arhgap29a cDNA ORF clone, Danio rerio(zebrafish)

Gene
Clones
gRNAs

Summary

Gene Symbol	arhgap29a
Entrez Gene ID	564805
Full Name	Rho GTPase activating protein 29a
Synonyms	fj83g02,wu:fj83g02
General protein information	Preferred Names Rho GTPase activating protein 29a Names rho GTPase-activating protein 29
Gene Type	protein-coding
Organism	Danio rerio(zebrafish)

mRNA and Protein(s)

mRNA	Protein	Name
XM_688135.9	XP_693227.4	rho GTPase-activating protein 29 isoform X1
XM_009297526.2	XP_009295801.1	rho GTPase-activating protein 29 isoform X2
XM_688135.8	XP_693227.4	rho GTPase-activating protein 29 isoform X1
XM_005162826.4	XP_005162883.1	rho GTPase-activating protein 29 isoform X3
XM_021473808.1	XP_021329483.1	rho GTPase-activating protein 29 isoform X5
XM_021470352.1	XP_021326027.1	rho GTPase-activating protein 29 isoform X4
XM_005162826.3	XP_005162883.1	rho GTPase-activating protein 29 isoform X3
XM_009297526.3	XP_009295801.1	rho GTPase-activating protein 29 isoform X2

Pathways from BioSystems

Homologies

Gallus gallus (chicken)	ARHGAP29	NP_001231811.1
Xenopus tropicalis (tropical clawed frog)	arhgap29	NP_001123763.2
Danio rerio (zebrafish)	arhgap29b	NP_956405.1
Danio rerio (zebrafish)	arhgap29a	XP_693227.4

Gene Ontology

The following arhgap29a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the arhgap29a 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)
ODa146357	XM_021473808.1 Latest version!	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	9-11	$104.30 $149.00
ODa141232	XM_021470352.1 Latest version!	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
ODa28720	XM_005162826.4 Latest version!	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$713.30 $1019.00
ODa28719	XM_688135.9 Latest version!	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00
ODa44411	XM_009297526.3 Latest version!	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00
View Old Accession Versions >>
ODa28719	XM_688135.8	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00
ODa28720	XM_005162826.3	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$713.30 $1019.00
ODa44411	XM_009297526.2	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00
Hide Old Accession Versions >>

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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)

arhgap29a ( XM_021473808.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021329483.1 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X5, mRNA.

Price & Availability↑

CloneID	ODa146357
Clone ID Related Accession (Same CDS sequence)	XM_021473808.1
Accession Version	XM_021473808.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 561bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	rho GTPase-activating protein 29 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018395180.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGG CTGTGAAGAG TGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTAAAGCCTT GTCTCACTCA CCACCTTCCG CTTTATATGA CACAGTGCAG 
AGGAATGAGG GAGAAATAGT CATTGACTTT ACACATCCTG GTCCTCAAAC TCCCTCTAAC 
ATGCCTCCCA CTGACATTTA G

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

RefSeq	XP_021329483.1
CDS	181..741
Translation	MFAAGMLQQSSGGLNKRSLGMARIPDSRFFPLSSGSGSWGLSRAVKSGSLSSISSGSDNMDNMMGADPDYIMQLVNDVRRFADVLLHLKEAFNTKDHQDCLHQVVHERLGELLRVLKAVISKHHSLNSVEILSAAGTLIAKVKGKALSHSPPSALYDTVQRNEGEIVIDFTHPGPQTPSNMPPTDI

Target ORF information:

RefSeq Version	XM_021473808.1
Organism	Danio rerio(zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X5, mRNA.

Target ORF information:

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

XM_021473808.1

ORF Insert Sequence:

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGG CTGTGAAGAG TGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTAAAGCCTT GTCTCACTCA CCACCTTCCG CTTTATATGA CACAGTGCAG 
AGGAATGAGG GAGAAATAGT CATTGACTTT ACACATCCTG GTCCTCAAAC TCCCTCTAAC 
ATGCCTCCCA CTGACATTTA G

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

arhgap29a ( XM_021470352.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021326027.1 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X4, mRNA.

Price & Availability↑

CloneID	ODa141232
Clone ID Related Accession (Same CDS sequence)	XM_021470352.1
Accession Version	XM_021470352.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3492bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	rho GTPase-activating protein 29 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) 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 :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAGATG TAGAGAACGG CTCAGCCTCG GGGCTTCCTC AGGCCAGCAG GAGCAGGTCC 
TTTGAAAACC TGACGCTGGA GTCTGGCGGA TGTGGACCGG AAAAAGATGA CCCTCCAGGC 
CCGTCTCCAC CAGCGCGGGT GGAGCAGATG GATGGAGCTC TGCTCAGGAG TGACAGCGGG 
GTGGAGTCGG CTCTGCTTTA TGCCAAAGCC TGGTCCAAAT ACACCAAGGA GCTGCTGGCC 
TGGGTGGACA AACGCCTGAA CATGGACATC GAGTGTGCAA AGAGCTATGC CAAGATGGCT 
GAATCTGCAA AGGCGCTGGC GTCTCAACAG GAGCACATGC CATTCAGGGA TATTTACATC 
TCTGCCTTCA GGAACGACAT TGAATACAGT CAGCTTATCA TGCAAACCAC AGCCGCTCTA 
CAGGCCAACA AATTCATGCA GCCTCTGCAA GCTCGAAAAA GTGAGCTAGA TAAACTGAGG 
AAGGAGGTGA AGGAACAGTG GCAGAGGGAA CAGAAGAAAA TGCATGAAGC CGACTCTGCA 
CTGAGGAAAG CTCGTCTCCT TCAGGCTCAG CGGCAGGAGG AGTATGAAAA GGCTCGCAGC 
TCCACCAGCC GAGTAGAAGA GGAGCAGATC AGCGGTGCTG GGGGAAAACA GCTGGAGAAG 
AGACGCAAGC TGGAGGAGGA GGCTCTGCTG AAGGCAGAGG AAGCTCAAGA TCATTATAAG 
CTCTGCGTCA CAGACGTCGG GGTGAAGAGA GTCGATCTCG CAAAAACCAA GAGCGAGATC 
CTGACGCAGA TACGAGAGCT TGTGTTTCAG TGCGATCTGA CCCTCAAAGC AGTAACGGTG 
AACTGGTTTC AGATGCAGCA AGCTCAGGTC GCGTCTCTGC CCATCAACTT CCAGTCACTA 
TGTGAAAACT CCAAACTGTA TGAACCGGGT CTGTGTTACA CTGAATTTGT GAAGAGTCTG 
CCCTCTGACA GGTCCAGGGT CGAATCCTTC TCCTTCGACA TCTCCAGCAC ACACAACACA 
GGGTTGAAGC GAGCGGTGAA CAGCACTCCC GCAGCCCTAG TGCACTTATC GCAGGTGTCT 
GGAGATTTCC TGAGTGCAGA TGAGGTGGAG AGTCACGTTC AGGCTCGCAC TGCAAAGATG 
CCGGACGGAC GCTCGCACAG CACCACGGAT GTTCAAGCTC TGAGGATCCA GGGTCCGTTC 
CGTGTCTGGA GGACCAGCAG TCAGGGTGGA GGCATGTGCA GTGACTCTGA GAGTGCTGGA 
GGAAGCAGTG AATCTCGCTC TATGGACTCG CCTACAGCAA GCCCAGGCGA CTTTAAGAGA 
AGGCTTCCCA GGACCCCATC CACAGGCACC ATGTCTTCAG CAGATGATCT GGACGAGAGA 
GAACCTCCGT CTCCTTCAGA TAATGGTCTG AGCGAAATGG TGACAGAGGC GGCCAGTTCT 
CCGGGACCTT TCCGCAACAC ACAGATGTCG AAAGCTGCAC AGACGCACAA ACTGAGGAAA 
CTGAGGGCTC CATCAAAGTG CAGGGAGTGT GACAGTCTTG TGGTGTTTCA TGGTGCTGAA 
TGCGAGGAGT GTTCTCTGGC TTGCCATAAG AAGTGTTTGG AGACTCTGGC CATCCAGTGT 
GGTCATAAGA AGCTCCAGGG AAAACTACAT TTATTTGCGA TCGACTTTGC TCAGGCGGCG 
AAGAACAGTC CTGATGGAAT CCCCTTCATT ATCAAAAAAT GCACCTCGGA GATCGAAAAC 
AGGGCGCTTA ACATCAAGGG AATTTACCGT GTTAATGGTG CCAAATCTCG GGTGGAGAAG 
CTTTGTCAGG CTTTTGAAAA TGGCAAAGAC TTGGTGGAGC TTTCGGATCT CTACCCTCAC 
GATATCAGCA ACGTCCTCAA ACTCTACTTA CGCCAGCTCC CAGAGCCTCT CATTCTCTTC 
CGATACTATA ACGACTTCAT CGGACTGGCT AAAGAGAGTC AGAGTATCAT TGTTGATGAA 
GTGGAGGCAT CGAGAGGATG TCCAACCTCT GACACTCCAC AGATCAGCGT AGAGCTCAAT 
CGGGTCCTCT TCAAGATTAA AGACCTGCTG CGCCAGCTTC CTCCAGCCCA TTATAAGACC 
CTGCAGTTCC TCATTCAGCA CTTGCACAGA GTGTCAGAAA GGGCAGATGA GAACAAAATG 
ACTTCCAGTA ATTTGGGCAT CATCTTCGGT CCCACATTGA TCAAACCCCG ACAGGCCGAT 
GCTGAGGTGT CTCTGTCCTC TTTGGTGGAC TATCCCTACC AGGCCTTGAT CGTGGAGCTT 
TTGATCCGCC ATTATGAGAT GATCTTCGAC ACTCCTCTGA GTCCGCTTCC ACCTTCCTCG 
CCTGTAGCAG AGAGCTCTCC GCTGCCCGTT AAATCACGCT TCACCCCTCA GGAGAAGGGG 
CAACAGCTTA GCAGACATTC AAAGTCCCTG GTGGACATTA AGGAGCAGCA ACAGTCAAAA 
GCTAAGATGT ATAAAAGGCA TTCCTCCGTA ATACCTTCTA TGCATCTGAT GGATGAGGTG 
AAAGAGGGAA AGATACGATC TGACAAAGAC TTCGCTGCAG TTGGCGATAA ATCGGACATG 
AACAAGCTCC TCTCATCAAG TGTTCCTGAA ATGCGAAACT CACCTGGTCT CACTCGCCGT 
AACCATGTGA CCAGAGTCCA GCTACGACCT CCAAGACCCA AGCTCGTCTC TCGACCAATC 
AGCATGCCGG CCGAACGCCT TCTCAACCTC TCCAAGGTGG ACGAATGTAA TGTGAAGAAC 
TCCGTAGAGC AGGAAGAAAC CCACAGTCGA GATCCCGTCA TCGAGGAAGT ATCCGAAGAG 
GAGAAGCCCA AGTCCAGAGC GGGAAACCAT TACAGGAAAT CATACATCGA CACGCAAACT 
CTACGGCGGA CTTGGGACAA GCAATACAAG CATCATGACA TCACTCCGAA AACCTGTCCT 
GTAGATTCTG GGTCCAATGA CACCAATGTT CACACTTCAT CACTCACATC GTCATCCTTC 
TCAGAACACA GCAAAAGCCC CAGCACAGTT CTTGCTAACA GACCCTACAC CATTGCTGTG 
AGGCCTGGAC GTACTTTACG TAGGGAAGGA AACATTAGTG AGTTTTGTCC GGTTCCTACA 
GCCTTCAGGC CCCCAAGAAC TCTTCAGCCT CCACCTGGAA CGTTCTACAA ACCTCCAGGA 
GGCAAGAGCA AATCGTTAAC TGAGGTTGAA CTCCAGTCTG TTAGAGCAAC CGCAAACAGT 
ACTGAAGAAG AAGAAGAGGA TGATGACGAT GACGATGAGG AAGAAGAGTT TGGCGTGGAA 
GTCTCGGTTG ATGAACCTGA GCCAGAATTA GACCAAGAAA CATCAGTGGA CGCCCATGAT 
ACAAGTCCAC TTCCTGAATC GCCAAGCTCC AGCCCCGAGG AACTCGGACA AAATGAGACC 
AAACCTGTGT ACCAGAGACT CCGATCACGG CGCATGCAGG ATCTTGAGCA CCGCGAGGCT 
CATTTTGTTT GA

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

RefSeq	XP_021326027.1
CDS	202..3693
Translation	MGDVENGSASGLPQASRSRSFENLTLESGGCGPEKDDPPGPSPPARVEQMDGALLRSDSGVESALLYAKAWSKYTKELLAWVDKRLNMDIECAKSYAKMAESAKALASQQEHMPFRDIYISAFRNDIEYSQLIMQTTAALQANKFMQPLQARKSELDKLRKEVKEQWQREQKKMHEADSALRKARLLQAQRQEEYEKARSSTSRVEEEQISGAGGKQLEKRRKLEEEALLKAEEAQDHYKLCVTDVGVKRVDLAKTKSEILTQIRELVFQCDLTLKAVTVNWFQMQQAQVASLPINFQSLCENSKLYEPGLCYTEFVKSLPSDRSRVESFSFDISSTHNTGLKRAVNSTPAALVHLSQVSGDFLSADEVESHVQARTAKMPDGRSHSTTDVQALRIQGPFRVWRTSSQGGGMCSDSESAGGSSESRSMDSPTASPGDFKRRLPRTPSTGTMSSADDLDEREPPSPSDNGLSEMVTEAASSPGPFRNTQMSKAAQTHKLRKLRAPSKCRECDSLVVFHGAECEECSLACHKKCLETLAIQCGHKKLQGKLHLFAIDFAQAAKNSPDGIPFIIKKCTSEIENRALNIKGIYRVNGAKSRVEKLCQAFENGKDLVELSDLYPHDISNVLKLYLRQLPEPLILFRYYNDFIGLAKESQSIIVDEVEASRGCPTSDTPQISVELNRVLFKIKDLLRQLPPAHYKTLQFLIQHLHRVSERADENKMTSSNLGIIFGPTLIKPRQADAEVSLSSLVDYPYQALIVELLIRHYEMIFDTPLSPLPPSSPVAESSPLPVKSRFTPQEKGQQLSRHSKSLVDIKEQQQSKAKMYKRHSSVIPSMHLMDEVKEGKIRSDKDFAAVGDKSDMNKLLSSSVPEMRNSPGLTRRNHVTRVQLRPPRPKLVSRPISMPAERLLNLSKVDECNVKNSVEQEETHSRDPVIEEVSEEEKPKSRAGNHYRKSYIDTQTLRRTWDKQYKHHDITPKTCPVDSGSNDTNVHTSSLTSSSFSEHSKSPSTVLANRPYTIAVRPGRTLRREGNISEFCPVPTAFRPPRTLQPPPGTFYKPPGGKSKSLTEVELQSVRATANSTEEEEEDDDDDDEEEEFGVEVSVDEPEPELDQETSVDAHDTSPLPESPSSSPEELGQNETKPVYQRLRSRRMQDLEHREAHFV

Target ORF information:

RefSeq Version	XM_021470352.1
Organism	Danio rerio(zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X4, mRNA.

Target ORF information:

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

XM_021470352.1

ORF Insert Sequence:

ATGGGAGATG TAGAGAACGG CTCAGCCTCG GGGCTTCCTC AGGCCAGCAG GAGCAGGTCC 
TTTGAAAACC TGACGCTGGA GTCTGGCGGA TGTGGACCGG AAAAAGATGA CCCTCCAGGC 
CCGTCTCCAC CAGCGCGGGT GGAGCAGATG GATGGAGCTC TGCTCAGGAG TGACAGCGGG 
GTGGAGTCGG CTCTGCTTTA TGCCAAAGCC TGGTCCAAAT ACACCAAGGA GCTGCTGGCC 
TGGGTGGACA AACGCCTGAA CATGGACATC GAGTGTGCAA AGAGCTATGC CAAGATGGCT 
GAATCTGCAA AGGCGCTGGC GTCTCAACAG GAGCACATGC CATTCAGGGA TATTTACATC 
TCTGCCTTCA GGAACGACAT TGAATACAGT CAGCTTATCA TGCAAACCAC AGCCGCTCTA 
CAGGCCAACA AATTCATGCA GCCTCTGCAA GCTCGAAAAA GTGAGCTAGA TAAACTGAGG 
AAGGAGGTGA AGGAACAGTG GCAGAGGGAA CAGAAGAAAA TGCATGAAGC CGACTCTGCA 
CTGAGGAAAG CTCGTCTCCT TCAGGCTCAG CGGCAGGAGG AGTATGAAAA GGCTCGCAGC 
TCCACCAGCC GAGTAGAAGA GGAGCAGATC AGCGGTGCTG GGGGAAAACA GCTGGAGAAG 
AGACGCAAGC TGGAGGAGGA GGCTCTGCTG AAGGCAGAGG AAGCTCAAGA TCATTATAAG 
CTCTGCGTCA CAGACGTCGG GGTGAAGAGA GTCGATCTCG CAAAAACCAA GAGCGAGATC 
CTGACGCAGA TACGAGAGCT TGTGTTTCAG TGCGATCTGA CCCTCAAAGC AGTAACGGTG 
AACTGGTTTC AGATGCAGCA AGCTCAGGTC GCGTCTCTGC CCATCAACTT CCAGTCACTA 
TGTGAAAACT CCAAACTGTA TGAACCGGGT CTGTGTTACA CTGAATTTGT GAAGAGTCTG 
CCCTCTGACA GGTCCAGGGT CGAATCCTTC TCCTTCGACA TCTCCAGCAC ACACAACACA 
GGGTTGAAGC GAGCGGTGAA CAGCACTCCC GCAGCCCTAG TGCACTTATC GCAGGTGTCT 
GGAGATTTCC TGAGTGCAGA TGAGGTGGAG AGTCACGTTC AGGCTCGCAC TGCAAAGATG 
CCGGACGGAC GCTCGCACAG CACCACGGAT GTTCAAGCTC TGAGGATCCA GGGTCCGTTC 
CGTGTCTGGA GGACCAGCAG TCAGGGTGGA GGCATGTGCA GTGACTCTGA GAGTGCTGGA 
GGAAGCAGTG AATCTCGCTC TATGGACTCG CCTACAGCAA GCCCAGGCGA CTTTAAGAGA 
AGGCTTCCCA GGACCCCATC CACAGGCACC ATGTCTTCAG CAGATGATCT GGACGAGAGA 
GAACCTCCGT CTCCTTCAGA TAATGGTCTG AGCGAAATGG TGACAGAGGC GGCCAGTTCT 
CCGGGACCTT TCCGCAACAC ACAGATGTCG AAAGCTGCAC AGACGCACAA ACTGAGGAAA 
CTGAGGGCTC CATCAAAGTG CAGGGAGTGT GACAGTCTTG TGGTGTTTCA TGGTGCTGAA 
TGCGAGGAGT GTTCTCTGGC TTGCCATAAG AAGTGTTTGG AGACTCTGGC CATCCAGTGT 
GGTCATAAGA AGCTCCAGGG AAAACTACAT TTATTTGCGA TCGACTTTGC TCAGGCGGCG 
AAGAACAGTC CTGATGGAAT CCCCTTCATT ATCAAAAAAT GCACCTCGGA GATCGAAAAC 
AGGGCGCTTA ACATCAAGGG AATTTACCGT GTTAATGGTG CCAAATCTCG GGTGGAGAAG 
CTTTGTCAGG CTTTTGAAAA TGGCAAAGAC TTGGTGGAGC TTTCGGATCT CTACCCTCAC 
GATATCAGCA ACGTCCTCAA ACTCTACTTA CGCCAGCTCC CAGAGCCTCT CATTCTCTTC 
CGATACTATA ACGACTTCAT CGGACTGGCT AAAGAGAGTC AGAGTATCAT TGTTGATGAA 
GTGGAGGCAT CGAGAGGATG TCCAACCTCT GACACTCCAC AGATCAGCGT AGAGCTCAAT 
CGGGTCCTCT TCAAGATTAA AGACCTGCTG CGCCAGCTTC CTCCAGCCCA TTATAAGACC 
CTGCAGTTCC TCATTCAGCA CTTGCACAGA GTGTCAGAAA GGGCAGATGA GAACAAAATG 
ACTTCCAGTA ATTTGGGCAT CATCTTCGGT CCCACATTGA TCAAACCCCG ACAGGCCGAT 
GCTGAGGTGT CTCTGTCCTC TTTGGTGGAC TATCCCTACC AGGCCTTGAT CGTGGAGCTT 
TTGATCCGCC ATTATGAGAT GATCTTCGAC ACTCCTCTGA GTCCGCTTCC ACCTTCCTCG 
CCTGTAGCAG AGAGCTCTCC GCTGCCCGTT AAATCACGCT TCACCCCTCA GGAGAAGGGG 
CAACAGCTTA GCAGACATTC AAAGTCCCTG GTGGACATTA AGGAGCAGCA ACAGTCAAAA 
GCTAAGATGT ATAAAAGGCA TTCCTCCGTA ATACCTTCTA TGCATCTGAT GGATGAGGTG 
AAAGAGGGAA AGATACGATC TGACAAAGAC TTCGCTGCAG TTGGCGATAA ATCGGACATG 
AACAAGCTCC TCTCATCAAG TGTTCCTGAA ATGCGAAACT CACCTGGTCT CACTCGCCGT 
AACCATGTGA CCAGAGTCCA GCTACGACCT CCAAGACCCA AGCTCGTCTC TCGACCAATC 
AGCATGCCGG CCGAACGCCT TCTCAACCTC TCCAAGGTGG ACGAATGTAA TGTGAAGAAC 
TCCGTAGAGC AGGAAGAAAC CCACAGTCGA GATCCCGTCA TCGAGGAAGT ATCCGAAGAG 
GAGAAGCCCA AGTCCAGAGC GGGAAACCAT TACAGGAAAT CATACATCGA CACGCAAACT 
CTACGGCGGA CTTGGGACAA GCAATACAAG CATCATGACA TCACTCCGAA AACCTGTCCT 
GTAGATTCTG GGTCCAATGA CACCAATGTT CACACTTCAT CACTCACATC GTCATCCTTC 
TCAGAACACA GCAAAAGCCC CAGCACAGTT CTTGCTAACA GACCCTACAC CATTGCTGTG 
AGGCCTGGAC GTACTTTACG TAGGGAAGGA AACATTAGTG AGTTTTGTCC GGTTCCTACA 
GCCTTCAGGC CCCCAAGAAC TCTTCAGCCT CCACCTGGAA CGTTCTACAA ACCTCCAGGA 
GGCAAGAGCA AATCGTTAAC TGAGGTTGAA CTCCAGTCTG TTAGAGCAAC CGCAAACAGT 
ACTGAAGAAG AAGAAGAGGA TGATGACGAT GACGATGAGG AAGAAGAGTT TGGCGTGGAA 
GTCTCGGTTG ATGAACCTGA GCCAGAATTA GACCAAGAAA CATCAGTGGA CGCCCATGAT 
ACAAGTCCAC TTCCTGAATC GCCAAGCTCC AGCCCCGAGG AACTCGGACA AAATGAGACC 
AAACCTGTGT ACCAGAGACT CCGATCACGG CGCATGCAGG ATCTTGAGCA CCGCGAGGCT 
CATTTTGTTT GA

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

arhgap29a ( XM_005162826.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162883.1 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ODa28720
Clone ID Related Accession (Same CDS sequence)	XM_005162826.4 , XM_005162826.3
Accession Version	XM_005162826.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3624bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	rho GTPase-activating protein 29 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005162826.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAAGTG TGGCGGTTGG TGTGAACTAC AAGGAAGTGA ATGAAGACAA CAAGCAGACG 
CTCTTTTCTG AGATCTACAC TTCTATAGAT ACATTGGCCT TCACTTTTGG CAATGTCGTG 
TCGGACTTCC TTATGGGAGA TGTAGAGAAC GGCTCAGCCT CGGGGCTTCC TCAGGCCAGC 
AGGAGCAGGT CCTTTGAAAA CCTGACGCTG GAGTCTGGCG GATGTGGACC GGAAAAAGAT 
GACCCTCCAG GCCCGTCTCC ACCAGCGCGG GTGGAGCAGA TGGATGGAGC TCTGCTCAGG 
AGTGACAGCG GGGTGGAGTC GGCTCTGCTT TATGCCAAAG CCTGGTCCAA ATACACCAAG 
GAGCTGCTGG CCTGGGTGGA CAAACGCCTG AACATGGACA TCGAGTGTGC AAAGAGCTAT 
GCCAAGATGG CTGAATCTGC AAAGGCGCTG GCGTCTCAAC AGGAGCACAT GCCATTCAGG 
GATATTTACA TCTCTGCCTT CAGGAACGAC ATTGAATACA GTCAGCTTAT CATGCAAACC 
ACAGCCGCTC TACAGGCCAA CAAATTCATG CAGCCTCTGC AAGCTCGAAA AAGTGAGCTA 
GATAAACTGA GGAAGGAGGT GAAGGAACAG TGGCAGAGGG AACAGAAGAA AATGCATGAA 
GCCGACTCTG CACTGAGGAA AGCTCGTCTC CTTCAGGCTC AGCGGCAGGA GGAGTATGAA 
AAGGCTCGCA GCTCCACCAG CCGAGTAGAA GAGGAGCAGA TCAGCGGTGC TGGGGGAAAA 
CAGCTGGAGA AGAGACGCAA GCTGGAGGAG GAGGCTCTGC TGAAGGCAGA GGAAGCTCAA 
GATCATTATA AGCTCTGCGT CACAGACGTC GGGGTGAAGA GAGTCGATCT CGCAAAAACC 
AAGAGCGAGA TCCTGACGCA GATACGAGAG CTTGTGTTTC AGTGCGATCT GACCCTCAAA 
GCAGTAACGG TGAACTGGTT TCAGATGCAG CAAGCTCAGG TCGCGTCTCT GCCCATCAAC 
TTCCAGTCAC TATGTGAAAA CTCCAAACTG TATGAACCGG GTCTGTGTTA CACTGAATTT 
GTGAAGAGTC TGCCCTCTGA CAGGTCCAGG GTCGAATCCT TCTCCTTCGA CATCTCCAGC 
ACACACAACA CAGGGTTGAA GCGAGCGGTG AACAGCACTC CCGCAGCCCT AGTGCACTTA 
TCGCAGGTGT CTGGAGATTT CCTGAGTGCA GATGAGGTGG AGAGTCACGT TCAGGCTCGC 
ACTGCAAAGA TGCCGGACGG ACGCTCGCAC AGCACCACGG ATGTTCAAGC TCTGAGGATC 
CAGGGTCCGT TCCGTGTCTG GAGGACCAGC AGTCAGGGTG GAGGCATGTG CAGTGACTCT 
GAGAGTGCTG GAGGAAGCAG TGAATCTCGC TCTATGGACT CGCCTACAGC AAGCCCAGGC 
GACTTTAAGA GAAGGCTTCC CAGGACCCCA TCCACAGGCA CCATGTCTTC AGCAGATGAT 
CTGGACGAGA GAGAACCTCC GTCTCCTTCA GATAATGGTC TGAGCGAAAT GGTGACAGAG 
GCGGCCAGTT CTCCGGGACC TTTCCGCAAC ACACAGATGT CGAAAGCTGC ACAGACGCAC 
AAACTGAGGA AACTGAGGGC TCCATCAAAG TGCAGGGAGT GTGACAGTCT TGTGGTGTTT 
CATGGTGCTG AATGCGAGGA GTGTTCTCTG GCTTGCCATA AGAAGTGTTT GGAGACTCTG 
GCCATCCAGT GTGGTCATAA GAAGCTCCAG GGAAAACTAC ATTTATTTGC GATCGACTTT 
GCTCAGGCGG CGAAGAACAG TCCTGATGGA ATCCCCTTCA TTATCAAAAA ATGCACCTCG 
GAGATCGAAA ACAGGGCGCT TAACATCAAG GGAATTTACC GTGTTAATGG TGCCAAATCT 
CGGGTGGAGA AGCTTTGTCA GGCTTTTGAA AATGGCAAAG ACTTGGTGGA GCTTTCGGAT 
CTCTACCCTC ACGATATCAG CAACGTCCTC AAACTCTACT TACGCCAGCT CCCAGAGCCT 
CTCATTCTCT TCCGATACTA TAACGACTTC ATCGGACTGG CTAAAGAGAG TCAGAGTATC 
ATTGTTGATG AAGTGGAGGC ATCGAGAGGA TGTCCAACCT CTGACACTCC ACAGATCAGC 
GTAGAGCTCA ATCGGGTCCT CTTCAAGATT AAAGACCTGC TGCGCCAGCT TCCTCCAGCC 
CATTATAAGA CCCTGCAGTT CCTCATTCAG CACTTGCACA GAGTGTCAGA AAGGGCAGAT 
GAGAACAAAA TGACTTCCAG TAATTTGGGC ATCATCTTCG GTCCCACATT GATCAAACCC 
CGACAGGCCG ATGCTGAGGT GTCTCTGTCC TCTTTGGTGG ACTATCCCTA CCAGGCCTTG 
ATCGTGGAGC TTTTGATCCG CCATTATGAG ATGATCTTCG ACACTCCTCT GAGTCCGCTT 
CCACCTTCCT CGCCTGTAGC AGAGAGCTCT CCGCTGCCCG TTAAATCACG CTTCACCCCT 
CAGGAGAAGG GGCAACAGCT TAGCAGACAT TCAAAGTCCC TGGTGGACAT TAAGGAGCAG 
CAACAGTCAA AAGCTAAGAT GTATAAAAGG CATTCCTCCG TAATACCTTC TATGCATCTG 
ATGGATGAGG TGAAAGAGGG AAAGATACGA TCTGACAAAG ACTTCGCTGC AGTTGGCGAT 
AAATCGGACA TGAACAAGCT CCTCTCATCA AGTGTTCCTG AAATGCGAAA CTCACCTGGT 
CTCACTCGCC GTAACCATGT GACCAGAGTC CAGCTACGAC CTCCAAGACC CAAGCTCGTC 
TCTCGACCAA TCAGCATGCC GGCCGAACGC CTTCTCAACC TCTCCAAGGT GGACGAATGT 
AATGTGAAGA ACTCCGTAGA GCAGGAAGAA ACCCACAGTC GAGATCCCGT CATCGAGGAA 
GTATCCGAAG AGGAGAAGCC CAAGTCCAGA GCGGGAAACC ATTACAGGAA ATCATACATC 
GACACGCAAA CTCTACGGCG GACTTGGGAC AAGCAATACA AGCATCATGA CATCACTCCG 
AAAACCTGTC CTGTAGATTC TGGGTCCAAT GACACCAATG TTCACACTTC ATCACTCACA 
TCGTCATCCT TCTCAGAACA CAGCAAAAGC CCCAGCACAG TTCTTGCTAA CAGACCCTAC 
ACCATTGCTG TGAGGCCTGG ACGTACTTTA CGTAGGGAAG GAAACATTAG TGAGTTTTGT 
CCGGTTCCTA CAGCCTTCAG GCCCCCAAGA ACTCTTCAGC CTCCACCTGG AACGTTCTAC 
AAACCTCCAG GAGGCAAGAG CAAATCGTTA ACTGAGGTTG AACTCCAGTC TGTTAGAGCA 
ACCGCAAACA GTACTGAAGA AGAAGAAGAG GATGATGACG ATGACGATGA GGAAGAAGAG 
TTTGGCGTGG AAGTCTCGGT TGATGAACCT GAGCCAGAAT TAGACCAAGA AACATCAGTG 
GACGCCCATG ATACAAGTCC ACTTCCTGAA TCGCCAAGCT CCAGCCCCGA GGAACTCGGA 
CAAAATGAGA CCAAACCTGT GTACCAGAGA CTCCGATCAC GGCGCATGCA GGATCTTGAG 
CACCGCGAGG CTCATTTTGT TTGA

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

RefSeq	XP_005162883.1
CDS	238..3861
Translation	MGSVAVGVNYKEVNEDNKQTLFSEIYTSIDTLAFTFGNVVSDFLMGDVENGSASGLPQASRSRSFENLTLESGGCGPEKDDPPGPSPPARVEQMDGALLRSDSGVESALLYAKAWSKYTKELLAWVDKRLNMDIECAKSYAKMAESAKALASQQEHMPFRDIYISAFRNDIEYSQLIMQTTAALQANKFMQPLQARKSELDKLRKEVKEQWQREQKKMHEADSALRKARLLQAQRQEEYEKARSSTSRVEEEQISGAGGKQLEKRRKLEEEALLKAEEAQDHYKLCVTDVGVKRVDLAKTKSEILTQIRELVFQCDLTLKAVTVNWFQMQQAQVASLPINFQSLCENSKLYEPGLCYTEFVKSLPSDRSRVESFSFDISSTHNTGLKRAVNSTPAALVHLSQVSGDFLSADEVESHVQARTAKMPDGRSHSTTDVQALRIQGPFRVWRTSSQGGGMCSDSESAGGSSESRSMDSPTASPGDFKRRLPRTPSTGTMSSADDLDEREPPSPSDNGLSEMVTEAASSPGPFRNTQMSKAAQTHKLRKLRAPSKCRECDSLVVFHGAECEECSLACHKKCLETLAIQCGHKKLQGKLHLFAIDFAQAAKNSPDGIPFIIKKCTSEIENRALNIKGIYRVNGAKSRVEKLCQAFENGKDLVELSDLYPHDISNVLKLYLRQLPEPLILFRYYNDFIGLAKESQSIIVDEVEASRGCPTSDTPQISVELNRVLFKIKDLLRQLPPAHYKTLQFLIQHLHRVSERADENKMTSSNLGIIFGPTLIKPRQADAEVSLSSLVDYPYQALIVELLIRHYEMIFDTPLSPLPPSSPVAESSPLPVKSRFTPQEKGQQLSRHSKSLVDIKEQQQSKAKMYKRHSSVIPSMHLMDEVKEGKIRSDKDFAAVGDKSDMNKLLSSSVPEMRNSPGLTRRNHVTRVQLRPPRPKLVSRPISMPAERLLNLSKVDECNVKNSVEQEETHSRDPVIEEVSEEEKPKSRAGNHYRKSYIDTQTLRRTWDKQYKHHDITPKTCPVDSGSNDTNVHTSSLTSSSFSEHSKSPSTVLANRPYTIAVRPGRTLRREGNISEFCPVPTAFRPPRTLQPPPGTFYKPPGGKSKSLTEVELQSVRATANSTEEEEEDDDDDDEEEEFGVEVSVDEPEPELDQETSVDAHDTSPLPESPSSSPEELGQNETKPVYQRLRSRRMQDLEHREAHFV

Target ORF information:

RefSeq Version	XM_005162826.4
Organism	Danio rerio(zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X3, mRNA.

Target ORF information:

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

XM_005162826.4

ORF Insert Sequence:

ATGGGAAGTG TGGCGGTTGG TGTGAACTAC AAGGAAGTGA ATGAAGACAA CAAGCAGACG 
CTCTTTTCTG AGATCTACAC TTCTATAGAT ACATTGGCCT TCACTTTTGG CAATGTCGTG 
TCGGACTTCC TTATGGGAGA TGTAGAGAAC GGCTCAGCCT CGGGGCTTCC TCAGGCCAGC 
AGGAGCAGGT CCTTTGAAAA CCTGACGCTG GAGTCTGGCG GATGTGGACC GGAAAAAGAT 
GACCCTCCAG GCCCGTCTCC ACCAGCGCGG GTGGAGCAGA TGGATGGAGC TCTGCTCAGG 
AGTGACAGCG GGGTGGAGTC GGCTCTGCTT TATGCCAAAG CCTGGTCCAA ATACACCAAG 
GAGCTGCTGG CCTGGGTGGA CAAACGCCTG AACATGGACA TCGAGTGTGC AAAGAGCTAT 
GCCAAGATGG CTGAATCTGC AAAGGCGCTG GCGTCTCAAC AGGAGCACAT GCCATTCAGG 
GATATTTACA TCTCTGCCTT CAGGAACGAC ATTGAATACA GTCAGCTTAT CATGCAAACC 
ACAGCCGCTC TACAGGCCAA CAAATTCATG CAGCCTCTGC AAGCTCGAAA AAGTGAGCTA 
GATAAACTGA GGAAGGAGGT GAAGGAACAG TGGCAGAGGG AACAGAAGAA AATGCATGAA 
GCCGACTCTG CACTGAGGAA AGCTCGTCTC CTTCAGGCTC AGCGGCAGGA GGAGTATGAA 
AAGGCTCGCA GCTCCACCAG CCGAGTAGAA GAGGAGCAGA TCAGCGGTGC TGGGGGAAAA 
CAGCTGGAGA AGAGACGCAA GCTGGAGGAG GAGGCTCTGC TGAAGGCAGA GGAAGCTCAA 
GATCATTATA AGCTCTGCGT CACAGACGTC GGGGTGAAGA GAGTCGATCT CGCAAAAACC 
AAGAGCGAGA TCCTGACGCA GATACGAGAG CTTGTGTTTC AGTGCGATCT GACCCTCAAA 
GCAGTAACGG TGAACTGGTT TCAGATGCAG CAAGCTCAGG TCGCGTCTCT GCCCATCAAC 
TTCCAGTCAC TATGTGAAAA CTCCAAACTG TATGAACCGG GTCTGTGTTA CACTGAATTT 
GTGAAGAGTC TGCCCTCTGA CAGGTCCAGG GTCGAATCCT TCTCCTTCGA CATCTCCAGC 
ACACACAACA CAGGGTTGAA GCGAGCGGTG AACAGCACTC CCGCAGCCCT AGTGCACTTA 
TCGCAGGTGT CTGGAGATTT CCTGAGTGCA GATGAGGTGG AGAGTCACGT TCAGGCTCGC 
ACTGCAAAGA TGCCGGACGG ACGCTCGCAC AGCACCACGG ATGTTCAAGC TCTGAGGATC 
CAGGGTCCGT TCCGTGTCTG GAGGACCAGC AGTCAGGGTG GAGGCATGTG CAGTGACTCT 
GAGAGTGCTG GAGGAAGCAG TGAATCTCGC TCTATGGACT CGCCTACAGC AAGCCCAGGC 
GACTTTAAGA GAAGGCTTCC CAGGACCCCA TCCACAGGCA CCATGTCTTC AGCAGATGAT 
CTGGACGAGA GAGAACCTCC GTCTCCTTCA GATAATGGTC TGAGCGAAAT GGTGACAGAG 
GCGGCCAGTT CTCCGGGACC TTTCCGCAAC ACACAGATGT CGAAAGCTGC ACAGACGCAC 
AAACTGAGGA AACTGAGGGC TCCATCAAAG TGCAGGGAGT GTGACAGTCT TGTGGTGTTT 
CATGGTGCTG AATGCGAGGA GTGTTCTCTG GCTTGCCATA AGAAGTGTTT GGAGACTCTG 
GCCATCCAGT GTGGTCATAA GAAGCTCCAG GGAAAACTAC ATTTATTTGC GATCGACTTT 
GCTCAGGCGG CGAAGAACAG TCCTGATGGA ATCCCCTTCA TTATCAAAAA ATGCACCTCG 
GAGATCGAAA ACAGGGCGCT TAACATCAAG GGAATTTACC GTGTTAATGG TGCCAAATCT 
CGGGTGGAGA AGCTTTGTCA GGCTTTTGAA AATGGCAAAG ACTTGGTGGA GCTTTCGGAT 
CTCTACCCTC ACGATATCAG CAACGTCCTC AAACTCTACT TACGCCAGCT CCCAGAGCCT 
CTCATTCTCT TCCGATACTA TAACGACTTC ATCGGACTGG CTAAAGAGAG TCAGAGTATC 
ATTGTTGATG AAGTGGAGGC ATCGAGAGGA TGTCCAACCT CTGACACTCC ACAGATCAGC 
GTAGAGCTCA ATCGGGTCCT CTTCAAGATT AAAGACCTGC TGCGCCAGCT TCCTCCAGCC 
CATTATAAGA CCCTGCAGTT CCTCATTCAG CACTTGCACA GAGTGTCAGA AAGGGCAGAT 
GAGAACAAAA TGACTTCCAG TAATTTGGGC ATCATCTTCG GTCCCACATT GATCAAACCC 
CGACAGGCCG ATGCTGAGGT GTCTCTGTCC TCTTTGGTGG ACTATCCCTA CCAGGCCTTG 
ATCGTGGAGC TTTTGATCCG CCATTATGAG ATGATCTTCG ACACTCCTCT GAGTCCGCTT 
CCACCTTCCT CGCCTGTAGC AGAGAGCTCT CCGCTGCCCG TTAAATCACG CTTCACCCCT 
CAGGAGAAGG GGCAACAGCT TAGCAGACAT TCAAAGTCCC TGGTGGACAT TAAGGAGCAG 
CAACAGTCAA AAGCTAAGAT GTATAAAAGG CATTCCTCCG TAATACCTTC TATGCATCTG 
ATGGATGAGG TGAAAGAGGG AAAGATACGA TCTGACAAAG ACTTCGCTGC AGTTGGCGAT 
AAATCGGACA TGAACAAGCT CCTCTCATCA AGTGTTCCTG AAATGCGAAA CTCACCTGGT 
CTCACTCGCC GTAACCATGT GACCAGAGTC CAGCTACGAC CTCCAAGACC CAAGCTCGTC 
TCTCGACCAA TCAGCATGCC GGCCGAACGC CTTCTCAACC TCTCCAAGGT GGACGAATGT 
AATGTGAAGA ACTCCGTAGA GCAGGAAGAA ACCCACAGTC GAGATCCCGT CATCGAGGAA 
GTATCCGAAG AGGAGAAGCC CAAGTCCAGA GCGGGAAACC ATTACAGGAA ATCATACATC 
GACACGCAAA CTCTACGGCG GACTTGGGAC AAGCAATACA AGCATCATGA CATCACTCCG 
AAAACCTGTC CTGTAGATTC TGGGTCCAAT GACACCAATG TTCACACTTC ATCACTCACA 
TCGTCATCCT TCTCAGAACA CAGCAAAAGC CCCAGCACAG TTCTTGCTAA CAGACCCTAC 
ACCATTGCTG TGAGGCCTGG ACGTACTTTA CGTAGGGAAG GAAACATTAG TGAGTTTTGT 
CCGGTTCCTA CAGCCTTCAG GCCCCCAAGA ACTCTTCAGC CTCCACCTGG AACGTTCTAC 
AAACCTCCAG GAGGCAAGAG CAAATCGTTA ACTGAGGTTG AACTCCAGTC TGTTAGAGCA 
ACCGCAAACA GTACTGAAGA AGAAGAAGAG GATGATGACG ATGACGATGA GGAAGAAGAG 
TTTGGCGTGG AAGTCTCGGT TGATGAACCT GAGCCAGAAT TAGACCAAGA AACATCAGTG 
GACGCCCATG ATACAAGTCC ACTTCCTGAA TCGCCAAGCT CCAGCCCCGA GGAACTCGGA 
CAAAATGAGA CCAAACCTGT GTACCAGAGA CTCCGATCAC GGCGCATGCA GGATCTTGAG 
CACCGCGAGG CTCATTTTGT TTGA

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

arhgap29a ( XM_005162826.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162883.1 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X3, mRNA.

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CloneID	ODa28720
Clone ID Related Accession (Same CDS sequence)	XM_005162826.4 , XM_005162826.3
Accession Version	XM_005162826.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3624bp) 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	2016-06-23
Organism	Danio rerio(Zebrafish)
Product	rho GTPase-activating protein 29 isoform X3
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005162826.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAAGTG TGGCGGTTGG TGTGAACTAC AAGGAAGTGA ATGAAGACAA CAAGCAGACG 
CTCTTTTCTG AGATCTACAC TTCTATAGAT ACATTGGCCT TCACTTTTGG CAATGTCGTG 
TCGGACTTCC TTATGGGAGA TGTAGAGAAC GGCTCAGCCT CGGGGCTTCC TCAGGCCAGC 
AGGAGCAGGT CCTTTGAAAA CCTGACGCTG GAGTCTGGCG GATGTGGACC GGAAAAAGAT 
GACCCTCCAG GCCCGTCTCC ACCAGCGCGG GTGGAGCAGA TGGATGGAGC TCTGCTCAGG 
AGTGACAGCG GGGTGGAGTC GGCTCTGCTT TATGCCAAAG CCTGGTCCAA ATACACCAAG 
GAGCTGCTGG CCTGGGTGGA CAAACGCCTG AACATGGACA TCGAGTGTGC AAAGAGCTAT 
GCCAAGATGG CTGAATCTGC AAAGGCGCTG GCGTCTCAAC AGGAGCACAT GCCATTCAGG 
GATATTTACA TCTCTGCCTT CAGGAACGAC ATTGAATACA GTCAGCTTAT CATGCAAACC 
ACAGCCGCTC TACAGGCCAA CAAATTCATG CAGCCTCTGC AAGCTCGAAA AAGTGAGCTA 
GATAAACTGA GGAAGGAGGT GAAGGAACAG TGGCAGAGGG AACAGAAGAA AATGCATGAA 
GCCGACTCTG CACTGAGGAA AGCTCGTCTC CTTCAGGCTC AGCGGCAGGA GGAGTATGAA 
AAGGCTCGCA GCTCCACCAG CCGAGTAGAA GAGGAGCAGA TCAGCGGTGC TGGGGGAAAA 
CAGCTGGAGA AGAGACGCAA GCTGGAGGAG GAGGCTCTGC TGAAGGCAGA GGAAGCTCAA 
GATCATTATA AGCTCTGCGT CACAGACGTC GGGGTGAAGA GAGTCGATCT CGCAAAAACC 
AAGAGCGAGA TCCTGACGCA GATACGAGAG CTTGTGTTTC AGTGCGATCT GACCCTCAAA 
GCAGTAACGG TGAACTGGTT TCAGATGCAG CAAGCTCAGG TCGCGTCTCT GCCCATCAAC 
TTCCAGTCAC TATGTGAAAA CTCCAAACTG TATGAACCGG GTCTGTGTTA CACTGAATTT 
GTGAAGAGTC TGCCCTCTGA CAGGTCCAGG GTCGAATCCT TCTCCTTCGA CATCTCCAGC 
ACACACAACA CAGGGTTGAA GCGAGCGGTG AACAGCACTC CCGCAGCCCT AGTGCACTTA 
TCGCAGGTGT CTGGAGATTT CCTGAGTGCA GATGAGGTGG AGAGTCACGT TCAGGCTCGC 
ACTGCAAAGA TGCCGGACGG ACGCTCGCAC AGCACCACGG ATGTTCAAGC TCTGAGGATC 
CAGGGTCCGT TCCGTGTCTG GAGGACCAGC AGTCAGGGTG GAGGCATGTG CAGTGACTCT 
GAGAGTGCTG GAGGAAGCAG TGAATCTCGC TCTATGGACT CGCCTACAGC AAGCCCAGGC 
GACTTTAAGA GAAGGCTTCC CAGGACCCCA TCCACAGGCA CCATGTCTTC AGCAGATGAT 
CTGGACGAGA GAGAACCTCC GTCTCCTTCA GATAATGGTC TGAGCGAAAT GGTGACAGAG 
GCGGCCAGTT CTCCGGGACC TTTCCGCAAC ACACAGATGT CGAAAGCTGC ACAGACGCAC 
AAACTGAGGA AACTGAGGGC TCCATCAAAG TGCAGGGAGT GTGACAGTCT TGTGGTGTTT 
CATGGTGCTG AATGCGAGGA GTGTTCTCTG GCTTGCCATA AGAAGTGTTT GGAGACTCTG 
GCCATCCAGT GTGGTCATAA GAAGCTCCAG GGAAAACTAC ATTTATTTGC GATCGACTTT 
GCTCAGGCGG CGAAGAACAG TCCTGATGGA ATCCCCTTCA TTATCAAAAA ATGCACCTCG 
GAGATCGAAA ACAGGGCGCT TAACATCAAG GGAATTTACC GTGTTAATGG TGCCAAATCT 
CGGGTGGAGA AGCTTTGTCA GGCTTTTGAA AATGGCAAAG ACTTGGTGGA GCTTTCGGAT 
CTCTACCCTC ACGATATCAG CAACGTCCTC AAACTCTACT TACGCCAGCT CCCAGAGCCT 
CTCATTCTCT TCCGATACTA TAACGACTTC ATCGGACTGG CTAAAGAGAG TCAGAGTATC 
ATTGTTGATG AAGTGGAGGC ATCGAGAGGA TGTCCAACCT CTGACACTCC ACAGATCAGC 
GTAGAGCTCA ATCGGGTCCT CTTCAAGATT AAAGACCTGC TGCGCCAGCT TCCTCCAGCC 
CATTATAAGA CCCTGCAGTT CCTCATTCAG CACTTGCACA GAGTGTCAGA AAGGGCAGAT 
GAGAACAAAA TGACTTCCAG TAATTTGGGC ATCATCTTCG GTCCCACATT GATCAAACCC 
CGACAGGCCG ATGCTGAGGT GTCTCTGTCC TCTTTGGTGG ACTATCCCTA CCAGGCCTTG 
ATCGTGGAGC TTTTGATCCG CCATTATGAG ATGATCTTCG ACACTCCTCT GAGTCCGCTT 
CCACCTTCCT CGCCTGTAGC AGAGAGCTCT CCGCTGCCCG TTAAATCACG CTTCACCCCT 
CAGGAGAAGG GGCAACAGCT TAGCAGACAT TCAAAGTCCC TGGTGGACAT TAAGGAGCAG 
CAACAGTCAA AAGCTAAGAT GTATAAAAGG CATTCCTCCG TAATACCTTC TATGCATCTG 
ATGGATGAGG TGAAAGAGGG AAAGATACGA TCTGACAAAG ACTTCGCTGC AGTTGGCGAT 
AAATCGGACA TGAACAAGCT CCTCTCATCA AGTGTTCCTG AAATGCGAAA CTCACCTGGT 
CTCACTCGCC GTAACCATGT GACCAGAGTC CAGCTACGAC CTCCAAGACC CAAGCTCGTC 
TCTCGACCAA TCAGCATGCC GGCCGAACGC CTTCTCAACC TCTCCAAGGT GGACGAATGT 
AATGTGAAGA ACTCCGTAGA GCAGGAAGAA ACCCACAGTC GAGATCCCGT CATCGAGGAA 
GTATCCGAAG AGGAGAAGCC CAAGTCCAGA GCGGGAAACC ATTACAGGAA ATCATACATC 
GACACGCAAA CTCTACGGCG GACTTGGGAC AAGCAATACA AGCATCATGA CATCACTCCG 
AAAACCTGTC CTGTAGATTC TGGGTCCAAT GACACCAATG TTCACACTTC ATCACTCACA 
TCGTCATCCT TCTCAGAACA CAGCAAAAGC CCCAGCACAG TTCTTGCTAA CAGACCCTAC 
ACCATTGCTG TGAGGCCTGG ACGTACTTTA CGTAGGGAAG GAAACATTAG TGAGTTTTGT 
CCGGTTCCTA CAGCCTTCAG GCCCCCAAGA ACTCTTCAGC CTCCACCTGG AACGTTCTAC 
AAACCTCCAG GAGGCAAGAG CAAATCGTTA ACTGAGGTTG AACTCCAGTC TGTTAGAGCA 
ACCGCAAACA GTACTGAAGA AGAAGAAGAG GATGATGACG ATGACGATGA GGAAGAAGAG 
TTTGGCGTGG AAGTCTCGGT TGATGAACCT GAGCCAGAAT TAGACCAAGA AACATCAGTG 
GACGCCCATG ATACAAGTCC ACTTCCTGAA TCGCCAAGCT CCAGCCCCGA GGAACTCGGA 
CAAAATGAGA CCAAACCTGT GTACCAGAGA CTCCGATCAC GGCGCATGCA GGATCTTGAG 
CACCGCGAGG CTCATTTTGT TTGA

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

RefSeq	XP_005162883.1
CDS	230..3853
Translation	MGSVAVGVNYKEVNEDNKQTLFSEIYTSIDTLAFTFGNVVSDFLMGDVENGSASGLPQASRSRSFENLTLESGGCGPEKDDPPGPSPPARVEQMDGALLRSDSGVESALLYAKAWSKYTKELLAWVDKRLNMDIECAKSYAKMAESAKALASQQEHMPFRDIYISAFRNDIEYSQLIMQTTAALQANKFMQPLQARKSELDKLRKEVKEQWQREQKKMHEADSALRKARLLQAQRQEEYEKARSSTSRVEEEQISGAGGKQLEKRRKLEEEALLKAEEAQDHYKLCVTDVGVKRVDLAKTKSEILTQIRELVFQCDLTLKAVTVNWFQMQQAQVASLPINFQSLCENSKLYEPGLCYTEFVKSLPSDRSRVESFSFDISSTHNTGLKRAVNSTPAALVHLSQVSGDFLSADEVESHVQARTAKMPDGRSHSTTDVQALRIQGPFRVWRTSSQGGGMCSDSESAGGSSESRSMDSPTASPGDFKRRLPRTPSTGTMSSADDLDEREPPSPSDNGLSEMVTEAASSPGPFRNTQMSKAAQTHKLRKLRAPSKCRECDSLVVFHGAECEECSLACHKKCLETLAIQCGHKKLQGKLHLFAIDFAQAAKNSPDGIPFIIKKCTSEIENRALNIKGIYRVNGAKSRVEKLCQAFENGKDLVELSDLYPHDISNVLKLYLRQLPEPLILFRYYNDFIGLAKESQSIIVDEVEASRGCPTSDTPQISVELNRVLFKIKDLLRQLPPAHYKTLQFLIQHLHRVSERADENKMTSSNLGIIFGPTLIKPRQADAEVSLSSLVDYPYQALIVELLIRHYEMIFDTPLSPLPPSSPVAESSPLPVKSRFTPQEKGQQLSRHSKSLVDIKEQQQSKAKMYKRHSSVIPSMHLMDEVKEGKIRSDKDFAAVGDKSDMNKLLSSSVPEMRNSPGLTRRNHVTRVQLRPPRPKLVSRPISMPAERLLNLSKVDECNVKNSVEQEETHSRDPVIEEVSEEEKPKSRAGNHYRKSYIDTQTLRRTWDKQYKHHDITPKTCPVDSGSNDTNVHTSSLTSSSFSEHSKSPSTVLANRPYTIAVRPGRTLRREGNISEFCPVPTAFRPPRTLQPPPGTFYKPPGGKSKSLTEVELQSVRATANSTEEEEEDDDDDDEEEEFGVEVSVDEPEPELDQETSVDAHDTSPLPESPSSSPEELGQNETKPVYQRLRSRRMQDLEHREAHFV

Target ORF information:

RefSeq Version	XM_005162826.3
Organism	Danio rerio(Zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X3, mRNA.

Target ORF information:

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

XM_005162826.3

ORF Insert Sequence:

ATGGGAAGTG TGGCGGTTGG TGTGAACTAC AAGGAAGTGA ATGAAGACAA CAAGCAGACG 
CTCTTTTCTG AGATCTACAC TTCTATAGAT ACATTGGCCT TCACTTTTGG CAATGTCGTG 
TCGGACTTCC TTATGGGAGA TGTAGAGAAC GGCTCAGCCT CGGGGCTTCC TCAGGCCAGC 
AGGAGCAGGT CCTTTGAAAA CCTGACGCTG GAGTCTGGCG GATGTGGACC GGAAAAAGAT 
GACCCTCCAG GCCCGTCTCC ACCAGCGCGG GTGGAGCAGA TGGATGGAGC TCTGCTCAGG 
AGTGACAGCG GGGTGGAGTC GGCTCTGCTT TATGCCAAAG CCTGGTCCAA ATACACCAAG 
GAGCTGCTGG CCTGGGTGGA CAAACGCCTG AACATGGACA TCGAGTGTGC AAAGAGCTAT 
GCCAAGATGG CTGAATCTGC AAAGGCGCTG GCGTCTCAAC AGGAGCACAT GCCATTCAGG 
GATATTTACA TCTCTGCCTT CAGGAACGAC ATTGAATACA GTCAGCTTAT CATGCAAACC 
ACAGCCGCTC TACAGGCCAA CAAATTCATG CAGCCTCTGC AAGCTCGAAA AAGTGAGCTA 
GATAAACTGA GGAAGGAGGT GAAGGAACAG TGGCAGAGGG AACAGAAGAA AATGCATGAA 
GCCGACTCTG CACTGAGGAA AGCTCGTCTC CTTCAGGCTC AGCGGCAGGA GGAGTATGAA 
AAGGCTCGCA GCTCCACCAG CCGAGTAGAA GAGGAGCAGA TCAGCGGTGC TGGGGGAAAA 
CAGCTGGAGA AGAGACGCAA GCTGGAGGAG GAGGCTCTGC TGAAGGCAGA GGAAGCTCAA 
GATCATTATA AGCTCTGCGT CACAGACGTC GGGGTGAAGA GAGTCGATCT CGCAAAAACC 
AAGAGCGAGA TCCTGACGCA GATACGAGAG CTTGTGTTTC AGTGCGATCT GACCCTCAAA 
GCAGTAACGG TGAACTGGTT TCAGATGCAG CAAGCTCAGG TCGCGTCTCT GCCCATCAAC 
TTCCAGTCAC TATGTGAAAA CTCCAAACTG TATGAACCGG GTCTGTGTTA CACTGAATTT 
GTGAAGAGTC TGCCCTCTGA CAGGTCCAGG GTCGAATCCT TCTCCTTCGA CATCTCCAGC 
ACACACAACA CAGGGTTGAA GCGAGCGGTG AACAGCACTC CCGCAGCCCT AGTGCACTTA 
TCGCAGGTGT CTGGAGATTT CCTGAGTGCA GATGAGGTGG AGAGTCACGT TCAGGCTCGC 
ACTGCAAAGA TGCCGGACGG ACGCTCGCAC AGCACCACGG ATGTTCAAGC TCTGAGGATC 
CAGGGTCCGT TCCGTGTCTG GAGGACCAGC AGTCAGGGTG GAGGCATGTG CAGTGACTCT 
GAGAGTGCTG GAGGAAGCAG TGAATCTCGC TCTATGGACT CGCCTACAGC AAGCCCAGGC 
GACTTTAAGA GAAGGCTTCC CAGGACCCCA TCCACAGGCA CCATGTCTTC AGCAGATGAT 
CTGGACGAGA GAGAACCTCC GTCTCCTTCA GATAATGGTC TGAGCGAAAT GGTGACAGAG 
GCGGCCAGTT CTCCGGGACC TTTCCGCAAC ACACAGATGT CGAAAGCTGC ACAGACGCAC 
AAACTGAGGA AACTGAGGGC TCCATCAAAG TGCAGGGAGT GTGACAGTCT TGTGGTGTTT 
CATGGTGCTG AATGCGAGGA GTGTTCTCTG GCTTGCCATA AGAAGTGTTT GGAGACTCTG 
GCCATCCAGT GTGGTCATAA GAAGCTCCAG GGAAAACTAC ATTTATTTGC GATCGACTTT 
GCTCAGGCGG CGAAGAACAG TCCTGATGGA ATCCCCTTCA TTATCAAAAA ATGCACCTCG 
GAGATCGAAA ACAGGGCGCT TAACATCAAG GGAATTTACC GTGTTAATGG TGCCAAATCT 
CGGGTGGAGA AGCTTTGTCA GGCTTTTGAA AATGGCAAAG ACTTGGTGGA GCTTTCGGAT 
CTCTACCCTC ACGATATCAG CAACGTCCTC AAACTCTACT TACGCCAGCT CCCAGAGCCT 
CTCATTCTCT TCCGATACTA TAACGACTTC ATCGGACTGG CTAAAGAGAG TCAGAGTATC 
ATTGTTGATG AAGTGGAGGC ATCGAGAGGA TGTCCAACCT CTGACACTCC ACAGATCAGC 
GTAGAGCTCA ATCGGGTCCT CTTCAAGATT AAAGACCTGC TGCGCCAGCT TCCTCCAGCC 
CATTATAAGA CCCTGCAGTT CCTCATTCAG CACTTGCACA GAGTGTCAGA AAGGGCAGAT 
GAGAACAAAA TGACTTCCAG TAATTTGGGC ATCATCTTCG GTCCCACATT GATCAAACCC 
CGACAGGCCG ATGCTGAGGT GTCTCTGTCC TCTTTGGTGG ACTATCCCTA CCAGGCCTTG 
ATCGTGGAGC TTTTGATCCG CCATTATGAG ATGATCTTCG ACACTCCTCT GAGTCCGCTT 
CCACCTTCCT CGCCTGTAGC AGAGAGCTCT CCGCTGCCCG TTAAATCACG CTTCACCCCT 
CAGGAGAAGG GGCAACAGCT TAGCAGACAT TCAAAGTCCC TGGTGGACAT TAAGGAGCAG 
CAACAGTCAA AAGCTAAGAT GTATAAAAGG CATTCCTCCG TAATACCTTC TATGCATCTG 
ATGGATGAGG TGAAAGAGGG AAAGATACGA TCTGACAAAG ACTTCGCTGC AGTTGGCGAT 
AAATCGGACA TGAACAAGCT CCTCTCATCA AGTGTTCCTG AAATGCGAAA CTCACCTGGT 
CTCACTCGCC GTAACCATGT GACCAGAGTC CAGCTACGAC CTCCAAGACC CAAGCTCGTC 
TCTCGACCAA TCAGCATGCC GGCCGAACGC CTTCTCAACC TCTCCAAGGT GGACGAATGT 
AATGTGAAGA ACTCCGTAGA GCAGGAAGAA ACCCACAGTC GAGATCCCGT CATCGAGGAA 
GTATCCGAAG AGGAGAAGCC CAAGTCCAGA GCGGGAAACC ATTACAGGAA ATCATACATC 
GACACGCAAA CTCTACGGCG GACTTGGGAC AAGCAATACA AGCATCATGA CATCACTCCG 
AAAACCTGTC CTGTAGATTC TGGGTCCAAT GACACCAATG TTCACACTTC ATCACTCACA 
TCGTCATCCT TCTCAGAACA CAGCAAAAGC CCCAGCACAG TTCTTGCTAA CAGACCCTAC 
ACCATTGCTG TGAGGCCTGG ACGTACTTTA CGTAGGGAAG GAAACATTAG TGAGTTTTGT 
CCGGTTCCTA CAGCCTTCAG GCCCCCAAGA ACTCTTCAGC CTCCACCTGG AACGTTCTAC 
AAACCTCCAG GAGGCAAGAG CAAATCGTTA ACTGAGGTTG AACTCCAGTC TGTTAGAGCA 
ACCGCAAACA GTACTGAAGA AGAAGAAGAG GATGATGACG ATGACGATGA GGAAGAAGAG 
TTTGGCGTGG AAGTCTCGGT TGATGAACCT GAGCCAGAAT TAGACCAAGA AACATCAGTG 
GACGCCCATG ATACAAGTCC ACTTCCTGAA TCGCCAAGCT CCAGCCCCGA GGAACTCGGA 
CAAAATGAGA CCAAACCTGT GTACCAGAGA CTCCGATCAC GGCGCATGCA GGATCTTGAG 
CACCGCGAGG CTCATTTTGT TTGA

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

arhgap29a ( XM_688135.9 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_693227.4 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ODa28719
Clone ID Related Accession (Same CDS sequence)	XM_688135.9 , XM_688135.8
Accession Version	XM_688135.9 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4035bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	rho GTPase-activating protein 29 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_688135.8. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA GCAACAGTCA 
AAAGCTAAGA TGTATAAAAG GCATTCCTCC GTAATACCTT CTATGCATCT GATGGATGAG 
GTGAAAGAGG GAAAGATACG ATCTGACAAA GACTTCGCTG CAGTTGGCGA TAAATCGGAC 
ATGAACAAGC TCCTCTCATC AAGTGTTCCT GAAATGCGAA ACTCACCTGG TCTCACTCGC 
CGTAACCATG TGACCAGAGT CCAGCTACGA CCTCCAAGAC CCAAGCTCGT CTCTCGACCA 
ATCAGCATGC CGGCCGAACG CCTTCTCAAC CTCTCCAAGG TGGACGAATG TAATGTGAAG 
AACTCCGTAG AGCAGGAAGA AACCCACAGT CGAGATCCCG TCATCGAGGA AGTATCCGAA 
GAGGAGAAGC CCAAGTCCAG AGCGGGAAAC CATTACAGGA AATCATACAT CGACACGCAA 
ACTCTACGGC GGACTTGGGA CAAGCAATAC AAGCATCATG ACATCACTCC GAAAACCTGT 
CCTGTAGATT CTGGGTCCAA TGACACCAAT GTTCACACTT CATCACTCAC ATCGTCATCC 
TTCTCAGAAC ACAGCAAAAG CCCCAGCACA GTTCTTGCTA ACAGACCCTA CACCATTGCT 
GTGAGGCCTG GACGTACTTT ACGTAGGGAA GGAAACATTA GTGAGTTTTG TCCGGTTCCT 
ACAGCCTTCA GGCCCCCAAG AACTCTTCAG CCTCCACCTG GAACGTTCTA CAAACCTCCA 
GGAGGCAAGA GCAAATCGTT AACTGAGGTT GAACTCCAGT CTGTTAGAGC AACCGCAAAC 
AGTACTGAAG AAGAAGAAGA GGATGATGAC GATGACGATG AGGAAGAAGA GTTTGGCGTG 
GAAGTCTCGG TTGATGAACC TGAGCCAGAA TTAGACCAAG AAACATCAGT GGACGCCCAT 
GATACAAGTC CACTTCCTGA ATCGCCAAGC TCCAGCCCCG AGGAACTCGG ACAAAATGAG 
ACCAAACCTG TGTACCAGAG ACTCCGATCA CGGCGCATGC AGGATCTTGA GCACCGCGAG 
GCTCATTTTG TTTGA

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

RefSeq	XP_693227.4
CDS	204..4238
Translation	MFAAGMLQQSSGGLNKRSLGMARIPDSRFFPLSSGSGSWGLSRTVKSGSLSSISSGSDNMDNMMGADPDYIMQLVNDVRRFADVLLHLKEAFNTKDHQDCLHQVVHERLGELLRVLKAVISKHHSLNSVEILSAAGTLIAKVKGVNYKEVNEDNKQTLFSEIYTSIDTLAFTFGNVVSDFLMGDVENGSASGLPQASRSRSFENLTLESGGCGPEKDDPPGPSPPARVEQMDGALLRSDSGVESALLYAKAWSKYTKELLAWVDKRLNMDIECAKSYAKMAESAKALASQQEHMPFRDIYISAFRNDIEYSQLIMQTTAALQANKFMQPLQARKSELDKLRKEVKEQWQREQKKMHEADSALRKARLLQAQRQEEYEKARSSTSRVEEEQISGAGGKQLEKRRKLEEEALLKAEEAQDHYKLCVTDVGVKRVDLAKTKSEILTQIRELVFQCDLTLKAVTVNWFQMQQAQVASLPINFQSLCENSKLYEPGLCYTEFVKSLPSDRSRVESFSFDISSTHNTGLKRAVNSTPAALVHLSQVSGDFLSADEVESHVQARTAKMPDGRSHSTTDVQALRIQGPFRVWRTSSQGGGMCSDSESAGGSSESRSMDSPTASPGDFKRRLPRTPSTGTMSSADDLDEREPPSPSDNGLSEMVTEAASSPGPFRNTQMSKAAQTHKLRKLRAPSKCRECDSLVVFHGAECEECSLACHKKCLETLAIQCGHKKLQGKLHLFAIDFAQAAKNSPDGIPFIIKKCTSEIENRALNIKGIYRVNGAKSRVEKLCQAFENGKDLVELSDLYPHDISNVLKLYLRQLPEPLILFRYYNDFIGLAKESQSIIVDEVEASRGCPTSDTPQISVELNRVLFKIKDLLRQLPPAHYKTLQFLIQHLHRVSERADENKMTSSNLGIIFGPTLIKPRQADAEVSLSSLVDYPYQALIVELLIRHYEMIFDTPLSPLPPSSPVAESSPLPVKSRFTPQEKGQQLSRHSKSLVDIKEQQQSKAKMYKRHSSVIPSMHLMDEVKEGKIRSDKDFAAVGDKSDMNKLLSSSVPEMRNSPGLTRRNHVTRVQLRPPRPKLVSRPISMPAERLLNLSKVDECNVKNSVEQEETHSRDPVIEEVSEEEKPKSRAGNHYRKSYIDTQTLRRTWDKQYKHHDITPKTCPVDSGSNDTNVHTSSLTSSSFSEHSKSPSTVLANRPYTIAVRPGRTLRREGNISEFCPVPTAFRPPRTLQPPPGTFYKPPGGKSKSLTEVELQSVRATANSTEEEEEDDDDDDEEEEFGVEVSVDEPEPELDQETSVDAHDTSPLPESPSSSPEELGQNETKPVYQRLRSRRMQDLEHREAHFV

Target ORF information:

RefSeq Version	XM_688135.9
Organism	Danio rerio(zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X1, mRNA.

Target ORF information:

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

XM_688135.9

ORF Insert Sequence:

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA GCAACAGTCA 
AAAGCTAAGA TGTATAAAAG GCATTCCTCC GTAATACCTT CTATGCATCT GATGGATGAG 
GTGAAAGAGG GAAAGATACG ATCTGACAAA GACTTCGCTG CAGTTGGCGA TAAATCGGAC 
ATGAACAAGC TCCTCTCATC AAGTGTTCCT GAAATGCGAA ACTCACCTGG TCTCACTCGC 
CGTAACCATG TGACCAGAGT CCAGCTACGA CCTCCAAGAC CCAAGCTCGT CTCTCGACCA 
ATCAGCATGC CGGCCGAACG CCTTCTCAAC CTCTCCAAGG TGGACGAATG TAATGTGAAG 
AACTCCGTAG AGCAGGAAGA AACCCACAGT CGAGATCCCG TCATCGAGGA AGTATCCGAA 
GAGGAGAAGC CCAAGTCCAG AGCGGGAAAC CATTACAGGA AATCATACAT CGACACGCAA 
ACTCTACGGC GGACTTGGGA CAAGCAATAC AAGCATCATG ACATCACTCC GAAAACCTGT 
CCTGTAGATT CTGGGTCCAA TGACACCAAT GTTCACACTT CATCACTCAC ATCGTCATCC 
TTCTCAGAAC ACAGCAAAAG CCCCAGCACA GTTCTTGCTA ACAGACCCTA CACCATTGCT 
GTGAGGCCTG GACGTACTTT ACGTAGGGAA GGAAACATTA GTGAGTTTTG TCCGGTTCCT 
ACAGCCTTCA GGCCCCCAAG AACTCTTCAG CCTCCACCTG GAACGTTCTA CAAACCTCCA 
GGAGGCAAGA GCAAATCGTT AACTGAGGTT GAACTCCAGT CTGTTAGAGC AACCGCAAAC 
AGTACTGAAG AAGAAGAAGA GGATGATGAC GATGACGATG AGGAAGAAGA GTTTGGCGTG 
GAAGTCTCGG TTGATGAACC TGAGCCAGAA TTAGACCAAG AAACATCAGT GGACGCCCAT 
GATACAAGTC CACTTCCTGA ATCGCCAAGC TCCAGCCCCG AGGAACTCGG ACAAAATGAG 
ACCAAACCTG TGTACCAGAG ACTCCGATCA CGGCGCATGC AGGATCTTGA GCACCGCGAG 
GCTCATTTTG TTTGA

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

arhgap29a ( XM_688135.8 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_693227.4 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ODa28719
Clone ID Related Accession (Same CDS sequence)	XM_688135.9 , XM_688135.8
Accession Version	XM_688135.8	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4035bp) 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	2016-06-23
Organism	Danio rerio(Zebrafish)
Product	rho GTPase-activating protein 29 isoform X1
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_688135.7. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA GCAACAGTCA 
AAAGCTAAGA TGTATAAAAG GCATTCCTCC GTAATACCTT CTATGCATCT GATGGATGAG 
GTGAAAGAGG GAAAGATACG ATCTGACAAA GACTTCGCTG CAGTTGGCGA TAAATCGGAC 
ATGAACAAGC TCCTCTCATC AAGTGTTCCT GAAATGCGAA ACTCACCTGG TCTCACTCGC 
CGTAACCATG TGACCAGAGT CCAGCTACGA CCTCCAAGAC CCAAGCTCGT CTCTCGACCA 
ATCAGCATGC CGGCCGAACG CCTTCTCAAC CTCTCCAAGG TGGACGAATG TAATGTGAAG 
AACTCCGTAG AGCAGGAAGA AACCCACAGT CGAGATCCCG TCATCGAGGA AGTATCCGAA 
GAGGAGAAGC CCAAGTCCAG AGCGGGAAAC CATTACAGGA AATCATACAT CGACACGCAA 
ACTCTACGGC GGACTTGGGA CAAGCAATAC AAGCATCATG ACATCACTCC GAAAACCTGT 
CCTGTAGATT CTGGGTCCAA TGACACCAAT GTTCACACTT CATCACTCAC ATCGTCATCC 
TTCTCAGAAC ACAGCAAAAG CCCCAGCACA GTTCTTGCTA ACAGACCCTA CACCATTGCT 
GTGAGGCCTG GACGTACTTT ACGTAGGGAA GGAAACATTA GTGAGTTTTG TCCGGTTCCT 
ACAGCCTTCA GGCCCCCAAG AACTCTTCAG CCTCCACCTG GAACGTTCTA CAAACCTCCA 
GGAGGCAAGA GCAAATCGTT AACTGAGGTT GAACTCCAGT CTGTTAGAGC AACCGCAAAC 
AGTACTGAAG AAGAAGAAGA GGATGATGAC GATGACGATG AGGAAGAAGA GTTTGGCGTG 
GAAGTCTCGG TTGATGAACC TGAGCCAGAA TTAGACCAAG AAACATCAGT GGACGCCCAT 
GATACAAGTC CACTTCCTGA ATCGCCAAGC TCCAGCCCCG AGGAACTCGG ACAAAATGAG 
ACCAAACCTG TGTACCAGAG ACTCCGATCA CGGCGCATGC AGGATCTTGA GCACCGCGAG 
GCTCATTTTG TTTGA

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

RefSeq	XP_693227.4
CDS	196..4230
Translation	MFAAGMLQQSSGGLNKRSLGMARIPDSRFFPLSSGSGSWGLSRTVKSGSLSSISSGSDNMDNMMGADPDYIMQLVNDVRRFADVLLHLKEAFNTKDHQDCLHQVVHERLGELLRVLKAVISKHHSLNSVEILSAAGTLIAKVKGVNYKEVNEDNKQTLFSEIYTSIDTLAFTFGNVVSDFLMGDVENGSASGLPQASRSRSFENLTLESGGCGPEKDDPPGPSPPARVEQMDGALLRSDSGVESALLYAKAWSKYTKELLAWVDKRLNMDIECAKSYAKMAESAKALASQQEHMPFRDIYISAFRNDIEYSQLIMQTTAALQANKFMQPLQARKSELDKLRKEVKEQWQREQKKMHEADSALRKARLLQAQRQEEYEKARSSTSRVEEEQISGAGGKQLEKRRKLEEEALLKAEEAQDHYKLCVTDVGVKRVDLAKTKSEILTQIRELVFQCDLTLKAVTVNWFQMQQAQVASLPINFQSLCENSKLYEPGLCYTEFVKSLPSDRSRVESFSFDISSTHNTGLKRAVNSTPAALVHLSQVSGDFLSADEVESHVQARTAKMPDGRSHSTTDVQALRIQGPFRVWRTSSQGGGMCSDSESAGGSSESRSMDSPTASPGDFKRRLPRTPSTGTMSSADDLDEREPPSPSDNGLSEMVTEAASSPGPFRNTQMSKAAQTHKLRKLRAPSKCRECDSLVVFHGAECEECSLACHKKCLETLAIQCGHKKLQGKLHLFAIDFAQAAKNSPDGIPFIIKKCTSEIENRALNIKGIYRVNGAKSRVEKLCQAFENGKDLVELSDLYPHDISNVLKLYLRQLPEPLILFRYYNDFIGLAKESQSIIVDEVEASRGCPTSDTPQISVELNRVLFKIKDLLRQLPPAHYKTLQFLIQHLHRVSERADENKMTSSNLGIIFGPTLIKPRQADAEVSLSSLVDYPYQALIVELLIRHYEMIFDTPLSPLPPSSPVAESSPLPVKSRFTPQEKGQQLSRHSKSLVDIKEQQQSKAKMYKRHSSVIPSMHLMDEVKEGKIRSDKDFAAVGDKSDMNKLLSSSVPEMRNSPGLTRRNHVTRVQLRPPRPKLVSRPISMPAERLLNLSKVDECNVKNSVEQEETHSRDPVIEEVSEEEKPKSRAGNHYRKSYIDTQTLRRTWDKQYKHHDITPKTCPVDSGSNDTNVHTSSLTSSSFSEHSKSPSTVLANRPYTIAVRPGRTLRREGNISEFCPVPTAFRPPRTLQPPPGTFYKPPGGKSKSLTEVELQSVRATANSTEEEEEDDDDDDEEEEFGVEVSVDEPEPELDQETSVDAHDTSPLPESPSSSPEELGQNETKPVYQRLRSRRMQDLEHREAHFV

Target ORF information:

RefSeq Version	XM_688135.8
Organism	Danio rerio(Zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X1, mRNA.

Target ORF information:

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

XM_688135.8

ORF Insert Sequence:

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA GCAACAGTCA 
AAAGCTAAGA TGTATAAAAG GCATTCCTCC GTAATACCTT CTATGCATCT GATGGATGAG 
GTGAAAGAGG GAAAGATACG ATCTGACAAA GACTTCGCTG CAGTTGGCGA TAAATCGGAC 
ATGAACAAGC TCCTCTCATC AAGTGTTCCT GAAATGCGAA ACTCACCTGG TCTCACTCGC 
CGTAACCATG TGACCAGAGT CCAGCTACGA CCTCCAAGAC CCAAGCTCGT CTCTCGACCA 
ATCAGCATGC CGGCCGAACG CCTTCTCAAC CTCTCCAAGG TGGACGAATG TAATGTGAAG 
AACTCCGTAG AGCAGGAAGA AACCCACAGT CGAGATCCCG TCATCGAGGA AGTATCCGAA 
GAGGAGAAGC CCAAGTCCAG AGCGGGAAAC CATTACAGGA AATCATACAT CGACACGCAA 
ACTCTACGGC GGACTTGGGA CAAGCAATAC AAGCATCATG ACATCACTCC GAAAACCTGT 
CCTGTAGATT CTGGGTCCAA TGACACCAAT GTTCACACTT CATCACTCAC ATCGTCATCC 
TTCTCAGAAC ACAGCAAAAG CCCCAGCACA GTTCTTGCTA ACAGACCCTA CACCATTGCT 
GTGAGGCCTG GACGTACTTT ACGTAGGGAA GGAAACATTA GTGAGTTTTG TCCGGTTCCT 
ACAGCCTTCA GGCCCCCAAG AACTCTTCAG CCTCCACCTG GAACGTTCTA CAAACCTCCA 
GGAGGCAAGA GCAAATCGTT AACTGAGGTT GAACTCCAGT CTGTTAGAGC AACCGCAAAC 
AGTACTGAAG AAGAAGAAGA GGATGATGAC GATGACGATG AGGAAGAAGA GTTTGGCGTG 
GAAGTCTCGG TTGATGAACC TGAGCCAGAA TTAGACCAAG AAACATCAGT GGACGCCCAT 
GATACAAGTC CACTTCCTGA ATCGCCAAGC TCCAGCCCCG AGGAACTCGG ACAAAATGAG 
ACCAAACCTG TGTACCAGAG ACTCCGATCA CGGCGCATGC AGGATCTTGA GCACCGCGAG 
GCTCATTTTG TTTGA

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

arhgap29a ( XM_009297526.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009295801.1 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X2, mRNA.

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CloneID	ODa44411
Clone ID Related Accession (Same CDS sequence)	XM_009297526.2 , XM_009297526.3
Accession Version	XM_009297526.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4032bp) 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	2016-06-23
Organism	Danio rerio(Zebrafish)
Product	rho GTPase-activating protein 29 isoform X2
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009297526.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA ACAGTCAAAA 
GCTAAGATGT ATAAAAGGCA TTCCTCCGTA ATACCTTCTA TGCATCTGAT GGATGAGGTG 
AAAGAGGGAA AGATACGATC TGACAAAGAC TTCGCTGCAG TTGGCGATAA ATCGGACATG 
AACAAGCTCC TCTCATCAAG TGTTCCTGAA ATGCGAAACT CACCTGGTCT CACTCGCCGT 
AACCATGTGA CCAGAGTCCA GCTACGACCT CCAAGACCCA AGCTCGTCTC TCGACCAATC 
AGCATGCCGG CCGAACGCCT TCTCAACCTC TCCAAGGTGG ACGAATGTAA TGTGAAGAAC 
TCCGTAGAGC AGGAAGAAAC CCACAGTCGA GATCCCGTCA TCGAGGAAGT ATCCGAAGAG 
GAGAAGCCCA AGTCCAGAGC GGGAAACCAT TACAGGAAAT CATACATCGA CACGCAAACT 
CTACGGCGGA CTTGGGACAA GCAATACAAG CATCATGACA TCACTCCGAA AACCTGTCCT 
GTAGATTCTG GGTCCAATGA CACCAATGTT CACACTTCAT CACTCACATC GTCATCCTTC 
TCAGAACACA GCAAAAGCCC CAGCACAGTT CTTGCTAACA GACCCTACAC CATTGCTGTG 
AGGCCTGGAC GTACTTTACG TAGGGAAGGA AACATTAGTG AGTTTTGTCC GGTTCCTACA 
GCCTTCAGGC CCCCAAGAAC TCTTCAGCCT CCACCTGGAA CGTTCTACAA ACCTCCAGGA 
GGCAAGAGCA AATCGTTAAC TGAGGTTGAA CTCCAGTCTG TTAGAGCAAC CGCAAACAGT 
ACTGAAGAAG AAGAAGAGGA TGATGACGAT GACGATGAGG AAGAAGAGTT TGGCGTGGAA 
GTCTCGGTTG ATGAACCTGA GCCAGAATTA GACCAAGAAA CATCAGTGGA CGCCCATGAT 
ACAAGTCCAC TTCCTGAATC GCCAAGCTCC AGCCCCGAGG AACTCGGACA AAATGAGACC 
AAACCTGTGT ACCAGAGACT CCGATCACGG CGCATGCAGG ATCTTGAGCA CCGCGAGGCT 
CATTTTGTTT GA

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

RefSeq	XP_009295801.1
CDS	196..4227
Translation	MFAAGMLQQSSGGLNKRSLGMARIPDSRFFPLSSGSGSWGLSRTVKSGSLSSISSGSDNMDNMMGADPDYIMQLVNDVRRFADVLLHLKEAFNTKDHQDCLHQVVHERLGELLRVLKAVISKHHSLNSVEILSAAGTLIAKVKGVNYKEVNEDNKQTLFSEIYTSIDTLAFTFGNVVSDFLMGDVENGSASGLPQASRSRSFENLTLESGGCGPEKDDPPGPSPPARVEQMDGALLRSDSGVESALLYAKAWSKYTKELLAWVDKRLNMDIECAKSYAKMAESAKALASQQEHMPFRDIYISAFRNDIEYSQLIMQTTAALQANKFMQPLQARKSELDKLRKEVKEQWQREQKKMHEADSALRKARLLQAQRQEEYEKARSSTSRVEEEQISGAGGKQLEKRRKLEEEALLKAEEAQDHYKLCVTDVGVKRVDLAKTKSEILTQIRELVFQCDLTLKAVTVNWFQMQQAQVASLPINFQSLCENSKLYEPGLCYTEFVKSLPSDRSRVESFSFDISSTHNTGLKRAVNSTPAALVHLSQVSGDFLSADEVESHVQARTAKMPDGRSHSTTDVQALRIQGPFRVWRTSSQGGGMCSDSESAGGSSESRSMDSPTASPGDFKRRLPRTPSTGTMSSADDLDEREPPSPSDNGLSEMVTEAASSPGPFRNTQMSKAAQTHKLRKLRAPSKCRECDSLVVFHGAECEECSLACHKKCLETLAIQCGHKKLQGKLHLFAIDFAQAAKNSPDGIPFIIKKCTSEIENRALNIKGIYRVNGAKSRVEKLCQAFENGKDLVELSDLYPHDISNVLKLYLRQLPEPLILFRYYNDFIGLAKESQSIIVDEVEASRGCPTSDTPQISVELNRVLFKIKDLLRQLPPAHYKTLQFLIQHLHRVSERADENKMTSSNLGIIFGPTLIKPRQADAEVSLSSLVDYPYQALIVELLIRHYEMIFDTPLSPLPPSSPVAESSPLPVKSRFTPQEKGQQLSRHSKSLVDIKEQQSKAKMYKRHSSVIPSMHLMDEVKEGKIRSDKDFAAVGDKSDMNKLLSSSVPEMRNSPGLTRRNHVTRVQLRPPRPKLVSRPISMPAERLLNLSKVDECNVKNSVEQEETHSRDPVIEEVSEEEKPKSRAGNHYRKSYIDTQTLRRTWDKQYKHHDITPKTCPVDSGSNDTNVHTSSLTSSSFSEHSKSPSTVLANRPYTIAVRPGRTLRREGNISEFCPVPTAFRPPRTLQPPPGTFYKPPGGKSKSLTEVELQSVRATANSTEEEEEDDDDDDEEEEFGVEVSVDEPEPELDQETSVDAHDTSPLPESPSSSPEELGQNETKPVYQRLRSRRMQDLEHREAHFV

Target ORF information:

RefSeq Version	XM_009297526.2
Organism	Danio rerio(Zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X2, mRNA.

Target ORF information:

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

XM_009297526.2

ORF Insert Sequence:

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA ACAGTCAAAA 
GCTAAGATGT ATAAAAGGCA TTCCTCCGTA ATACCTTCTA TGCATCTGAT GGATGAGGTG 
AAAGAGGGAA AGATACGATC TGACAAAGAC TTCGCTGCAG TTGGCGATAA ATCGGACATG 
AACAAGCTCC TCTCATCAAG TGTTCCTGAA ATGCGAAACT CACCTGGTCT CACTCGCCGT 
AACCATGTGA CCAGAGTCCA GCTACGACCT CCAAGACCCA AGCTCGTCTC TCGACCAATC 
AGCATGCCGG CCGAACGCCT TCTCAACCTC TCCAAGGTGG ACGAATGTAA TGTGAAGAAC 
TCCGTAGAGC AGGAAGAAAC CCACAGTCGA GATCCCGTCA TCGAGGAAGT ATCCGAAGAG 
GAGAAGCCCA AGTCCAGAGC GGGAAACCAT TACAGGAAAT CATACATCGA CACGCAAACT 
CTACGGCGGA CTTGGGACAA GCAATACAAG CATCATGACA TCACTCCGAA AACCTGTCCT 
GTAGATTCTG GGTCCAATGA CACCAATGTT CACACTTCAT CACTCACATC GTCATCCTTC 
TCAGAACACA GCAAAAGCCC CAGCACAGTT CTTGCTAACA GACCCTACAC CATTGCTGTG 
AGGCCTGGAC GTACTTTACG TAGGGAAGGA AACATTAGTG AGTTTTGTCC GGTTCCTACA 
GCCTTCAGGC CCCCAAGAAC TCTTCAGCCT CCACCTGGAA CGTTCTACAA ACCTCCAGGA 
GGCAAGAGCA AATCGTTAAC TGAGGTTGAA CTCCAGTCTG TTAGAGCAAC CGCAAACAGT 
ACTGAAGAAG AAGAAGAGGA TGATGACGAT GACGATGAGG AAGAAGAGTT TGGCGTGGAA 
GTCTCGGTTG ATGAACCTGA GCCAGAATTA GACCAAGAAA CATCAGTGGA CGCCCATGAT 
ACAAGTCCAC TTCCTGAATC GCCAAGCTCC AGCCCCGAGG AACTCGGACA AAATGAGACC 
AAACCTGTGT ACCAGAGACT CCGATCACGG CGCATGCAGG ATCTTGAGCA CCGCGAGGCT 
CATTTTGTTT GA

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

arhgap29a ( XM_009297526.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009295801.1 Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X2, mRNA.

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CloneID	ODa44411
Clone ID Related Accession (Same CDS sequence)	XM_009297526.2 , XM_009297526.3
Accession Version	XM_009297526.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4032bp) 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	2017-06-14
Organism	Danio rerio(zebrafish)
Product	rho GTPase-activating protein 29 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009297526.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA ACAGTCAAAA 
GCTAAGATGT ATAAAAGGCA TTCCTCCGTA ATACCTTCTA TGCATCTGAT GGATGAGGTG 
AAAGAGGGAA AGATACGATC TGACAAAGAC TTCGCTGCAG TTGGCGATAA ATCGGACATG 
AACAAGCTCC TCTCATCAAG TGTTCCTGAA ATGCGAAACT CACCTGGTCT CACTCGCCGT 
AACCATGTGA CCAGAGTCCA GCTACGACCT CCAAGACCCA AGCTCGTCTC TCGACCAATC 
AGCATGCCGG CCGAACGCCT TCTCAACCTC TCCAAGGTGG ACGAATGTAA TGTGAAGAAC 
TCCGTAGAGC AGGAAGAAAC CCACAGTCGA GATCCCGTCA TCGAGGAAGT ATCCGAAGAG 
GAGAAGCCCA AGTCCAGAGC GGGAAACCAT TACAGGAAAT CATACATCGA CACGCAAACT 
CTACGGCGGA CTTGGGACAA GCAATACAAG CATCATGACA TCACTCCGAA AACCTGTCCT 
GTAGATTCTG GGTCCAATGA CACCAATGTT CACACTTCAT CACTCACATC GTCATCCTTC 
TCAGAACACA GCAAAAGCCC CAGCACAGTT CTTGCTAACA GACCCTACAC CATTGCTGTG 
AGGCCTGGAC GTACTTTACG TAGGGAAGGA AACATTAGTG AGTTTTGTCC GGTTCCTACA 
GCCTTCAGGC CCCCAAGAAC TCTTCAGCCT CCACCTGGAA CGTTCTACAA ACCTCCAGGA 
GGCAAGAGCA AATCGTTAAC TGAGGTTGAA CTCCAGTCTG TTAGAGCAAC CGCAAACAGT 
ACTGAAGAAG AAGAAGAGGA TGATGACGAT GACGATGAGG AAGAAGAGTT TGGCGTGGAA 
GTCTCGGTTG ATGAACCTGA GCCAGAATTA GACCAAGAAA CATCAGTGGA CGCCCATGAT 
ACAAGTCCAC TTCCTGAATC GCCAAGCTCC AGCCCCGAGG AACTCGGACA AAATGAGACC 
AAACCTGTGT ACCAGAGACT CCGATCACGG CGCATGCAGG ATCTTGAGCA CCGCGAGGCT 
CATTTTGTTT GA

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

RefSeq	XP_009295801.1
CDS	205..4236
Translation	MFAAGMLQQSSGGLNKRSLGMARIPDSRFFPLSSGSGSWGLSRTVKSGSLSSISSGSDNMDNMMGADPDYIMQLVNDVRRFADVLLHLKEAFNTKDHQDCLHQVVHERLGELLRVLKAVISKHHSLNSVEILSAAGTLIAKVKGVNYKEVNEDNKQTLFSEIYTSIDTLAFTFGNVVSDFLMGDVENGSASGLPQASRSRSFENLTLESGGCGPEKDDPPGPSPPARVEQMDGALLRSDSGVESALLYAKAWSKYTKELLAWVDKRLNMDIECAKSYAKMAESAKALASQQEHMPFRDIYISAFRNDIEYSQLIMQTTAALQANKFMQPLQARKSELDKLRKEVKEQWQREQKKMHEADSALRKARLLQAQRQEEYEKARSSTSRVEEEQISGAGGKQLEKRRKLEEEALLKAEEAQDHYKLCVTDVGVKRVDLAKTKSEILTQIRELVFQCDLTLKAVTVNWFQMQQAQVASLPINFQSLCENSKLYEPGLCYTEFVKSLPSDRSRVESFSFDISSTHNTGLKRAVNSTPAALVHLSQVSGDFLSADEVESHVQARTAKMPDGRSHSTTDVQALRIQGPFRVWRTSSQGGGMCSDSESAGGSSESRSMDSPTASPGDFKRRLPRTPSTGTMSSADDLDEREPPSPSDNGLSEMVTEAASSPGPFRNTQMSKAAQTHKLRKLRAPSKCRECDSLVVFHGAECEECSLACHKKCLETLAIQCGHKKLQGKLHLFAIDFAQAAKNSPDGIPFIIKKCTSEIENRALNIKGIYRVNGAKSRVEKLCQAFENGKDLVELSDLYPHDISNVLKLYLRQLPEPLILFRYYNDFIGLAKESQSIIVDEVEASRGCPTSDTPQISVELNRVLFKIKDLLRQLPPAHYKTLQFLIQHLHRVSERADENKMTSSNLGIIFGPTLIKPRQADAEVSLSSLVDYPYQALIVELLIRHYEMIFDTPLSPLPPSSPVAESSPLPVKSRFTPQEKGQQLSRHSKSLVDIKEQQSKAKMYKRHSSVIPSMHLMDEVKEGKIRSDKDFAAVGDKSDMNKLLSSSVPEMRNSPGLTRRNHVTRVQLRPPRPKLVSRPISMPAERLLNLSKVDECNVKNSVEQEETHSRDPVIEEVSEEEKPKSRAGNHYRKSYIDTQTLRRTWDKQYKHHDITPKTCPVDSGSNDTNVHTSSLTSSSFSEHSKSPSTVLANRPYTIAVRPGRTLRREGNISEFCPVPTAFRPPRTLQPPPGTFYKPPGGKSKSLTEVELQSVRATANSTEEEEEDDDDDDEEEEFGVEVSVDEPEPELDQETSVDAHDTSPLPESPSSSPEELGQNETKPVYQRLRSRRMQDLEHREAHFV

Target ORF information:

RefSeq Version	XM_009297526.3
Organism	Danio rerio(zebrafish)
Definition	Danio rerio Rho GTPase activating protein 29a (arhgap29a), transcript variant X2, mRNA.

Target ORF information:

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

XM_009297526.3

ORF Insert Sequence:

ATGTTTGCTG CTGGGATGCT GCAGCAGAGC AGCGGAGGAC TAAACAAGCG ATCGCTGGGA 
ATGGCACGGA TTCCCGATTC TCGCTTTTTT CCTCTTTCCT CGGGCTCGGG GTCGTGGGGT 
TTGAGCCGGA CTGTGAAGAG CGGCTCTTTG AGCTCCATCA GCTCAGGGTC GGACAATATG 
GACAATATGA TGGGAGCCGA TCCCGACTAC ATCATGCAAC TGGTCAACGA TGTCCGGAGG 
TTTGCAGATG TACTTCTCCA CCTTAAGGAA GCGTTTAACA CCAAAGATCA CCAGGACTGT 
CTGCATCAGG TGGTTCACGA GCGTCTGGGA GAGCTGCTGC GTGTATTAAA AGCAGTGATT 
TCCAAACACC ACTCCCTGAA TTCAGTGGAG ATCCTCAGCG CAGCAGGGAC CCTCATCGCA 
AAGGTCAAAG GTGTGAACTA CAAGGAAGTG AATGAAGACA ACAAGCAGAC GCTCTTTTCT 
GAGATCTACA CTTCTATAGA TACATTGGCC TTCACTTTTG GCAATGTCGT GTCGGACTTC 
CTTATGGGAG ATGTAGAGAA CGGCTCAGCC TCGGGGCTTC CTCAGGCCAG CAGGAGCAGG 
TCCTTTGAAA ACCTGACGCT GGAGTCTGGC GGATGTGGAC CGGAAAAAGA TGACCCTCCA 
GGCCCGTCTC CACCAGCGCG GGTGGAGCAG ATGGATGGAG CTCTGCTCAG GAGTGACAGC 
GGGGTGGAGT CGGCTCTGCT TTATGCCAAA GCCTGGTCCA AATACACCAA GGAGCTGCTG 
GCCTGGGTGG ACAAACGCCT GAACATGGAC ATCGAGTGTG CAAAGAGCTA TGCCAAGATG 
GCTGAATCTG CAAAGGCGCT GGCGTCTCAA CAGGAGCACA TGCCATTCAG GGATATTTAC 
ATCTCTGCCT TCAGGAACGA CATTGAATAC AGTCAGCTTA TCATGCAAAC CACAGCCGCT 
CTACAGGCCA ACAAATTCAT GCAGCCTCTG CAAGCTCGAA AAAGTGAGCT AGATAAACTG 
AGGAAGGAGG TGAAGGAACA GTGGCAGAGG GAACAGAAGA AAATGCATGA AGCCGACTCT 
GCACTGAGGA AAGCTCGTCT CCTTCAGGCT CAGCGGCAGG AGGAGTATGA AAAGGCTCGC 
AGCTCCACCA GCCGAGTAGA AGAGGAGCAG ATCAGCGGTG CTGGGGGAAA ACAGCTGGAG 
AAGAGACGCA AGCTGGAGGA GGAGGCTCTG CTGAAGGCAG AGGAAGCTCA AGATCATTAT 
AAGCTCTGCG TCACAGACGT CGGGGTGAAG AGAGTCGATC TCGCAAAAAC CAAGAGCGAG 
ATCCTGACGC AGATACGAGA GCTTGTGTTT CAGTGCGATC TGACCCTCAA AGCAGTAACG 
GTGAACTGGT TTCAGATGCA GCAAGCTCAG GTCGCGTCTC TGCCCATCAA CTTCCAGTCA 
CTATGTGAAA ACTCCAAACT GTATGAACCG GGTCTGTGTT ACACTGAATT TGTGAAGAGT 
CTGCCCTCTG ACAGGTCCAG GGTCGAATCC TTCTCCTTCG ACATCTCCAG CACACACAAC 
ACAGGGTTGA AGCGAGCGGT GAACAGCACT CCCGCAGCCC TAGTGCACTT ATCGCAGGTG 
TCTGGAGATT TCCTGAGTGC AGATGAGGTG GAGAGTCACG TTCAGGCTCG CACTGCAAAG 
ATGCCGGACG GACGCTCGCA CAGCACCACG GATGTTCAAG CTCTGAGGAT CCAGGGTCCG 
TTCCGTGTCT GGAGGACCAG CAGTCAGGGT GGAGGCATGT GCAGTGACTC TGAGAGTGCT 
GGAGGAAGCA GTGAATCTCG CTCTATGGAC TCGCCTACAG CAAGCCCAGG CGACTTTAAG 
AGAAGGCTTC CCAGGACCCC ATCCACAGGC ACCATGTCTT CAGCAGATGA TCTGGACGAG 
AGAGAACCTC CGTCTCCTTC AGATAATGGT CTGAGCGAAA TGGTGACAGA GGCGGCCAGT 
TCTCCGGGAC CTTTCCGCAA CACACAGATG TCGAAAGCTG CACAGACGCA CAAACTGAGG 
AAACTGAGGG CTCCATCAAA GTGCAGGGAG TGTGACAGTC TTGTGGTGTT TCATGGTGCT 
GAATGCGAGG AGTGTTCTCT GGCTTGCCAT AAGAAGTGTT TGGAGACTCT GGCCATCCAG 
TGTGGTCATA AGAAGCTCCA GGGAAAACTA CATTTATTTG CGATCGACTT TGCTCAGGCG 
GCGAAGAACA GTCCTGATGG AATCCCCTTC ATTATCAAAA AATGCACCTC GGAGATCGAA 
AACAGGGCGC TTAACATCAA GGGAATTTAC CGTGTTAATG GTGCCAAATC TCGGGTGGAG 
AAGCTTTGTC AGGCTTTTGA AAATGGCAAA GACTTGGTGG AGCTTTCGGA TCTCTACCCT 
CACGATATCA GCAACGTCCT CAAACTCTAC TTACGCCAGC TCCCAGAGCC TCTCATTCTC 
TTCCGATACT ATAACGACTT CATCGGACTG GCTAAAGAGA GTCAGAGTAT CATTGTTGAT 
GAAGTGGAGG CATCGAGAGG ATGTCCAACC TCTGACACTC CACAGATCAG CGTAGAGCTC 
AATCGGGTCC TCTTCAAGAT TAAAGACCTG CTGCGCCAGC TTCCTCCAGC CCATTATAAG 
ACCCTGCAGT TCCTCATTCA GCACTTGCAC AGAGTGTCAG AAAGGGCAGA TGAGAACAAA 
ATGACTTCCA GTAATTTGGG CATCATCTTC GGTCCCACAT TGATCAAACC CCGACAGGCC 
GATGCTGAGG TGTCTCTGTC CTCTTTGGTG GACTATCCCT ACCAGGCCTT GATCGTGGAG 
CTTTTGATCC GCCATTATGA GATGATCTTC GACACTCCTC TGAGTCCGCT TCCACCTTCC 
TCGCCTGTAG CAGAGAGCTC TCCGCTGCCC GTTAAATCAC GCTTCACCCC TCAGGAGAAG 
GGGCAACAGC TTAGCAGACA TTCAAAGTCC CTGGTGGACA TTAAGGAGCA ACAGTCAAAA 
GCTAAGATGT ATAAAAGGCA TTCCTCCGTA ATACCTTCTA TGCATCTGAT GGATGAGGTG 
AAAGAGGGAA AGATACGATC TGACAAAGAC TTCGCTGCAG TTGGCGATAA ATCGGACATG 
AACAAGCTCC TCTCATCAAG TGTTCCTGAA ATGCGAAACT CACCTGGTCT CACTCGCCGT 
AACCATGTGA CCAGAGTCCA GCTACGACCT CCAAGACCCA AGCTCGTCTC TCGACCAATC 
AGCATGCCGG CCGAACGCCT TCTCAACCTC TCCAAGGTGG ACGAATGTAA TGTGAAGAAC 
TCCGTAGAGC AGGAAGAAAC CCACAGTCGA GATCCCGTCA TCGAGGAAGT ATCCGAAGAG 
GAGAAGCCCA AGTCCAGAGC GGGAAACCAT TACAGGAAAT CATACATCGA CACGCAAACT 
CTACGGCGGA CTTGGGACAA GCAATACAAG CATCATGACA TCACTCCGAA AACCTGTCCT 
GTAGATTCTG GGTCCAATGA CACCAATGTT CACACTTCAT CACTCACATC GTCATCCTTC 
TCAGAACACA GCAAAAGCCC CAGCACAGTT CTTGCTAACA GACCCTACAC CATTGCTGTG 
AGGCCTGGAC GTACTTTACG TAGGGAAGGA AACATTAGTG AGTTTTGTCC GGTTCCTACA 
GCCTTCAGGC CCCCAAGAAC TCTTCAGCCT CCACCTGGAA CGTTCTACAA ACCTCCAGGA 
GGCAAGAGCA AATCGTTAAC TGAGGTTGAA CTCCAGTCTG TTAGAGCAAC CGCAAACAGT 
ACTGAAGAAG AAGAAGAGGA TGATGACGAT GACGATGAGG AAGAAGAGTT TGGCGTGGAA 
GTCTCGGTTG ATGAACCTGA GCCAGAATTA GACCAAGAAA CATCAGTGGA CGCCCATGAT 
ACAAGTCCAC TTCCTGAATC GCCAAGCTCC AGCCCCGAGG AACTCGGACA AAATGAGACC 
AAACCTGTGT ACCAGAGACT CCGATCACGG CGCATGCAGG ATCTTGAGCA CCGCGAGGCT 
CATTTTGTTT GA

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

PubMed

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arhgap29a cDNA ORF clone, Danio rerio(zebrafish)

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:

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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