SCUBE1 cDNA ORF clone, Apteryx australis mantelli

Gene
Clones
gRNAs

Summary

Gene Symbol	SCUBE1
Entrez Gene ID	106488309
Full Name	signal peptide, CUB domain and EGF like domain containing 1
Gene Type	protein-coding
Organism	Apteryx australis mantelli

mRNA and Protein(s)

mRNA	Protein	Name
XM_013947160.1	XP_013802614.1	signal peptide, CUB and EGF-like domain-containing protein 1

Pathways from BioSystems
Gene Ontology

The following SCUBE1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCUBE1 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
OAp17476	XM_013947160.1 Latest version!	Apteryx australis mantelli signal peptide, CUB domain, EGF-like 1 (SCUBE1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

SCUBE1 ( XM_013947160.1 ) cDNA ORF clone, Apteryx australis mantelli -> XP_013802614.1 Apteryx australis mantelli signal peptide, CUB domain, EGF-like 1 (SCUBE1), mRNA.

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CloneID	OAp17476
Clone ID Related Accession (Same CDS sequence)	XM_013947160.1
Accession Version	XM_013947160.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3003bp) 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	2015-09-08
Organism	Apteryx australis mantelli
Product	signal peptide, CUB and EGF-like domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013995860.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Apteryx australis mantelli Annotation Release 100 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## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGACGCTCA GAAGGTCTCC CTTCTTCTCT CTCTCTCCTG GGGTTCATTC TGTGATTCCA 
GATGTTGACG AGTGCGCAGA AGCTACAGAT GACTGTCACA TCGATGCAAT TTGCCAAAAC 
ACACCGAAAT CGTACAAATG CATCTGCAAA CCGGGTTATA AAGGCGAAGG GAAACAATGT 
GAAGATATTG ACGAGTGTGA AAATGACTTC TACAATGGGG GTTGTGTCCA CGAGTGCATC 
AACATTCCAG GCAACTACAG ATGTACGTGC TATGATGGGT TCATGCTAGC CCACGATGGC 
CATAACTGTC TTGATGTTGA CGAGTGTCAG GATAACAATG GAGGGTGCCA GCAGATTTGC 
GTAAATACAA TGGGCAGCTA TGAATGTCAG TGCAAAGAGG GCTTTTTCCT GAGTGATAAC 
CAGCATACCT GCATTCATCG CTCTATTGAG GGTATGAACT GTATGAACAA AGATCATGGG 
TGTGCACACA TCTGCCGGGA GACGCCCAAA GGTGGGGTTG CCTGTGAATG TAGGCCTGGC 
TTTGAACTTG CCAAAAACCA GAAGGACTGC AAATTAACCT GTAACTATGG GAATGGAGGC 
TGCCAACACA CCTGTGATGA CACAGATACT GGCCCTGTGT GTGGTTGTCA TCAGAAGTAT 
GCCTTGCATT CAGATGGCCG AACCTGCATT GAGAAGGATG AGGCTGCAAT TGAGAGTTCT 
GAGTACAATG CCACGTCAGT AGCTGATGTG GACAAGCGGG TGAAACGGCG GCTACTTATG 
GAAACATGTG CTGTCAATAA CGGAGGCTGT GATCGGACTT GCAAGGATAC CGCAACAGGG 
GTACGGTGCA GTTGCCCAGT TGGATTTACC CTGCAGCCTG ATGGGAAAAC GTGCAAAGAC 
ATTGATGAGT GCTTGGTAAA CAACGGTGGC TGTGACCATT TCTGTCGAAA CACAGTTGGC 
AGCTTTGAAT GCAGCTGCCA GAAAGGCTAT AAACTGCTCA CAGATGAGCG GACCTGCCAA 
GATATAGATG AGTGTTCCTT CGAAAGGACC TGTGATCACA CCTGCATCAA CTACCCCGGG 
AGCTTTGAAT GTCTCTGTCA TAAAGGCTAC ACCTTGTATG GACTGACGCA CTGTGGAGAT 
ATTGATGAAT GCAGCATCAG CAATGGTAGC TGTGACTATG GGTGTCTTAA CATAATGGGG 
AGCTACGAGT GTGTCTGTCC ACCTGGAAAG AAACTTCACT GGAATAAAAA GGACTGTGTT 
GGACTTTGCT TCATTGTCCC TTCTACCTTT CTTCACCATT ATAAGCAAGT AGGTGCTCAG 
GGTTCTGTTT GGGCAGTGGT TGATTTTTCT TTTTTTCTTT TTTTTTTCTT TTTTCTTTTT 
TTTTTCTTCT CCTCAGAGAT GGTGAAATGT CTCCCAAATG CCAAACCAGC TGCCAAGGCT 
CAGCTAGTGT GCAGTAAGAC AGGAGGCACA GAAAGCTGCT TCCTGTCATG CTCATCCAAT 
ACTCTTTTTG TTCCAGATTC GGAGAACAGC TACACGCTGA GCTGCGGCAT CCCCGGCGCC 
CAGGGCAAAG CTCCGCAGAA GCGCAACGCG ACGCTTCCCA GCTGTGCAGA TTCATTAGCC 
CCTCCAATCA AGCAGAAAGC TCGTTTTAAA ATTAAAGATG CAAAGTGCCA TTTGCGGCCT 
CGCAGCAAAG AAAAAGTGAA AGATTCTGGG AAGCAAGCTG TCTTAGGAGG TCCATTCCCT 
TGTACAGACA ACTGCCAGGT GACCTTTGTG AATCTCAAGT GTGATTCCTC CAAGAAAAAA 
CGCCGGGGCC GCAAGTCACC ATCAAAAGAA GTGTCCCATA TCACTGCAGA GTTTGAAGTG 
GAGATGAAGT CAGAAGAAGT CTCAGACACC TGTAACATTG ACTGTGTTCG GAAAAGGATG 
GAGCAGAAGC TGCAAACTGC AATCAAAACA TTGAGGAAAT CTATTAATAA ACAGCAATTT 
TACATTCAGT TTTCTGGGAC AGAATATGAA GTGGCTCAGA AGCCAGCTAA AGCTACTGAA 
GGGCATGAAG CTTGCAGTAC AGGGCAAGTG CTGCAGGAGG GAAAATGTGG GCAGTGTTCT 
CCTGGACACT ATTCTTCAGA TGGTTTTAAA CCTTGTAGAG TCTGTCCTCT TGGTACGTAT 
CAGCCTGAAC CAGGAAGGAC CCTCTGCTTT CCGTGTGGCG GTGGGCTTGT GACCAAGTAC 
GAAGGTGCTG TTTCATTTCA AGACTGTGAA ACCAAAGTTC ACTGTTCTCC TGGACACTAC 
TACAACTCCA CCACACACAG ATGTATCCGG TGCCCTGTGG GAACTTATCA GCCTGAGTTT 
GGCCAGAACT ACTGCATCAC CTGTCCTGGG AACACAAGTA CAGATTTTGA TGGCTCCACT 
AATGTTACGC ACTGCAAAAA CCAGCACTGT GGAGGAGAAC TTGGGGATTA TACTGGCTAT 
ATTGAATCGC CCAACTATCC TGGAGACTAC CCAGCTAATG TTGAATGCAT TTGGAATATA 
AACCCACCCC CAAAGAGGAG AATACTCATT GTAGTACCTG AGATATTCCT CCCAATTGAA 
GACGAATGTG GTGATGTTTT AGTAATGAGA AAAAGTGCTT CTCCAACTTC AATTACTACA 
TATGAAACGT GTCAGACTTA CGAGAGACCT ATTGCATTTA CCTCAAGATC AAGGAAGCTA 
TGGATTCAGT TCAAGTCAAA TGAAGGAAAC AGTGGGAAAG GATTTCAAGT CCCATATGTG 
ACTTACGATG AGGATTATCA ACAGCTAATA GAAGACATTG TTCGAGATGG ACGATTATAT 
GCTTCAGAAA ATCACCAAGA AATTCTAAAA GACAAGAAAC TGATCAAAGC TCTCTTTGAT 
GTCCTGGCAC ACCCACAGAA CTATTTCAAG TACACAGCAC AAGAGTCAAA AGAGATGTTT 
CCAAGATCAT TTATAAAGCT ACTGCGCTCA AAAGTTTCCA GATTTCTACG ACCATACAAA 
TAA

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

RefSeq	XP_013802614.1
CDS	1..3003
Translation	MTLRRSPFFSLSPGVHSVIPDVDECAEATDDCHIDAICQNTPKSYKCICKPGYKGEGKQCEDIDECENDFYNGGCVHECINIPGNYRCTCYDGFMLAHDGHNCLDVDECQDNNGGCQQICVNTMGSYECQCKEGFFLSDNQHTCIHRSIEGMNCMNKDHGCAHICRETPKGGVACECRPGFELAKNQKDCKLTCNYGNGGCQHTCDDTDTGPVCGCHQKYALHSDGRTCIEKDEAAIESSEYNATSVADVDKRVKRRLLMETCAVNNGGCDRTCKDTATGVRCSCPVGFTLQPDGKTCKDIDECLVNNGGCDHFCRNTVGSFECSCQKGYKLLTDERTCQDIDECSFERTCDHTCINYPGSFECLCHKGYTLYGLTHCGDIDECSISNGSCDYGCLNIMGSYECVCPPGKKLHWNKKDCVGLCFIVPSTFLHHYKQVGAQGSVWAVVDFSFFLFFFFFLFFFFSSEMVKCLPNAKPAAKAQLVCSKTGGTESCFLSCSSNTLFVPDSENSYTLSCGIPGAQGKAPQKRNATLPSCADSLAPPIKQKARFKIKDAKCHLRPRSKEKVKDSGKQAVLGGPFPCTDNCQVTFVNLKCDSSKKKRRGRKSPSKEVSHITAEFEVEMKSEEVSDTCNIDCVRKRMEQKLQTAIKTLRKSINKQQFYIQFSGTEYEVAQKPAKATEGHEACSTGQVLQEGKCGQCSPGHYSSDGFKPCRVCPLGTYQPEPGRTLCFPCGGGLVTKYEGAVSFQDCETKVHCSPGHYYNSTTHRCIRCPVGTYQPEFGQNYCITCPGNTSTDFDGSTNVTHCKNQHCGGELGDYTGYIESPNYPGDYPANVECIWNINPPPKRRILIVVPEIFLPIEDECGDVLVMRKSASPTSITTYETCQTYERPIAFTSRSRKLWIQFKSNEGNSGKGFQVPYVTYDEDYQQLIEDIVRDGRLYASENHQEILKDKKLIKALFDVLAHPQNYFKYTAQESKEMFPRSFIKLLRSKVSRFLRPYK

Target ORF information:

RefSeq Version	XM_013947160.1
Organism	Apteryx australis mantelli
Definition	Apteryx australis mantelli signal peptide, CUB domain, EGF-like 1 (SCUBE1), mRNA.

Target ORF information:

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

XM_013947160.1

ORF Insert Sequence:

ATGACGCTCA GAAGGTCTCC CTTCTTCTCT CTCTCTCCTG GGGTTCATTC TGTGATTCCA 
GATGTTGACG AGTGCGCAGA AGCTACAGAT GACTGTCACA TCGATGCAAT TTGCCAAAAC 
ACACCGAAAT CGTACAAATG CATCTGCAAA CCGGGTTATA AAGGCGAAGG GAAACAATGT 
GAAGATATTG ACGAGTGTGA AAATGACTTC TACAATGGGG GTTGTGTCCA CGAGTGCATC 
AACATTCCAG GCAACTACAG ATGTACGTGC TATGATGGGT TCATGCTAGC CCACGATGGC 
CATAACTGTC TTGATGTTGA CGAGTGTCAG GATAACAATG GAGGGTGCCA GCAGATTTGC 
GTAAATACAA TGGGCAGCTA TGAATGTCAG TGCAAAGAGG GCTTTTTCCT GAGTGATAAC 
CAGCATACCT GCATTCATCG CTCTATTGAG GGTATGAACT GTATGAACAA AGATCATGGG 
TGTGCACACA TCTGCCGGGA GACGCCCAAA GGTGGGGTTG CCTGTGAATG TAGGCCTGGC 
TTTGAACTTG CCAAAAACCA GAAGGACTGC AAATTAACCT GTAACTATGG GAATGGAGGC 
TGCCAACACA CCTGTGATGA CACAGATACT GGCCCTGTGT GTGGTTGTCA TCAGAAGTAT 
GCCTTGCATT CAGATGGCCG AACCTGCATT GAGAAGGATG AGGCTGCAAT TGAGAGTTCT 
GAGTACAATG CCACGTCAGT AGCTGATGTG GACAAGCGGG TGAAACGGCG GCTACTTATG 
GAAACATGTG CTGTCAATAA CGGAGGCTGT GATCGGACTT GCAAGGATAC CGCAACAGGG 
GTACGGTGCA GTTGCCCAGT TGGATTTACC CTGCAGCCTG ATGGGAAAAC GTGCAAAGAC 
ATTGATGAGT GCTTGGTAAA CAACGGTGGC TGTGACCATT TCTGTCGAAA CACAGTTGGC 
AGCTTTGAAT GCAGCTGCCA GAAAGGCTAT AAACTGCTCA CAGATGAGCG GACCTGCCAA 
GATATAGATG AGTGTTCCTT CGAAAGGACC TGTGATCACA CCTGCATCAA CTACCCCGGG 
AGCTTTGAAT GTCTCTGTCA TAAAGGCTAC ACCTTGTATG GACTGACGCA CTGTGGAGAT 
ATTGATGAAT GCAGCATCAG CAATGGTAGC TGTGACTATG GGTGTCTTAA CATAATGGGG 
AGCTACGAGT GTGTCTGTCC ACCTGGAAAG AAACTTCACT GGAATAAAAA GGACTGTGTT 
GGACTTTGCT TCATTGTCCC TTCTACCTTT CTTCACCATT ATAAGCAAGT AGGTGCTCAG 
GGTTCTGTTT GGGCAGTGGT TGATTTTTCT TTTTTTCTTT TTTTTTTCTT TTTTCTTTTT 
TTTTTCTTCT CCTCAGAGAT GGTGAAATGT CTCCCAAATG CCAAACCAGC TGCCAAGGCT 
CAGCTAGTGT GCAGTAAGAC AGGAGGCACA GAAAGCTGCT TCCTGTCATG CTCATCCAAT 
ACTCTTTTTG TTCCAGATTC GGAGAACAGC TACACGCTGA GCTGCGGCAT CCCCGGCGCC 
CAGGGCAAAG CTCCGCAGAA GCGCAACGCG ACGCTTCCCA GCTGTGCAGA TTCATTAGCC 
CCTCCAATCA AGCAGAAAGC TCGTTTTAAA ATTAAAGATG CAAAGTGCCA TTTGCGGCCT 
CGCAGCAAAG AAAAAGTGAA AGATTCTGGG AAGCAAGCTG TCTTAGGAGG TCCATTCCCT 
TGTACAGACA ACTGCCAGGT GACCTTTGTG AATCTCAAGT GTGATTCCTC CAAGAAAAAA 
CGCCGGGGCC GCAAGTCACC ATCAAAAGAA GTGTCCCATA TCACTGCAGA GTTTGAAGTG 
GAGATGAAGT CAGAAGAAGT CTCAGACACC TGTAACATTG ACTGTGTTCG GAAAAGGATG 
GAGCAGAAGC TGCAAACTGC AATCAAAACA TTGAGGAAAT CTATTAATAA ACAGCAATTT 
TACATTCAGT TTTCTGGGAC AGAATATGAA GTGGCTCAGA AGCCAGCTAA AGCTACTGAA 
GGGCATGAAG CTTGCAGTAC AGGGCAAGTG CTGCAGGAGG GAAAATGTGG GCAGTGTTCT 
CCTGGACACT ATTCTTCAGA TGGTTTTAAA CCTTGTAGAG TCTGTCCTCT TGGTACGTAT 
CAGCCTGAAC CAGGAAGGAC CCTCTGCTTT CCGTGTGGCG GTGGGCTTGT GACCAAGTAC 
GAAGGTGCTG TTTCATTTCA AGACTGTGAA ACCAAAGTTC ACTGTTCTCC TGGACACTAC 
TACAACTCCA CCACACACAG ATGTATCCGG TGCCCTGTGG GAACTTATCA GCCTGAGTTT 
GGCCAGAACT ACTGCATCAC CTGTCCTGGG AACACAAGTA CAGATTTTGA TGGCTCCACT 
AATGTTACGC ACTGCAAAAA CCAGCACTGT GGAGGAGAAC TTGGGGATTA TACTGGCTAT 
ATTGAATCGC CCAACTATCC TGGAGACTAC CCAGCTAATG TTGAATGCAT TTGGAATATA 
AACCCACCCC CAAAGAGGAG AATACTCATT GTAGTACCTG AGATATTCCT CCCAATTGAA 
GACGAATGTG GTGATGTTTT AGTAATGAGA AAAAGTGCTT CTCCAACTTC AATTACTACA 
TATGAAACGT GTCAGACTTA CGAGAGACCT ATTGCATTTA CCTCAAGATC AAGGAAGCTA 
TGGATTCAGT TCAAGTCAAA TGAAGGAAAC AGTGGGAAAG GATTTCAAGT CCCATATGTG 
ACTTACGATG AGGATTATCA ACAGCTAATA GAAGACATTG TTCGAGATGG ACGATTATAT 
GCTTCAGAAA ATCACCAAGA AATTCTAAAA GACAAGAAAC TGATCAAAGC TCTCTTTGAT 
GTCCTGGCAC ACCCACAGAA CTATTTCAAG TACACAGCAC AAGAGTCAAA AGAGATGTTT 
CCAAGATCAT TTATAAAGCT ACTGCGCTCA AAAGTTTCCA GATTTCTACG ACCATACAAA 
TAA