SRGAP2 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	SRGAP2
Entrez Gene ID	102561844
Full Name	SLIT-ROBO Rho GTPase activating protein 2
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006267815.3	XP_006267877.2	SLIT-ROBO Rho GTPase-activating protein 2 isoform X1
XM_019477241.1	XP_019332786.1	SLIT-ROBO Rho GTPase-activating protein 2 isoform X2
XM_014609120.2	XP_014464606.1	SLIT-ROBO Rho GTPase-activating protein 2 isoform X3

Pathways from BioSystems
Gene Ontology

The following SRGAP2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SRGAP2 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)
OAl74933	XM_014609120.2 Latest version!	Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
OAl74931	XM_006267815.3 Latest version!	Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl74932	XM_019477241.1 Latest version!	Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

SRGAP2 ( XM_014609120.2 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_014464606.1 Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAl74933
Clone ID Related Accession (Same CDS sequence)	XM_014609120.2
Accession Version	XM_014609120.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2313bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	SLIT-ROBO Rho GTPase-activating protein 2 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713700.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_014609120.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACGTCGC CAGCTAAATT CAAAAAGGAT AAGGAGATCA TAGCTGAATA TGACACTCAA 
GTGAAAGAGA TCCGTGCCCA ACTCATAGAG CAGCTGAAAT GCCTTGACCA GCAATGCGAG 
CTCCGGGTCC AGTTGCTGCA GGACCTGCAG GATTTCTTCC GCAAGAAGGC AGAGATCGAG 
ACAGATTACT CGAGGAACCT GGAGAAGCTG GCTGAGAGAT TCCTGGCCAA AACGAGGAGC 
ACCAAAGACC AGCAATTCAA GAAGGACCAG AACGTCCTCT CGCCGGTCAA CTGCTGGAAT 
CTCCTCTTAA ACCAGGTGAA GCGAGAGAGC AGGGATCACA CCACCCTGAG CGACATCTAC 
CTGAACAACA TCATCCCTCG GTTTGTCCAG GTCAGCGAAG ACTCTGGACG ACTCTTCAAG 
AAGAGTAAGG AAGTTGGACT GCAGCTCCAG GAAGACTTGA TGAAGGTCCT GAATGAACTG 
TACACGGTGA TGAAGACCTA CCATATGTAC AATGCTGACA GCATCAGTGC TCAGAGCAAG 
CTGAAAGAGG CTGAAAAACA AGAAGAAAAG CAGATTGGGA AGTCAGTGAG GCAAGAGGAC 
AAGCAGACTC CACGCTCTCC TGACTCCAGC TCCAACGTCA GGTTTGAAGA GAAACACGTC 
CGGCGAAGCT CAGTCAAGAA AATTGAGAAA ATGAAGGAGA AGCGCCAAGC AAAATACACG 
GAAAATAAAC TGAAGGCCAT TAAGGCGAGA AATGAGTATC TGCTGGCTCT GGAAGCCACC 
AATGCGTCTG TGTTCAAGTA TTACATCCAC GACCTGTCTG ATCTCATTGA TCAGTGCTGT 
GATCTGGGCT ACCACGCAAG CCTCAACAGG GCTCTCAGGA CGTTCCTGTC TGCTGAGCTG 
AACCTGGAGC AGTCGAAGCA CGAAGGGCTT GATGCCATTG AGAATGCTGT GGAGAACCTG 
GACGCCAACA GTGACAAGCA GCGCCTGATG GAGATGTACA ACAATGTCTT CTGCCCACCC 
ATGAAGTTTG AATTTCAGCC TCATATGGGT GACATGGTGT CGCAGCTGTG TGCCCAGCAG 
CCAGTCCAGA GTGAGTTGGT ACAGAGATGC CAGCAGCTGC AGTCCAGATT GTCCACGCTC 
AAGATTGAGA ACGAAGAGGT TAAGAAAACG ATGGAAGCTA CGCTCCAGAC CATCCAGGAT 
ATAGTCACGA TAGAGGACTT TGATGTCTCT GACTGTTTCC AGTACAGCAA CTCCATGGAG 
TCTGTCAAAT CCACCGTCTC TGAAACTTTC ATGAGCAAGC CAAGCATTGC CAAGCGACGG 
GCTAATCAGC AGGAGACTGA GCAGTTCTAC TTCACGAAAA TGAAAGAGTA TCTGGAAGGC 
AGGAACCTGA TAACTAAGCT TCAGGCCAAA CACGACCTCC TTCAGAAGAC CCTGGGAGAA 
AGTCAAAGGA CTGACTGCTC TCTTGCCAGT GGCAGGCGCA GCTCTACCAT AAGGAAGCAG 
GATTCCAGCC AAGCCATTCC CCTGGTGGTG GAGAGCTGCA TCCGATTCAT TAGCAGACAT 
GGGTTGCAGC ATGAAGGGAT ATTCAGAGTG TCTGGATCAC AGGTTGAGGT GAACGATATC 
AAAAACGCAT TTGAGAGAGG GGAGGATCCA CTGGCTGGGG ACCAGAACGA CCATGACATG 
GACTCAATCG CAGGGGTTCT GAAACTCTAT TTTCGAGGGC TGGAGCACCC TCTCTTCCCG 
AAGGACATCT TCCACGACCT GATCGCCTGT GTCACAATGG ATAACTTACA AGAGCGAGCA 
CTGCATATCC GGAAAGTCCT TCTGAACTTG CCCAAAACCA CTCTGATTGT AATGAGATAC 
CTCTTTGCAT TCCTCAATCA TTTATCTCAG TTCAGTGAAG AGAACATGAT GGATCCCTAC 
AACTTAGCCA TCTGCTTTGG ACCCACGCTG ATGTCTGTGC CTGAAGGCCA CGATCAGGTC 
TCCTGCCAGG CTCATGTCAA CGAGCTGATC AAAACCATCA TCATCCAACA TGAGAACATC 
TTCCCAGGAC CAAGAGAGCT GGAGGGCCCG GTCTATAGCA GAGGTGGAAG CACAGAGGAT 
TACTGGGCAG CACCGACAGA AGGAAAAAAC AAAAGCACCA TTTCCATCCA ACCCAAAGCC 
CAGGAGATCA GGCCTCGCGT TCAGTCTGCA GGCAACATCT GGAAGCAATT CAGCCAGCGC 
GGCTCCTGTC ATCTGGGGTG GAAGGTTGGG GAGGGGAGAA GGGAGGTGTT TGCTTTCCTA 
GTGGCTGAAT TGATCTCTCC CACCTCCCAC TGA

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

RefSeq	XP_014464606.1
CDS	421..2733
Translation	MTSPAKFKKDKEIIAEYDTQVKEIRAQLIEQLKCLDQQCELRVQLLQDLQDFFRKKAEIETDYSRNLEKLAERFLAKTRSTKDQQFKKDQNVLSPVNCWNLLLNQVKRESRDHTTLSDIYLNNIIPRFVQVSEDSGRLFKKSKEVGLQLQEDLMKVLNELYTVMKTYHMYNADSISAQSKLKEAEKQEEKQIGKSVRQEDKQTPRSPDSSSNVRFEEKHVRRSSVKKIEKMKEKRQAKYTENKLKAIKARNEYLLALEATNASVFKYYIHDLSDLIDQCCDLGYHASLNRALRTFLSAELNLEQSKHEGLDAIENAVENLDANSDKQRLMEMYNNVFCPPMKFEFQPHMGDMVSQLCAQQPVQSELVQRCQQLQSRLSTLKIENEEVKKTMEATLQTIQDIVTIEDFDVSDCFQYSNSMESVKSTVSETFMSKPSIAKRRANQQETEQFYFTKMKEYLEGRNLITKLQAKHDLLQKTLGESQRTDCSLASGRRSSTIRKQDSSQAIPLVVESCIRFISRHGLQHEGIFRVSGSQVEVNDIKNAFERGEDPLAGDQNDHDMDSIAGVLKLYFRGLEHPLFPKDIFHDLIACVTMDNLQERALHIRKVLLNLPKTTLIVMRYLFAFLNHLSQFSEENMMDPYNLAICFGPTLMSVPEGHDQVSCQAHVNELIKTIIIQHENIFPGPRELEGPVYSRGGSTEDYWAAPTEGKNKSTISIQPKAQEIRPRVQSAGNIWKQFSQRGSCHLGWKVGEGRREVFAFLVAELISPTSH

Target ORF information:

RefSeq Version	XM_014609120.2
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X3, mRNA.

Target ORF information:

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

XM_014609120.2

ORF Insert Sequence:

ATGACGTCGC CAGCTAAATT CAAAAAGGAT AAGGAGATCA TAGCTGAATA TGACACTCAA 
GTGAAAGAGA TCCGTGCCCA ACTCATAGAG CAGCTGAAAT GCCTTGACCA GCAATGCGAG 
CTCCGGGTCC AGTTGCTGCA GGACCTGCAG GATTTCTTCC GCAAGAAGGC AGAGATCGAG 
ACAGATTACT CGAGGAACCT GGAGAAGCTG GCTGAGAGAT TCCTGGCCAA AACGAGGAGC 
ACCAAAGACC AGCAATTCAA GAAGGACCAG AACGTCCTCT CGCCGGTCAA CTGCTGGAAT 
CTCCTCTTAA ACCAGGTGAA GCGAGAGAGC AGGGATCACA CCACCCTGAG CGACATCTAC 
CTGAACAACA TCATCCCTCG GTTTGTCCAG GTCAGCGAAG ACTCTGGACG ACTCTTCAAG 
AAGAGTAAGG AAGTTGGACT GCAGCTCCAG GAAGACTTGA TGAAGGTCCT GAATGAACTG 
TACACGGTGA TGAAGACCTA CCATATGTAC AATGCTGACA GCATCAGTGC TCAGAGCAAG 
CTGAAAGAGG CTGAAAAACA AGAAGAAAAG CAGATTGGGA AGTCAGTGAG GCAAGAGGAC 
AAGCAGACTC CACGCTCTCC TGACTCCAGC TCCAACGTCA GGTTTGAAGA GAAACACGTC 
CGGCGAAGCT CAGTCAAGAA AATTGAGAAA ATGAAGGAGA AGCGCCAAGC AAAATACACG 
GAAAATAAAC TGAAGGCCAT TAAGGCGAGA AATGAGTATC TGCTGGCTCT GGAAGCCACC 
AATGCGTCTG TGTTCAAGTA TTACATCCAC GACCTGTCTG ATCTCATTGA TCAGTGCTGT 
GATCTGGGCT ACCACGCAAG CCTCAACAGG GCTCTCAGGA CGTTCCTGTC TGCTGAGCTG 
AACCTGGAGC AGTCGAAGCA CGAAGGGCTT GATGCCATTG AGAATGCTGT GGAGAACCTG 
GACGCCAACA GTGACAAGCA GCGCCTGATG GAGATGTACA ACAATGTCTT CTGCCCACCC 
ATGAAGTTTG AATTTCAGCC TCATATGGGT GACATGGTGT CGCAGCTGTG TGCCCAGCAG 
CCAGTCCAGA GTGAGTTGGT ACAGAGATGC CAGCAGCTGC AGTCCAGATT GTCCACGCTC 
AAGATTGAGA ACGAAGAGGT TAAGAAAACG ATGGAAGCTA CGCTCCAGAC CATCCAGGAT 
ATAGTCACGA TAGAGGACTT TGATGTCTCT GACTGTTTCC AGTACAGCAA CTCCATGGAG 
TCTGTCAAAT CCACCGTCTC TGAAACTTTC ATGAGCAAGC CAAGCATTGC CAAGCGACGG 
GCTAATCAGC AGGAGACTGA GCAGTTCTAC TTCACGAAAA TGAAAGAGTA TCTGGAAGGC 
AGGAACCTGA TAACTAAGCT TCAGGCCAAA CACGACCTCC TTCAGAAGAC CCTGGGAGAA 
AGTCAAAGGA CTGACTGCTC TCTTGCCAGT GGCAGGCGCA GCTCTACCAT AAGGAAGCAG 
GATTCCAGCC AAGCCATTCC CCTGGTGGTG GAGAGCTGCA TCCGATTCAT TAGCAGACAT 
GGGTTGCAGC ATGAAGGGAT ATTCAGAGTG TCTGGATCAC AGGTTGAGGT GAACGATATC 
AAAAACGCAT TTGAGAGAGG GGAGGATCCA CTGGCTGGGG ACCAGAACGA CCATGACATG 
GACTCAATCG CAGGGGTTCT GAAACTCTAT TTTCGAGGGC TGGAGCACCC TCTCTTCCCG 
AAGGACATCT TCCACGACCT GATCGCCTGT GTCACAATGG ATAACTTACA AGAGCGAGCA 
CTGCATATCC GGAAAGTCCT TCTGAACTTG CCCAAAACCA CTCTGATTGT AATGAGATAC 
CTCTTTGCAT TCCTCAATCA TTTATCTCAG TTCAGTGAAG AGAACATGAT GGATCCCTAC 
AACTTAGCCA TCTGCTTTGG ACCCACGCTG ATGTCTGTGC CTGAAGGCCA CGATCAGGTC 
TCCTGCCAGG CTCATGTCAA CGAGCTGATC AAAACCATCA TCATCCAACA TGAGAACATC 
TTCCCAGGAC CAAGAGAGCT GGAGGGCCCG GTCTATAGCA GAGGTGGAAG CACAGAGGAT 
TACTGGGCAG CACCGACAGA AGGAAAAAAC AAAAGCACCA TTTCCATCCA ACCCAAAGCC 
CAGGAGATCA GGCCTCGCGT TCAGTCTGCA GGCAACATCT GGAAGCAATT CAGCCAGCGC 
GGCTCCTGTC ATCTGGGGTG GAAGGTTGGG GAGGGGAGAA GGGAGGTGTT TGCTTTCCTA 
GTGGCTGAAT TGATCTCTCC CACCTCCCAC TGA

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

SRGAP2 ( XM_006267815.3 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_006267877.2 Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl74931
Clone ID Related Accession (Same CDS sequence)	XM_006267815.3
Accession Version	XM_006267815.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3225bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	SLIT-ROBO Rho GTPase-activating protein 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713700.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_006267815.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACGTCGC CAGCTAAATT CAAAAAGGAT AAGGAGATCA TAGCTGAATA TGACACTCAA 
GTGAAAGAGA TCCGTGCCCA ACTCATAGAG CAGCTGAAAT GCCTTGACCA GCAATGCGAG 
CTCCGGGTCC AGTTGCTGCA GGACCTGCAG GATTTCTTCC GCAAGAAGGC AGAGATCGAG 
ACAGATTACT CGAGGAACCT GGAGAAGCTG GCTGAGAGAT TCCTGGCCAA AACGAGGAGC 
ACCAAAGACC AGCAATTCAA GAAGGACCAG AACGTCCTCT CGCCGGTCAA CTGCTGGAAT 
CTCCTCTTAA ACCAGGTGAA GCGAGAGAGC AGGGATCACA CCACCCTGAG CGACATCTAC 
CTGAACAACA TCATCCCTCG GTTTGTCCAG GTCAGCGAAG ACTCTGGACG ACTCTTCAAG 
AAGAGTAAGG AAGTTGGACT GCAGCTCCAG GAAGACTTGA TGAAGGTCCT GAATGAACTG 
TACACGGTGA TGAAGACCTA CCATATGTAC AATGCTGACA GCATCAGTGC TCAGAGCAAG 
CTGAAAGAGG CTGAAAAACA AGAAGAAAAG CAGATTGGGA AGTCAGTGAG GCAAGAGGAC 
AAGCAGACTC CACGCTCTCC TGACTCCAGC TCCAACGTCA GGTTTGAAGA GAAACACGTC 
CGGCGAAGCT CAGTCAAGAA AATTGAGAAA ATGAAGGAGA AGCGCCAAGC AAAATACACG 
GAAAATAAAC TGAAGGCCAT TAAGGCGAGA AATGAGTATC TGCTGGCTCT GGAAGCCACC 
AATGCGTCTG TGTTCAAGTA TTACATCCAC GACCTGTCTG ATCTCATTGA TCAGTGCTGT 
GATCTGGGCT ACCACGCAAG CCTCAACAGG GCTCTCAGGA CGTTCCTGTC TGCTGAGCTG 
AACCTGGAGC AGTCGAAGCA CGAAGGGCTT GATGCCATTG AGAATGCTGT GGAGAACCTG 
GACGCCAACA GTGACAAGCA GCGCCTGATG GAGATGTACA ACAATGTCTT CTGCCCACCC 
ATGAAGTTTG AATTTCAGCC TCATATGGGT GACATGGTGT CGCAGCTGTG TGCCCAGCAG 
CCAGTCCAGA GTGAGTTGGT ACAGAGATGC CAGCAGCTGC AGTCCAGATT GTCCACGCTC 
AAGATTGAGA ACGAAGAGGT TAAGAAAACG ATGGAAGCTA CGCTCCAGAC CATCCAGGAT 
ATAGTCACGA TAGAGGACTT TGATGTCTCT GACTGTTTCC AGTACAGCAA CTCCATGGAG 
TCTGTCAAAT CCACCGTCTC TGAAACTTTC ATGAGCAAGC CAAGCATTGC CAAGCGACGG 
GCTAATCAGC AGGAGACTGA GCAGTTCTAC TTCACGAAAA TGAAAGAGTA TCTGGAAGGC 
AGGAACCTGA TAACTAAGCT TCAGGCCAAA CACGACCTCC TTCAGAAGAC CCTGGGAGAA 
AGTCAAAGGA CTGACTGCTC TCTTGCCAGT GGCAGGCGCA GCTCTACCAT AAGGAAGCAG 
GATTCCAGCC AAGCCATTCC CCTGGTGGTG GAGAGCTGCA TCCGATTCAT TAGCAGACAT 
GGGTTGCAGC ATGAAGGGAT ATTCAGAGTG TCTGGATCAC AGGTTGAGGT GAACGATATC 
AAAAACGCAT TTGAGAGAGG GGAGGATCCA CTGGCTGGGG ACCAGAACGA CCATGACATG 
GACTCAATCG CAGGGGTTCT GAAACTCTAT TTTCGAGGGC TGGAGCACCC TCTCTTCCCG 
AAGGACATCT TCCACGACCT GATCGCCTGT GTCACAATGG ATAACTTACA AGAGCGAGCA 
CTGCATATCC GGAAAGTCCT TCTGAACTTG CCCAAAACCA CTCTGATTGT AATGAGATAC 
CTCTTTGCAT TCCTCAATCA TTTATCTCAG TTCAGTGAAG AGAACATGAT GGATCCCTAC 
AACTTAGCCA TCTGCTTTGG ACCCACGCTG ATGTCTGTGC CTGAAGGCCA CGATCAGGTC 
TCCTGCCAGG CTCATGTCAA CGAGCTGATC AAAACCATCA TCATCCAACA TGAGAACATC 
TTCCCAGGAC CAAGAGAGCT GGAGGGCCCG GTCTATAGCA GAGGTGGAAG CACAGAGGAT 
TACTGTGAAA GCCCTCACGG GGAGACGGCC TCAGCAGACG ATTCGGCTCA GGATATAACA 
GCTGAACACC ATACCAGCGA CGATGAGTGT GAGCCCATAG AAGCGATAGC AAAGTTTGAT 
TACATTGGCC GAACTGCACG GGAGTTGTCC TTCAAAAAGG GGGCTTCTCT TTTGCTTTAC 
CATCGGGCTT CGGATGACTG GTGGGAAGGA CGCCACAATG GAATCGATGG ACTTATTCCT 
CATCAATACA TCGTTGTTCA AGACACTGAG GACGGTATTT CTGAGAGATC CAGCCCCAAG 
TCTGAAATAG AAATCAACTC GGAGCCACCT GAAGAAAAAG TGACCGCCAG AGCCAGCGCC 
AACTGTCCAA GCGGCAGTCA CGTTGCAGAT ATTTACCTTG CAAACATCAA CAAGCAAAGA 
AAGAAGCCAG AGTCTGGCAG CATTAGGAGA GCTTTCCGTC AAAGCGATAG CCATGGGCTG 
ACGAGCTCTT TGGCTGAACC AGCCTCTCCA GGAGCCGGAG CCAGTTCTAG ACCTTCATCT 
CAGCCCATTA TGAGCCAAAG TCTCCCCAAG GAGGTTCCTG ATAAATGTTC CATCAGCGGC 
CACGGCAGCC TTAATTCCAT CAGCCGGCAT TCGTCCCTGA AGAACAGGAT AGAGAGCCCA 
CAGATCCGGA AGACCGTGAC CGCAGGAAGG TCAAAAAGCT TCAACAACCA TCGGCCCATG 
GATCCTGAGG TCATTGCTCA GGATATTGAA GCTACTATGA ACTCTGCCCT GAATGAACTG 
AGGGAGCTGG AAAGGCAAAG CAACGTAAAG CACACGCCAG ACGTTGTCCT CGACACGCTA 
GAGCCTTTGA AAACCTCCCC GGTCGTGGCC CCCACCTCGG AGCCTTCCAG CCCTCTGCAC 
ACCCAGATCA TCAAGGACTC TGAACCAGCC TTCCAGCGGA GCGCCAGCAC TGCTGGCGAC 
ATCCCGTGCG CCTTCAGGCC GGTGAAGTCG GTCAAAATGG CCGCGCAGGT TAAACCTCCA 
GCAACTAGGC CAAAACCTGC GGTTTTCCCC AAGACCAGTG CCACAAGCCC CGCTGTTGCG 
TCTTCTCCAT CTCAACAGCC TACTGACAAG TCTTGTACTG TCTGA

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

RefSeq	XP_006267877.2
CDS	421..3645
Translation	MTSPAKFKKDKEIIAEYDTQVKEIRAQLIEQLKCLDQQCELRVQLLQDLQDFFRKKAEIETDYSRNLEKLAERFLAKTRSTKDQQFKKDQNVLSPVNCWNLLLNQVKRESRDHTTLSDIYLNNIIPRFVQVSEDSGRLFKKSKEVGLQLQEDLMKVLNELYTVMKTYHMYNADSISAQSKLKEAEKQEEKQIGKSVRQEDKQTPRSPDSSSNVRFEEKHVRRSSVKKIEKMKEKRQAKYTENKLKAIKARNEYLLALEATNASVFKYYIHDLSDLIDQCCDLGYHASLNRALRTFLSAELNLEQSKHEGLDAIENAVENLDANSDKQRLMEMYNNVFCPPMKFEFQPHMGDMVSQLCAQQPVQSELVQRCQQLQSRLSTLKIENEEVKKTMEATLQTIQDIVTIEDFDVSDCFQYSNSMESVKSTVSETFMSKPSIAKRRANQQETEQFYFTKMKEYLEGRNLITKLQAKHDLLQKTLGESQRTDCSLASGRRSSTIRKQDSSQAIPLVVESCIRFISRHGLQHEGIFRVSGSQVEVNDIKNAFERGEDPLAGDQNDHDMDSIAGVLKLYFRGLEHPLFPKDIFHDLIACVTMDNLQERALHIRKVLLNLPKTTLIVMRYLFAFLNHLSQFSEENMMDPYNLAICFGPTLMSVPEGHDQVSCQAHVNELIKTIIIQHENIFPGPRELEGPVYSRGGSTEDYCESPHGETASADDSAQDITAEHHTSDDECEPIEAIAKFDYIGRTARELSFKKGASLLLYHRASDDWWEGRHNGIDGLIPHQYIVVQDTEDGISERSSPKSEIEINSEPPEEKVTARASANCPSGSHVADIYLANINKQRKKPESGSIRRAFRQSDSHGLTSSLAEPASPGAGASSRPSSQPIMSQSLPKEVPDKCSISGHGSLNSISRHSSLKNRIESPQIRKTVTAGRSKSFNNHRPMDPEVIAQDIEATMNSALNELRELERQSNVKHTPDVVLDTLEPLKTSPVVAPTSEPSSPLHTQIIKDSEPAFQRSASTAGDIPCAFRPVKSVKMAAQVKPPATRPKPAVFPKTSATSPAVASSPSQQPTDKSCTV

Target ORF information:

RefSeq Version	XM_006267815.3
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X1, mRNA.

Target ORF information:

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

XM_006267815.3

ORF Insert Sequence:

ATGACGTCGC CAGCTAAATT CAAAAAGGAT AAGGAGATCA TAGCTGAATA TGACACTCAA 
GTGAAAGAGA TCCGTGCCCA ACTCATAGAG CAGCTGAAAT GCCTTGACCA GCAATGCGAG 
CTCCGGGTCC AGTTGCTGCA GGACCTGCAG GATTTCTTCC GCAAGAAGGC AGAGATCGAG 
ACAGATTACT CGAGGAACCT GGAGAAGCTG GCTGAGAGAT TCCTGGCCAA AACGAGGAGC 
ACCAAAGACC AGCAATTCAA GAAGGACCAG AACGTCCTCT CGCCGGTCAA CTGCTGGAAT 
CTCCTCTTAA ACCAGGTGAA GCGAGAGAGC AGGGATCACA CCACCCTGAG CGACATCTAC 
CTGAACAACA TCATCCCTCG GTTTGTCCAG GTCAGCGAAG ACTCTGGACG ACTCTTCAAG 
AAGAGTAAGG AAGTTGGACT GCAGCTCCAG GAAGACTTGA TGAAGGTCCT GAATGAACTG 
TACACGGTGA TGAAGACCTA CCATATGTAC AATGCTGACA GCATCAGTGC TCAGAGCAAG 
CTGAAAGAGG CTGAAAAACA AGAAGAAAAG CAGATTGGGA AGTCAGTGAG GCAAGAGGAC 
AAGCAGACTC CACGCTCTCC TGACTCCAGC TCCAACGTCA GGTTTGAAGA GAAACACGTC 
CGGCGAAGCT CAGTCAAGAA AATTGAGAAA ATGAAGGAGA AGCGCCAAGC AAAATACACG 
GAAAATAAAC TGAAGGCCAT TAAGGCGAGA AATGAGTATC TGCTGGCTCT GGAAGCCACC 
AATGCGTCTG TGTTCAAGTA TTACATCCAC GACCTGTCTG ATCTCATTGA TCAGTGCTGT 
GATCTGGGCT ACCACGCAAG CCTCAACAGG GCTCTCAGGA CGTTCCTGTC TGCTGAGCTG 
AACCTGGAGC AGTCGAAGCA CGAAGGGCTT GATGCCATTG AGAATGCTGT GGAGAACCTG 
GACGCCAACA GTGACAAGCA GCGCCTGATG GAGATGTACA ACAATGTCTT CTGCCCACCC 
ATGAAGTTTG AATTTCAGCC TCATATGGGT GACATGGTGT CGCAGCTGTG TGCCCAGCAG 
CCAGTCCAGA GTGAGTTGGT ACAGAGATGC CAGCAGCTGC AGTCCAGATT GTCCACGCTC 
AAGATTGAGA ACGAAGAGGT TAAGAAAACG ATGGAAGCTA CGCTCCAGAC CATCCAGGAT 
ATAGTCACGA TAGAGGACTT TGATGTCTCT GACTGTTTCC AGTACAGCAA CTCCATGGAG 
TCTGTCAAAT CCACCGTCTC TGAAACTTTC ATGAGCAAGC CAAGCATTGC CAAGCGACGG 
GCTAATCAGC AGGAGACTGA GCAGTTCTAC TTCACGAAAA TGAAAGAGTA TCTGGAAGGC 
AGGAACCTGA TAACTAAGCT TCAGGCCAAA CACGACCTCC TTCAGAAGAC CCTGGGAGAA 
AGTCAAAGGA CTGACTGCTC TCTTGCCAGT GGCAGGCGCA GCTCTACCAT AAGGAAGCAG 
GATTCCAGCC AAGCCATTCC CCTGGTGGTG GAGAGCTGCA TCCGATTCAT TAGCAGACAT 
GGGTTGCAGC ATGAAGGGAT ATTCAGAGTG TCTGGATCAC AGGTTGAGGT GAACGATATC 
AAAAACGCAT TTGAGAGAGG GGAGGATCCA CTGGCTGGGG ACCAGAACGA CCATGACATG 
GACTCAATCG CAGGGGTTCT GAAACTCTAT TTTCGAGGGC TGGAGCACCC TCTCTTCCCG 
AAGGACATCT TCCACGACCT GATCGCCTGT GTCACAATGG ATAACTTACA AGAGCGAGCA 
CTGCATATCC GGAAAGTCCT TCTGAACTTG CCCAAAACCA CTCTGATTGT AATGAGATAC 
CTCTTTGCAT TCCTCAATCA TTTATCTCAG TTCAGTGAAG AGAACATGAT GGATCCCTAC 
AACTTAGCCA TCTGCTTTGG ACCCACGCTG ATGTCTGTGC CTGAAGGCCA CGATCAGGTC 
TCCTGCCAGG CTCATGTCAA CGAGCTGATC AAAACCATCA TCATCCAACA TGAGAACATC 
TTCCCAGGAC CAAGAGAGCT GGAGGGCCCG GTCTATAGCA GAGGTGGAAG CACAGAGGAT 
TACTGTGAAA GCCCTCACGG GGAGACGGCC TCAGCAGACG ATTCGGCTCA GGATATAACA 
GCTGAACACC ATACCAGCGA CGATGAGTGT GAGCCCATAG AAGCGATAGC AAAGTTTGAT 
TACATTGGCC GAACTGCACG GGAGTTGTCC TTCAAAAAGG GGGCTTCTCT TTTGCTTTAC 
CATCGGGCTT CGGATGACTG GTGGGAAGGA CGCCACAATG GAATCGATGG ACTTATTCCT 
CATCAATACA TCGTTGTTCA AGACACTGAG GACGGTATTT CTGAGAGATC CAGCCCCAAG 
TCTGAAATAG AAATCAACTC GGAGCCACCT GAAGAAAAAG TGACCGCCAG AGCCAGCGCC 
AACTGTCCAA GCGGCAGTCA CGTTGCAGAT ATTTACCTTG CAAACATCAA CAAGCAAAGA 
AAGAAGCCAG AGTCTGGCAG CATTAGGAGA GCTTTCCGTC AAAGCGATAG CCATGGGCTG 
ACGAGCTCTT TGGCTGAACC AGCCTCTCCA GGAGCCGGAG CCAGTTCTAG ACCTTCATCT 
CAGCCCATTA TGAGCCAAAG TCTCCCCAAG GAGGTTCCTG ATAAATGTTC CATCAGCGGC 
CACGGCAGCC TTAATTCCAT CAGCCGGCAT TCGTCCCTGA AGAACAGGAT AGAGAGCCCA 
CAGATCCGGA AGACCGTGAC CGCAGGAAGG TCAAAAAGCT TCAACAACCA TCGGCCCATG 
GATCCTGAGG TCATTGCTCA GGATATTGAA GCTACTATGA ACTCTGCCCT GAATGAACTG 
AGGGAGCTGG AAAGGCAAAG CAACGTAAAG CACACGCCAG ACGTTGTCCT CGACACGCTA 
GAGCCTTTGA AAACCTCCCC GGTCGTGGCC CCCACCTCGG AGCCTTCCAG CCCTCTGCAC 
ACCCAGATCA TCAAGGACTC TGAACCAGCC TTCCAGCGGA GCGCCAGCAC TGCTGGCGAC 
ATCCCGTGCG CCTTCAGGCC GGTGAAGTCG GTCAAAATGG CCGCGCAGGT TAAACCTCCA 
GCAACTAGGC CAAAACCTGC GGTTTTCCCC AAGACCAGTG CCACAAGCCC CGCTGTTGCG 
TCTTCTCCAT CTCAACAGCC TACTGACAAG TCTTGTACTG TCTGA

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

SRGAP2 ( XM_019477241.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019332786.1 Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl74932
Clone ID Related Accession (Same CDS sequence)	XM_019477241.1
Accession Version	XM_019477241.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3222bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	SLIT-ROBO Rho GTPase-activating protein 2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713700.1) 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 :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACGTCGC CAGCTAAATT CAAAAAGGAT AAGGAGATCA TAGCTGAATA TGACACTCAA 
GTGAAAGAGA TCCGTGCCCA ACTCATAGAG CAGCTGAAAT GCCTTGACCA GCAATGCGAG 
CTCCGGGTCC AGTTGCTGCA GGACCTGCAG GATTTCTTCC GCAAGAAGGC AGAGATCGAG 
ACAGATTACT CGAGGAACCT GGAGAAGCTG GCTGAGAGAT TCCTGGCCAA AACGAGGAGC 
ACCAAAGACC AGCAATTCAA GAAGGACCAG AACGTCCTCT CGCCGGTCAA CTGCTGGAAT 
CTCCTCTTAA ACCAGGTGAA GCGAGAGAGC AGGGATCACA CCACCCTGAG CGACATCTAC 
CTGAACAACA TCATCCCTCG GTTTGTCCAG GTCAGCGAAG ACTCTGGACG ACTCTTCAAG 
AAGAGTAAGG AAGTTGGACT GCAGCTCCAG GAAGACTTGA TGAAGGTCCT GAATGAACTG 
TACACGGTGA TGAAGACCTA CCATATGTAC AATGCTGACA GCATCAGTGC TCAGAGCAAG 
CTGAAAGAGG CTGAAAAACA AGAAGAAAAG CAGATTGGGA AGTCAGTGAG GCAAGAGGAC 
AAGCAGACTC CACGCTCTCC TGACTCCAGC TCCAACGTCA GGTTTGAAGA GAAACACGTC 
CGGCGAAGCT CAGTCAAGAA AATTGAGAAA ATGAAGGAGA AGCGCCAAGC AAAATACACG 
GAAAATAAAC TGAAGGCCAT TAAGGCGAGA AATGAGTATC TGCTGGCTCT GGAAGCCACC 
AATGCGTCTG TGTTCAAGTA TTACATCCAC GACCTGTCTG ATCTCATTGA TTGCTGTGAT 
CTGGGCTACC ACGCAAGCCT CAACAGGGCT CTCAGGACGT TCCTGTCTGC TGAGCTGAAC 
CTGGAGCAGT CGAAGCACGA AGGGCTTGAT GCCATTGAGA ATGCTGTGGA GAACCTGGAC 
GCCAACAGTG ACAAGCAGCG CCTGATGGAG ATGTACAACA ATGTCTTCTG CCCACCCATG 
AAGTTTGAAT TTCAGCCTCA TATGGGTGAC ATGGTGTCGC AGCTGTGTGC CCAGCAGCCA 
GTCCAGAGTG AGTTGGTACA GAGATGCCAG CAGCTGCAGT CCAGATTGTC CACGCTCAAG 
ATTGAGAACG AAGAGGTTAA GAAAACGATG GAAGCTACGC TCCAGACCAT CCAGGATATA 
GTCACGATAG AGGACTTTGA TGTCTCTGAC TGTTTCCAGT ACAGCAACTC CATGGAGTCT 
GTCAAATCCA CCGTCTCTGA AACTTTCATG AGCAAGCCAA GCATTGCCAA GCGACGGGCT 
AATCAGCAGG AGACTGAGCA GTTCTACTTC ACGAAAATGA AAGAGTATCT GGAAGGCAGG 
AACCTGATAA CTAAGCTTCA GGCCAAACAC GACCTCCTTC AGAAGACCCT GGGAGAAAGT 
CAAAGGACTG ACTGCTCTCT TGCCAGTGGC AGGCGCAGCT CTACCATAAG GAAGCAGGAT 
TCCAGCCAAG CCATTCCCCT GGTGGTGGAG AGCTGCATCC GATTCATTAG CAGACATGGG 
TTGCAGCATG AAGGGATATT CAGAGTGTCT GGATCACAGG TTGAGGTGAA CGATATCAAA 
AACGCATTTG AGAGAGGGGA GGATCCACTG GCTGGGGACC AGAACGACCA TGACATGGAC 
TCAATCGCAG GGGTTCTGAA ACTCTATTTT CGAGGGCTGG AGCACCCTCT CTTCCCGAAG 
GACATCTTCC ACGACCTGAT CGCCTGTGTC ACAATGGATA ACTTACAAGA GCGAGCACTG 
CATATCCGGA AAGTCCTTCT GAACTTGCCC AAAACCACTC TGATTGTAAT GAGATACCTC 
TTTGCATTCC TCAATCATTT ATCTCAGTTC AGTGAAGAGA ACATGATGGA TCCCTACAAC 
TTAGCCATCT GCTTTGGACC CACGCTGATG TCTGTGCCTG AAGGCCACGA TCAGGTCTCC 
TGCCAGGCTC ATGTCAACGA GCTGATCAAA ACCATCATCA TCCAACATGA GAACATCTTC 
CCAGGACCAA GAGAGCTGGA GGGCCCGGTC TATAGCAGAG GTGGAAGCAC AGAGGATTAC 
TGTGAAAGCC CTCACGGGGA GACGGCCTCA GCAGACGATT CGGCTCAGGA TATAACAGCT 
GAACACCATA CCAGCGACGA TGAGTGTGAG CCCATAGAAG CGATAGCAAA GTTTGATTAC 
ATTGGCCGAA CTGCACGGGA GTTGTCCTTC AAAAAGGGGG CTTCTCTTTT GCTTTACCAT 
CGGGCTTCGG ATGACTGGTG GGAAGGACGC CACAATGGAA TCGATGGACT TATTCCTCAT 
CAATACATCG TTGTTCAAGA CACTGAGGAC GGTATTTCTG AGAGATCCAG CCCCAAGTCT 
GAAATAGAAA TCAACTCGGA GCCACCTGAA GAAAAAGTGA CCGCCAGAGC CAGCGCCAAC 
TGTCCAAGCG GCAGTCACGT TGCAGATATT TACCTTGCAA ACATCAACAA GCAAAGAAAG 
AAGCCAGAGT CTGGCAGCAT TAGGAGAGCT TTCCGTCAAA GCGATAGCCA TGGGCTGACG 
AGCTCTTTGG CTGAACCAGC CTCTCCAGGA GCCGGAGCCA GTTCTAGACC TTCATCTCAG 
CCCATTATGA GCCAAAGTCT CCCCAAGGAG GTTCCTGATA AATGTTCCAT CAGCGGCCAC 
GGCAGCCTTA ATTCCATCAG CCGGCATTCG TCCCTGAAGA ACAGGATAGA GAGCCCACAG 
ATCCGGAAGA CCGTGACCGC AGGAAGGTCA AAAAGCTTCA ACAACCATCG GCCCATGGAT 
CCTGAGGTCA TTGCTCAGGA TATTGAAGCT ACTATGAACT CTGCCCTGAA TGAACTGAGG 
GAGCTGGAAA GGCAAAGCAA CGTAAAGCAC ACGCCAGACG TTGTCCTCGA CACGCTAGAG 
CCTTTGAAAA CCTCCCCGGT CGTGGCCCCC ACCTCGGAGC CTTCCAGCCC TCTGCACACC 
CAGATCATCA AGGACTCTGA ACCAGCCTTC CAGCGGAGCG CCAGCACTGC TGGCGACATC 
CCGTGCGCCT TCAGGCCGGT GAAGTCGGTC AAAATGGCCG CGCAGGTTAA ACCTCCAGCA 
ACTAGGCCAA AACCTGCGGT TTTCCCCAAG ACCAGTGCCA CAAGCCCCGC TGTTGCGTCT 
TCTCCATCTC AACAGCCTAC TGACAAGTCT TGTACTGTCT GA

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

RefSeq	XP_019332786.1
CDS	421..3642
Translation	MTSPAKFKKDKEIIAEYDTQVKEIRAQLIEQLKCLDQQCELRVQLLQDLQDFFRKKAEIETDYSRNLEKLAERFLAKTRSTKDQQFKKDQNVLSPVNCWNLLLNQVKRESRDHTTLSDIYLNNIIPRFVQVSEDSGRLFKKSKEVGLQLQEDLMKVLNELYTVMKTYHMYNADSISAQSKLKEAEKQEEKQIGKSVRQEDKQTPRSPDSSSNVRFEEKHVRRSSVKKIEKMKEKRQAKYTENKLKAIKARNEYLLALEATNASVFKYYIHDLSDLIDCCDLGYHASLNRALRTFLSAELNLEQSKHEGLDAIENAVENLDANSDKQRLMEMYNNVFCPPMKFEFQPHMGDMVSQLCAQQPVQSELVQRCQQLQSRLSTLKIENEEVKKTMEATLQTIQDIVTIEDFDVSDCFQYSNSMESVKSTVSETFMSKPSIAKRRANQQETEQFYFTKMKEYLEGRNLITKLQAKHDLLQKTLGESQRTDCSLASGRRSSTIRKQDSSQAIPLVVESCIRFISRHGLQHEGIFRVSGSQVEVNDIKNAFERGEDPLAGDQNDHDMDSIAGVLKLYFRGLEHPLFPKDIFHDLIACVTMDNLQERALHIRKVLLNLPKTTLIVMRYLFAFLNHLSQFSEENMMDPYNLAICFGPTLMSVPEGHDQVSCQAHVNELIKTIIIQHENIFPGPRELEGPVYSRGGSTEDYCESPHGETASADDSAQDITAEHHTSDDECEPIEAIAKFDYIGRTARELSFKKGASLLLYHRASDDWWEGRHNGIDGLIPHQYIVVQDTEDGISERSSPKSEIEINSEPPEEKVTARASANCPSGSHVADIYLANINKQRKKPESGSIRRAFRQSDSHGLTSSLAEPASPGAGASSRPSSQPIMSQSLPKEVPDKCSISGHGSLNSISRHSSLKNRIESPQIRKTVTAGRSKSFNNHRPMDPEVIAQDIEATMNSALNELRELERQSNVKHTPDVVLDTLEPLKTSPVVAPTSEPSSPLHTQIIKDSEPAFQRSASTAGDIPCAFRPVKSVKMAAQVKPPATRPKPAVFPKTSATSPAVASSPSQQPTDKSCTV

Target ORF information:

RefSeq Version	XM_019477241.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis SLIT-ROBO Rho GTPase activating protein 2 (SRGAP2), transcript variant X2, mRNA.

Target ORF information:

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

XM_019477241.1

ORF Insert Sequence:

ATGACGTCGC CAGCTAAATT CAAAAAGGAT AAGGAGATCA TAGCTGAATA TGACACTCAA 
GTGAAAGAGA TCCGTGCCCA ACTCATAGAG CAGCTGAAAT GCCTTGACCA GCAATGCGAG 
CTCCGGGTCC AGTTGCTGCA GGACCTGCAG GATTTCTTCC GCAAGAAGGC AGAGATCGAG 
ACAGATTACT CGAGGAACCT GGAGAAGCTG GCTGAGAGAT TCCTGGCCAA AACGAGGAGC 
ACCAAAGACC AGCAATTCAA GAAGGACCAG AACGTCCTCT CGCCGGTCAA CTGCTGGAAT 
CTCCTCTTAA ACCAGGTGAA GCGAGAGAGC AGGGATCACA CCACCCTGAG CGACATCTAC 
CTGAACAACA TCATCCCTCG GTTTGTCCAG GTCAGCGAAG ACTCTGGACG ACTCTTCAAG 
AAGAGTAAGG AAGTTGGACT GCAGCTCCAG GAAGACTTGA TGAAGGTCCT GAATGAACTG 
TACACGGTGA TGAAGACCTA CCATATGTAC AATGCTGACA GCATCAGTGC TCAGAGCAAG 
CTGAAAGAGG CTGAAAAACA AGAAGAAAAG CAGATTGGGA AGTCAGTGAG GCAAGAGGAC 
AAGCAGACTC CACGCTCTCC TGACTCCAGC TCCAACGTCA GGTTTGAAGA GAAACACGTC 
CGGCGAAGCT CAGTCAAGAA AATTGAGAAA ATGAAGGAGA AGCGCCAAGC AAAATACACG 
GAAAATAAAC TGAAGGCCAT TAAGGCGAGA AATGAGTATC TGCTGGCTCT GGAAGCCACC 
AATGCGTCTG TGTTCAAGTA TTACATCCAC GACCTGTCTG ATCTCATTGA TTGCTGTGAT 
CTGGGCTACC ACGCAAGCCT CAACAGGGCT CTCAGGACGT TCCTGTCTGC TGAGCTGAAC 
CTGGAGCAGT CGAAGCACGA AGGGCTTGAT GCCATTGAGA ATGCTGTGGA GAACCTGGAC 
GCCAACAGTG ACAAGCAGCG CCTGATGGAG ATGTACAACA ATGTCTTCTG CCCACCCATG 
AAGTTTGAAT TTCAGCCTCA TATGGGTGAC ATGGTGTCGC AGCTGTGTGC CCAGCAGCCA 
GTCCAGAGTG AGTTGGTACA GAGATGCCAG CAGCTGCAGT CCAGATTGTC CACGCTCAAG 
ATTGAGAACG AAGAGGTTAA GAAAACGATG GAAGCTACGC TCCAGACCAT CCAGGATATA 
GTCACGATAG AGGACTTTGA TGTCTCTGAC TGTTTCCAGT ACAGCAACTC CATGGAGTCT 
GTCAAATCCA CCGTCTCTGA AACTTTCATG AGCAAGCCAA GCATTGCCAA GCGACGGGCT 
AATCAGCAGG AGACTGAGCA GTTCTACTTC ACGAAAATGA AAGAGTATCT GGAAGGCAGG 
AACCTGATAA CTAAGCTTCA GGCCAAACAC GACCTCCTTC AGAAGACCCT GGGAGAAAGT 
CAAAGGACTG ACTGCTCTCT TGCCAGTGGC AGGCGCAGCT CTACCATAAG GAAGCAGGAT 
TCCAGCCAAG CCATTCCCCT GGTGGTGGAG AGCTGCATCC GATTCATTAG CAGACATGGG 
TTGCAGCATG AAGGGATATT CAGAGTGTCT GGATCACAGG TTGAGGTGAA CGATATCAAA 
AACGCATTTG AGAGAGGGGA GGATCCACTG GCTGGGGACC AGAACGACCA TGACATGGAC 
TCAATCGCAG GGGTTCTGAA ACTCTATTTT CGAGGGCTGG AGCACCCTCT CTTCCCGAAG 
GACATCTTCC ACGACCTGAT CGCCTGTGTC ACAATGGATA ACTTACAAGA GCGAGCACTG 
CATATCCGGA AAGTCCTTCT GAACTTGCCC AAAACCACTC TGATTGTAAT GAGATACCTC 
TTTGCATTCC TCAATCATTT ATCTCAGTTC AGTGAAGAGA ACATGATGGA TCCCTACAAC 
TTAGCCATCT GCTTTGGACC CACGCTGATG TCTGTGCCTG AAGGCCACGA TCAGGTCTCC 
TGCCAGGCTC ATGTCAACGA GCTGATCAAA ACCATCATCA TCCAACATGA GAACATCTTC 
CCAGGACCAA GAGAGCTGGA GGGCCCGGTC TATAGCAGAG GTGGAAGCAC AGAGGATTAC 
TGTGAAAGCC CTCACGGGGA GACGGCCTCA GCAGACGATT CGGCTCAGGA TATAACAGCT 
GAACACCATA CCAGCGACGA TGAGTGTGAG CCCATAGAAG CGATAGCAAA GTTTGATTAC 
ATTGGCCGAA CTGCACGGGA GTTGTCCTTC AAAAAGGGGG CTTCTCTTTT GCTTTACCAT 
CGGGCTTCGG ATGACTGGTG GGAAGGACGC CACAATGGAA TCGATGGACT TATTCCTCAT 
CAATACATCG TTGTTCAAGA CACTGAGGAC GGTATTTCTG AGAGATCCAG CCCCAAGTCT 
GAAATAGAAA TCAACTCGGA GCCACCTGAA GAAAAAGTGA CCGCCAGAGC CAGCGCCAAC 
TGTCCAAGCG GCAGTCACGT TGCAGATATT TACCTTGCAA ACATCAACAA GCAAAGAAAG 
AAGCCAGAGT CTGGCAGCAT TAGGAGAGCT TTCCGTCAAA GCGATAGCCA TGGGCTGACG 
AGCTCTTTGG CTGAACCAGC CTCTCCAGGA GCCGGAGCCA GTTCTAGACC TTCATCTCAG 
CCCATTATGA GCCAAAGTCT CCCCAAGGAG GTTCCTGATA AATGTTCCAT CAGCGGCCAC 
GGCAGCCTTA ATTCCATCAG CCGGCATTCG TCCCTGAAGA ACAGGATAGA GAGCCCACAG 
ATCCGGAAGA CCGTGACCGC AGGAAGGTCA AAAAGCTTCA ACAACCATCG GCCCATGGAT 
CCTGAGGTCA TTGCTCAGGA TATTGAAGCT ACTATGAACT CTGCCCTGAA TGAACTGAGG 
GAGCTGGAAA GGCAAAGCAA CGTAAAGCAC ACGCCAGACG TTGTCCTCGA CACGCTAGAG 
CCTTTGAAAA CCTCCCCGGT CGTGGCCCCC ACCTCGGAGC CTTCCAGCCC TCTGCACACC 
CAGATCATCA AGGACTCTGA ACCAGCCTTC CAGCGGAGCG CCAGCACTGC TGGCGACATC 
CCGTGCGCCT TCAGGCCGGT GAAGTCGGTC AAAATGGCCG CGCAGGTTAA ACCTCCAGCA 
ACTAGGCCAA AACCTGCGGT TTTCCCCAAG ACCAGTGCCA CAAGCCCCGC TGTTGCGTCT 
TCTCCATCTC AACAGCCTAC TGACAAGTCT TGTACTGTCT GA

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

PubMed

- Most Popular Services
  - 人工遺伝子合成& DNA合成-納期保証
- Services & Products

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文

SRGAP2 cDNA ORF clone, Alligator mississippiensis(American alligator)

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:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム