LOC101862920 cDNA ORF clone, Aplysia californica(California sea hare)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC101862920
Entrez Gene ID	101862920
Full Name	uncharacterized LOC101862920
Gene Type	protein-coding
Organism	Aplysia californica(California sea hare)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005090475.2	XP_005090532.2	uncharacterized protein LOC101862920

Pathways from BioSystems
Gene Ontology

The following LOC101862920 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101862920 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
OAp143883	XM_005090475.2 Latest version!	Aplysia californica uncharacterized LOC101862920 (LOC101862920), 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)

LOC101862920 ( XM_005090475.2 ) cDNA ORF clone, Aplysia californica(California sea hare) -> XP_005090532.2 Aplysia californica uncharacterized LOC101862920 (LOC101862920), mRNA.

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CloneID	OAp143883
Clone ID Related Accession (Same CDS sequence)	XM_005090475.2
Accession Version	XM_005090475.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3345bp) 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	2015-07-06
Organism	Aplysia californica(California sea hare)
Product	uncharacterized protein LOC101862920
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004797287.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jul 7, 2015 this sequence version replaced XM_005090475.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aplysia californica Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 56% of CDS bases ##RefSeq-Attributes-END##

ATGAGGGAGC TTCCAAAGCA GCCGTACGTG GCCATCAGCT GCAAAGAAGA CGCACAGAAG 
AAGATCACTG ATCTGAATCT ATTCAAGACG GGAGATGCAC TAAGACAGGT TCTGGGATAC 
ATTCCTACGA ATGTCCAGAA GCTGTCCTCT GGTGTACTCC TCGTCAAGTG CGCAACAGAG 
ACTGAAGTGG CCAAACTTCT GAACATCACG ACCTTCGGCA GTATTCCATG TACTTTCGAA 
CGATACCAGA AGTTGAACTG CTCGAAGGGC GTCGTCCGCA GCCATGAACT AAAGGGCTGC 
AGCATGGAGG AAATTGTGGC GAACTGCGAA GGTGTGATTG ACGCCCGCCG GTTTACTCTC 
CGACGGGGGG AGACCACCCT CGAAACCAAC ACGGTCATCC TGACCCTCCA GCCACCGTTC 
GGGCATCGAG GCCCGCAAAG CTACCTGCCC GCCAGTTGTG ACCCTGGTCC CTGGCCGGTC 
ATACGCAAAG GTAGCACGGG AAGCCATGAG ATGCAAGTTT CCTCTGCTGT TGGCAAGTCG 
CGATTTCTCC GCCAGAAATC CATCAAATCT CTGAGGTCCA TCGGCGAGAT CTCAGAAGGG 
TCTACGCTAC TTACGCAGAT CTTGCAGTGG CCAGGGAAGT GGAAAGCTAA TACAATAGGA 
ATACGCTTGT TAGAAATTTC CGAGTTCAGA ACACTGTCGA GAGAAATCAA GAAGACAATG 
CTCTGGATGC GAGATCACAT GATCAACGTC AACATTGTAC GTTTCTACGG CCTGACTGAC 
CTGGAGGGAG ATCGTTACGT CATTGGGGAC TTCTGCAGCA AAGGGACCGT ACTTGACGTG 
TTGCAGAGCA ATAAGTTCAA CCTGAATACG GACTTCAAGA TGTCTCTGGC AATGGAGATA 
GCAATGGGTA TGTCTTTCCT CCATGTCAAC GGTCTGATCC ATGGGATGCT GACGTCATCG 
TGCTGTCTGC TTGACAACCG ATGGACGGTC AAGGTCAGCG ACTGGGAGTA CCACAAGTTG 
TTGTCATCAC TGCCTGGTAA TAAAAACCCT TTACTTCTCA TGAGGACGAA AGGAACGTCA 
AAAGATAATT CGCAGGAGGC CTTGCTCAGC ATCAAACTGC AATTTGTTGA TGTTGAAAGG 
TGCATCTTTG ATAGAGCTTT GAAAGTGTTC ATAAAAATCG TGAAGATGTT ACGTCAGGGC 
CGCACGGGCC GCAAGTCTAT CATGGACAAT ATGATGGAGG CCATGGAGGA CTACACAGCA 
CACTTGGAGG ACGAGGTCGA ATCTAAAGTG TGTGAACTCT TTAAGCTTTG CCGGCCATGG 
GAGCGTCTGG ACATTGTTCC TAGCAAGAAA GTCTCTAGTT ACTATGGCAG TATGCGGTCT 
GGCATTGTCC TGCTGGAAGA CTGCCCCTGG TTGTTGAAGC AATGTAAGGG CATGTGGTGG 
GAGGATGTTG TTGATTTTGG CCTAGGCTGT CAGATTACCT TGTACTCTGC CCAGGCTACT 
CCTGCAAGTG TGGCTGATTG CTCACCACAC CATCACACTG CCATCACAAT CTCAGGCTGC 
GCCTACCTGA AAGAAGCAGC TTTTGTTACT GTCAAGACAA ACCTGGACAC CCTTCTATCA 
GATATCGTAC CGCCTGACGT ATTAAAAGTG ATGAGCTCAG GAAACAAGGT TGAGTCCAGA 
ATCTACCCAT CTCTGGGAGT GATCATGTTT GAGATCGTCG ACTGGTCGAA AAGGAATGAG 
ATTGGGTTGG TGAACGAGTT GCTCCAATTT ATGGACGGAA TGACAACTCA GATAGCTCAG 
GTTATAAACA GCTGTATACC ACCGAAGAGC AAACTGAAAG TACTTCCTGT CAAGCTCAGT 
GCGCATGTCG GACTGGTATC CACGGGAACC ATTGGTGTGA CGTCACCAAA ATTCCTGCTT 
CTTGGAGACG GCGTCGACGT TGGACGAGCT CTGCTTCAAC ATGCGGACAT TGGATCTGTG 
AAAATATCCA GATCGCTATA CTCACAGTTG GAGAAAAGCC CGGACTTTGA ATTCTCTGCA 
AAAGAACCGG AGTGGATTCC TTGTAACGGT ACGGACATAG AGTCGTTCGT GTTGGTAGGT 
CGCCATACAG AGACTGTCGT CATCAGCTCA GACACATCTG TAGATTCTGG GGTAGATGTT 
GGCCACTCTC AAACTGAACG AAGACGCTCG GGTCAGGCAA CCACTTCAGA GGACATAACG 
TTAGACGAAG TGTCCATTAA GTCCACACAC TCAGACAGCA CAGGCTCTCA AGGACAGAGA 
CCCGTCATAT ATCTGGGCCC TGATTCCTCC GAGAGTTTTG CCTACTCACG GCGTCGCCCG 
CGAGTCAGCG GAGCTCAACG TGGGGCCAAA TCTAAAGGGC AAAACTACAA GAACTCCAAA 
CGAGGAAATG CTCTCCACTC TTTTCAAGGA AAGCGTGGAC AGCGACGAAC CCGTAGCGCC 
GAGTTTCCCA GTTCTCAGCT TCCATCTCTT CCTCTGTCTC GCATTTCAGA AAATAGTGAC 
AACCCTAGTC TAGACTCTGA CACATCTAGT AATGTCGACG GAAATGAAGA CAGTCACAAC 
AAGCAAGGAA CTATTATCAG GAATGAAATG CCTTCTGATA TAAAAGGAGG ACAGAGAGAA 
CTGGCGAAAA AGTTGAAATC ACATTCAACA ACTTTGTCTT TGGACCCCAA AGCAGTCACT 
GCTATGTTTG AAGTTCAAAC CAAGAAGCGT CCGCCCTCGT CGCATCCTAG CTCAAGGGGG 
GTTGCTGGTG AATCAGCTTT GAACAGCCAA GGAGTGGCTT TAGAGTCACG AATAACATAC 
AATGCCAGTG TGCCAAATTC TCAGCATGGC TCGGGGTCTG AGGATTCGGA AAATGCGGTT 
ACGTATAATT CTGAGAAATC AGAAAGTGAC CATACGACAA ATAGTGTAGG CAACAAAGAA 
GGTGATGGGG ACAGTAAAAA GTTTAAACGG AACAAACACA ACACTACTCG AGAGTGTTCC 
TCGGATACTT CAGAAAATGT CTCTGCTATG GGGGAAGCGT CTTGTGTTCC TAACTCTAAA 
AACGACGCTG TTGACATTTC TGTGTTCAGA AGTGATTGTG ATTCGTGCTC AGATGAAATA 
AACGTAGATG GAAATACTGT TCTTTCGGAT TCTGATCCTG CTCAAGGAAA TGTTACAGGT 
TATTCCAATC CTCTCCGAGA GGATTCTCAC ACGAAGGCGG ATGAGGGGAA TTCTAAACAA 
CGCGCCGACT CGGTGCTACG TGATGAAACG GAGAGAAAAA CAAGACCCAA TTCCAAAGGG 
AAAAGGAAAA ACAACAATGG CACAAACAAA GTACATCCCA CGTGA

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

RefSeq	XP_005090532.2
CDS	1..3345
Translation	MRELPKQPYVAISCKEDAQKKITDLNLFKTGDALRQVLGYIPTNVQKLSSGVLLVKCATETEVAKLLNITTFGSIPCTFERYQKLNCSKGVVRSHELKGCSMEEIVANCEGVIDARRFTLRRGETTLETNTVILTLQPPFGHRGPQSYLPASCDPGPWPVIRKGSTGSHEMQVSSAVGKSRFLRQKSIKSLRSIGEISEGSTLLTQILQWPGKWKANTIGIRLLEISEFRTLSREIKKTMLWMRDHMINVNIVRFYGLTDLEGDRYVIGDFCSKGTVLDVLQSNKFNLNTDFKMSLAMEIAMGMSFLHVNGLIHGMLTSSCCLLDNRWTVKVSDWEYHKLLSSLPGNKNPLLLMRTKGTSKDNSQEALLSIKLQFVDVERCIFDRALKVFIKIVKMLRQGRTGRKSIMDNMMEAMEDYTAHLEDEVESKVCELFKLCRPWERLDIVPSKKVSSYYGSMRSGIVLLEDCPWLLKQCKGMWWEDVVDFGLGCQITLYSAQATPASVADCSPHHHTAITISGCAYLKEAAFVTVKTNLDTLLSDIVPPDVLKVMSSGNKVESRIYPSLGVIMFEIVDWSKRNEIGLVNELLQFMDGMTTQIAQVINSCIPPKSKLKVLPVKLSAHVGLVSTGTIGVTSPKFLLLGDGVDVGRALLQHADIGSVKISRSLYSQLEKSPDFEFSAKEPEWIPCNGTDIESFVLVGRHTETVVISSDTSVDSGVDVGHSQTERRRSGQATTSEDITLDEVSIKSTHSDSTGSQGQRPVIYLGPDSSESFAYSRRRPRVSGAQRGAKSKGQNYKNSKRGNALHSFQGKRGQRRTRSAEFPSSQLPSLPLSRISENSDNPSLDSDTSSNVDGNEDSHNKQGTIIRNEMPSDIKGGQRELAKKLKSHSTTLSLDPKAVTAMFEVQTKKRPPSSHPSSRGVAGESALNSQGVALESRITYNASVPNSQHGSGSEDSENAVTYNSEKSESDHTTNSVGNKEGDGDSKKFKRNKHNTTRECSSDTSENVSAMGEASCVPNSKNDAVDISVFRSDCDSCSDEINVDGNTVLSDSDPAQGNVTGYSNPLREDSHTKADEGNSKQRADSVLRDETERKTRPNSKGKRKNNNGTNKVHPT

Target ORF information:

RefSeq Version	XM_005090475.2
Organism	Aplysia californica(California sea hare)
Definition	Aplysia californica uncharacterized LOC101862920 (LOC101862920), mRNA.

Target ORF information:

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

XM_005090475.2

ORF Insert Sequence:

ATGAGGGAGC TTCCAAAGCA GCCGTACGTG GCCATCAGCT GCAAAGAAGA CGCACAGAAG 
AAGATCACTG ATCTGAATCT ATTCAAGACG GGAGATGCAC TAAGACAGGT TCTGGGATAC 
ATTCCTACGA ATGTCCAGAA GCTGTCCTCT GGTGTACTCC TCGTCAAGTG CGCAACAGAG 
ACTGAAGTGG CCAAACTTCT GAACATCACG ACCTTCGGCA GTATTCCATG TACTTTCGAA 
CGATACCAGA AGTTGAACTG CTCGAAGGGC GTCGTCCGCA GCCATGAACT AAAGGGCTGC 
AGCATGGAGG AAATTGTGGC GAACTGCGAA GGTGTGATTG ACGCCCGCCG GTTTACTCTC 
CGACGGGGGG AGACCACCCT CGAAACCAAC ACGGTCATCC TGACCCTCCA GCCACCGTTC 
GGGCATCGAG GCCCGCAAAG CTACCTGCCC GCCAGTTGTG ACCCTGGTCC CTGGCCGGTC 
ATACGCAAAG GTAGCACGGG AAGCCATGAG ATGCAAGTTT CCTCTGCTGT TGGCAAGTCG 
CGATTTCTCC GCCAGAAATC CATCAAATCT CTGAGGTCCA TCGGCGAGAT CTCAGAAGGG 
TCTACGCTAC TTACGCAGAT CTTGCAGTGG CCAGGGAAGT GGAAAGCTAA TACAATAGGA 
ATACGCTTGT TAGAAATTTC CGAGTTCAGA ACACTGTCGA GAGAAATCAA GAAGACAATG 
CTCTGGATGC GAGATCACAT GATCAACGTC AACATTGTAC GTTTCTACGG CCTGACTGAC 
CTGGAGGGAG ATCGTTACGT CATTGGGGAC TTCTGCAGCA AAGGGACCGT ACTTGACGTG 
TTGCAGAGCA ATAAGTTCAA CCTGAATACG GACTTCAAGA TGTCTCTGGC AATGGAGATA 
GCAATGGGTA TGTCTTTCCT CCATGTCAAC GGTCTGATCC ATGGGATGCT GACGTCATCG 
TGCTGTCTGC TTGACAACCG ATGGACGGTC AAGGTCAGCG ACTGGGAGTA CCACAAGTTG 
TTGTCATCAC TGCCTGGTAA TAAAAACCCT TTACTTCTCA TGAGGACGAA AGGAACGTCA 
AAAGATAATT CGCAGGAGGC CTTGCTCAGC ATCAAACTGC AATTTGTTGA TGTTGAAAGG 
TGCATCTTTG ATAGAGCTTT GAAAGTGTTC ATAAAAATCG TGAAGATGTT ACGTCAGGGC 
CGCACGGGCC GCAAGTCTAT CATGGACAAT ATGATGGAGG CCATGGAGGA CTACACAGCA 
CACTTGGAGG ACGAGGTCGA ATCTAAAGTG TGTGAACTCT TTAAGCTTTG CCGGCCATGG 
GAGCGTCTGG ACATTGTTCC TAGCAAGAAA GTCTCTAGTT ACTATGGCAG TATGCGGTCT 
GGCATTGTCC TGCTGGAAGA CTGCCCCTGG TTGTTGAAGC AATGTAAGGG CATGTGGTGG 
GAGGATGTTG TTGATTTTGG CCTAGGCTGT CAGATTACCT TGTACTCTGC CCAGGCTACT 
CCTGCAAGTG TGGCTGATTG CTCACCACAC CATCACACTG CCATCACAAT CTCAGGCTGC 
GCCTACCTGA AAGAAGCAGC TTTTGTTACT GTCAAGACAA ACCTGGACAC CCTTCTATCA 
GATATCGTAC CGCCTGACGT ATTAAAAGTG ATGAGCTCAG GAAACAAGGT TGAGTCCAGA 
ATCTACCCAT CTCTGGGAGT GATCATGTTT GAGATCGTCG ACTGGTCGAA AAGGAATGAG 
ATTGGGTTGG TGAACGAGTT GCTCCAATTT ATGGACGGAA TGACAACTCA GATAGCTCAG 
GTTATAAACA GCTGTATACC ACCGAAGAGC AAACTGAAAG TACTTCCTGT CAAGCTCAGT 
GCGCATGTCG GACTGGTATC CACGGGAACC ATTGGTGTGA CGTCACCAAA ATTCCTGCTT 
CTTGGAGACG GCGTCGACGT TGGACGAGCT CTGCTTCAAC ATGCGGACAT TGGATCTGTG 
AAAATATCCA GATCGCTATA CTCACAGTTG GAGAAAAGCC CGGACTTTGA ATTCTCTGCA 
AAAGAACCGG AGTGGATTCC TTGTAACGGT ACGGACATAG AGTCGTTCGT GTTGGTAGGT 
CGCCATACAG AGACTGTCGT CATCAGCTCA GACACATCTG TAGATTCTGG GGTAGATGTT 
GGCCACTCTC AAACTGAACG AAGACGCTCG GGTCAGGCAA CCACTTCAGA GGACATAACG 
TTAGACGAAG TGTCCATTAA GTCCACACAC TCAGACAGCA CAGGCTCTCA AGGACAGAGA 
CCCGTCATAT ATCTGGGCCC TGATTCCTCC GAGAGTTTTG CCTACTCACG GCGTCGCCCG 
CGAGTCAGCG GAGCTCAACG TGGGGCCAAA TCTAAAGGGC AAAACTACAA GAACTCCAAA 
CGAGGAAATG CTCTCCACTC TTTTCAAGGA AAGCGTGGAC AGCGACGAAC CCGTAGCGCC 
GAGTTTCCCA GTTCTCAGCT TCCATCTCTT CCTCTGTCTC GCATTTCAGA AAATAGTGAC 
AACCCTAGTC TAGACTCTGA CACATCTAGT AATGTCGACG GAAATGAAGA CAGTCACAAC 
AAGCAAGGAA CTATTATCAG GAATGAAATG CCTTCTGATA TAAAAGGAGG ACAGAGAGAA 
CTGGCGAAAA AGTTGAAATC ACATTCAACA ACTTTGTCTT TGGACCCCAA AGCAGTCACT 
GCTATGTTTG AAGTTCAAAC CAAGAAGCGT CCGCCCTCGT CGCATCCTAG CTCAAGGGGG 
GTTGCTGGTG AATCAGCTTT GAACAGCCAA GGAGTGGCTT TAGAGTCACG AATAACATAC 
AATGCCAGTG TGCCAAATTC TCAGCATGGC TCGGGGTCTG AGGATTCGGA AAATGCGGTT 
ACGTATAATT CTGAGAAATC AGAAAGTGAC CATACGACAA ATAGTGTAGG CAACAAAGAA 
GGTGATGGGG ACAGTAAAAA GTTTAAACGG AACAAACACA ACACTACTCG AGAGTGTTCC 
TCGGATACTT CAGAAAATGT CTCTGCTATG GGGGAAGCGT CTTGTGTTCC TAACTCTAAA 
AACGACGCTG TTGACATTTC TGTGTTCAGA AGTGATTGTG ATTCGTGCTC AGATGAAATA 
AACGTAGATG GAAATACTGT TCTTTCGGAT TCTGATCCTG CTCAAGGAAA TGTTACAGGT 
TATTCCAATC CTCTCCGAGA GGATTCTCAC ACGAAGGCGG ATGAGGGGAA TTCTAAACAA 
CGCGCCGACT CGGTGCTACG TGATGAAACG GAGAGAAAAA CAAGACCCAA TTCCAAAGGG 
AAAAGGAAAA ACAACAATGG CACAAACAAA GTACATCCCA CGTGA