SH3TC2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	SH3TC2
Entrez Gene ID	100477462
Full Name	SH3 domain and tetratricopeptide repeats 2
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011223562.2	XP_011221864.1	SH3 domain and tetratricopeptide repeat-containing protein 2 isoform X2
XM_019798508.1	XP_019654067.1	SH3 domain and tetratricopeptide repeat-containing protein 2 isoform X3
XM_019798507.1	XP_019654066.1	SH3 domain and tetratricopeptide repeat-containing protein 2 isoform X1

Pathways from BioSystems
Gene Ontology

The following SH3TC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SH3TC2 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)
OAc92029	XM_019798507.1 Latest version!	Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OAc92030	XM_019798508.1 Latest version!	Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OAc28093	XM_011223562.2 Latest version!	Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$713.30 $1019.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
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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)

SH3TC2 ( XM_019798507.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654066.1 Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc92029
Clone ID Related Accession (Same CDS sequence)	XM_019798507.1
Accession Version	XM_019798507.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3885bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	SH3 domain and tetratricopeptide repeat-containing protein 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217530.1) 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##

ATGGGTGGCT GCTTCTGCAT TCCCGGGGAG CCGAGTCTGT CCTGGGGCCC AGGTAAAGAA 
ACTCCTTCCA AGGATCCAAC CATATCGAGT GAGTTTATAG CCTCATCTGA AGACAAGGAA 
AAATGTTTCC TGACACAGAA TATGATTCCA GATCTGACGC TCTCTTTCAG TGTGAAGAGC 
CGCTCCCGGA GGTGTGTAAA CGGCCTCCTG CAGGAAGCGG CCAGGAGGCG GCTGTGGGCG 
CTGGAGAATG AGGACCAGGA GGTGCGTGCC CTGTTTCAGG ACCTCTCAGC CAGGTTGGTG 
GGTATCCAGT CCCAGAAGGC TCAGTTCCTC ATCACCTTCA AGACCATGGA GGAAATCTGG 
AAGTTTTCTA CCTACTTGAA CTTAGGCTAT GTATCTGCAT GTCTGGAACA TCTCCTCTTT 
GACCACAAGT ACTGGCTCAA CTGCAGATTG GTGGAAGATA CAGAGATCCA AGTGTCAGTG 
GATGAGAAAC ACCTGGAAAC AATATACCTG GGACTCCTGA TACAGGAAGG CCACTTCTTC 
TGCAGAGCCC TGTGCTCCGT GTCTCAGCCA GCTGAGAAGG AAGGGGAATA TTTGACGCTT 
TGTAAGAAGG AGTTAGTCTC TGTGAAGACA GTTGAAGGCG AATCCGAGTG GGAGGGCGTG 
TCCTTGGTGA CGGGTCAGCG GGGCCTGGTG CCCCTGTCAG CTCTGGAACC TCTGCCACTC 
CCTTTCCACC AATGGTTCCT AAAGAATTAT CCAGGAAGCT GTGGCCTTTG CAGGAAGAGG 
GATTGGACAG GCTCCTATCA GATCGGCAGA GGAAAATGTA AGGCCTGGAA GGAATATGAG 
AGGGAAGAAA AGGATGAGCT GACTTTTCGC CGGGGAGAAA GCATCGAGAT CATCGGTTTT 
GTCATACCTG GGCTTCAGTG GTTCATTGGG AAGTCGACAC ACTCAGGAGA AGTGGGCTTT 
GTTCCCACCA GGAACATAGA TCCCGAGTCG TATTCCCCAA TGAACAAGAG CTCCGCCTTT 
TTCAGTGACG AGGAAAGATG CTCTCTGTGG GTCCTGGGAA GTGACAGGAA AGCTGAGTGT 
GCCAGCTTCC TCCACACGCT TGCTCATACC GACATAGCGT CTGTCTACCG GCTTAGTGGG 
TTTGAATCCA TCCAGAATCT TCCAAACGAT CTAAGTGCGT CCAAGCCTGA AGGCTTCAAG 
GAGGCCAGGC CTGGCAGAGC CAGGGAGGAG CATCAGGCCG TGGGCTCCAG ACAGTCCAGC 
AGCTCTGAGG ACTCCAGCCT GGAGGAGGAG CTCCTCTCAG CCACCTCGGA CAGCTATCAC 
TTGCCAGAGC CCGATGACCT CGATGACCCG GAACTCCTCG TGGACTTAAA CACTGGTCAG 
GAAGAGGAGG AGGCTGAGAA CTTTGCCCCC ATATTGGCTT TTCTGGATCA CGAGGGTTAC 
GCTGACCACT TTAAGAGCCT CTATGATTTC TCCTTCTCTT TCCTCACATC TTCCTTTTAT 
AGCTTCTCTG AGGAGGATGA ACTTGTGGCC TACCTGGAGG CCTCAAGGAA GTGGGCCAAG 
CGGAGCTGCA GGACCTGGGC CCACGCCAGG CTCTGCTTCC TCCTGGGCCG GCTGAGTGTC 
AGGAAGGTCA AACTCTCTCA GGCCAGGTTG TACTTTGAGG AGGCTAGGTA CATCCTTGAT 
GGGACATTTG AAGACCTATC CTTGGTGGCC GCTCTGTATA TCAATCTGGC TGCCATCTAC 
CTGAGGCAGA GGCTGAGGCA TAAAGGCTCG TCTCTGCTGG AAAAAGCAGG GGCGCTGTTG 
GCCTGCCTGC CTGACCGTGA GTCTAGTACC AAGAACGAGC TCGATGTGGT GGCCTACGTA 
CTACGCCAGA GCATTGTGGC AGGCAGCTGT CCCTTGGAGG CCAGGGCCTG CTTCCTGGCC 
ATCCGATTGC TCCTGAGCCT AGGCCGGCAT GAGGAGGTCC TGCCCTTCGC CGAGCGCCTG 
CAGGTCCTCT CCGGACACCC TCCTGACTTG GAGGCTACAG CAACCATCTT GAGTTTTCTG 
TACGATAAGA AATATCTCCC ACACCTGGTA GTGGCCTCTG TCCAGGAACG TGGTACCCAG 
AGTGGCCAAG GGATGTCCCT TCCAATTTGG CAGGTCTACC TGGTTCTCCA GAACACCACC 
AAACTCCTTG GAGTCCCCTC TTCAAGCTGG GGTGAAGTTT CTGCCCTGGC CTGCCCAGCA 
CTCAGGCGGG CGCTGGCTGC CTGTGAGGAA CAGGTCAATT GGAGCGCCCA GAGGGCCCTG 
TGTCTCATCC TGTCCAAAGT GTACCTCCAA CACAGGTCTC CTGACGGTGC CATCCACTAC 
CTGAGCCAGG CCTTGGTGCT GGGGCAGCTG CTGAGTGAGC AGGAAGCCTT TGAGTCTTCT 
CTCTGCCTGG CGTGGGCGTA TCTCTTAGCC AGCCAAGCAA AGAAGGCTTT GGACATCCTC 
GAGCCACTCC TATACTCCCA GAAGGATACA GAGAGTATCA CCCAAAAGGG GGTGGTCCAT 
AACCTCCTGG GACTTGCACT TCAAGGTGAA GGCCGGGTGA ACAGGGCAGC CAAGAGCTAT 
CTCCGGGCCT TGAACAGAGC TCAGGAAATG GGGAATGTGC GTAACCAGGC GGTGACTTTG 
GCCAATCTTG GCCACCTGAC CCTTAAGTCC TGGGCTCAGC AGCCAGCCAA GGACTATCTC 
CTGCAGGCCG TCCGACTCTA TTCTGAGCTC CAGACCAGCA TGGAGACAGA CATGGAATTG 
GTACAGGTCC TTCTCTGGTT GGCCCCGGTG CTGGTGCATG GACGCCAGCT GGCCAGCGGC 
CGCCTGTGTT ATGAGATGGC ATTGCTGTTT GGCTTAAGGC ATCGACACCT AAAGAGTCAG 
CTTCAGGTCA CCAAATCCCT CTGCCATTTC TACAGCTCTG TATCCCCAAG CCCCAAGGCA 
TGCATCACCT ACCACGAGCA CTGGCTGAGC CTGGCTCAGC AACTCAGGGA CCGAGAGATG 
GAGGGGAGGC TGCTGGAGTC CCTCGGGCAG CTCTATCGGA ACCTGAACAC AGCCAGGTCT 
CTCAGGAAGT CTCTCGCCTG CATCAAGGAG AGCCTGCGTA TCTTCATTGA CCTTGGGGAG 
AAAGACAAGG CTGCTGAGGC CTGGCTCGGA GCTGGGCGGC TTCACTACCT CATGCAGGAA 
GATGAGCTGG TGGAGCTCTA CCTGCAGGCA GCCATCCAGA AAGCCCTGAA GTCTGAGGAG 
CCCTCTCTGG CTCTCAAACT CTATGAAGAA GCAGGTGACG TGTTCTTCAA CGGGACCCGC 
CACAGACACC GCGCGGTGGA GTATTACCGA GCTGGGGCTG TTCCTTTAGC GAGGAGGATG 
AAGGCCATGA GAACGGAGCT CCGGGTTTTC AACAAGCTGA CGGAGCTGCA GATCAGCCTG 
GAAGGCTATG AGAAGGCTTT GGAGTTTGCC ACCCTGGCGG CCAGACTCAG CATGGTCATA 
GTCTTCCAAT TCCTAGGAGA TCCGAAGCAG GAGCTGGTGG CCTTCCACCG TCTGGCTACA 
GTCTACTATT CCCTACGCAT GTACGAGATG GCTGAGGACT GCTACCTGAA GACTCTGTCC 
CTCTGTCCCC CCTGGCTGCA GAGCCCTAAG GAGGCCCTGT ACTACTCGAA GGTGTACTAT 
CGCCTGGGCC GCCTCGCCTT CTGCCAGCTG AAGGATGCTC ACGACGCCAC CGAGTACTTC 
CGGCTGGCCC TGGCAGCGGC GGTCCTGCTG GGTGACGAGG CGCTGCAGGA CAGCATCAGG 
AGCAGGCTGG ACAACATCCG CCGGAGCCCC CTGTGGCACA GCAGCCCCTC CGGCCGCTCC 
TCAGAGAGGG CGCGGTGGCT GAGCCGAGGG GGGCTGGCCC TCTGA

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

RefSeq	XP_019654066.1
CDS	121..4005
Translation	MGGCFCIPGEPSLSWGPGKETPSKDPTISSEFIASSEDKEKCFLTQNMIPDLTLSFSVKSRSRRCVNGLLQEAARRRLWALENEDQEVRALFQDLSARLVGIQSQKAQFLITFKTMEEIWKFSTYLNLGYVSACLEHLLFDHKYWLNCRLVEDTEIQVSVDEKHLETIYLGLLIQEGHFFCRALCSVSQPAEKEGEYLTLCKKELVSVKTVEGESEWEGVSLVTGQRGLVPLSALEPLPLPFHQWFLKNYPGSCGLCRKRDWTGSYQIGRGKCKAWKEYEREEKDELTFRRGESIEIIGFVIPGLQWFIGKSTHSGEVGFVPTRNIDPESYSPMNKSSAFFSDEERCSLWVLGSDRKAECASFLHTLAHTDIASVYRLSGFESIQNLPNDLSASKPEGFKEARPGRAREEHQAVGSRQSSSSEDSSLEEELLSATSDSYHLPEPDDLDDPELLVDLNTGQEEEEAENFAPILAFLDHEGYADHFKSLYDFSFSFLTSSFYSFSEEDELVAYLEASRKWAKRSCRTWAHARLCFLLGRLSVRKVKLSQARLYFEEARYILDGTFEDLSLVAALYINLAAIYLRQRLRHKGSSLLEKAGALLACLPDRESSTKNELDVVAYVLRQSIVAGSCPLEARACFLAIRLLLSLGRHEEVLPFAERLQVLSGHPPDLEATATILSFLYDKKYLPHLVVASVQERGTQSGQGMSLPIWQVYLVLQNTTKLLGVPSSSWGEVSALACPALRRALAACEEQVNWSAQRALCLILSKVYLQHRSPDGAIHYLSQALVLGQLLSEQEAFESSLCLAWAYLLASQAKKALDILEPLLYSQKDTESITQKGVVHNLLGLALQGEGRVNRAAKSYLRALNRAQEMGNVRNQAVTLANLGHLTLKSWAQQPAKDYLLQAVRLYSELQTSMETDMELVQVLLWLAPVLVHGRQLASGRLCYEMALLFGLRHRHLKSQLQVTKSLCHFYSSVSPSPKACITYHEHWLSLAQQLRDREMEGRLLESLGQLYRNLNTARSLRKSLACIKESLRIFIDLGEKDKAAEAWLGAGRLHYLMQEDELVELYLQAAIQKALKSEEPSLALKLYEEAGDVFFNGTRHRHRAVEYYRAGAVPLARRMKAMRTELRVFNKLTELQISLEGYEKALEFATLAARLSMVIVFQFLGDPKQELVAFHRLATVYYSLRMYEMAEDCYLKTLSLCPPWLQSPKEALYYSKVYYRLGRLAFCQLKDAHDATEYFRLALAAAVLLGDEALQDSIRSRLDNIRRSPLWHSSPSGRSSERARWLSRGGLAL

Target ORF information:

RefSeq Version	XM_019798507.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X1, mRNA.

Target ORF information:

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

XM_019798507.1

ORF Insert Sequence:

ATGGGTGGCT GCTTCTGCAT TCCCGGGGAG CCGAGTCTGT CCTGGGGCCC AGGTAAAGAA 
ACTCCTTCCA AGGATCCAAC CATATCGAGT GAGTTTATAG CCTCATCTGA AGACAAGGAA 
AAATGTTTCC TGACACAGAA TATGATTCCA GATCTGACGC TCTCTTTCAG TGTGAAGAGC 
CGCTCCCGGA GGTGTGTAAA CGGCCTCCTG CAGGAAGCGG CCAGGAGGCG GCTGTGGGCG 
CTGGAGAATG AGGACCAGGA GGTGCGTGCC CTGTTTCAGG ACCTCTCAGC CAGGTTGGTG 
GGTATCCAGT CCCAGAAGGC TCAGTTCCTC ATCACCTTCA AGACCATGGA GGAAATCTGG 
AAGTTTTCTA CCTACTTGAA CTTAGGCTAT GTATCTGCAT GTCTGGAACA TCTCCTCTTT 
GACCACAAGT ACTGGCTCAA CTGCAGATTG GTGGAAGATA CAGAGATCCA AGTGTCAGTG 
GATGAGAAAC ACCTGGAAAC AATATACCTG GGACTCCTGA TACAGGAAGG CCACTTCTTC 
TGCAGAGCCC TGTGCTCCGT GTCTCAGCCA GCTGAGAAGG AAGGGGAATA TTTGACGCTT 
TGTAAGAAGG AGTTAGTCTC TGTGAAGACA GTTGAAGGCG AATCCGAGTG GGAGGGCGTG 
TCCTTGGTGA CGGGTCAGCG GGGCCTGGTG CCCCTGTCAG CTCTGGAACC TCTGCCACTC 
CCTTTCCACC AATGGTTCCT AAAGAATTAT CCAGGAAGCT GTGGCCTTTG CAGGAAGAGG 
GATTGGACAG GCTCCTATCA GATCGGCAGA GGAAAATGTA AGGCCTGGAA GGAATATGAG 
AGGGAAGAAA AGGATGAGCT GACTTTTCGC CGGGGAGAAA GCATCGAGAT CATCGGTTTT 
GTCATACCTG GGCTTCAGTG GTTCATTGGG AAGTCGACAC ACTCAGGAGA AGTGGGCTTT 
GTTCCCACCA GGAACATAGA TCCCGAGTCG TATTCCCCAA TGAACAAGAG CTCCGCCTTT 
TTCAGTGACG AGGAAAGATG CTCTCTGTGG GTCCTGGGAA GTGACAGGAA AGCTGAGTGT 
GCCAGCTTCC TCCACACGCT TGCTCATACC GACATAGCGT CTGTCTACCG GCTTAGTGGG 
TTTGAATCCA TCCAGAATCT TCCAAACGAT CTAAGTGCGT CCAAGCCTGA AGGCTTCAAG 
GAGGCCAGGC CTGGCAGAGC CAGGGAGGAG CATCAGGCCG TGGGCTCCAG ACAGTCCAGC 
AGCTCTGAGG ACTCCAGCCT GGAGGAGGAG CTCCTCTCAG CCACCTCGGA CAGCTATCAC 
TTGCCAGAGC CCGATGACCT CGATGACCCG GAACTCCTCG TGGACTTAAA CACTGGTCAG 
GAAGAGGAGG AGGCTGAGAA CTTTGCCCCC ATATTGGCTT TTCTGGATCA CGAGGGTTAC 
GCTGACCACT TTAAGAGCCT CTATGATTTC TCCTTCTCTT TCCTCACATC TTCCTTTTAT 
AGCTTCTCTG AGGAGGATGA ACTTGTGGCC TACCTGGAGG CCTCAAGGAA GTGGGCCAAG 
CGGAGCTGCA GGACCTGGGC CCACGCCAGG CTCTGCTTCC TCCTGGGCCG GCTGAGTGTC 
AGGAAGGTCA AACTCTCTCA GGCCAGGTTG TACTTTGAGG AGGCTAGGTA CATCCTTGAT 
GGGACATTTG AAGACCTATC CTTGGTGGCC GCTCTGTATA TCAATCTGGC TGCCATCTAC 
CTGAGGCAGA GGCTGAGGCA TAAAGGCTCG TCTCTGCTGG AAAAAGCAGG GGCGCTGTTG 
GCCTGCCTGC CTGACCGTGA GTCTAGTACC AAGAACGAGC TCGATGTGGT GGCCTACGTA 
CTACGCCAGA GCATTGTGGC AGGCAGCTGT CCCTTGGAGG CCAGGGCCTG CTTCCTGGCC 
ATCCGATTGC TCCTGAGCCT AGGCCGGCAT GAGGAGGTCC TGCCCTTCGC CGAGCGCCTG 
CAGGTCCTCT CCGGACACCC TCCTGACTTG GAGGCTACAG CAACCATCTT GAGTTTTCTG 
TACGATAAGA AATATCTCCC ACACCTGGTA GTGGCCTCTG TCCAGGAACG TGGTACCCAG 
AGTGGCCAAG GGATGTCCCT TCCAATTTGG CAGGTCTACC TGGTTCTCCA GAACACCACC 
AAACTCCTTG GAGTCCCCTC TTCAAGCTGG GGTGAAGTTT CTGCCCTGGC CTGCCCAGCA 
CTCAGGCGGG CGCTGGCTGC CTGTGAGGAA CAGGTCAATT GGAGCGCCCA GAGGGCCCTG 
TGTCTCATCC TGTCCAAAGT GTACCTCCAA CACAGGTCTC CTGACGGTGC CATCCACTAC 
CTGAGCCAGG CCTTGGTGCT GGGGCAGCTG CTGAGTGAGC AGGAAGCCTT TGAGTCTTCT 
CTCTGCCTGG CGTGGGCGTA TCTCTTAGCC AGCCAAGCAA AGAAGGCTTT GGACATCCTC 
GAGCCACTCC TATACTCCCA GAAGGATACA GAGAGTATCA CCCAAAAGGG GGTGGTCCAT 
AACCTCCTGG GACTTGCACT TCAAGGTGAA GGCCGGGTGA ACAGGGCAGC CAAGAGCTAT 
CTCCGGGCCT TGAACAGAGC TCAGGAAATG GGGAATGTGC GTAACCAGGC GGTGACTTTG 
GCCAATCTTG GCCACCTGAC CCTTAAGTCC TGGGCTCAGC AGCCAGCCAA GGACTATCTC 
CTGCAGGCCG TCCGACTCTA TTCTGAGCTC CAGACCAGCA TGGAGACAGA CATGGAATTG 
GTACAGGTCC TTCTCTGGTT GGCCCCGGTG CTGGTGCATG GACGCCAGCT GGCCAGCGGC 
CGCCTGTGTT ATGAGATGGC ATTGCTGTTT GGCTTAAGGC ATCGACACCT AAAGAGTCAG 
CTTCAGGTCA CCAAATCCCT CTGCCATTTC TACAGCTCTG TATCCCCAAG CCCCAAGGCA 
TGCATCACCT ACCACGAGCA CTGGCTGAGC CTGGCTCAGC AACTCAGGGA CCGAGAGATG 
GAGGGGAGGC TGCTGGAGTC CCTCGGGCAG CTCTATCGGA ACCTGAACAC AGCCAGGTCT 
CTCAGGAAGT CTCTCGCCTG CATCAAGGAG AGCCTGCGTA TCTTCATTGA CCTTGGGGAG 
AAAGACAAGG CTGCTGAGGC CTGGCTCGGA GCTGGGCGGC TTCACTACCT CATGCAGGAA 
GATGAGCTGG TGGAGCTCTA CCTGCAGGCA GCCATCCAGA AAGCCCTGAA GTCTGAGGAG 
CCCTCTCTGG CTCTCAAACT CTATGAAGAA GCAGGTGACG TGTTCTTCAA CGGGACCCGC 
CACAGACACC GCGCGGTGGA GTATTACCGA GCTGGGGCTG TTCCTTTAGC GAGGAGGATG 
AAGGCCATGA GAACGGAGCT CCGGGTTTTC AACAAGCTGA CGGAGCTGCA GATCAGCCTG 
GAAGGCTATG AGAAGGCTTT GGAGTTTGCC ACCCTGGCGG CCAGACTCAG CATGGTCATA 
GTCTTCCAAT TCCTAGGAGA TCCGAAGCAG GAGCTGGTGG CCTTCCACCG TCTGGCTACA 
GTCTACTATT CCCTACGCAT GTACGAGATG GCTGAGGACT GCTACCTGAA GACTCTGTCC 
CTCTGTCCCC CCTGGCTGCA GAGCCCTAAG GAGGCCCTGT ACTACTCGAA GGTGTACTAT 
CGCCTGGGCC GCCTCGCCTT CTGCCAGCTG AAGGATGCTC ACGACGCCAC CGAGTACTTC 
CGGCTGGCCC TGGCAGCGGC GGTCCTGCTG GGTGACGAGG CGCTGCAGGA CAGCATCAGG 
AGCAGGCTGG ACAACATCCG CCGGAGCCCC CTGTGGCACA GCAGCCCCTC CGGCCGCTCC 
TCAGAGAGGG CGCGGTGGCT GAGCCGAGGG GGGCTGGCCC TCTGA

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

SH3TC2 ( XM_019798508.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654067.1 Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc92030
Clone ID Related Accession (Same CDS sequence)	XM_019798508.1
Accession Version	XM_019798508.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3540bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	SH3 domain and tetratricopeptide repeat-containing protein 2 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217530.1) 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##

ATGGAGGAAA TCTGGAAGTT TTCTACCTAC TTGAACTTAG GCTATGTATC TGCATGTCTG 
GAACATCTCC TCTTTGACCA CAAGTACTGG CTCAACTGCA GATTGGTGGA AGATACAGAG 
ATCCAAGTGT CAGTGGATGA GAAACACCTG GAAACAATAT ACCTGGGACT CCTGATACAG 
GAAGGCCACT TCTTCTGCAG AGCCCTGTGC TCCGTGTCTC AGCCAGCTGA GAAGGAAGGG 
GAATATTTGA CGCTTTGTAA GAAGGAGTTA GTCTCTGTGA AGACAGTTGA AGGCGAATCC 
GAGTGGGAGG GCGTGTCCTT GGTGACGGGT CAGCGGGGCC TGGTGCCCCT GTCAGCTCTG 
GAACCTCTGC CACTCCCTTT CCACCAATGG TTCCTAAAGA ATTATCCAGG AAGCTGTGGC 
CTTTGCAGGA AGAGGGATTG GACAGGCTCC TATCAGATCG GCAGAGGAAA ATGTAAGGCC 
TGGAAGGAAT ATGAGAGGGA AGAAAAGGAT GAGCTGACTT TTCGCCGGGG AGAAAGCATC 
GAGATCATCG GTTTTGTCAT ACCTGGGCTT CAGTGGTTCA TTGGGAAGTC GACACACTCA 
GGAGAAGTGG GCTTTGTTCC CACCAGGAAC ATAGATCCCG AGTCGTATTC CCCAATGAAC 
AAGAGCTCCG CCTTTTTCAG TGACGAGGAA AGATGCTCTC TGTGGGTCCT GGGAAGTGAC 
AGGAAAGCTG AGTGTGCCAG CTTCCTCCAC ACGCTTGCTC ATACCGACAT AGCGTCTGTC 
TACCGGCTTA GTGGGTTTGA ATCCATCCAG AATCTTCCAA ACGATCTAAG TGCGTCCAAG 
CCTGAAGGCT TCAAGGAGGC CAGGCCTGGC AGAGCCAGGG AGGAGCATCA GGCCGTGGGC 
TCCAGACAGT CCAGCAGCTC TGAGGACTCC AGCCTGGAGG AGGAGCTCCT CTCAGCCACC 
TCGGACAGCT ATCACTTGCC AGAGCCCGAT GACCTCGATG ACCCGGAACT CCTCGTGGAC 
TTAAACACTG GTCAGGAAGA GGAGGAGGCT GAGAACTTTG CCCCCATATT GGCTTTTCTG 
GATCACGAGG GTTACGCTGA CCACTTTAAG AGCCTCTATG ATTTCTCCTT CTCTTTCCTC 
ACATCTTCCT TTTATAGCTT CTCTGAGGAG GATGAACTTG TGGCCTACCT GGAGGCCTCA 
AGGAAGTGGG CCAAGCGGAG CTGCAGGACC TGGGCCCACG CCAGGCTCTG CTTCCTCCTG 
GGCCGGCTGA GTGTCAGGAA GGTCAAACTC TCTCAGGCCA GGTTGTACTT TGAGGAGGCT 
AGGTACATCC TTGATGGGAC ATTTGAAGAC CTATCCTTGG TGGCCGCTCT GTATATCAAT 
CTGGCTGCCA TCTACCTGAG GCAGAGGCTG AGGCATAAAG GCTCGTCTCT GCTGGAAAAA 
GCAGGGGCGC TGTTGGCCTG CCTGCCTGAC CGTGAGTCTA GTACCAAGAA CGAGCTCGAT 
GTGGTGGCCT ACGTACTACG CCAGAGCATT GTGGCAGGCA GCTGTCCCTT GGAGGCCAGG 
GCCTGCTTCC TGGCCATCCG ATTGCTCCTG AGCCTAGGCC GGCATGAGGA GGTCCTGCCC 
TTCGCCGAGC GCCTGCAGGT CCTCTCCGGA CACCCTCCTG ACTTGGAGGC TACAGCAACC 
ATCTTGAGTT TTCTGTACGA TAAGAAATAT CTCCCACACC TGGTAGTGGC CTCTGTCCAG 
GAACGTGGTA CCCAGAGTGG CCAAGGGATG TCCCTTCCAA TTTGGCAGGT CTACCTGGTT 
CTCCAGAACA CCACCAAACT CCTTGGAGTC CCCTCTTCAA GCTGGGGTGA AGTTTCTGCC 
CTGGCCTGCC CAGCACTCAG GCGGGCGCTG GCTGCCTGTG AGGAACAGGT CAATTGGAGC 
GCCCAGAGGG CCCTGTGTCT CATCCTGTCC AAAGTGTACC TCCAACACAG GTCTCCTGAC 
GGTGCCATCC ACTACCTGAG CCAGGCCTTG GTGCTGGGGC AGCTGCTGAG TGAGCAGGAA 
GCCTTTGAGT CTTCTCTCTG CCTGGCGTGG GCGTATCTCT TAGCCAGCCA AGCAAAGAAG 
GCTTTGGACA TCCTCGAGCC ACTCCTATAC TCCCAGAAGG ATACAGAGAG TATCACCCAA 
AAGGGGGTGG TCCATAACCT CCTGGGACTT GCACTTCAAG GTGAAGGCCG GGTGAACAGG 
GCAGCCAAGA GCTATCTCCG GGCCTTGAAC AGAGCTCAGG AAATGGGGAA TGTGCGTAAC 
CAGGCGGTGA CTTTGGCCAA TCTTGGCCAC CTGACCCTTA AGTCCTGGGC TCAGCAGCCA 
GCCAAGGACT ATCTCCTGCA GGCCGTCCGA CTCTATTCTG AGCTCCAGAC CAGCATGGAG 
ACAGACATGG AATTGGTACA GGTCCTTCTC TGGTTGGCCC CGGTGCTGGT GCATGGACGC 
CAGCTGGCCA GCGGCCGCCT GTGTTATGAG ATGGCATTGC TGTTTGGCTT AAGGCATCGA 
CACCTAAAGA GTCAGCTTCA GGTCACCAAA TCCCTCTGCC ATTTCTACAG CTCTGTATCC 
CCAAGCCCCA AGGCATGCAT CACCTACCAC GAGCACTGGC TGAGCCTGGC TCAGCAACTC 
AGGGACCGAG AGATGGAGGG GAGGCTGCTG GAGTCCCTCG GGCAGCTCTA TCGGAACCTG 
AACACAGCCA GGTCTCTCAG GAAGTCTCTC GCCTGCATCA AGGAGAGCCT GCGTATCTTC 
ATTGACCTTG GGGAGAAAGA CAAGGCTGCT GAGGCCTGGC TCGGAGCTGG GCGGCTTCAC 
TACCTCATGC AGGAAGATGA GCTGGTGGAG CTCTACCTGC AGGCAGCCAT CCAGAAAGCC 
CTGAAGTCTG AGGAGCCCTC TCTGGCTCTC AAACTCTATG AAGAAGCAGG TGACGTGTTC 
TTCAACGGGA CCCGCCACAG ACACCGCGCG GTGGAGTATT ACCGAGCTGG GGCTGTTCCT 
TTAGCGAGGA GGATGAAGGC CATGAGAACG GAGCTCCGGG TTTTCAACAA GCTGACGGAG 
CTGCAGATCA GCCTGGAAGG CTATGAGAAG GCTTTGGAGT TTGCCACCCT GGCGGCCAGA 
CTCAGCATGG TCATAGTCTT CCAATTCCTA GGAGATCCGA AGCAGGAGCT GGTGGCCTTC 
CACCGTCTGG CTACAGTCTA CTATTCCCTA CGCATGTACG AGATGGCTGA GGACTGCTAC 
CTGAAGACTC TGTCCCTCTG TCCCCCCTGG CTGCAGAGCC CTAAGGAGGC CCTGTACTAC 
TCGAAGGTGT ACTATCGCCT GGGCCGCCTC GCCTTCTGCC AGCTGAAGGA TGCTCACGAC 
GCCACCGAGT ACTTCCGGCT GGCCCTGGCA GCGGCGGTCC TGCTGGGTGA CGAGGCGCTG 
CAGGACAGCA TCAGGAGCAG GCTGGACAAC ATCCGCCGGA GCCCCCTGTG GCACAGCAGC 
CCCTCCGGCC GCTCCTCAGA GAGGGCGCGG TGGCTGAGCC GAGGGGGGCT GGCCCTCTGA

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

RefSeq	XP_019654067.1
CDS	293..3832
Translation	MEEIWKFSTYLNLGYVSACLEHLLFDHKYWLNCRLVEDTEIQVSVDEKHLETIYLGLLIQEGHFFCRALCSVSQPAEKEGEYLTLCKKELVSVKTVEGESEWEGVSLVTGQRGLVPLSALEPLPLPFHQWFLKNYPGSCGLCRKRDWTGSYQIGRGKCKAWKEYEREEKDELTFRRGESIEIIGFVIPGLQWFIGKSTHSGEVGFVPTRNIDPESYSPMNKSSAFFSDEERCSLWVLGSDRKAECASFLHTLAHTDIASVYRLSGFESIQNLPNDLSASKPEGFKEARPGRAREEHQAVGSRQSSSSEDSSLEEELLSATSDSYHLPEPDDLDDPELLVDLNTGQEEEEAENFAPILAFLDHEGYADHFKSLYDFSFSFLTSSFYSFSEEDELVAYLEASRKWAKRSCRTWAHARLCFLLGRLSVRKVKLSQARLYFEEARYILDGTFEDLSLVAALYINLAAIYLRQRLRHKGSSLLEKAGALLACLPDRESSTKNELDVVAYVLRQSIVAGSCPLEARACFLAIRLLLSLGRHEEVLPFAERLQVLSGHPPDLEATATILSFLYDKKYLPHLVVASVQERGTQSGQGMSLPIWQVYLVLQNTTKLLGVPSSSWGEVSALACPALRRALAACEEQVNWSAQRALCLILSKVYLQHRSPDGAIHYLSQALVLGQLLSEQEAFESSLCLAWAYLLASQAKKALDILEPLLYSQKDTESITQKGVVHNLLGLALQGEGRVNRAAKSYLRALNRAQEMGNVRNQAVTLANLGHLTLKSWAQQPAKDYLLQAVRLYSELQTSMETDMELVQVLLWLAPVLVHGRQLASGRLCYEMALLFGLRHRHLKSQLQVTKSLCHFYSSVSPSPKACITYHEHWLSLAQQLRDREMEGRLLESLGQLYRNLNTARSLRKSLACIKESLRIFIDLGEKDKAAEAWLGAGRLHYLMQEDELVELYLQAAIQKALKSEEPSLALKLYEEAGDVFFNGTRHRHRAVEYYRAGAVPLARRMKAMRTELRVFNKLTELQISLEGYEKALEFATLAARLSMVIVFQFLGDPKQELVAFHRLATVYYSLRMYEMAEDCYLKTLSLCPPWLQSPKEALYYSKVYYRLGRLAFCQLKDAHDATEYFRLALAAAVLLGDEALQDSIRSRLDNIRRSPLWHSSPSGRSSERARWLSRGGLAL

Target ORF information:

RefSeq Version	XM_019798508.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X4, mRNA.

Target ORF information:

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

XM_019798508.1

ORF Insert Sequence:

ATGGAGGAAA TCTGGAAGTT TTCTACCTAC TTGAACTTAG GCTATGTATC TGCATGTCTG 
GAACATCTCC TCTTTGACCA CAAGTACTGG CTCAACTGCA GATTGGTGGA AGATACAGAG 
ATCCAAGTGT CAGTGGATGA GAAACACCTG GAAACAATAT ACCTGGGACT CCTGATACAG 
GAAGGCCACT TCTTCTGCAG AGCCCTGTGC TCCGTGTCTC AGCCAGCTGA GAAGGAAGGG 
GAATATTTGA CGCTTTGTAA GAAGGAGTTA GTCTCTGTGA AGACAGTTGA AGGCGAATCC 
GAGTGGGAGG GCGTGTCCTT GGTGACGGGT CAGCGGGGCC TGGTGCCCCT GTCAGCTCTG 
GAACCTCTGC CACTCCCTTT CCACCAATGG TTCCTAAAGA ATTATCCAGG AAGCTGTGGC 
CTTTGCAGGA AGAGGGATTG GACAGGCTCC TATCAGATCG GCAGAGGAAA ATGTAAGGCC 
TGGAAGGAAT ATGAGAGGGA AGAAAAGGAT GAGCTGACTT TTCGCCGGGG AGAAAGCATC 
GAGATCATCG GTTTTGTCAT ACCTGGGCTT CAGTGGTTCA TTGGGAAGTC GACACACTCA 
GGAGAAGTGG GCTTTGTTCC CACCAGGAAC ATAGATCCCG AGTCGTATTC CCCAATGAAC 
AAGAGCTCCG CCTTTTTCAG TGACGAGGAA AGATGCTCTC TGTGGGTCCT GGGAAGTGAC 
AGGAAAGCTG AGTGTGCCAG CTTCCTCCAC ACGCTTGCTC ATACCGACAT AGCGTCTGTC 
TACCGGCTTA GTGGGTTTGA ATCCATCCAG AATCTTCCAA ACGATCTAAG TGCGTCCAAG 
CCTGAAGGCT TCAAGGAGGC CAGGCCTGGC AGAGCCAGGG AGGAGCATCA GGCCGTGGGC 
TCCAGACAGT CCAGCAGCTC TGAGGACTCC AGCCTGGAGG AGGAGCTCCT CTCAGCCACC 
TCGGACAGCT ATCACTTGCC AGAGCCCGAT GACCTCGATG ACCCGGAACT CCTCGTGGAC 
TTAAACACTG GTCAGGAAGA GGAGGAGGCT GAGAACTTTG CCCCCATATT GGCTTTTCTG 
GATCACGAGG GTTACGCTGA CCACTTTAAG AGCCTCTATG ATTTCTCCTT CTCTTTCCTC 
ACATCTTCCT TTTATAGCTT CTCTGAGGAG GATGAACTTG TGGCCTACCT GGAGGCCTCA 
AGGAAGTGGG CCAAGCGGAG CTGCAGGACC TGGGCCCACG CCAGGCTCTG CTTCCTCCTG 
GGCCGGCTGA GTGTCAGGAA GGTCAAACTC TCTCAGGCCA GGTTGTACTT TGAGGAGGCT 
AGGTACATCC TTGATGGGAC ATTTGAAGAC CTATCCTTGG TGGCCGCTCT GTATATCAAT 
CTGGCTGCCA TCTACCTGAG GCAGAGGCTG AGGCATAAAG GCTCGTCTCT GCTGGAAAAA 
GCAGGGGCGC TGTTGGCCTG CCTGCCTGAC CGTGAGTCTA GTACCAAGAA CGAGCTCGAT 
GTGGTGGCCT ACGTACTACG CCAGAGCATT GTGGCAGGCA GCTGTCCCTT GGAGGCCAGG 
GCCTGCTTCC TGGCCATCCG ATTGCTCCTG AGCCTAGGCC GGCATGAGGA GGTCCTGCCC 
TTCGCCGAGC GCCTGCAGGT CCTCTCCGGA CACCCTCCTG ACTTGGAGGC TACAGCAACC 
ATCTTGAGTT TTCTGTACGA TAAGAAATAT CTCCCACACC TGGTAGTGGC CTCTGTCCAG 
GAACGTGGTA CCCAGAGTGG CCAAGGGATG TCCCTTCCAA TTTGGCAGGT CTACCTGGTT 
CTCCAGAACA CCACCAAACT CCTTGGAGTC CCCTCTTCAA GCTGGGGTGA AGTTTCTGCC 
CTGGCCTGCC CAGCACTCAG GCGGGCGCTG GCTGCCTGTG AGGAACAGGT CAATTGGAGC 
GCCCAGAGGG CCCTGTGTCT CATCCTGTCC AAAGTGTACC TCCAACACAG GTCTCCTGAC 
GGTGCCATCC ACTACCTGAG CCAGGCCTTG GTGCTGGGGC AGCTGCTGAG TGAGCAGGAA 
GCCTTTGAGT CTTCTCTCTG CCTGGCGTGG GCGTATCTCT TAGCCAGCCA AGCAAAGAAG 
GCTTTGGACA TCCTCGAGCC ACTCCTATAC TCCCAGAAGG ATACAGAGAG TATCACCCAA 
AAGGGGGTGG TCCATAACCT CCTGGGACTT GCACTTCAAG GTGAAGGCCG GGTGAACAGG 
GCAGCCAAGA GCTATCTCCG GGCCTTGAAC AGAGCTCAGG AAATGGGGAA TGTGCGTAAC 
CAGGCGGTGA CTTTGGCCAA TCTTGGCCAC CTGACCCTTA AGTCCTGGGC TCAGCAGCCA 
GCCAAGGACT ATCTCCTGCA GGCCGTCCGA CTCTATTCTG AGCTCCAGAC CAGCATGGAG 
ACAGACATGG AATTGGTACA GGTCCTTCTC TGGTTGGCCC CGGTGCTGGT GCATGGACGC 
CAGCTGGCCA GCGGCCGCCT GTGTTATGAG ATGGCATTGC TGTTTGGCTT AAGGCATCGA 
CACCTAAAGA GTCAGCTTCA GGTCACCAAA TCCCTCTGCC ATTTCTACAG CTCTGTATCC 
CCAAGCCCCA AGGCATGCAT CACCTACCAC GAGCACTGGC TGAGCCTGGC TCAGCAACTC 
AGGGACCGAG AGATGGAGGG GAGGCTGCTG GAGTCCCTCG GGCAGCTCTA TCGGAACCTG 
AACACAGCCA GGTCTCTCAG GAAGTCTCTC GCCTGCATCA AGGAGAGCCT GCGTATCTTC 
ATTGACCTTG GGGAGAAAGA CAAGGCTGCT GAGGCCTGGC TCGGAGCTGG GCGGCTTCAC 
TACCTCATGC AGGAAGATGA GCTGGTGGAG CTCTACCTGC AGGCAGCCAT CCAGAAAGCC 
CTGAAGTCTG AGGAGCCCTC TCTGGCTCTC AAACTCTATG AAGAAGCAGG TGACGTGTTC 
TTCAACGGGA CCCGCCACAG ACACCGCGCG GTGGAGTATT ACCGAGCTGG GGCTGTTCCT 
TTAGCGAGGA GGATGAAGGC CATGAGAACG GAGCTCCGGG TTTTCAACAA GCTGACGGAG 
CTGCAGATCA GCCTGGAAGG CTATGAGAAG GCTTTGGAGT TTGCCACCCT GGCGGCCAGA 
CTCAGCATGG TCATAGTCTT CCAATTCCTA GGAGATCCGA AGCAGGAGCT GGTGGCCTTC 
CACCGTCTGG CTACAGTCTA CTATTCCCTA CGCATGTACG AGATGGCTGA GGACTGCTAC 
CTGAAGACTC TGTCCCTCTG TCCCCCCTGG CTGCAGAGCC CTAAGGAGGC CCTGTACTAC 
TCGAAGGTGT ACTATCGCCT GGGCCGCCTC GCCTTCTGCC AGCTGAAGGA TGCTCACGAC 
GCCACCGAGT ACTTCCGGCT GGCCCTGGCA GCGGCGGTCC TGCTGGGTGA CGAGGCGCTG 
CAGGACAGCA TCAGGAGCAG GCTGGACAAC ATCCGCCGGA GCCCCCTGTG GCACAGCAGC 
CCCTCCGGCC GCTCCTCAGA GAGGGCGCGG TGGCTGAGCC GAGGGGGGCT GGCCCTCTGA

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

SH3TC2 ( XM_011223562.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011221864.1 Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X2, mRNA.

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CloneID	OAc28093
Clone ID Related Accession (Same CDS sequence)	XM_011223562.2
Accession Version	XM_011223562.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3870bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	SH3 domain and tetratricopeptide repeat-containing protein 2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217530.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011223562.1. ##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##

ATGGGTGGCT GCTTCTGCAT TCCCGGGGAG CCGAGTCTGT CCTGGGGCCC AGGTAAAGAA 
ACTCCTTCCA AGGATCCAAC CATATCGAGT GAGTTTATAG CCTCATCTGA AGACAAGGAA 
AAATGTTTCC TGACACAGAA TATGATTCCA GATCTGACGC TCTCTTTCAG TGTGAAGAGC 
CGCTCCCGGA GGTGTGTAAA CGGCCTCCTG CAGGAAGCGG CCAGGAGGCG GCTGTGGGCG 
CTGGAGAATG AGGACCAGGA GGTGCGTGCC CTGTTTCAGG ACCTCTCAGC CAGGTTGGTG 
GGTATCCAGT CCCAGAAGGC TCAGTTCCTC ATCACCTTCA AGACCATGGA GGAAATCTGG 
AAGTTTTCTA CCTACTTGAA CTTAGGCTAT GTATCTGCAT GTCTGGAACA TCTCCTCTTT 
GACCACAAGT ACTGGCTCAA CTGCAGATTG GTGGAAGATA CAGAGATCCA AGTGTCAGTG 
GATGAGAAAC ACCTGGAAAC AATATACCTG GGACTCCTGA TACAGGAAGG CCACTTCTTC 
TGCAGAGCCC TGTGCTCCGT GTCTCAGCCA GCTGAGAAGG AAGGGGAATA TTTGACGCTT 
TGTAAGAAGG AGTTAGTCTC TGTGAAGACA GTTGAAGGCG AATCCGAGTG GGAGGGCGTG 
TCCTTGGTGA CGGGTCAGCG GGGCCTGGTG CCCCTGTCAG CTCTGGAACC TCTGCCACTC 
CCTTTCCACC AATGGTTCCT AAAGAATTAT CCAGGAAGCT GTGGCCTTTG CAGGAAGAGG 
GATTGGACAG GCTCCTATCA GATCGGCAGA GGAAAATGTA AGGCCTGGAA GGAATATGAG 
AGGGAAGAAA AGGATGAGCT GACTTTTCGC CGGGGAGAAA GCATCGAGAT CATCGGTTTT 
GTCATACCTG GGCTTCAGTG GTTCATTGGG AAGTCGACAC ACTCAGGAGA AGTGGGCTTT 
GTTCCCACCA GGAACATAGA TCCCGAGTCG TATTCCCCAA TGAACAAGAG CTCCGCCTTT 
TTCAGTGACG AGGAAAGATG CTCTCTGTGG GTCCTGGGAA GTGACAGGAA AGCTGAGTGT 
GCCAGCTTCC TCCACACGCT TGCTCATACC GACATAGCGT CTGTCTACCG GCTTAGTGGG 
TTTGAATCCA TCCAGAATCT TCCAAACGAT CTAAGTGCGT CCAAGCCTGA AGGCTTCAAG 
GAGGCCAGGC CTGGCAGAGC CAGGGAGGAG CATCAGGCCG TGGGCTCCAG ACAGTCCAGC 
AGCTCTGAGG ACTCCAGCCT GGAGGAGGAG CTCCTCTCAG CCACCTCGGA CAGCTATCAC 
TTGCCAGAGC CCGATGACCT CGATGACCCG GAACTCCTCG TGGACTTAAA CACTGGTCAG 
GAAGAGGAGG AGGCTGAGAA CTTTGCCCCC ATATTGGCTT TTCTGGATCA CGAGGGTTAC 
GCTGACCACT TTAAGAGCCT CTATGATTTC TCCTTCTCTT TCCTCACATC TTCCTTTTAT 
AGCTTCTCTG AGGAGGATGA ACTTGTGGCC TACCTGGAGG CCTCAAGGAA GTGGGCCAAG 
CGGAGCTGCA GGACCTGGGC CCACGCCAGG CTCTGCTTCC TCCTGGGCCG GCTGAGTGTC 
AGGAAGGTCA AACTCTCTCA GGCCAGGTTG TACTTTGAGG AGGCTAGGTA CATCCTTGAT 
GGGACATTTG AAGACCTATC CTTGGTGGCC GCTCTGTATA TCAATCTGGC TGCCATCTAC 
CTGAGGCAGA GGCTGAGGCA TAAAGGCTCG TCTCTGCTGG AAAAAGCAGG GGCGCTGTTG 
GCCTGCCTGC CTGACCGTGA GTCTAGTACC AAGAACGAGC TCGATGTGGT GGCCTACGTA 
CTACGCCAGA GCATTGTGGC AGGCAGCTGT CCCTTGGAGG CCAGGGCCTG CTTCCTGGCC 
ATCCGATTGC TCCTGAGCCT AGGCCGGCAT GAGGAGGTCC TGCCCTTCGC CGAGCGCCTG 
CAGGTCCTCT CCGGACACCC TCCTGACTTG GAGGCTACAG CAACCATCTT GAGTTTTCTG 
TACGATAAGA AATATCTCCC ACACCTGGTA GTGGCCTCTG TCCAGGAACG TGGTACCCAG 
AGTGGCCAAG GGATGTCCCT TCCAATTTGG CAGGTCTACC TGGTTCTCCA GAACACCACC 
AAACTCCTTG GAGTCCCCTC TTCAAGCTGG GGTGAAGTTT CTGCCCTGGC CTGCCCAGCA 
CTCAGGCGGG CGCTGGCTGC CTGTGAGGAA CAGGTCAATT GGAGCGCCCA GAGGGCCCTG 
TGTCTCATCC TGTCCAAAGT GTACCTCCAA CACAGGTCTC CTGACGGTGC CATCCACTAC 
CTGAGCCAGG CCTTGGTGCT GGGGCAGCTG CTGAGTGAGC AGGAAGCCTT TGAGTCTTCT 
CTCTGCCTGG CGTGGGCGTA TCTCTTAGCC AGCCAAGCAA AGAAGGCTTT GGACATCCTC 
GAGCCACTCC TATACTCCCA GAAGGATACA GAGAGTATCA CCCAAAAGGG GGTGGTCCAT 
AACCTCCTGG GACTTGCACT TCAAGGTGAA GGCCGGGTGA ACAGGGCAGC CAAGAGCTAT 
CTCCGGGCCT TGAACAGAGC TCAGGAAATG GGGAATGTGC GTAACCAGGC GGTGACTTTG 
GCCAATCTTG GCCACCTGAC CCTTAAGTCC TGGGCTCAGC AGCCAGCCAA GGACTATCTC 
CTGCAGGCCG TCCGACTCTA TTCTGAGCTC CAGACCAGCA TGGAGACAGA CATGGAATTG 
GTACAGGTCC TTCTCTGGTT GGCCCCGGTG CTGGTGCATG GACGCCAGCT GGCCAGCGGC 
CGCCTGTGTT ATGAGATGGC ATTGCTGTTT GGCTTAAGGC ATCGACACCT AAAGAGTCAG 
CTTCAGGTCA CCAAATCCCT CTGCCATTTC TACAGCTCTG TATCCCCAAG CCCCAAGGCA 
TGCATCACCT ACCACGAGCA CTGGCTGAGC CTGGCTCAGC AACTCAGGGA CCGAGAGATG 
GAGGGGAGGC TGCTGGAGTC CCTCGGGCAG CTCTATCGGA ACCTGAACAC AGCCAGGTCT 
CTCAGGAAGT CTCTCGCCTG CATCAAGGAG AGCCTGCGTA TCTTCATTGA CCTTGGGGAG 
AAAGACAAGG CTGCTGAGGC CTGGCTCGGA GCTGGGCGGC TTCACTACCT CATGCAGGAA 
GATGAGCTGG TGGAGCTCTA CCTGCAGGCA GCCATCCAGA AAGCCCTGAA GTCTGAGGAG 
CCCTCTCTGG CTCTCAAACT CTATGAAGAA GCAGGTGACG TGTTCTTCAA CGGGACCCGC 
CACAGACACC GCGCGGTGGA GTATTACCGA GCTGGGGCTG TTCCTTTAGC GAGGAGGATG 
AAGGCCATGA GAACGGAGCT CCGGGTTTTC AACAAGCTGA CGGAGCTGCA GATCAGCCTG 
GAAGGCTATG AGAAGGCTTT GGAGTTTGCC ACCCTGGCGG CCAGACTCAG CATGGTCATA 
GGAGATCCGA AGCAGGAGCT GGTGGCCTTC CACCGTCTGG CTACAGTCTA CTATTCCCTA 
CGCATGTACG AGATGGCTGA GGACTGCTAC CTGAAGACTC TGTCCCTCTG TCCCCCCTGG 
CTGCAGAGCC CTAAGGAGGC CCTGTACTAC TCGAAGGTGT ACTATCGCCT GGGCCGCCTC 
GCCTTCTGCC AGCTGAAGGA TGCTCACGAC GCCACCGAGT ACTTCCGGCT GGCCCTGGCA 
GCGGCGGTCC TGCTGGGTGA CGAGGCGCTG CAGGACAGCA TCAGGAGCAG GCTGGACAAC 
ATCCGCCGGA GCCCCCTGTG GCACAGCAGC CCCTCCGGCC GCTCCTCAGA GAGGGCGCGG 
TGGCTGAGCC GAGGGGGGCT GGCCCTCTGA

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

RefSeq	XP_011221864.1
CDS	121..3990
Translation	MGGCFCIPGEPSLSWGPGKETPSKDPTISSEFIASSEDKEKCFLTQNMIPDLTLSFSVKSRSRRCVNGLLQEAARRRLWALENEDQEVRALFQDLSARLVGIQSQKAQFLITFKTMEEIWKFSTYLNLGYVSACLEHLLFDHKYWLNCRLVEDTEIQVSVDEKHLETIYLGLLIQEGHFFCRALCSVSQPAEKEGEYLTLCKKELVSVKTVEGESEWEGVSLVTGQRGLVPLSALEPLPLPFHQWFLKNYPGSCGLCRKRDWTGSYQIGRGKCKAWKEYEREEKDELTFRRGESIEIIGFVIPGLQWFIGKSTHSGEVGFVPTRNIDPESYSPMNKSSAFFSDEERCSLWVLGSDRKAECASFLHTLAHTDIASVYRLSGFESIQNLPNDLSASKPEGFKEARPGRAREEHQAVGSRQSSSSEDSSLEEELLSATSDSYHLPEPDDLDDPELLVDLNTGQEEEEAENFAPILAFLDHEGYADHFKSLYDFSFSFLTSSFYSFSEEDELVAYLEASRKWAKRSCRTWAHARLCFLLGRLSVRKVKLSQARLYFEEARYILDGTFEDLSLVAALYINLAAIYLRQRLRHKGSSLLEKAGALLACLPDRESSTKNELDVVAYVLRQSIVAGSCPLEARACFLAIRLLLSLGRHEEVLPFAERLQVLSGHPPDLEATATILSFLYDKKYLPHLVVASVQERGTQSGQGMSLPIWQVYLVLQNTTKLLGVPSSSWGEVSALACPALRRALAACEEQVNWSAQRALCLILSKVYLQHRSPDGAIHYLSQALVLGQLLSEQEAFESSLCLAWAYLLASQAKKALDILEPLLYSQKDTESITQKGVVHNLLGLALQGEGRVNRAAKSYLRALNRAQEMGNVRNQAVTLANLGHLTLKSWAQQPAKDYLLQAVRLYSELQTSMETDMELVQVLLWLAPVLVHGRQLASGRLCYEMALLFGLRHRHLKSQLQVTKSLCHFYSSVSPSPKACITYHEHWLSLAQQLRDREMEGRLLESLGQLYRNLNTARSLRKSLACIKESLRIFIDLGEKDKAAEAWLGAGRLHYLMQEDELVELYLQAAIQKALKSEEPSLALKLYEEAGDVFFNGTRHRHRAVEYYRAGAVPLARRMKAMRTELRVFNKLTELQISLEGYEKALEFATLAARLSMVIGDPKQELVAFHRLATVYYSLRMYEMAEDCYLKTLSLCPPWLQSPKEALYYSKVYYRLGRLAFCQLKDAHDATEYFRLALAAAVLLGDEALQDSIRSRLDNIRRSPLWHSSPSGRSSERARWLSRGGLAL

Target ORF information:

RefSeq Version	XM_011223562.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca SH3 domain and tetratricopeptide repeats 2 (SH3TC2), transcript variant X2, mRNA.

Target ORF information:

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

XM_011223562.2

ORF Insert Sequence:

ATGGGTGGCT GCTTCTGCAT TCCCGGGGAG CCGAGTCTGT CCTGGGGCCC AGGTAAAGAA 
ACTCCTTCCA AGGATCCAAC CATATCGAGT GAGTTTATAG CCTCATCTGA AGACAAGGAA 
AAATGTTTCC TGACACAGAA TATGATTCCA GATCTGACGC TCTCTTTCAG TGTGAAGAGC 
CGCTCCCGGA GGTGTGTAAA CGGCCTCCTG CAGGAAGCGG CCAGGAGGCG GCTGTGGGCG 
CTGGAGAATG AGGACCAGGA GGTGCGTGCC CTGTTTCAGG ACCTCTCAGC CAGGTTGGTG 
GGTATCCAGT CCCAGAAGGC TCAGTTCCTC ATCACCTTCA AGACCATGGA GGAAATCTGG 
AAGTTTTCTA CCTACTTGAA CTTAGGCTAT GTATCTGCAT GTCTGGAACA TCTCCTCTTT 
GACCACAAGT ACTGGCTCAA CTGCAGATTG GTGGAAGATA CAGAGATCCA AGTGTCAGTG 
GATGAGAAAC ACCTGGAAAC AATATACCTG GGACTCCTGA TACAGGAAGG CCACTTCTTC 
TGCAGAGCCC TGTGCTCCGT GTCTCAGCCA GCTGAGAAGG AAGGGGAATA TTTGACGCTT 
TGTAAGAAGG AGTTAGTCTC TGTGAAGACA GTTGAAGGCG AATCCGAGTG GGAGGGCGTG 
TCCTTGGTGA CGGGTCAGCG GGGCCTGGTG CCCCTGTCAG CTCTGGAACC TCTGCCACTC 
CCTTTCCACC AATGGTTCCT AAAGAATTAT CCAGGAAGCT GTGGCCTTTG CAGGAAGAGG 
GATTGGACAG GCTCCTATCA GATCGGCAGA GGAAAATGTA AGGCCTGGAA GGAATATGAG 
AGGGAAGAAA AGGATGAGCT GACTTTTCGC CGGGGAGAAA GCATCGAGAT CATCGGTTTT 
GTCATACCTG GGCTTCAGTG GTTCATTGGG AAGTCGACAC ACTCAGGAGA AGTGGGCTTT 
GTTCCCACCA GGAACATAGA TCCCGAGTCG TATTCCCCAA TGAACAAGAG CTCCGCCTTT 
TTCAGTGACG AGGAAAGATG CTCTCTGTGG GTCCTGGGAA GTGACAGGAA AGCTGAGTGT 
GCCAGCTTCC TCCACACGCT TGCTCATACC GACATAGCGT CTGTCTACCG GCTTAGTGGG 
TTTGAATCCA TCCAGAATCT TCCAAACGAT CTAAGTGCGT CCAAGCCTGA AGGCTTCAAG 
GAGGCCAGGC CTGGCAGAGC CAGGGAGGAG CATCAGGCCG TGGGCTCCAG ACAGTCCAGC 
AGCTCTGAGG ACTCCAGCCT GGAGGAGGAG CTCCTCTCAG CCACCTCGGA CAGCTATCAC 
TTGCCAGAGC CCGATGACCT CGATGACCCG GAACTCCTCG TGGACTTAAA CACTGGTCAG 
GAAGAGGAGG AGGCTGAGAA CTTTGCCCCC ATATTGGCTT TTCTGGATCA CGAGGGTTAC 
GCTGACCACT TTAAGAGCCT CTATGATTTC TCCTTCTCTT TCCTCACATC TTCCTTTTAT 
AGCTTCTCTG AGGAGGATGA ACTTGTGGCC TACCTGGAGG CCTCAAGGAA GTGGGCCAAG 
CGGAGCTGCA GGACCTGGGC CCACGCCAGG CTCTGCTTCC TCCTGGGCCG GCTGAGTGTC 
AGGAAGGTCA AACTCTCTCA GGCCAGGTTG TACTTTGAGG AGGCTAGGTA CATCCTTGAT 
GGGACATTTG AAGACCTATC CTTGGTGGCC GCTCTGTATA TCAATCTGGC TGCCATCTAC 
CTGAGGCAGA GGCTGAGGCA TAAAGGCTCG TCTCTGCTGG AAAAAGCAGG GGCGCTGTTG 
GCCTGCCTGC CTGACCGTGA GTCTAGTACC AAGAACGAGC TCGATGTGGT GGCCTACGTA 
CTACGCCAGA GCATTGTGGC AGGCAGCTGT CCCTTGGAGG CCAGGGCCTG CTTCCTGGCC 
ATCCGATTGC TCCTGAGCCT AGGCCGGCAT GAGGAGGTCC TGCCCTTCGC CGAGCGCCTG 
CAGGTCCTCT CCGGACACCC TCCTGACTTG GAGGCTACAG CAACCATCTT GAGTTTTCTG 
TACGATAAGA AATATCTCCC ACACCTGGTA GTGGCCTCTG TCCAGGAACG TGGTACCCAG 
AGTGGCCAAG GGATGTCCCT TCCAATTTGG CAGGTCTACC TGGTTCTCCA GAACACCACC 
AAACTCCTTG GAGTCCCCTC TTCAAGCTGG GGTGAAGTTT CTGCCCTGGC CTGCCCAGCA 
CTCAGGCGGG CGCTGGCTGC CTGTGAGGAA CAGGTCAATT GGAGCGCCCA GAGGGCCCTG 
TGTCTCATCC TGTCCAAAGT GTACCTCCAA CACAGGTCTC CTGACGGTGC CATCCACTAC 
CTGAGCCAGG CCTTGGTGCT GGGGCAGCTG CTGAGTGAGC AGGAAGCCTT TGAGTCTTCT 
CTCTGCCTGG CGTGGGCGTA TCTCTTAGCC AGCCAAGCAA AGAAGGCTTT GGACATCCTC 
GAGCCACTCC TATACTCCCA GAAGGATACA GAGAGTATCA CCCAAAAGGG GGTGGTCCAT 
AACCTCCTGG GACTTGCACT TCAAGGTGAA GGCCGGGTGA ACAGGGCAGC CAAGAGCTAT 
CTCCGGGCCT TGAACAGAGC TCAGGAAATG GGGAATGTGC GTAACCAGGC GGTGACTTTG 
GCCAATCTTG GCCACCTGAC CCTTAAGTCC TGGGCTCAGC AGCCAGCCAA GGACTATCTC 
CTGCAGGCCG TCCGACTCTA TTCTGAGCTC CAGACCAGCA TGGAGACAGA CATGGAATTG 
GTACAGGTCC TTCTCTGGTT GGCCCCGGTG CTGGTGCATG GACGCCAGCT GGCCAGCGGC 
CGCCTGTGTT ATGAGATGGC ATTGCTGTTT GGCTTAAGGC ATCGACACCT AAAGAGTCAG 
CTTCAGGTCA CCAAATCCCT CTGCCATTTC TACAGCTCTG TATCCCCAAG CCCCAAGGCA 
TGCATCACCT ACCACGAGCA CTGGCTGAGC CTGGCTCAGC AACTCAGGGA CCGAGAGATG 
GAGGGGAGGC TGCTGGAGTC CCTCGGGCAG CTCTATCGGA ACCTGAACAC AGCCAGGTCT 
CTCAGGAAGT CTCTCGCCTG CATCAAGGAG AGCCTGCGTA TCTTCATTGA CCTTGGGGAG 
AAAGACAAGG CTGCTGAGGC CTGGCTCGGA GCTGGGCGGC TTCACTACCT CATGCAGGAA 
GATGAGCTGG TGGAGCTCTA CCTGCAGGCA GCCATCCAGA AAGCCCTGAA GTCTGAGGAG 
CCCTCTCTGG CTCTCAAACT CTATGAAGAA GCAGGTGACG TGTTCTTCAA CGGGACCCGC 
CACAGACACC GCGCGGTGGA GTATTACCGA GCTGGGGCTG TTCCTTTAGC GAGGAGGATG 
AAGGCCATGA GAACGGAGCT CCGGGTTTTC AACAAGCTGA CGGAGCTGCA GATCAGCCTG 
GAAGGCTATG AGAAGGCTTT GGAGTTTGCC ACCCTGGCGG CCAGACTCAG CATGGTCATA 
GGAGATCCGA AGCAGGAGCT GGTGGCCTTC CACCGTCTGG CTACAGTCTA CTATTCCCTA 
CGCATGTACG AGATGGCTGA GGACTGCTAC CTGAAGACTC TGTCCCTCTG TCCCCCCTGG 
CTGCAGAGCC CTAAGGAGGC CCTGTACTAC TCGAAGGTGT ACTATCGCCT GGGCCGCCTC 
GCCTTCTGCC AGCTGAAGGA TGCTCACGAC GCCACCGAGT ACTTCCGGCT GGCCCTGGCA 
GCGGCGGTCC TGCTGGGTGA CGAGGCGCTG CAGGACAGCA TCAGGAGCAG GCTGGACAAC 
ATCCGCCGGA GCCCCCTGTG GCACAGCAGC CCCTCCGGCC GCTCCTCAGA GAGGGCGCGG 
TGGCTGAGCC GAGGGGGGCT GGCCCTCTGA

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

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SH3TC2 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:

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