USP42 cDNA ORF clone, Pteropus alecto(black flying fox)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP42
Entrez Gene ID	102897159
Full Name	ubiquitin specific peptidase 42
Gene Type	protein-coding
Organism	Pteropus alecto(black flying fox)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006906602.2	XP_006906664.1	ubiquitin carboxyl-terminal hydrolase 42
XM_025043111.1	XP_024898879.1	LOW QUALITY PROTEIN: ubiquitin carboxyl-terminal hydrolase 42

Pathways from BioSystems
Gene Ontology

The following USP42 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP42 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
OPt08013	XM_006906602.2 Latest version!	Pteropus alecto ubiquitin specific peptidase 42 (USP42), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OPt84289	XM_025043111.1 Latest version!	Pteropus alecto ubiquitin specific peptidase 42 (USP42), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

USP42 ( XM_006906602.2 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006906664.1 Pteropus alecto ubiquitin specific peptidase 42 (USP42), mRNA.

Price & Availability↑

CloneID	OPt08013
Clone ID Related Accession (Same CDS sequence)	XM_006906602.2
Accession Version	XM_006906602.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3879bp) 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	2016-02-09
Organism	Pteropus alecto(black flying fox)
Product	ubiquitin carboxyl-terminal hydrolase 42
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006431919.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 10, 2016 this sequence version replaced XM_006906602.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus alecto Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACCATAG TTGACAAAGC TTCTGAATCT TCTGACCCAT CAACCTATCA GAATCAGCCT 
GGCAGTTCTG AGGCAGTCTC ACCTGGAGAC ATGGATGCAG GTTCTGCCAG CTGGGGTGCT 
GTGTCTTCGT TAAATGATGT TTCAAATCAT ACACTTTCTT TAGGACCAGT ACCTGGTGCT 
GTAGTTTATT CAAGTTCATC CGTACCTGAT AAATCAAAGC CATCACCACA AAAGGATCAA 
GCCCTAGGTG ATGGCATCAC TCCTCCACAA AAAGTTCTTT TCCCATCTGA GAAGATTTGT 
CTGAAGTGGC AGCAAACCCA TAGAGTCGGA GCTGGGCTCC AGAATTTGGG CAACACCTGT 
TTTGCCAACG CAGCATTACA GTGTCTAACT TACACGCCAC CTCTCGCCAA TTACATGCTG 
TCTCACGAAC ACTCCAAGAC ATGTCACGCG GAAGGATTTT GTATGATGTG TACAATGCAG 
GCGCATATCA CCCAGGCACT CAGTAATCCT GGGGATGTCA TTAAACCGAT GTTTGTCATT 
AATGAGATGC GGCGGATAGC TCGGCACTTC CGTTTCGGAA ACCAAGAAGA TGCCCACGAG 
TTCCTCCAGT ACACCGTGGA CGCCATGCAG AAGGCCTGCT TGAACGGCAG CAACAAATTA 
GACAGACACA CGCAGGCCAC CACGCTCGTC TGTCAGATAT TTGGAGGATA CCTACGGTCT 
AGAGTTAAAT GTTTAAATTG CAAAGGTGTT TCAGATACTT TTGATCCATA TCTTGACATA 
ACGTTGGAGA TAAAGGCCGC TCAGAGCGTC AACAAGGCGC TGGAGCAGTT CGTGAAGCCG 
GAGCAGCTGG ATGGAGAGAA CTCCTACAAG TGCAGCAAGT GTAAAAAGAT GGTTCCAGCC 
TCAAAGAGGT TCACTATACA CAGATCCTCC AATGTTCTTA CACTTTCTCT GAAACGTTTT 
GCAAATTTTA CTGGAGGAAA AATTGCTAAG GATGTGAAAT ATCCTGAATA TCTTGATATC 
CGACCATATA TGTCTCAACC AAACGGAGAA CCGATTATTT ATGTTTTGTA TGCAGTGCTG 
GTACACACTG GTTTTAATTG CCATGCTGGC CATTACTTCT GCTACATAAA AGCTAGCAAT 
GGCCTCTGGT ATCAGATGAA CGACTCCATC GTGTCTACCA GTGATATCAG ATCGGTACTC 
AGTCAACAAG CGTATGTTCT CTTTTATATC AGGTCCCATG ATGTGAAAAA TGGAGGTGAA 
CTGACTCATT CCGCCCACAG CCCCGGCCAG TCCTCTCCCC GACCCGTGAT CGGCCAGCGG 
GTCGTCAGCA GCAAACAGGC CGCGTCAGGG TTTATCGGAC CACAGCCTCC TCCCCACGTG 
ATGAAGAACC CCCCTCACTT AAACGGGACT GGACCATTGA AAGAGACACC GAGCAGTTCC 
ATGTCGAGTC CTAACGGGAA CTCCAGTGTC AACAGGGCTG GTCCCGTGAA CGCTTCAACC 
TCTGTTCAGA CCTGGTCAGT GAACCGGCCC TCGGTTATTC CAGAACATCC CAAGAAACAA 
AAAATCACGA TCAGTATTCA CAACAAGCTA CCTGTTCGCC AAGGCCAGTC CCAGCCTCAC 
CTGCACGGCA GTCCTCTGGA GAGCCCCAGC AAGCCCGTCC CCTCGTCCAC CGTCACCAAT 
TCCTCCACGA TACAGTCTAC CTCGAGTGCG CCTACGACGT CAGTGTCCAG TAAAGCCACA 
AAGCAAATGG CCCCAAATGA GTCCTCTTCC AAGCCAGTGA TGAATGGCAA GTCCAAGCTG 
AACTCAAGTG TCCTGGTCCC CTACGGTGCC GAGTCATCTG AAGAGTCCGA CGAGGAGGCA 
AAGGGCCTGG GCCGGGAGAA CGGTCTGGCT GCGGCCGGGA GCTCGCACCC CTCCGCTCAG 
GATGCCGAAG ACGACGCGGC CTCTCGGCTT GAGCTGCGAG AGCCTGTCAC CCTAAACGGT 
GCTAACAGTG CAGACAGCGA CCCGAAAGAA AATGGTCTGT CATTCGATGG TGCCAGTTGC 
CAAGTCCAGC CTGCTCTACA TGCAGAAAAC CCCTTTTCTA AGGCAAATGG TCTACCGGGG 
AAGCTGATGC CTGCTCCTCT GCCGCCCCTT CCAGAAGACA CGATCTTAGA GACCTTCAAA 
CTTAGCAACA AAGCGAAAGG CTCGACAGAC GAAACCAGTG CGACTGGAAC AGAGGGAAGC 
CCCGCCGAGG ACACCGGCAG GGGACCGGAG CCGGGCAGCC CGTCCCCCGA CGCCCAGGAG 
AGGCCGGAGG CGGCCACGGG GCTCAGCAGC AAACTGAAGA AGGCCGCGCC GCCCGCGGAC 
CCCGGCGCCA AACCTGCCAA AGAAGAAGGC TCGGAAAACG TTTCGGCGAA ACCCGAGGAG 
TCGTTGCCGA GTCTCCACCG TCTCTGCCAC ACCAGCCCGG GCACCATCGC GGACGGCCAC 
CCGGCCAAGC CGTGCGACCC TGGGGATTTA ACAAGCGAGC CGAGCCAAGC CGCCCAGGAT 
GTGAAAGGGA CGTCGGTCGA GAGTCCCCGG GACTCGGTAG CCATGGAAAC CACGGGGAGG 
TTGAGCCTGA GTCCCTCGTC ACATCCCGCG GGTAACAGCG AGCAGGGACC CTCCGTTCAC 
AGCAGCCGAG ACAAGTGCAC GGACGCCGAG GACCTCTCTA AAGGCGCGGG GGCATCTACA 
GACGAGCCAC CCACCGCTCA GCTCGACAAG GTCGCAGAAA GTCGTTCAGA CGGGGCCCCG 
GAACAGAGCC CCAGCGAGCC GCGCGAGGAA CAGAAGCCTG GGCCAAAAGC CCCGGACCGC 
TCTCCGGTTA AGGAAAAGAT CAGCAGCCTC CGAAAGGTGG ACCGAGGACA CTATCGCCAC 
CGGAGGGATC GCTCGTCCAG CGGGGAGCGC GCGCGGGACA GCCGCAGCAG GACGGCGGAG 
CAGCACCGGC GGCGGCACTC GTACGGCCAC CGCCACTCTC GGAGCAGGGG CGGGTCGGAC 
CAGGACTGGG CCCGGCACCA CCCCCCGGAG GGCGAGCACT CCTGGGGCCG GGAGAAGTAC 
TACCCCGAGA AGACGCGGTG GGACCGGTGC CGGTATTACC ACGACAGGTA CGCCCCGTAC 
GCGGCCAGGG AGCTGCGGCA CTGGAAGCCT TTCCACGGGG ACAGGGACTG CGACCGCGCG 
GCCCAGCACG GCGGCCGGCC CTACAAGGAC TACTACAAAG GCAGGAAGGG GTGCGAGCTG 
GTCGTGAAAG AGAAGGAGGG GCCCCATTTC GGCAGCCCCC GCGGGGCCCC GCCCCACGCC 
CCGCCTCTCT ACCCCGACAA GTACTCCCAC GGCAAGATGG CACTTGGGGC TGAAGACAGC 
TGTCACCTCG CTGATCGGTT TCACGGGCAC GAAAGTATAA AGCCGCGGAA GCGGAGGTAC 
GATAGCATGG AGCATAGTGA CAGTTACGCA GAAAAGAATG CGTGGAGGAG CTTGCAGAGG 
GAGCCTTTAG ACGAGCCGAA GGCGAAGAAG CACAAGAAAT CAAAGAAGAA AAAGAAATCC 
AAAGACAAAC ACCGAGAGCG AGACTCCAGG CATCAGCAGG ATTCAGACCT TTCGGCAGCA 
TACTCTGATG CTGACCTCCA CAGACACAAA AAAAAGAAAA AGAAAAAGAA GAGACACTCA 
AGGAAATCAG AGGACTTTGG TAAAGACTCA GAACTGCACT TACCCAAGGC CGCCAGCTCT 
GAGACTGTGG ACCATTTCCG GAGAACTGAC GGCGGCTTTC CCCTCACCGA TGGCCTGCCT 
CTGGAAGGCG TTGGACCTTT CCGTGAGAAA ACAAAATATT TAAGGATGGA AAGCAGAAAT 
GACAGGTGTC ATCTGCCTGA GTGTGGCCAG GGTGATTGA

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

RefSeq	XP_006906664.1
CDS	438..4316
Translation	MTIVDKASESSDPSTYQNQPGSSEAVSPGDMDAGSASWGAVSSLNDVSNHTLSLGPVPGAVVYSSSSVPDKSKPSPQKDQALGDGITPPQKVLFPSEKICLKWQQTHRVGAGLQNLGNTCFANAALQCLTYTPPLANYMLSHEHSKTCHAEGFCMMCTMQAHITQALSNPGDVIKPMFVINEMRRIARHFRFGNQEDAHEFLQYTVDAMQKACLNGSNKLDRHTQATTLVCQIFGGYLRSRVKCLNCKGVSDTFDPYLDITLEIKAAQSVNKALEQFVKPEQLDGENSYKCSKCKKMVPASKRFTIHRSSNVLTLSLKRFANFTGGKIAKDVKYPEYLDIRPYMSQPNGEPIIYVLYAVLVHTGFNCHAGHYFCYIKASNGLWYQMNDSIVSTSDIRSVLSQQAYVLFYIRSHDVKNGGELTHSAHSPGQSSPRPVIGQRVVSSKQAASGFIGPQPPPHVMKNPPHLNGTGPLKETPSSSMSSPNGNSSVNRAGPVNASTSVQTWSVNRPSVIPEHPKKQKITISIHNKLPVRQGQSQPHLHGSPLESPSKPVPSSTVTNSSTIQSTSSAPTTSVSSKATKQMAPNESSSKPVMNGKSKLNSSVLVPYGAESSEESDEEAKGLGRENGLAAAGSSHPSAQDAEDDAASRLELREPVTLNGANSADSDPKENGLSFDGASCQVQPALHAENPFSKANGLPGKLMPAPLPPLPEDTILETFKLSNKAKGSTDETSATGTEGSPAEDTGRGPEPGSPSPDAQERPEAATGLSSKLKKAAPPADPGAKPAKEEGSENVSAKPEESLPSLHRLCHTSPGTIADGHPAKPCDPGDLTSEPSQAAQDVKGTSVESPRDSVAMETTGRLSLSPSSHPAGNSEQGPSVHSSRDKCTDAEDLSKGAGASTDEPPTAQLDKVAESRSDGAPEQSPSEPREEQKPGPKAPDRSPVKEKISSLRKVDRGHYRHRRDRSSSGERARDSRSRTAEQHRRRHSYGHRHSRSRGGSDQDWARHHPPEGEHSWGREKYYPEKTRWDRCRYYHDRYAPYAARELRHWKPFHGDRDCDRAAQHGGRPYKDYYKGRKGCELVVKEKEGPHFGSPRGAPPHAPPLYPDKYSHGKMALGAEDSCHLADRFHGHESIKPRKRRYDSMEHSDSYAEKNAWRSLQREPLDEPKAKKHKKSKKKKKSKDKHRERDSRHQQDSDLSAAYSDADLHRHKKKKKKKKRHSRKSEDFGKDSELHLPKAASSETVDHFRRTDGGFPLTDGLPLEGVGPFREKTKYLRMESRNDRCHLPECGQGD

Target ORF information:

RefSeq Version	XM_006906602.2
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto ubiquitin specific peptidase 42 (USP42), mRNA.

Target ORF information:

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

XM_006906602.2

ORF Insert Sequence:

ATGACCATAG TTGACAAAGC TTCTGAATCT TCTGACCCAT CAACCTATCA GAATCAGCCT 
GGCAGTTCTG AGGCAGTCTC ACCTGGAGAC ATGGATGCAG GTTCTGCCAG CTGGGGTGCT 
GTGTCTTCGT TAAATGATGT TTCAAATCAT ACACTTTCTT TAGGACCAGT ACCTGGTGCT 
GTAGTTTATT CAAGTTCATC CGTACCTGAT AAATCAAAGC CATCACCACA AAAGGATCAA 
GCCCTAGGTG ATGGCATCAC TCCTCCACAA AAAGTTCTTT TCCCATCTGA GAAGATTTGT 
CTGAAGTGGC AGCAAACCCA TAGAGTCGGA GCTGGGCTCC AGAATTTGGG CAACACCTGT 
TTTGCCAACG CAGCATTACA GTGTCTAACT TACACGCCAC CTCTCGCCAA TTACATGCTG 
TCTCACGAAC ACTCCAAGAC ATGTCACGCG GAAGGATTTT GTATGATGTG TACAATGCAG 
GCGCATATCA CCCAGGCACT CAGTAATCCT GGGGATGTCA TTAAACCGAT GTTTGTCATT 
AATGAGATGC GGCGGATAGC TCGGCACTTC CGTTTCGGAA ACCAAGAAGA TGCCCACGAG 
TTCCTCCAGT ACACCGTGGA CGCCATGCAG AAGGCCTGCT TGAACGGCAG CAACAAATTA 
GACAGACACA CGCAGGCCAC CACGCTCGTC TGTCAGATAT TTGGAGGATA CCTACGGTCT 
AGAGTTAAAT GTTTAAATTG CAAAGGTGTT TCAGATACTT TTGATCCATA TCTTGACATA 
ACGTTGGAGA TAAAGGCCGC TCAGAGCGTC AACAAGGCGC TGGAGCAGTT CGTGAAGCCG 
GAGCAGCTGG ATGGAGAGAA CTCCTACAAG TGCAGCAAGT GTAAAAAGAT GGTTCCAGCC 
TCAAAGAGGT TCACTATACA CAGATCCTCC AATGTTCTTA CACTTTCTCT GAAACGTTTT 
GCAAATTTTA CTGGAGGAAA AATTGCTAAG GATGTGAAAT ATCCTGAATA TCTTGATATC 
CGACCATATA TGTCTCAACC AAACGGAGAA CCGATTATTT ATGTTTTGTA TGCAGTGCTG 
GTACACACTG GTTTTAATTG CCATGCTGGC CATTACTTCT GCTACATAAA AGCTAGCAAT 
GGCCTCTGGT ATCAGATGAA CGACTCCATC GTGTCTACCA GTGATATCAG ATCGGTACTC 
AGTCAACAAG CGTATGTTCT CTTTTATATC AGGTCCCATG ATGTGAAAAA TGGAGGTGAA 
CTGACTCATT CCGCCCACAG CCCCGGCCAG TCCTCTCCCC GACCCGTGAT CGGCCAGCGG 
GTCGTCAGCA GCAAACAGGC CGCGTCAGGG TTTATCGGAC CACAGCCTCC TCCCCACGTG 
ATGAAGAACC CCCCTCACTT AAACGGGACT GGACCATTGA AAGAGACACC GAGCAGTTCC 
ATGTCGAGTC CTAACGGGAA CTCCAGTGTC AACAGGGCTG GTCCCGTGAA CGCTTCAACC 
TCTGTTCAGA CCTGGTCAGT GAACCGGCCC TCGGTTATTC CAGAACATCC CAAGAAACAA 
AAAATCACGA TCAGTATTCA CAACAAGCTA CCTGTTCGCC AAGGCCAGTC CCAGCCTCAC 
CTGCACGGCA GTCCTCTGGA GAGCCCCAGC AAGCCCGTCC CCTCGTCCAC CGTCACCAAT 
TCCTCCACGA TACAGTCTAC CTCGAGTGCG CCTACGACGT CAGTGTCCAG TAAAGCCACA 
AAGCAAATGG CCCCAAATGA GTCCTCTTCC AAGCCAGTGA TGAATGGCAA GTCCAAGCTG 
AACTCAAGTG TCCTGGTCCC CTACGGTGCC GAGTCATCTG AAGAGTCCGA CGAGGAGGCA 
AAGGGCCTGG GCCGGGAGAA CGGTCTGGCT GCGGCCGGGA GCTCGCACCC CTCCGCTCAG 
GATGCCGAAG ACGACGCGGC CTCTCGGCTT GAGCTGCGAG AGCCTGTCAC CCTAAACGGT 
GCTAACAGTG CAGACAGCGA CCCGAAAGAA AATGGTCTGT CATTCGATGG TGCCAGTTGC 
CAAGTCCAGC CTGCTCTACA TGCAGAAAAC CCCTTTTCTA AGGCAAATGG TCTACCGGGG 
AAGCTGATGC CTGCTCCTCT GCCGCCCCTT CCAGAAGACA CGATCTTAGA GACCTTCAAA 
CTTAGCAACA AAGCGAAAGG CTCGACAGAC GAAACCAGTG CGACTGGAAC AGAGGGAAGC 
CCCGCCGAGG ACACCGGCAG GGGACCGGAG CCGGGCAGCC CGTCCCCCGA CGCCCAGGAG 
AGGCCGGAGG CGGCCACGGG GCTCAGCAGC AAACTGAAGA AGGCCGCGCC GCCCGCGGAC 
CCCGGCGCCA AACCTGCCAA AGAAGAAGGC TCGGAAAACG TTTCGGCGAA ACCCGAGGAG 
TCGTTGCCGA GTCTCCACCG TCTCTGCCAC ACCAGCCCGG GCACCATCGC GGACGGCCAC 
CCGGCCAAGC CGTGCGACCC TGGGGATTTA ACAAGCGAGC CGAGCCAAGC CGCCCAGGAT 
GTGAAAGGGA CGTCGGTCGA GAGTCCCCGG GACTCGGTAG CCATGGAAAC CACGGGGAGG 
TTGAGCCTGA GTCCCTCGTC ACATCCCGCG GGTAACAGCG AGCAGGGACC CTCCGTTCAC 
AGCAGCCGAG ACAAGTGCAC GGACGCCGAG GACCTCTCTA AAGGCGCGGG GGCATCTACA 
GACGAGCCAC CCACCGCTCA GCTCGACAAG GTCGCAGAAA GTCGTTCAGA CGGGGCCCCG 
GAACAGAGCC CCAGCGAGCC GCGCGAGGAA CAGAAGCCTG GGCCAAAAGC CCCGGACCGC 
TCTCCGGTTA AGGAAAAGAT CAGCAGCCTC CGAAAGGTGG ACCGAGGACA CTATCGCCAC 
CGGAGGGATC GCTCGTCCAG CGGGGAGCGC GCGCGGGACA GCCGCAGCAG GACGGCGGAG 
CAGCACCGGC GGCGGCACTC GTACGGCCAC CGCCACTCTC GGAGCAGGGG CGGGTCGGAC 
CAGGACTGGG CCCGGCACCA CCCCCCGGAG GGCGAGCACT CCTGGGGCCG GGAGAAGTAC 
TACCCCGAGA AGACGCGGTG GGACCGGTGC CGGTATTACC ACGACAGGTA CGCCCCGTAC 
GCGGCCAGGG AGCTGCGGCA CTGGAAGCCT TTCCACGGGG ACAGGGACTG CGACCGCGCG 
GCCCAGCACG GCGGCCGGCC CTACAAGGAC TACTACAAAG GCAGGAAGGG GTGCGAGCTG 
GTCGTGAAAG AGAAGGAGGG GCCCCATTTC GGCAGCCCCC GCGGGGCCCC GCCCCACGCC 
CCGCCTCTCT ACCCCGACAA GTACTCCCAC GGCAAGATGG CACTTGGGGC TGAAGACAGC 
TGTCACCTCG CTGATCGGTT TCACGGGCAC GAAAGTATAA AGCCGCGGAA GCGGAGGTAC 
GATAGCATGG AGCATAGTGA CAGTTACGCA GAAAAGAATG CGTGGAGGAG CTTGCAGAGG 
GAGCCTTTAG ACGAGCCGAA GGCGAAGAAG CACAAGAAAT CAAAGAAGAA AAAGAAATCC 
AAAGACAAAC ACCGAGAGCG AGACTCCAGG CATCAGCAGG ATTCAGACCT TTCGGCAGCA 
TACTCTGATG CTGACCTCCA CAGACACAAA AAAAAGAAAA AGAAAAAGAA GAGACACTCA 
AGGAAATCAG AGGACTTTGG TAAAGACTCA GAACTGCACT TACCCAAGGC CGCCAGCTCT 
GAGACTGTGG ACCATTTCCG GAGAACTGAC GGCGGCTTTC CCCTCACCGA TGGCCTGCCT 
CTGGAAGGCG TTGGACCTTT CCGTGAGAAA ACAAAATATT TAAGGATGGA AAGCAGAAAT 
GACAGGTGTC ATCTGCCTGA GTGTGGCCAG GGTGATTGA

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

USP42 ( XM_025043111.1 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_024898879.1 Pteropus alecto ubiquitin specific peptidase 42 (USP42), mRNA.

Price & Availability↑

CloneID	OPt84289
Clone ID Related Accession (Same CDS sequence)	XM_025043111.1
Accession Version	XM_025043111.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3996bp) 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	2018-05-06
Organism	Pteropus alecto(black flying fox)
Product	LOW QUALITY PROTEIN: ubiquitin carboxyl-terminal hydrolase 42
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006431919.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGACCATAG TTGACAAAGC TTCTGAATCT TCTGACCCAT CAACCTATCA GAATCAGCCT 
GGCAGTTCTG AGGCAGTCTC ACCTGGAGAC ATGGATGCAG GTTCTGCCAG CTGGGGTGCT 
GTGTCTTCGT TAAATGATGT TTCAAATCAT ACACTTTCTT TAGGACCAGT ACCTGGTGCT 
GTAGTTTATT CAAGTTCATC CGTACCTGAT AAATCAAAGC CATCACCACA AAAGGATCAA 
GCCCTAGGTG ATGGCATCAC TCCTCCACAA AAAGTTCTTT TCCCATCTGA GAAGATTTGT 
CTGAAGTGGC AGCAAACCCA TAGAGTCGGA GCTGGGCTCC AGAATTTGGG CAACACCTGT 
TTTGCCAACG CAGCATTACA GTGTCTAACT TACACGCCAC CTCTCGCCAA TTACATGCTG 
TCTCACGAAC ACTCCAAGAC ATGTCACGCG GAAGGATTTT GTATGATGTG TACAATGCAG 
GCGCATATCA CCCAGGCACT CAGTAATCCT GGGGATGTCA TTAAACCGAT GTTTGTCATT 
AATGAGATGC GGCGGATAGC TCGGCACTTC CGTTTCGGAA ACCAAGAAGA TGCCCACGAG 
TTCCTCCAGT ACACCGTGGA CGCCATGCAG AAGGCCTGCT TGAACGGCAG CAACAAATTA 
GACAGACACA CGCAGGCCAC CACGCTCGTC TGTCAGATAT TTGGAGGATA CCTACGGTCT 
AGAGTTAAAT GTTTAAATTG CAAAGGTGTT TCAGATACTT TTGATCCATA TCTTGACATA 
ACGTTGGAGA TAAAGGCCGC TCAGAGCGTC AACAAGGCGC TGGAGCAGTT CGTGAAGCCG 
GAGCAGCTGG ATGGAGAGAA CTCCTACAAG TGCAGCAAGT GTAAAAAGAT GGTTCCAGCC 
TCAAAGAGGT TCACTATACA CAGATCCTCC AATGTTCTTA CACTTTCTCT GAAACGTTTT 
GCAAATTTTA CTGGAGGAAA AATTGCTAAG GATGTGAAAT ATCCTGAATA TCTTGATATC 
CGACCATATA TGTCTCAACC AAACGGAGAA CCGATTATTT ATGTTTTGTA TGCAGTGCTG 
GTACACACTG GTTTTAATTG CCATGCTGGC CATTACTTCT GCTACATAAA AGCTAGCAAT 
GGCCTCTGGT ATCAGATGAA CGACTCCATC GTGTCTACCA GTGATATCAG ATCGGTACTC 
AGTCAACAAG CGTATGTTCT CTTTTATATC AGGTCCCATG ATGTGAAAAA TGGAGGTGAA 
CTGACTCATT CCGCCCACAG CCCCGGCCAG TCCTCTCCCC GACCCGTGAT CGGCCAGCGG 
GTCGTCAGCA GCAAACAGGC CGCGTCAGGG TTTATCGGAC CACAGCCTCC TCCCCACGTG 
ATGAAGAACC CCCCTCACTT AAACGGGACT GGACCATTGA AAGAGACACC GAGCAGTTCC 
ATGTCGAGTC CTAACGGGAA CTCCAGTGTC AACAGGGCTG GTCCCGTGAA CGCTTCAACC 
TCTGTTCAGA CCTGGTCAGT GAACCGGCCC TCGGTTATTC CAGAACATCC CAAGAAACAA 
AAAATCACGA TCAGTATTCA CAACAAGCTA CCTGTTCGCC AAGGCCAGTC CCAGCCTCAC 
CTGCACGGCA GTCCTCTGGA GAGCCCCAGC AAGCCCGTCC CCTCGTCCAC CGTCACCAAT 
TCCTCCACGA TACAGTCTAC CTCGAGTGCG CCTACGACGT CAGTGTCCAG TAAAGCCACA 
AAGCAAATGG CCCCAAATGA GTCCTCTTCC AAGCCAGTGA TGAATGGCAA GTCCAAGCTG 
AACTCAAGTG TCCTGGTCCC CTACGGTGCC GAGTCATCTG AAGAGTCCGA CGAGGAGGCA 
AAGGGCCTGG GCCGGGAGAA CGGTCTGGCT GCGGCCGGGA GCTCGCACCC CTCCGCTCAG 
GATGCCGAAG ACGACGCGGC CTCTCGGCTT GAGCTGCGAG AGCCTGTCAC CCTAAACGGT 
GCTAACAGTG CAGACAGCGA CCCGAAAGAA AATGGTCTGT CATTCGATGG TGCCAGTTGC 
CAAGTCCAGC CTGCTCTACA TGCAGAAAAC CCCTTTTCTA AGGCAAATGG TCTACCGGGG 
AAGCTGATGC CTGCTCCTCT GCCGCCCCTT CCAGAAGACA CGATCTTAGA GACCTTCAAA 
CTTAGCAACA AAGCGAAAGG CTCGACAGAC GAAACCAGTG CGACTGGAAC AGAGGGAAGC 
CCCGCCGAGG ACACCGGCAG GGGACCGGAG CCGGGCAGCC CGTCCCCCGA CGCCCAGGAG 
AGGCCGGAGG CGGCCACGGG GCTCAGCAGC AAACTGAAGA AGGCCGCGCC GCCCGCGGAC 
CCCGGCGCCA AACCTGCCAA AGAAGAAGGC TCGGAAAACG TTTCGGCGAA ACCCGAGGAG 
TCGTTGCCGA GTCTCCACCG TCTCTGCCAC ACCAGCCCGG GCACCATCGC GGACGGCCAC 
CCGGCCAAGC CGTGCGACCC TGGGGATTTA ACAAGCGAGC CGAGCCAAGC CGCCCAGGAT 
GTGAAAGGGA CGTCGGTCGA GAGTCCCCGG GACTCGGTAG CCATGGAAAC CACGGGGAGG 
TTGAGCCTGA GTCCCTCGTC ACATCCCGCG GGTAACAGCG AGCAGGGACC CTCCGTTCAC 
AGCAGCCGAG ACAAGTGCAC GGACGCCGAG GACCTCTCTA AAGGCGCGGG GGCATCTACA 
GACGAGCCAC CCACCGCTCA GCTCGACAAG GTCGCAGAAA GTCGTTCAGA CGGGGCCCCG 
GAACAGAGCC CCAGCGAGCC GCGCGAGGAA CAGAAGCCTG GGCCAAAAGC CCCGGACCGC 
TCTCCGGTTA AGGAAAAGAT CAGCAGCCTC CGAAAGGTGG ACCGAGGACA CTATCGCCAC 
CGGAGGGATC GCTCGTCCAG CGGGGAGCGC GCGCGGGACA GCCGCAGCAG GACGGCGGAG 
CAGCACCGGC GGCGGCACTC GTACNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNCCGGTA CGGCCACCGC CACTCTCGGA GCAGGGGCGG GTCGGACCAG 
GACTGGGCCC GGCACCACCC CCCGGAGGGC GAGCACTCCT GGGGCCGGGA GAAGTACTAC 
CCCGAGAAGA CGCGGTGGGA CCGGTGCCGG TATTACCACG ACAGGTACGC CCCGTACGCG 
GCCAGGGAGC TGCGGCACTG GAAGCCTTTC CACGGGGACA GGGACTGCGA CCGCGCGGCC 
CAGCACGGCG GCCGGCCCTA CAAGGACTAC TACAAAGGCA GGAAGGGGTG CGAGCTGGTC 
GTGAAAGAGA AGGAGGGGCC CCATTTCGGC AGCCCCCGCG GGGCCCCGCC CCACGCCCCG 
CCTCTCTACC CCGACAAGTA CTCCCACGGC AAGATGGCAC TTGGGGCTGA AGACAGCTGT 
CACCTCGCTG ATCGGTTTCA CGGGCACGAA AGTATAAAGC CGCGGAAGCG GAGGTACGAT 
AGCATGGAGC ATAGTGACAG TTACGCAGAA AAGAATGCGT GGAGGAGCTT GCAGAGGGAG 
CCTTTAGACG AGCCGAAGGC GAAGAAGCAC AAGAAATCAA AGAAGAAAAA GAAATCCAAA 
GACAAACACC GAGAGCGAGA CTCCAGGCAT CAGCAGGATT CAGACCTTTC GGCAGCATAC 
TCTGATGCTG ACCTCCACAG ACACAAAAAA AAGAAAAAGA AAAAGAAGAG ACACTCAAGG 
AAATCAGAGG ACTTTGGTAA AGACTCAGAA CTGCACTTAC CCAAGGCCGC CAGCTCTGAG 
ACTGTGGACC ATTTCCGGAG AACTGACGGC GGCTTTCCCC TCACCGATGG CCTGCCTCTG 
GAAGGCGTTG GACCTTTCCG TGAGAAAACA AAATATTTAA GGATGGAAAG CAGAAATGAC 
AGGTGTCATC TGCCTGAGTG TGGCCAGGGT GATTGA

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

RefSeq	XP_024898879.1
CDS	3225..7220
Translation	MTIVDKASESSDPSTYQNQPGSSEAVSPGDMDAGSASWGAVSSLNDVSNHTLSLGPVPGAVVYSSSSVPDKSKPSPQKDQALGDGITPPQKVLFPSEKICLKWQQTHRVGAGLQNLGNTCFANAALQCLTYTPPLANYMLSHEHSKTCHAEGFCMMCTMQAHITQALSNPGDVIKPMFVINEMRRIARHFRFGNQEDAHEFLQYTVDAMQKACLNGSNKLDRHTQATTLVCQIFGGYLRSRVKCLNCKGVSDTFDPYLDITLEIKAAQSVNKALEQFVKPEQLDGENSYKCSKCKKMVPASKRFTIHRSSNVLTLSLKRFANFTGGKIAKDVKYPEYLDIRPYMSQPNGEPIIYVLYAVLVHTGFNCHAGHYFCYIKASNGLWYQMNDSIVSTSDIRSVLSQQAYVLFYIRSHDVKNGGELTHSAHSPGQSSPRPVIGQRVVSSKQAASGFIGPQPPPHVMKNPPHLNGTGPLKETPSSSMSSPNGNSSVNRAGPVNASTSVQTWSVNRPSVIPEHPKKQKITISIHNKLPVRQGQSQPHLHGSPLESPSKPVPSSTVTNSSTIQSTSSAPTTSVSSKATKQMAPNESSSKPVMNGKSKLNSSVLVPYGAESSEESDEEAKGLGRENGLAAAGSSHPSAQDAEDDAASRLELREPVTLNGANSADSDPKENGLSFDGASCQVQPALHAENPFSKANGLPGKLMPAPLPPLPEDTILETFKLSNKAKGSTDETSATGTEGSPAEDTGRGPEPGSPSPDAQERPEAATGLSSKLKKAAPPADPGAKPAKEEGSENVSAKPEESLPSLHRLCHTSPGTIADGHPAKPCDPGDLTSEPSQAAQDVKGTSVESPRDSVAMETTGRLSLSPSSHPAGNSEQGPSVHSSRDKCTDAEDLSKGAGASTDEPPTAQLDKVAESRSDGAPEQSPSEPREEQKPGPKAPDRSPVKEKISSLRKVDRGHYRHRRDRSSSGERARDSRSRTAEQHRRRHSYnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullnullRYGHRHSRSRGGSDQDWARHHPPEGEHSWGREKYYPEKTRWDRCRYYHDRYAPYAARELRHWKPFHGDRDCDRAAQHGGRPYKDYYKGRKGCELVVKEKEGPHFGSPRGAPPHAPPLYPDKYSHGKMALGAEDSCHLADRFHGHESIKPRKRRYDSMEHSDSYAEKNAWRSLQREPLDEPKAKKHKKSKKKKKSKDKHRERDSRHQQDSDLSAAYSDADLHRHKKKKKKKKRHSRKSEDFGKDSELHLPKAASSETVDHFRRTDGGFPLTDGLPLEGVGPFREKTKYLRMESRNDRCHLPECGQGD

Target ORF information:

RefSeq Version	XM_025043111.1
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto ubiquitin specific peptidase 42 (USP42), mRNA.

Target ORF information:

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

XM_025043111.1

ORF Insert Sequence:

ATGACCATAG TTGACAAAGC TTCTGAATCT TCTGACCCAT CAACCTATCA GAATCAGCCT 
GGCAGTTCTG AGGCAGTCTC ACCTGGAGAC ATGGATGCAG GTTCTGCCAG CTGGGGTGCT 
GTGTCTTCGT TAAATGATGT TTCAAATCAT ACACTTTCTT TAGGACCAGT ACCTGGTGCT 
GTAGTTTATT CAAGTTCATC CGTACCTGAT AAATCAAAGC CATCACCACA AAAGGATCAA 
GCCCTAGGTG ATGGCATCAC TCCTCCACAA AAAGTTCTTT TCCCATCTGA GAAGATTTGT 
CTGAAGTGGC AGCAAACCCA TAGAGTCGGA GCTGGGCTCC AGAATTTGGG CAACACCTGT 
TTTGCCAACG CAGCATTACA GTGTCTAACT TACACGCCAC CTCTCGCCAA TTACATGCTG 
TCTCACGAAC ACTCCAAGAC ATGTCACGCG GAAGGATTTT GTATGATGTG TACAATGCAG 
GCGCATATCA CCCAGGCACT CAGTAATCCT GGGGATGTCA TTAAACCGAT GTTTGTCATT 
AATGAGATGC GGCGGATAGC TCGGCACTTC CGTTTCGGAA ACCAAGAAGA TGCCCACGAG 
TTCCTCCAGT ACACCGTGGA CGCCATGCAG AAGGCCTGCT TGAACGGCAG CAACAAATTA 
GACAGACACA CGCAGGCCAC CACGCTCGTC TGTCAGATAT TTGGAGGATA CCTACGGTCT 
AGAGTTAAAT GTTTAAATTG CAAAGGTGTT TCAGATACTT TTGATCCATA TCTTGACATA 
ACGTTGGAGA TAAAGGCCGC TCAGAGCGTC AACAAGGCGC TGGAGCAGTT CGTGAAGCCG 
GAGCAGCTGG ATGGAGAGAA CTCCTACAAG TGCAGCAAGT GTAAAAAGAT GGTTCCAGCC 
TCAAAGAGGT TCACTATACA CAGATCCTCC AATGTTCTTA CACTTTCTCT GAAACGTTTT 
GCAAATTTTA CTGGAGGAAA AATTGCTAAG GATGTGAAAT ATCCTGAATA TCTTGATATC 
CGACCATATA TGTCTCAACC AAACGGAGAA CCGATTATTT ATGTTTTGTA TGCAGTGCTG 
GTACACACTG GTTTTAATTG CCATGCTGGC CATTACTTCT GCTACATAAA AGCTAGCAAT 
GGCCTCTGGT ATCAGATGAA CGACTCCATC GTGTCTACCA GTGATATCAG ATCGGTACTC 
AGTCAACAAG CGTATGTTCT CTTTTATATC AGGTCCCATG ATGTGAAAAA TGGAGGTGAA 
CTGACTCATT CCGCCCACAG CCCCGGCCAG TCCTCTCCCC GACCCGTGAT CGGCCAGCGG 
GTCGTCAGCA GCAAACAGGC CGCGTCAGGG TTTATCGGAC CACAGCCTCC TCCCCACGTG 
ATGAAGAACC CCCCTCACTT AAACGGGACT GGACCATTGA AAGAGACACC GAGCAGTTCC 
ATGTCGAGTC CTAACGGGAA CTCCAGTGTC AACAGGGCTG GTCCCGTGAA CGCTTCAACC 
TCTGTTCAGA CCTGGTCAGT GAACCGGCCC TCGGTTATTC CAGAACATCC CAAGAAACAA 
AAAATCACGA TCAGTATTCA CAACAAGCTA CCTGTTCGCC AAGGCCAGTC CCAGCCTCAC 
CTGCACGGCA GTCCTCTGGA GAGCCCCAGC AAGCCCGTCC CCTCGTCCAC CGTCACCAAT 
TCCTCCACGA TACAGTCTAC CTCGAGTGCG CCTACGACGT CAGTGTCCAG TAAAGCCACA 
AAGCAAATGG CCCCAAATGA GTCCTCTTCC AAGCCAGTGA TGAATGGCAA GTCCAAGCTG 
AACTCAAGTG TCCTGGTCCC CTACGGTGCC GAGTCATCTG AAGAGTCCGA CGAGGAGGCA 
AAGGGCCTGG GCCGGGAGAA CGGTCTGGCT GCGGCCGGGA GCTCGCACCC CTCCGCTCAG 
GATGCCGAAG ACGACGCGGC CTCTCGGCTT GAGCTGCGAG AGCCTGTCAC CCTAAACGGT 
GCTAACAGTG CAGACAGCGA CCCGAAAGAA AATGGTCTGT CATTCGATGG TGCCAGTTGC 
CAAGTCCAGC CTGCTCTACA TGCAGAAAAC CCCTTTTCTA AGGCAAATGG TCTACCGGGG 
AAGCTGATGC CTGCTCCTCT GCCGCCCCTT CCAGAAGACA CGATCTTAGA GACCTTCAAA 
CTTAGCAACA AAGCGAAAGG CTCGACAGAC GAAACCAGTG CGACTGGAAC AGAGGGAAGC 
CCCGCCGAGG ACACCGGCAG GGGACCGGAG CCGGGCAGCC CGTCCCCCGA CGCCCAGGAG 
AGGCCGGAGG CGGCCACGGG GCTCAGCAGC AAACTGAAGA AGGCCGCGCC GCCCGCGGAC 
CCCGGCGCCA AACCTGCCAA AGAAGAAGGC TCGGAAAACG TTTCGGCGAA ACCCGAGGAG 
TCGTTGCCGA GTCTCCACCG TCTCTGCCAC ACCAGCCCGG GCACCATCGC GGACGGCCAC 
CCGGCCAAGC CGTGCGACCC TGGGGATTTA ACAAGCGAGC CGAGCCAAGC CGCCCAGGAT 
GTGAAAGGGA CGTCGGTCGA GAGTCCCCGG GACTCGGTAG CCATGGAAAC CACGGGGAGG 
TTGAGCCTGA GTCCCTCGTC ACATCCCGCG GGTAACAGCG AGCAGGGACC CTCCGTTCAC 
AGCAGCCGAG ACAAGTGCAC GGACGCCGAG GACCTCTCTA AAGGCGCGGG GGCATCTACA 
GACGAGCCAC CCACCGCTCA GCTCGACAAG GTCGCAGAAA GTCGTTCAGA CGGGGCCCCG 
GAACAGAGCC CCAGCGAGCC GCGCGAGGAA CAGAAGCCTG GGCCAAAAGC CCCGGACCGC 
TCTCCGGTTA AGGAAAAGAT CAGCAGCCTC CGAAAGGTGG ACCGAGGACA CTATCGCCAC 
CGGAGGGATC GCTCGTCCAG CGGGGAGCGC GCGCGGGACA GCCGCAGCAG GACGGCGGAG 
CAGCACCGGC GGCGGCACTC GTACNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN 
NNNNNNNNNN NNNNCCGGTA CGGCCACCGC CACTCTCGGA GCAGGGGCGG GTCGGACCAG 
GACTGGGCCC GGCACCACCC CCCGGAGGGC GAGCACTCCT GGGGCCGGGA GAAGTACTAC 
CCCGAGAAGA CGCGGTGGGA CCGGTGCCGG TATTACCACG ACAGGTACGC CCCGTACGCG 
GCCAGGGAGC TGCGGCACTG GAAGCCTTTC CACGGGGACA GGGACTGCGA CCGCGCGGCC 
CAGCACGGCG GCCGGCCCTA CAAGGACTAC TACAAAGGCA GGAAGGGGTG CGAGCTGGTC 
GTGAAAGAGA AGGAGGGGCC CCATTTCGGC AGCCCCCGCG GGGCCCCGCC CCACGCCCCG 
CCTCTCTACC CCGACAAGTA CTCCCACGGC AAGATGGCAC TTGGGGCTGA AGACAGCTGT 
CACCTCGCTG ATCGGTTTCA CGGGCACGAA AGTATAAAGC CGCGGAAGCG GAGGTACGAT 
AGCATGGAGC ATAGTGACAG TTACGCAGAA AAGAATGCGT GGAGGAGCTT GCAGAGGGAG 
CCTTTAGACG AGCCGAAGGC GAAGAAGCAC AAGAAATCAA AGAAGAAAAA GAAATCCAAA 
GACAAACACC GAGAGCGAGA CTCCAGGCAT CAGCAGGATT CAGACCTTTC GGCAGCATAC 
TCTGATGCTG ACCTCCACAG ACACAAAAAA AAGAAAAAGA AAAAGAAGAG ACACTCAAGG 
AAATCAGAGG ACTTTGGTAA AGACTCAGAA CTGCACTTAC CCAAGGCCGC CAGCTCTGAG 
ACTGTGGACC ATTTCCGGAG AACTGACGGC GGCTTTCCCC TCACCGATGG CCTGCCTCTG 
GAAGGCGTTG GACCTTTCCG TGAGAAAACA AAATATTTAA GGATGGAAAG CAGAAATGAC 
AGGTGTCATC TGCCTGAGTG TGGCCAGGGT GATTGA