LOC107725803 cDNA ORF clone, Sinocyclocheilus rhinocerous

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC107725803
Entrez Gene ID	107725803
Full Name	EMILIN-1-like
Gene Type	protein-coding
Organism	Sinocyclocheilus rhinocerous

mRNA and Protein(s)

mRNA	Protein	Name
XM_016535209.1	XP_016390695.1	EMILIN-1-like

Pathways from BioSystems
Gene Ontology

The following LOC107725803 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC107725803 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
OSi166355	XM_016535209.1 Latest version!	Sinocyclocheilus rhinocerous EMILIN-1-like (LOC107725803), 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)

LOC107725803 ( XM_016535209.1 ) cDNA ORF clone, Sinocyclocheilus rhinocerous -> XP_016390695.1 Sinocyclocheilus rhinocerous EMILIN-1-like (LOC107725803), mRNA.

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CloneID	OSi166355
Clone ID Related Accession (Same CDS sequence)	XM_016535209.1
Accession Version	XM_016535209.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3195bp) 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	2016-05-02
Organism	Sinocyclocheilus rhinocerous
Product	EMILIN-1-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015627248.1) 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 :: Sinocyclocheilus rhinocerous Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATGGAG CAGTTCTCTT GATATCGATG CTGGTGTTGG TTTTCTCTGG AGATGTAAGG 
AGCGCGTCGT ATCCTCAGCG GTATAACCTT TACGCAGGGA CCCAGACTCA GACTCAGCCT 
TTAAACGGGG CGAGAGCAGC GAGCAGACAC AGAAACTGGT GTGCGTATGT GGTGACCAAG 
ACTGTGAGCT GTGTGGTGGA AGATGGAGTG GAGACTTATG TGAAGCCTGA CTATCAGCCA 
TGTTCCTGGG GCATTCAGTG TGCCCGTGTT GTAGTGTATC GGACCTACAT GAGGCCCAGA 
TACAAGGTGG CTTACAAAAT GTTAACAGAA ATGGAGTGGA AGTGTTGCCA TGGATACAGT 
GGAGAAGACT GTAATAATGG ACCAAACGGG GGATCTGATA CTCAGATCTC AACAAGCAGA 
CCTTGGCCTA GACCACAACC AGGACAAACT GGAACTAATA CCGGTCATGG ACAGAACGGA 
GGGAATGGGA GAGGTGACAA TGACAAGATG AAGCAACTGG AGGACAAAAT CCAGAAGTTG 
AACAAAGACC TAACTGACCT GCAGTCAACT CTGCGTGGCA TGAATGAAAG ATTCCAAGAG 
GAAATGCGTA ATCCAGGTTT TAATAGTGGC AAAACACCAG CTGATGCAGC TCAGCCTGAA 
ATGAAAGAGA CCATCCATAA CATTCAGACC AAGCTTGATC AGTTGGACAA CCGTACTCAA 
GCTCATGACA AGACTCTAGT CAGCATCAAT AACCACCTTG TGAATGGAAA GGGAGAAGGC 
AATGACTTAG ACATTGGGGG AGCAGGAGAA AACAGGTTCA ACACCTTGAA GGTGGAAATC 
CTCAGAGAGC TTGAACGTCG AGTGACTCTT TCATGTTCTG CCTGTCAGTC TGGAGTGGAA 
GACTTGAGAA GGCAACAGCA ACAAGATCGA GAGAGGATCT TGGCTCTGGA AAAGCAGATT 
AATGCCATGG ACCAGCGTCA CCGCCAGACT CTTGATGGTT TGCGCCGAGA CCTCAGCCGG 
TCTCAAGGCT GCTGTGACAC TGTAACAAAC CTCAGTAGAC GACTTAATGA CATGGACAGG 
AAGATAAGCT CAACGTCAGA GGCCTATGAC AAGCTTCAGG ATCGTCTGAA TAGGGAACTA 
GGAGGAACAG GTGGACAAGT TCCTATAATG CCAGAAGATC TTTTCAATGA TAATCTAAAA 
GACCTGGAGA GACAGCTCAA CAACACTGTC CAGAAGGCAG AGGAAAACTG TGCTTATATG 
GAGACTAACA TACGGGACTC ATTCCAGCAG GAACTCAGAA ATCTTCGCAA TGAATTCAAT 
AATCGTTTTC TTGACCAGGA ATACAGGATT AATGACATGG ACCTTGATAT AGGAATCTTT 
AAAGAAACTG TATTTGATCT TGATAAGCGC CTATCTCGGC TTGAGAATAC AACATCCTTC 
ATAGACAGGA GGTTACGCGA ATGCTCTGGG TGCTCAGGCT CAAGTTCTGG GTCAAGTCCA 
ACCGGTGCTA GTGCGAGCCC TAGTGAGACA GTGAAGTCTT TGGAGTGGAG AGTCATTGCA 
AATGAAGATG AGATCAAGAG GTTTGACACA CGACTCAAGG ATCTCTCTGT GTCTGGTTAT 
TCTCTTGAAG ATAGGGTCAT TAACCTCAGC CATGATGTTC GCAAGATCAA AGCACTAACT 
GGAGACAATG GGGAACACTT CAACAGGATT GTCATGGAGA TTGAGAACTG TGACGTGTGC 
AGCACAGTGG AAGATGACCT AAAGAAACTC AAGAACATCA CAAACCATGC CATGGACAGA 
TGGCAGAAAG AAATGAACTA CATTAAAGGT AAAATTGAGT CTGGTCAGAC GGGTTGTGTG 
GATGTTTGCT CCAGTTTGCA GGATGAGATG GATCAGTTGA GACAGGAGGT ACAGAATTGC 
AGTGGTCAAT GCAAGATCAA CCTGAATACT CCTACAGGAA CGGAATCAGG AACAGGTCAC 
CTGGATGACC CACAGAAACC GCTGGATGGA TACAGTGTCA TCAGTAGTAA TACCGGTGAC 
CTCAAGTCAA TTCAGGGAGA ACTGTCTGAG GTCATCTTAA CCTTCAGCTC CATCAATGAC 
ACACTAAAAG GTCTGGAGCA TGTGGTCCAG AAACACGACA GTGTTATCAC CGACCTTGGA 
AACACCAAAG ACAAAATCAT TTCTGAAATT GACAAGATCC AGCAGGAAAT GACAGAGCAC 
ATAGAGGATA GCAGGATACG TTTTGACAAT GTGGATCGAG ATGTACGTCG CTTTGGGAAT 
AACTTTGTGG TTGAGATGGG TGACTGCAAG AGGACTGGCG ATGGTCTGGA TAAGAGGCTC 
TCTAAACTCG AAGTGGTTTG TGGTCGGCTT GACTCTGTCT CAGACAATCT CCAGAAGATC 
AAAGAAGGCC TGAACAAACA CGTGTCTAGC CTGTGGAACT GTGTCAGTGG GCTAAACAAC 
ACAGTGATCT CACACAGTGG GTTCATTGAG ATCCTCCAGA ACACACATCT GGATGATATC 
CATGGCAACA TCAAGAGACT AAATTCCTCA ATGGACCACA TCCTCAAGGA GTTCCAGAGC 
TTAACTGAGA ATGACTTAAC AGGTTTACCT GGACCACCAG GTCCGCAGGG AGAAAGTGGG 
CTCCCAGGTC CACAGGGACC TCCAGGTAAT GATGGACCAC CAGGTATTCC GGGCTTACCT 
GGACCAAAAG GACCTCCTGG TCTCAGAGGA GAGAGAGGTG TGGCCGGCGC AGATGCCAAC 
ATACCACGTC TTTCCTTCTC AGCAGCTCTC ACGAATCCCA TGGTTACATC TGGAACAATC 
ATTTTTGATA AGATCTTGGT AAATGAAGGA AGCTATTATA ATCCACGAAC AGGTATCTTT 
ACTGCACCAC TTGATGGACG CTACTTCTTT AGCGCTATCC TGACAGGTCA CAAAAATGAG 
AAGATTGAAG CTGTGCTCTC CAGGTCTAAC TATGGCATGG CTCGGGTGGA CTCGGCAGGT 
TACCAACCAG AAGGGTTGGA AAACAAACCC ATGGCCGAAG CAAAACCAAC ACCAGGTTCT 
CTGGCTGTCT TCAACATCAT CCTGTCCCTT CAGGTGGGCG ATACAGTCTG CATAGACCTG 
GTCATGGGCA AACTGGCCCA TTCAGTGGAG CCTTTAACTA TCTTCAGTGG TATGCTTCTA 
TATGAAGATG TGTAG

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

RefSeq	XP_016390695.1
CDS	414..3608
Translation	MDGAVLLISMLVLVFSGDVRSASYPQRYNLYAGTQTQTQPLNGARAASRHRNWCAYVVTKTVSCVVEDGVETYVKPDYQPCSWGIQCARVVVYRTYMRPRYKVAYKMLTEMEWKCCHGYSGEDCNNGPNGGSDTQISTSRPWPRPQPGQTGTNTGHGQNGGNGRGDNDKMKQLEDKIQKLNKDLTDLQSTLRGMNERFQEEMRNPGFNSGKTPADAAQPEMKETIHNIQTKLDQLDNRTQAHDKTLVSINNHLVNGKGEGNDLDIGGAGENRFNTLKVEILRELERRVTLSCSACQSGVEDLRRQQQQDRERILALEKQINAMDQRHRQTLDGLRRDLSRSQGCCDTVTNLSRRLNDMDRKISSTSEAYDKLQDRLNRELGGTGGQVPIMPEDLFNDNLKDLERQLNNTVQKAEENCAYMETNIRDSFQQELRNLRNEFNNRFLDQEYRINDMDLDIGIFKETVFDLDKRLSRLENTTSFIDRRLRECSGCSGSSSGSSPTGASASPSETVKSLEWRVIANEDEIKRFDTRLKDLSVSGYSLEDRVINLSHDVRKIKALTGDNGEHFNRIVMEIENCDVCSTVEDDLKKLKNITNHAMDRWQKEMNYIKGKIESGQTGCVDVCSSLQDEMDQLRQEVQNCSGQCKINLNTPTGTESGTGHLDDPQKPLDGYSVISSNTGDLKSIQGELSEVILTFSSINDTLKGLEHVVQKHDSVITDLGNTKDKIISEIDKIQQEMTEHIEDSRIRFDNVDRDVRRFGNNFVVEMGDCKRTGDGLDKRLSKLEVVCGRLDSVSDNLQKIKEGLNKHVSSLWNCVSGLNNTVISHSGFIEILQNTHLDDIHGNIKRLNSSMDHILKEFQSLTENDLTGLPGPPGPQGESGLPGPQGPPGNDGPPGIPGLPGPKGPPGLRGERGVAGADANIPRLSFSAALTNPMVTSGTIIFDKILVNEGSYYNPRTGIFTAPLDGRYFFSAILTGHKNEKIEAVLSRSNYGMARVDSAGYQPEGLENKPMAEAKPTPGSLAVFNIILSLQVGDTVCIDLVMGKLAHSVEPLTIFSGMLLYEDV

Target ORF information:

RefSeq Version	XM_016535209.1
Organism	Sinocyclocheilus rhinocerous
Definition	Sinocyclocheilus rhinocerous EMILIN-1-like (LOC107725803), mRNA.

Target ORF information:

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

XM_016535209.1

ORF Insert Sequence:

ATGGATGGAG CAGTTCTCTT GATATCGATG CTGGTGTTGG TTTTCTCTGG AGATGTAAGG 
AGCGCGTCGT ATCCTCAGCG GTATAACCTT TACGCAGGGA CCCAGACTCA GACTCAGCCT 
TTAAACGGGG CGAGAGCAGC GAGCAGACAC AGAAACTGGT GTGCGTATGT GGTGACCAAG 
ACTGTGAGCT GTGTGGTGGA AGATGGAGTG GAGACTTATG TGAAGCCTGA CTATCAGCCA 
TGTTCCTGGG GCATTCAGTG TGCCCGTGTT GTAGTGTATC GGACCTACAT GAGGCCCAGA 
TACAAGGTGG CTTACAAAAT GTTAACAGAA ATGGAGTGGA AGTGTTGCCA TGGATACAGT 
GGAGAAGACT GTAATAATGG ACCAAACGGG GGATCTGATA CTCAGATCTC AACAAGCAGA 
CCTTGGCCTA GACCACAACC AGGACAAACT GGAACTAATA CCGGTCATGG ACAGAACGGA 
GGGAATGGGA GAGGTGACAA TGACAAGATG AAGCAACTGG AGGACAAAAT CCAGAAGTTG 
AACAAAGACC TAACTGACCT GCAGTCAACT CTGCGTGGCA TGAATGAAAG ATTCCAAGAG 
GAAATGCGTA ATCCAGGTTT TAATAGTGGC AAAACACCAG CTGATGCAGC TCAGCCTGAA 
ATGAAAGAGA CCATCCATAA CATTCAGACC AAGCTTGATC AGTTGGACAA CCGTACTCAA 
GCTCATGACA AGACTCTAGT CAGCATCAAT AACCACCTTG TGAATGGAAA GGGAGAAGGC 
AATGACTTAG ACATTGGGGG AGCAGGAGAA AACAGGTTCA ACACCTTGAA GGTGGAAATC 
CTCAGAGAGC TTGAACGTCG AGTGACTCTT TCATGTTCTG CCTGTCAGTC TGGAGTGGAA 
GACTTGAGAA GGCAACAGCA ACAAGATCGA GAGAGGATCT TGGCTCTGGA AAAGCAGATT 
AATGCCATGG ACCAGCGTCA CCGCCAGACT CTTGATGGTT TGCGCCGAGA CCTCAGCCGG 
TCTCAAGGCT GCTGTGACAC TGTAACAAAC CTCAGTAGAC GACTTAATGA CATGGACAGG 
AAGATAAGCT CAACGTCAGA GGCCTATGAC AAGCTTCAGG ATCGTCTGAA TAGGGAACTA 
GGAGGAACAG GTGGACAAGT TCCTATAATG CCAGAAGATC TTTTCAATGA TAATCTAAAA 
GACCTGGAGA GACAGCTCAA CAACACTGTC CAGAAGGCAG AGGAAAACTG TGCTTATATG 
GAGACTAACA TACGGGACTC ATTCCAGCAG GAACTCAGAA ATCTTCGCAA TGAATTCAAT 
AATCGTTTTC TTGACCAGGA ATACAGGATT AATGACATGG ACCTTGATAT AGGAATCTTT 
AAAGAAACTG TATTTGATCT TGATAAGCGC CTATCTCGGC TTGAGAATAC AACATCCTTC 
ATAGACAGGA GGTTACGCGA ATGCTCTGGG TGCTCAGGCT CAAGTTCTGG GTCAAGTCCA 
ACCGGTGCTA GTGCGAGCCC TAGTGAGACA GTGAAGTCTT TGGAGTGGAG AGTCATTGCA 
AATGAAGATG AGATCAAGAG GTTTGACACA CGACTCAAGG ATCTCTCTGT GTCTGGTTAT 
TCTCTTGAAG ATAGGGTCAT TAACCTCAGC CATGATGTTC GCAAGATCAA AGCACTAACT 
GGAGACAATG GGGAACACTT CAACAGGATT GTCATGGAGA TTGAGAACTG TGACGTGTGC 
AGCACAGTGG AAGATGACCT AAAGAAACTC AAGAACATCA CAAACCATGC CATGGACAGA 
TGGCAGAAAG AAATGAACTA CATTAAAGGT AAAATTGAGT CTGGTCAGAC GGGTTGTGTG 
GATGTTTGCT CCAGTTTGCA GGATGAGATG GATCAGTTGA GACAGGAGGT ACAGAATTGC 
AGTGGTCAAT GCAAGATCAA CCTGAATACT CCTACAGGAA CGGAATCAGG AACAGGTCAC 
CTGGATGACC CACAGAAACC GCTGGATGGA TACAGTGTCA TCAGTAGTAA TACCGGTGAC 
CTCAAGTCAA TTCAGGGAGA ACTGTCTGAG GTCATCTTAA CCTTCAGCTC CATCAATGAC 
ACACTAAAAG GTCTGGAGCA TGTGGTCCAG AAACACGACA GTGTTATCAC CGACCTTGGA 
AACACCAAAG ACAAAATCAT TTCTGAAATT GACAAGATCC AGCAGGAAAT GACAGAGCAC 
ATAGAGGATA GCAGGATACG TTTTGACAAT GTGGATCGAG ATGTACGTCG CTTTGGGAAT 
AACTTTGTGG TTGAGATGGG TGACTGCAAG AGGACTGGCG ATGGTCTGGA TAAGAGGCTC 
TCTAAACTCG AAGTGGTTTG TGGTCGGCTT GACTCTGTCT CAGACAATCT CCAGAAGATC 
AAAGAAGGCC TGAACAAACA CGTGTCTAGC CTGTGGAACT GTGTCAGTGG GCTAAACAAC 
ACAGTGATCT CACACAGTGG GTTCATTGAG ATCCTCCAGA ACACACATCT GGATGATATC 
CATGGCAACA TCAAGAGACT AAATTCCTCA ATGGACCACA TCCTCAAGGA GTTCCAGAGC 
TTAACTGAGA ATGACTTAAC AGGTTTACCT GGACCACCAG GTCCGCAGGG AGAAAGTGGG 
CTCCCAGGTC CACAGGGACC TCCAGGTAAT GATGGACCAC CAGGTATTCC GGGCTTACCT 
GGACCAAAAG GACCTCCTGG TCTCAGAGGA GAGAGAGGTG TGGCCGGCGC AGATGCCAAC 
ATACCACGTC TTTCCTTCTC AGCAGCTCTC ACGAATCCCA TGGTTACATC TGGAACAATC 
ATTTTTGATA AGATCTTGGT AAATGAAGGA AGCTATTATA ATCCACGAAC AGGTATCTTT 
ACTGCACCAC TTGATGGACG CTACTTCTTT AGCGCTATCC TGACAGGTCA CAAAAATGAG 
AAGATTGAAG CTGTGCTCTC CAGGTCTAAC TATGGCATGG CTCGGGTGGA CTCGGCAGGT 
TACCAACCAG AAGGGTTGGA AAACAAACCC ATGGCCGAAG CAAAACCAAC ACCAGGTTCT 
CTGGCTGTCT TCAACATCAT CCTGTCCCTT CAGGTGGGCG ATACAGTCTG CATAGACCTG 
GTCATGGGCA AACTGGCCCA TTCAGTGGAG CCTTTAACTA TCTTCAGTGG TATGCTTCTA 
TATGAAGATG TGTAG