TSC1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	TSC1
Entrez Gene ID	100471530
Full Name	TSC complex subunit 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011231219.2	XP_011229521.1	hamartin isoform X1
XM_011231220.2	XP_011229522.1	hamartin isoform X1
XM_002924369.3	XP_002924415.1	hamartin isoform X1
XM_019805009.1	XP_019660568.1	hamartin isoform X1
XM_019805010.1	XP_019660569.1	hamartin isoform X1
XM_011231218.2	XP_011229520.1	hamartin isoform X1
XM_019805011.1	XP_019660570.1	hamartin isoform X2
XM_019805008.1	XP_019660567.1	hamartin isoform X1

Pathways from BioSystems
Gene Ontology

The following TSC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TSC1 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)
OAc11588	XM_002924369.3 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc11588	XM_019805009.1 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc11588	XM_011231219.2 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc11588	XM_011231218.2 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc11588	XM_019805010.1 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc11588	XM_019805008.1 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc11588	XM_011231220.2 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc96390	XM_019805011.1 Latest version!	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

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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)

TSC1 ( XM_011231219.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229521.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc11588
Clone ID Related Accession (Same CDS sequence)	XM_011231219.2 , XM_011231220.2 , XM_002924369.3 , XM_019805009.1 , XM_019805010.1 , XM_011231218.2 , XM_019805008.1
Accession Version	XM_011231219.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3507bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231219.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

RefSeq	XP_011229521.1
CDS	358..3864
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGGSPPSDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_011231219.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X4, mRNA.

Target ORF information:

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

XM_011231219.2

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

TSC1 ( XM_011231220.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229522.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc11588
Clone ID Related Accession (Same CDS sequence)	XM_011231219.2 , XM_011231220.2 , XM_002924369.3 , XM_019805009.1 , XM_019805010.1 , XM_011231218.2 , XM_019805008.1
Accession Version	XM_011231220.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3507bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231220.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

RefSeq	XP_011229522.1
CDS	478..3984
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGGSPPSDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_011231220.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X2, mRNA.

Target ORF information:

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

XM_011231220.2

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

TSC1 ( XM_002924369.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002924415.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X1, mRNA.

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CloneID	OAc11588
Clone ID Related Accession (Same CDS sequence)	XM_011231219.2 , XM_011231220.2 , XM_002924369.3 , XM_019805009.1 , XM_019805010.1 , XM_011231218.2 , XM_019805008.1
Accession Version	XM_002924369.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3507bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002924369.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

RefSeq	XP_002924415.1
CDS	387..3893
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGGSPPSDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_002924369.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X1, mRNA.

Target ORF information:

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

XM_002924369.3

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

TSC1 ( XM_019805009.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660568.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X6, mRNA.

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CloneID	OAc11588
Clone ID Related Accession (Same CDS sequence)	XM_011231219.2 , XM_011231220.2 , XM_002924369.3 , XM_019805009.1 , XM_019805010.1 , XM_011231218.2 , XM_019805008.1
Accession Version	XM_019805009.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3507bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) 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 :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

RefSeq	XP_019660568.1
CDS	576..4082
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGGSPPSDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_019805009.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X6, mRNA.

Target ORF information:

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

XM_019805009.1

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

TSC1 ( XM_019805010.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660569.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OAc11588
Clone ID Related Accession (Same CDS sequence)	XM_011231219.2 , XM_011231220.2 , XM_002924369.3 , XM_019805009.1 , XM_019805010.1 , XM_011231218.2 , XM_019805008.1
Accession Version	XM_019805010.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3507bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) 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 :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

RefSeq	XP_019660569.1
CDS	383..3889
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGGSPPSDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_019805010.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X7, mRNA.

Target ORF information:

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

XM_019805010.1

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

TSC1 ( XM_011231218.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011229520.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X5, mRNA.

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CloneID	OAc11588
Clone ID Related Accession (Same CDS sequence)	XM_011231219.2 , XM_011231220.2 , XM_002924369.3 , XM_019805009.1 , XM_019805010.1 , XM_011231218.2 , XM_019805008.1
Accession Version	XM_011231218.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3507bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011231218.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

RefSeq	XP_011229520.1
CDS	605..4111
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGGSPPSDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_011231218.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X5, mRNA.

Target ORF information:

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

XM_011231218.2

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

TSC1 ( XM_019805008.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660567.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAc11588
Clone ID Related Accession (Same CDS sequence)	XM_011231219.2 , XM_011231220.2 , XM_002924369.3 , XM_019805009.1 , XM_019805010.1 , XM_011231218.2 , XM_019805008.1
Accession Version	XM_019805008.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3507bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) 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 :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

RefSeq	XP_019660567.1
CDS	719..4225
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGGSPPSDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_019805008.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X3, mRNA.

Target ORF information:

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

XM_019805008.1

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGGC 
TCTCCTCCCT CAGATGAGAT CCGCACCCTC CGTAACCAGT TGCTTTTACT GCACAACCAG 
TTGCTCTATG AGCGTTTTAA GAGGCAGCAG CACGCGCTCC GGAACAGGCG GCTTCTCCGC 
AGGGTGATCA GGGCGGCGGC CCTGGAGGAG CACAACGCGG CCATGAAAGA CCAGTTGAAG 
TTACAAGAGA AGGACATCCA GATCTGGAAG GTTAGCATGC AGAAGGAGCA GGCCCGGTAC 
AGCCAGCTGC AGGAGCAGCG AGACACGATG GTGACCCAGC TCCACAGCCA GATCCGCCAG 
CTGCAGCACG ACCGGGAGGA GTTCTACAAC CAGAGCCAGG AGCTGCAGAC AAAGCTAGAG 
GACTGCAGGA ACATGATCGC AGAGCTGCGT CTGGAATTGA AGAAGGCCAA CAGCAAGGTG 
TGTCACACCG AGCTGCTGCT CAGTCAGGTG TCCCAGAAGC TCTCAAACAG TGAGTCGGTC 
CAGCAGCAGA TGGAGTTCTT GAACCGGCAG CTCTTGGTCC TTGGGGAGGT CAACGAGTTG 
TATCTGGAAC AACTTCAGAG CAAGCACTCA GACACCACAA AGGAGGTAGA GATGATGAAA 
GCTGCGTGTC GGAAAGAACT AGAAAAAAAC AGAAGCCACG TTCTACAGCA GAATCAGAGG 
CTCGATACCT CCCAGAAACG GATTTTGGAA CTGGAATCTC ACCTGGCCAA GAAAGACCAC 
CTTCTTTTGG AGCAGAAGAA ATATTTAGAG GATGTCAAAG TCCAGGCAAG AGGACAGCTG 
CAGGCGGCAG AGAGCAGGTA TGAGGCTCAG AAAAGGATCA CCCAAGTGTT TGAATTGGAG 
ATCTTAGATT TATACGGCAG GCTGGAGAAG GATGGCCTCC TGAAGAAACT TGAGGAAGAA 
AAAGCAGAAG CAGCCGAAGC GGCAGAAGAA AGGCTTGCCT GTTGCAAGGA CGGCTGCTCG 
GATTCTGTAA CAGGGCACAA CGAAGAGGCA TCTGGCCACA ACGGCGAGAC CAAGCCCCCC 
CGACCCGGCG GTGGCGTGCG GGGTGGCGGT GCGAGTAGAG GGGGTGGCGG TGGCAGCGGT 
GGCGGCAGCA GCGAGCTTTC GACCCCGGAG AAGCCCCCCA CCCAGAGGGC AGGCCTGTTC 
AGCAGTCGGT GGGAAACTAC CGTGGGAGAG TCGGCCACCA GCATCCCCAC GACTGTTGGC 
TCCTTTCCCA GTTCAAAAAG CTTCCTAGGC ATGAAGGCGC GAGAGTTATT TCGTAATAAG 
AGTGAGAGCC ATTGTGACGA GGACAGTGTG ACCATCAGTA GCCTTTCTGA GACGCTAAAG 
ACAGAACTGG GCAAAGACCC AGGTGCGGAA GTCAAGACCC CCCTGAACCT CGACGGCCCG 
CACCCCTCCC CCCCGAACCC CGACAGTGTT GGACAGCTGC ACATCATGGA CTACAATGAG 
ACTCATCATG AGCACAGCGA AGGATGA

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

TSC1 ( XM_019805011.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019660570.1 Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X8, mRNA.

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CloneID	OAc96390
Clone ID Related Accession (Same CDS sequence)	XM_019805011.1
Accession Version	XM_019805011.1 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	hamartin isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218092.1) 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 :: Ailuropoda melanoleuca 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##

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGAT 
GAGATCCGCA CCCTCCGTAA CCAGTTGCTT TTACTGCACA ACCAGTTGCT CTATGAGCGT 
TTTAAGAGGC AGCAGCACGC GCTCCGGAAC AGGCGGCTTC TCCGCAGGGT GATCAGGGCG 
GCGGCCCTGG AGGAGCACAA CGCGGCCATG AAAGACCAGT TGAAGTTACA AGAGAAGGAC 
ATCCAGATCT GGAAGGTTAG CATGCAGAAG GAGCAGGCCC GGTACAGCCA GCTGCAGGAG 
CAGCGAGACA CGATGGTGAC CCAGCTCCAC AGCCAGATCC GCCAGCTGCA GCACGACCGG 
GAGGAGTTCT ACAACCAGAG CCAGGAGCTG CAGACAAAGC TAGAGGACTG CAGGAACATG 
ATCGCAGAGC TGCGTCTGGA ATTGAAGAAG GCCAACAGCA AGGTGTGTCA CACCGAGCTG 
CTGCTCAGTC AGGTGTCCCA GAAGCTCTCA AACAGTGAGT CGGTCCAGCA GCAGATGGAG 
TTCTTGAACC GGCAGCTCTT GGTCCTTGGG GAGGTCAACG AGTTGTATCT GGAACAACTT 
CAGAGCAAGC ACTCAGACAC CACAAAGGAG GTAGAGATGA TGAAAGCTGC GTGTCGGAAA 
GAACTAGAAA AAAACAGAAG CCACGTTCTA CAGCAGAATC AGAGGCTCGA TACCTCCCAG 
AAACGGATTT TGGAACTGGA ATCTCACCTG GCCAAGAAAG ACCACCTTCT TTTGGAGCAG 
AAGAAATATT TAGAGGATGT CAAAGTCCAG GCAAGAGGAC AGCTGCAGGC GGCAGAGAGC 
AGGTATGAGG CTCAGAAAAG GATCACCCAA GTGTTTGAAT TGGAGATCTT AGATTTATAC 
GGCAGGCTGG AGAAGGATGG CCTCCTGAAG AAACTTGAGG AAGAAAAAGC AGAAGCAGCC 
GAAGCGGCAG AAGAAAGGCT TGCCTGTTGC AAGGACGGCT GCTCGGATTC TGTAACAGGG 
CACAACGAAG AGGCATCTGG CCACAACGGC GAGACCAAGC CCCCCCGACC CGGCGGTGGC 
GTGCGGGGTG GCGGTGCGAG TAGAGGGGGT GGCGGTGGCA GCGGTGGCGG CAGCAGCGAG 
CTTTCGACCC CGGAGAAGCC CCCCACCCAG AGGGCAGGCC TGTTCAGCAG TCGGTGGGAA 
ACTACCGTGG GAGAGTCGGC CACCAGCATC CCCACGACTG TTGGCTCCTT TCCCAGTTCA 
AAAAGCTTCC TAGGCATGAA GGCGCGAGAG TTATTTCGTA ATAAGAGTGA GAGCCATTGT 
GACGAGGACA GTGTGACCAT CAGTAGCCTT TCTGAGACGC TAAAGACAGA ACTGGGCAAA 
GACCCAGGTG CGGAAGTCAA GACCCCCCTG AACCTCGACG GCCCGCACCC CTCCCCCCCG 
AACCCCGACA GTGTTGGACA GCTGCACATC ATGGACTACA ATGAGACTCA TCATGAGCAC 
AGCGAAGGAT GA

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

RefSeq	XP_019660570.1
CDS	388..3879
Translation	MAQQANLGELLSMLDSPVLSVRDEVTAVFKENLSSDRGPMLVNTLVDYYLETNSQPVLHILTTLQEPHDKHLLDKMNDCMGRAASRLPALSLLGHVIRLQPPWKHKLSQAPLLPSLLKCLKVDTDVIVLTTGVLVLITMLPMIPQSGKQHLHDFFDIFGRLSSWCLKKPGHVTEIYLVHLHASVYALFHRLYGMYPCNFVSFLRSHYSMKENLDTFEEVVRPMMEHVRIHPELVTGSKDHELDPRRWKRLETHDVVIECAKISLDPAEASYEDGDSVSPQVSARFPHRAADVAASPYVDMQNSCGSATSTPYSSSRLTLFSTPGQPPQILSPPSTGLLTEPPQATLWSPSMVCGMTTPPTSPGNVPPDLSHPYSKVFGTTGGKGTPLGTPATSPPPAPLCHSDDYVHISLRQATATPPKKEEKTDSARPCLHRQHHLPNDRGLEELPGSKGSVPLSDLPGFLGDLDSEEDSIEKAKEEAAISKELSEITTAGTGPLVPRGGFDSPFYRDSLPGCPRKNHSAATGAQGASMNPEPLNSSLDKLGPDTPKQAFTPIDPPCGGANQSPAGSRERQTVLETDILTPSPCKIPPQRGVGFGSGQPPPYDHLFEVALPKTAHHFVSKKTKELLKKAKGNAEEDCPPSTSPAEVLDRLIQQGADAHSKELNKLSLPSKSVDWTHFGDEIRTLRNQLLLLHNQLLYERFKRQQHALRNRRLLRRVIRAAALEEHNAAMKDQLKLQEKDIQIWKVSMQKEQARYSQLQEQRDTMVTQLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRLELKKANSKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQSKHSDTTKEVEMMKAACRKELEKNRSHVLQQNQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKVQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEKDGLLKKLEEEKAEAAEAAEERLACCKDGCSDSVTGHNEEASGHNGETKPPRPGGGVRGGGASRGGGGGSGGGSSELSTPEKPPTQRAGLFSSRWETTVGESATSIPTTVGSFPSSKSFLGMKARELFRNKSESHCDEDSVTISSLSETLKTELGKDPGAEVKTPLNLDGPHPSPPNPDSVGQLHIMDYNETHHEHSEG

Target ORF information:

RefSeq Version	XM_019805011.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca tuberous sclerosis 1 (TSC1), transcript variant X8, mRNA.

Target ORF information:

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

XM_019805011.1

ORF Insert Sequence:

ATGGCCCAGC AAGCAAACCT CGGGGAGCTC CTGTCCATGC TGGACTCCCC TGTACTGAGT 
GTGCGCGACG AGGTGACGGC TGTCTTTAAA GAGAACCTCA GCTCTGACCG TGGTCCGATG 
CTCGTAAACA CCCTGGTGGA TTATTACCTG GAAACCAATT CTCAGCCGGT ATTGCACATC 
CTGACTACCT TGCAAGAGCC GCACGACAAG CACCTCTTGG ACAAAATGAA TGACTGTATG 
GGCAGAGCCG CCTCTCGGCT GCCTGCGCTG TCGCTGCTGG GGCATGTCAT CAGGCTGCAG 
CCGCCTTGGA AGCACAAACT CTCTCAAGCA CCTCTTTTGC CTTCTTTACT CAAATGTCTC 
AAGGTGGACA CCGATGTCAT CGTCCTCACG ACAGGTGTCT TAGTGTTGAT AACCATGCTA 
CCAATGATTC CACAGTCGGG GAAGCAGCAC CTTCATGATT TCTTTGATAT TTTTGGCCGT 
CTTTCATCAT GGTGCCTGAA GAAACCAGGC CACGTGACAG AAATCTATCT TGTCCATCTC 
CATGCCAGTG TTTATGCTCT CTTTCATCGC CTCTACGGAA TGTACCCTTG CAACTTTGTC 
TCCTTTCTAC GCTCTCACTA CAGTATGAAG GAGAACTTGG ACACTTTCGA AGAAGTGGTC 
AGGCCAATGA TGGAACACGT GCGAATTCAC CCGGAATTAG TGACTGGATC CAAGGACCAC 
GAACTGGACC CTCGAAGGTG GAAGCGATTA GAAACACATG ATGTTGTAAT AGAGTGTGCC 
AAAATCTCTC TGGACCCCGC TGAAGCCTCC TACGAAGATG GAGACTCCGT GTCCCCGCAG 
GTGTCAGCGC GCTTTCCTCA TCGTGCAGCC GATGTGGCCG CCAGCCCTTA CGTCGACATG 
CAGAATAGCT GTGGGAGTGC TACCTCGACC CCTTATTCCA GTTCTCGGCT GACATTGTTC 
AGTACACCCG GGCAGCCACC TCAGATTCTG AGTCCCCCAT CAACAGGGCT GTTGACTGAG 
CCGCCACAAG CTACTCTTTG GAGCCCGTCT ATGGTTTGTG GTATGACCAC TCCGCCAACT 
TCTCCTGGAA ATGTCCCACC TGATCTGTCA CACCCTTACA GTAAAGTCTT TGGTACAACT 
GGTGGAAAAG GAACTCCTCT GGGAACCCCA GCAACGTCTC CTCCTCCCGC CCCGCTCTGC 
CACTCAGATG ACTACGTGCA CATTTCCCTC CGGCAGGCCA CAGCCACACC CCCCAAGAAG 
GAAGAGAAAA CAGATTCAGC AAGGCCCTGT CTACACAGAC AGCACCATCT CCCGAACGAC 
AGAGGATTAG AAGAGTTACC TGGCAGCAAA GGTTCTGTCC CTCTGAGTGA CCTTCCAGGG 
TTTTTAGGGG ACCTGGACTC CGAAGAAGAT AGCATTGAGA AAGCTAAAGA AGAAGCGGCG 
ATATCTAAAG AACTCTCCGA GATCACGACA GCCGGCACCG GGCCCCTGGT TCCTCGAGGA 
GGCTTTGACT CCCCCTTCTA CCGGGACAGT CTCCCGGGCT GCCCTCGCAA GAACCATTCG 
GCCGCCACTG GTGCTCAGGG CGCCAGTATG AACCCTGAGC CTTTGAACTC CTCCCTGGAC 
AAGCTTGGGC CTGACACACC GAAGCAAGCC TTTACTCCCA TAGACCCGCC CTGTGGAGGC 
GCCAACCAGA GCCCTGCCGG GAGCAGGGAG CGCCAGACTG TGCTGGAGAC CGACATCCTC 
ACTCCCAGCC CTTGTAAAAT TCCACCTCAG AGGGGAGTGG GGTTTGGAAG TGGGCAGCCT 
CCCCCTTACG ATCATCTTTT TGAGGTGGCA TTGCCAAAGA CCGCCCATCA TTTTGTCAGC 
AAGAAGACCA AGGAACTGTT AAAGAAAGCA AAAGGAAACG CAGAGGAAGA CTGTCCTCCC 
TCAACCTCCC CCGCGGAAGT TCTGGACAGA CTCATCCAGC AGGGAGCGGA CGCGCACAGC 
AAGGAGCTGA ACAAGTTGTC CTTACCCAGC AAGTCTGTCG ACTGGACCCA CTTTGGAGAT 
GAGATCCGCA CCCTCCGTAA CCAGTTGCTT TTACTGCACA ACCAGTTGCT CTATGAGCGT 
TTTAAGAGGC AGCAGCACGC GCTCCGGAAC AGGCGGCTTC TCCGCAGGGT GATCAGGGCG 
GCGGCCCTGG AGGAGCACAA CGCGGCCATG AAAGACCAGT TGAAGTTACA AGAGAAGGAC 
ATCCAGATCT GGAAGGTTAG CATGCAGAAG GAGCAGGCCC GGTACAGCCA GCTGCAGGAG 
CAGCGAGACA CGATGGTGAC CCAGCTCCAC AGCCAGATCC GCCAGCTGCA GCACGACCGG 
GAGGAGTTCT ACAACCAGAG CCAGGAGCTG CAGACAAAGC TAGAGGACTG CAGGAACATG 
ATCGCAGAGC TGCGTCTGGA ATTGAAGAAG GCCAACAGCA AGGTGTGTCA CACCGAGCTG 
CTGCTCAGTC AGGTGTCCCA GAAGCTCTCA AACAGTGAGT CGGTCCAGCA GCAGATGGAG 
TTCTTGAACC GGCAGCTCTT GGTCCTTGGG GAGGTCAACG AGTTGTATCT GGAACAACTT 
CAGAGCAAGC ACTCAGACAC CACAAAGGAG GTAGAGATGA TGAAAGCTGC GTGTCGGAAA 
GAACTAGAAA AAAACAGAAG CCACGTTCTA CAGCAGAATC AGAGGCTCGA TACCTCCCAG 
AAACGGATTT TGGAACTGGA ATCTCACCTG GCCAAGAAAG ACCACCTTCT TTTGGAGCAG 
AAGAAATATT TAGAGGATGT CAAAGTCCAG GCAAGAGGAC AGCTGCAGGC GGCAGAGAGC 
AGGTATGAGG CTCAGAAAAG GATCACCCAA GTGTTTGAAT TGGAGATCTT AGATTTATAC 
GGCAGGCTGG AGAAGGATGG CCTCCTGAAG AAACTTGAGG AAGAAAAAGC AGAAGCAGCC 
GAAGCGGCAG AAGAAAGGCT TGCCTGTTGC AAGGACGGCT GCTCGGATTC TGTAACAGGG 
CACAACGAAG AGGCATCTGG CCACAACGGC GAGACCAAGC CCCCCCGACC CGGCGGTGGC 
GTGCGGGGTG GCGGTGCGAG TAGAGGGGGT GGCGGTGGCA GCGGTGGCGG CAGCAGCGAG 
CTTTCGACCC CGGAGAAGCC CCCCACCCAG AGGGCAGGCC TGTTCAGCAG TCGGTGGGAA 
ACTACCGTGG GAGAGTCGGC CACCAGCATC CCCACGACTG TTGGCTCCTT TCCCAGTTCA 
AAAAGCTTCC TAGGCATGAA GGCGCGAGAG TTATTTCGTA ATAAGAGTGA GAGCCATTGT 
GACGAGGACA GTGTGACCAT CAGTAGCCTT TCTGAGACGC TAAAGACAGA ACTGGGCAAA 
GACCCAGGTG CGGAAGTCAA GACCCCCCTG AACCTCGACG GCCCGCACCC CTCCCCCCCG 
AACCCCGACA GTGTTGGACA GCTGCACATC ATGGACTACA ATGAGACTCA TCATGAGCAC 
AGCGAAGGAT GA

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

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TSC1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

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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