LOC106676086 cDNA ORF clone, Maylandia zebra(zebra mbuna)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106676086
Entrez Gene ID	106676086
Full Name	inverted formin-2
Gene Type	protein-coding
Organism	Maylandia zebra(zebra mbuna)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014411983.1	XP_014267469.1	inverted formin-2 isoform X1
XM_014411983.2	XP_014267469.2	inverted formin-2 isoform X1
XM_014411984.1	XP_014267470.1	inverted formin-2 isoform X2
XM_014411984.2	XP_014267470.2	inverted formin-2 isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC106676086 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106676086 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)
OMa18466	XM_014411983.1 Latest version!	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMa18467	XM_014411984.1 Latest version!	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMa358785	XM_014411983.2 Latest version!	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMa358786	XM_014411984.2 Latest version!	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X2, 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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** 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)

LOC106676086 ( XM_014411983.1 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_014267469.1 Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMa18466
Clone ID Related Accession (Same CDS sequence)	XM_014411983.1
Accession Version	XM_014411983.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3201bp) 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	1511884800000
Organism	Maylandia zebra(zebra mbuna)
Product	inverted formin-2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014446938.1) and transcript sequence (GBAN01020886.1) 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 :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 2766 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGCCCA CCCACACAGA TCAAGTTGTG TTCAGTGTTT GCAGCAGAGT 
GACGGAGACT CGGCCGCAGA TTACAAAGGC CACACAGGAA GAAAGCGTTT GAAGAAAAAG 
AAAAAATGCA TCCTTCAGTG A

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

RefSeq	XP_014267469.1
CDS	159..3359
Translation	MATSTKWGAVKDQLTRGPATVTDGKVEANLENADPELCIRLLQVPTVVNYSGLQRRLEVSNQSWMVQFLELQGLDLLLEALEALSGRGCAHIADALLQLTCVSCVRTIMNSSAGLHFILDNEGYIRMLAQALDTSNVMVKMQLFQLLAALAVFDPRGHHLVFDALDNYKSLKKQQYRFSVIMNELHATDNILYMVTLLSMVNVLVLQEEELRRRHRVRQEFIGLQLLNLLPRLRETQDKDLNIQCDVFEDSLSEDMEEMERLYGGIDMSSHQQVFTMLYTMVSSHPSSVQLLSILQALLLVGPDRAEVWCALELLMDRATLLAQDAEVDSADHLLEKLLPRKTYSANLTIDRAVQTRLPDSPPSQSEALTKDAPTAPTAAALPPALPTSYAPPLPPPLPGAMTLPLPPPPLPPTPLPGAMAPLPPPPPPPPLPGAMAPPPLPGAGPPLPPSPPGDIRAETVQSLGRLYSSSAPNSSHTPCPTLRMKKLNWQKLPSRLVSGHESLWTSTSLDSMEPDYCSIEHLFSLPPTETKTRTKSKTEPKEVSFIDAKKSLNLNIFLKHFKCSHEDFVDLIRRGDRSKFDVEALKQFIKLLPEKHEVGNLKSHLAEQDKLASADQFYLQLIDLPSYSLRIECMLLCEESSCVLETMRLRAELLDRACQSVKESARLPVFCKLILSVGNFLNYGTHTGNAEGFKISTLLKLTETKANKSRVTLLHHILQEAEENHPDLLNLPDDLEICAKAAGLSLDSIQSETKTLNKRLKNSERSVSSSSDDMKEQYLSTIQESLQAVEQLQLLLSSVEEQRKHLSAYLCEDSSSFSLEELFSTIKAFRDLFLRTLKENEGHREQEKRRKRLEEGRKLREEAPTRKIIRTDMANWDEGCTVDNLLAEIRKGCRLRKTSPRAEPDGGVEGHPGVTQMSPAQDKPDFPEKPREEVRTPTHPPAGTRPEPEPAEPDRAASELQALCERPAAEVQGPESEVDTRPAQQEVQHTASQQDVTQVNRSKDPNPEDSAPRNASNTLDTSPAAHPHRSSCVQCLQQSDGDSAADYKGHTGRKRLKKKKKCILQ

Target ORF information:

RefSeq Version	XM_014411983.1
Organism	Maylandia zebra(zebra mbuna)
Definition	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X1, mRNA.

Target ORF information:

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

XM_014411983.1

ORF Insert Sequence:

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGCCCA CCCACACAGA TCAAGTTGTG TTCAGTGTTT GCAGCAGAGT 
GACGGAGACT CGGCCGCAGA TTACAAAGGC CACACAGGAA GAAAGCGTTT GAAGAAAAAG 
AAAAAATGCA TCCTTCAGTG A

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

LOC106676086 ( XM_014411984.1 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_014267470.1 Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMa18467
Clone ID Related Accession (Same CDS sequence)	XM_014411984.1
Accession Version	XM_014411984.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3132bp) 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	1511884800000
Organism	Maylandia zebra(zebra mbuna)
Product	inverted formin-2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014446938.1) and transcript sequence (GBAN01020886.1) 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 :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 2766 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGAAGG CCACACAGGA AGAAAGCGTT TGAAGAAAAA GAAAAAATGC 
ATCCTTCAGT GA

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

RefSeq	XP_014267470.1
CDS	159..3290
Translation	MATSTKWGAVKDQLTRGPATVTDGKVEANLENADPELCIRLLQVPTVVNYSGLQRRLEVSNQSWMVQFLELQGLDLLLEALEALSGRGCAHIADALLQLTCVSCVRTIMNSSAGLHFILDNEGYIRMLAQALDTSNVMVKMQLFQLLAALAVFDPRGHHLVFDALDNYKSLKKQQYRFSVIMNELHATDNILYMVTLLSMVNVLVLQEEELRRRHRVRQEFIGLQLLNLLPRLRETQDKDLNIQCDVFEDSLSEDMEEMERLYGGIDMSSHQQVFTMLYTMVSSHPSSVQLLSILQALLLVGPDRAEVWCALELLMDRATLLAQDAEVDSADHLLEKLLPRKTYSANLTIDRAVQTRLPDSPPSQSEALTKDAPTAPTAAALPPALPTSYAPPLPPPLPGAMTLPLPPPPLPPTPLPGAMAPLPPPPPPPPLPGAMAPPPLPGAGPPLPPSPPGDIRAETVQSLGRLYSSSAPNSSHTPCPTLRMKKLNWQKLPSRLVSGHESLWTSTSLDSMEPDYCSIEHLFSLPPTETKTRTKSKTEPKEVSFIDAKKSLNLNIFLKHFKCSHEDFVDLIRRGDRSKFDVEALKQFIKLLPEKHEVGNLKSHLAEQDKLASADQFYLQLIDLPSYSLRIECMLLCEESSCVLETMRLRAELLDRACQSVKESARLPVFCKLILSVGNFLNYGTHTGNAEGFKISTLLKLTETKANKSRVTLLHHILQEAEENHPDLLNLPDDLEICAKAAGLSLDSIQSETKTLNKRLKNSERSVSSSSDDMKEQYLSTIQESLQAVEQLQLLLSSVEEQRKHLSAYLCEDSSSFSLEELFSTIKAFRDLFLRTLKENEGHREQEKRRKRLEEGRKLREEAPTRKIIRTDMANWDEGCTVDNLLAEIRKGCRLRKTSPRAEPDGGVEGHPGVTQMSPAQDKPDFPEKPREEVRTPTHPPAGTRPEPEPAEPDRAASELQALCERPAAEVQGPESEVDTRPAQQEVQHTASQQDVTQVNRSKDPNPEDSAPRNASNTLDTSPAEGHTGRKRLKKKKKCILQ

Target ORF information:

RefSeq Version	XM_014411984.1
Organism	Maylandia zebra(zebra mbuna)
Definition	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X2, mRNA.

Target ORF information:

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

XM_014411984.1

ORF Insert Sequence:

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGAAGG CCACACAGGA AGAAAGCGTT TGAAGAAAAA GAAAAAATGC 
ATCCTTCAGT GA

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

LOC106676086 ( XM_014411983.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_014267469.2 Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMa358785
Clone ID Related Accession (Same CDS sequence)	XM_014411983.2
Accession Version	XM_014411983.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3201bp) 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	1524412800000
Organism	Maylandia zebra(zebra mbuna)
Product	inverted formin-2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020193714.1) and transcript sequence (GBAN01020886.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_014411983.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 2766 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGCCCA CCCACACAGA TCAAGTTGTG TTCAGTGTTT GCAGCAGAGT 
GACGGAGACT CGGCCGCAGA TTACAAAGGC CACACAGGAA GAAAGCGTTT GAAGAAAAGG 
AAAAAATGCA TCCTTCAGTG A

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

RefSeq	XP_014267469.2
CDS	159..3359
Translation	MATSTKWGAVKDQLTRGPATVTDGKVEANLENADPELCIRLLQVPTVVNYSGLQRRLEVSNQSWMVQFLELQGLDLLLEALEALSGRGCAHIADALLQLTCVSCVRTIMNSSAGLHFILDNEGYIRMLAQALDTSNVMVKMQLFQLLAALAVFDPRGHHLVFDALDNYKSLKKQQYRFSVIMNELHATDNILYMVTLLSMVNVLVLQEEELRRRHRVRQEFIGLQLLNLLPRLRETQDKDLNIQCDVFEDSLSEDMEEMERLYGGIDMSSHQQVFTMLYTMVSSHPSSVQLLSILQALLLVGPDRAEVWCALELLMDRATLLAQDAEVDSADHLLEKLLPRKTYSANLTIDRAVQTRLPDSPPSQSEALTKDAPTAPTAAALPPALPTSYAPPLPPPLPGAMTLPLPPPPLPPTPLPGAMAPLPPPPPPPPLPGAMAPPPLPGAGPPLPPSPPGDIRAETVQSLGRLYSSSAPNSSHTPCPTLRMKKLNWQKLPSRLVSGHESLWTSTSLDSMEPDYCSIEHLFSLPPTETKTRTKSKTEPKEVSFIDAKKSLNLNIFLKHFKCSHEDFVDLIRRGDRSKFDVEALKQFIKLLPEKHEVGNLKSHLAEQDKLASADQFYLQLIDLPSYSLRIECMLLCEESSCVLETMRLRAELLDRACQSVKESARLPVFCKLILSVGNFLNYGTHTGNAEGFKISTLLKLTETKANKSRVTLLHHILQEAEENHPDLLNLPDDLEICAKAAGLSLDSIQSETKTLNKRLKNSERSVSSSSDDMKEQYLSTIQESLQAVEQLQLLLSSVEEQRKHLSAYLCEDSSSFSLEELFSTIKAFRDLFLRTLKENEGHREQEKRRKRLEEGRKLREEAPTRKIIRTDMANWDEGCTVDNLLAEIRKGCRLRKTSPRAEPDGGVEGHPGVTQMSPAQDKPDFPEKPREEVRTPTHPPAGTRPEPEPAEPDRAASELQALCERPAAEVQGPESEVDTRPAQQEVQHTASQQDVTQVNRSKDPNPEDSAPRNASNTLDTSPAAHPHRSSCVQCLQQSDGDSAADYKGHTGRKRLKKRKKCILQ

Target ORF information:

RefSeq Version	XM_014411983.2
Organism	Maylandia zebra(zebra mbuna)
Definition	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X1, mRNA.

Target ORF information:

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

XM_014411983.2

ORF Insert Sequence:

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGCCCA CCCACACAGA TCAAGTTGTG TTCAGTGTTT GCAGCAGAGT 
GACGGAGACT CGGCCGCAGA TTACAAAGGC CACACAGGAA GAAAGCGTTT GAAGAAAAGG 
AAAAAATGCA TCCTTCAGTG A

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

LOC106676086 ( XM_014411984.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_014267470.2 Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMa358786
Clone ID Related Accession (Same CDS sequence)	XM_014411984.2
Accession Version	XM_014411984.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3132bp) 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	1524412800000
Organism	Maylandia zebra(zebra mbuna)
Product	inverted formin-2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020193714.1) and transcript sequence (GBAN01020886.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_014411984.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 2766 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGAAGG CCACACAGGA AGAAAGCGTT TGAAGAAAAG GAAAAAATGC 
ATCCTTCAGT GA

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

RefSeq	XP_014267470.2
CDS	159..3290
Translation	MATSTKWGAVKDQLTRGPATVTDGKVEANLENADPELCIRLLQVPTVVNYSGLQRRLEVSNQSWMVQFLELQGLDLLLEALEALSGRGCAHIADALLQLTCVSCVRTIMNSSAGLHFILDNEGYIRMLAQALDTSNVMVKMQLFQLLAALAVFDPRGHHLVFDALDNYKSLKKQQYRFSVIMNELHATDNILYMVTLLSMVNVLVLQEEELRRRHRVRQEFIGLQLLNLLPRLRETQDKDLNIQCDVFEDSLSEDMEEMERLYGGIDMSSHQQVFTMLYTMVSSHPSSVQLLSILQALLLVGPDRAEVWCALELLMDRATLLAQDAEVDSADHLLEKLLPRKTYSANLTIDRAVQTRLPDSPPSQSEALTKDAPTAPTAAALPPALPTSYAPPLPPPLPGAMTLPLPPPPLPPTPLPGAMAPLPPPPPPPPLPGAMAPPPLPGAGPPLPPSPPGDIRAETVQSLGRLYSSSAPNSSHTPCPTLRMKKLNWQKLPSRLVSGHESLWTSTSLDSMEPDYCSIEHLFSLPPTETKTRTKSKTEPKEVSFIDAKKSLNLNIFLKHFKCSHEDFVDLIRRGDRSKFDVEALKQFIKLLPEKHEVGNLKSHLAEQDKLASADQFYLQLIDLPSYSLRIECMLLCEESSCVLETMRLRAELLDRACQSVKESARLPVFCKLILSVGNFLNYGTHTGNAEGFKISTLLKLTETKANKSRVTLLHHILQEAEENHPDLLNLPDDLEICAKAAGLSLDSIQSETKTLNKRLKNSERSVSSSSDDMKEQYLSTIQESLQAVEQLQLLLSSVEEQRKHLSAYLCEDSSSFSLEELFSTIKAFRDLFLRTLKENEGHREQEKRRKRLEEGRKLREEAPTRKIIRTDMANWDEGCTVDNLLAEIRKGCRLRKTSPRAEPDGGVEGHPGVTQMSPAQDKPDFPEKPREEVRTPTHPPAGTRPEPEPAEPDRAASELQALCERPAAEVQGPESEVDTRPAQQEVQHTASQQDVTQVNRSKDPNPEDSAPRNASNTLDTSPAEGHTGRKRLKKRKKCILQ

Target ORF information:

RefSeq Version	XM_014411984.2
Organism	Maylandia zebra(zebra mbuna)
Definition	Maylandia zebra inverted formin-2 (LOC106676086), transcript variant X2, mRNA.

Target ORF information:

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

XM_014411984.2

ORF Insert Sequence:

ATGGCAACCA GTACCAAATG GGGGGCGGTA AAGGACCAGT TGACCAGAGG CCCCGCCACA 
GTCACTGACG GCAAGGTGGA GGCCAATCTG GAGAACGCTG ACCCCGAGCT CTGCATCCGA 
CTGCTGCAGG TTCCCACAGT GGTGAACTAC TCGGGTCTGC AGCGGCGGCT GGAGGTGAGT 
AATCAGTCAT GGATGGTGCA GTTCCTTGAA CTACAGGGTT TGGACCTCCT GCTGGAGGCG 
CTGGAGGCTC TGTCGGGCCG CGGCTGCGCC CACATCGCCG ATGCTCTGCT GCAGCTCACC 
TGCGTCAGCT GTGTCCGGAC CATCATGAAC TCGTCCGCAG GGCTGCATTT CATCCTGGAC 
AACGAGGGCT ACATCAGGAT GCTGGCTCAA GCTCTCGACA CGTCCAATGT CATGGTGAAG 
ATGCAGCTGT TCCAGCTGCT GGCTGCTCTT GCCGTCTTCG ACCCTCGGGG ACACCACCTC 
GTCTTCGATG CACTCGACAA CTACAAGAGC CTGAAGAAGC AGCAGTATCG CTTCAGCGTG 
ATCATGAATG AGCTTCACGC CACCGACAAC ATCCTCTACA TGGTGACGCT GCTAAGTATG 
GTCAACGTCC TCGTGCTGCA GGAGGAGGAG CTGAGGAGAA GGCACCGGGT GCGGCAGGAG 
TTCATCGGTC TGCAGCTGCT GAACCTGCTC CCCAGGCTCA GGGAGACGCA GGACAAGGAC 
CTGAACATCC AGTGTGACGT GTTTGAAGAC TCTCTGTCGG AGGACATGGA GGAGATGGAG 
AGGCTGTACG GAGGGATTGA TATGAGCAGC CACCAGCAGG TCTTCACAAT GCTCTACACC 
ATGGTGTCCA GCCATCCATC CTCCGTGCAG CTGCTGTCCA TCCTTCAGGC CTTGTTGCTG 
GTGGGTCCGG ACAGAGCTGA GGTCTGGTGT GCTCTGGAGC TGCTGATGGA TCGAGCCACC 
CTGCTGGCTC AGGATGCTGA GGTAGACTCT GCAGATCACC TGCTGGAGAA GCTCCTCCCC 
CGAAAGACTT ACTCAGCCAA TCTTACCATC GACAGGGCGG TCCAGACTAG ACTACCAGAC 
AGTCCTCCCA GCCAATCAGA GGCACTCACC AAAGATGCTC CGACAGCCCC CACTGCAGCA 
GCACTGCCTC CGGCTCTTCC CACTTCCTAT GCCCCCCCTC TTCCTCCTCC CTTACCCGGT 
GCTATGACTC TTCCCCTTCC ACCCCCTCCA CTGCCGCCCA CACCCTTGCC TGGTGCTATG 
GCTCCTCTCC CTCCACCCCC TCCACCCCCA CCCTTACCTG GTGCTATGGC TCCTCCACCC 
TTACCTGGTG CTGGACCTCC ACTCCCCCCC TCTCCTCCAG GTGACATCAG AGCTGAGACA 
GTTCAAAGTC TGGGCAGGTT ATATAGCAGC TCCGCTCCTA ATTCAAGCCA CACCCCCTGC 
CCAACACTGC GGATGAAGAA GCTGAACTGG CAGAAACTTC CATCCAGACT GGTGTCAGGC 
CACGAGTCTC TGTGGACGTC AACATCTTTG GACTCCATGG AGCCAGATTA CTGCAGCATC 
GAGCACCTCT TCAGTCTCCC TCCGACTGAG ACCAAGACCA GAACCAAGTC AAAGACGGAG 
CCCAAAGAGG TGTCCTTCAT CGACGCCAAG AAGAGCCTTA ACCTCAACAT CTTCCTCAAG 
CACTTCAAAT GTTCCCACGA GGACTTTGTG GATCTCATCC GAAGAGGAGA CCGATCAAAG 
TTTGATGTTG AGGCCCTGAA ACAGTTCATC AAACTCCTCC CAGAGAAACA TGAGGTAGGG 
AACCTGAAGT CTCATCTGGC AGAGCAGGAC AAGTTGGCAT CAGCAGATCA GTTTTACCTG 
CAGCTCATTG ATCTGCCCAG TTACTCTCTG AGGATTGAGT GTATGTTGCT GTGTGAGGAG 
AGCAGCTGTG TGTTGGAGAC TATGAGGCTC AGAGCTGAGC TGCTGGACCG CGCCTGCCAG 
AGTGTGAAGG AGAGCGCTCG GCTGCCAGTC TTCTGTAAAC TAATCCTGAG TGTCGGAAAC 
TTTCTCAACT ATGGAACTCA CACGGGGAAT GCTGAAGGCT TTAAGATCAG CACTCTGCTC 
AAACTGACCG AAACCAAAGC CAACAAGTCG AGAGTCACGC TGCTGCACCA CATCCTGCAG 
GAGGCTGAAG AGAATCACCC CGACCTGCTC AACCTGCCCG ATGACCTGGA GATCTGTGCA 
AAGGCTGCTG GGCTCAGCTT GGACTCTATT CAGTCTGAAA CAAAGACTCT AAACAAACGG 
CTGAAAAACT CAGAGAGGAG CGTTTCCTCC TCATCTGACG ACATGAAGGA GCAGTACCTG 
TCCACCATAC AGGAGAGCCT GCAGGCTGTT GAGCAGCTGC AACTCCTGCT GTCATCTGTG 
GAGGAGCAGA GGAAGCACCT GTCCGCCTAC CTCTGTGAGG ACAGCAGCAG CTTCTCCCTC 
GAAGAGCTCT TCAGCACCAT CAAGGCATTC AGAGACCTCT TCCTTCGAAC CCTCAAGGAG 
AACGAAGGTC ACAGGGAGCA GGAGAAGAGG AGGAAGAGGT TGGAGGAAGG GAGGAAACTG 
AGAGAAGAAG CCCCCACCAG AAAGATCATT AGGACAGACA TGGCCAATTG GGACGAAGGA 
TGCACCGTCG ACAACCTGCT GGCCGAGATC AGGAAGGGCT GCAGGCTGAG GAAGACAAGC 
CCACGGGCAG AGCCGGACGG TGGGGTCGAA GGTCACCCCG GGGTCACGCA GATGTCACCG 
GCCCAAGATA AGCCAGATTT TCCCGAGAAG CCTCGGGAGG AGGTCCGGAC TCCCACACAT 
CCACCTGCTG GAACCAGACC AGAACCGGAG CCAGCAGAGC CAGACAGAGC TGCCTCAGAG 
CTCCAGGCCC TCTGTGAACG CCCCGCAGCT GAGGTCCAGG GTCCGGAGTC TGAAGTGGAC 
ACCAGACCGG CGCAGCAGGA AGTCCAGCAC ACAGCTAGTC AGCAGGATGT GACCCAGGTC 
AACAGGAGCA AAGATCCTAA CCCGGAAGAT TCTGCTCCCC GGAACGCATC AAACACCTTA 
GACACCAGCC CAGCAGAAGG CCACACAGGA AGAAAGCGTT TGAAGAAAAG GAAAAAATGC 
ATCCTTCAGT GA

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

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LOC106676086 cDNA ORF clone, Maylandia zebra(zebra mbuna)

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:

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