DENND1B cDNA ORF clone, Manacus vitellinus(golden-collared manakin)

Gene
Clones
gRNAs

Summary

Gene Symbol	DENND1B
Entrez Gene ID	103760364
Full Name	DENN domain containing 1B
Gene Type	protein-coding
Organism	Manacus vitellinus(golden-collared manakin)

mRNA and Protein(s)

mRNA	Protein	Name
XM_029962239.1	XP_029818099.1	DENN domain-containing protein 1B
XM_018078982.1	XP_017934471.1	DENN domain-containing protein 1B

Pathways from BioSystems
Gene Ontology

The following DENND1B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DENND1B 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
OMa209827	XM_018078982.1 Latest version!	Manacus vitellinus DENN domain containing 1B (DENND1B), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OMa458690	XM_029962239.1 Latest version!	Manacus vitellinus DENN domain containing 1B (DENND1B), 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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** 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)

DENND1B ( XM_018078982.1 ) cDNA ORF clone, Manacus vitellinus(golden-collared manakin) -> XP_017934471.1 Manacus vitellinus DENN domain containing 1B (DENND1B), mRNA.

Price & Availability↑

CloneID	OMa209827
Clone ID Related Accession (Same CDS sequence)	XM_018078982.1
Accession Version	XM_018078982.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2613bp) 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	2018-07-24
Organism	Manacus vitellinus(golden-collared manakin)
Product	DENN domain-containing protein 1B
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020340821.1) 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 :: Manacus vitellinus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 10% of CDS bases ##RefSeq-Attributes-END##

ATGAACAAGG ACGGCAAAGG CATTCAGGAC AGAGACAGTG TTGTGGAGGA CTGGTCCCCA 
CATGCAATCT GCCTGTGCCT TGGCTGGTCA GACTGGGAGC ACAGGGCCCC TCTCCCTCCT 
GGGCATGTGG AGGTGCTGGA AAGGCTCCAC TTTCCTGCTG GGCGTAAAGG GCTGTTAGGA 
TGTGTCAGTG GACGCACCAT CCAAGGAGGT GATGTTGCAG CGGGTGAAGG TGCCCGTGAG 
GTGACACATG ACGACGCGTC CAGGGAAAAT CCAGAACGTA CCTTTGATTT GGTACTGAAA 
GTAAAATGCC AAGCTTCTGA AAATGAAGAT CCAGTGGTAC TGTGGAAGTT CCCGGAGGAC 
TTTGGAGACC AGGAAGTGCT GAACAGCGTT CCAAAGTTCT GCTTTCCTTT TGACATTGAA 
AGGGTGTCCC AAAACCAAGT AGGACAACAT TTCACCTTTG TGCTCACCGA CATTGAAAGT 
AAGCAAAGGT TTGGATTTTG CCGTTTGACG TCAGGAGGCA AGGTCTGCCT CTGTATTTTA 
AGTTACTTAC CATGGTTTGA GGTATACTAC AAACTCCTAA ATACCCTGGC AGATTATTTG 
GCTAAAGAAC AGGAAAATGA CTCAAATGAT TTGTTGAAAT CATTGTATAG CCATCCTGTG 
CCAAAGGCAA ATGCTTTAGT CAGTTTAAGT GTGAACCAAG AGATGATTTT TACAAGTGAG 
CAAGTTTTGA AAAAACAGCC TTGTCTTGTA TCGCACTCGT ATTTCATTAC TCCTGATTTA 
ACTGGATTGC CAACAATCCC TGAAAGCAGA AACCTCACTG AATATTTTGT TGCTGTGGAT 
GTGAACAACA TGCTGCAACT TTATGCCAGT ATGTTGCATG AGAGAAGAAT CATTATTACC 
TCAAGCAAAC TAAGCACTTT AACTGCTTGT GTTCATGCGT CAGCTGCATT GTTATATCCA 
ATGTATTGGC AACATATTTA CATCCCAGTG CTTCCTCCAC ATCTTCTGGA CTACTGCTGT 
GCTCCGATGC CTTATCTGAT TGGCGTCCAC TTAAGCTTAA TAGAGAGAGT AAAAAGTAGA 
TCACTGGAGG ATGTGGTTTT GCTAAATGTT GACACAAACA CTCTAGAAAC CCCGTTTAAT 
GACCTGAACA ACCTACCTGG TGAAGTGGTC TCGGCCTTGA AAAATAAACT GAAAAAGCAG 
TCCACAGCTA CGGGCGATGG AGTAGCCAAG GCTTTTCTTC GGGCACAGGC AGCACTGTTT 
GGATCCTACA GAGATGCACT AAGATACAGA CCAGGAGAGC CTATAACTTT CTGTGAGAAT 
AGTTTTGTGA AGCATCGTTC CAGTACAACT AAGCAGTTCT TGGAAACTGC TGTTAATCTT 
CAACTGTTTA AACAGTTTAT TGATGGTCGA CTATCAAAAT TAAATGCAGG AAGAGGATTC 
TCTGATGTTT TTGAAGAAGA AATCACAGCA GGAGGCTTTT GTGGAGGAAA TTCAAGATCT 
TACCAACAGT GGATGCATAC AGTGAAGAAA GGCGGTGCGC TGATCAACAC AGCAATGACC 
AAAGCCACTC CGGCTGTGAA AACAGCTTAT AAATTTGCAA AAAACCAGGC AAGGCAAGGA 
ATAAAAGAAG TGAAGAGTAA GTTAAAACAC AAGGAGAGTG AGGAAGAGTA TGGAACTTGC 
AGTGCTGGTG CAGTACAGAC TGTTCCCATC TACACATCAC ATTATGAGAA AAGAACAAGC 
TCAGAAAAAC GAAGACTGGC ACAGACTCGT TTCAACCAGC ATCTCAGTAA CCAGGATTTT 
GCCTTGGATG AAGATGATGA TGATGAAATG GAGAGAACAA GCAAGTTATC ATCAGAAGAC 
AGCGAAGAAG CTTCTGCTTA CTTTTATGAT AGTGATGGTT CTGGTGAAAC AGGAATAATT 
CCTCAGCATC AAGGAGAAAT GGACTTGCTT GGGGAGATCC TGGACACACT GAGCACACAC 
AGTTCAGATC AAGGAAAACT CTCAGGAGCA AAGAGCCTGG ATTTCTTTAG GTCAATGGAT 
GACATTGATT ACAAGACTGC GAACAAGTCA AATGCACCTA GTGAGAGCAA CCTTACCCTG 
CTCTGCAGCA GTGCTAATGA TCAAGCAGAG TGGAACCTTG GCCAGGATGA CAGTGTCCTC 
CATGGGAAGC AACTCCCTCC ATCACCAAGG AAGCAAGTTT CTTCTGGTGG CCTGAGAGAA 
TCTCTCACAA GGCTGGAAGA AGAAAAGAGT GACAAAACCC TTATTACTGA CAGGATGGAC 
ACCGCTGGTA TGACATCCCC ATCTCCAGTA CGACCAAGCG CTCAGTTTAC TTCCCTAGAA 
AGTTTCAAAG CAGGCTATTC TTCCTGTAAG CATGCAAAGC AGAACGAAAC ACTAAGCAAT 
ACCTCAGAAG ATCAGCTCCC AGGAAGTCTT GCTCAGCATC CATCCATTCT GGTCCCTTGG 
GAGAAAGATG GGAAGGAAGG AGATGAAAGT CCGGAAGAGG GTGGTCTTCT TCAAGAAGTG 
GTGTCGTTAT GTAAACTGAG TTCTGCTTTT CACTATGGTT TAAATATTTC GAAGGATAGC 
TTATCCAGCA GTAGCAGTGG AAATAAAACG TAA

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

RefSeq	XP_017934471.1
CDS	1..2613
Translation	MNKDGKGIQDRDSVVEDWSPHAICLCLGWSDWEHRAPLPPGHVEVLERLHFPAGRKGLLGCVSGRTIQGGDVAAGEGAREVTHDDASRENPERTFDLVLKVKCQASENEDPVVLWKFPEDFGDQEVLNSVPKFCFPFDIERVSQNQVGQHFTFVLTDIESKQRFGFCRLTSGGKVCLCILSYLPWFEVYYKLLNTLADYLAKEQENDSNDLLKSLYSHPVPKANALVSLSVNQEMIFTSEQVLKKQPCLVSHSYFITPDLTGLPTIPESRNLTEYFVAVDVNNMLQLYASMLHERRIIITSSKLSTLTACVHASAALLYPMYWQHIYIPVLPPHLLDYCCAPMPYLIGVHLSLIERVKSRSLEDVVLLNVDTNTLETPFNDLNNLPGEVVSALKNKLKKQSTATGDGVAKAFLRAQAALFGSYRDALRYRPGEPITFCENSFVKHRSSTTKQFLETAVNLQLFKQFIDGRLSKLNAGRGFSDVFEEEITAGGFCGGNSRSYQQWMHTVKKGGALINTAMTKATPAVKTAYKFAKNQARQGIKEVKSKLKHKESEEEYGTCSAGAVQTVPIYTSHYEKRTSSEKRRLAQTRFNQHLSNQDFALDEDDDDEMERTSKLSSEDSEEASAYFYDSDGSGETGIIPQHQGEMDLLGEILDTLSTHSSDQGKLSGAKSLDFFRSMDDIDYKTANKSNAPSESNLTLLCSSANDQAEWNLGQDDSVLHGKQLPPSPRKQVSSGGLRESLTRLEEEKSDKTLITDRMDTAGMTSPSPVRPSAQFTSLESFKAGYSSCKHAKQNETLSNTSEDQLPGSLAQHPSILVPWEKDGKEGDESPEEGGLLQEVVSLCKLSSAFHYGLNISKDSLSSSSSGNKT

Target ORF information:

RefSeq Version	XM_018078982.1
Organism	Manacus vitellinus(golden-collared manakin)
Definition	Manacus vitellinus DENN domain containing 1B (DENND1B), mRNA.

Target ORF information:

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

XM_018078982.1

ORF Insert Sequence:

ATGAACAAGG ACGGCAAAGG CATTCAGGAC AGAGACAGTG TTGTGGAGGA CTGGTCCCCA 
CATGCAATCT GCCTGTGCCT TGGCTGGTCA GACTGGGAGC ACAGGGCCCC TCTCCCTCCT 
GGGCATGTGG AGGTGCTGGA AAGGCTCCAC TTTCCTGCTG GGCGTAAAGG GCTGTTAGGA 
TGTGTCAGTG GACGCACCAT CCAAGGAGGT GATGTTGCAG CGGGTGAAGG TGCCCGTGAG 
GTGACACATG ACGACGCGTC CAGGGAAAAT CCAGAACGTA CCTTTGATTT GGTACTGAAA 
GTAAAATGCC AAGCTTCTGA AAATGAAGAT CCAGTGGTAC TGTGGAAGTT CCCGGAGGAC 
TTTGGAGACC AGGAAGTGCT GAACAGCGTT CCAAAGTTCT GCTTTCCTTT TGACATTGAA 
AGGGTGTCCC AAAACCAAGT AGGACAACAT TTCACCTTTG TGCTCACCGA CATTGAAAGT 
AAGCAAAGGT TTGGATTTTG CCGTTTGACG TCAGGAGGCA AGGTCTGCCT CTGTATTTTA 
AGTTACTTAC CATGGTTTGA GGTATACTAC AAACTCCTAA ATACCCTGGC AGATTATTTG 
GCTAAAGAAC AGGAAAATGA CTCAAATGAT TTGTTGAAAT CATTGTATAG CCATCCTGTG 
CCAAAGGCAA ATGCTTTAGT CAGTTTAAGT GTGAACCAAG AGATGATTTT TACAAGTGAG 
CAAGTTTTGA AAAAACAGCC TTGTCTTGTA TCGCACTCGT ATTTCATTAC TCCTGATTTA 
ACTGGATTGC CAACAATCCC TGAAAGCAGA AACCTCACTG AATATTTTGT TGCTGTGGAT 
GTGAACAACA TGCTGCAACT TTATGCCAGT ATGTTGCATG AGAGAAGAAT CATTATTACC 
TCAAGCAAAC TAAGCACTTT AACTGCTTGT GTTCATGCGT CAGCTGCATT GTTATATCCA 
ATGTATTGGC AACATATTTA CATCCCAGTG CTTCCTCCAC ATCTTCTGGA CTACTGCTGT 
GCTCCGATGC CTTATCTGAT TGGCGTCCAC TTAAGCTTAA TAGAGAGAGT AAAAAGTAGA 
TCACTGGAGG ATGTGGTTTT GCTAAATGTT GACACAAACA CTCTAGAAAC CCCGTTTAAT 
GACCTGAACA ACCTACCTGG TGAAGTGGTC TCGGCCTTGA AAAATAAACT GAAAAAGCAG 
TCCACAGCTA CGGGCGATGG AGTAGCCAAG GCTTTTCTTC GGGCACAGGC AGCACTGTTT 
GGATCCTACA GAGATGCACT AAGATACAGA CCAGGAGAGC CTATAACTTT CTGTGAGAAT 
AGTTTTGTGA AGCATCGTTC CAGTACAACT AAGCAGTTCT TGGAAACTGC TGTTAATCTT 
CAACTGTTTA AACAGTTTAT TGATGGTCGA CTATCAAAAT TAAATGCAGG AAGAGGATTC 
TCTGATGTTT TTGAAGAAGA AATCACAGCA GGAGGCTTTT GTGGAGGAAA TTCAAGATCT 
TACCAACAGT GGATGCATAC AGTGAAGAAA GGCGGTGCGC TGATCAACAC AGCAATGACC 
AAAGCCACTC CGGCTGTGAA AACAGCTTAT AAATTTGCAA AAAACCAGGC AAGGCAAGGA 
ATAAAAGAAG TGAAGAGTAA GTTAAAACAC AAGGAGAGTG AGGAAGAGTA TGGAACTTGC 
AGTGCTGGTG CAGTACAGAC TGTTCCCATC TACACATCAC ATTATGAGAA AAGAACAAGC 
TCAGAAAAAC GAAGACTGGC ACAGACTCGT TTCAACCAGC ATCTCAGTAA CCAGGATTTT 
GCCTTGGATG AAGATGATGA TGATGAAATG GAGAGAACAA GCAAGTTATC ATCAGAAGAC 
AGCGAAGAAG CTTCTGCTTA CTTTTATGAT AGTGATGGTT CTGGTGAAAC AGGAATAATT 
CCTCAGCATC AAGGAGAAAT GGACTTGCTT GGGGAGATCC TGGACACACT GAGCACACAC 
AGTTCAGATC AAGGAAAACT CTCAGGAGCA AAGAGCCTGG ATTTCTTTAG GTCAATGGAT 
GACATTGATT ACAAGACTGC GAACAAGTCA AATGCACCTA GTGAGAGCAA CCTTACCCTG 
CTCTGCAGCA GTGCTAATGA TCAAGCAGAG TGGAACCTTG GCCAGGATGA CAGTGTCCTC 
CATGGGAAGC AACTCCCTCC ATCACCAAGG AAGCAAGTTT CTTCTGGTGG CCTGAGAGAA 
TCTCTCACAA GGCTGGAAGA AGAAAAGAGT GACAAAACCC TTATTACTGA CAGGATGGAC 
ACCGCTGGTA TGACATCCCC ATCTCCAGTA CGACCAAGCG CTCAGTTTAC TTCCCTAGAA 
AGTTTCAAAG CAGGCTATTC TTCCTGTAAG CATGCAAAGC AGAACGAAAC ACTAAGCAAT 
ACCTCAGAAG ATCAGCTCCC AGGAAGTCTT GCTCAGCATC CATCCATTCT GGTCCCTTGG 
GAGAAAGATG GGAAGGAAGG AGATGAAAGT CCGGAAGAGG GTGGTCTTCT TCAAGAAGTG 
GTGTCGTTAT GTAAACTGAG TTCTGCTTTT CACTATGGTT TAAATATTTC GAAGGATAGC 
TTATCCAGCA GTAGCAGTGG AAATAAAACG TAA

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

DENND1B ( XM_029962239.1 ) cDNA ORF clone, Manacus vitellinus(golden-collared manakin) -> XP_029818099.1 Manacus vitellinus DENN domain containing 1B (DENND1B), mRNA.

Price & Availability↑

CloneID	OMa458690
Clone ID Related Accession (Same CDS sequence)	XM_029962239.1
Accession Version	XM_029962239.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2829bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-07-28
Organism	Manacus vitellinus(golden-collared manakin)
Product	DENN domain-containing protein 1B
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021940565.1) 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 :: Manacus vitellinus Annotation Release 103 Annotation Version :: 103 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## ##RefSeq-Attributes-START## ab initio :: 16% of CDS bases ##RefSeq-Attributes-END##

ATGGGCGATA AAGCACACCC GGCGGGACCG TGCGAGGGGC CGGGCGCGCC GCCGGGCCAG 
CTGAGTGAAC AGCGGGAAGG GCGGGCGGGA GGCGGCGGGG CCGGAGCCGG GGCGAGGCGG 
GACCCCGCGG CGGCGGGGGA GCGCGGCGCC CCCGACCGCC GGCCCCGGGC AGGGGGGAGG 
AGGAGGAAGG ATGGAGGAGG AGGCGGCCAC AGCCCTGCCG GCCAGCTCCT CCGCCCCGCG 
CCGCCCCGCC CCGCGGCGGC CCCGGCAAAT CGCCCCGCCC GCAGCGCGCG GGGGCCCGCG 
CTTGCAGCCG CCGGCCGTGG CGCGCAGGGC AGGGGCAGAG CTGGGGCAGC GGCAGCGGGC 
GCCGGTCGGG CCGTGCCGGG GAGCGGGCCG GGCGGCACTG GGAGCTCGGT GCCGAGGCCG 
CCGGGCCCAG CGCAGCTTCC CCGGGCCGGG CGGCAGCGCT GCCCGCAGAA CGCGTCCAGG 
GAAAATCCAG AACGTACCTT TGATTTGGTA CTGAAAGTAA AATGCCAAGC TTCTGAAAAT 
GAAGATCCAG TGGTACTGTG GAAGTTCCCG GAGGACTTTG GAGACCAGGA AGTGCTGAAC 
AGCGTTCCAA AGTTCTGCTT TCCTTTTGAC ATTGAAAGGG TGTCCCAAAA CCAAGTAGGA 
CAACATTTCA CCTTTGTGCT CACCGACATT GAAAGTAAGC AAAGGTTTGG ATTTTGCCGT 
TTGACGTCAG GAGGCAAGGT CTGCCTCTGT ATTTTAAGTT ACTTACCATG GTTTGAGGTA 
TACTACAAAC TCCTAAATAC CCTGGCAGAT TATTTGGCTA AAGAACAGGA AAATGACTCA 
AATGATTTGT TGAAATCATT GTATAGCCAT CCTGTGCCAA AGGCAAATGC TTTAGTCAGT 
TTAAGTGTGA ACCAAGAGAT GATTTTTACA AGTGAGCAAG TTTTGAAAAA ACAGCCTTGT 
CTTGTATCGC ACTCGTATTT CATTACTCCT GATTTAACTG GATTGCCAAC AATCCCTGAA 
AGCAGAAACC TCACTGAATA TTTTGTTGCT GTGGATGTGA ACAACATGCT GCAACTTTAT 
GCCAGTATGT TGCATGAGAG AAGAATCATT ATTACCTCAA GCAAACTAAG CACTTTAACT 
GCTTGTGTTC ATGCGTCAGC TGCATTGTTA TATCCAATGT ATTGGCAACA TATTTACATC 
CCAGTGCTTC CTCCACATCT TCTGGACTAC TGCTGTGCTC CTATGCCTTA TCTGATTGGC 
GTCCACTTAA GCTTAATAGA GAGAGTAAAA AGTAGATCAC TGGAGGATGT GGTTTTGCTA 
AATGTTGACA CAAACACTCT AGAAACCCCG TTTAATGACC TGAACAACCT ACCTGGTGAA 
GTGGTCTCGG CCTTGAAAAA TAAACTGAAA AAGCAGTCCA CAGCTACGGG CGATGGAGTA 
GCCAAGGCTT TTCTTCGGGC ACAGGCAGCA CTGTTTGGAT CCTACAGAGA TGCACTAAGA 
TACAGACCAG GAGAGCCTAT AACTTTCTGT GAGAATAGTT TTGTGAAGCA TCGTTCCAGT 
ACAACTAAGC AGTTCTTGGA AACTGCTGTT AATCTTCAAC TGTTTAAACA GTTTATTGAT 
GGTCGACTAT CAAAATTAAA TGCAGGAAGA GGATTCTCTG ATGTTTTTGA AGAAGAAATC 
ACAGCAGGAG GCTTTTGTGG AGGAAATTCA AGATCTTACC AACAGTGGAT GCATACAGTG 
AAGAAAGGCG GTGCGCTGAT CAACACAGCA ATGACCAAAG CCACTCCGGC TGTGAAAACA 
GCTTATAAAT TTGCAAAAAA CCAGGCAAGG CAAGGAATAA AAGAAGTGAA GAGTAAGTTA 
AAACACAAGG AGAGTGAGGA AGAGTATGGA ACTTGCAGTG CTGGTGCAGT ACAGACTGTT 
CCCATCTACA CATCACATTA TGAGAAAAGA ACAAGCTCAG AAAAACGAAG ACTGGCACAG 
ACTCGTTTCA ACCAGCATCT CAGTAACCAG GATTTTGCCT TGGATGAAGA TGATGATGAT 
GAAATGGAGA GAACAAGCAA GTTATCATCA GAAGACAGCG AAGAAGCTTC TGCTTACTTT 
TATGATAGTG ATGGTTCTGG TGAAACAGGA ATAATTCCTC AGCATCAAGG AGAAATGGAC 
TTGCTTGGGG AGATCCTGGA CACACTGAGC ACACACAGTT CAGATCAAGG AAAACTCTCA 
GGAGCAAAGA GCCTGGATTT CTTTAGGTCA ATGGATGACA TTGATTACAA GACTGCGAAC 
AAGTCAAATG CACCTAGTGA GAGCAACCTT ACCCTGCTCT GCAGCAGTGC TAATGATCAA 
GCAGAGTGGA ACCTTGGCCA GGATGACAGT GTCCTCCATG GGAAGCAACT CCCTCCATCA 
CCAAGGAAGC AAGTTTCTTC TGGTGGCCTG AGAGAATCTC TCACAAGGCT GGAAGAAGAA 
AAGAGTGACA AAACCCTTAT TACTGACAGG ATGGACACCG CTGGTATGAC ATCCCCATCT 
CCAGTACGAC CAAGCGCTCA GTTTACTTCC CTAGAAAGTT TCAAAGCAGG CTATTCTTCC 
TGTAAGCATG CAAAGCAGAA CGAAACACTA AGCAATACCT CAGAAGATCA GCTCCCAGGA 
AGTCTTGCTC AGCATCCATC CATTCTGGTC CCTTGGGAGA AAGATGGGAA GGAAGGAGAT 
GAAAGTCCGG AAGAGGGTGG TCTTCTTCAA GAAGTGGTGT CGTTATGTAA ACTGAGTTCT 
GCTTTTCACT ATGGTTTAAA TATTTCGAAG GATAGCTTAT CCAGCAGTAG CAGTGGAAAT 
AAAACGTAA

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

RefSeq	XP_029818099.1
CDS	1..2829
Translation	MGDKAHPAGPCEGPGAPPGQLSEQREGRAGGGGAGAGARRDPAAAGERGAPDRRPRAGGRRRKDGGGGGHSPAGQLLRPAPPRPAAAPANRPARSARGPALAAAGRGAQGRGRAGAAAAGAGRAVPGSGPGGTGSSVPRPPGPAQLPRAGRQRCPQNASRENPERTFDLVLKVKCQASENEDPVVLWKFPEDFGDQEVLNSVPKFCFPFDIERVSQNQVGQHFTFVLTDIESKQRFGFCRLTSGGKVCLCILSYLPWFEVYYKLLNTLADYLAKEQENDSNDLLKSLYSHPVPKANALVSLSVNQEMIFTSEQVLKKQPCLVSHSYFITPDLTGLPTIPESRNLTEYFVAVDVNNMLQLYASMLHERRIIITSSKLSTLTACVHASAALLYPMYWQHIYIPVLPPHLLDYCCAPMPYLIGVHLSLIERVKSRSLEDVVLLNVDTNTLETPFNDLNNLPGEVVSALKNKLKKQSTATGDGVAKAFLRAQAALFGSYRDALRYRPGEPITFCENSFVKHRSSTTKQFLETAVNLQLFKQFIDGRLSKLNAGRGFSDVFEEEITAGGFCGGNSRSYQQWMHTVKKGGALINTAMTKATPAVKTAYKFAKNQARQGIKEVKSKLKHKESEEEYGTCSAGAVQTVPIYTSHYEKRTSSEKRRLAQTRFNQHLSNQDFALDEDDDDEMERTSKLSSEDSEEASAYFYDSDGSGETGIIPQHQGEMDLLGEILDTLSTHSSDQGKLSGAKSLDFFRSMDDIDYKTANKSNAPSESNLTLLCSSANDQAEWNLGQDDSVLHGKQLPPSPRKQVSSGGLRESLTRLEEEKSDKTLITDRMDTAGMTSPSPVRPSAQFTSLESFKAGYSSCKHAKQNETLSNTSEDQLPGSLAQHPSILVPWEKDGKEGDESPEEGGLLQEVVSLCKLSSAFHYGLNISKDSLSSSSSGNKT

Target ORF information:

RefSeq Version	XM_029962239.1
Organism	Manacus vitellinus(golden-collared manakin)
Definition	Manacus vitellinus DENN domain containing 1B (DENND1B), mRNA.

Target ORF information:

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

XM_029962239.1

ORF Insert Sequence:

ATGGGCGATA AAGCACACCC GGCGGGACCG TGCGAGGGGC CGGGCGCGCC GCCGGGCCAG 
CTGAGTGAAC AGCGGGAAGG GCGGGCGGGA GGCGGCGGGG CCGGAGCCGG GGCGAGGCGG 
GACCCCGCGG CGGCGGGGGA GCGCGGCGCC CCCGACCGCC GGCCCCGGGC AGGGGGGAGG 
AGGAGGAAGG ATGGAGGAGG AGGCGGCCAC AGCCCTGCCG GCCAGCTCCT CCGCCCCGCG 
CCGCCCCGCC CCGCGGCGGC CCCGGCAAAT CGCCCCGCCC GCAGCGCGCG GGGGCCCGCG 
CTTGCAGCCG CCGGCCGTGG CGCGCAGGGC AGGGGCAGAG CTGGGGCAGC GGCAGCGGGC 
GCCGGTCGGG CCGTGCCGGG GAGCGGGCCG GGCGGCACTG GGAGCTCGGT GCCGAGGCCG 
CCGGGCCCAG CGCAGCTTCC CCGGGCCGGG CGGCAGCGCT GCCCGCAGAA CGCGTCCAGG 
GAAAATCCAG AACGTACCTT TGATTTGGTA CTGAAAGTAA AATGCCAAGC TTCTGAAAAT 
GAAGATCCAG TGGTACTGTG GAAGTTCCCG GAGGACTTTG GAGACCAGGA AGTGCTGAAC 
AGCGTTCCAA AGTTCTGCTT TCCTTTTGAC ATTGAAAGGG TGTCCCAAAA CCAAGTAGGA 
CAACATTTCA CCTTTGTGCT CACCGACATT GAAAGTAAGC AAAGGTTTGG ATTTTGCCGT 
TTGACGTCAG GAGGCAAGGT CTGCCTCTGT ATTTTAAGTT ACTTACCATG GTTTGAGGTA 
TACTACAAAC TCCTAAATAC CCTGGCAGAT TATTTGGCTA AAGAACAGGA AAATGACTCA 
AATGATTTGT TGAAATCATT GTATAGCCAT CCTGTGCCAA AGGCAAATGC TTTAGTCAGT 
TTAAGTGTGA ACCAAGAGAT GATTTTTACA AGTGAGCAAG TTTTGAAAAA ACAGCCTTGT 
CTTGTATCGC ACTCGTATTT CATTACTCCT GATTTAACTG GATTGCCAAC AATCCCTGAA 
AGCAGAAACC TCACTGAATA TTTTGTTGCT GTGGATGTGA ACAACATGCT GCAACTTTAT 
GCCAGTATGT TGCATGAGAG AAGAATCATT ATTACCTCAA GCAAACTAAG CACTTTAACT 
GCTTGTGTTC ATGCGTCAGC TGCATTGTTA TATCCAATGT ATTGGCAACA TATTTACATC 
CCAGTGCTTC CTCCACATCT TCTGGACTAC TGCTGTGCTC CTATGCCTTA TCTGATTGGC 
GTCCACTTAA GCTTAATAGA GAGAGTAAAA AGTAGATCAC TGGAGGATGT GGTTTTGCTA 
AATGTTGACA CAAACACTCT AGAAACCCCG TTTAATGACC TGAACAACCT ACCTGGTGAA 
GTGGTCTCGG CCTTGAAAAA TAAACTGAAA AAGCAGTCCA CAGCTACGGG CGATGGAGTA 
GCCAAGGCTT TTCTTCGGGC ACAGGCAGCA CTGTTTGGAT CCTACAGAGA TGCACTAAGA 
TACAGACCAG GAGAGCCTAT AACTTTCTGT GAGAATAGTT TTGTGAAGCA TCGTTCCAGT 
ACAACTAAGC AGTTCTTGGA AACTGCTGTT AATCTTCAAC TGTTTAAACA GTTTATTGAT 
GGTCGACTAT CAAAATTAAA TGCAGGAAGA GGATTCTCTG ATGTTTTTGA AGAAGAAATC 
ACAGCAGGAG GCTTTTGTGG AGGAAATTCA AGATCTTACC AACAGTGGAT GCATACAGTG 
AAGAAAGGCG GTGCGCTGAT CAACACAGCA ATGACCAAAG CCACTCCGGC TGTGAAAACA 
GCTTATAAAT TTGCAAAAAA CCAGGCAAGG CAAGGAATAA AAGAAGTGAA GAGTAAGTTA 
AAACACAAGG AGAGTGAGGA AGAGTATGGA ACTTGCAGTG CTGGTGCAGT ACAGACTGTT 
CCCATCTACA CATCACATTA TGAGAAAAGA ACAAGCTCAG AAAAACGAAG ACTGGCACAG 
ACTCGTTTCA ACCAGCATCT CAGTAACCAG GATTTTGCCT TGGATGAAGA TGATGATGAT 
GAAATGGAGA GAACAAGCAA GTTATCATCA GAAGACAGCG AAGAAGCTTC TGCTTACTTT 
TATGATAGTG ATGGTTCTGG TGAAACAGGA ATAATTCCTC AGCATCAAGG AGAAATGGAC 
TTGCTTGGGG AGATCCTGGA CACACTGAGC ACACACAGTT CAGATCAAGG AAAACTCTCA 
GGAGCAAAGA GCCTGGATTT CTTTAGGTCA ATGGATGACA TTGATTACAA GACTGCGAAC 
AAGTCAAATG CACCTAGTGA GAGCAACCTT ACCCTGCTCT GCAGCAGTGC TAATGATCAA 
GCAGAGTGGA ACCTTGGCCA GGATGACAGT GTCCTCCATG GGAAGCAACT CCCTCCATCA 
CCAAGGAAGC AAGTTTCTTC TGGTGGCCTG AGAGAATCTC TCACAAGGCT GGAAGAAGAA 
AAGAGTGACA AAACCCTTAT TACTGACAGG ATGGACACCG CTGGTATGAC ATCCCCATCT 
CCAGTACGAC CAAGCGCTCA GTTTACTTCC CTAGAAAGTT TCAAAGCAGG CTATTCTTCC 
TGTAAGCATG CAAAGCAGAA CGAAACACTA AGCAATACCT CAGAAGATCA GCTCCCAGGA 
AGTCTTGCTC AGCATCCATC CATTCTGGTC CCTTGGGAGA AAGATGGGAA GGAAGGAGAT 
GAAAGTCCGG AAGAGGGTGG TCTTCTTCAA GAAGTGGTGT CGTTATGTAA ACTGAGTTCT 
GCTTTTCACT ATGGTTTAAA TATTTCGAAG GATAGCTTAT CCAGCAGTAG CAGTGGAAAT 
AAAACGTAA