TMEM63B cDNA ORF clone, Myotis brandtii(Brandt's bat)

Gene
Clones
gRNAs

Summary

Gene Symbol	TMEM63B
Entrez Gene ID	102262955
Full Name	transmembrane protein 63B
Gene Type	protein-coding
Organism	Myotis brandtii(Brandt's bat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005860962.2	XP_005861024.1	CSC1-like protein 2 isoform X1
XM_005860963.2	XP_005861025.1	CSC1-like protein 2 isoform X2

Pathways from BioSystems
Gene Ontology

The following TMEM63B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TMEM63B cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OMy38388	XM_005860962.2 Latest version!	Myotis brandtii transmembrane protein 63B (TMEM63B), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00
OMy38389	XM_005860963.2 Latest version!	Myotis brandtii transmembrane protein 63B (TMEM63B), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00

ORF Online Only Promotion

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

TMEM63B ( XM_005860962.2 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_005861024.1 Myotis brandtii transmembrane protein 63B (TMEM63B), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMy38388
Clone ID Related Accession (Same CDS sequence)	XM_005860962.2
Accession Version	XM_005860962.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2499bp) 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	2015-11-03
Organism	Myotis brandtii(Brandt's bat)
Product	CSC1-like 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_005355115.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2015 this sequence version replaced XM_005860962.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGCCCT TCCTGCTGGC CACACTGGGC ACCACGGCCC TCAACAACAG CAACCCCAAG 
GACTACTGCT ACAGCGCCCG CATCCGCAGC ACCGTCCTGC AGGGCCTGCC CTTTGGGGGC 
GTCCCCACCG TGCTGGCTCT CGACTTCATG TGCTTCCTTG CATTGCTGTT CTTGTTCTCC 
ATCCTCCGGA AGGTAGCCTG GGACTATGGG CGGCTGGCCT TGGTGACAGA TGCAGACAGG 
CTCCGGCGGC AGGAGAGGGA CCGAGTGGAA CAGGAATATG TGGCCTCAGC TATGCACGGG 
GACAGTCATG ACCGGTATGA GCGTCTCACG TCTGTCTCCA GCTCCGTCGA CTTTGACCAA 
AGAGACAACG GTTTCTGTTC CTGGCTGACA GCCATCTTCA GGATAAAGGA TGATGAGATC 
CGGGACAAGT GCGGGGGCGA CGCCGTGCAC TACCTGTCCT TCCAGAGGCA CATCATCGGG 
CTGCTGGTCG TCGTGGGCGT CCTCTCCGTG GGCATCGTGC TGCCTGTCAA CTTCTCAGGG 
GACCTGCTGG AGAACAATGC CTACAGCTTT GGGAGAACCA CCATTGCCAA CTTGAAATCA 
GGGAACCACC TGCTCTGGCT GCACACCTCC TTCGCCTTCC TGTACCTGCT GCTCACCGTC 
TACAGCATGC GCAGACACAC GTCCAAGATG CGCTACAAGG AGGATGACCT GGTGAAGCGG 
ACTCTCTTCA TCAATGGAAT CTCCAAATAT GCAGAGTCAG AAAAGATCAA GAAGCATTTT 
GAGGAGGCCT ACCCCAACTG CACGGTCCTG GAAGCCCGCC CGTGTTACAA CGTGGCTCGC 
CTCATGTTCC TCGATGCAGA GAGGAAGAAG GCTGAGCGGG GAAAGCTGTA CTTCACAAAC 
CTCCAGAGCA AAGATAACGT CCCCACCATG ATCAACCCCA AGCCCTGTGG CCACCTCTGC 
TGCTGTGTGG TGCGAGGCTG TGAGCAGGTG GAGGCCATCG AGTACTACAC GAAGCTGGAG 
CAGAAGCTGA AGGAGGACTA CCAGCGGGAG AGGGAGAAGG TGAACGAGAA GCCTCTTGGC 
ATGGCCTTCG TCACCTTCCA CAATGAGACC ATCACCGCCA TTATCCTGAA GGATTTCAAC 
GTGTGTAAAT GCCAGGGCTG CACCTGCCGC GGGGAGCCAC GCTCCTCGTC CTGCAGCGAG 
TCCTTGCACA TCTCCAACTG GACCGTGACC TACGCCCCTG ACCCCCAGAA CATCTATTGG 
GAGCACCTCT CCATCCGCGG CTTCATCTGG TGGCTGCGCT GCCTGGTCAT CAATGTCATC 
CTCTTCATCC TCCTCTTCTT CCTCACCACC CCGGCCATCA TCATCACCAC CATGGACAAG 
TTCAACGTCA CCAAGCCCGT GGAGTACCTC AATAACCCCA TCATCACCCA GTTCTTCCCC 
ACCCTGCTGC TGTGGTGCTT CTCAGCCCTG CTCCCCACCA TCGTCTACTA CTCTGCCTTC 
TTCGAAGCCC ACTGGACACG CTCCGGGGAG AACAGGACCA CCATGCACAA GTGCTACACC 
TTCCTCATCT TCATGGTGCT GCTCCTGCCC TCGCTGGGAC TGAGCAGCCT GGACCTCTTC 
TTCCGCTGGC TCTTTGACAA GAAATTCTTG GCTGAGGCAG CTATTCGGTT TGAGTGCGTG 
TTCCTGCCCG ACAACGGCGC TTTCTTCGTG AACTACGTCA TTGCCTCCGC CTTTATCGGC 
AACGCCATGG ACCTGCTGCG CATCCCAGGC CTGCTCATGT ACATGATCCG GCTCTGCCTG 
GCGCGCTCGG CCGCCGAGAG GCGCAACGTG AAGCGGCATC AGGCCTACGA GTTCCAGTTT 
GGCGCAGCCT ACGCCTGGAT GATGTGCGTC TTCACGGTGG TCATGACCTA CAGTATCACC 
TGCCCCATCA TCGTGCCCTT CGGGCTCATG TACATGCTGC TGAAGCACCT GGTAGACAGG 
TACAACCTCT ACTACGCCTA CCTGCCGGCC AAGCTGGACA AGAAGATCCA CTCGGGGGCT 
GTGAACCAGG TGGTGGCTGC GCCCATCCTC TGCCTCTTCT GGCTGCTCTT CTTCTCCACC 
ATGCGCACGG GGTTCCTAGC CCCCACGTCC ATGTTCACAT TCGTGGTCCT GGTCATCACC 
ATTGTCATCT GTCTCTGCCA CGTCTGCTTC GGACACTTCA AATACCTCAG TGCCCACAAC 
TACAAGATTG AGCACACAGA GACAGATACC GCGGACTCCA GAAGCAATGG CCGTCCCCCC 
ACTGTTGCCG CTGTCCCCAA ATCTGCGAAA TACATCGCTC AGGTGCTGCA GGACTCAGAG 
GCGGACGGGG ATGGGGATGG GGGTCCTGGA AGCTCGGGGG ACGAGCCCCC GTCCACCTCG 
TCCCAGGATG AGGAGCTGCT GATGCCACCC GATGGCCTCA CGGACACAGA CTTCCAGTCT 
TGCGAGGACA GCCTCATAGA GAATGAGATC CACCAGTAA

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

RefSeq	XP_005861024.1
CDS	45..2543
Translation	MLPFLLATLGTTALNNSNPKDYCYSARIRSTVLQGLPFGGVPTVLALDFMCFLALLFLFSILRKVAWDYGRLALVTDADRLRRQERDRVEQEYVASAMHGDSHDRYERLTSVSSSVDFDQRDNGFCSWLTAIFRIKDDEIRDKCGGDAVHYLSFQRHIIGLLVVVGVLSVGIVLPVNFSGDLLENNAYSFGRTTIANLKSGNHLLWLHTSFAFLYLLLTVYSMRRHTSKMRYKEDDLVKRTLFINGISKYAESEKIKKHFEEAYPNCTVLEARPCYNVARLMFLDAERKKAERGKLYFTNLQSKDNVPTMINPKPCGHLCCCVVRGCEQVEAIEYYTKLEQKLKEDYQREREKVNEKPLGMAFVTFHNETITAIILKDFNVCKCQGCTCRGEPRSSSCSESLHISNWTVTYAPDPQNIYWEHLSIRGFIWWLRCLVINVILFILLFFLTTPAIIITTMDKFNVTKPVEYLNNPIITQFFPTLLLWCFSALLPTIVYYSAFFEAHWTRSGENRTTMHKCYTFLIFMVLLLPSLGLSSLDLFFRWLFDKKFLAEAAIRFECVFLPDNGAFFVNYVIASAFIGNAMDLLRIPGLLMYMIRLCLARSAAERRNVKRHQAYEFQFGAAYAWMMCVFTVVMTYSITCPIIVPFGLMYMLLKHLVDRYNLYYAYLPAKLDKKIHSGAVNQVVAAPILCLFWLLFFSTMRTGFLAPTSMFTFVVLVITIVICLCHVCFGHFKYLSAHNYKIEHTETDTADSRSNGRPPTVAAVPKSAKYIAQVLQDSEADGDGDGGPGSSGDEPPSTSSQDEELLMPPDGLTDTDFQSCEDSLIENEIHQ

Target ORF information:

RefSeq Version	XM_005860962.2
Organism	Myotis brandtii(Brandt's bat)
Definition	Myotis brandtii transmembrane protein 63B (TMEM63B), transcript variant X1, mRNA.

Target ORF information:

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

XM_005860962.2

ORF Insert Sequence:

ATGCTGCCCT TCCTGCTGGC CACACTGGGC ACCACGGCCC TCAACAACAG CAACCCCAAG 
GACTACTGCT ACAGCGCCCG CATCCGCAGC ACCGTCCTGC AGGGCCTGCC CTTTGGGGGC 
GTCCCCACCG TGCTGGCTCT CGACTTCATG TGCTTCCTTG CATTGCTGTT CTTGTTCTCC 
ATCCTCCGGA AGGTAGCCTG GGACTATGGG CGGCTGGCCT TGGTGACAGA TGCAGACAGG 
CTCCGGCGGC AGGAGAGGGA CCGAGTGGAA CAGGAATATG TGGCCTCAGC TATGCACGGG 
GACAGTCATG ACCGGTATGA GCGTCTCACG TCTGTCTCCA GCTCCGTCGA CTTTGACCAA 
AGAGACAACG GTTTCTGTTC CTGGCTGACA GCCATCTTCA GGATAAAGGA TGATGAGATC 
CGGGACAAGT GCGGGGGCGA CGCCGTGCAC TACCTGTCCT TCCAGAGGCA CATCATCGGG 
CTGCTGGTCG TCGTGGGCGT CCTCTCCGTG GGCATCGTGC TGCCTGTCAA CTTCTCAGGG 
GACCTGCTGG AGAACAATGC CTACAGCTTT GGGAGAACCA CCATTGCCAA CTTGAAATCA 
GGGAACCACC TGCTCTGGCT GCACACCTCC TTCGCCTTCC TGTACCTGCT GCTCACCGTC 
TACAGCATGC GCAGACACAC GTCCAAGATG CGCTACAAGG AGGATGACCT GGTGAAGCGG 
ACTCTCTTCA TCAATGGAAT CTCCAAATAT GCAGAGTCAG AAAAGATCAA GAAGCATTTT 
GAGGAGGCCT ACCCCAACTG CACGGTCCTG GAAGCCCGCC CGTGTTACAA CGTGGCTCGC 
CTCATGTTCC TCGATGCAGA GAGGAAGAAG GCTGAGCGGG GAAAGCTGTA CTTCACAAAC 
CTCCAGAGCA AAGATAACGT CCCCACCATG ATCAACCCCA AGCCCTGTGG CCACCTCTGC 
TGCTGTGTGG TGCGAGGCTG TGAGCAGGTG GAGGCCATCG AGTACTACAC GAAGCTGGAG 
CAGAAGCTGA AGGAGGACTA CCAGCGGGAG AGGGAGAAGG TGAACGAGAA GCCTCTTGGC 
ATGGCCTTCG TCACCTTCCA CAATGAGACC ATCACCGCCA TTATCCTGAA GGATTTCAAC 
GTGTGTAAAT GCCAGGGCTG CACCTGCCGC GGGGAGCCAC GCTCCTCGTC CTGCAGCGAG 
TCCTTGCACA TCTCCAACTG GACCGTGACC TACGCCCCTG ACCCCCAGAA CATCTATTGG 
GAGCACCTCT CCATCCGCGG CTTCATCTGG TGGCTGCGCT GCCTGGTCAT CAATGTCATC 
CTCTTCATCC TCCTCTTCTT CCTCACCACC CCGGCCATCA TCATCACCAC CATGGACAAG 
TTCAACGTCA CCAAGCCCGT GGAGTACCTC AATAACCCCA TCATCACCCA GTTCTTCCCC 
ACCCTGCTGC TGTGGTGCTT CTCAGCCCTG CTCCCCACCA TCGTCTACTA CTCTGCCTTC 
TTCGAAGCCC ACTGGACACG CTCCGGGGAG AACAGGACCA CCATGCACAA GTGCTACACC 
TTCCTCATCT TCATGGTGCT GCTCCTGCCC TCGCTGGGAC TGAGCAGCCT GGACCTCTTC 
TTCCGCTGGC TCTTTGACAA GAAATTCTTG GCTGAGGCAG CTATTCGGTT TGAGTGCGTG 
TTCCTGCCCG ACAACGGCGC TTTCTTCGTG AACTACGTCA TTGCCTCCGC CTTTATCGGC 
AACGCCATGG ACCTGCTGCG CATCCCAGGC CTGCTCATGT ACATGATCCG GCTCTGCCTG 
GCGCGCTCGG CCGCCGAGAG GCGCAACGTG AAGCGGCATC AGGCCTACGA GTTCCAGTTT 
GGCGCAGCCT ACGCCTGGAT GATGTGCGTC TTCACGGTGG TCATGACCTA CAGTATCACC 
TGCCCCATCA TCGTGCCCTT CGGGCTCATG TACATGCTGC TGAAGCACCT GGTAGACAGG 
TACAACCTCT ACTACGCCTA CCTGCCGGCC AAGCTGGACA AGAAGATCCA CTCGGGGGCT 
GTGAACCAGG TGGTGGCTGC GCCCATCCTC TGCCTCTTCT GGCTGCTCTT CTTCTCCACC 
ATGCGCACGG GGTTCCTAGC CCCCACGTCC ATGTTCACAT TCGTGGTCCT GGTCATCACC 
ATTGTCATCT GTCTCTGCCA CGTCTGCTTC GGACACTTCA AATACCTCAG TGCCCACAAC 
TACAAGATTG AGCACACAGA GACAGATACC GCGGACTCCA GAAGCAATGG CCGTCCCCCC 
ACTGTTGCCG CTGTCCCCAA ATCTGCGAAA TACATCGCTC AGGTGCTGCA GGACTCAGAG 
GCGGACGGGG ATGGGGATGG GGGTCCTGGA AGCTCGGGGG ACGAGCCCCC GTCCACCTCG 
TCCCAGGATG AGGAGCTGCT GATGCCACCC GATGGCCTCA CGGACACAGA CTTCCAGTCT 
TGCGAGGACA GCCTCATAGA GAATGAGATC CACCAGTAA

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

TMEM63B ( XM_005860963.2 ) cDNA ORF clone, Myotis brandtii(Brandt's bat) -> XP_005861025.1 Myotis brandtii transmembrane protein 63B (TMEM63B), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMy38389
Clone ID Related Accession (Same CDS sequence)	XM_005860963.2
Accession Version	XM_005860963.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2460bp) 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	2015-11-03
Organism	Myotis brandtii(Brandt's bat)
Product	CSC1-like 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_005355115.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2015 this sequence version replaced XM_005860963.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Myotis brandtii Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGCCCT TCCTGCTGGC CACACTGGGC ACCACGGCCC TCAACAACAG CAACCCCAAG 
GACTACTGCT ACAGCGCCCG CATCCGCAGC ACCGTCCTGC AGGGCCTGCC CTTTGGGGGC 
GTCCCCACCG TGCTGGCTCT CGACTTCATG TGCTTCCTTG CATTGCTGTT CTTGTTCTCC 
ATCCTCCGGA AGGTAGCCTG GGACTATGGG CGGCTGGCCT TGGTGACAGA TGCAGACAGT 
GTGGCCTCAG CTATGCACGG GGACAGTCAT GACCGGTATG AGCGTCTCAC GTCTGTCTCC 
AGCTCCGTCG ACTTTGACCA AAGAGACAAC GGTTTCTGTT CCTGGCTGAC AGCCATCTTC 
AGGATAAAGG ATGATGAGAT CCGGGACAAG TGCGGGGGCG ACGCCGTGCA CTACCTGTCC 
TTCCAGAGGC ACATCATCGG GCTGCTGGTC GTCGTGGGCG TCCTCTCCGT GGGCATCGTG 
CTGCCTGTCA ACTTCTCAGG GGACCTGCTG GAGAACAATG CCTACAGCTT TGGGAGAACC 
ACCATTGCCA ACTTGAAATC AGGGAACCAC CTGCTCTGGC TGCACACCTC CTTCGCCTTC 
CTGTACCTGC TGCTCACCGT CTACAGCATG CGCAGACACA CGTCCAAGAT GCGCTACAAG 
GAGGATGACC TGGTGAAGCG GACTCTCTTC ATCAATGGAA TCTCCAAATA TGCAGAGTCA 
GAAAAGATCA AGAAGCATTT TGAGGAGGCC TACCCCAACT GCACGGTCCT GGAAGCCCGC 
CCGTGTTACA ACGTGGCTCG CCTCATGTTC CTCGATGCAG AGAGGAAGAA GGCTGAGCGG 
GGAAAGCTGT ACTTCACAAA CCTCCAGAGC AAAGATAACG TCCCCACCAT GATCAACCCC 
AAGCCCTGTG GCCACCTCTG CTGCTGTGTG GTGCGAGGCT GTGAGCAGGT GGAGGCCATC 
GAGTACTACA CGAAGCTGGA GCAGAAGCTG AAGGAGGACT ACCAGCGGGA GAGGGAGAAG 
GTGAACGAGA AGCCTCTTGG CATGGCCTTC GTCACCTTCC ACAATGAGAC CATCACCGCC 
ATTATCCTGA AGGATTTCAA CGTGTGTAAA TGCCAGGGCT GCACCTGCCG CGGGGAGCCA 
CGCTCCTCGT CCTGCAGCGA GTCCTTGCAC ATCTCCAACT GGACCGTGAC CTACGCCCCT 
GACCCCCAGA ACATCTATTG GGAGCACCTC TCCATCCGCG GCTTCATCTG GTGGCTGCGC 
TGCCTGGTCA TCAATGTCAT CCTCTTCATC CTCCTCTTCT TCCTCACCAC CCCGGCCATC 
ATCATCACCA CCATGGACAA GTTCAACGTC ACCAAGCCCG TGGAGTACCT CAATAACCCC 
ATCATCACCC AGTTCTTCCC CACCCTGCTG CTGTGGTGCT TCTCAGCCCT GCTCCCCACC 
ATCGTCTACT ACTCTGCCTT CTTCGAAGCC CACTGGACAC GCTCCGGGGA GAACAGGACC 
ACCATGCACA AGTGCTACAC CTTCCTCATC TTCATGGTGC TGCTCCTGCC CTCGCTGGGA 
CTGAGCAGCC TGGACCTCTT CTTCCGCTGG CTCTTTGACA AGAAATTCTT GGCTGAGGCA 
GCTATTCGGT TTGAGTGCGT GTTCCTGCCC GACAACGGCG CTTTCTTCGT GAACTACGTC 
ATTGCCTCCG CCTTTATCGG CAACGCCATG GACCTGCTGC GCATCCCAGG CCTGCTCATG 
TACATGATCC GGCTCTGCCT GGCGCGCTCG GCCGCCGAGA GGCGCAACGT GAAGCGGCAT 
CAGGCCTACG AGTTCCAGTT TGGCGCAGCC TACGCCTGGA TGATGTGCGT CTTCACGGTG 
GTCATGACCT ACAGTATCAC CTGCCCCATC ATCGTGCCCT TCGGGCTCAT GTACATGCTG 
CTGAAGCACC TGGTAGACAG GTACAACCTC TACTACGCCT ACCTGCCGGC CAAGCTGGAC 
AAGAAGATCC ACTCGGGGGC TGTGAACCAG GTGGTGGCTG CGCCCATCCT CTGCCTCTTC 
TGGCTGCTCT TCTTCTCCAC CATGCGCACG GGGTTCCTAG CCCCCACGTC CATGTTCACA 
TTCGTGGTCC TGGTCATCAC CATTGTCATC TGTCTCTGCC ACGTCTGCTT CGGACACTTC 
AAATACCTCA GTGCCCACAA CTACAAGATT GAGCACACAG AGACAGATAC CGCGGACTCC 
AGAAGCAATG GCCGTCCCCC CACTGTTGCC GCTGTCCCCA AATCTGCGAA ATACATCGCT 
CAGGTGCTGC AGGACTCAGA GGCGGACGGG GATGGGGATG GGGGTCCTGG AAGCTCGGGG 
GACGAGCCCC CGTCCACCTC GTCCCAGGAT GAGGAGCTGC TGATGCCACC CGATGGCCTC 
ACGGACACAG ACTTCCAGTC TTGCGAGGAC AGCCTCATAG AGAATGAGAT CCACCAGTAA

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

RefSeq	XP_005861025.1
CDS	45..2504
Translation	MLPFLLATLGTTALNNSNPKDYCYSARIRSTVLQGLPFGGVPTVLALDFMCFLALLFLFSILRKVAWDYGRLALVTDADSVASAMHGDSHDRYERLTSVSSSVDFDQRDNGFCSWLTAIFRIKDDEIRDKCGGDAVHYLSFQRHIIGLLVVVGVLSVGIVLPVNFSGDLLENNAYSFGRTTIANLKSGNHLLWLHTSFAFLYLLLTVYSMRRHTSKMRYKEDDLVKRTLFINGISKYAESEKIKKHFEEAYPNCTVLEARPCYNVARLMFLDAERKKAERGKLYFTNLQSKDNVPTMINPKPCGHLCCCVVRGCEQVEAIEYYTKLEQKLKEDYQREREKVNEKPLGMAFVTFHNETITAIILKDFNVCKCQGCTCRGEPRSSSCSESLHISNWTVTYAPDPQNIYWEHLSIRGFIWWLRCLVINVILFILLFFLTTPAIIITTMDKFNVTKPVEYLNNPIITQFFPTLLLWCFSALLPTIVYYSAFFEAHWTRSGENRTTMHKCYTFLIFMVLLLPSLGLSSLDLFFRWLFDKKFLAEAAIRFECVFLPDNGAFFVNYVIASAFIGNAMDLLRIPGLLMYMIRLCLARSAAERRNVKRHQAYEFQFGAAYAWMMCVFTVVMTYSITCPIIVPFGLMYMLLKHLVDRYNLYYAYLPAKLDKKIHSGAVNQVVAAPILCLFWLLFFSTMRTGFLAPTSMFTFVVLVITIVICLCHVCFGHFKYLSAHNYKIEHTETDTADSRSNGRPPTVAAVPKSAKYIAQVLQDSEADGDGDGGPGSSGDEPPSTSSQDEELLMPPDGLTDTDFQSCEDSLIENEIHQ

Target ORF information:

RefSeq Version	XM_005860963.2
Organism	Myotis brandtii(Brandt's bat)
Definition	Myotis brandtii transmembrane protein 63B (TMEM63B), transcript variant X2, mRNA.

Target ORF information:

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

XM_005860963.2

ORF Insert Sequence:

ATGCTGCCCT TCCTGCTGGC CACACTGGGC ACCACGGCCC TCAACAACAG CAACCCCAAG 
GACTACTGCT ACAGCGCCCG CATCCGCAGC ACCGTCCTGC AGGGCCTGCC CTTTGGGGGC 
GTCCCCACCG TGCTGGCTCT CGACTTCATG TGCTTCCTTG CATTGCTGTT CTTGTTCTCC 
ATCCTCCGGA AGGTAGCCTG GGACTATGGG CGGCTGGCCT TGGTGACAGA TGCAGACAGT 
GTGGCCTCAG CTATGCACGG GGACAGTCAT GACCGGTATG AGCGTCTCAC GTCTGTCTCC 
AGCTCCGTCG ACTTTGACCA AAGAGACAAC GGTTTCTGTT CCTGGCTGAC AGCCATCTTC 
AGGATAAAGG ATGATGAGAT CCGGGACAAG TGCGGGGGCG ACGCCGTGCA CTACCTGTCC 
TTCCAGAGGC ACATCATCGG GCTGCTGGTC GTCGTGGGCG TCCTCTCCGT GGGCATCGTG 
CTGCCTGTCA ACTTCTCAGG GGACCTGCTG GAGAACAATG CCTACAGCTT TGGGAGAACC 
ACCATTGCCA ACTTGAAATC AGGGAACCAC CTGCTCTGGC TGCACACCTC CTTCGCCTTC 
CTGTACCTGC TGCTCACCGT CTACAGCATG CGCAGACACA CGTCCAAGAT GCGCTACAAG 
GAGGATGACC TGGTGAAGCG GACTCTCTTC ATCAATGGAA TCTCCAAATA TGCAGAGTCA 
GAAAAGATCA AGAAGCATTT TGAGGAGGCC TACCCCAACT GCACGGTCCT GGAAGCCCGC 
CCGTGTTACA ACGTGGCTCG CCTCATGTTC CTCGATGCAG AGAGGAAGAA GGCTGAGCGG 
GGAAAGCTGT ACTTCACAAA CCTCCAGAGC AAAGATAACG TCCCCACCAT GATCAACCCC 
AAGCCCTGTG GCCACCTCTG CTGCTGTGTG GTGCGAGGCT GTGAGCAGGT GGAGGCCATC 
GAGTACTACA CGAAGCTGGA GCAGAAGCTG AAGGAGGACT ACCAGCGGGA GAGGGAGAAG 
GTGAACGAGA AGCCTCTTGG CATGGCCTTC GTCACCTTCC ACAATGAGAC CATCACCGCC 
ATTATCCTGA AGGATTTCAA CGTGTGTAAA TGCCAGGGCT GCACCTGCCG CGGGGAGCCA 
CGCTCCTCGT CCTGCAGCGA GTCCTTGCAC ATCTCCAACT GGACCGTGAC CTACGCCCCT 
GACCCCCAGA ACATCTATTG GGAGCACCTC TCCATCCGCG GCTTCATCTG GTGGCTGCGC 
TGCCTGGTCA TCAATGTCAT CCTCTTCATC CTCCTCTTCT TCCTCACCAC CCCGGCCATC 
ATCATCACCA CCATGGACAA GTTCAACGTC ACCAAGCCCG TGGAGTACCT CAATAACCCC 
ATCATCACCC AGTTCTTCCC CACCCTGCTG CTGTGGTGCT TCTCAGCCCT GCTCCCCACC 
ATCGTCTACT ACTCTGCCTT CTTCGAAGCC CACTGGACAC GCTCCGGGGA GAACAGGACC 
ACCATGCACA AGTGCTACAC CTTCCTCATC TTCATGGTGC TGCTCCTGCC CTCGCTGGGA 
CTGAGCAGCC TGGACCTCTT CTTCCGCTGG CTCTTTGACA AGAAATTCTT GGCTGAGGCA 
GCTATTCGGT TTGAGTGCGT GTTCCTGCCC GACAACGGCG CTTTCTTCGT GAACTACGTC 
ATTGCCTCCG CCTTTATCGG CAACGCCATG GACCTGCTGC GCATCCCAGG CCTGCTCATG 
TACATGATCC GGCTCTGCCT GGCGCGCTCG GCCGCCGAGA GGCGCAACGT GAAGCGGCAT 
CAGGCCTACG AGTTCCAGTT TGGCGCAGCC TACGCCTGGA TGATGTGCGT CTTCACGGTG 
GTCATGACCT ACAGTATCAC CTGCCCCATC ATCGTGCCCT TCGGGCTCAT GTACATGCTG 
CTGAAGCACC TGGTAGACAG GTACAACCTC TACTACGCCT ACCTGCCGGC CAAGCTGGAC 
AAGAAGATCC ACTCGGGGGC TGTGAACCAG GTGGTGGCTG CGCCCATCCT CTGCCTCTTC 
TGGCTGCTCT TCTTCTCCAC CATGCGCACG GGGTTCCTAG CCCCCACGTC CATGTTCACA 
TTCGTGGTCC TGGTCATCAC CATTGTCATC TGTCTCTGCC ACGTCTGCTT CGGACACTTC 
AAATACCTCA GTGCCCACAA CTACAAGATT GAGCACACAG AGACAGATAC CGCGGACTCC 
AGAAGCAATG GCCGTCCCCC CACTGTTGCC GCTGTCCCCA AATCTGCGAA ATACATCGCT 
CAGGTGCTGC AGGACTCAGA GGCGGACGGG GATGGGGATG GGGGTCCTGG AAGCTCGGGG 
GACGAGCCCC CGTCCACCTC GTCCCAGGAT GAGGAGCTGC TGATGCCACC CGATGGCCTC 
ACGGACACAG ACTTCCAGTC TTGCGAGGAC AGCCTCATAG AGAATGAGAT CCACCAGTAA