TRERF1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	TRERF1
Entrez Gene ID	100478712
Full Name	transcriptional regulating factor 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019794412.1	XP_019649971.1	LOW QUALITY PROTEIN: transcriptional-regulating factor 1

Pathways from BioSystems
Gene Ontology

The following TRERF1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TRERF1 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
OAc28950	XM_019794412.1 Latest version!	Ailuropoda melanoleuca transcriptional regulating factor 1 (TRERF1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	Quote Price

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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)

TRERF1 ( XM_019794412.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019649971.1 Ailuropoda melanoleuca transcriptional regulating factor 1 (TRERF1), mRNA.

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CloneID	OAc28950
Clone ID Related Accession (Same CDS sequence)	XM_019794412.1
Accession Version	XM_019794412.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3732bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	LOW QUALITY PROTEIN: transcriptional-regulating factor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217341.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 2 indels internal stop codons :: corrected 1 genomic stop codons ##RefSeq-Attributes-END##

ATGCCAACAG GGACATCTGG CTGCAGCCAC GTTCACAGAC ATGTCAGCCG TGGAATAGTG 
TGGACGCCTT CCCTCAGCTT CTCAGGGTTT CAGTCCTTTT GGGTTTGTTT CATTGACCTT 
TTTTTATGGT TTTGTGGCTG GACGTTCACG GCCAAGGCAG GCGCCATGGG AGATCAGCAA 
CTGTACAAGA CCAATCACGT GGCCCACAGT GGTGAGAACC TTTTCTACCA ACAGCCACCG 
CTTGGCATCC ATGGCGGGCT GAACCACAAC TATGGGAATA CAGTCACAGG GGCCGGGATG 
GATGCCCCTC AGGCGTCACC CATCTCCCCC CACTTCCCTC AAGATACTCG GGATGGTCTA 
GGCTTGCCTG TTGGCTCCAA AAACCTGGGC CAAGTGGATA CCTCGAGGCA GGGAGGGTGG 
GGAGGTCATA CCGGGCCTGG AAACCATGTC CAGCTACGCG GCAACCTGAC CAACTCAAAC 
ATGATGTGGG GGACCCCGGC CCAGCCTGAG CCCGCTGATG GCTACCAGTA TACCTACTCC 
CAGGCCAGTG AGATCCGGAC CCAGAAACTC ACCAGCGGGG TCCTGCACAA GCTAGACTCC 
TTCACCCAGG TGTTCGCCAA CCAAAACCTG CGAATTCAGG TCAACAATAT GGCCCAGGTG 
CTGCACACCC AGTCGGCAGT GATGGATGGG GCCCCTGACA GTGCCCTCCG CCAGTTGCTG 
TCCCAGAAGC CCATGGAGCC CCCGGCGCCG GCTCTCCCTG CTCGCTACCA GCAGGTGGCC 
CAGCAGGCTC ACCCTGGTTT CCCTGGTGGG CTGTCCAAAC CAGCTCTGCA GGTAGGGCCG 
CACGCCAGCC AGGGCCACCT GTATTATGAC TACCAGCAGC CACTGGCTCA GATGCCGGTG 
CAGGGGGGAC AGCCGCTGCA GGCCCCCCAG ATGCTGTCCC AGCACGTGCA GCAGATGCAG 
CAGCACCAGT ATTACCCGCA GCAGCAGCAG CAGCAGGCTG GACAGCAGCC TGTGTCCCTG 
CAGGAAATGC AACAGCAGCA GCCGCAGCAG ACGCGCCCGC CGCAGCAGCA ACAGCAGCAG 
CCGCAGCAGC TGCAGCAGCG GCAGGGGCCG ATGCAGATAC CTCAGTATTA CCAGCCCCAG 
CCCGTGATGC AGCACCTGCA AGAGCAGCCG TCGCAGATGC ACCTGCAGCC CCCCTCTTAT 
CACAGGGACC CCCACCAGTA CGGCCCGGAG CAGGCACACG CCGTCCAGCT GATCCAGCTG 
GGCTCCATGC CCCAGTACTA CTACCAGGAG CCCCAGCAGC CCTACGGCCA CCACCTCTGC 
CAGCAGAGCC ACGTGCCCCA GCACCAGCAG CGCGAGGACA GTCAGCCCAA GACTTACCCG 
AGCGACAGGC AGGCCCAGGC CATGCTGAGC TCCCACAGCG ACCTGGGGCC TCCCGATGCA 
GGAATGGGAG ACCCGGCAAG CTCGGACCTG AACCGGCTCG GCGGGGCCCT GCCCCATCGG 
CCGCTTCTGT CCCCCGGCGG GATCCACCTT AACAACATGG GGCCTCCGCA CCAGCAGCTG 
TCTCCCAGTG CCCTGTGGCC CCAGATGCAC CTACCTGATG GCAGAGCCCA GCCAGGGTCC 
CCTGAGTCAA GTAGCCAACC AAAAGGAGTG TTTGGGGAGC AGTTTGATGC CAAGAACAAA 
CTGACGTGCT CCATCTGCCT GAAGGAATTC AAGAGCCTAC CTGCCCTGAA TGGCCACATG 
CGGTCCCATG GGGGAATGAG AGCCTCCCCC AGCCTCAAAC AGGAGGAAGG AGAGAAGGCC 
CTGCCGCCTC AGCCTCAGCC TCAGCCCCAG CCGCCACTGC CGCCTCCGCC ACCACCGCAG 
CTCCCTCCCG AGGCAGAAAG CCTCACGCCT ATGGTCATGC CCGTGTCTGT CCCTGTCAAG 
CTTCTCCCGC CCAAGCCAGG CTCTCAGGGC TTCGCCAACA GCATCGTTGC CGCCCCCTCC 
ACCAGAGACA AGCCAGCCAG CTCGATGTCG GACGACGAGA TGCCCGTGCT CGAGATCCCC 
AAGAAGCATC AGCCGGGCGC GGCCAAAGCC GAGGAGCCCC TCAAGAGCTT GCCGGAGAAG 
AAGAAGTTCC GGCACCGGNC GCCGCTCTTC ATCCCGCCAC CGCCCTCCTA CAACGCCAAC 
CCCGCCGCCT CGTACTCGGG CGCCACCCTG TACCAGAGCC AGCTGCGCTC CCCGCGCGTC 
CTCGGCGACC ACTGCTACCC CCTGCTGCTG GACCCCGCCC ACGAGCTGCC CCCCTACACG 
CCCCCGCCCA TGCTGAGCCC CGTGCGCCAG GGCTCGGGGC TCTTCAGCAA CGTGCTCGTC 
GCGGGCCACC CGCACCCCAC GTACCCTTCC TGTTGACCAC TGACCTCTGG TTTTTGTGCT 
TCAGACAGCA TTGATGGCAG CAACGTGACA GTTACCCCAG GGCCTGGAGA GCAGACCATT 
GATGTGGAAC CACGCATCAA CATTGGCTTG AGGTTCCAAG CAGAGATCCC AGAACTTCAG 
GATGTCTCTG CCTTGGCCCA GGACACACAC AAGGCCACAC TGGTATGGAA GCCCTGGCCA 
GAGCTGGAAA ACCATGACCT CCAGCAAAGA GTGGAGAATC TCCTGAATTT GTGCTGTTCA 
AGTGCGTTGC CCGGTGGAGG GACCAATTCT GAATTTGCTT TGCACTCTCT TTTCGAGGCC 
AAAGGTGATG TGATGGCTGC TCTGGAAACG CTGCTGCTGC GGAAGCCAGT CAGGTTAAAA 
TGTCATCCTT TAGCAAATTA CCACTATGCC GGTTCGGACA AGTGGACATC CCTAGAAAGA 
AAACTGTTTA ATAAAGCACT AGCCACTTAC AGCAAAGACT TTATTTTTGT ACAGAAGATG 
GTGAAGTCTA AGACGGTGGC TCAGTGTGTG GAGTACTACT ACACGTGGAA AAAGATAATG 
CGCTTGGGGC GGAAACACCG GACACGCCTC GCAGAAATCG ATGATTCTGT GACGAGTGCA 
GAAGAGGAGG AGTTAGAGGA CGAGGACGAG GACCCGGAAG AAGATAGGAA ATCCGCCAGA 
GAAGAGGAGA GCGAAGTGCC CAAGTCTCCC GAACCACCGC CAGGCCCCGT GTTGGCTCCC 
GCGGAGGGGC CACCGCTGCA GGCCCTCGGC CAGCCCTCCG GCTCCTTCAT CTGTGAGATG 
CCCAACTGTG GGGCTGTGTT CAGCTCCCGA CAGGCACTGA ACGGCCACGC CCGCATCCAC 
GGTGGCACCA ACCAGGTGAC CAAAGCCCGG GGGGCCGTCG CCTCCGGGAA GCAGAAGCCG 
GGCAGCGCCC AGAGCGGGTA CTGCTCAGTG AAGAGCTCCC CCTCTCACAG CACCACCAGC 
GGCGAGACAG ACCCCACTAC CATCTTCCCC TGCAAGGAGT GTGGCAAAGT CTTCTTCAAG 
ATCAAGAGCC GAAATGCACA CATGAAAACA CACAGGCAGC AGGAGGAACA GCAGAGGCAA 
AAGGCTCAGA AGGCGGCTTT TGCCGCTGAG ATGGCCGCCA CCATCGAGAG GACTACGGGG 
CCTGCGGGGA CGCCAGGGCT GCTGCCCCTG GACCAGCTGA GCCTCATCAA ACCCATCAAG 
GACGTGGACA TCCTCGATGG CGACGTTGTC CAGCAGTTGG GAGGCGTCAT GGAAGAGGCC 
GAGGTCGTGG ACACGGATCT CCTCTTGGAT GACCAAGATT CGGTTTTGCT TCAGGGTGAC 
GCGGAACTAT AA

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

RefSeq	XP_019649971.1
CDS	339..4070
Translation	MPTGTSGCSHVHRHVSRGIVWTPSLSFSGFQSFWVCFIDLFLWFCGWTFTAKAGAMGDQQLYKTNHVAHSGENLFYQQPPLGIHGGLNHNYGNTVTGAGMDAPQASPISPHFPQDTRDGLGLPVGSKNLGQVDTSRQGGWGGHTGPGNHVQLRGNLTNSNMMWGTPAQPEPADGYQYTYSQASEIRTQKLTSGVLHKLDSFTQVFANQNLRIQVNNMAQVLHTQSAVMDGAPDSALRQLLSQKPMEPPAPALPARYQQVAQQAHPGFPGGLSKPALQVGPHASQGHLYYDYQQPLAQMPVQGGQPLQAPQMLSQHVQQMQQHQYYPQQQQQQAGQQPVSLQEMQQQQPQQTRPPQQQQQQPQQLQQRQGPMQIPQYYQPQPVMQHLQEQPSQMHLQPPSYHRDPHQYGPEQAHAVQLIQLGSMPQYYYQEPQQPYGHHLCQQSHVPQHQQREDSQPKTYPSDRQAQAMLSSHSDLGPPDAGMGDPASSDLNRLGGALPHRPLLSPGGIHLNNMGPPHQQLSPSALWPQMHLPDGRAQPGSPESSSQPKGVFGEQFDAKNKLTCSICLKEFKSLPALNGHMRSHGGMRASPSLKQEEGEKALPPQPQPQPQPPLPPPPPPQLPPEAESLTPMVMPVSVPVKLLPPKPGSQGFANSIVAAPSTRDKPASSMSDDEMPVLEIPKKHQPGAAKAEEPLKSLPEKKKFRHRnullPLFIPPPPSYNANPAASYSGATLYQSQLRSPRVLGDHCYPLLLDPAHELPPYTPPPMLSPVRQGSGLFSNVLVAGHPHPTYPSC*PLTSGFCASDSIDGSNVTVTPGPGEQTIDVEPRINIGLRFQAEIPELQDVSALAQDTHKATLVWKPWPELENHDLQQRVENLLNLCCSSALPGGGTNSEFALHSLFEAKGDVMAALETLLLRKPVRLKCHPLANYHYAGSDKWTSLERKLFNKALATYSKDFIFVQKMVKSKTVAQCVEYYYTWKKIMRLGRKHRTRLAEIDDSVTSAEEEELEDEDEDPEEDRKSAREEESEVPKSPEPPPGPVLAPAEGPPLQALGQPSGSFICEMPNCGAVFSSRQALNGHARIHGGTNQVTKARGAVASGKQKPGSAQSGYCSVKSSPSHSTTSGETDPTTIFPCKECGKVFFKIKSRNAHMKTHRQQEEQQRQKAQKAAFAAEMAATIERTTGPAGTPGLLPLDQLSLIKPIKDVDILDGDVVQQLGGVMEEAEVVDTDLLLDDQDSVLLQGDAEL

Target ORF information:

RefSeq Version	XM_019794412.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca transcriptional regulating factor 1 (TRERF1), mRNA.

Target ORF information:

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

XM_019794412.1

ORF Insert Sequence:

ATGCCAACAG GGACATCTGG CTGCAGCCAC GTTCACAGAC ATGTCAGCCG TGGAATAGTG 
TGGACGCCTT CCCTCAGCTT CTCAGGGTTT CAGTCCTTTT GGGTTTGTTT CATTGACCTT 
TTTTTATGGT TTTGTGGCTG GACGTTCACG GCCAAGGCAG GCGCCATGGG AGATCAGCAA 
CTGTACAAGA CCAATCACGT GGCCCACAGT GGTGAGAACC TTTTCTACCA ACAGCCACCG 
CTTGGCATCC ATGGCGGGCT GAACCACAAC TATGGGAATA CAGTCACAGG GGCCGGGATG 
GATGCCCCTC AGGCGTCACC CATCTCCCCC CACTTCCCTC AAGATACTCG GGATGGTCTA 
GGCTTGCCTG TTGGCTCCAA AAACCTGGGC CAAGTGGATA CCTCGAGGCA GGGAGGGTGG 
GGAGGTCATA CCGGGCCTGG AAACCATGTC CAGCTACGCG GCAACCTGAC CAACTCAAAC 
ATGATGTGGG GGACCCCGGC CCAGCCTGAG CCCGCTGATG GCTACCAGTA TACCTACTCC 
CAGGCCAGTG AGATCCGGAC CCAGAAACTC ACCAGCGGGG TCCTGCACAA GCTAGACTCC 
TTCACCCAGG TGTTCGCCAA CCAAAACCTG CGAATTCAGG TCAACAATAT GGCCCAGGTG 
CTGCACACCC AGTCGGCAGT GATGGATGGG GCCCCTGACA GTGCCCTCCG CCAGTTGCTG 
TCCCAGAAGC CCATGGAGCC CCCGGCGCCG GCTCTCCCTG CTCGCTACCA GCAGGTGGCC 
CAGCAGGCTC ACCCTGGTTT CCCTGGTGGG CTGTCCAAAC CAGCTCTGCA GGTAGGGCCG 
CACGCCAGCC AGGGCCACCT GTATTATGAC TACCAGCAGC CACTGGCTCA GATGCCGGTG 
CAGGGGGGAC AGCCGCTGCA GGCCCCCCAG ATGCTGTCCC AGCACGTGCA GCAGATGCAG 
CAGCACCAGT ATTACCCGCA GCAGCAGCAG CAGCAGGCTG GACAGCAGCC TGTGTCCCTG 
CAGGAAATGC AACAGCAGCA GCCGCAGCAG ACGCGCCCGC CGCAGCAGCA ACAGCAGCAG 
CCGCAGCAGC TGCAGCAGCG GCAGGGGCCG ATGCAGATAC CTCAGTATTA CCAGCCCCAG 
CCCGTGATGC AGCACCTGCA AGAGCAGCCG TCGCAGATGC ACCTGCAGCC CCCCTCTTAT 
CACAGGGACC CCCACCAGTA CGGCCCGGAG CAGGCACACG CCGTCCAGCT GATCCAGCTG 
GGCTCCATGC CCCAGTACTA CTACCAGGAG CCCCAGCAGC CCTACGGCCA CCACCTCTGC 
CAGCAGAGCC ACGTGCCCCA GCACCAGCAG CGCGAGGACA GTCAGCCCAA GACTTACCCG 
AGCGACAGGC AGGCCCAGGC CATGCTGAGC TCCCACAGCG ACCTGGGGCC TCCCGATGCA 
GGAATGGGAG ACCCGGCAAG CTCGGACCTG AACCGGCTCG GCGGGGCCCT GCCCCATCGG 
CCGCTTCTGT CCCCCGGCGG GATCCACCTT AACAACATGG GGCCTCCGCA CCAGCAGCTG 
TCTCCCAGTG CCCTGTGGCC CCAGATGCAC CTACCTGATG GCAGAGCCCA GCCAGGGTCC 
CCTGAGTCAA GTAGCCAACC AAAAGGAGTG TTTGGGGAGC AGTTTGATGC CAAGAACAAA 
CTGACGTGCT CCATCTGCCT GAAGGAATTC AAGAGCCTAC CTGCCCTGAA TGGCCACATG 
CGGTCCCATG GGGGAATGAG AGCCTCCCCC AGCCTCAAAC AGGAGGAAGG AGAGAAGGCC 
CTGCCGCCTC AGCCTCAGCC TCAGCCCCAG CCGCCACTGC CGCCTCCGCC ACCACCGCAG 
CTCCCTCCCG AGGCAGAAAG CCTCACGCCT ATGGTCATGC CCGTGTCTGT CCCTGTCAAG 
CTTCTCCCGC CCAAGCCAGG CTCTCAGGGC TTCGCCAACA GCATCGTTGC CGCCCCCTCC 
ACCAGAGACA AGCCAGCCAG CTCGATGTCG GACGACGAGA TGCCCGTGCT CGAGATCCCC 
AAGAAGCATC AGCCGGGCGC GGCCAAAGCC GAGGAGCCCC TCAAGAGCTT GCCGGAGAAG 
AAGAAGTTCC GGCACCGGNC GCCGCTCTTC ATCCCGCCAC CGCCCTCCTA CAACGCCAAC 
CCCGCCGCCT CGTACTCGGG CGCCACCCTG TACCAGAGCC AGCTGCGCTC CCCGCGCGTC 
CTCGGCGACC ACTGCTACCC CCTGCTGCTG GACCCCGCCC ACGAGCTGCC CCCCTACACG 
CCCCCGCCCA TGCTGAGCCC CGTGCGCCAG GGCTCGGGGC TCTTCAGCAA CGTGCTCGTC 
GCGGGCCACC CGCACCCCAC GTACCCTTCC TGTTGACCAC TGACCTCTGG TTTTTGTGCT 
TCAGACAGCA TTGATGGCAG CAACGTGACA GTTACCCCAG GGCCTGGAGA GCAGACCATT 
GATGTGGAAC CACGCATCAA CATTGGCTTG AGGTTCCAAG CAGAGATCCC AGAACTTCAG 
GATGTCTCTG CCTTGGCCCA GGACACACAC AAGGCCACAC TGGTATGGAA GCCCTGGCCA 
GAGCTGGAAA ACCATGACCT CCAGCAAAGA GTGGAGAATC TCCTGAATTT GTGCTGTTCA 
AGTGCGTTGC CCGGTGGAGG GACCAATTCT GAATTTGCTT TGCACTCTCT TTTCGAGGCC 
AAAGGTGATG TGATGGCTGC TCTGGAAACG CTGCTGCTGC GGAAGCCAGT CAGGTTAAAA 
TGTCATCCTT TAGCAAATTA CCACTATGCC GGTTCGGACA AGTGGACATC CCTAGAAAGA 
AAACTGTTTA ATAAAGCACT AGCCACTTAC AGCAAAGACT TTATTTTTGT ACAGAAGATG 
GTGAAGTCTA AGACGGTGGC TCAGTGTGTG GAGTACTACT ACACGTGGAA AAAGATAATG 
CGCTTGGGGC GGAAACACCG GACACGCCTC GCAGAAATCG ATGATTCTGT GACGAGTGCA 
GAAGAGGAGG AGTTAGAGGA CGAGGACGAG GACCCGGAAG AAGATAGGAA ATCCGCCAGA 
GAAGAGGAGA GCGAAGTGCC CAAGTCTCCC GAACCACCGC CAGGCCCCGT GTTGGCTCCC 
GCGGAGGGGC CACCGCTGCA GGCCCTCGGC CAGCCCTCCG GCTCCTTCAT CTGTGAGATG 
CCCAACTGTG GGGCTGTGTT CAGCTCCCGA CAGGCACTGA ACGGCCACGC CCGCATCCAC 
GGTGGCACCA ACCAGGTGAC CAAAGCCCGG GGGGCCGTCG CCTCCGGGAA GCAGAAGCCG 
GGCAGCGCCC AGAGCGGGTA CTGCTCAGTG AAGAGCTCCC CCTCTCACAG CACCACCAGC 
GGCGAGACAG ACCCCACTAC CATCTTCCCC TGCAAGGAGT GTGGCAAAGT CTTCTTCAAG 
ATCAAGAGCC GAAATGCACA CATGAAAACA CACAGGCAGC AGGAGGAACA GCAGAGGCAA 
AAGGCTCAGA AGGCGGCTTT TGCCGCTGAG ATGGCCGCCA CCATCGAGAG GACTACGGGG 
CCTGCGGGGA CGCCAGGGCT GCTGCCCCTG GACCAGCTGA GCCTCATCAA ACCCATCAAG 
GACGTGGACA TCCTCGATGG CGACGTTGTC CAGCAGTTGG GAGGCGTCAT GGAAGAGGCC 
GAGGTCGTGG ACACGGATCT CCTCTTGGAT GACCAAGATT CGGTTTTGCT TCAGGGTGAC 
GCGGAACTAT AA