LOC100225382 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100225382
Entrez Gene ID	100225382
Full Name	rho GTPase-activating protein 35
Synonyms	GRLF1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002195331.1	XP_002195367.1	rho GTPase-activating protein 35
XM_030262049.1	XP_030117909.1	rho GTPase-activating protein 35

Pathways from BioSystems
Gene Ontology

The following LOC100225382 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100225382 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
OTd23254	XM_030262049.1 Latest version!	Taeniopygia guttata rho GTPase-activating protein 35 (LOC100225382), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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

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

Reference Sequences (Refseq)

LOC100225382 ( XM_030262049.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030117909.1 Taeniopygia guttata rho GTPase-activating protein 35 (LOC100225382), mRNA.

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CloneID	OTd23254
Clone ID Related Accession (Same CDS sequence)	XM_030262049.1
Accession Version	XM_030262049.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4353bp) 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	rho GTPase-activating protein 35
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022045350.1) 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##

ATGATGATGG CCCGCAAGCA AGATGGCCGC ACGCCCACCT ACAACGTCAG CGTGGTGGGG 
CTGTCCGGCA CCGAGAAGGA GAAAGGCCAG TGCGGCGTCG GCAAATCTTG CCTTTGCAAC 
CGATTCGTGC GGCCCGGCGC CGACGACTTC CACTTGGAGC ACACCTCGGT GCTCAGCACC 
AGTGACTTCG GGGGCAGGGT GGTCAACAAT GACCACTTCC TCTACTGGGG CGAGGTGGCG 
CGGCCGCTGG AGGAGTGCGC CGAGTGCCGC GTCCACGTGG TGGAGCAGAC GGAGTTCATC 
GACGACCAGA CCTTCCAGCC GCACCGCAGC ACCGCGCTGC AGCCCTACAT CAAGAGGGCG 
GCGGCCACCA AGTTGGCGTC GGCGGAGAAG TTGATGTACT TCTGCACCGA CCAGCTGGGC 
TTGGAGCAGG ACTTCGAGCA GAAGCAGATG CCCGACGGCA AGCTGCCGGT GGACGGGTTC 
CTGCTCTGCG TGGACGTCAG CCGCGGCATG AACCGCAACT TCGACGAGCA GCTCAAGTTC 
GTCTCCAACC TCTACAACCA GCTGGCCAAA ACCAAGAAAC CCGTGGTGGT GGTGCTGACC 
AAGTGCGACG AGGGCGTGGA GCGCTACATC CGCGACGCCC ACGCCTTCGC CCTGGGCAAG 
AAGAACCTGC AGGTGGTGGA GACCTCGGCG CGTTCCAACG TCAACGTGGA GCTGGCGTTC 
GGCACCTTGG TGCAGCTGTT GGACAAGAGC CGCGGCAAAG CCAAGATCAT CCCCTACTTC 
GAGGCGCTCA AGCAGCAGAG CCAGCAGATC GCCGCCGCCA AGGACCGCTA CGAGTGGCTG 
GTCAGCCGCG TGGTCAAGAG CCACCACGAG GTGTGGCCGG ACGTCAGCCG GCGCATGCGG 
TCGGCGCCGG AGTACCAAGA TTACGTCTAC TTGGAGGGCA CCCAGAAGGC CAAGAAGCTC 
TTCCTGCAGC ACGCGCAGCG CCTCAAGCAG GAGCACGTCG AGCGGCGCCG CCGCGCGTAC 
CTGGCGCTGC TGCCGCAGGC GCTGGACGCC CTCGTGCCGG ATCTGGACGA GATCGACCGC 
CTGAGCCGCG CCAAGGCCGA GAAGCTGCTG GAGGCCAAAC CCGACTTCCT CAAGTGGTTC 
GTGGTGCTGG AGGAGACGCC GTGGGACGCC ACCGACCACG TGGACGACGC CGACAACGAG 
CGCATCCCCT TCGACCTGCT GGAGACGCCG GCGGCCGAGC AGCTCTACGA GGCCCACCTG 
GAGAAGCTGC GCGCCGAGCG GAAGCGCGCC GAGATGCGGA GGGCGTTCCT GGAGAACCTG 
GAGAGCTCGC CCTTCGTCAC GCCCGGCAAA CCCTGGGAGG AGGCGCGCAG CTTCATCATG 
AACGAGGACT TCTACCTCTG GCTGGACGAG TCGGTCTACG TGGACATCTA CGGCAAGCAC 
CAGAAGCGCC TGATCGACAA AGCCAAGGAG GACTTCCAAG AGCTGCTCCT GGAGTACTCG 
GAGCTCTTCT ACGAGCTGGA GCTGGACGCC AAACCCAGCA AGGAGAAGAT GGGCGTCATC 
CAGGAGGTGT TGGGCGAGGA GCAGCGCTTC AAGGCGCTGC AGAAGCTGCA GGCCGAGCGC 
GACGCGCTGG TCCTCAAGCA CATCCACTTC GTCTACCACC CCACCAAGGA GACGTGTCCC 
GGCTGCGGCG CCTGCGTGGA CGCCCGCGTG GAGCAGCTGC TGGCCTCGCG CTTCGCCCGG 
CCGGCCCAGC GGCGCGGCGA CGCCGACGCC GACCGCATCA ACCTGGTCAT CCTGGGCAAG 
GACGGCTTGG CGCGCGAGCT GGCCAACGAG ATCCGCGCCC TCTGCGCCGA CGACGACAAG 
TACGTCATCG AGGGCAAGGT CTACGAGTTG GCCTTGAGGC CCATCGAGGG CAACGTGCGG 
CTGCCGGTCA ACGCCTTCCA AACGCCGACC TTCCAACCGC ACGGCTGCCT GTGCCTCTAC 
AACTCCAAGG AGTCGCTGTC CTACGTGGTG GAGAGCGTGG AGAAGAGCCG CGAGTCGGCC 
GCCGGCCGCC GCGACGGCCA CGCCGCGCCG CAGCTGCCCC TGGCGCTGGT GTTGGTCAAC 
AAGCGCGGCG GCGGCGAGGG CGGCGGCGAG ACGCTGCAGA GCCTCATCCA GCAGGGCCAG 
CGCATCGCCG GCAAGCTGCA GTGCGTCTTC CTGGACCCGG CGTCGGCCGG CATCGGCTAC 
GGCCGCACCA TCAACGAGAA GCAGATCGGC CAAGTCCTCA AGGGGCTGCT GGACGCCAAA 
CGCGGCCTCG GCGCCGCGCC GGCGCCGGGC CCCCGGGACG CGGCCGACGG CGCCGAGCTG 
CGCCTGGCGG CGTGCCTGAT GTGCGGCGAC CCGGTGAGCG CCGAGGAGGC GCTGCTGCCC 
ATCCTGCAGG CGCAGCCGTG CCGGGCGGCG CCGGGCGGCG GCGCGGCGGT GCTGCTGGAG 
GCGGCGGTGG GGCCGCAGCG GCGGCGGGTG GAGCTGGCGC TGCTGTCGTA CCACGCGGCC 
TTCGGGCTGC GCAAGAGCCG CCTGGTGCAC GGCTACATCG CCTTCTACGC CGCGCGGCGC 
CGCGCCTCGC TGGCCACGCT GCGCGCCTTC CTCGCCGACG TGCCGGACAT CGTGCCGGTG 
CAGCTGGTGG CGCTGGCCGA CGGCGCCGAG GCGGAGGACG AGGTGAGCCG CGAGCAGCTG 
GCGGAGGGCG AGGAGATGGC GCAGGAGATG GAGGCGCGGT TCGCCGCCCT GCCGCGCGGC 
CACGCCAAGC TGGACGTCTT CCAGCCCTTC CTCAAGGACG CGCTGGACAA GAAGAACGTG 
GTGGAGGCGG CGCACATGTA CGACAACGCC GCCGAGGCCT GCGGCGCCGC CGAGGACGTC 
TTCAACTCGC CGCGCGCCGG ATCGCCGCTC TGCAACTCCC ACGCTGCCGA CTCCGAGGAG 
GACGCCGAGG CGCCGCCGGG CTCCAGCCCC TTCCGCGAGG AGATCGCCAA ACTCTGCGCC 
GAGCCGGACG GCGGTGACGC CGCCGGGTTC GTCGCGGCGT CCTCCAAGAT GCCGCCCAAA 
CCCAAAGCGC CGTCGCATTT CGAGGCGGCC GATGGCCACC GCGACATCCG GCGGCGCTCG 
GCGTCGTCGT CGGCGTGGCT GGCGGCGGAT TGCTTCGACC CTTCGGACTA CGCCGAGCCC 
ATGGACGCGG TGGCCAAGCC GCGCAGCGAG GAGGAGAACA TCTACTCAGT TCCTCAGGAC 
AGCACCCAAG GCAAGATCAT CACCGTGCGC AACATCAACA AGGCGCCGTC CAACGGCGGC 
AGCGGCAACG GCTCCGACAG CGAGATGGAC AGCGGCTCCC TGGAGCGCCG CGGCCGCCAC 
GGCGTCACCG TCACCGCCAA ACCGCGGCTC TACCGCGCCC GCTGCGCGCG GCTCGGCCGC 
TTCGCCGGCT ACCGGCCCGG CCTCGGCGTC GGCAGCGACG ATGAGTTGGG CTCGGGCAGG 
AAGAAGGACG AAGAACCCGG CGGCCATGGC GGGTACAAGG GGGACAGCGC CGGAATGGCC 
TTCGAGGCGG CCGACGGGGA GGATCCGCGC CGCAGGAACA TCCTCAGGAG CCTCAGGAGG 
ACCACCAAGA AGCCGAAGGC GAAGGCGCGT CCGTCGCTGT CCAAGGCGCC GTGGGAGAGC 
AGCTACTTCG GGGTGCCCCT GGCCAGCGTG GTCAGCCCCG AGCGGCCCAT CCCCGTCTTC 
ATCGAGCGCT GCATCCAGTA CATCGAGGCC ACCGGGCTGA GCACGGAGGG GATTTATCGC 
GTCAGCGGCA ACAAGTCGGA GATGGAGAGT CTGCAGCGCC AGTTCGACCA GGACCACGGC 
CTGGACCTGG CTGAGAAGGA TTTCACCGTC AACGCCGTGG CCGGAGCCAT GAAAAGTTTC 
TTCTCGGAGC TGCCGGAGCC GCTGGTGCCC TACGCCATGC AGCTGGAGCT GGTGGAGGCC 
CACAAAATCG GGGACCGGGA GCAGAAGCTG CTGGCGCTGC GGGACGTCCT GCGGCGCTTC 
CCCCGCGAGA ACTACGAGGT CTTCAAATAC GTCATCGCCC ACCTCAACAG GGTCAGCCAA 
CAGCACCGCG TCAACCTGAT GACCAGCGAG AACCTGTCCA TCTGCTTCTG GCCGACGCTG 
ATGCGGCCGG ACTTCAGCAC CATGGACGCG CTGACCGCCA CCAGGACCTA CCAGACAATC 
ATCGAACTCT TCATCCACCA GTGCCCCTTC TTCTTCTCGC TCCGGCCGCC TCCGGACACG 
CCCGGCTCGC CCGGCCCGGC TCCGGCCACC GCGCCGTCCC CGCCGTCCCC TGCTCGGACG 
CCGTCGCCGC CGCCGGAGAC GCTCGAGCCG TGA

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

RefSeq	XP_030117909.1
CDS	228..4580
Translation	MMMARKQDGRTPTYNVSVVGLSGTEKEKGQCGVGKSCLCNRFVRPGADDFHLEHTSVLSTSDFGGRVVNNDHFLYWGEVARPLEECAECRVHVVEQTEFIDDQTFQPHRSTALQPYIKRAAATKLASAEKLMYFCTDQLGLEQDFEQKQMPDGKLPVDGFLLCVDVSRGMNRNFDEQLKFVSNLYNQLAKTKKPVVVVLTKCDEGVERYIRDAHAFALGKKNLQVVETSARSNVNVELAFGTLVQLLDKSRGKAKIIPYFEALKQQSQQIAAAKDRYEWLVSRVVKSHHEVWPDVSRRMRSAPEYQDYVYLEGTQKAKKLFLQHAQRLKQEHVERRRRAYLALLPQALDALVPDLDEIDRLSRAKAEKLLEAKPDFLKWFVVLEETPWDATDHVDDADNERIPFDLLETPAAEQLYEAHLEKLRAERKRAEMRRAFLENLESSPFVTPGKPWEEARSFIMNEDFYLWLDESVYVDIYGKHQKRLIDKAKEDFQELLLEYSELFYELELDAKPSKEKMGVIQEVLGEEQRFKALQKLQAERDALVLKHIHFVYHPTKETCPGCGACVDARVEQLLASRFARPAQRRGDADADRINLVILGKDGLARELANEIRALCADDDKYVIEGKVYELALRPIEGNVRLPVNAFQTPTFQPHGCLCLYNSKESLSYVVESVEKSRESAAGRRDGHAAPQLPLALVLVNKRGGGEGGGETLQSLIQQGQRIAGKLQCVFLDPASAGIGYGRTINEKQIGQVLKGLLDAKRGLGAAPAPGPRDAADGAELRLAACLMCGDPVSAEEALLPILQAQPCRAAPGGGAAVLLEAAVGPQRRRVELALLSYHAAFGLRKSRLVHGYIAFYAARRRASLATLRAFLADVPDIVPVQLVALADGAEAEDEVSREQLAEGEEMAQEMEARFAALPRGHAKLDVFQPFLKDALDKKNVVEAAHMYDNAAEACGAAEDVFNSPRAGSPLCNSHAADSEEDAEAPPGSSPFREEIAKLCAEPDGGDAAGFVAASSKMPPKPKAPSHFEAADGHRDIRRRSASSSAWLAADCFDPSDYAEPMDAVAKPRSEEENIYSVPQDSTQGKIITVRNINKAPSNGGSGNGSDSEMDSGSLERRGRHGVTVTAKPRLYRARCARLGRFAGYRPGLGVGSDDELGSGRKKDEEPGGHGGYKGDSAGMAFEAADGEDPRRRNILRSLRRTTKKPKAKARPSLSKAPWESSYFGVPLASVVSPERPIPVFIERCIQYIEATGLSTEGIYRVSGNKSEMESLQRQFDQDHGLDLAEKDFTVNAVAGAMKSFFSELPEPLVPYAMQLELVEAHKIGDREQKLLALRDVLRRFPRENYEVFKYVIAHLNRVSQQHRVNLMTSENLSICFWPTLMRPDFSTMDALTATRTYQTIIELFIHQCPFFFSLRPPPDTPGSPGPAPATAPSPPSPARTPSPPPETLEP

Target ORF information:

RefSeq Version	XM_030262049.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata rho GTPase-activating protein 35 (LOC100225382), mRNA.

Target ORF information:

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

XM_030262049.1

ORF Insert Sequence:

ATGATGATGG CCCGCAAGCA AGATGGCCGC ACGCCCACCT ACAACGTCAG CGTGGTGGGG 
CTGTCCGGCA CCGAGAAGGA GAAAGGCCAG TGCGGCGTCG GCAAATCTTG CCTTTGCAAC 
CGATTCGTGC GGCCCGGCGC CGACGACTTC CACTTGGAGC ACACCTCGGT GCTCAGCACC 
AGTGACTTCG GGGGCAGGGT GGTCAACAAT GACCACTTCC TCTACTGGGG CGAGGTGGCG 
CGGCCGCTGG AGGAGTGCGC CGAGTGCCGC GTCCACGTGG TGGAGCAGAC GGAGTTCATC 
GACGACCAGA CCTTCCAGCC GCACCGCAGC ACCGCGCTGC AGCCCTACAT CAAGAGGGCG 
GCGGCCACCA AGTTGGCGTC GGCGGAGAAG TTGATGTACT TCTGCACCGA CCAGCTGGGC 
TTGGAGCAGG ACTTCGAGCA GAAGCAGATG CCCGACGGCA AGCTGCCGGT GGACGGGTTC 
CTGCTCTGCG TGGACGTCAG CCGCGGCATG AACCGCAACT TCGACGAGCA GCTCAAGTTC 
GTCTCCAACC TCTACAACCA GCTGGCCAAA ACCAAGAAAC CCGTGGTGGT GGTGCTGACC 
AAGTGCGACG AGGGCGTGGA GCGCTACATC CGCGACGCCC ACGCCTTCGC CCTGGGCAAG 
AAGAACCTGC AGGTGGTGGA GACCTCGGCG CGTTCCAACG TCAACGTGGA GCTGGCGTTC 
GGCACCTTGG TGCAGCTGTT GGACAAGAGC CGCGGCAAAG CCAAGATCAT CCCCTACTTC 
GAGGCGCTCA AGCAGCAGAG CCAGCAGATC GCCGCCGCCA AGGACCGCTA CGAGTGGCTG 
GTCAGCCGCG TGGTCAAGAG CCACCACGAG GTGTGGCCGG ACGTCAGCCG GCGCATGCGG 
TCGGCGCCGG AGTACCAAGA TTACGTCTAC TTGGAGGGCA CCCAGAAGGC CAAGAAGCTC 
TTCCTGCAGC ACGCGCAGCG CCTCAAGCAG GAGCACGTCG AGCGGCGCCG CCGCGCGTAC 
CTGGCGCTGC TGCCGCAGGC GCTGGACGCC CTCGTGCCGG ATCTGGACGA GATCGACCGC 
CTGAGCCGCG CCAAGGCCGA GAAGCTGCTG GAGGCCAAAC CCGACTTCCT CAAGTGGTTC 
GTGGTGCTGG AGGAGACGCC GTGGGACGCC ACCGACCACG TGGACGACGC CGACAACGAG 
CGCATCCCCT TCGACCTGCT GGAGACGCCG GCGGCCGAGC AGCTCTACGA GGCCCACCTG 
GAGAAGCTGC GCGCCGAGCG GAAGCGCGCC GAGATGCGGA GGGCGTTCCT GGAGAACCTG 
GAGAGCTCGC CCTTCGTCAC GCCCGGCAAA CCCTGGGAGG AGGCGCGCAG CTTCATCATG 
AACGAGGACT TCTACCTCTG GCTGGACGAG TCGGTCTACG TGGACATCTA CGGCAAGCAC 
CAGAAGCGCC TGATCGACAA AGCCAAGGAG GACTTCCAAG AGCTGCTCCT GGAGTACTCG 
GAGCTCTTCT ACGAGCTGGA GCTGGACGCC AAACCCAGCA AGGAGAAGAT GGGCGTCATC 
CAGGAGGTGT TGGGCGAGGA GCAGCGCTTC AAGGCGCTGC AGAAGCTGCA GGCCGAGCGC 
GACGCGCTGG TCCTCAAGCA CATCCACTTC GTCTACCACC CCACCAAGGA GACGTGTCCC 
GGCTGCGGCG CCTGCGTGGA CGCCCGCGTG GAGCAGCTGC TGGCCTCGCG CTTCGCCCGG 
CCGGCCCAGC GGCGCGGCGA CGCCGACGCC GACCGCATCA ACCTGGTCAT CCTGGGCAAG 
GACGGCTTGG CGCGCGAGCT GGCCAACGAG ATCCGCGCCC TCTGCGCCGA CGACGACAAG 
TACGTCATCG AGGGCAAGGT CTACGAGTTG GCCTTGAGGC CCATCGAGGG CAACGTGCGG 
CTGCCGGTCA ACGCCTTCCA AACGCCGACC TTCCAACCGC ACGGCTGCCT GTGCCTCTAC 
AACTCCAAGG AGTCGCTGTC CTACGTGGTG GAGAGCGTGG AGAAGAGCCG CGAGTCGGCC 
GCCGGCCGCC GCGACGGCCA CGCCGCGCCG CAGCTGCCCC TGGCGCTGGT GTTGGTCAAC 
AAGCGCGGCG GCGGCGAGGG CGGCGGCGAG ACGCTGCAGA GCCTCATCCA GCAGGGCCAG 
CGCATCGCCG GCAAGCTGCA GTGCGTCTTC CTGGACCCGG CGTCGGCCGG CATCGGCTAC 
GGCCGCACCA TCAACGAGAA GCAGATCGGC CAAGTCCTCA AGGGGCTGCT GGACGCCAAA 
CGCGGCCTCG GCGCCGCGCC GGCGCCGGGC CCCCGGGACG CGGCCGACGG CGCCGAGCTG 
CGCCTGGCGG CGTGCCTGAT GTGCGGCGAC CCGGTGAGCG CCGAGGAGGC GCTGCTGCCC 
ATCCTGCAGG CGCAGCCGTG CCGGGCGGCG CCGGGCGGCG GCGCGGCGGT GCTGCTGGAG 
GCGGCGGTGG GGCCGCAGCG GCGGCGGGTG GAGCTGGCGC TGCTGTCGTA CCACGCGGCC 
TTCGGGCTGC GCAAGAGCCG CCTGGTGCAC GGCTACATCG CCTTCTACGC CGCGCGGCGC 
CGCGCCTCGC TGGCCACGCT GCGCGCCTTC CTCGCCGACG TGCCGGACAT CGTGCCGGTG 
CAGCTGGTGG CGCTGGCCGA CGGCGCCGAG GCGGAGGACG AGGTGAGCCG CGAGCAGCTG 
GCGGAGGGCG AGGAGATGGC GCAGGAGATG GAGGCGCGGT TCGCCGCCCT GCCGCGCGGC 
CACGCCAAGC TGGACGTCTT CCAGCCCTTC CTCAAGGACG CGCTGGACAA GAAGAACGTG 
GTGGAGGCGG CGCACATGTA CGACAACGCC GCCGAGGCCT GCGGCGCCGC CGAGGACGTC 
TTCAACTCGC CGCGCGCCGG ATCGCCGCTC TGCAACTCCC ACGCTGCCGA CTCCGAGGAG 
GACGCCGAGG CGCCGCCGGG CTCCAGCCCC TTCCGCGAGG AGATCGCCAA ACTCTGCGCC 
GAGCCGGACG GCGGTGACGC CGCCGGGTTC GTCGCGGCGT CCTCCAAGAT GCCGCCCAAA 
CCCAAAGCGC CGTCGCATTT CGAGGCGGCC GATGGCCACC GCGACATCCG GCGGCGCTCG 
GCGTCGTCGT CGGCGTGGCT GGCGGCGGAT TGCTTCGACC CTTCGGACTA CGCCGAGCCC 
ATGGACGCGG TGGCCAAGCC GCGCAGCGAG GAGGAGAACA TCTACTCAGT TCCTCAGGAC 
AGCACCCAAG GCAAGATCAT CACCGTGCGC AACATCAACA AGGCGCCGTC CAACGGCGGC 
AGCGGCAACG GCTCCGACAG CGAGATGGAC AGCGGCTCCC TGGAGCGCCG CGGCCGCCAC 
GGCGTCACCG TCACCGCCAA ACCGCGGCTC TACCGCGCCC GCTGCGCGCG GCTCGGCCGC 
TTCGCCGGCT ACCGGCCCGG CCTCGGCGTC GGCAGCGACG ATGAGTTGGG CTCGGGCAGG 
AAGAAGGACG AAGAACCCGG CGGCCATGGC GGGTACAAGG GGGACAGCGC CGGAATGGCC 
TTCGAGGCGG CCGACGGGGA GGATCCGCGC CGCAGGAACA TCCTCAGGAG CCTCAGGAGG 
ACCACCAAGA AGCCGAAGGC GAAGGCGCGT CCGTCGCTGT CCAAGGCGCC GTGGGAGAGC 
AGCTACTTCG GGGTGCCCCT GGCCAGCGTG GTCAGCCCCG AGCGGCCCAT CCCCGTCTTC 
ATCGAGCGCT GCATCCAGTA CATCGAGGCC ACCGGGCTGA GCACGGAGGG GATTTATCGC 
GTCAGCGGCA ACAAGTCGGA GATGGAGAGT CTGCAGCGCC AGTTCGACCA GGACCACGGC 
CTGGACCTGG CTGAGAAGGA TTTCACCGTC AACGCCGTGG CCGGAGCCAT GAAAAGTTTC 
TTCTCGGAGC TGCCGGAGCC GCTGGTGCCC TACGCCATGC AGCTGGAGCT GGTGGAGGCC 
CACAAAATCG GGGACCGGGA GCAGAAGCTG CTGGCGCTGC GGGACGTCCT GCGGCGCTTC 
CCCCGCGAGA ACTACGAGGT CTTCAAATAC GTCATCGCCC ACCTCAACAG GGTCAGCCAA 
CAGCACCGCG TCAACCTGAT GACCAGCGAG AACCTGTCCA TCTGCTTCTG GCCGACGCTG 
ATGCGGCCGG ACTTCAGCAC CATGGACGCG CTGACCGCCA CCAGGACCTA CCAGACAATC 
ATCGAACTCT TCATCCACCA GTGCCCCTTC TTCTTCTCGC TCCGGCCGCC TCCGGACACG 
CCCGGCTCGC CCGGCCCGGC TCCGGCCACC GCGCCGTCCC CGCCGTCCCC TGCTCGGACG 
CCGTCGCCGC CGCCGGAGAC GCTCGAGCCG TGA

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

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LOC100225382 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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