MEGF10 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	MEGF10
Entrez Gene ID	100222180
Full Name	multiple EGF like domains 10
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002188758.1	XP_002188794.1	multiple epidermal growth factor-like domains protein 10
XM_002188758.2	XP_002188794.1	multiple epidermal growth factor-like domains protein 10

Pathways from BioSystems
Gene Ontology

The following MEGF10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MEGF10 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)
OTd13454	XM_002188758.2 Latest version!	Taeniopygia guttata multiple EGF like domains 10 (MEGF10), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
View Old Accession Versions >>
OTd13454	XM_002188758.1	Taeniopygia guttata multiple EGF-like-domains 10 (MEGF10), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00
Hide Old Accession Versions >>

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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)

MEGF10 ( XM_002188758.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002188794.1 Taeniopygia guttata multiple EGF like domains 10 (MEGF10), mRNA.

Price & Availability↑

CloneID	OTd13454
Clone ID Related Accession (Same CDS sequence)	XM_002188758.1 , XM_002188758.2
Accession Version	XM_002188758.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3396bp) 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	2019-08-08
Organism	Taeniopygia guttata(zebra finch)
Product	multiple epidermal growth factor-like domains protein 10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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_002188758.1. ##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##

ATGGTTCTTC ATTTCAACTC CCTTTTTGGC TTCCCTGTCA TACTCCTGTA CCACTGGATG 
GGTTCAACTG TGTCTTTGAA TCTGGAAGAT CCTAATGTGT GTAGCCACTG GGAAAGTTAC 
TCAGTTACAG TTCAAGAATC ATATCCACAT CCTTTTGATC AGATTTACTA TACCAGTTGT 
ACTGACATCC TAAACTGGTT CAAGTGCACG CGACACAGGA TCAGTTACCG TACTGCCTAC 
AGACATGGTG AGAAAACGAT GTACAGGCGC AAATCCCAGT GCTGCCCTGG ATTCTATGAA 
AGCAGGGAAA TGTGTGTCCC TCACTGTGCT GATAAATGTG TCCATGGCCG TTGCATTGCT 
CCCAACACCT GTCAGTGTGA GCCTGGCTGG GGGGGACCCA ACTGCTCCAG TGCGTGCGAC 
AGCGAGCACT GGGGACCCCA CTGCAGCAGC CGCTGCCAGT GCAAGAACGG GGCTCTGTGC 
AACCCCATCA CCGGGGCCTG CCACTGCTCC GCGGGCTTCA AGGGCTGGCG CTGCGAGGAG 
CGCTGCGACC CCGGCTCCTA CGGCAACGAC TGCCACCAGA AGTGCCAGTG CCAGAACAAA 
GCCACCTGCG ACCACGTCAC CGGCGAGTGC AGGTGTCCCC CCGGATACAC CGGTGCCTTC 
TGTGAGGACC TGTGTCCCCC CGGGAAGCAT GGCCCACAGT GCGAGGAGAG GTGCCCGTGC 
CAGAATGGAG GCGTCTGCCA CCACATCACC GGGGAGTGCT CCTGCCCGCC GGGATGGATG 
GGCATGGTCT GTGGTCAGCC TTGTCCTGAG GGTCGTTATG GGAAGAACTG CTCCCAGGAG 
TGCCAGTGCC ACAATGGAGG CACCTGCGAC TCGGCGACGG GCCACTGCCA CTGCAGCCCG 
GGCTACACAG GGGAACGGTG CCAGGATGAG TGCCCAGTGG GGAGCTACGG GCTGCTTTGT 
GCAGAGACCT GCAAATGTGT GAATGGTGGG AAGTGCTACC ACATCAGTGG TGCCTGCCTC 
TGTGAGCCAG GGTACACCGG GCAGCACTGC GAAACCAGGC TCTGCCCCGA GGGAATTTAT 
GGCCTCAAGT GTGATAAAAA GTGTCCCTGC CACATGCCCA ACACCTGGAG CTGTCACCCC 
ATGTCTGGGG AATGCTCCTG CAAGCCAGGC TGGTCTGGGC TGTACTGCAA CGAGACGTGT 
TCCCCGGGCT TCTACGGGGA GTCGTGTCAG CAGATCTGCA GCTGCCAGAA CGGGGCTGAC 
TGCGACAGCG TCACTGGGAA ATGCACCTGT GCCCCTGGAT TTAAGGGTGC ATCTTGTGGT 
ACCCCTTGTC TCCCTGGGAC ATATGGAGTG AACTGCTCCT CCGTGTGCAG CTGCAAAAAC 
GGGGCCACCT GTTCACCTGT GGATGGCTCT TGTGCCTGCA AAGTAGGTTG GCATGGTGTG 
GATTGCTCCA TAAATTGCCC CAGTGGCACG TGGGGACTGG GCTGTAACCT GACCTGCCAG 
TGTCTCAATG GAGGGGCTTG CAATGCTCTG GATGGAACCT GTACCTGTGC CCCAGGATGG 
AGGGGAGAGA AATGTGAACT CCCTTGCCAG GACGGTACCT ACGGCCTGGA CTGCGCCGAG 
CGCTGTGACT GCAGCCATGC AGACGGGTGC CACCCCACCA CGGGCTACTG CCGCTGCCTC 
CCAGGATGGT CAGGTATTCA CTGTGACAGT GTGTGTGCTG AGGGACAGTG GGGCCCAAAT 
TGCTCCTTGC CTTGTTACTG CAAAAATGGA GCATCCTGCT CTCCAGATGA TGGGATCTGT 
GAATGTGCGC CAGGATACAG AGGCACCACT TGCCAAAGAA TCTGCTCGCC AGGGTTCTAC 
GGCCACCGCT GCAGCCAGAC CTGCCCCCAG TGCGTGCACA GCAGTGGCCC CTGCCACCAC 
ATCACTGGCC TGTGTGACTG CCTGCCTGGA TTCACAGGAG CCCTCTGCAA TGAAGTATGT 
CCTAGTGGCA GATTTGGGAA GAACTGCGCT GGAATATGCA CCTGCACCAA TAATGGGACT 
TGTAATCCTA TTGATAGATC CTGTCAGTGC TACCCTGGAT GGATTGGTAG TGACTGCTCT 
CAGCCTTGCC CACCTTCACA CTGGGGACCA AACTGCATCC ACACGTGCAA CTGCCACAAT 
GGAGCTTTCT GCAGTGCCTA TGATGGGGAG TGCAAGTGCA CCCCAGGCTG GACTGGCCTT 
TACTGCACAC AGAGGTGTCC CCTGGGGTTT TTTGGGAAGG ACTGTGCCTT GATCTGCCAG 
TGCCAGAACG GAGCCGACTG CGACCACATC AGCGGGCAGT GCACGTGCCG GACGGGCTTC 
ATGGGGCGGC ACTGCGAGCA CAAGTGTCCC CAGGGCACAT ATGGGTATGG ATGCCGCCAG 
ATCTGTGACT GCCTGAACAA CTCCACCTGT GACCACATCA CAGGGACCTG CTACTGCAGC 
CCAGGCTGGA AAGGAGCCAG GTGTGATCAA GCTGGGGTAA TTATAGTGGG AAACCTGAAC 
AGCCTGAGCC GTACCAGCAC TGCCCTCCCT ACTGACTCCT ACCAGATAGG AGCCATAGCT 
GGAATCATCA TTCTTGTGCT GGTTGTGCTC TTCCTGCTGG TGCTGTTCAT CATTTACAGG 
CAGAAGCAGA AAGGGAAGGA GACACACATG CCCACTGTGA CCTACACCCC TGCTATGAGG 
GTGATCAATG CAGATTACAC CATTTCAGAA ACCATCCCTC ATACCAATGG TGGAAATGTC 
AACAGCCACT ATTTCTCTAA CCCCAGTTAC CATACTCTGA CTCAGTGCTC CAGCCCACCT 
CATGTCACCA ACATGGAGAG ACTGACCTTG GCAAAGGCAA AAACCAGCCA GCTGTTTGTG 
AACCTGAAGA ATATGGAGCC TGGAAAACGA AGTGCTGTCA TGGACTACAC AGGAACACTG 
CCAGCAGACT GGAAACACGG CGGCTACCTC AATGAGCTTG GTGCTTTTGG ACTTGATAGG 
GGATATGTGG GGAAGTCCCT GAAAGATCTG GTGAAGAACT CGGACTACAA TTTAAGTAAT 
TGCTCACTGA GCAGCTCTGA GAACCCCTAT GCCACTATCA AAGACCCACC AGCTCTGGTG 
CCAAAGAGTT CAGAATGTGG CTACGTGGAA ATGAAGTCCC CAGCACGTCG CGACTCCCCC 
TATGCTGAGA TCGCCGGCTC TGCCACGGCC AGCAAGAACG TCTATGAAGT TGAGCCCACG 
GTGAGCGTTG TCCAGGGCGC ATTCAGCAGT GGTGGCGGGC GCCTCGGCCA GGATCCCTAC 
GACCTCCCAA AAAACAGCCA CATTCCGTGC CACTATGACC TGCTTCCCGT CAGAGAGAGC 
CCCACGCCCT CCACAGAGGG GGTCAGCAGC AAATGA

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

RefSeq	XP_002188794.1
CDS	447..3842
Translation	MVLHFNSLFGFPVILLYHWMGSTVSLNLEDPNVCSHWESYSVTVQESYPHPFDQIYYTSCTDILNWFKCTRHRISYRTAYRHGEKTMYRRKSQCCPGFYESREMCVPHCADKCVHGRCIAPNTCQCEPGWGGPNCSSACDSEHWGPHCSSRCQCKNGALCNPITGACHCSAGFKGWRCEERCDPGSYGNDCHQKCQCQNKATCDHVTGECRCPPGYTGAFCEDLCPPGKHGPQCEERCPCQNGGVCHHITGECSCPPGWMGMVCGQPCPEGRYGKNCSQECQCHNGGTCDSATGHCHCSPGYTGERCQDECPVGSYGLLCAETCKCVNGGKCYHISGACLCEPGYTGQHCETRLCPEGIYGLKCDKKCPCHMPNTWSCHPMSGECSCKPGWSGLYCNETCSPGFYGESCQQICSCQNGADCDSVTGKCTCAPGFKGASCGTPCLPGTYGVNCSSVCSCKNGATCSPVDGSCACKVGWHGVDCSINCPSGTWGLGCNLTCQCLNGGACNALDGTCTCAPGWRGEKCELPCQDGTYGLDCAERCDCSHADGCHPTTGYCRCLPGWSGIHCDSVCAEGQWGPNCSLPCYCKNGASCSPDDGICECAPGYRGTTCQRICSPGFYGHRCSQTCPQCVHSSGPCHHITGLCDCLPGFTGALCNEVCPSGRFGKNCAGICTCTNNGTCNPIDRSCQCYPGWIGSDCSQPCPPSHWGPNCIHTCNCHNGAFCSAYDGECKCTPGWTGLYCTQRCPLGFFGKDCALICQCQNGADCDHISGQCTCRTGFMGRHCEHKCPQGTYGYGCRQICDCLNNSTCDHITGTCYCSPGWKGARCDQAGVIIVGNLNSLSRTSTALPTDSYQIGAIAGIIILVLVVLFLLVLFIIYRQKQKGKETHMPTVTYTPAMRVINADYTISETIPHTNGGNVNSHYFSNPSYHTLTQCSSPPHVTNMERLTLAKAKTSQLFVNLKNMEPGKRSAVMDYTGTLPADWKHGGYLNELGAFGLDRGYVGKSLKDLVKNSDYNLSNCSLSSSENPYATIKDPPALVPKSSECGYVEMKSPARRDSPYAEIAGSATASKNVYEVEPTVSVVQGAFSSGGGRLGQDPYDLPKNSHIPCHYDLLPVRESPTPSTEGVSSK

Target ORF information:

RefSeq Version	XM_002188758.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata multiple EGF like domains 10 (MEGF10), mRNA.

Target ORF information:

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

XM_002188758.2

ORF Insert Sequence:

ATGGTTCTTC ATTTCAACTC CCTTTTTGGC TTCCCTGTCA TACTCCTGTA CCACTGGATG 
GGTTCAACTG TGTCTTTGAA TCTGGAAGAT CCTAATGTGT GTAGCCACTG GGAAAGTTAC 
TCAGTTACAG TTCAAGAATC ATATCCACAT CCTTTTGATC AGATTTACTA TACCAGTTGT 
ACTGACATCC TAAACTGGTT CAAGTGCACG CGACACAGGA TCAGTTACCG TACTGCCTAC 
AGACATGGTG AGAAAACGAT GTACAGGCGC AAATCCCAGT GCTGCCCTGG ATTCTATGAA 
AGCAGGGAAA TGTGTGTCCC TCACTGTGCT GATAAATGTG TCCATGGCCG TTGCATTGCT 
CCCAACACCT GTCAGTGTGA GCCTGGCTGG GGGGGACCCA ACTGCTCCAG TGCGTGCGAC 
AGCGAGCACT GGGGACCCCA CTGCAGCAGC CGCTGCCAGT GCAAGAACGG GGCTCTGTGC 
AACCCCATCA CCGGGGCCTG CCACTGCTCC GCGGGCTTCA AGGGCTGGCG CTGCGAGGAG 
CGCTGCGACC CCGGCTCCTA CGGCAACGAC TGCCACCAGA AGTGCCAGTG CCAGAACAAA 
GCCACCTGCG ACCACGTCAC CGGCGAGTGC AGGTGTCCCC CCGGATACAC CGGTGCCTTC 
TGTGAGGACC TGTGTCCCCC CGGGAAGCAT GGCCCACAGT GCGAGGAGAG GTGCCCGTGC 
CAGAATGGAG GCGTCTGCCA CCACATCACC GGGGAGTGCT CCTGCCCGCC GGGATGGATG 
GGCATGGTCT GTGGTCAGCC TTGTCCTGAG GGTCGTTATG GGAAGAACTG CTCCCAGGAG 
TGCCAGTGCC ACAATGGAGG CACCTGCGAC TCGGCGACGG GCCACTGCCA CTGCAGCCCG 
GGCTACACAG GGGAACGGTG CCAGGATGAG TGCCCAGTGG GGAGCTACGG GCTGCTTTGT 
GCAGAGACCT GCAAATGTGT GAATGGTGGG AAGTGCTACC ACATCAGTGG TGCCTGCCTC 
TGTGAGCCAG GGTACACCGG GCAGCACTGC GAAACCAGGC TCTGCCCCGA GGGAATTTAT 
GGCCTCAAGT GTGATAAAAA GTGTCCCTGC CACATGCCCA ACACCTGGAG CTGTCACCCC 
ATGTCTGGGG AATGCTCCTG CAAGCCAGGC TGGTCTGGGC TGTACTGCAA CGAGACGTGT 
TCCCCGGGCT TCTACGGGGA GTCGTGTCAG CAGATCTGCA GCTGCCAGAA CGGGGCTGAC 
TGCGACAGCG TCACTGGGAA ATGCACCTGT GCCCCTGGAT TTAAGGGTGC ATCTTGTGGT 
ACCCCTTGTC TCCCTGGGAC ATATGGAGTG AACTGCTCCT CCGTGTGCAG CTGCAAAAAC 
GGGGCCACCT GTTCACCTGT GGATGGCTCT TGTGCCTGCA AAGTAGGTTG GCATGGTGTG 
GATTGCTCCA TAAATTGCCC CAGTGGCACG TGGGGACTGG GCTGTAACCT GACCTGCCAG 
TGTCTCAATG GAGGGGCTTG CAATGCTCTG GATGGAACCT GTACCTGTGC CCCAGGATGG 
AGGGGAGAGA AATGTGAACT CCCTTGCCAG GACGGTACCT ACGGCCTGGA CTGCGCCGAG 
CGCTGTGACT GCAGCCATGC AGACGGGTGC CACCCCACCA CGGGCTACTG CCGCTGCCTC 
CCAGGATGGT CAGGTATTCA CTGTGACAGT GTGTGTGCTG AGGGACAGTG GGGCCCAAAT 
TGCTCCTTGC CTTGTTACTG CAAAAATGGA GCATCCTGCT CTCCAGATGA TGGGATCTGT 
GAATGTGCGC CAGGATACAG AGGCACCACT TGCCAAAGAA TCTGCTCGCC AGGGTTCTAC 
GGCCACCGCT GCAGCCAGAC CTGCCCCCAG TGCGTGCACA GCAGTGGCCC CTGCCACCAC 
ATCACTGGCC TGTGTGACTG CCTGCCTGGA TTCACAGGAG CCCTCTGCAA TGAAGTATGT 
CCTAGTGGCA GATTTGGGAA GAACTGCGCT GGAATATGCA CCTGCACCAA TAATGGGACT 
TGTAATCCTA TTGATAGATC CTGTCAGTGC TACCCTGGAT GGATTGGTAG TGACTGCTCT 
CAGCCTTGCC CACCTTCACA CTGGGGACCA AACTGCATCC ACACGTGCAA CTGCCACAAT 
GGAGCTTTCT GCAGTGCCTA TGATGGGGAG TGCAAGTGCA CCCCAGGCTG GACTGGCCTT 
TACTGCACAC AGAGGTGTCC CCTGGGGTTT TTTGGGAAGG ACTGTGCCTT GATCTGCCAG 
TGCCAGAACG GAGCCGACTG CGACCACATC AGCGGGCAGT GCACGTGCCG GACGGGCTTC 
ATGGGGCGGC ACTGCGAGCA CAAGTGTCCC CAGGGCACAT ATGGGTATGG ATGCCGCCAG 
ATCTGTGACT GCCTGAACAA CTCCACCTGT GACCACATCA CAGGGACCTG CTACTGCAGC 
CCAGGCTGGA AAGGAGCCAG GTGTGATCAA GCTGGGGTAA TTATAGTGGG AAACCTGAAC 
AGCCTGAGCC GTACCAGCAC TGCCCTCCCT ACTGACTCCT ACCAGATAGG AGCCATAGCT 
GGAATCATCA TTCTTGTGCT GGTTGTGCTC TTCCTGCTGG TGCTGTTCAT CATTTACAGG 
CAGAAGCAGA AAGGGAAGGA GACACACATG CCCACTGTGA CCTACACCCC TGCTATGAGG 
GTGATCAATG CAGATTACAC CATTTCAGAA ACCATCCCTC ATACCAATGG TGGAAATGTC 
AACAGCCACT ATTTCTCTAA CCCCAGTTAC CATACTCTGA CTCAGTGCTC CAGCCCACCT 
CATGTCACCA ACATGGAGAG ACTGACCTTG GCAAAGGCAA AAACCAGCCA GCTGTTTGTG 
AACCTGAAGA ATATGGAGCC TGGAAAACGA AGTGCTGTCA TGGACTACAC AGGAACACTG 
CCAGCAGACT GGAAACACGG CGGCTACCTC AATGAGCTTG GTGCTTTTGG ACTTGATAGG 
GGATATGTGG GGAAGTCCCT GAAAGATCTG GTGAAGAACT CGGACTACAA TTTAAGTAAT 
TGCTCACTGA GCAGCTCTGA GAACCCCTAT GCCACTATCA AAGACCCACC AGCTCTGGTG 
CCAAAGAGTT CAGAATGTGG CTACGTGGAA ATGAAGTCCC CAGCACGTCG CGACTCCCCC 
TATGCTGAGA TCGCCGGCTC TGCCACGGCC AGCAAGAACG TCTATGAAGT TGAGCCCACG 
GTGAGCGTTG TCCAGGGCGC ATTCAGCAGT GGTGGCGGGC GCCTCGGCCA GGATCCCTAC 
GACCTCCCAA AAAACAGCCA CATTCCGTGC CACTATGACC TGCTTCCCGT CAGAGAGAGC 
CCCACGCCCT CCACAGAGGG GGTCAGCAGC AAATGA

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

MEGF10 ( XM_002188758.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002188794.1 Taeniopygia guttata multiple EGF-like-domains 10 (MEGF10), mRNA.

Price & Availability↑

CloneID	OTd13454
Clone ID Related Accession (Same CDS sequence)	XM_002188758.1 , XM_002188758.2
Accession Version	XM_002188758.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3396bp) 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	2015-05-25
Organism	Taeniopygia guttata(zebra finch)
Product	multiple epidermal growth factor-like domains protein 10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002234475.1) 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 :: 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGTTCTTC ATTTCAACTC CCTTTTTGGC TTCCCTGTCA TACTCCTGTA CCACTGGATG 
GGTTCAACTG TGTCTTTGAA TCTGGAAGAT CCTAATGTGT GTAGCCACTG GGAAAGTTAC 
TCAGTTACAG TTCAAGAATC ATATCCACAT CCTTTTGATC AGATTTACTA TACCAGTTGT 
ACTGACATCC TAAACTGGTT CAAGTGCACG CGACACAGGA TCAGTTACCG TACTGCCTAC 
AGACATGGTG AGAAAACGAT GTACAGGCGC AAATCCCAGT GCTGCCCTGG ATTCTATGAA 
AGCAGGGAAA TGTGTGTCCC TCACTGTGCT GATAAATGTG TCCATGGCCG TTGCATTGCT 
CCCAACACCT GTCAGTGTGA GCCTGGCTGG GGGGGACCCA ACTGCTCCAG TGCGTGCGAC 
AGCGAGCACT GGGGACCCCA CTGCAGCAGC CGCTGCCAGT GCAAGAACGG GGCTCTGTGC 
AACCCCATCA CCGGGGCCTG CCACTGCTCC GCGGGCTTCA AGGGCTGGCG CTGCGAGGAG 
CGCTGCGACC CCGGCTCCTA CGGCAACGAC TGCCACCAGA AGTGCCAGTG CCAGAACAAA 
GCCACCTGCG ACCACGTCAC CGGCGAGTGC AGGTGTCCCC CCGGATACAC CGGTGCCTTC 
TGTGAGGACC TGTGTCCCCC CGGGAAGCAT GGCCCACAGT GCGAGGAGAG GTGCCCGTGC 
CAGAATGGAG GCGTCTGCCA CCACATCACC GGGGAGTGCT CCTGCCCGCC GGGATGGATG 
GGCATGGTCT GTGGTCAGCC TTGTCCTGAG GGTCGTTATG GGAAGAACTG CTCCCAGGAG 
TGCCAGTGCC ACAATGGAGG CACCTGCGAC TCGGCGACGG GCCACTGCCA CTGCAGCCCG 
GGCTACACAG GGGAACGGTG CCAGGATGAG TGCCCAGTGG GGAGCTACGG GCTGCTTTGT 
GCAGAGACCT GCAAATGTGT GAATGGTGGG AAGTGCTACC ACATCAGTGG TGCCTGCCTC 
TGTGAGCCAG GGTACACCGG GCAGCACTGC GAAACCAGGC TCTGCCCCGA GGGAATTTAT 
GGCCTCAAGT GTGATAAAAA GTGTCCCTGC CACATGCCCA ACACCTGGAG CTGTCACCCC 
ATGTCTGGGG AATGCTCCTG CAAGCCAGGC TGGTCTGGGC TGTACTGCAA CGAGACGTGT 
TCCCCGGGCT TCTACGGGGA GTCGTGTCAG CAGATCTGCA GCTGCCAGAA CGGGGCTGAC 
TGCGACAGCG TCACTGGGAA ATGCACCTGT GCCCCTGGAT TTAAGGGTGC ATCTTGTGGT 
ACCCCTTGTC TCCCTGGGAC ATATGGAGTG AACTGCTCCT CCGTGTGCAG CTGCAAAAAC 
GGGGCCACCT GTTCACCTGT GGATGGCTCT TGTGCCTGCA AAGTAGGTTG GCATGGTGTG 
GATTGCTCCA TAAATTGCCC CAGTGGCACG TGGGGACTGG GCTGTAACCT GACCTGCCAG 
TGTCTCAATG GAGGGGCTTG CAATGCTCTG GATGGAACCT GTACCTGTGC CCCAGGATGG 
AGGGGAGAGA AATGTGAACT CCCTTGCCAG GACGGTACCT ACGGCCTGGA CTGCGCCGAG 
CGCTGTGACT GCAGCCATGC AGACGGGTGC CACCCCACCA CGGGCTACTG CCGCTGCCTC 
CCAGGATGGT CAGGTATTCA CTGTGACAGT GTGTGTGCTG AGGGACAGTG GGGCCCAAAT 
TGCTCCTTGC CTTGTTACTG CAAAAATGGA GCATCCTGCT CTCCAGATGA TGGGATCTGT 
GAATGTGCGC CAGGATACAG AGGCACCACT TGCCAAAGAA TCTGCTCGCC AGGGTTCTAC 
GGCCACCGCT GCAGCCAGAC CTGCCCCCAG TGCGTGCACA GCAGTGGCCC CTGCCACCAC 
ATCACTGGCC TGTGTGACTG CCTGCCTGGA TTCACAGGAG CCCTCTGCAA TGAAGTATGT 
CCTAGTGGCA GATTTGGGAA GAACTGCGCT GGAATATGCA CCTGCACCAA TAATGGGACT 
TGTAATCCTA TTGATAGATC CTGTCAGTGC TACCCTGGAT GGATTGGTAG TGACTGCTCT 
CAGCCTTGCC CACCTTCACA CTGGGGACCA AACTGCATCC ACACGTGCAA CTGCCACAAT 
GGAGCTTTCT GCAGTGCCTA TGATGGGGAG TGCAAGTGCA CCCCAGGCTG GACTGGCCTT 
TACTGCACAC AGAGGTGTCC CCTGGGGTTT TTTGGGAAGG ACTGTGCCTT GATCTGCCAG 
TGCCAGAACG GAGCCGACTG CGACCACATC AGCGGGCAGT GCACGTGCCG GACGGGCTTC 
ATGGGGCGGC ACTGCGAGCA CAAGTGTCCC CAGGGCACAT ATGGGTATGG ATGCCGCCAG 
ATCTGTGACT GCCTGAACAA CTCCACCTGT GACCACATCA CAGGGACCTG CTACTGCAGC 
CCAGGCTGGA AAGGAGCCAG GTGTGATCAA GCTGGGGTAA TTATAGTGGG AAACCTGAAC 
AGCCTGAGCC GTACCAGCAC TGCCCTCCCT ACTGACTCCT ACCAGATAGG AGCCATAGCT 
GGAATCATCA TTCTTGTGCT GGTTGTGCTC TTCCTGCTGG TGCTGTTCAT CATTTACAGG 
CAGAAGCAGA AAGGGAAGGA GACACACATG CCCACTGTGA CCTACACCCC TGCTATGAGG 
GTGATCAATG CAGATTACAC CATTTCAGAA ACCATCCCTC ATACCAATGG TGGAAATGTC 
AACAGCCACT ATTTCTCTAA CCCCAGTTAC CATACTCTGA CTCAGTGCTC CAGCCCACCT 
CATGTCACCA ACATGGAGAG ACTGACCTTG GCAAAGGCAA AAACCAGCCA GCTGTTTGTG 
AACCTGAAGA ATATGGAGCC TGGAAAACGA AGTGCTGTCA TGGACTACAC AGGAACACTG 
CCAGCAGACT GGAAACACGG CGGCTACCTC AATGAGCTTG GTGCTTTTGG ACTTGATAGG 
GGATATGTGG GGAAGTCCCT GAAAGATCTG GTGAAGAACT CGGACTACAA TTTAAGTAAT 
TGCTCACTGA GCAGCTCTGA GAACCCCTAT GCCACTATCA AAGACCCACC AGCTCTGGTG 
CCAAAGAGTT CAGAATGTGG CTACGTGGAA ATGAAGTCCC CAGCACGTCG CGACTCCCCC 
TATGCTGAGA TCGCCGGCTC TGCCACGGCC AGCAAGAACG TCTATGAAGT TGAGCCCACG 
GTGAGCGTTG TCCAGGGCGC ATTCAGCAGT GGTGGCGGGC GCCTCGGCCA GGATCCCTAC 
GACCTCCCAA AAAACAGCCA CATTCCGTGC CACTATGACC TGCTTCCCGT CAGAGAGAGC 
CCCACGCCCT CCACAGAGGG GGTCAGCAGC AAATGA

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

RefSeq	XP_002188794.1
CDS	1..3396
Translation	MVLHFNSLFGFPVILLYHWMGSTVSLNLEDPNVCSHWESYSVTVQESYPHPFDQIYYTSCTDILNWFKCTRHRISYRTAYRHGEKTMYRRKSQCCPGFYESREMCVPHCADKCVHGRCIAPNTCQCEPGWGGPNCSSACDSEHWGPHCSSRCQCKNGALCNPITGACHCSAGFKGWRCEERCDPGSYGNDCHQKCQCQNKATCDHVTGECRCPPGYTGAFCEDLCPPGKHGPQCEERCPCQNGGVCHHITGECSCPPGWMGMVCGQPCPEGRYGKNCSQECQCHNGGTCDSATGHCHCSPGYTGERCQDECPVGSYGLLCAETCKCVNGGKCYHISGACLCEPGYTGQHCETRLCPEGIYGLKCDKKCPCHMPNTWSCHPMSGECSCKPGWSGLYCNETCSPGFYGESCQQICSCQNGADCDSVTGKCTCAPGFKGASCGTPCLPGTYGVNCSSVCSCKNGATCSPVDGSCACKVGWHGVDCSINCPSGTWGLGCNLTCQCLNGGACNALDGTCTCAPGWRGEKCELPCQDGTYGLDCAERCDCSHADGCHPTTGYCRCLPGWSGIHCDSVCAEGQWGPNCSLPCYCKNGASCSPDDGICECAPGYRGTTCQRICSPGFYGHRCSQTCPQCVHSSGPCHHITGLCDCLPGFTGALCNEVCPSGRFGKNCAGICTCTNNGTCNPIDRSCQCYPGWIGSDCSQPCPPSHWGPNCIHTCNCHNGAFCSAYDGECKCTPGWTGLYCTQRCPLGFFGKDCALICQCQNGADCDHISGQCTCRTGFMGRHCEHKCPQGTYGYGCRQICDCLNNSTCDHITGTCYCSPGWKGARCDQAGVIIVGNLNSLSRTSTALPTDSYQIGAIAGIIILVLVVLFLLVLFIIYRQKQKGKETHMPTVTYTPAMRVINADYTISETIPHTNGGNVNSHYFSNPSYHTLTQCSSPPHVTNMERLTLAKAKTSQLFVNLKNMEPGKRSAVMDYTGTLPADWKHGGYLNELGAFGLDRGYVGKSLKDLVKNSDYNLSNCSLSSSENPYATIKDPPALVPKSSECGYVEMKSPARRDSPYAEIAGSATASKNVYEVEPTVSVVQGAFSSGGGRLGQDPYDLPKNSHIPCHYDLLPVRESPTPSTEGVSSK

Target ORF information:

RefSeq Version	XM_002188758.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata multiple EGF-like-domains 10 (MEGF10), mRNA.

Target ORF information:

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

XM_002188758.1

ORF Insert Sequence:

ATGGTTCTTC ATTTCAACTC CCTTTTTGGC TTCCCTGTCA TACTCCTGTA CCACTGGATG 
GGTTCAACTG TGTCTTTGAA TCTGGAAGAT CCTAATGTGT GTAGCCACTG GGAAAGTTAC 
TCAGTTACAG TTCAAGAATC ATATCCACAT CCTTTTGATC AGATTTACTA TACCAGTTGT 
ACTGACATCC TAAACTGGTT CAAGTGCACG CGACACAGGA TCAGTTACCG TACTGCCTAC 
AGACATGGTG AGAAAACGAT GTACAGGCGC AAATCCCAGT GCTGCCCTGG ATTCTATGAA 
AGCAGGGAAA TGTGTGTCCC TCACTGTGCT GATAAATGTG TCCATGGCCG TTGCATTGCT 
CCCAACACCT GTCAGTGTGA GCCTGGCTGG GGGGGACCCA ACTGCTCCAG TGCGTGCGAC 
AGCGAGCACT GGGGACCCCA CTGCAGCAGC CGCTGCCAGT GCAAGAACGG GGCTCTGTGC 
AACCCCATCA CCGGGGCCTG CCACTGCTCC GCGGGCTTCA AGGGCTGGCG CTGCGAGGAG 
CGCTGCGACC CCGGCTCCTA CGGCAACGAC TGCCACCAGA AGTGCCAGTG CCAGAACAAA 
GCCACCTGCG ACCACGTCAC CGGCGAGTGC AGGTGTCCCC CCGGATACAC CGGTGCCTTC 
TGTGAGGACC TGTGTCCCCC CGGGAAGCAT GGCCCACAGT GCGAGGAGAG GTGCCCGTGC 
CAGAATGGAG GCGTCTGCCA CCACATCACC GGGGAGTGCT CCTGCCCGCC GGGATGGATG 
GGCATGGTCT GTGGTCAGCC TTGTCCTGAG GGTCGTTATG GGAAGAACTG CTCCCAGGAG 
TGCCAGTGCC ACAATGGAGG CACCTGCGAC TCGGCGACGG GCCACTGCCA CTGCAGCCCG 
GGCTACACAG GGGAACGGTG CCAGGATGAG TGCCCAGTGG GGAGCTACGG GCTGCTTTGT 
GCAGAGACCT GCAAATGTGT GAATGGTGGG AAGTGCTACC ACATCAGTGG TGCCTGCCTC 
TGTGAGCCAG GGTACACCGG GCAGCACTGC GAAACCAGGC TCTGCCCCGA GGGAATTTAT 
GGCCTCAAGT GTGATAAAAA GTGTCCCTGC CACATGCCCA ACACCTGGAG CTGTCACCCC 
ATGTCTGGGG AATGCTCCTG CAAGCCAGGC TGGTCTGGGC TGTACTGCAA CGAGACGTGT 
TCCCCGGGCT TCTACGGGGA GTCGTGTCAG CAGATCTGCA GCTGCCAGAA CGGGGCTGAC 
TGCGACAGCG TCACTGGGAA ATGCACCTGT GCCCCTGGAT TTAAGGGTGC ATCTTGTGGT 
ACCCCTTGTC TCCCTGGGAC ATATGGAGTG AACTGCTCCT CCGTGTGCAG CTGCAAAAAC 
GGGGCCACCT GTTCACCTGT GGATGGCTCT TGTGCCTGCA AAGTAGGTTG GCATGGTGTG 
GATTGCTCCA TAAATTGCCC CAGTGGCACG TGGGGACTGG GCTGTAACCT GACCTGCCAG 
TGTCTCAATG GAGGGGCTTG CAATGCTCTG GATGGAACCT GTACCTGTGC CCCAGGATGG 
AGGGGAGAGA AATGTGAACT CCCTTGCCAG GACGGTACCT ACGGCCTGGA CTGCGCCGAG 
CGCTGTGACT GCAGCCATGC AGACGGGTGC CACCCCACCA CGGGCTACTG CCGCTGCCTC 
CCAGGATGGT CAGGTATTCA CTGTGACAGT GTGTGTGCTG AGGGACAGTG GGGCCCAAAT 
TGCTCCTTGC CTTGTTACTG CAAAAATGGA GCATCCTGCT CTCCAGATGA TGGGATCTGT 
GAATGTGCGC CAGGATACAG AGGCACCACT TGCCAAAGAA TCTGCTCGCC AGGGTTCTAC 
GGCCACCGCT GCAGCCAGAC CTGCCCCCAG TGCGTGCACA GCAGTGGCCC CTGCCACCAC 
ATCACTGGCC TGTGTGACTG CCTGCCTGGA TTCACAGGAG CCCTCTGCAA TGAAGTATGT 
CCTAGTGGCA GATTTGGGAA GAACTGCGCT GGAATATGCA CCTGCACCAA TAATGGGACT 
TGTAATCCTA TTGATAGATC CTGTCAGTGC TACCCTGGAT GGATTGGTAG TGACTGCTCT 
CAGCCTTGCC CACCTTCACA CTGGGGACCA AACTGCATCC ACACGTGCAA CTGCCACAAT 
GGAGCTTTCT GCAGTGCCTA TGATGGGGAG TGCAAGTGCA CCCCAGGCTG GACTGGCCTT 
TACTGCACAC AGAGGTGTCC CCTGGGGTTT TTTGGGAAGG ACTGTGCCTT GATCTGCCAG 
TGCCAGAACG GAGCCGACTG CGACCACATC AGCGGGCAGT GCACGTGCCG GACGGGCTTC 
ATGGGGCGGC ACTGCGAGCA CAAGTGTCCC CAGGGCACAT ATGGGTATGG ATGCCGCCAG 
ATCTGTGACT GCCTGAACAA CTCCACCTGT GACCACATCA CAGGGACCTG CTACTGCAGC 
CCAGGCTGGA AAGGAGCCAG GTGTGATCAA GCTGGGGTAA TTATAGTGGG AAACCTGAAC 
AGCCTGAGCC GTACCAGCAC TGCCCTCCCT ACTGACTCCT ACCAGATAGG AGCCATAGCT 
GGAATCATCA TTCTTGTGCT GGTTGTGCTC TTCCTGCTGG TGCTGTTCAT CATTTACAGG 
CAGAAGCAGA AAGGGAAGGA GACACACATG CCCACTGTGA CCTACACCCC TGCTATGAGG 
GTGATCAATG CAGATTACAC CATTTCAGAA ACCATCCCTC ATACCAATGG TGGAAATGTC 
AACAGCCACT ATTTCTCTAA CCCCAGTTAC CATACTCTGA CTCAGTGCTC CAGCCCACCT 
CATGTCACCA ACATGGAGAG ACTGACCTTG GCAAAGGCAA AAACCAGCCA GCTGTTTGTG 
AACCTGAAGA ATATGGAGCC TGGAAAACGA AGTGCTGTCA TGGACTACAC AGGAACACTG 
CCAGCAGACT GGAAACACGG CGGCTACCTC AATGAGCTTG GTGCTTTTGG ACTTGATAGG 
GGATATGTGG GGAAGTCCCT GAAAGATCTG GTGAAGAACT CGGACTACAA TTTAAGTAAT 
TGCTCACTGA GCAGCTCTGA GAACCCCTAT GCCACTATCA AAGACCCACC AGCTCTGGTG 
CCAAAGAGTT CAGAATGTGG CTACGTGGAA ATGAAGTCCC CAGCACGTCG CGACTCCCCC 
TATGCTGAGA TCGCCGGCTC TGCCACGGCC AGCAAGAACG TCTATGAAGT TGAGCCCACG 
GTGAGCGTTG TCCAGGGCGC ATTCAGCAGT GGTGGCGGGC GCCTCGGCCA GGATCCCTAC 
GACCTCCCAA AAAACAGCCA CATTCCGTGC CACTATGACC TGCTTCCCGT CAGAGAGAGC 
CCCACGCCCT CCACAGAGGG GGTCAGCAGC AAATGA