MYRFL cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	MYRFL
Entrez Gene ID	100222786
Full Name	myelin regulatory factor-like
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030259680.1	XP_030115540.1	myelin regulatory factor-like protein
XM_012569000.1	XP_012424454.1	myelin regulatory factor-like protein

Pathways from BioSystems
Gene Ontology

The following MYRFL gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MYRFL 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
OTd16326	XM_012569000.1 Latest version!	Taeniopygia guttata myelin regulatory factor-like (MYRFL), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OTd32877	XM_030259680.1 Latest version!	Taeniopygia guttata myelin regulatory factor like (MYRFL), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

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

MYRFL ( XM_012569000.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012424454.1 Taeniopygia guttata myelin regulatory factor-like (MYRFL), mRNA.

Price & Availability↑

CloneID	OTd16326
Clone ID Related Accession (Same CDS sequence)	XM_012569000.1
Accession Version	XM_012569000.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2436bp) 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	myelin regulatory factor-like protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197557.1) 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 :: 21% of CDS bases ##RefSeq-Attributes-END##

ATGACGTGTG AAGTGGGCCA GAGGCACTTG CAGCTCAAGC AGGAATGCCA AGGTCCTTAT 
CTTGTTTGCA TTCCGACTGG CCACACCTGC GTTTATGGAA GGCCTGCTGC AGACTGGGGG 
AGCCTGCAGA GGCAAGATGT CCACGGAGCC TTGGAAAATC CCATGGTGGA TACAAGCCTG 
TTGGAAGAAT TCATTAGTAG TGACATAGAG TTTGGAACTT TGCAAAGCCA GTTGCCAGAC 
TCCCCACCGG ACTCTGGTTC AGAACCATGT TCCCCACCAC AGCTACAAAC AACTGTAAAG 
GACTGTGCTG CTGAAGTGCA AGAATATGAC AGTGATGGAC AGAATGCAGC TTTGGAAAAA 
TGCTGTCAAG CTCTTACGTG GCAACCATAT CAAACTTCTC AGTGGAACAG CTTATTTGAC 
TCTAATTATG AAAAATTACC TGCTGTAGGA TATCACATTG TCACAGATAA AGGATTTAAT 
TTTTCAACAG CAGATGATGC CTTTGTGTGC CAAAAGAAGA ATCATTTCCA AATCACGGTT 
CATATTAGAG TCACTGGACA TCCAAAATAT GTCAAAACTC AGCAGGGGAG GAAACTAATA 
GAAAAGTTTT ACTTGAAAGC TTATGGAATT AAGGTGGAAG CTCCAAATGA AATAGTTGCT 
ATTGAACAGT CTCAATCAGA TCGAAGCAAA AAAACTTTTC ATCCTGCTAA AGTTGATCTG 
CCAGGGGACC AGATAACTAA AGTAACACTG GGACGGCTGC ACTTCAGTGA AACGACAGCA 
AATAATATGA GAAAAAAGGG GAAACCTAAT CCTGATCAGA GATACTTCAT GCTGGTAGTT 
GGACTGTATG CTGTCTCTCA GGACCAGTTC TACTTACTAT CTGCAAATGT CTCTGAAAAG 
ATCATTGTGA GGGCTTCTAA CCCAGGGCAG TTTGAGACTG ACAGCGATGT GCTGTGGCAG 
CGAGGCCAGG TTCCAGAGAC AATAGCCTAC CATGGTCGCG TGGGAATTAA CACAGATGCC 
CCAGACGAAG CGCTGGTTGT GTGCGGAAAC GCCAAGGTCA TGGGCAGAGT CATGCACCCC 
TCTGACAGCC GGGCCAAGCA GAACATCCGG GAGGTCGACA CAAATGAGCA GTTGAGAAGA 
ATAACACAAA TGAGACTGGT GGAATATGAC TACAAGCCTG AATTTGCATC TGTTATGGGA 
ATAAAAGATA CCCATGAAAC AGGAATAATA GCTCAGGAAG TGAAGAGGCT TTTACCTGAA 
GCTGTTAGAG AAGTTGGAGA TGTTGCTTGT AATGATGGAG AAAAAATAGA AAACTTCCTC 
ATGGTTGACA AGGATCAGAT CTTTATGGAG AATGTTGGTG CTGTAAAGCA GCTTTGTAAA 
CTAACAAACA ATCTTGAAGT CAGAATAGAA GAACTGGAGC AGTGGAACCG GAAACTGGCC 
AGGCTGAAAC GGATCAACAG TTTAAAGTCA ACAGTCAGTG AGGAGAGCAA AGTCAGGTAT 
AGTCGAGCTA ATAGTCTCTT GCCGTCAATA AAATCAGTCC CACTAAAATC CAGGAAGGTT 
TGTTTATCAA AGACTAAAGA ATCTTGTTCC GTGAAGATTT TCCGGGTGAC TATAATAGCT 
TTGATTGCTA TTATGGCACT ATGTGCTTTG ACAATATGGA GCCTATATTT ACTTAGCATT 
CGTGACAGCC GTTTTGAAAA ACATCCAGTT TACAGCAATA CCTCAAGTTC TGTTCCAGTT 
TCTCCCTCTA CTACCACAGC AGCATTGCAG AGTGAAAGCA CAGTTTCTCA GACCACACAA 
CCCACCAGCA GGATCCCTGA AGTGAATTTC TGTGACATTT TACCTTGTGA CAAGGTCTAC 
TGTTGTCCAA TTCATCACCC AAAAGTCAAA TCTCTAAGTT ATGAAAAAAA TAATGCAAAG 
GAGAAACGAA ACAAAAGTGA TTTGTTACCC AAACGAGATC ACCTCAAAAA ACCCGGTGGA 
AGACCTGATC TTGGAAATGA CTGGATTGAT ACAACAATCA GTTCCATAAA GATTTTGGAA 
ACTCAGCAAA GCATTGACAA GCGCTATTGT AGTAAAAATC TGCAGTGCGG CTCTGGAAAC 
TACAGCTATG TTATTCCTAT TAATAAATAC ACGCCCACGG ATGTAGAAAT CTCACTGGAA 
ATAAACACCA CAGAACCATT AATTATATTT CTCTGCAAAG TCACATTTGG AAATTATTGC 
TCTTATTATT CTTCAAGCCA AAACACTAGG AAGAATTTCC AAGAAACCAC ACAGGGACGC 
CAGCACGTTT GGGCCCTCCC TGTAGCTAGG CTGTATGACA GCGCATTCGC TTTCCGCGTA 
GCTGTGCCGG GTTTTGCTAG CTGCTCAACA GACCGTTACT TTGCTGGAAT GTTTTTTACT 
GATTACTACT TCTACTTTTA TCGGCAGTGT AATTAA

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

RefSeq	XP_012424454.1
CDS	1..2436
Translation	MTCEVGQRHLQLKQECQGPYLVCIPTGHTCVYGRPAADWGSLQRQDVHGALENPMVDTSLLEEFISSDIEFGTLQSQLPDSPPDSGSEPCSPPQLQTTVKDCAAEVQEYDSDGQNAALEKCCQALTWQPYQTSQWNSLFDSNYEKLPAVGYHIVTDKGFNFSTADDAFVCQKKNHFQITVHIRVTGHPKYVKTQQGRKLIEKFYLKAYGIKVEAPNEIVAIEQSQSDRSKKTFHPAKVDLPGDQITKVTLGRLHFSETTANNMRKKGKPNPDQRYFMLVVGLYAVSQDQFYLLSANVSEKIIVRASNPGQFETDSDVLWQRGQVPETIAYHGRVGINTDAPDEALVVCGNAKVMGRVMHPSDSRAKQNIREVDTNEQLRRITQMRLVEYDYKPEFASVMGIKDTHETGIIAQEVKRLLPEAVREVGDVACNDGEKIENFLMVDKDQIFMENVGAVKQLCKLTNNLEVRIEELEQWNRKLARLKRINSLKSTVSEESKVRYSRANSLLPSIKSVPLKSRKVCLSKTKESCSVKIFRVTIIALIAIMALCALTIWSLYLLSIRDSRFEKHPVYSNTSSSVPVSPSTTTAALQSESTVSQTTQPTSRIPEVNFCDILPCDKVYCCPIHHPKVKSLSYEKNNAKEKRNKSDLLPKRDHLKKPGGRPDLGNDWIDTTISSIKILETQQSIDKRYCSKNLQCGSGNYSYVIPINKYTPTDVEISLEINTTEPLIIFLCKVTFGNYCSYYSSSQNTRKNFQETTQGRQHVWALPVARLYDSAFAFRVAVPGFASCSTDRYFAGMFFTDYYFYFYRQCN

Target ORF information:

RefSeq Version	XM_012569000.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata myelin regulatory factor-like (MYRFL), mRNA.

Target ORF information:

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

XM_012569000.1

ORF Insert Sequence:

ATGACGTGTG AAGTGGGCCA GAGGCACTTG CAGCTCAAGC AGGAATGCCA AGGTCCTTAT 
CTTGTTTGCA TTCCGACTGG CCACACCTGC GTTTATGGAA GGCCTGCTGC AGACTGGGGG 
AGCCTGCAGA GGCAAGATGT CCACGGAGCC TTGGAAAATC CCATGGTGGA TACAAGCCTG 
TTGGAAGAAT TCATTAGTAG TGACATAGAG TTTGGAACTT TGCAAAGCCA GTTGCCAGAC 
TCCCCACCGG ACTCTGGTTC AGAACCATGT TCCCCACCAC AGCTACAAAC AACTGTAAAG 
GACTGTGCTG CTGAAGTGCA AGAATATGAC AGTGATGGAC AGAATGCAGC TTTGGAAAAA 
TGCTGTCAAG CTCTTACGTG GCAACCATAT CAAACTTCTC AGTGGAACAG CTTATTTGAC 
TCTAATTATG AAAAATTACC TGCTGTAGGA TATCACATTG TCACAGATAA AGGATTTAAT 
TTTTCAACAG CAGATGATGC CTTTGTGTGC CAAAAGAAGA ATCATTTCCA AATCACGGTT 
CATATTAGAG TCACTGGACA TCCAAAATAT GTCAAAACTC AGCAGGGGAG GAAACTAATA 
GAAAAGTTTT ACTTGAAAGC TTATGGAATT AAGGTGGAAG CTCCAAATGA AATAGTTGCT 
ATTGAACAGT CTCAATCAGA TCGAAGCAAA AAAACTTTTC ATCCTGCTAA AGTTGATCTG 
CCAGGGGACC AGATAACTAA AGTAACACTG GGACGGCTGC ACTTCAGTGA AACGACAGCA 
AATAATATGA GAAAAAAGGG GAAACCTAAT CCTGATCAGA GATACTTCAT GCTGGTAGTT 
GGACTGTATG CTGTCTCTCA GGACCAGTTC TACTTACTAT CTGCAAATGT CTCTGAAAAG 
ATCATTGTGA GGGCTTCTAA CCCAGGGCAG TTTGAGACTG ACAGCGATGT GCTGTGGCAG 
CGAGGCCAGG TTCCAGAGAC AATAGCCTAC CATGGTCGCG TGGGAATTAA CACAGATGCC 
CCAGACGAAG CGCTGGTTGT GTGCGGAAAC GCCAAGGTCA TGGGCAGAGT CATGCACCCC 
TCTGACAGCC GGGCCAAGCA GAACATCCGG GAGGTCGACA CAAATGAGCA GTTGAGAAGA 
ATAACACAAA TGAGACTGGT GGAATATGAC TACAAGCCTG AATTTGCATC TGTTATGGGA 
ATAAAAGATA CCCATGAAAC AGGAATAATA GCTCAGGAAG TGAAGAGGCT TTTACCTGAA 
GCTGTTAGAG AAGTTGGAGA TGTTGCTTGT AATGATGGAG AAAAAATAGA AAACTTCCTC 
ATGGTTGACA AGGATCAGAT CTTTATGGAG AATGTTGGTG CTGTAAAGCA GCTTTGTAAA 
CTAACAAACA ATCTTGAAGT CAGAATAGAA GAACTGGAGC AGTGGAACCG GAAACTGGCC 
AGGCTGAAAC GGATCAACAG TTTAAAGTCA ACAGTCAGTG AGGAGAGCAA AGTCAGGTAT 
AGTCGAGCTA ATAGTCTCTT GCCGTCAATA AAATCAGTCC CACTAAAATC CAGGAAGGTT 
TGTTTATCAA AGACTAAAGA ATCTTGTTCC GTGAAGATTT TCCGGGTGAC TATAATAGCT 
TTGATTGCTA TTATGGCACT ATGTGCTTTG ACAATATGGA GCCTATATTT ACTTAGCATT 
CGTGACAGCC GTTTTGAAAA ACATCCAGTT TACAGCAATA CCTCAAGTTC TGTTCCAGTT 
TCTCCCTCTA CTACCACAGC AGCATTGCAG AGTGAAAGCA CAGTTTCTCA GACCACACAA 
CCCACCAGCA GGATCCCTGA AGTGAATTTC TGTGACATTT TACCTTGTGA CAAGGTCTAC 
TGTTGTCCAA TTCATCACCC AAAAGTCAAA TCTCTAAGTT ATGAAAAAAA TAATGCAAAG 
GAGAAACGAA ACAAAAGTGA TTTGTTACCC AAACGAGATC ACCTCAAAAA ACCCGGTGGA 
AGACCTGATC TTGGAAATGA CTGGATTGAT ACAACAATCA GTTCCATAAA GATTTTGGAA 
ACTCAGCAAA GCATTGACAA GCGCTATTGT AGTAAAAATC TGCAGTGCGG CTCTGGAAAC 
TACAGCTATG TTATTCCTAT TAATAAATAC ACGCCCACGG ATGTAGAAAT CTCACTGGAA 
ATAAACACCA CAGAACCATT AATTATATTT CTCTGCAAAG TCACATTTGG AAATTATTGC 
TCTTATTATT CTTCAAGCCA AAACACTAGG AAGAATTTCC AAGAAACCAC ACAGGGACGC 
CAGCACGTTT GGGCCCTCCC TGTAGCTAGG CTGTATGACA GCGCATTCGC TTTCCGCGTA 
GCTGTGCCGG GTTTTGCTAG CTGCTCAACA GACCGTTACT TTGCTGGAAT GTTTTTTACT 
GATTACTACT TCTACTTTTA TCGGCAGTGT AATTAA

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

MYRFL ( XM_030259680.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030115540.1 Taeniopygia guttata myelin regulatory factor like (MYRFL), mRNA.

Price & Availability↑

CloneID	OTd32877
Clone ID Related Accession (Same CDS sequence)	XM_030259680.1
Accession Version	XM_030259680.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2772bp) 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	myelin regulatory factor-like protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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 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##

ATGGGACAGG ACAGATTTTG TTTTCCTTTG TGTAGGACCA TCAGCAGCAT CACTTATTCT 
GAAACACTGA CAATTCCCTC TGAATTTCTG TCTTTTTTAC TTTCGACCTT AGGGCAAGAT 
GTCCATGGAG CCTTGGAAAA TCCCATGGTG GATACAAGCC TGTTGGAAGA ATTCATTAGT 
AGTGACATAG AGTTTGGAAC TTTGCAAAGC CAGTTGCCAG ACTCCCCACC GGACTCTGGT 
TCAGAACCAT GTTCCCCACC ACAGCTACAA ATCCCATGGT GTGATGCTGT GTGGCCCAGT 
GGGCTGCAGC CCCCCCTCCC ATGCCCATCT GTTGGGGCAC CCAGCAAGCT CCCCTGCGGG 
TTCATGGAGA CTTACTCTGA CCCCAGTGCC ACGGGATATC CTTGCACCAT CTCCCAAAGC 
TGCTGCCTGA AGACAGAAAA TGCTGTGACT CCATGGAATC ATTCCACATC CTCCAGCTGT 
TTGGGTTTTA ATTATTCATA CTCCCAGCCT AATGCATCTC AGATTTCTGG TATTTATGCA 
GCATCAAGCA AAAAAAGGAA GCTCTCCCAA TTACTAGGAG ATGGGATTGA TTCTCCAATG 
CAGTCTCAGG ATTCCAGACA AGCAACTGTA AAGGACTGTG CTGCTGAAGT GCAAGAATAT 
GACAGTGATG GACAGAATGC AGCTTTGGAA AAATGCTGTC AAGCTCTTAC GTGGCAACCA 
TATCAAACTT CTCAGTGGAA CAGCTTATTT GACTCTAATT ATGAAAAATT ACCTGCTGTA 
GGATATCACA TTGTCACAGA TAAAGGATTT AATTTTTCAA CAGCAGATGA TGCCTTTGTG 
TGCCAAAAGA AGAATCATTT CCAAATCACG GTTCATATTA GAGTCACTGG ACATCCAAAA 
TATGTCAAAA CTCAGCAGGG GAGGAAACTA ATAGAAAAGT TTTACTTGAA AGCTTATGGA 
ATTAAGGTGG AAGCTCCAAA TGAAATAGTT GCTATTGAAC AGTCTCAATC AGATAGAAGC 
AAAAAAACTT TTCATCCTGC TAAAGTTGAT CTGCCAGGGG ACCAGATAAC TAAAGTAACA 
CTGGGACGGC TGCACTTCAG TGAAACGACA GCAAATAATA TGAGAAAAAA GGGGAAACCT 
AATCCTGATC AGAGATACTT CATGCTGGTA GTTGGACTGT ATGCTGTCTC TCAGGACCAG 
TTCTACTTAC TATCTGCAAA TGTCTCTGAA AAGATCATTG TGAGGGCTTC TAACCCAGGG 
CAGTTTGAGA CTGACAGCGA TGTGCTGTGG CAGCGAGGCC AGGTTCCAGA GACAATAGCC 
TACCATGGTC GCGTGGGAAT TAACACAGAT GCCCCAGACG AAGCGCTGGT TGTGTGCGGA 
AACGCCAAGG TCATGGGCAG AGTCATGCAC CCCTCTGACA GCCGGGCCAA GCAGAACATC 
CGGGAGGTCG ACACAAATGA GCAGTTGAGA AGAATAACAC AAATGAGACT GGTGGAATAT 
GACTACAAGC CTGAATTTGC ATCTGTTATG GGAATAAAAG ATACCCATGA AACAGGAATA 
ATAGCTCAGG AAGTGAAGAG GCTTTTACCT GAAGCTGTTA GAGAAGTTGG AGATGTTGCT 
TGTAATGATG GAGAAAAAAT AGAAAACTTC CTCATGGTTG ACAAGGATCA GATCTTTATG 
GAGAATGTTG GTGCTGTAAA GCAGCTTTGT AAACTGACAA ACAATCTTGA AGTCAGAATA 
GAAGAACTGG AGCAGTGGAA CCGAAAACTG GCCAGGCTGA AACGGATCAA CAGTTTAAAG 
TCAACAGTCA GTGAAGAGAG CAAAGTCAGC AGGTATAGTC GAGCTAATAG TCTCTTGCCG 
TCAATAAAAT CAGTCCCACT AAAATCCACG AAGGTTTGTT TATCAAAGAC TAAAGAATCT 
TGTTCCGTGA AGATTTTCCG GGTGACTATA ATAGCTTTGA TTGCTATTAT GGCACTATGT 
GCTTTGACAA TATGGAGCCT ATATTTACTT AGTATTCGTG ACAGCCGTTT TGAAAAACAT 
CCAGTTTACA GCAATACCTC AAGTTCTGTT CCAGTTTCTC CCTCTACTAC CACAGCAGCA 
TTGCAGAGTG AAAGCACAGT TTCTCAGACC ACACAACCCA CCAGCAGGAT CCCTGAAGTG 
AATTTCTGTG ACATTTTACC TTGTGACAAG GTCTATTGTT GTCCAATTCA TCACCCAAAA 
GTCAAATCTC TAAGTTATGA AAAAAATAAT GCAAAGGAGA AACGAAACAA AAGTGATTTG 
TTACCCAAAC GAGATCACCT CAAAAAACCC GGTGGAAGAC CTGATCTTGG AAATGACTGG 
ATTGATACAA CAATCAGTTC CATAAAGATT TTGGAAACTC AGCAAAGCAT TGACAAGCGC 
TATTGTAGTA AAAATCTGCA GTGCAGCTCT GGAAACTACA GCTATGTTAT TCCTATTAAC 
AAATACACGC CCACGGATGT AGAAATCTCA CTGGAAATAA ACACCACAGA ACCATTAATT 
ATATTTCTCT GCAAAGTCAC ATTTGGAAAT TATTGCTCTT ATTATTCTTC AAGCCAAAAC 
ACTAGGAAGA ATTTCCAAGA AACCACACAG GGACGCCAGC ACGTTTGGGC CCTCCCTGTA 
GCTAGGCTGT ATGACAGCGC ATACGCTTTC CGCGTAGCTG TGCCGGGTTT TGCTAGCTGC 
TCAACAGACC GTTACTTTGC TGGAATGTTT TTTACTGATT ACTACTTCTA CTTTTATCGG 
CAGTGTAATT AA

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

RefSeq	XP_030115540.1
CDS	168..2939
Translation	MGQDRFCFPLCRTISSITYSETLTIPSEFLSFLLSTLGQDVHGALENPMVDTSLLEEFISSDIEFGTLQSQLPDSPPDSGSEPCSPPQLQIPWCDAVWPSGLQPPLPCPSVGAPSKLPCGFMETYSDPSATGYPCTISQSCCLKTENAVTPWNHSTSSSCLGFNYSYSQPNASQISGIYAASSKKRKLSQLLGDGIDSPMQSQDSRQATVKDCAAEVQEYDSDGQNAALEKCCQALTWQPYQTSQWNSLFDSNYEKLPAVGYHIVTDKGFNFSTADDAFVCQKKNHFQITVHIRVTGHPKYVKTQQGRKLIEKFYLKAYGIKVEAPNEIVAIEQSQSDRSKKTFHPAKVDLPGDQITKVTLGRLHFSETTANNMRKKGKPNPDQRYFMLVVGLYAVSQDQFYLLSANVSEKIIVRASNPGQFETDSDVLWQRGQVPETIAYHGRVGINTDAPDEALVVCGNAKVMGRVMHPSDSRAKQNIREVDTNEQLRRITQMRLVEYDYKPEFASVMGIKDTHETGIIAQEVKRLLPEAVREVGDVACNDGEKIENFLMVDKDQIFMENVGAVKQLCKLTNNLEVRIEELEQWNRKLARLKRINSLKSTVSEESKVSRYSRANSLLPSIKSVPLKSTKVCLSKTKESCSVKIFRVTIIALIAIMALCALTIWSLYLLSIRDSRFEKHPVYSNTSSSVPVSPSTTTAALQSESTVSQTTQPTSRIPEVNFCDILPCDKVYCCPIHHPKVKSLSYEKNNAKEKRNKSDLLPKRDHLKKPGGRPDLGNDWIDTTISSIKILETQQSIDKRYCSKNLQCSSGNYSYVIPINKYTPTDVEISLEINTTEPLIIFLCKVTFGNYCSYYSSSQNTRKNFQETTQGRQHVWALPVARLYDSAYAFRVAVPGFASCSTDRYFAGMFFTDYYFYFYRQCN

Target ORF information:

RefSeq Version	XM_030259680.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata myelin regulatory factor like (MYRFL), mRNA.

Target ORF information:

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

XM_030259680.1

ORF Insert Sequence:

ATGGGACAGG ACAGATTTTG TTTTCCTTTG TGTAGGACCA TCAGCAGCAT CACTTATTCT 
GAAACACTGA CAATTCCCTC TGAATTTCTG TCTTTTTTAC TTTCGACCTT AGGGCAAGAT 
GTCCATGGAG CCTTGGAAAA TCCCATGGTG GATACAAGCC TGTTGGAAGA ATTCATTAGT 
AGTGACATAG AGTTTGGAAC TTTGCAAAGC CAGTTGCCAG ACTCCCCACC GGACTCTGGT 
TCAGAACCAT GTTCCCCACC ACAGCTACAA ATCCCATGGT GTGATGCTGT GTGGCCCAGT 
GGGCTGCAGC CCCCCCTCCC ATGCCCATCT GTTGGGGCAC CCAGCAAGCT CCCCTGCGGG 
TTCATGGAGA CTTACTCTGA CCCCAGTGCC ACGGGATATC CTTGCACCAT CTCCCAAAGC 
TGCTGCCTGA AGACAGAAAA TGCTGTGACT CCATGGAATC ATTCCACATC CTCCAGCTGT 
TTGGGTTTTA ATTATTCATA CTCCCAGCCT AATGCATCTC AGATTTCTGG TATTTATGCA 
GCATCAAGCA AAAAAAGGAA GCTCTCCCAA TTACTAGGAG ATGGGATTGA TTCTCCAATG 
CAGTCTCAGG ATTCCAGACA AGCAACTGTA AAGGACTGTG CTGCTGAAGT GCAAGAATAT 
GACAGTGATG GACAGAATGC AGCTTTGGAA AAATGCTGTC AAGCTCTTAC GTGGCAACCA 
TATCAAACTT CTCAGTGGAA CAGCTTATTT GACTCTAATT ATGAAAAATT ACCTGCTGTA 
GGATATCACA TTGTCACAGA TAAAGGATTT AATTTTTCAA CAGCAGATGA TGCCTTTGTG 
TGCCAAAAGA AGAATCATTT CCAAATCACG GTTCATATTA GAGTCACTGG ACATCCAAAA 
TATGTCAAAA CTCAGCAGGG GAGGAAACTA ATAGAAAAGT TTTACTTGAA AGCTTATGGA 
ATTAAGGTGG AAGCTCCAAA TGAAATAGTT GCTATTGAAC AGTCTCAATC AGATAGAAGC 
AAAAAAACTT TTCATCCTGC TAAAGTTGAT CTGCCAGGGG ACCAGATAAC TAAAGTAACA 
CTGGGACGGC TGCACTTCAG TGAAACGACA GCAAATAATA TGAGAAAAAA GGGGAAACCT 
AATCCTGATC AGAGATACTT CATGCTGGTA GTTGGACTGT ATGCTGTCTC TCAGGACCAG 
TTCTACTTAC TATCTGCAAA TGTCTCTGAA AAGATCATTG TGAGGGCTTC TAACCCAGGG 
CAGTTTGAGA CTGACAGCGA TGTGCTGTGG CAGCGAGGCC AGGTTCCAGA GACAATAGCC 
TACCATGGTC GCGTGGGAAT TAACACAGAT GCCCCAGACG AAGCGCTGGT TGTGTGCGGA 
AACGCCAAGG TCATGGGCAG AGTCATGCAC CCCTCTGACA GCCGGGCCAA GCAGAACATC 
CGGGAGGTCG ACACAAATGA GCAGTTGAGA AGAATAACAC AAATGAGACT GGTGGAATAT 
GACTACAAGC CTGAATTTGC ATCTGTTATG GGAATAAAAG ATACCCATGA AACAGGAATA 
ATAGCTCAGG AAGTGAAGAG GCTTTTACCT GAAGCTGTTA GAGAAGTTGG AGATGTTGCT 
TGTAATGATG GAGAAAAAAT AGAAAACTTC CTCATGGTTG ACAAGGATCA GATCTTTATG 
GAGAATGTTG GTGCTGTAAA GCAGCTTTGT AAACTGACAA ACAATCTTGA AGTCAGAATA 
GAAGAACTGG AGCAGTGGAA CCGAAAACTG GCCAGGCTGA AACGGATCAA CAGTTTAAAG 
TCAACAGTCA GTGAAGAGAG CAAAGTCAGC AGGTATAGTC GAGCTAATAG TCTCTTGCCG 
TCAATAAAAT CAGTCCCACT AAAATCCACG AAGGTTTGTT TATCAAAGAC TAAAGAATCT 
TGTTCCGTGA AGATTTTCCG GGTGACTATA ATAGCTTTGA TTGCTATTAT GGCACTATGT 
GCTTTGACAA TATGGAGCCT ATATTTACTT AGTATTCGTG ACAGCCGTTT TGAAAAACAT 
CCAGTTTACA GCAATACCTC AAGTTCTGTT CCAGTTTCTC CCTCTACTAC CACAGCAGCA 
TTGCAGAGTG AAAGCACAGT TTCTCAGACC ACACAACCCA CCAGCAGGAT CCCTGAAGTG 
AATTTCTGTG ACATTTTACC TTGTGACAAG GTCTATTGTT GTCCAATTCA TCACCCAAAA 
GTCAAATCTC TAAGTTATGA AAAAAATAAT GCAAAGGAGA AACGAAACAA AAGTGATTTG 
TTACCCAAAC GAGATCACCT CAAAAAACCC GGTGGAAGAC CTGATCTTGG AAATGACTGG 
ATTGATACAA CAATCAGTTC CATAAAGATT TTGGAAACTC AGCAAAGCAT TGACAAGCGC 
TATTGTAGTA AAAATCTGCA GTGCAGCTCT GGAAACTACA GCTATGTTAT TCCTATTAAC 
AAATACACGC CCACGGATGT AGAAATCTCA CTGGAAATAA ACACCACAGA ACCATTAATT 
ATATTTCTCT GCAAAGTCAC ATTTGGAAAT TATTGCTCTT ATTATTCTTC AAGCCAAAAC 
ACTAGGAAGA ATTTCCAAGA AACCACACAG GGACGCCAGC ACGTTTGGGC CCTCCCTGTA 
GCTAGGCTGT ATGACAGCGC ATACGCTTTC CGCGTAGCTG TGCCGGGTTT TGCTAGCTGC 
TCAACAGACC GTTACTTTGC TGGAATGTTT TTTACTGATT ACTACTTCTA CTTTTATCGG 
CAGTGTAATT AA

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

PubMed

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MYRFL 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:

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