LOC108715901 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108715901
Entrez Gene ID	108715901
Full Name	bromodomain and PHD finger containing 1 S homeolog
General protein information	Preferred Names bromodomain and PHD finger containing 1 S homeolog Names peregrin-like
Gene Type	protein-coding
Organism	Xenopus laevis(African clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018261440.1	XP_018116929.1	peregrin-like

Pathways from BioSystems
Gene Ontology

The following LOC108715901 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108715901 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
OAf31163	XM_018261440.1 Latest version!	Xenopus laevis peregrin-like (LOC108715901), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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** 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)

LOC108715901 ( XM_018261440.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018116929.1 Xenopus laevis peregrin-like (LOC108715901), mRNA.

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CloneID	OAf31163
Clone ID Related Accession (Same CDS sequence)	XM_018261440.1
Accession Version	XM_018261440.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3756bp) 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	1474214400000
Organism	Xenopus laevis(African clawed frog)
Product	peregrin-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030731.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGGTG TTGACTTTGA TGTGAAGACA TTTTGCCACA ATTTGAGAGC CACAAAACCT 
CCCTATGAAT GCCCAGTGGA GACCTGCCGA AAGATCTACA AGAGCTACAG TGGGATCGAG 
TACCACTTGT ACCACTACGA TCATGACAAC CCACCTCTGC AGCAGCAGAC TCCCATCCGC 
AAATCCAAAA AGAAGGGCCG GCATCCCCGA TCTGCAAATA AGCAGTCACC GACCAACTCC 
GAAGTGTCTC AGTCTCCAAC CCGGGAGGTG ATGACGTACG CCCAGGCCCA GAGATTGGTG 
GAGGTGGAAT TACACGGGCG TTTGCATCGT ATTAGTATAT TCGACTGCTT GGATGTTGTT 
TCTGAGGACG ATGATCCACC TGAAGAAACT CCTGAAAATG GAAGCAATAA GGAAAATAAT 
GACACACCTG CAACCACTCC TAAGTCGGGA AAGCACAAAA GCAAGGATAA AAGAAAAGAC 
TCCAACCATC ATCATCACCA CAATGCCACC GCAGGAGCCA CCACAAAACT CCCAGAGGTT 
GTGTACCGAG AGCTTGAATT GAATACACCA GATGCTCCTC CACGGCCTTC TTCCTACTAC 
AGATATATTG AGAAGTCTGC AGAGGAGCTA GACGAGGAGG TGGAGTATGA TATGGATGAG 
GAAGATTACA TCTGGCTCGA TATAATGAAT GACCGAAGGA AGACGGAGGC AGTGAACCCC 
ATTCCACAAG AGATCTTTGA GTATTTAATG GACAGGTTGG AAAAGGAATC CTACTTTGAA 
AGCCATAATA AAGGGGACCC AAATGCTTTA ATTGATGAGG ATGCTGTGTG CTGCATTTGC 
AACGATGGAG AGTGTCAGAA CAGCAATGTT ATATTGTTCT GTGATATGTG TAATCTTGCT 
GTGCATCAGG AGTGCTATGG GGTTCCTTAT ATACCGGAAG GACAGTGGCT TTGTAGAAGG 
TGCCTCCAGT CACCTTCTAG GGCGGTGGAT TGTGCACTGT GCCCAAATAT GGGAGGGGCA 
TTCAAACAGA CAGATGATGG ACGCTGGGCA CACGTCGTTT GTGCCCTTTG GATTCCTGAG 
GTTTGTTTTG CAAACACAGT CTTCCTGGAA CCCATAGACA GCATTGAACA TATCCCACCT 
GCACGGTGGA AGCTGACGTG CTATATTTGC AAACAGCGAG GCTCTGGAGC TTGCATCCAG 
TGCCACAAAG CAAACTGTTA TACAGCCTTC CATGTGACAT GTGCTCAGCA GGCTGGCCTG 
TACATGAAAA TGGAACCTGT GCGAGAAACC GGTGCTAACG GTACGTCTTT TAGTGTGCGC 
AAGACTGCGT ACTGTGATAT TCACACACCT CCAGGGTCTG TTTGCAAGCT CCCTGCACTT 
TCTCATAGTG AAGCAGAGGA GGAGGATGAC GAGGAAGAAG AAGATGGCAA AGGATGGAGC 
TCTGAAAAGG TAAAAAGAGC AAAGGCCAAA TCAAGGATCA AAATGAAGAA AGCTCGAAAA 
ATCCTTGCTG AGAAGAGAGC TGCTGCCCCT GTTGTTTCTG TTCCTTGTAT CCCACCACAC 
AGACTCAGTA AGATCACAAA CTGTTTGACC GTCCCAAGGA AGAGCCAGTT TATGCAAAGG 
TTACACAGCT ACTGGACCTT AAAAAGACAG TCTCGAAATG GTGTTCCACT GCTTCGACGC 
CTGCAGACGC ACTTACAGTC TCAAAGGAAC TGTGATCAGG AGATGAAGTG GCGGATACCA 
ATTTCTGATG ACGCACCAGG TCACTTGGGT ACCATTGCCA ATTCAAATGA TGAGGCTGGA 
GACCAAACTA ACAAGAAAGA CCCCACGGAT AAGAACTGGT TGCTTAAGGA ACAATTAAAA 
TCATGGCAGA GACTTCGGCA CGACTTGGAG AGAGCTCGTC TGCTGGTAGA ATTAATACGA 
AAGCGAGAAA AGCTCAAGAG AGAGACGATT AAAGTCCAGC AAATGGCACT AGAAATGCAG 
CTGACTCCTT TTCTCATCCT CCTGAGAAAA ACGCTGGTGC TACTGCAGGA GAAAGATACA 
AGTAATATAT TCACTGAGCC GGTCCCTCTG TCTGAGGTAA CAGAAATCTA CAAAGTGCCA 
GACTATCTAG AACATGTTAA GAAGCCAATG GACTTTCAGA CCATGAAGCG TAATTTAGAG 
GCTTTCCGCT ACCAGAATTT CGACCACTTT GAGGAAGACT TCAACTTAAT TGTGAACAAC 
TGCATAAAGT ACAACACTAA AGACACTCTC TTTTACCGAG CTGCCTCACG CCTTCGGGAA 
CAGGGCGGAG CTCTCCTTCG GCAGGCCCGC AAGCAGGCAG AAAAGATTGG CATTGATTTT 
GAGACGGGTA TGCTTATACA CCCAGTCAGC ACAGGAAATG AAATTGGGCG TCATGGCAGA 
GAGAATGACT TTGAGCGTGC TCCTCTGTCT GACACCCGCA AGCAACTCCC TCTAGAGGAG 
CAGCTAAAAG TCCAGTTGGC GAGACTAGAT GAGGTGAATG CGAGCAAGCA AAGCATAGGA 
CGAGCGCGCC GGGCCAAGAT GATCCGCAAG GAGATCACGT CGATCCGTAG GAAGATGTCT 
TACCAACAAG AATCCAGAAG GGATGATGGC ATTGATCGGC ACAGCTCTGC CGGAAGAGGA 
GCCCTGCCTT TGCACGGCAC TTCAGAGAAG GATGGACAGA CGGACAGTGC TGCAGAAGAG 
AGCAGCAGTC AAGAGACGGG GAAAGGTCTT GGCCCAAACA CTTCCTCCAC CAATGCTCAT 
GAAGTTGGTA GAAGGACTTC TGTCCTTTTC TCCAAGAAGA ACCCAAAAAC GGCAGGACCA 
CCCAAGAGAC CAGGAAGGCC ACCGAAGAAC AGAGACAATC AGCTATCATC GGGGCAGATC 
AGTAGCCCAA TTGGACCCCC GCAGCTGTCT GTCACAGGGG GGTCTCAGAG ACGGAAAAGA 
GTTCGAAGCC CTCGGCCGAC TTCAAGCTCA GATAGTGACA GCGACAGTGA TAAGTCAGCA 
GAGGAACCCT CTTTAGATTT ACCTACAAAC GGTTTCAGCG GCGGCAACCA GCAAGTCAAA 
AAGAGTTTTC TAGTTTACCG GACTGACTGC AATCTTCCAC GGAGCAGCTC AGACTCTGAG 
TCCAGCACCA GCAGCAGCAG CAGTGCTGCT TCTGACAGAA CCAGCACAAC TCCTTCCAAA 
CAGGGTCGGG GAAAGACGTC TTTCTCTAGG GATAATTTCG CTGACTACAG CAGTGAGGAC 
ACGTCTGGAA CAGAGAATGA GTCCTACTCC GTTGGTGGGA GAGTTGGGCA TGGCTTGGTA 
CGCAAAGGAC TGGAAAGCCG AGGGGCAGGG TGGCTGTCTG AAGATGAAGA CTCCCCTCTT 
GAAGCATTAG ACTTGGTGTG GGCCAAGTGT CGGGGATATC CCTCTTATCC AGCTCTGATT 
ATCGATCCAA AAATGCCACG AGAAGGAGTG TTTCACCATG GCGTTCCAAT TCCTGTACCA 
CCTGTAGATG TTCTCAAATT AGGAGAACAA ATGGCTCAAG AGGCACAAGA GCATCTCTAC 
CTCGTTCTGT TTTTTGACAA CAAGCGAACC TGGCAGTGGC TTCCACGGAC AAAGTTAGTT 
CCTCTCGGCG TGAACCGCGA ACTGGATAAG GAGAAAATGC TGGAAGGGAG GAAATCAAAC 
ATCCGCAAAT CTGTGCAGAT CGCCTACGAC CGTGCCATGC AGCATCGCAA CAAAGTGCAG 
GGTGATCCAA GCAGCGAATC CAGCGAGAGC GACTAG

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

RefSeq	XP_018116929.1
CDS	606..4361
Translation	MMGVDFDVKTFCHNLRATKPPYECPVETCRKIYKSYSGIEYHLYHYDHDNPPLQQQTPIRKSKKKGRHPRSANKQSPTNSEVSQSPTREVMTYAQAQRLVEVELHGRLHRISIFDCLDVVSEDDDPPEETPENGSNKENNDTPATTPKSGKHKSKDKRKDSNHHHHHNATAGATTKLPEVVYRELELNTPDAPPRPSSYYRYIEKSAEELDEEVEYDMDEEDYIWLDIMNDRRKTEAVNPIPQEIFEYLMDRLEKESYFESHNKGDPNALIDEDAVCCICNDGECQNSNVILFCDMCNLAVHQECYGVPYIPEGQWLCRRCLQSPSRAVDCALCPNMGGAFKQTDDGRWAHVVCALWIPEVCFANTVFLEPIDSIEHIPPARWKLTCYICKQRGSGACIQCHKANCYTAFHVTCAQQAGLYMKMEPVRETGANGTSFSVRKTAYCDIHTPPGSVCKLPALSHSEAEEEDDEEEEDGKGWSSEKVKRAKAKSRIKMKKARKILAEKRAAAPVVSVPCIPPHRLSKITNCLTVPRKSQFMQRLHSYWTLKRQSRNGVPLLRRLQTHLQSQRNCDQEMKWRIPISDDAPGHLGTIANSNDEAGDQTNKKDPTDKNWLLKEQLKSWQRLRHDLERARLLVELIRKREKLKRETIKVQQMALEMQLTPFLILLRKTLVLLQEKDTSNIFTEPVPLSEVTEIYKVPDYLEHVKKPMDFQTMKRNLEAFRYQNFDHFEEDFNLIVNNCIKYNTKDTLFYRAASRLREQGGALLRQARKQAEKIGIDFETGMLIHPVSTGNEIGRHGRENDFERAPLSDTRKQLPLEEQLKVQLARLDEVNASKQSIGRARRAKMIRKEITSIRRKMSYQQESRRDDGIDRHSSAGRGALPLHGTSEKDGQTDSAAEESSSQETGKGLGPNTSSTNAHEVGRRTSVLFSKKNPKTAGPPKRPGRPPKNRDNQLSSGQISSPIGPPQLSVTGGSQRRKRVRSPRPTSSSDSDSDSDKSAEEPSLDLPTNGFSGGNQQVKKSFLVYRTDCNLPRSSSDSESSTSSSSSAASDRTSTTPSKQGRGKTSFSRDNFADYSSEDTSGTENESYSVGGRVGHGLVRKGLESRGAGWLSEDEDSPLEALDLVWAKCRGYPSYPALIIDPKMPREGVFHHGVPIPVPPVDVLKLGEQMAQEAQEHLYLVLFFDNKRTWQWLPRTKLVPLGVNRELDKEKMLEGRKSNIRKSVQIAYDRAMQHRNKVQGDPSSESSESD

Target ORF information:

RefSeq Version	XM_018261440.1
Organism	Xenopus laevis(African clawed frog)
Definition	Xenopus laevis peregrin-like (LOC108715901), mRNA.

Target ORF information:

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

XM_018261440.1

ORF Insert Sequence:

ATGATGGGTG TTGACTTTGA TGTGAAGACA TTTTGCCACA ATTTGAGAGC CACAAAACCT 
CCCTATGAAT GCCCAGTGGA GACCTGCCGA AAGATCTACA AGAGCTACAG TGGGATCGAG 
TACCACTTGT ACCACTACGA TCATGACAAC CCACCTCTGC AGCAGCAGAC TCCCATCCGC 
AAATCCAAAA AGAAGGGCCG GCATCCCCGA TCTGCAAATA AGCAGTCACC GACCAACTCC 
GAAGTGTCTC AGTCTCCAAC CCGGGAGGTG ATGACGTACG CCCAGGCCCA GAGATTGGTG 
GAGGTGGAAT TACACGGGCG TTTGCATCGT ATTAGTATAT TCGACTGCTT GGATGTTGTT 
TCTGAGGACG ATGATCCACC TGAAGAAACT CCTGAAAATG GAAGCAATAA GGAAAATAAT 
GACACACCTG CAACCACTCC TAAGTCGGGA AAGCACAAAA GCAAGGATAA AAGAAAAGAC 
TCCAACCATC ATCATCACCA CAATGCCACC GCAGGAGCCA CCACAAAACT CCCAGAGGTT 
GTGTACCGAG AGCTTGAATT GAATACACCA GATGCTCCTC CACGGCCTTC TTCCTACTAC 
AGATATATTG AGAAGTCTGC AGAGGAGCTA GACGAGGAGG TGGAGTATGA TATGGATGAG 
GAAGATTACA TCTGGCTCGA TATAATGAAT GACCGAAGGA AGACGGAGGC AGTGAACCCC 
ATTCCACAAG AGATCTTTGA GTATTTAATG GACAGGTTGG AAAAGGAATC CTACTTTGAA 
AGCCATAATA AAGGGGACCC AAATGCTTTA ATTGATGAGG ATGCTGTGTG CTGCATTTGC 
AACGATGGAG AGTGTCAGAA CAGCAATGTT ATATTGTTCT GTGATATGTG TAATCTTGCT 
GTGCATCAGG AGTGCTATGG GGTTCCTTAT ATACCGGAAG GACAGTGGCT TTGTAGAAGG 
TGCCTCCAGT CACCTTCTAG GGCGGTGGAT TGTGCACTGT GCCCAAATAT GGGAGGGGCA 
TTCAAACAGA CAGATGATGG ACGCTGGGCA CACGTCGTTT GTGCCCTTTG GATTCCTGAG 
GTTTGTTTTG CAAACACAGT CTTCCTGGAA CCCATAGACA GCATTGAACA TATCCCACCT 
GCACGGTGGA AGCTGACGTG CTATATTTGC AAACAGCGAG GCTCTGGAGC TTGCATCCAG 
TGCCACAAAG CAAACTGTTA TACAGCCTTC CATGTGACAT GTGCTCAGCA GGCTGGCCTG 
TACATGAAAA TGGAACCTGT GCGAGAAACC GGTGCTAACG GTACGTCTTT TAGTGTGCGC 
AAGACTGCGT ACTGTGATAT TCACACACCT CCAGGGTCTG TTTGCAAGCT CCCTGCACTT 
TCTCATAGTG AAGCAGAGGA GGAGGATGAC GAGGAAGAAG AAGATGGCAA AGGATGGAGC 
TCTGAAAAGG TAAAAAGAGC AAAGGCCAAA TCAAGGATCA AAATGAAGAA AGCTCGAAAA 
ATCCTTGCTG AGAAGAGAGC TGCTGCCCCT GTTGTTTCTG TTCCTTGTAT CCCACCACAC 
AGACTCAGTA AGATCACAAA CTGTTTGACC GTCCCAAGGA AGAGCCAGTT TATGCAAAGG 
TTACACAGCT ACTGGACCTT AAAAAGACAG TCTCGAAATG GTGTTCCACT GCTTCGACGC 
CTGCAGACGC ACTTACAGTC TCAAAGGAAC TGTGATCAGG AGATGAAGTG GCGGATACCA 
ATTTCTGATG ACGCACCAGG TCACTTGGGT ACCATTGCCA ATTCAAATGA TGAGGCTGGA 
GACCAAACTA ACAAGAAAGA CCCCACGGAT AAGAACTGGT TGCTTAAGGA ACAATTAAAA 
TCATGGCAGA GACTTCGGCA CGACTTGGAG AGAGCTCGTC TGCTGGTAGA ATTAATACGA 
AAGCGAGAAA AGCTCAAGAG AGAGACGATT AAAGTCCAGC AAATGGCACT AGAAATGCAG 
CTGACTCCTT TTCTCATCCT CCTGAGAAAA ACGCTGGTGC TACTGCAGGA GAAAGATACA 
AGTAATATAT TCACTGAGCC GGTCCCTCTG TCTGAGGTAA CAGAAATCTA CAAAGTGCCA 
GACTATCTAG AACATGTTAA GAAGCCAATG GACTTTCAGA CCATGAAGCG TAATTTAGAG 
GCTTTCCGCT ACCAGAATTT CGACCACTTT GAGGAAGACT TCAACTTAAT TGTGAACAAC 
TGCATAAAGT ACAACACTAA AGACACTCTC TTTTACCGAG CTGCCTCACG CCTTCGGGAA 
CAGGGCGGAG CTCTCCTTCG GCAGGCCCGC AAGCAGGCAG AAAAGATTGG CATTGATTTT 
GAGACGGGTA TGCTTATACA CCCAGTCAGC ACAGGAAATG AAATTGGGCG TCATGGCAGA 
GAGAATGACT TTGAGCGTGC TCCTCTGTCT GACACCCGCA AGCAACTCCC TCTAGAGGAG 
CAGCTAAAAG TCCAGTTGGC GAGACTAGAT GAGGTGAATG CGAGCAAGCA AAGCATAGGA 
CGAGCGCGCC GGGCCAAGAT GATCCGCAAG GAGATCACGT CGATCCGTAG GAAGATGTCT 
TACCAACAAG AATCCAGAAG GGATGATGGC ATTGATCGGC ACAGCTCTGC CGGAAGAGGA 
GCCCTGCCTT TGCACGGCAC TTCAGAGAAG GATGGACAGA CGGACAGTGC TGCAGAAGAG 
AGCAGCAGTC AAGAGACGGG GAAAGGTCTT GGCCCAAACA CTTCCTCCAC CAATGCTCAT 
GAAGTTGGTA GAAGGACTTC TGTCCTTTTC TCCAAGAAGA ACCCAAAAAC GGCAGGACCA 
CCCAAGAGAC CAGGAAGGCC ACCGAAGAAC AGAGACAATC AGCTATCATC GGGGCAGATC 
AGTAGCCCAA TTGGACCCCC GCAGCTGTCT GTCACAGGGG GGTCTCAGAG ACGGAAAAGA 
GTTCGAAGCC CTCGGCCGAC TTCAAGCTCA GATAGTGACA GCGACAGTGA TAAGTCAGCA 
GAGGAACCCT CTTTAGATTT ACCTACAAAC GGTTTCAGCG GCGGCAACCA GCAAGTCAAA 
AAGAGTTTTC TAGTTTACCG GACTGACTGC AATCTTCCAC GGAGCAGCTC AGACTCTGAG 
TCCAGCACCA GCAGCAGCAG CAGTGCTGCT TCTGACAGAA CCAGCACAAC TCCTTCCAAA 
CAGGGTCGGG GAAAGACGTC TTTCTCTAGG GATAATTTCG CTGACTACAG CAGTGAGGAC 
ACGTCTGGAA CAGAGAATGA GTCCTACTCC GTTGGTGGGA GAGTTGGGCA TGGCTTGGTA 
CGCAAAGGAC TGGAAAGCCG AGGGGCAGGG TGGCTGTCTG AAGATGAAGA CTCCCCTCTT 
GAAGCATTAG ACTTGGTGTG GGCCAAGTGT CGGGGATATC CCTCTTATCC AGCTCTGATT 
ATCGATCCAA AAATGCCACG AGAAGGAGTG TTTCACCATG GCGTTCCAAT TCCTGTACCA 
CCTGTAGATG TTCTCAAATT AGGAGAACAA ATGGCTCAAG AGGCACAAGA GCATCTCTAC 
CTCGTTCTGT TTTTTGACAA CAAGCGAACC TGGCAGTGGC TTCCACGGAC AAAGTTAGTT 
CCTCTCGGCG TGAACCGCGA ACTGGATAAG GAGAAAATGC TGGAAGGGAG GAAATCAAAC 
ATCCGCAAAT CTGTGCAGAT CGCCTACGAC CGTGCCATGC AGCATCGCAA CAAAGTGCAG 
GGTGATCCAA GCAGCGAATC CAGCGAGAGC GACTAG

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

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LOC108715901 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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