCTTAA AGAGGAGCTG CAGTCAGAGC GGGAGGAGAG CTACCACAAC 
CGCCACTCCT TGCAGCAGCG CTGCCTGCAG GCCCTGGCAG CTGTGTCCAC CCACACCAGC 
ATCGTGAAGG AGACTGTCCC CATCCTGCTA CAGCATCTCC AGAAGGTGCA GAAAGGGACT 
GAGGCCAGGA ACACCCAAGA CATGATCTCT GTGTGCCAGA GCCTGCACCG TGTGGCCCTG 
CAGTGCCAGC AGGATGCCGA GGGCTGCTGG TACTTCCACC AGACGGTGGT GCCGTGCCTG 
CTGGCCATGG CTGTGCAGGC AGCCATGCCA GAGAGCACTC ATACACTGCC AGGCAAGGCA 
CTGCTGGAGG AAGAGGTGCT GGCTGCCATG ATCCCAGTCA TCAGTGCTGC CACCACTCAC 
CTGCGCCCTG AGCTGGCTGC CCAGAGTGTG TCTCATGTGG TGCCCCTCTT TCTGGATGGA 
GATGTCTCCT TCCTACCCCA GAACAGTTTT CCCTGCTCCT TCCAGCCTTT CGGGGATGGG 
GAGTTCTTGG AGGCACAGAG ACGCCTGGTT GCCCTCCTCA TGGCCTTCAT CTGCTCCTTG 
CCCCGCGATG TGGCAATCCC TCAGCAGGAA TGGCTGCTCC GGGAGCTGCT GGCATTGAGC 
TGTTCCTGCA ACTGTCCCTT CACAGCCACC ACAGCTGCCA AGTGCTTTGC AGGGCTGGTG 
AACAAGCACC CAGCAGGGCA GCAGCTGGAT GAAATCCTGC AGCTTGCAGT GAACAGGATG 
GAGCCCAGCC TTGCAGAGGG GCCCCGCCGA ACGCAGGCAC TCACCCTGCT GCTCTGGGTG 
ACCAAAGCCC TGGTGCTGCG CTACCACCCC CTAAGCTCTT GCCTGACAGA CAAGCTGCTG 
GGCCTGCTGG GTGACACGGA GCTGGGCCCT GCCACAGCCG ATGGCTTCTC CTTGCTCATG 
GCCGAGTCCC CGGACGTGCT GCACAAGGGC TGCCACGCTG ACGTGCGCAT CATGTTCCGC 
CAGCGCTTCT TCACTGACAA TGTCCCCAAG CTGGTGCAAG GCTTCCATGG GGCCGGCCCT 
GATGTGAAAG CCAATTACCT GAAGGGCCTG TCCCATGTGC TCAACCACCT CCCCAAACCT 
GTGCTGGTGA CAGAGCTGCC CACGCTTCTT TCCCTCCTGC TTGAGGCCTT GTCCTGCTCA 
GATCGTGTAG TGCAGCTCTC CACACTGAGC TGCCTCCACC CACTGCTGCT CGAAGCTCCC 
CAGATCATGA GCCTGCATGT CGACACACTG GTCACCAAGT TCCTCAACCT CACCTCCAGC 
CCCACCATGG CTGTCCGCAT CGCTGCCCTG CGCTGTGCCC ACGCCCTTAC CAGTCTGCCC 
ACAACAGTGC TGCTTCCATA CAAGGGCCGA GTTATCCGGG CACTGGCCAA GCCTTTGGAT 
GACAAAAAGA GGCTGGTGCG GAAGGAAGCA GTGGCAGCAC GCGGAGAATG GTTCCTGCTT 
GGGAGCCCAG GCAGGTGA

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

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MMS19 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:

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