Cre-tag-343 cDNA ORF clone, Caenorhabditis remanei

Gene
Clones
gRNAs

Summary

Gene Symbol	Cre-tag-343
Entrez Gene ID	9818377
Full Name	CRE-TAG-343 protein
Gene Type	protein-coding
Organism	Caenorhabditis remanei

mRNA and Protein(s)

mRNA	Protein	Name
XM_003103293.1	XP_003103341.1	CRE-TAG-343 protein

Pathways from BioSystems
Gene Ontology

The following Cre-tag-343 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Cre-tag-343 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
OCa15721	XM_003103293.1 Latest version!	Caenorhabditis remanei CRE-TAG-343 protein (Cre-tag-343) mRNA, complete cds.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

Cre-tag-343 ( XM_003103293.1 ) cDNA ORF clone, Caenorhabditis remanei -> XP_003103341.1 Caenorhabditis remanei CRE-TAG-343 protein (Cre-tag-343) mRNA, complete cds.

Price & Availability↑

CloneID	OCa15721
Clone ID Related Accession (Same CDS sequence)	XM_003103293.1
Accession Version	XM_003103293.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3324bp) 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	2010-10-12
Organism	Caenorhabditis remanei
Product	CRE-TAG-343 protein
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_003319655). COMPLETENESS: incomplete on both ends.

ATGATCAGAG CCCTTTCCGA TACTCCTCTA CTAGAGGATA TGATTTCCCC CGATTCGAAA 
TTTGTTGGAG AAGCCCTTGA ACAAAGGGAT GTACGGACTA TTTTTGTATC GGCTAAAGAA 
GATAACAAGG AACGTGAAAA TCGAGTAATA CTGTTGATCG GCCCATCAAG CTCCCAGAAA 
TCAGAGCTCA TAGACTTTCT TTGTAATTAT TTTTATGGTG TTGAACCTAC AGATCAGAAG 
AGGTTTCATA TTGCCGATGA GAAATTCAAT CAAGAAACGC CACAAAGACC TGTGCAGTGT 
TACATTTTTA ATGAAACAGT TATGCCAGTG AGACCTGTCA TTTTGGATAT GATTGGATGC 
GGTGACACTT ATGATGGATT TGATACTCCT TCCTTGATTA ACAAATGGCT TCTGAACAAT 
TGGAAAATGC GACTTGACAC TATCGCAGTG GTATTCTCAG ATCTACACAG GATGAGCATG 
CATGAGGAAG ATGAGCTGCA GCAGGTTCCG AAACAAATTG TTGTTTCACT TCATAATTTT 
CAATTGCAGG TTCTGTCCGA CATTCCTGAA CATGTCCGTG ACAATATAGT TGTATTCATC 
ACCGCGTCAG ATGGTTCTAG AACGTTTGAG CCTTTGTTAC GGAGATTCGG TCTCTCTGAC 
TACCCAAAAT TCACTATCAA TACTGCGTGC ACATTTCAAA AACAAATGGA AGACCGACTG 
AATGACGAAC ATAGAAGACG ATACTGGAAA ATGTCAGTGA ACCAGTTCAA CACTTTTATG 
GAGAGGGTCC AGGAATCTAC GCCTGTAACT ATCTCTGGAC TTCAATTCAT CGATGATGGA 
ATCTATGGGG TTCAGGAGTC GGCACAGAAT TCGTCCAGGA ATAGTGTGTA TTCATCGAGC 
AATAGATCCA CCGTCATCGA AGTGGAGCAA AGCTCGAGAG CCCCACTATC TCAGGCACCT 
CCACCTCCAT CAACGGCCCG TCCGACGACA TCCCCTCCTC AACCCCCAGT GTCAAATCCA 
CCCACAAAAC CGTCCCCACC ACAACCGCCA CCAAAACCAA CAATTCGGCC GCCACCTCTT 
CCGGCATCTC CGCCTCCAAT ACCGCCGTCA AGTGAGCCTC CATCAGTCGG CATACCATTG 
TATAGTGAGA AGCATCAGCA ACAACTACGA TCACAAACAA CCGCCGTCTC ACCGCCAAAG 
CCTCCAAGTT TTGCGCCGCC TGTACCGCCT GATACAGCTC TAATCACTGA CACTTCGACC 
ACCACTGCTC TAACCAACGC AATGTTCCAA CAACTCAGAC AGTCTAGCAC CCAGTATGAC 
TATCCCACGC ATGGAACAGA ACGTGCCTAC TCCGCTCAAG TACCGTATGA TGTCCCTCCA 
TCCGTTCAAT CCGCCGGTGG ACTTCATGAA CGTCGGCATA GTGTACCAGA CGATATTCGT 
CATTACGCCG ACGAGACAAC TCCACCGCCT GTTTTGCACG ACGTCGCCGA CAGATACTCC 
ACAGTGGCGT ATATGAACCA CGAGTTAACC AATAACTCTA CAAGAATCTA CTCCCGTTCG 
CCGACAAGAA GTCAAGTTGG AGTTCGCGAC GCCCATCGTT TGAGTCGTGA CGATTTGAGG 
ATTGTGGACG CACACAGTAG TCCAAGTGAT TCACAATCAG AAGAACTGAG AAGAATGTAC 
TCGGGAAGAA GTGGAAATTC TGTCAAGCCC ACAGGCGATA TAACTGCGCG CTACGTTTAC 
GACACTGCTA ATCGCAATTA TACAGCATAC GGAGAGAGAC AAGAAAGACA GTCCTACACT 
TCCTTCCCAG CTGCTCCAGC AAATGATAGA AAACGGTGGT CGAGATCTTC CGAACCGCGA 
TCGGAGACTT ATATTAATGA CCCTTACTAT TCCGGTAAAG ATGTGGTTTC GGGTTACGGT 
GTAATTGAGA CAAGAAGAAG TCGTACCAGT CTTCATAGTC ACGGAAGTGT ACCAGAACTC 
ATTCACTCCG AAAACAAATA TGACTATCAG CAACTTTCAG AACAACAGAC ACGTGATTTA 
GAGAGACGAA CAAGACAAGA CACTGAGCGT CGTAGTAGAC GCCAATCAGA GGGATCTCGT 
CAAATTTACA TTGATCGCCG TATTTCCCCG GAAAGACAAC AAAAAGATAG AAACAGCGGA 
GCGTACTCAA ATGTGAACAT GCAAGATAAT CCACAGTACA ATTTGCCAAG AAGAGATGCC 
CCACCACCAC AAATTCCCCC GAAACCTGTC ATTCAGAGAG TGAGTATCTC ACTGGAAGTA 
TCGAAATCAG CTACAATTTT TCAGGTTAGC GGTGGTGAGG TATATGAAGA CGAGCGTTCT 
ATCTACGAAG CCTACAGTCA AATCCACCAC CAACGTCCTC CAACCCAACC TCATATCATT 
AGTGCAGGAA TTCAGCCACA ACCAATCCAG CCACCGCCAC AACAACAATA CCCACCACGT 
TATGACCAGG TCCCAGAGCA ATCACAAACC AACCACTATA TAATTCCTCG ACCAATGCGA 
GAATCGGGAT CCCCTATTCA AGTACGAGTG CAACTTTCAT CCAAGTCCCC CGATACTGTT 
CGACGTCAAA TCCCACTTCA AGTTGTTTCG GAACAGCAGT ATGACAACTA TGGGGAGCCA 
ATCTATGTTC CAAGAACTAT TGCTCCACGG GTTACTGAAG AAACGATAAC CACTACAACC 
ACAACAAGAA ATGAGGAAAT TGAAAGAAAA CGGAAGAAGA AGAAGGAGGA CGATGACAGA 
AAGAAACAAT CCATTGACAA TGGCAGTCAA AAAGGATATG ATCCATGTTG GTTACTAATA 
ATAAGTCAGA AAATATTCAT TTCGGTTGCA GATAATAATC GTGGAAACGT TGTCGACCAC 
AACAATGGTC ATGGACATAG TCACGAAGTG TACATTGACA AAGGAAACGC TGGAATCAAA 
GACGGATCTC AATATGATTA TGGCCGTTTT GAGAACCACC ATCGTGATGC AGAAGAGGCG 
TTGATTGAAG AGGAATACAA CACTCGTCAT TTAAAGCGAA CAGTTGAGCA ACCACAGAAA 
AAGTACCCAA AGAAAGACGA TCAGAGACAT ATTGAAGATG GATATGGTTA TCATCCACGA 
GATGATAGAA ACCAACATCA CGACAATCGT GGAAAAAGAG CAAGAGAAAC TAAACAAGTA 
ACCCAACGTC GTGCCATAGG ATGGTCTCCG TCTAACTACC GTAATCCACG TGATTGTTTC 
CTTAATCTTC TATGTTTTAT CATTGCTCCG CTAGTCATCA TACTCATCAT TGTCGTCATC 
ATAGTCTTTG TCATTATCCA ATAG

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

RefSeq	XP_003103341.1
CDS	1..3324
Translation	MIRALSDTPLLEDMISPDSKFVGEALEQRDVRTIFVSAKEDNKERENRVILLIGPSSSQKSELIDFLCNYFYGVEPTDQKRFHIADEKFNQETPQRPVQCYIFNETVMPVRPVILDMIGCGDTYDGFDTPSLINKWLLNNWKMRLDTIAVVFSDLHRMSMHEEDELQQVPKQIVVSLHNFQLQVLSDIPEHVRDNIVVFITASDGSRTFEPLLRRFGLSDYPKFTINTACTFQKQMEDRLNDEHRRRYWKMSVNQFNTFMERVQESTPVTISGLQFIDDGIYGVQESAQNSSRNSVYSSSNRSTVIEVEQSSRAPLSQAPPPPSTARPTTSPPQPPVSNPPTKPSPPQPPPKPTIRPPPLPASPPPIPPSSEPPSVGIPLYSEKHQQQLRSQTTAVSPPKPPSFAPPVPPDTALITDTSTTTALTNAMFQQLRQSSTQYDYPTHGTERAYSAQVPYDVPPSVQSAGGLHERRHSVPDDIRHYADETTPPPVLHDVADRYSTVAYMNHELTNNSTRIYSRSPTRSQVGVRDAHRLSRDDLRIVDAHSSPSDSQSEELRRMYSGRSGNSVKPTGDITARYVYDTANRNYTAYGERQERQSYTSFPAAPANDRKRWSRSSEPRSETYINDPYYSGKDVVSGYGVIETRRSRTSLHSHGSVPELIHSENKYDYQQLSEQQTRDLERRTRQDTERRSRRQSEGSRQIYIDRRISPERQQKDRNSGAYSNVNMQDNPQYNLPRRDAPPPQIPPKPVIQRVSISLEVSKSATIFQVSGGEVYEDERSIYEAYSQIHHQRPPTQPHIISAGIQPQPIQPPPQQQYPPRYDQVPEQSQTNHYIIPRPMRESGSPIQVRVQLSSKSPDTVRRQIPLQVVSEQQYDNYGEPIYVPRTIAPRVTEETITTTTTTRNEEIERKRKKKKEDDDRKKQSIDNGSQKGYDPCWLLIISQKIFISVADNNRGNVVDHNNGHGHSHEVYIDKGNAGIKDGSQYDYGRFENHHRDAEEALIEEEYNTRHLKRTVEQPQKKYPKKDDQRHIEDGYGYHPRDDRNQHHDNRGKRARETKQVTQRRAIGWSPSNYRNPRDCFLNLLCFIIAPLVIILIIVVIIVFVIIQ

Target ORF information:

RefSeq Version	XM_003103293.1
Organism	Caenorhabditis remanei
Definition	Caenorhabditis remanei CRE-TAG-343 protein (Cre-tag-343) mRNA, complete cds.

Target ORF information:

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

XM_003103293.1

ORF Insert Sequence:

ATGATCAGAG CCCTTTCCGA TACTCCTCTA CTAGAGGATA TGATTTCCCC CGATTCGAAA 
TTTGTTGGAG AAGCCCTTGA ACAAAGGGAT GTACGGACTA TTTTTGTATC GGCTAAAGAA 
GATAACAAGG AACGTGAAAA TCGAGTAATA CTGTTGATCG GCCCATCAAG CTCCCAGAAA 
TCAGAGCTCA TAGACTTTCT TTGTAATTAT TTTTATGGTG TTGAACCTAC AGATCAGAAG 
AGGTTTCATA TTGCCGATGA GAAATTCAAT CAAGAAACGC CACAAAGACC TGTGCAGTGT 
TACATTTTTA ATGAAACAGT TATGCCAGTG AGACCTGTCA TTTTGGATAT GATTGGATGC 
GGTGACACTT ATGATGGATT TGATACTCCT TCCTTGATTA ACAAATGGCT TCTGAACAAT 
TGGAAAATGC GACTTGACAC TATCGCAGTG GTATTCTCAG ATCTACACAG GATGAGCATG 
CATGAGGAAG ATGAGCTGCA GCAGGTTCCG AAACAAATTG TTGTTTCACT TCATAATTTT 
CAATTGCAGG TTCTGTCCGA CATTCCTGAA CATGTCCGTG ACAATATAGT TGTATTCATC 
ACCGCGTCAG ATGGTTCTAG AACGTTTGAG CCTTTGTTAC GGAGATTCGG TCTCTCTGAC 
TACCCAAAAT TCACTATCAA TACTGCGTGC ACATTTCAAA AACAAATGGA AGACCGACTG 
AATGACGAAC ATAGAAGACG ATACTGGAAA ATGTCAGTGA ACCAGTTCAA CACTTTTATG 
GAGAGGGTCC AGGAATCTAC GCCTGTAACT ATCTCTGGAC TTCAATTCAT CGATGATGGA 
ATCTATGGGG TTCAGGAGTC GGCACAGAAT TCGTCCAGGA ATAGTGTGTA TTCATCGAGC 
AATAGATCCA CCGTCATCGA AGTGGAGCAA AGCTCGAGAG CCCCACTATC TCAGGCACCT 
CCACCTCCAT CAACGGCCCG TCCGACGACA TCCCCTCCTC AACCCCCAGT GTCAAATCCA 
CCCACAAAAC CGTCCCCACC ACAACCGCCA CCAAAACCAA CAATTCGGCC GCCACCTCTT 
CCGGCATCTC CGCCTCCAAT ACCGCCGTCA AGTGAGCCTC CATCAGTCGG CATACCATTG 
TATAGTGAGA AGCATCAGCA ACAACTACGA TCACAAACAA CCGCCGTCTC ACCGCCAAAG 
CCTCCAAGTT TTGCGCCGCC TGTACCGCCT GATACAGCTC TAATCACTGA CACTTCGACC 
ACCACTGCTC TAACCAACGC AATGTTCCAA CAACTCAGAC AGTCTAGCAC CCAGTATGAC 
TATCCCACGC ATGGAACAGA ACGTGCCTAC TCCGCTCAAG TACCGTATGA TGTCCCTCCA 
TCCGTTCAAT CCGCCGGTGG ACTTCATGAA CGTCGGCATA GTGTACCAGA CGATATTCGT 
CATTACGCCG ACGAGACAAC TCCACCGCCT GTTTTGCACG ACGTCGCCGA CAGATACTCC 
ACAGTGGCGT ATATGAACCA CGAGTTAACC AATAACTCTA CAAGAATCTA CTCCCGTTCG 
CCGACAAGAA GTCAAGTTGG AGTTCGCGAC GCCCATCGTT TGAGTCGTGA CGATTTGAGG 
ATTGTGGACG CACACAGTAG TCCAAGTGAT TCACAATCAG AAGAACTGAG AAGAATGTAC 
TCGGGAAGAA GTGGAAATTC TGTCAAGCCC ACAGGCGATA TAACTGCGCG CTACGTTTAC 
GACACTGCTA ATCGCAATTA TACAGCATAC GGAGAGAGAC AAGAAAGACA GTCCTACACT 
TCCTTCCCAG CTGCTCCAGC AAATGATAGA AAACGGTGGT CGAGATCTTC CGAACCGCGA 
TCGGAGACTT ATATTAATGA CCCTTACTAT TCCGGTAAAG ATGTGGTTTC GGGTTACGGT 
GTAATTGAGA CAAGAAGAAG TCGTACCAGT CTTCATAGTC ACGGAAGTGT ACCAGAACTC 
ATTCACTCCG AAAACAAATA TGACTATCAG CAACTTTCAG AACAACAGAC ACGTGATTTA 
GAGAGACGAA CAAGACAAGA CACTGAGCGT CGTAGTAGAC GCCAATCAGA GGGATCTCGT 
CAAATTTACA TTGATCGCCG TATTTCCCCG GAAAGACAAC AAAAAGATAG AAACAGCGGA 
GCGTACTCAA ATGTGAACAT GCAAGATAAT CCACAGTACA ATTTGCCAAG AAGAGATGCC 
CCACCACCAC AAATTCCCCC GAAACCTGTC ATTCAGAGAG TGAGTATCTC ACTGGAAGTA 
TCGAAATCAG CTACAATTTT TCAGGTTAGC GGTGGTGAGG TATATGAAGA CGAGCGTTCT 
ATCTACGAAG CCTACAGTCA AATCCACCAC CAACGTCCTC CAACCCAACC TCATATCATT 
AGTGCAGGAA TTCAGCCACA ACCAATCCAG CCACCGCCAC AACAACAATA CCCACCACGT 
TATGACCAGG TCCCAGAGCA ATCACAAACC AACCACTATA TAATTCCTCG ACCAATGCGA 
GAATCGGGAT CCCCTATTCA AGTACGAGTG CAACTTTCAT CCAAGTCCCC CGATACTGTT 
CGACGTCAAA TCCCACTTCA AGTTGTTTCG GAACAGCAGT ATGACAACTA TGGGGAGCCA 
ATCTATGTTC CAAGAACTAT TGCTCCACGG GTTACTGAAG AAACGATAAC CACTACAACC 
ACAACAAGAA ATGAGGAAAT TGAAAGAAAA CGGAAGAAGA AGAAGGAGGA CGATGACAGA 
AAGAAACAAT CCATTGACAA TGGCAGTCAA AAAGGATATG ATCCATGTTG GTTACTAATA 
ATAAGTCAGA AAATATTCAT TTCGGTTGCA GATAATAATC GTGGAAACGT TGTCGACCAC 
AACAATGGTC ATGGACATAG TCACGAAGTG TACATTGACA AAGGAAACGC TGGAATCAAA 
GACGGATCTC AATATGATTA TGGCCGTTTT GAGAACCACC ATCGTGATGC AGAAGAGGCG 
TTGATTGAAG AGGAATACAA CACTCGTCAT TTAAAGCGAA CAGTTGAGCA ACCACAGAAA 
AAGTACCCAA AGAAAGACGA TCAGAGACAT ATTGAAGATG GATATGGTTA TCATCCACGA 
GATGATAGAA ACCAACATCA CGACAATCGT GGAAAAAGAG CAAGAGAAAC TAAACAAGTA 
ACCCAACGTC GTGCCATAGG ATGGTCTCCG TCTAACTACC GTAATCCACG TGATTGTTTC 
CTTAATCTTC TATGTTTTAT CATTGCTCCG CTAGTCATCA TACTCATCAT TGTCGTCATC 
ATAGTCTTTG TCATTATCCA ATAG