GDB1 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene
Clones
gRNAs

Summary

Gene Symbol	GDB1
Entrez Gene ID	856314
Full Name	bifunctional 4-alpha-glucanotransferase/amylo-alpha-1,6-glucosidase
Gene Type	protein-coding
Organism	Saccharomyces cerevisiae S288C

mRNA and Protein(s)

mRNA	Protein	Name
NM_001184281.1	NP_015510.1	bifunctional 4-alpha-glucanotransferase/amylo-alpha-1,6-glucosidase

Pathways from BioSystems

Homologies

Mus musculus (house mouse)	Agl	NP_001074795.1
Bos taurus (cattle)	AGL	NP_001179400.1
Homo sapiens (human)	AGL	NP_000635.2
	AGL	XP_001106287.1
Canis lupus familiaris (dog)	AGL	NP_001041561.1
Rattus norvegicus (Norway rat)	Agl	NP_001102034.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP001200	XP_321957.3
Caenorhabditis elegans (roundworm)	agl-1	NP_496984.1
Drosophila melanogaster (fruit fly)	CG9485	NP_726062.2
Magnaporthe oryzae (rice blast fungus)	MGG_00063	XP_003719078.1
Xenopus tropicalis (tropical clawed frog)	agl	NP_001072609.1
Pan troglodytes (chimpanzee)	AGL	XP_001159352.1
Danio rerio (zebrafish)	agla	NP_001166124.1
Saccharomyces cerevisiae (baker's yeast)	GDB1	NP_015510.1
Eremothecium gossypii	AGOS_AEL276C	NP_984584.1
Neurospora crassa	NCU00743	XP_964396.2

Gene Ontology
Bibliography

Related articles in PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI.
Bussey H, Storms RK, Ahmed A, Albermann K, Allen E, Ansorge W, Araujo R, Aparicio A, Barrell B, Badcock K, Benes V, Botstein D, Bowman S, Br?ckner M, Carpenter J, Cherry JM, Chung E, Churcher C, Coster F, Davis K, Davis RW, Dietrich FS, Delius H, DiPaolo T, Hani J
Nature387(6632 Suppl)103-5(1997 May)

Life with 6000 genes.
Goffeau A, Barrell BG, Bussey H, Davis RW, Dujon B, Feldmann H, Galibert F, Hoheisel JD, Jacq C, Johnston M, Louis EJ, Mewes HW, Murakami Y, Philippsen P, Tettelin H, Oliver SG
Science (New York, N.Y.)274(5287)546, 563-7(1996 Oct)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

Results indicate that the N-terminal domain (1-644) alone has both alpha-1,4-transferase and the alpha-1,6-glucosidase activities.
Title: Association of bi-functional activity in the N-terminal domain of glycogen debranching enzyme.

The following GDB1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GDB1 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
OSi05129	NM_001184281.1 Latest version!	Saccharomyces cerevisiae S288C bifunctional 4-alpha-glucanotransferase/amylo-alpha-1,6-glucosidase (GDB1), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$881.30 $1259.00

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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)

GDB1 ( NM_001184281.1 ) cDNA ORF clone, Saccharomyces cerevisiae S288C -> NP_015510.1 Saccharomyces cerevisiae S288C bifunctional 4-alpha-glucanotransferase/amylo-alpha-1,6-glucosidase (GDB1), partial mRNA.

Price & Availability↑

CloneID	OSi05129
Clone ID Related Accession (Same CDS sequence)	NM_001184281.1
Accession Version	NM_001184281.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4611bp) 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	2019-10-31
Organism	Saccharomyces cerevisiae S288C
Product	bifunctional 4-alpha-glucanotransferase/amylo-alpha-1,6-glucosidase
Comment	Comment: REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001148). ##Genome-Annotation-Data-START## Annotation Provider :: SGD Annotation Status :: Full Annotation Annotation Version :: R64-2-1 URL :: http://www.yeastgenome.org/ ##Genome-Annotation-Data-END## COMPLETENESS: incomplete on both ends.

ATGAATAGAT CATTACTGCT ACGTTTGTCG GATACCGGTG AACCCATTAC AAGCTGCTCT 
TACGGAAAAG GTGTCTTGAC GCTACCACCA ATTCCGCTCC CTAAGGACGC CCCAAAGGAC 
CAACCGCTCT ATACGGTCAA GCTACTGGTA TCTGCAGGTT CCCCTGTCGC TAGGGATGGG 
CTAGTTTGGA CTAATTGCCC ACCAGATCAC AACACGCCCT TCAAGAGGGA CAAATTTTAC 
AAAAAAATCA TTCATTCCAG CTTTCACGAG GATGACTGCA TTGACCTGAA TGTCTACGCT 
CCAGGCTCGT ACTGCTTTTA TCTATCTTTC AGGAACGATA ACGAAAAACT TGAGACAACA 
AGGAAATACT ACTTTGTTGC CTTGCCCATG CTTTATATAA ACGATCAGTT CCTACCTTTG 
AATTCCATCG CTTTACAAAG TGTTGTATCG AAATGGCTGG GCTCTGACTG GGAGCCCATC 
CTATCGAAAA TTGCCGCTAA AAACTACAAT ATGGTACATT TCACCCCTCT ACAGGAAAGA 
GGCGAGTCTA ACTCGCCTTA CTCTATATAC GACCAATTGC AGTTCGACCA GGAACACTTT 
AAGTCTCCTG AAGACGTGAA AAATTTAGTT GAGCATATAC ATCGCGATTT AAACATGCTT 
TCATTAACAG ATATTGTTTT TAACCACACA GCTAATAATT CTCCTTGGTT AGTTGAGCAC 
CCGGAGGCTG GGTATAACCA CATCACTGCG CCACATCTAA TCAGCGCCAT AGAGCTCGAC 
CAAGAATTGC TCAATTTTAG TAGGAATTTG AAATCCTGGG GCTATCCTAC CGAACTGAAA 
AATATAGAAG ATCTCTTCAA GATCATGGAC GGTATTAAAG TGCATGTTTT AGGGTCGTTG 
AAACTGTGGG AATATTATGC GGTAAACGTG CAAACAGCTC TTCGGGATAT CAAAGCCCAT 
TGGAATGACG AATCTAACGA AAGTTACAGT TTTCCCGAGA ATATTAAAGA CATCTCGTCC 
GATTTCGTAA AACTAGCTTC CTTTGTGAAG GACAACGTCA CTGAGCCTAA CTTCGGCACT 
CTTGGTGAAA GAAACTCAAA CAGGATTAAC GTGCCAAAAT TTATTCAACT ACTGAAGCTC 
ATTAACGATG GTGGTAGTGA TGACAGTGAA TCTTCGTTGG CCACGGCTCA AAACATCTTG 
AACGAGGTCA ACTTACCCTT ATATAGAGAA TACGACGATG ATGTCAGTGA GATACTCGAG 
CAACTGTTCA ATCGTATCAA ATATTTGAGA TTAGATGACG GTGGGCCCAA GCAAGGTCCA 
GTGACCGTTG ACGTGCCCTT AACAGAGCCT TATTTTACGA GGTTCAAAGG AAAAGATGGT 
ACTGATTATG CCCTCGCCAA CAATGGCTGG ATATGGAATG GTAACCCACT AGTGGATTTT 
GCATCGCAGA ATTCAAGAGC TTATTTACGT AGAGAAGTTA TCGTGTGGGG GGACTGTGTC 
AAGTTAAGAT ACGGTAAAAG CCCTGAAGAC TCTCCGTATC TGTGGGAAAG AATGTCCAAG 
TATATAGAAA TGAACGCCAA GATATTTGAC GGGTTCAGAA TTGACAACTG CCATTCTACT 
CCAATACATG TTGGCGAATA TTTCCTAGAT TTGGCAAGAA AATACAACCC GAACCTATAT 
GTCGTTGCAG AGCTGTTTTC TGGTTCCGAA ACACTAGATT GTCTGTTTGT TGAACGGTTG 
GGTATCTCCT CTTTAATCAG AGAGGCAATG CAAGCCTGGT CCGAAGAAGA GTTGTCTAGA 
TTAGTCCATA AGCATGGCGG GAGGCCCATT GGCTCCTATA AGTTTGTTCC TATGGATGAC 
TTCTCATATC CTGCGGATAT TAATTTAAAC GAGGAGCATT GTTTCAACGA CTCCAACGAT 
AACTCCATAA GATGTGTATC AGAGATCATG ATTCCAAAGA TTTTAACCGC CACTCCGCCA 
CACGCTTTAT TCATGGACTG TACCCATGAT AATGAAACTC CCTTTGAAAA AAGAACAGTG 
GAGGATACTT TGCCCAATGC TGCATTGGTG GCTCTTTGCT CGTCCGCCAT TGGATCTGTT 
TATGGCTACG ACGAAATTTT TCCACATTTA CTGAATTTGG TCACTGAAAA AAGACATTAT 
GACATTTCTA CGCCTACTGG TAGCCCCTCG ATAGGAATAA CCAAAGTCAA GGCCACTTTG 
AATTCGATTA GAACGAGTAT AGGAGAAAAG GCGTATGACA TTGAAGACTC AGAAATGCAT 
GTGCATCACC AGGGCCAGTA CATTACTTTT CATCGTATGG ATGTTAAATC CGGAAAAGGT 
TGGTACTTGA TAGCAAGGAT GAAATTTTCT GACAATGATG ACCCTAACGA GACTTTACCA 
CCAGTGGTGT TAAACCAATC CACCTGTTCT CTCAGGTTTT CGTATGCTTT GGAAAGAGTT 
GGCGATGAAA TTCCCAACGA CGATAAATTC ATTAAAGGTA TTCCCACGAA ATTAAAGGAG 
CTTGAAGGGT TTGACATTTC TTATGATGAT TCTAAGAAGA TTTCAACGAT AAAACTGCCC 
AATGAATTCC CTCAAGGATC TATTGCCATT TTTGAGACCC AACAGAATGG TGTGGACGAA 
TCCTTAGATC ATTTTATAAG GTCAGGTGCT TTAAAGGCCA CTTCAAGTTT GACTCTAGAG 
TCAATAAATT CCGTCTTGTA TCGTAGTGAG CCGGAAGAAT ACGATGTTAG CGCCGGCGAA 
GGTGGTGCTT ATATTATTCC TAATTTTGGA AAGCCTGTGT ATTGTGGTCT GCAAGGTTGG 
GTTTCCGTAT TAAGAAAAAT TGTGTTTTAC AATGATTTAG CACATCCCCT CAGTGCAAAT 
TTAAGAAATG GACATTGGGC TTTAGACTAC ACTATCAGTA GACTTAATTA CTATAGCGAT 
GAAGCAGGAA TCAATGAAGT GCAGAACTGG CTGCGTTCAA GGTTTGATAG AGTGAAAAAG 
TTACCGAGCT ACTTAGTGCC CAGTTATTTC GCCTTAATTA TCGGCATCCT CTATGGTTGT 
TGTCGCTTAA AAGCAATACA GCTAATGTCC CGTAATATTG GTAAATCTAC ATTGTTTGTA 
CAAAGCTTAT CTATGACATC AATCCAGATG GTTTCCAGAA TGAAGTCAAC CTCTATTTTA 
CCAGGCGAAA ATGTTCCATC TATGGCTGCA GGGTTGCCAC ACTTTAGCGT AAACTACATG 
AGATGTTGGG GGAGAGATGT ATTCATATCG CTAAGAGGTA TGCTATTAAC AACAGGTAGA 
TTTGATGAAG CTAAAGCTCA TATACTAGCC TTTGCAAAGA CTTTGAAGCA TGGTTTAATT 
CCAAACTTGC TGGATGCCGG TAGAAACCCG AGATATAATG CTCGTGATGC TGCCTGGTTC 
TTCTTGCAAG CTGTACAGGA TTATGTTTAT ATTGTTCCTG ATGGCGAAAA AATATTACAA 
GAGCAAGTAA CAAGGAGATT CCCACTGGAT GATACTTACA TTCCTGTAGA TGATCCAAGG 
GCATTTAGTT ACTCTAGTAC CTTGGAGGAG ATCATTTATG AAATTTTGAG TAGGCATGCC 
AAGGGAATTA AATTCAGAGA GGCTAATGCA GGTCCAAATT TAGATCGTGT TATGACTGAT 
AAAGGGTTTA ATGTTGAAAT TCATGTCGAT TGGTCGACTG GCTTAATTCA TGGTGGATCT 
CAGTATAACT GTGGTACTTG GATGGATAAG ATGGGTGAAA GTGAAAAAGC AGGGTCTGTT 
GGTATTCCTG GAACACCCAG AGATGGAGCC GCAATAGAAA TCAATGGGCT TTTAAAAAGT 
GCTTTAAGGT TTGTTATTGA ACTAAAAAAC AAGGGATTGT TTAAGTTTTC CGATGTGGAG 
ACGCAGGACG GCGGGAGGAT CGATTTCACT GAATGGAATC AATTACTTCA AGACAATTTC 
GAAAAAAGAT ATTATGTTCC GGAGGATCCA TCACAGGATG CAGATTATGA CGTGAGCGCT 
AAATTGGGTG TTAATAGACG GGGGATATAC AGAGATTTGT ACAAATCAGG AAAGCCTTAT 
GAAGATTATC AGTTAAGACC AAATTTTGCT ATTGCCATGA CTGTGGCACC AGAGTTATTT 
GTGCCTGAGC ATGCCATAAA AGCAATCACC ATTGCAGATG AAGTCTTAAG AGGTCCAGTA 
GGTATGCGTA CTTTAGACCC AAGCGATTAC AATTACCGTC CGTACTACAA CAACGGAGAA 
GATTCGGATG ATTTTGCCAC CTCAAAGGGT AGAAACTATC ACCAAGGCCC TGAGTGGGTC 
TGGCTTTACG GCTACTTTTT AAGAGCGTTC CATCATTTCC ACTTTAAAAC CAGTCCACGT 
TGTCAGAATG CTGCCAAAGA GAAACCATCC TCTTATTTGT ATCAACAATT ATACTACAGA 
TTAAAAGGCC ATAGAAAATG GATTTTTGAA AGTGTGTGGG CAGGATTGAC AGAGCTAACC 
AATAAAGATG GTGAAGTATG CAATGACTCA AGCCCCACGC AAGCCTGGAG TTCTGCTTGT 
TTGTTAGATC TATTTTATGA TTTATGGGAT GCCTACGAAG ATGATTCCTG A

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

RefSeq	NP_015510.1
CDS	1..4611
Translation	MNRSLLLRLSDTGEPITSCSYGKGVLTLPPIPLPKDAPKDQPLYTVKLLVSAGSPVARDGLVWTNCPPDHNTPFKRDKFYKKIIHSSFHEDDCIDLNVYAPGSYCFYLSFRNDNEKLETTRKYYFVALPMLYINDQFLPLNSIALQSVVSKWLGSDWEPILSKIAAKNYNMVHFTPLQERGESNSPYSIYDQLQFDQEHFKSPEDVKNLVEHIHRDLNMLSLTDIVFNHTANNSPWLVEHPEAGYNHITAPHLISAIELDQELLNFSRNLKSWGYPTELKNIEDLFKIMDGIKVHVLGSLKLWEYYAVNVQTALRDIKAHWNDESNESYSFPENIKDISSDFVKLASFVKDNVTEPNFGTLGERNSNRINVPKFIQLLKLINDGGSDDSESSLATAQNILNEVNLPLYREYDDDVSEILEQLFNRIKYLRLDDGGPKQGPVTVDVPLTEPYFTRFKGKDGTDYALANNGWIWNGNPLVDFASQNSRAYLRREVIVWGDCVKLRYGKSPEDSPYLWERMSKYIEMNAKIFDGFRIDNCHSTPIHVGEYFLDLARKYNPNLYVVAELFSGSETLDCLFVERLGISSLIREAMQAWSEEELSRLVHKHGGRPIGSYKFVPMDDFSYPADINLNEEHCFNDSNDNSIRCVSEIMIPKILTATPPHALFMDCTHDNETPFEKRTVEDTLPNAALVALCSSAIGSVYGYDEIFPHLLNLVTEKRHYDISTPTGSPSIGITKVKATLNSIRTSIGEKAYDIEDSEMHVHHQGQYITFHRMDVKSGKGWYLIARMKFSDNDDPNETLPPVVLNQSTCSLRFSYALERVGDEIPNDDKFIKGIPTKLKELEGFDISYDDSKKISTIKLPNEFPQGSIAIFETQQNGVDESLDHFIRSGALKATSSLTLESINSVLYRSEPEEYDVSAGEGGAYIIPNFGKPVYCGLQGWVSVLRKIVFYNDLAHPLSANLRNGHWALDYTISRLNYYSDEAGINEVQNWLRSRFDRVKKLPSYLVPSYFALIIGILYGCCRLKAIQLMSRNIGKSTLFVQSLSMTSIQMVSRMKSTSILPGENVPSMAAGLPHFSVNYMRCWGRDVFISLRGMLLTTGRFDEAKAHILAFAKTLKHGLIPNLLDAGRNPRYNARDAAWFFLQAVQDYVYIVPDGEKILQEQVTRRFPLDDTYIPVDDPRAFSYSSTLEEIIYEILSRHAKGIKFREANAGPNLDRVMTDKGFNVEIHVDWSTGLIHGGSQYNCGTWMDKMGESEKAGSVGIPGTPRDGAAIEINGLLKSALRFVIELKNKGLFKFSDVETQDGGRIDFTEWNQLLQDNFEKRYYVPEDPSQDADYDVSAKLGVNRRGIYRDLYKSGKPYEDYQLRPNFAIAMTVAPELFVPEHAIKAITIADEVLRGPVGMRTLDPSDYNYRPYYNNGEDSDDFATSKGRNYHQGPEWVWLYGYFLRAFHHFHFKTSPRCQNAAKEKPSSYLYQQLYYRLKGHRKWIFESVWAGLTELTNKDGEVCNDSSPTQAWSSACLLDLFYDLWDAYEDDS

Target ORF information:

RefSeq Version	NM_001184281.1
Organism	Saccharomyces cerevisiae S288C
Definition	Saccharomyces cerevisiae S288C bifunctional 4-alpha-glucanotransferase/amylo-alpha-1,6-glucosidase (GDB1), partial mRNA.

Target ORF information:

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

NM_001184281.1

ORF Insert Sequence:

ATGAATAGAT CATTACTGCT ACGTTTGTCG GATACCGGTG AACCCATTAC AAGCTGCTCT 
TACGGAAAAG GTGTCTTGAC GCTACCACCA ATTCCGCTCC CTAAGGACGC CCCAAAGGAC 
CAACCGCTCT ATACGGTCAA GCTACTGGTA TCTGCAGGTT CCCCTGTCGC TAGGGATGGG 
CTAGTTTGGA CTAATTGCCC ACCAGATCAC AACACGCCCT TCAAGAGGGA CAAATTTTAC 
AAAAAAATCA TTCATTCCAG CTTTCACGAG GATGACTGCA TTGACCTGAA TGTCTACGCT 
CCAGGCTCGT ACTGCTTTTA TCTATCTTTC AGGAACGATA ACGAAAAACT TGAGACAACA 
AGGAAATACT ACTTTGTTGC CTTGCCCATG CTTTATATAA ACGATCAGTT CCTACCTTTG 
AATTCCATCG CTTTACAAAG TGTTGTATCG AAATGGCTGG GCTCTGACTG GGAGCCCATC 
CTATCGAAAA TTGCCGCTAA AAACTACAAT ATGGTACATT TCACCCCTCT ACAGGAAAGA 
GGCGAGTCTA ACTCGCCTTA CTCTATATAC GACCAATTGC AGTTCGACCA GGAACACTTT 
AAGTCTCCTG AAGACGTGAA AAATTTAGTT GAGCATATAC ATCGCGATTT AAACATGCTT 
TCATTAACAG ATATTGTTTT TAACCACACA GCTAATAATT CTCCTTGGTT AGTTGAGCAC 
CCGGAGGCTG GGTATAACCA CATCACTGCG CCACATCTAA TCAGCGCCAT AGAGCTCGAC 
CAAGAATTGC TCAATTTTAG TAGGAATTTG AAATCCTGGG GCTATCCTAC CGAACTGAAA 
AATATAGAAG ATCTCTTCAA GATCATGGAC GGTATTAAAG TGCATGTTTT AGGGTCGTTG 
AAACTGTGGG AATATTATGC GGTAAACGTG CAAACAGCTC TTCGGGATAT CAAAGCCCAT 
TGGAATGACG AATCTAACGA AAGTTACAGT TTTCCCGAGA ATATTAAAGA CATCTCGTCC 
GATTTCGTAA AACTAGCTTC CTTTGTGAAG GACAACGTCA CTGAGCCTAA CTTCGGCACT 
CTTGGTGAAA GAAACTCAAA CAGGATTAAC GTGCCAAAAT TTATTCAACT ACTGAAGCTC 
ATTAACGATG GTGGTAGTGA TGACAGTGAA TCTTCGTTGG CCACGGCTCA AAACATCTTG 
AACGAGGTCA ACTTACCCTT ATATAGAGAA TACGACGATG ATGTCAGTGA GATACTCGAG 
CAACTGTTCA ATCGTATCAA ATATTTGAGA TTAGATGACG GTGGGCCCAA GCAAGGTCCA 
GTGACCGTTG ACGTGCCCTT AACAGAGCCT TATTTTACGA GGTTCAAAGG AAAAGATGGT 
ACTGATTATG CCCTCGCCAA CAATGGCTGG ATATGGAATG GTAACCCACT AGTGGATTTT 
GCATCGCAGA ATTCAAGAGC TTATTTACGT AGAGAAGTTA TCGTGTGGGG GGACTGTGTC 
AAGTTAAGAT ACGGTAAAAG CCCTGAAGAC TCTCCGTATC TGTGGGAAAG AATGTCCAAG 
TATATAGAAA TGAACGCCAA GATATTTGAC GGGTTCAGAA TTGACAACTG CCATTCTACT 
CCAATACATG TTGGCGAATA TTTCCTAGAT TTGGCAAGAA AATACAACCC GAACCTATAT 
GTCGTTGCAG AGCTGTTTTC TGGTTCCGAA ACACTAGATT GTCTGTTTGT TGAACGGTTG 
GGTATCTCCT CTTTAATCAG AGAGGCAATG CAAGCCTGGT CCGAAGAAGA GTTGTCTAGA 
TTAGTCCATA AGCATGGCGG GAGGCCCATT GGCTCCTATA AGTTTGTTCC TATGGATGAC 
TTCTCATATC CTGCGGATAT TAATTTAAAC GAGGAGCATT GTTTCAACGA CTCCAACGAT 
AACTCCATAA GATGTGTATC AGAGATCATG ATTCCAAAGA TTTTAACCGC CACTCCGCCA 
CACGCTTTAT TCATGGACTG TACCCATGAT AATGAAACTC CCTTTGAAAA AAGAACAGTG 
GAGGATACTT TGCCCAATGC TGCATTGGTG GCTCTTTGCT CGTCCGCCAT TGGATCTGTT 
TATGGCTACG ACGAAATTTT TCCACATTTA CTGAATTTGG TCACTGAAAA AAGACATTAT 
GACATTTCTA CGCCTACTGG TAGCCCCTCG ATAGGAATAA CCAAAGTCAA GGCCACTTTG 
AATTCGATTA GAACGAGTAT AGGAGAAAAG GCGTATGACA TTGAAGACTC AGAAATGCAT 
GTGCATCACC AGGGCCAGTA CATTACTTTT CATCGTATGG ATGTTAAATC CGGAAAAGGT 
TGGTACTTGA TAGCAAGGAT GAAATTTTCT GACAATGATG ACCCTAACGA GACTTTACCA 
CCAGTGGTGT TAAACCAATC CACCTGTTCT CTCAGGTTTT CGTATGCTTT GGAAAGAGTT 
GGCGATGAAA TTCCCAACGA CGATAAATTC ATTAAAGGTA TTCCCACGAA ATTAAAGGAG 
CTTGAAGGGT TTGACATTTC TTATGATGAT TCTAAGAAGA TTTCAACGAT AAAACTGCCC 
AATGAATTCC CTCAAGGATC TATTGCCATT TTTGAGACCC AACAGAATGG TGTGGACGAA 
TCCTTAGATC ATTTTATAAG GTCAGGTGCT TTAAAGGCCA CTTCAAGTTT GACTCTAGAG 
TCAATAAATT CCGTCTTGTA TCGTAGTGAG CCGGAAGAAT ACGATGTTAG CGCCGGCGAA 
GGTGGTGCTT ATATTATTCC TAATTTTGGA AAGCCTGTGT ATTGTGGTCT GCAAGGTTGG 
GTTTCCGTAT TAAGAAAAAT TGTGTTTTAC AATGATTTAG CACATCCCCT CAGTGCAAAT 
TTAAGAAATG GACATTGGGC TTTAGACTAC ACTATCAGTA GACTTAATTA CTATAGCGAT 
GAAGCAGGAA TCAATGAAGT GCAGAACTGG CTGCGTTCAA GGTTTGATAG AGTGAAAAAG 
TTACCGAGCT ACTTAGTGCC CAGTTATTTC GCCTTAATTA TCGGCATCCT CTATGGTTGT 
TGTCGCTTAA AAGCAATACA GCTAATGTCC CGTAATATTG GTAAATCTAC ATTGTTTGTA 
CAAAGCTTAT CTATGACATC AATCCAGATG GTTTCCAGAA TGAAGTCAAC CTCTATTTTA 
CCAGGCGAAA ATGTTCCATC TATGGCTGCA GGGTTGCCAC ACTTTAGCGT AAACTACATG 
AGATGTTGGG GGAGAGATGT ATTCATATCG CTAAGAGGTA TGCTATTAAC AACAGGTAGA 
TTTGATGAAG CTAAAGCTCA TATACTAGCC TTTGCAAAGA CTTTGAAGCA TGGTTTAATT 
CCAAACTTGC TGGATGCCGG TAGAAACCCG AGATATAATG CTCGTGATGC TGCCTGGTTC 
TTCTTGCAAG CTGTACAGGA TTATGTTTAT ATTGTTCCTG ATGGCGAAAA AATATTACAA 
GAGCAAGTAA CAAGGAGATT CCCACTGGAT GATACTTACA TTCCTGTAGA TGATCCAAGG 
GCATTTAGTT ACTCTAGTAC CTTGGAGGAG ATCATTTATG AAATTTTGAG TAGGCATGCC 
AAGGGAATTA AATTCAGAGA GGCTAATGCA GGTCCAAATT TAGATCGTGT TATGACTGAT 
AAAGGGTTTA ATGTTGAAAT TCATGTCGAT TGGTCGACTG GCTTAATTCA TGGTGGATCT 
CAGTATAACT GTGGTACTTG GATGGATAAG ATGGGTGAAA GTGAAAAAGC AGGGTCTGTT 
GGTATTCCTG GAACACCCAG AGATGGAGCC GCAATAGAAA TCAATGGGCT TTTAAAAAGT 
GCTTTAAGGT TTGTTATTGA ACTAAAAAAC AAGGGATTGT TTAAGTTTTC CGATGTGGAG 
ACGCAGGACG GCGGGAGGAT CGATTTCACT GAATGGAATC AATTACTTCA AGACAATTTC 
GAAAAAAGAT ATTATGTTCC GGAGGATCCA TCACAGGATG CAGATTATGA CGTGAGCGCT 
AAATTGGGTG TTAATAGACG GGGGATATAC AGAGATTTGT ACAAATCAGG AAAGCCTTAT 
GAAGATTATC AGTTAAGACC AAATTTTGCT ATTGCCATGA CTGTGGCACC AGAGTTATTT 
GTGCCTGAGC ATGCCATAAA AGCAATCACC ATTGCAGATG AAGTCTTAAG AGGTCCAGTA 
GGTATGCGTA CTTTAGACCC AAGCGATTAC AATTACCGTC CGTACTACAA CAACGGAGAA 
GATTCGGATG ATTTTGCCAC CTCAAAGGGT AGAAACTATC ACCAAGGCCC TGAGTGGGTC 
TGGCTTTACG GCTACTTTTT AAGAGCGTTC CATCATTTCC ACTTTAAAAC CAGTCCACGT 
TGTCAGAATG CTGCCAAAGA GAAACCATCC TCTTATTTGT ATCAACAATT ATACTACAGA 
TTAAAAGGCC ATAGAAAATG GATTTTTGAA AGTGTGTGGG CAGGATTGAC AGAGCTAACC 
AATAAAGATG GTGAAGTATG CAATGACTCA AGCCCCACGC AAGCCTGGAG TTCTGCTTGT 
TTGTTAGATC TATTTTATGA TTTATGGGAT GCCTACGAAG ATGATTCCTG A

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

PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI.
Nature387(6632 Suppl)103-5(1997 May)
Bussey H,Storms RK,Ahmed A,Albermann K,Allen E,Ansorge W,Araujo R,Aparicio A,Barrell B,Badcock K,Benes V,Botstein D,Bowman S,Br?ckner M,Carpenter J,Cherry JM,Chung E,Churcher C,Coster F,Davis K,Davis RW,Dietrich FS,Delius H,DiPaolo T,Hani J

Life with 6000 genes.
Science (New York, N.Y.)274(5287)546, 563-7(1996 Oct)
Goffeau A,Barrell BG,Bussey H,Davis RW,Dujon B,Feldmann H,Galibert F,Hoheisel JD,Jacq C,Johnston M,Louis EJ,Mewes HW,Murakami Y,Philippsen P,Tettelin H,Oliver SG

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GDB1 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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