DENND3 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	DENND3
Entrez Gene ID	100226533
Full Name	DENN domain containing 3
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012572128.1	XP_012427582.1	DENN domain-containing protein 3
XM_012572128.2	XP_012427582.2	DENN domain-containing protein 3

Pathways from BioSystems
Gene Ontology

The following DENND3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DENND3 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
OTd17920	XM_012572128.1 Latest version!	Taeniopygia guttata DENN/MADD domain containing 3 (DENND3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd36390	XM_012572128.2 Latest version!	Taeniopygia guttata DENN domain containing 3 (DENND3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

DENND3 ( XM_012572128.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012427582.1 Taeniopygia guttata DENN/MADD domain containing 3 (DENND3), mRNA.

Price & Availability↑

CloneID	OTd17920
Clone ID Related Accession (Same CDS sequence)	XM_012572128.1
Accession Version	XM_012572128.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3633bp) 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	DENN domain-containing protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198283.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATTAATG CTGGTAATAA CTTGAATAAA AGCAAACGCC GATCCTTCCG AAAGAAAAAG 
GAGAGACCCA AGGTTGAAAA TGTCAAGAGC CTCAATGGGG AGCAGAAAGC ACCTGACACA 
GAAGATGTGA CAGTTCCAAA GGACGTTGAC CTTATTGCTT TGCCACAGCT CTGCTTCCCA 
GGAGGACTTT ATGTAACTTC TGAATCAAAA GAGGACTACA TCCATTTCCT GGTCTTCACT 
GACGTCTGTG GTAACAGAAC ATATGGTGTT GTTGCACAGT ACTACCAGTC TATGCAAGAT 
GGCTCCACCT CCTCGAATGG GCAGGGCCAT TGGGAATCTG CGCAGACTGG GAAGGTGCCT 
CTCTGTTTTG TACCCTGTGC TGTTTGTGTT ATATCCAGAT ACCCATATTT TAGTGCCCTC 
AAGGATTGTC TCTCTTGCTT ACTAGAGCAG ATACGACCTT TGAGGGATTT AGATGTCGAG 
GAGTACATAA AAGAATTTGC AGCAAAGCTG TTTTTAATCC CCAGCCCGCC ACCAGGATCA 
CTTCACTTGG TATTTCATAT GAAACCACTT CAAATAATAA TTCCTTCACG AGAGGATCCG 
GATAGTCCAA TTATTGACTT GGATCTCCAT CTTCCATTGC TGTGTTTTAA GCCAGAGCAG 
GTGCTGCAGA TTATGACCTG TATTTTGACT GAGCAAAGAA TCGTTTTCTT CTCTTCTGAC 
TGGGCTCTGC TGACACTCAT TGCTGAATGC TTTATGTTGT ACCTTCATCC CCTTCAGTGG 
CAGCACACTT TTGTGCCCAT TCTGTCCCGG CAAATGCTGG ATTTTGTGAT GGCTCCAACA 
TCTTTCCTCA TGGGATGCCA TACTGATCAT TTTGATGAAG TGAGCATGGA AGGTGAAGAT 
TTAATTCTAA TTAATATAGA TAATGGAGAT ATTTCATATT CAAAAATAGT TGAAGAGGAA 
CTTGAGATTC CAGATGTTCC AGCACAAGCA GCAGAAACTT TCATAAAAAG AGTGGAGGGT 
CTGCAGCTGC ACTTTGATCT GGAGCTCTGC CATCTCCGAG CCAGCACAGA CCTTGGTGAG 
CTCCAAACCC GCAGGAGGGC TTGGCAGCAG AAACTGAACA TGGAGGTGCA GCAAACCATG 
TTGCAGTTAA TTGTAAATAT CTTCAGGGAG GTAAAAGACC ATCTAAATTA TGAACACAGA 
GTGTTTAACA GTGAAGAATT TCTGAAAACA AGGGCAATCG GAGACCAGCC ATTCTACAAA 
AAGGTTTTAG AGACCTACAT GTTTAACTCT TTCCTTAAAG CTCGTCTGAA CAGAAAGATG 
GATGCTTTTG CTCGGCTTGA CTTGAGTACT CAGTCTGAAG AGGACAGGTT AGATTTGATG 
TTTCCCACCC CCAGAAGGCT GACAATAGAG AAAATGGCTT CCAAGCGAAT GAGCGCCGCG 
CGCAAGGCCA GCCGGCGCAT GGTGATCAGC ATGCCCAACC TGCAGGACAT CCAACTGCCC 
CAGGGCCCCA CCAGGAACTC CTCACTTCGG AAAGTGGAAA GAGGTGTTGC TATAAGAACA 
CCCTCCAAAT CCATCACCAC GTTCAAAATC CCTGAAATTC ACTTTCCTCT GATGTTCCAG 
TGTGTTCACT CCTACTACAC AGACTTCTTC AACCACCTCA GCAAAGCTAT CAGTACCTTA 
CCCCCTGAGA ACTCCGTGTT GCTGGCAAGG TACTTCTACC TCCGGGGCCT TGTTAGCTTG 
ATGCAAGGGA AACTACTAAA TGCACTTTCT GACTTTCAGA ACCTAGAAAA AACAGACTTA 
AGAATTTTCC CTACTGATCT TGTAAGAAAA ATAGTGGAGA CCCTGCCTCG CTCGGAGCGC 
TTGCAGGCAG ACCGCAAACC TGAGCTGAAG AGGCTGATAA GTCGAGTGAT GGAAAAACAA 
AGGGAAGTTC TGAAAATCGA TGACCACGTA AAAAATTTTG AATTGCCAAA AACACACATG 
CAGCTGGATG ATTTTGTAAA GAGAATTCAG GAGTCTGGGA TTGTCAGAGA TATAGGCACC 
ATCCACCGGT TATTTGATGC TCTGACAGTA GGACAGCAGA AACAAATTGA TCCTGAAACA 
TTCAGAGATT TCTACAACTA CTGGAAAGAA ACTGAAGCAG AAGCTCAAGA GGTGAATCTG 
CCACCAGCAG TAATTGAGCA TCTAGATAAA AATGAATGTG TCTACAAGTT ATCCTGCTCA 
GTGAAAACCA ACTATGGTGT AGGGAAAATA GCTCTGACCC AGAAGCGCTT GTTCCTGCTG 
ACTGAAGGAG GCCGTCCTGG CTATGTCCCA ATTGCTGCTT TCAGGGATAT AGAGGATGTT 
AAGAGCACAA CTGTAGCTTT TCTTCTTTTG AGAATACCTA CTCTGAGGAT TAAAACATTA 
TCTAAAAAAG AAGTATTTGA AGCCAACCTT AAAACTGAGT GTGATCTCTG GTACCTGATA 
GTGAAAGAAA TGTGGGCTGG AAAGAAAATG GCGTATGATC ACAAGGATCC TCAGTATATC 
CAGCAAGCAC TGACAAATGT TCTCCTGATG GATGCTGTGG TTGGTGCCCT GCAGTCCTCC 
AAAAGCATCT ATGCAGCCTC CAAACTGTCT TACTTTGACA GGATGAAAAA TGAAGTGCCT 
ATGATGGTCC CCAAAACAAC TTCAGAGACA CTAAAGCACA AGATCAATCC CTCAGCTGGT 
GAGACATTTC CACAGGCAAT AGATGTCTTG CTTTATACTC CAGGGCATCT TGACCCTTCA 
GAAAGACTGG ACAATGCTCA TCCAAAACTC TGGTGTGCTT TAAATGAGGG GAAGGTTGTG 
GTCTTTGATG CCTCTACCTG GTCTATCCAG CAACACTGCT TCAAAATGGG TCGCTCTAAA 
CTGACTTGCA TGGTCATGGT GGAACAGAGT CAAGTGTGGA TTGGTTCTCA GGACTCCATT 
ATTTATATCA TCAACACCCA CAGTATGTCT TGTAATAAGC AACTGAATGA TCATCGCTCT 
GATGTTACAG ACATCATTGT GGAGAAAAGG AATGGAACAC CCAGTGAAGC GTATTCCAGC 
AGTTTAGATG GAATGGTGAT TGCTTGGAAC ATCAGCACTC TGAAAGTGAA CCGTGTCTGT 
CAGCTGCCCT GCCAAAATCT CACCTCTATG AAGCTTCATA ATGACCAACT GTGGTGCTGT 
ACCAGAAGTT GCATTCTTGT GGTGTCAACC CACGAGTTTC AACTGCAGAT GAAAATCGAG 
CACCACCTGA AGGATGTGTG TTCCTCTTTT CTTGGCTTCC AGCTCTTTCC AGAGAGAGAT 
GAAGTGTGGG CCTCTTACTC GGGGAGTAGT GACCTGTACA TTTGGAATAC CAAAGACCTT 
TCAAGTACAC CTCAAAAGAT TCATCTTCAG GATTGCTCTG AGATTACTTG TATGATAAGA 
GTTAAAAATC AGCTGTGGGT TGGTAGCAGT GGGAAGCTGC AGGGCAAGAG CAAAGGGAAG 
ATCTACGTGG TCAGTGCTGA GAGGAAGAGT GTGGAGAAGG AGCTGGTCGG CCACGCCGAT 
GCAGTGAAGG CGCTGTGCTC GGCAGAGGAC AGGTACGTCC TCAGCGGCTC TGGGAAGGAA 
GAAGGGAAGA TTGCCATTTG GAAGGCTGGA TAA

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

RefSeq	XP_012427582.1
CDS	27..3659
Translation	MINAGNNLNKSKRRSFRKKKERPKVENVKSLNGEQKAPDTEDVTVPKDVDLIALPQLCFPGGLYVTSESKEDYIHFLVFTDVCGNRTYGVVAQYYQSMQDGSTSSNGQGHWESAQTGKVPLCFVPCAVCVISRYPYFSALKDCLSCLLEQIRPLRDLDVEEYIKEFAAKLFLIPSPPPGSLHLVFHMKPLQIIIPSREDPDSPIIDLDLHLPLLCFKPEQVLQIMTCILTEQRIVFFSSDWALLTLIAECFMLYLHPLQWQHTFVPILSRQMLDFVMAPTSFLMGCHTDHFDEVSMEGEDLILINIDNGDISYSKIVEEELEIPDVPAQAAETFIKRVEGLQLHFDLELCHLRASTDLGELQTRRRAWQQKLNMEVQQTMLQLIVNIFREVKDHLNYEHRVFNSEEFLKTRAIGDQPFYKKVLETYMFNSFLKARLNRKMDAFARLDLSTQSEEDRLDLMFPTPRRLTIEKMASKRMSAARKASRRMVISMPNLQDIQLPQGPTRNSSLRKVERGVAIRTPSKSITTFKIPEIHFPLMFQCVHSYYTDFFNHLSKAISTLPPENSVLLARYFYLRGLVSLMQGKLLNALSDFQNLEKTDLRIFPTDLVRKIVETLPRSERLQADRKPELKRLISRVMEKQREVLKIDDHVKNFELPKTHMQLDDFVKRIQESGIVRDIGTIHRLFDALTVGQQKQIDPETFRDFYNYWKETEAEAQEVNLPPAVIEHLDKNECVYKLSCSVKTNYGVGKIALTQKRLFLLTEGGRPGYVPIAAFRDIEDVKSTTVAFLLLRIPTLRIKTLSKKEVFEANLKTECDLWYLIVKEMWAGKKMAYDHKDPQYIQQALTNVLLMDAVVGALQSSKSIYAASKLSYFDRMKNEVPMMVPKTTSETLKHKINPSAGETFPQAIDVLLYTPGHLDPSERLDNAHPKLWCALNEGKVVVFDASTWSIQQHCFKMGRSKLTCMVMVEQSQVWIGSQDSIIYIINTHSMSCNKQLNDHRSDVTDIIVEKRNGTPSEAYSSSLDGMVIAWNISTLKVNRVCQLPCQNLTSMKLHNDQLWCCTRSCILVVSTHEFQLQMKIEHHLKDVCSSFLGFQLFPERDEVWASYSGSSDLYIWNTKDLSSTPQKIHLQDCSEITCMIRVKNQLWVGSSGKLQGKSKGKIYVVSAERKSVEKELVGHADAVKALCSAEDRYVLSGSGKEEGKIAIWKAG

Target ORF information:

RefSeq Version	XM_012572128.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata DENN/MADD domain containing 3 (DENND3), mRNA.

Target ORF information:

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

XM_012572128.1

ORF Insert Sequence:

ATGATTAATG CTGGTAATAA CTTGAATAAA AGCAAACGCC GATCCTTCCG AAAGAAAAAG 
GAGAGACCCA AGGTTGAAAA TGTCAAGAGC CTCAATGGGG AGCAGAAAGC ACCTGACACA 
GAAGATGTGA CAGTTCCAAA GGACGTTGAC CTTATTGCTT TGCCACAGCT CTGCTTCCCA 
GGAGGACTTT ATGTAACTTC TGAATCAAAA GAGGACTACA TCCATTTCCT GGTCTTCACT 
GACGTCTGTG GTAACAGAAC ATATGGTGTT GTTGCACAGT ACTACCAGTC TATGCAAGAT 
GGCTCCACCT CCTCGAATGG GCAGGGCCAT TGGGAATCTG CGCAGACTGG GAAGGTGCCT 
CTCTGTTTTG TACCCTGTGC TGTTTGTGTT ATATCCAGAT ACCCATATTT TAGTGCCCTC 
AAGGATTGTC TCTCTTGCTT ACTAGAGCAG ATACGACCTT TGAGGGATTT AGATGTCGAG 
GAGTACATAA AAGAATTTGC AGCAAAGCTG TTTTTAATCC CCAGCCCGCC ACCAGGATCA 
CTTCACTTGG TATTTCATAT GAAACCACTT CAAATAATAA TTCCTTCACG AGAGGATCCG 
GATAGTCCAA TTATTGACTT GGATCTCCAT CTTCCATTGC TGTGTTTTAA GCCAGAGCAG 
GTGCTGCAGA TTATGACCTG TATTTTGACT GAGCAAAGAA TCGTTTTCTT CTCTTCTGAC 
TGGGCTCTGC TGACACTCAT TGCTGAATGC TTTATGTTGT ACCTTCATCC CCTTCAGTGG 
CAGCACACTT TTGTGCCCAT TCTGTCCCGG CAAATGCTGG ATTTTGTGAT GGCTCCAACA 
TCTTTCCTCA TGGGATGCCA TACTGATCAT TTTGATGAAG TGAGCATGGA AGGTGAAGAT 
TTAATTCTAA TTAATATAGA TAATGGAGAT ATTTCATATT CAAAAATAGT TGAAGAGGAA 
CTTGAGATTC CAGATGTTCC AGCACAAGCA GCAGAAACTT TCATAAAAAG AGTGGAGGGT 
CTGCAGCTGC ACTTTGATCT GGAGCTCTGC CATCTCCGAG CCAGCACAGA CCTTGGTGAG 
CTCCAAACCC GCAGGAGGGC TTGGCAGCAG AAACTGAACA TGGAGGTGCA GCAAACCATG 
TTGCAGTTAA TTGTAAATAT CTTCAGGGAG GTAAAAGACC ATCTAAATTA TGAACACAGA 
GTGTTTAACA GTGAAGAATT TCTGAAAACA AGGGCAATCG GAGACCAGCC ATTCTACAAA 
AAGGTTTTAG AGACCTACAT GTTTAACTCT TTCCTTAAAG CTCGTCTGAA CAGAAAGATG 
GATGCTTTTG CTCGGCTTGA CTTGAGTACT CAGTCTGAAG AGGACAGGTT AGATTTGATG 
TTTCCCACCC CCAGAAGGCT GACAATAGAG AAAATGGCTT CCAAGCGAAT GAGCGCCGCG 
CGCAAGGCCA GCCGGCGCAT GGTGATCAGC ATGCCCAACC TGCAGGACAT CCAACTGCCC 
CAGGGCCCCA CCAGGAACTC CTCACTTCGG AAAGTGGAAA GAGGTGTTGC TATAAGAACA 
CCCTCCAAAT CCATCACCAC GTTCAAAATC CCTGAAATTC ACTTTCCTCT GATGTTCCAG 
TGTGTTCACT CCTACTACAC AGACTTCTTC AACCACCTCA GCAAAGCTAT CAGTACCTTA 
CCCCCTGAGA ACTCCGTGTT GCTGGCAAGG TACTTCTACC TCCGGGGCCT TGTTAGCTTG 
ATGCAAGGGA AACTACTAAA TGCACTTTCT GACTTTCAGA ACCTAGAAAA AACAGACTTA 
AGAATTTTCC CTACTGATCT TGTAAGAAAA ATAGTGGAGA CCCTGCCTCG CTCGGAGCGC 
TTGCAGGCAG ACCGCAAACC TGAGCTGAAG AGGCTGATAA GTCGAGTGAT GGAAAAACAA 
AGGGAAGTTC TGAAAATCGA TGACCACGTA AAAAATTTTG AATTGCCAAA AACACACATG 
CAGCTGGATG ATTTTGTAAA GAGAATTCAG GAGTCTGGGA TTGTCAGAGA TATAGGCACC 
ATCCACCGGT TATTTGATGC TCTGACAGTA GGACAGCAGA AACAAATTGA TCCTGAAACA 
TTCAGAGATT TCTACAACTA CTGGAAAGAA ACTGAAGCAG AAGCTCAAGA GGTGAATCTG 
CCACCAGCAG TAATTGAGCA TCTAGATAAA AATGAATGTG TCTACAAGTT ATCCTGCTCA 
GTGAAAACCA ACTATGGTGT AGGGAAAATA GCTCTGACCC AGAAGCGCTT GTTCCTGCTG 
ACTGAAGGAG GCCGTCCTGG CTATGTCCCA ATTGCTGCTT TCAGGGATAT AGAGGATGTT 
AAGAGCACAA CTGTAGCTTT TCTTCTTTTG AGAATACCTA CTCTGAGGAT TAAAACATTA 
TCTAAAAAAG AAGTATTTGA AGCCAACCTT AAAACTGAGT GTGATCTCTG GTACCTGATA 
GTGAAAGAAA TGTGGGCTGG AAAGAAAATG GCGTATGATC ACAAGGATCC TCAGTATATC 
CAGCAAGCAC TGACAAATGT TCTCCTGATG GATGCTGTGG TTGGTGCCCT GCAGTCCTCC 
AAAAGCATCT ATGCAGCCTC CAAACTGTCT TACTTTGACA GGATGAAAAA TGAAGTGCCT 
ATGATGGTCC CCAAAACAAC TTCAGAGACA CTAAAGCACA AGATCAATCC CTCAGCTGGT 
GAGACATTTC CACAGGCAAT AGATGTCTTG CTTTATACTC CAGGGCATCT TGACCCTTCA 
GAAAGACTGG ACAATGCTCA TCCAAAACTC TGGTGTGCTT TAAATGAGGG GAAGGTTGTG 
GTCTTTGATG CCTCTACCTG GTCTATCCAG CAACACTGCT TCAAAATGGG TCGCTCTAAA 
CTGACTTGCA TGGTCATGGT GGAACAGAGT CAAGTGTGGA TTGGTTCTCA GGACTCCATT 
ATTTATATCA TCAACACCCA CAGTATGTCT TGTAATAAGC AACTGAATGA TCATCGCTCT 
GATGTTACAG ACATCATTGT GGAGAAAAGG AATGGAACAC CCAGTGAAGC GTATTCCAGC 
AGTTTAGATG GAATGGTGAT TGCTTGGAAC ATCAGCACTC TGAAAGTGAA CCGTGTCTGT 
CAGCTGCCCT GCCAAAATCT CACCTCTATG AAGCTTCATA ATGACCAACT GTGGTGCTGT 
ACCAGAAGTT GCATTCTTGT GGTGTCAACC CACGAGTTTC AACTGCAGAT GAAAATCGAG 
CACCACCTGA AGGATGTGTG TTCCTCTTTT CTTGGCTTCC AGCTCTTTCC AGAGAGAGAT 
GAAGTGTGGG CCTCTTACTC GGGGAGTAGT GACCTGTACA TTTGGAATAC CAAAGACCTT 
TCAAGTACAC CTCAAAAGAT TCATCTTCAG GATTGCTCTG AGATTACTTG TATGATAAGA 
GTTAAAAATC AGCTGTGGGT TGGTAGCAGT GGGAAGCTGC AGGGCAAGAG CAAAGGGAAG 
ATCTACGTGG TCAGTGCTGA GAGGAAGAGT GTGGAGAAGG AGCTGGTCGG CCACGCCGAT 
GCAGTGAAGG CGCTGTGCTC GGCAGAGGAC AGGTACGTCC TCAGCGGCTC TGGGAAGGAA 
GAAGGGAAGA TTGCCATTTG GAAGGCTGGA TAA

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

DENND3 ( XM_012572128.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012427582.2 Taeniopygia guttata DENN domain containing 3 (DENND3), mRNA.

Price & Availability↑

CloneID	OTd36390
Clone ID Related Accession (Same CDS sequence)	XM_012572128.2
Accession Version	XM_012572128.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3810bp) 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	DENN domain-containing protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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_012572128.1. ##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##

ATGGAGGACG TGCTGCCCTC GGGCCTGCTG GAGATCTGTC TGCTGGTCGG TGCGTCCACA 
GAGCGGGTGC GGGCGCTGCT CCAGGGCACT CAAAGAAAAC TCAAAAATCT TCCTCCCCTT 
GATCCAGAAG TTCTTTCTGT ATTTGTGCCT CCGTTTATCG GCAGAGATGA TGTTCAGATG 
ATTAATGCTG GTAATAACTT GAATAAAAGC AAACGCCGAT CCTTCCGAAA GAAAAAGGAG 
AGACCCAAGG TTGAAAATGT CAAGAGCCTC AATGGGGAGC AGAAAGCACC TGACACAGAA 
GATGTGACAG TTCCAAAGGA CGTTGACCTT ATTGCTTTGC CACAGCTCTG CTTCCCAGGA 
GGACTTTATG TAACTTCTGA ATCAAAAGAG GACTACATCC ATTTCCTGGT CTTCACTGAC 
GTCTGTGGTA ACAGAACATA TGGTGTTGTT GCACAGTACT ACCAGTCTAT GCAAGATGGC 
TCCACCTCCT CGAATGGGCA GGGCCATTGG GAATCTGCAC AGACTGGGAA GGTGCCTCTC 
TGTTTTGTAC CCTGTGCTGT TTGTGTTATA TCCAGATACC CATATTTTAG TGCCCTCAAG 
GATTGTCTCT CTTGCTTACT AGAGCAGATA CGACCTTTGA GGGATTTAGA TGTCGAGGAG 
TACATAAAAG AATTTGCAGC AAAGCTGTTT TTAATCCCCA GCCCGCCACC AGGATCACTT 
CACTTGGTAT TTCATATGAA ACCACTTCAA ATAGTAATTC CTTCACGAGA GGATCCGGAT 
AGTCCAATTA TTGACTTGGA TCTCCATCTT CCATTGCTGT GTTTTAAGCC AGAGCAGGTG 
CTGCAGATTA TGACCTGTAT TTTGACTGAG CAAAGAATCG TTTTCTTCTC TTCTGACTGG 
GCTCTGCTGA CACTCATTGC TGAATGCTTT ATGTTGTACC TTCATCCCCT TCAGTGGCAG 
CACACTTTTG TGCCCATTCT GTCCCGGCAA ATGCTGGATT TTGTGATGGC TCCAACATCT 
TTCCTCATGG GATGCCATAC TGATCATTTT GATGAAGTGA GCATGGAAGG TGAACATTTA 
ATTCTAATTA ATATAGATAA TGGAGATATT TCATATTCAA AAATAGTTGA AGAGGAACTT 
GAGATTCCAG ATGTTCCAGC ACAAGCAGCA GAAACTTTCA TAAAAAGAGT GGAGGGTCTG 
CAGCTGCACT TTGATCTGGA GCTCTGCCAT CTCCGAGCCA GCACAGACCT TGGTGAGCTC 
CAAACCCGCA GGAGGGCTTG GCAGCAGAAA CTGAACATGG AGGTGCAGCA AACCATGTTG 
CAGTTAATTG TAAATATCTT CAGGGAGGTA AAAGACCATC TAAATTATGA ACACAGAGTG 
TTTAACAGTG AAGAATTTCT GAAAACAAGG GCAATCGGAG ACCAGCCATT CTACAAAAAG 
GTTTTAGAGA CCTACATGTT TAACTCTTTC CTTAAAGCTC GTCTGAACAG AAAGATGGAT 
GCTTTTGCTC GGCTTGACTT GAGTACTCAG TCTGAAGAGG ACAGGTTAGA TTTGATGTTT 
CCCACCCCCA GAAGGCTGAC AATAGAGAAA ATGGCTTCCA AGCGAATGAG CGCCGCGCGC 
AAGGCCAGCC GGCGCATGGT GATCAGCATG CCCAACCTGC AGGACATCCA ACTGCCCCAG 
GGCCCCACCA GGAACTCCTC ACTTCGGAAA GTGGAAAGAG GTGTTGCTAT AAGAACACCC 
TCCAAATCCA TCACCACGTT CAAAATCCCT GAAATTCACT TTCCTCTGAT GTTCCAGTGT 
GTTCACTCCT ACTACACAGA CTTCTTCAAC CACCTCAGCA AAGCTATCAG TACCTTACCC 
CCTGAGAACT CCGTGTTGCT GGCAAGGTAC TTCTACCTCC GGGGCCTTGT TAGCTTGATG 
CAAGGGAAAC TACTAAATGC ACTTTCTGAC TTTCAGAACC TAGAAAAAAC AGACTTAAGA 
ATTTTCCCTA CTGATCTTGT AAGAAAAATA GTGGAGACCC TGCCTCGCTC GGAGCGCTTG 
CAGGCAGACC GCAAACCTGA GCTGAAGAGG CTGATAAGTC GAGTGATGGA AAAACAAAGG 
GAAGTTCTGA AAATCGATGA CCACGTAAAA AATTTTGAAT TGCCAAAAAC ACACATGCAG 
CTGGATGATT TTGTAAAGAG AATTCAGGAG TCTGGGATTG TCAGAGATAT AGGCACCATC 
CACCGGTTAT TTGATGCTCT GACAGTAGGA CAGCAGAAAC AAATTGATCC TGAAACATTC 
AGAGATTTCT ACAACTACTG GAAAGAAACT GAAGCAGAAG CTCAAGAGGT GAATCTGCCA 
CCAGCAGTAA TTGAGCATCT AGATAAAAAT GAATGTGTCT ACAAGTTATC CTGCTCAGTG 
AAAACCAACT ATGGTGTAGG GAAAATAGCT CTGACCCAGA AGCGCTTGTT CCTGCTGACT 
GAAGGAGGCC GTCCTGGCTA TGTCCCAATT GCTGCTTTCA GGGATATAGA GGATGTTAAG 
AGCACAACTG TAGCTTTTCT TCTTTTGAGA ATACCTACTC TGAGGATTAA AACATTATCT 
AAAAAAGAAG TATTTGAAGC CAACCTTAAA ACTGAGTGTG ATCTCTGGTA CCTGATAGTG 
AAAGAAATGT GGGCTGGAAA GAAAATGGCG TATGATCACA AGGATCCTCA GTATATCCAG 
CAAGCACTGA CAAATGTTCT CCTGATGGAT GCTGTGGTTG GTGCCCTGCA GTCCTCCAAA 
AGCATCTATG CAGCCTCTAA ACTGTCTTAC TTTGACAGGA TGAAAAATGA AGTGCCTATG 
ATGGTCCCCA AAACAACTTC AGAGACACTA AAGCACAAGA TCAATCCCTC AGCTGGTGAG 
ACATTTCCAC AGGCAATAGA TGTCTTGCTT TATACTCCAG GGCATCTTGA CCCTTCAGAA 
AGACTGGACA ACGCTCATCC AAAACTCTGG TGTGCTTTAA ATGAGGGGAA GGTTGTGGTC 
TTTGATGCCT CTACCTGGTC TATCCAGCAA CACTGCTTCA AAATGGGTCG CTCTAAACTG 
ACTTGCATGG TCATGGTGGA ACAGAGTCAA GTGTGGATTG GTTCTCAGGA CTCCATTATT 
TATATCATCA ACACCCACAG TATGTCTTGT AATAAGCAAC TGAATGATCA TCGCTCTGAT 
GTTACAGACA TCATTGTGGA GAAAAGGAAT GGAACACCCA GCGAAGCGTA TTCCAGCAGT 
TTAGATGGAA TGGTGATTGC TTGGAACATC AGCACTCTGA AAGTGAACCG TGTCTGTCAG 
CTGCCCTGCC AAAATCTCAC CTCTATGAAG CTTCATAATG ACCAACTGTG GTGCTGTACC 
AGAAGTTGCA TTCTTGTGGT GTCAACCCAC GAGTTTCAAC TGCAGATGAA AATCGAGCAC 
CACCTGAAGG ATGTGTGTTC CTCTTTTCTT GGCTTCCAGC TCTTTCCAGA GAGAGATGAA 
GTGTGGGCCT CTTACTCGGG GAGTAGTGAC CTGTACATTT GGAATACCAA AGACCTTTCA 
AGTACACCTC AAAAGATTCA TCTTCAGGAT TGCTCTGAGA TTACTTGTAT GATAAGAGTT 
AAAAATCAGC TGTGGGTTGG TAGCAGTGGG AAGCTGCAGG GCAAGAGCAA AGGGAAGATC 
TACGTGGTCA GTGCTGAGAG GAAGAGTGTG GAGAAGGAGC TGGTCGGCCA CGCCGATGCA 
GTGAAGGCGC TGTGCTCGGC AGAGGACAGG TACGTCCTCA GCGGCTCTGG GAAGGAAGAA 
GGGAAGATTG CCATTTGGAA GGCCGGATAA

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

RefSeq	XP_012427582.2
CDS	92..3901
Translation	MEDVLPSGLLEICLLVGASTERVRALLQGTQRKLKNLPPLDPEVLSVFVPPFIGRDDVQMINAGNNLNKSKRRSFRKKKERPKVENVKSLNGEQKAPDTEDVTVPKDVDLIALPQLCFPGGLYVTSESKEDYIHFLVFTDVCGNRTYGVVAQYYQSMQDGSTSSNGQGHWESAQTGKVPLCFVPCAVCVISRYPYFSALKDCLSCLLEQIRPLRDLDVEEYIKEFAAKLFLIPSPPPGSLHLVFHMKPLQIVIPSREDPDSPIIDLDLHLPLLCFKPEQVLQIMTCILTEQRIVFFSSDWALLTLIAECFMLYLHPLQWQHTFVPILSRQMLDFVMAPTSFLMGCHTDHFDEVSMEGEHLILINIDNGDISYSKIVEEELEIPDVPAQAAETFIKRVEGLQLHFDLELCHLRASTDLGELQTRRRAWQQKLNMEVQQTMLQLIVNIFREVKDHLNYEHRVFNSEEFLKTRAIGDQPFYKKVLETYMFNSFLKARLNRKMDAFARLDLSTQSEEDRLDLMFPTPRRLTIEKMASKRMSAARKASRRMVISMPNLQDIQLPQGPTRNSSLRKVERGVAIRTPSKSITTFKIPEIHFPLMFQCVHSYYTDFFNHLSKAISTLPPENSVLLARYFYLRGLVSLMQGKLLNALSDFQNLEKTDLRIFPTDLVRKIVETLPRSERLQADRKPELKRLISRVMEKQREVLKIDDHVKNFELPKTHMQLDDFVKRIQESGIVRDIGTIHRLFDALTVGQQKQIDPETFRDFYNYWKETEAEAQEVNLPPAVIEHLDKNECVYKLSCSVKTNYGVGKIALTQKRLFLLTEGGRPGYVPIAAFRDIEDVKSTTVAFLLLRIPTLRIKTLSKKEVFEANLKTECDLWYLIVKEMWAGKKMAYDHKDPQYIQQALTNVLLMDAVVGALQSSKSIYAASKLSYFDRMKNEVPMMVPKTTSETLKHKINPSAGETFPQAIDVLLYTPGHLDPSERLDNAHPKLWCALNEGKVVVFDASTWSIQQHCFKMGRSKLTCMVMVEQSQVWIGSQDSIIYIINTHSMSCNKQLNDHRSDVTDIIVEKRNGTPSEAYSSSLDGMVIAWNISTLKVNRVCQLPCQNLTSMKLHNDQLWCCTRSCILVVSTHEFQLQMKIEHHLKDVCSSFLGFQLFPERDEVWASYSGSSDLYIWNTKDLSSTPQKIHLQDCSEITCMIRVKNQLWVGSSGKLQGKSKGKIYVVSAERKSVEKELVGHADAVKALCSAEDRYVLSGSGKEEGKIAIWKAG

Target ORF information:

RefSeq Version	XM_012572128.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata DENN domain containing 3 (DENND3), mRNA.

Target ORF information:

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

XM_012572128.2

ORF Insert Sequence:

ATGGAGGACG TGCTGCCCTC GGGCCTGCTG GAGATCTGTC TGCTGGTCGG TGCGTCCACA 
GAGCGGGTGC GGGCGCTGCT CCAGGGCACT CAAAGAAAAC TCAAAAATCT TCCTCCCCTT 
GATCCAGAAG TTCTTTCTGT ATTTGTGCCT CCGTTTATCG GCAGAGATGA TGTTCAGATG 
ATTAATGCTG GTAATAACTT GAATAAAAGC AAACGCCGAT CCTTCCGAAA GAAAAAGGAG 
AGACCCAAGG TTGAAAATGT CAAGAGCCTC AATGGGGAGC AGAAAGCACC TGACACAGAA 
GATGTGACAG TTCCAAAGGA CGTTGACCTT ATTGCTTTGC CACAGCTCTG CTTCCCAGGA 
GGACTTTATG TAACTTCTGA ATCAAAAGAG GACTACATCC ATTTCCTGGT CTTCACTGAC 
GTCTGTGGTA ACAGAACATA TGGTGTTGTT GCACAGTACT ACCAGTCTAT GCAAGATGGC 
TCCACCTCCT CGAATGGGCA GGGCCATTGG GAATCTGCAC AGACTGGGAA GGTGCCTCTC 
TGTTTTGTAC CCTGTGCTGT TTGTGTTATA TCCAGATACC CATATTTTAG TGCCCTCAAG 
GATTGTCTCT CTTGCTTACT AGAGCAGATA CGACCTTTGA GGGATTTAGA TGTCGAGGAG 
TACATAAAAG AATTTGCAGC AAAGCTGTTT TTAATCCCCA GCCCGCCACC AGGATCACTT 
CACTTGGTAT TTCATATGAA ACCACTTCAA ATAGTAATTC CTTCACGAGA GGATCCGGAT 
AGTCCAATTA TTGACTTGGA TCTCCATCTT CCATTGCTGT GTTTTAAGCC AGAGCAGGTG 
CTGCAGATTA TGACCTGTAT TTTGACTGAG CAAAGAATCG TTTTCTTCTC TTCTGACTGG 
GCTCTGCTGA CACTCATTGC TGAATGCTTT ATGTTGTACC TTCATCCCCT TCAGTGGCAG 
CACACTTTTG TGCCCATTCT GTCCCGGCAA ATGCTGGATT TTGTGATGGC TCCAACATCT 
TTCCTCATGG GATGCCATAC TGATCATTTT GATGAAGTGA GCATGGAAGG TGAACATTTA 
ATTCTAATTA ATATAGATAA TGGAGATATT TCATATTCAA AAATAGTTGA AGAGGAACTT 
GAGATTCCAG ATGTTCCAGC ACAAGCAGCA GAAACTTTCA TAAAAAGAGT GGAGGGTCTG 
CAGCTGCACT TTGATCTGGA GCTCTGCCAT CTCCGAGCCA GCACAGACCT TGGTGAGCTC 
CAAACCCGCA GGAGGGCTTG GCAGCAGAAA CTGAACATGG AGGTGCAGCA AACCATGTTG 
CAGTTAATTG TAAATATCTT CAGGGAGGTA AAAGACCATC TAAATTATGA ACACAGAGTG 
TTTAACAGTG AAGAATTTCT GAAAACAAGG GCAATCGGAG ACCAGCCATT CTACAAAAAG 
GTTTTAGAGA CCTACATGTT TAACTCTTTC CTTAAAGCTC GTCTGAACAG AAAGATGGAT 
GCTTTTGCTC GGCTTGACTT GAGTACTCAG TCTGAAGAGG ACAGGTTAGA TTTGATGTTT 
CCCACCCCCA GAAGGCTGAC AATAGAGAAA ATGGCTTCCA AGCGAATGAG CGCCGCGCGC 
AAGGCCAGCC GGCGCATGGT GATCAGCATG CCCAACCTGC AGGACATCCA ACTGCCCCAG 
GGCCCCACCA GGAACTCCTC ACTTCGGAAA GTGGAAAGAG GTGTTGCTAT AAGAACACCC 
TCCAAATCCA TCACCACGTT CAAAATCCCT GAAATTCACT TTCCTCTGAT GTTCCAGTGT 
GTTCACTCCT ACTACACAGA CTTCTTCAAC CACCTCAGCA AAGCTATCAG TACCTTACCC 
CCTGAGAACT CCGTGTTGCT GGCAAGGTAC TTCTACCTCC GGGGCCTTGT TAGCTTGATG 
CAAGGGAAAC TACTAAATGC ACTTTCTGAC TTTCAGAACC TAGAAAAAAC AGACTTAAGA 
ATTTTCCCTA CTGATCTTGT AAGAAAAATA GTGGAGACCC TGCCTCGCTC GGAGCGCTTG 
CAGGCAGACC GCAAACCTGA GCTGAAGAGG CTGATAAGTC GAGTGATGGA AAAACAAAGG 
GAAGTTCTGA AAATCGATGA CCACGTAAAA AATTTTGAAT TGCCAAAAAC ACACATGCAG 
CTGGATGATT TTGTAAAGAG AATTCAGGAG TCTGGGATTG TCAGAGATAT AGGCACCATC 
CACCGGTTAT TTGATGCTCT GACAGTAGGA CAGCAGAAAC AAATTGATCC TGAAACATTC 
AGAGATTTCT ACAACTACTG GAAAGAAACT GAAGCAGAAG CTCAAGAGGT GAATCTGCCA 
CCAGCAGTAA TTGAGCATCT AGATAAAAAT GAATGTGTCT ACAAGTTATC CTGCTCAGTG 
AAAACCAACT ATGGTGTAGG GAAAATAGCT CTGACCCAGA AGCGCTTGTT CCTGCTGACT 
GAAGGAGGCC GTCCTGGCTA TGTCCCAATT GCTGCTTTCA GGGATATAGA GGATGTTAAG 
AGCACAACTG TAGCTTTTCT TCTTTTGAGA ATACCTACTC TGAGGATTAA AACATTATCT 
AAAAAAGAAG TATTTGAAGC CAACCTTAAA ACTGAGTGTG ATCTCTGGTA CCTGATAGTG 
AAAGAAATGT GGGCTGGAAA GAAAATGGCG TATGATCACA AGGATCCTCA GTATATCCAG 
CAAGCACTGA CAAATGTTCT CCTGATGGAT GCTGTGGTTG GTGCCCTGCA GTCCTCCAAA 
AGCATCTATG CAGCCTCTAA ACTGTCTTAC TTTGACAGGA TGAAAAATGA AGTGCCTATG 
ATGGTCCCCA AAACAACTTC AGAGACACTA AAGCACAAGA TCAATCCCTC AGCTGGTGAG 
ACATTTCCAC AGGCAATAGA TGTCTTGCTT TATACTCCAG GGCATCTTGA CCCTTCAGAA 
AGACTGGACA ACGCTCATCC AAAACTCTGG TGTGCTTTAA ATGAGGGGAA GGTTGTGGTC 
TTTGATGCCT CTACCTGGTC TATCCAGCAA CACTGCTTCA AAATGGGTCG CTCTAAACTG 
ACTTGCATGG TCATGGTGGA ACAGAGTCAA GTGTGGATTG GTTCTCAGGA CTCCATTATT 
TATATCATCA ACACCCACAG TATGTCTTGT AATAAGCAAC TGAATGATCA TCGCTCTGAT 
GTTACAGACA TCATTGTGGA GAAAAGGAAT GGAACACCCA GCGAAGCGTA TTCCAGCAGT 
TTAGATGGAA TGGTGATTGC TTGGAACATC AGCACTCTGA AAGTGAACCG TGTCTGTCAG 
CTGCCCTGCC AAAATCTCAC CTCTATGAAG CTTCATAATG ACCAACTGTG GTGCTGTACC 
AGAAGTTGCA TTCTTGTGGT GTCAACCCAC GAGTTTCAAC TGCAGATGAA AATCGAGCAC 
CACCTGAAGG ATGTGTGTTC CTCTTTTCTT GGCTTCCAGC TCTTTCCAGA GAGAGATGAA 
GTGTGGGCCT CTTACTCGGG GAGTAGTGAC CTGTACATTT GGAATACCAA AGACCTTTCA 
AGTACACCTC AAAAGATTCA TCTTCAGGAT TGCTCTGAGA TTACTTGTAT GATAAGAGTT 
AAAAATCAGC TGTGGGTTGG TAGCAGTGGG AAGCTGCAGG GCAAGAGCAA AGGGAAGATC 
TACGTGGTCA GTGCTGAGAG GAAGAGTGTG GAGAAGGAGC TGGTCGGCCA CGCCGATGCA 
GTGAAGGCGC TGTGCTCGGC AGAGGACAGG TACGTCCTCA GCGGCTCTGG GAAGGAAGAA 
GGGAAGATTG CCATTTGGAA GGCCGGATAA

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

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DENND3 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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