SKI3 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene
Clones
gRNAs

Summary

Gene Symbol	SKI3
Entrez Gene ID	856319
Full Name	SKI complex subunit tetratricopeptide repeat protein SKI3
Synonyms	SKI5
Gene Type	protein-coding
Organism	Saccharomyces cerevisiae S288C

mRNA and Protein(s)

mRNA	Protein	Name
NM_001184286.1	NP_015515.1	SKI complex subunit tetratricopeptide repeat protein SKI3

Pathways from BioSystems

Homologies

Saccharomyces cerevisiae (baker's yeast)	SKI3	NP_015515.1
Eremothecium gossypii	AGOS_AEL281C	NP_984579.2
Schizosaccharomyces pombe (fission yeast)	SPCC1919.05	NP_588487.1
Kluyveromyces lactis	KLLA0B03520g	XP_451691.1
Neurospora crassa	NCU09438	XP_958590.1
Magnaporthe oryzae (rice blast fungus)	MGG_03269	XP_003716697.1

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?

Ski2, Ski3, and Ski8 assemble in a tetramer with 1:1:2 stoichiometry; 370 kDa core complex shows that Ski3 forms an array of 33 tetratricopeptide repeat motifs organized in N-terminal and C-terminal arms. The C-terminal arm of Ski3 and the two Ski8 subunits position the helicase core of Ski2 centrally within the complex, enhancing RNA binding.
Title: The yeast ski complex: crystal structure and RNA channeling to the exosome complex.

Ski3p serves as a scaffold protein with its C terminus interacting with Ski8p, and the sub-C terminus interacting with Ski2p.
Title: Domain interactions within the Ski2/3/8 complex and between the Ski complex and Ski7p.

The following SKI3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SKI3 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
OSi05134	NM_001184286.1 Latest version!	Saccharomyces cerevisiae S288C SKI complex subunit tetratricopeptide repeat protein SKI3 (SKI3), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00

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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)

SKI3 ( NM_001184286.1 ) cDNA ORF clone, Saccharomyces cerevisiae S288C -> NP_015515.1 Saccharomyces cerevisiae S288C SKI complex subunit tetratricopeptide repeat protein SKI3 (SKI3), partial mRNA.

Price & Availability↑

CloneID	OSi05134
Clone ID Related Accession (Same CDS sequence)	NM_001184286.1
Accession Version	NM_001184286.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4299bp) 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	SKI complex subunit tetratricopeptide repeat protein SKI3
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.

ATGTCGGATA TTAAACAGCT ATTGAAGGAA GCCAAACAAG AATTGACAAA TCGTGACTAT 
GAAGAGACCA TCGAAATATC GGAAAAGGTT CTTAAACTAG ATCCCGATAA TTATTTCGCA 
CATATTTTTC TAGGGAAAGC ACTTTCGAGT CTTCCAGCTA GTAATAATGT CAGTTCAAAT 
CGGAACCTGG AGAGAGCTAC TAATCATTAC GTGTCCGCTG CCAAATTAGT TCCTGATAAC 
CTTTTAGCGT GGAAAGGACT TTTTCTCTTA TTTAGAACCA CTGAGGTTGT CCCAGACATA 
CTTTCGTATG ATGAATATTT TGACCTGTGT GGCCAATATG CAGACGCACT TTTAAAGCAG 
GAACAGTCTC AAGTAGAACT AATAAATGAC ATAAAATTAC TAAAGAAAAC GCATCCAGAT 
TGTCAAAAAG CCTTTTATCA GCATTTGAAA CCTGGGTCGC TAATGGCGGA AACTATTGGT 
CGTCATCTAT CTACACCCCA GGACGCTTTA TTAAATCTTA TAAAGATACT GTCTAATATT 
GAAACAACGG AAATAGGTAA GACCCTTAGT CAGAACAGGT TAAAACTAAA AGCTAGTGAT 
CCTGATTATC AAATTAAACT AAATTCATTC TCCTGGGAAA TAATTAAAAA TTCAGAAATT 
GATCAGTTAT ACAACCAGTT GGTAAATATT CTCGCTGACG ATCAAAAGAG AAGTGAAATT 
GAGAACCAGT GGTTAGAATA TAGAATCAAA GTGCTAAAAT CAATGCCGCT GGATGTAAAA 
AAAGATTTTT TCACGAAAGT TAAGGAAATG GTCGAGGATA TGGTTCTTGT GAATCATCAA 
TCTTTGCTTG CATGGCAAAA GTATTTCGAA TGGACAGATT ACGAAGATCT GGACAACATG 
GATGCCCCAT TGATAATAAA GTACTTTAAG AAATTTCCTA AAGATCCATT GGCCATGATC 
CTCTATTCCT GGCTTTCCTC AAAACTATCG AAATATGATA TTAAAAGTTT GGAATCGGCT 
AATAAACCAC CTGAAGGCCA TAAAAAGACG GAGAAGGAAA CAGATATTAA GGATGTAGAT 
GAGACAAATG AAGATGAAGT TAAAGATCGC GTTGAAGATG AAGTTAAAGA TCGTGTTGAA 
GATGAAGTCA AAGATCAAGA TGAGGAGGCA AAGGAAGATG AAGAAGAAGA CCTTGATGAT 
ATAGAAATTG GTTTATTAGA GGAAGAGGTT GTCACTGTAT TGACGGAGAA TATCGTAAAA 
TGTAAAAATA ATATCTTAGC GCATCGCATT CTTTGTCAAT ATTACCTACT GACCAAGGAG 
TATGAGGCAG CTTTACCATA CATCAAAAAT GGTATTTCTT TAATTGCCTA TAATATAAAG 
GACCTGGGGG TACATTTGCC ATTAACAAAA AGAGAATTTT CTCTGGATTT GGCTACCGTT 
TATACATATG TCGATGCCCC AAAGGACCAC AATGCTGCAT TAAAGTTATA TGATAACATT 
TTATCCGGTG ATTTTAGTAA TATACAAGCA AAAATGGGCA AAGGTATAAT TTTTATTGAA 
AGGAAAAATT GGAAGGATGC TATGACATTA CTAACACAGG TGCATGAACA ATCGCCTAAT 
AATCTGGAAG TTTTATCTGA ACTGTCATGG AGTAAAGCCC ATATGGGTTA TATGGACGAG 
GCATTAGCTG GCTTAGATAC TGTCATCAAG GGTATCAAAG GTATGGATTT ACGTTCGATA 
GATTTCAGAG CATTAAACTT ATGGAGGCAA GCCAAAGTTT ACATTATGAA GCATGCTTCC 
ATTAACGATG CTAAACAGGA AAACGTCAAG TGCGCATTCA AATTACTCAT TCAGAGTATT 
AAAATATTGG ACACTTTTGC TCCCGGATTT TCGACACTGG GCGATATTTA TTGCCACTAT 
TATAAAGACC ATTTGAGGGC CTTCAAATGT TATTTCAAAG CTTTCGATCT GGATGCGGGG 
GATTACACAG CAGCGAAGTA TATTACCGAA ACTTATGCAA GCAAGCCCAA TTGGCAAGCT 
GCTTCTTCCA TCGCTTCAAG ATTAATTAAA GGTGAAAAAG CAAAGGCAGA ACTGCGCTCA 
AATAACTGGC CCTTTAGGGT CGTAGGGATT GCTCATTTGG AAAAGCAAGA AGAAAGTGAT 
TCTATTGAGT GGTTTCAATC TGCTTTACGT GTTGATCCAA ATGATGTAGA GTCATGGGTG 
GGCCTGGGAC AAGCATACCA CGCGTGTGGT CGTATAGAAG CATCTATCAA AGTTTTTGAC 
AAGGCAATTC AATTAAGGCC CTCTCATACT TTTGCCCAAT ACTTTAAAGC TATTTCTCTA 
TGTGACGTAG GTGAATATCT TGAAAGTTTA GACATTCTGG AAAAGGTATG TCAAGAAGCC 
GCTACAGAAG AGTCATTCCA AATTGGTTTA GTGGAAGTGC TTATGAGATG TTCCTTGGAT 
TTATATTCGC AAGGGTTCTT GCTCAAATCA GTTTCAATTG CAAAGGACAC TATTGAACGG 
ATCAAGATAA TTATCAGTGA ATTAAAATGT GAGAACCAAC AGGTTTGGAT CTACCTTTCA 
CAAGTACTGA GATTATTTAT TTGGATAGAG TCAAAGGTTG ATACTTTACC TGTTGAATCA 
CTAGTATCAA TTTTTGAAAA TTCTCAATTT TCTGGTAGTG AAGAAATTGA TTCTGTCGAC 
AATATCAAAA TCGATACTTT ACTCGATAGC ACTACTGATG ATAATGTGTC CATTGCGTGC 
AAGTTTTTGA TCTTAGCTTC AAAATATAGT GTTTCGGATC AAAAATTTAC AGATATAGCA 
GGAACGGTCA GGGCCTCATA CTGGTATAAT ATAGGTATCT CAGAGCTTAC TGCTTTCATA 
ACATTGAAAG AACCGCAGTA TAGAGATGCT GCTATTTTTG CTTTTAAGAA ATCCATTCAA 
TTACAGTCTA ATACAAGTGA AACTTGGATT GGTCTAGGGA TAGCCACTAT GGACATCAAC 
TTTCGTGTCT CTCAACATTG CTTTATTAAA GCAACTGCTT TGGAACCGAA GGCGACAAAT 
ACATGGTTCA ACTTGGCTAT GCTAGGTTTA AAGAAAAAGG ATACTGAATT TGCTCAACAG 
GTTCTGAATA AATTACAAAG CCTTGCCCCA CAAGATTCGT CACCTTGGCT AGGTATGGCC 
TTGATTCTTG AGGAACAAGG AGACATTATC GGAAGTTCTA AACTTTTTGC ACACTCCTTC 
ATATTATCTA ATGGAAGGTC AAAGGCTGCG CAATTTATGT ATGCTAAAAA TGTCCTTGAG 
AATCACATTA ATAATGGTGA CGATGAAAGA GATATTGAGA CAGTGGAAAA ACTAACCACT 
GCTTCAATAG CTTTAGAGCA GTTTTTCAAA AAAAGTCCTG ATAGTCAATT TGCTCTTCAA 
TGTGCTCTTC TAACTCTTGA AAGGTTACAT CACTATGAAA ATGCAAACGA ACTGGCTAAT 
CGGTTGATAG GCATTTTGGA AAAAAAGTTT GAGAAAACTC AAGATGAAAG AGAACTGTTT 
AATTTTGCGA TAATTAAAGG ACAATTCGCT CGTATTCACT TAGGTTTAGG AAATTTCGAA 
CTCTCTATTG AAAACGCTGA TCTTTCTCAA GGTATTATAT CTGAATCGAG CGACGAAAAA 
TCAATGAAAA CCAAAATATC CAATCACATT TGCTTAGGAT TAAGTTATTT CTTCTTAAAC 
GACTTTGATC AGACTTTGAA CCAATTCCAA GAACTGCTAA GCATTTCAAA GGATTCTAAG 
CACCTAGTTG TTTTAATTGC GAAGGTGCTT TATGATGTAG GTGAATCTGA CACAAAGGAA 
ATTGCTTTAC AGGAACTAAC AGAATATATA GCCACAAGCG GCGCAGACTT GTTAGTAACA 
CTAACGATTG CAGCTATGTC AATTCTAGAC GATAAGCGTG AAGATTTAAG CATTATTTTA 
GAAGAATTGA AAGCTTTGCC ATTATCCAAA CAAATAATAG ATAAGCACAA AGACGCACCA 
TATCTGATAG AAGAAATTAC TAAGAGACTT TATCGTAACG ATACCGGTAA ACAAGTATGG 
CAAAGGAGTG CGTACTTTTT CCCTAATAAC CTCAAGGTTT GGGAGAGATT AGATAAGAAT 
ATTCAACGAA GAATAGCTTC TAATGGACAA AATAAAGTTA CTGCGGAGGA GATGAGTAAA 
CTATATTGTG AGAGTAAGAA TTTGAGAAGC ATACAAAGAG GTATGTTTTT GTGCCCTTGG 
AACGTTACTG CAGTGAAGGC GCTAAACGAA TGTTTCTAA

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

RefSeq	NP_015515.1
CDS	1..4299
Translation	MSDIKQLLKEAKQELTNRDYEETIEISEKVLKLDPDNYFAHIFLGKALSSLPASNNVSSNRNLERATNHYVSAAKLVPDNLLAWKGLFLLFRTTEVVPDILSYDEYFDLCGQYADALLKQEQSQVELINDIKLLKKTHPDCQKAFYQHLKPGSLMAETIGRHLSTPQDALLNLIKILSNIETTEIGKTLSQNRLKLKASDPDYQIKLNSFSWEIIKNSEIDQLYNQLVNILADDQKRSEIENQWLEYRIKVLKSMPLDVKKDFFTKVKEMVEDMVLVNHQSLLAWQKYFEWTDYEDLDNMDAPLIIKYFKKFPKDPLAMILYSWLSSKLSKYDIKSLESANKPPEGHKKTEKETDIKDVDETNEDEVKDRVEDEVKDRVEDEVKDQDEEAKEDEEEDLDDIEIGLLEEEVVTVLTENIVKCKNNILAHRILCQYYLLTKEYEAALPYIKNGISLIAYNIKDLGVHLPLTKREFSLDLATVYTYVDAPKDHNAALKLYDNILSGDFSNIQAKMGKGIIFIERKNWKDAMTLLTQVHEQSPNNLEVLSELSWSKAHMGYMDEALAGLDTVIKGIKGMDLRSIDFRALNLWRQAKVYIMKHASINDAKQENVKCAFKLLIQSIKILDTFAPGFSTLGDIYCHYYKDHLRAFKCYFKAFDLDAGDYTAAKYITETYASKPNWQAASSIASRLIKGEKAKAELRSNNWPFRVVGIAHLEKQEESDSIEWFQSALRVDPNDVESWVGLGQAYHACGRIEASIKVFDKAIQLRPSHTFAQYFKAISLCDVGEYLESLDILEKVCQEAATEESFQIGLVEVLMRCSLDLYSQGFLLKSVSIAKDTIERIKIIISELKCENQQVWIYLSQVLRLFIWIESKVDTLPVESLVSIFENSQFSGSEEIDSVDNIKIDTLLDSTTDDNVSIACKFLILASKYSVSDQKFTDIAGTVRASYWYNIGISELTAFITLKEPQYRDAAIFAFKKSIQLQSNTSETWIGLGIATMDINFRVSQHCFIKATALEPKATNTWFNLAMLGLKKKDTEFAQQVLNKLQSLAPQDSSPWLGMALILEEQGDIIGSSKLFAHSFILSNGRSKAAQFMYAKNVLENHINNGDDERDIETVEKLTTASIALEQFFKKSPDSQFALQCALLTLERLHHYENANELANRLIGILEKKFEKTQDERELFNFAIIKGQFARIHLGLGNFELSIENADLSQGIISESSDEKSMKTKISNHICLGLSYFFLNDFDQTLNQFQELLSISKDSKHLVVLIAKVLYDVGESDTKEIALQELTEYIATSGADLLVTLTIAAMSILDDKREDLSIILEELKALPLSKQIIDKHKDAPYLIEEITKRLYRNDTGKQVWQRSAYFFPNNLKVWERLDKNIQRRIASNGQNKVTAEEMSKLYCESKNLRSIQRGMFLCPWNVTAVKALNECF

Target ORF information:

RefSeq Version	NM_001184286.1
Organism	Saccharomyces cerevisiae S288C
Definition	Saccharomyces cerevisiae S288C SKI complex subunit tetratricopeptide repeat protein SKI3 (SKI3), partial mRNA.

Target ORF information:

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

NM_001184286.1

ORF Insert Sequence:

ATGTCGGATA TTAAACAGCT ATTGAAGGAA GCCAAACAAG AATTGACAAA TCGTGACTAT 
GAAGAGACCA TCGAAATATC GGAAAAGGTT CTTAAACTAG ATCCCGATAA TTATTTCGCA 
CATATTTTTC TAGGGAAAGC ACTTTCGAGT CTTCCAGCTA GTAATAATGT CAGTTCAAAT 
CGGAACCTGG AGAGAGCTAC TAATCATTAC GTGTCCGCTG CCAAATTAGT TCCTGATAAC 
CTTTTAGCGT GGAAAGGACT TTTTCTCTTA TTTAGAACCA CTGAGGTTGT CCCAGACATA 
CTTTCGTATG ATGAATATTT TGACCTGTGT GGCCAATATG CAGACGCACT TTTAAAGCAG 
GAACAGTCTC AAGTAGAACT AATAAATGAC ATAAAATTAC TAAAGAAAAC GCATCCAGAT 
TGTCAAAAAG CCTTTTATCA GCATTTGAAA CCTGGGTCGC TAATGGCGGA AACTATTGGT 
CGTCATCTAT CTACACCCCA GGACGCTTTA TTAAATCTTA TAAAGATACT GTCTAATATT 
GAAACAACGG AAATAGGTAA GACCCTTAGT CAGAACAGGT TAAAACTAAA AGCTAGTGAT 
CCTGATTATC AAATTAAACT AAATTCATTC TCCTGGGAAA TAATTAAAAA TTCAGAAATT 
GATCAGTTAT ACAACCAGTT GGTAAATATT CTCGCTGACG ATCAAAAGAG AAGTGAAATT 
GAGAACCAGT GGTTAGAATA TAGAATCAAA GTGCTAAAAT CAATGCCGCT GGATGTAAAA 
AAAGATTTTT TCACGAAAGT TAAGGAAATG GTCGAGGATA TGGTTCTTGT GAATCATCAA 
TCTTTGCTTG CATGGCAAAA GTATTTCGAA TGGACAGATT ACGAAGATCT GGACAACATG 
GATGCCCCAT TGATAATAAA GTACTTTAAG AAATTTCCTA AAGATCCATT GGCCATGATC 
CTCTATTCCT GGCTTTCCTC AAAACTATCG AAATATGATA TTAAAAGTTT GGAATCGGCT 
AATAAACCAC CTGAAGGCCA TAAAAAGACG GAGAAGGAAA CAGATATTAA GGATGTAGAT 
GAGACAAATG AAGATGAAGT TAAAGATCGC GTTGAAGATG AAGTTAAAGA TCGTGTTGAA 
GATGAAGTCA AAGATCAAGA TGAGGAGGCA AAGGAAGATG AAGAAGAAGA CCTTGATGAT 
ATAGAAATTG GTTTATTAGA GGAAGAGGTT GTCACTGTAT TGACGGAGAA TATCGTAAAA 
TGTAAAAATA ATATCTTAGC GCATCGCATT CTTTGTCAAT ATTACCTACT GACCAAGGAG 
TATGAGGCAG CTTTACCATA CATCAAAAAT GGTATTTCTT TAATTGCCTA TAATATAAAG 
GACCTGGGGG TACATTTGCC ATTAACAAAA AGAGAATTTT CTCTGGATTT GGCTACCGTT 
TATACATATG TCGATGCCCC AAAGGACCAC AATGCTGCAT TAAAGTTATA TGATAACATT 
TTATCCGGTG ATTTTAGTAA TATACAAGCA AAAATGGGCA AAGGTATAAT TTTTATTGAA 
AGGAAAAATT GGAAGGATGC TATGACATTA CTAACACAGG TGCATGAACA ATCGCCTAAT 
AATCTGGAAG TTTTATCTGA ACTGTCATGG AGTAAAGCCC ATATGGGTTA TATGGACGAG 
GCATTAGCTG GCTTAGATAC TGTCATCAAG GGTATCAAAG GTATGGATTT ACGTTCGATA 
GATTTCAGAG CATTAAACTT ATGGAGGCAA GCCAAAGTTT ACATTATGAA GCATGCTTCC 
ATTAACGATG CTAAACAGGA AAACGTCAAG TGCGCATTCA AATTACTCAT TCAGAGTATT 
AAAATATTGG ACACTTTTGC TCCCGGATTT TCGACACTGG GCGATATTTA TTGCCACTAT 
TATAAAGACC ATTTGAGGGC CTTCAAATGT TATTTCAAAG CTTTCGATCT GGATGCGGGG 
GATTACACAG CAGCGAAGTA TATTACCGAA ACTTATGCAA GCAAGCCCAA TTGGCAAGCT 
GCTTCTTCCA TCGCTTCAAG ATTAATTAAA GGTGAAAAAG CAAAGGCAGA ACTGCGCTCA 
AATAACTGGC CCTTTAGGGT CGTAGGGATT GCTCATTTGG AAAAGCAAGA AGAAAGTGAT 
TCTATTGAGT GGTTTCAATC TGCTTTACGT GTTGATCCAA ATGATGTAGA GTCATGGGTG 
GGCCTGGGAC AAGCATACCA CGCGTGTGGT CGTATAGAAG CATCTATCAA AGTTTTTGAC 
AAGGCAATTC AATTAAGGCC CTCTCATACT TTTGCCCAAT ACTTTAAAGC TATTTCTCTA 
TGTGACGTAG GTGAATATCT TGAAAGTTTA GACATTCTGG AAAAGGTATG TCAAGAAGCC 
GCTACAGAAG AGTCATTCCA AATTGGTTTA GTGGAAGTGC TTATGAGATG TTCCTTGGAT 
TTATATTCGC AAGGGTTCTT GCTCAAATCA GTTTCAATTG CAAAGGACAC TATTGAACGG 
ATCAAGATAA TTATCAGTGA ATTAAAATGT GAGAACCAAC AGGTTTGGAT CTACCTTTCA 
CAAGTACTGA GATTATTTAT TTGGATAGAG TCAAAGGTTG ATACTTTACC TGTTGAATCA 
CTAGTATCAA TTTTTGAAAA TTCTCAATTT TCTGGTAGTG AAGAAATTGA TTCTGTCGAC 
AATATCAAAA TCGATACTTT ACTCGATAGC ACTACTGATG ATAATGTGTC CATTGCGTGC 
AAGTTTTTGA TCTTAGCTTC AAAATATAGT GTTTCGGATC AAAAATTTAC AGATATAGCA 
GGAACGGTCA GGGCCTCATA CTGGTATAAT ATAGGTATCT CAGAGCTTAC TGCTTTCATA 
ACATTGAAAG AACCGCAGTA TAGAGATGCT GCTATTTTTG CTTTTAAGAA ATCCATTCAA 
TTACAGTCTA ATACAAGTGA AACTTGGATT GGTCTAGGGA TAGCCACTAT GGACATCAAC 
TTTCGTGTCT CTCAACATTG CTTTATTAAA GCAACTGCTT TGGAACCGAA GGCGACAAAT 
ACATGGTTCA ACTTGGCTAT GCTAGGTTTA AAGAAAAAGG ATACTGAATT TGCTCAACAG 
GTTCTGAATA AATTACAAAG CCTTGCCCCA CAAGATTCGT CACCTTGGCT AGGTATGGCC 
TTGATTCTTG AGGAACAAGG AGACATTATC GGAAGTTCTA AACTTTTTGC ACACTCCTTC 
ATATTATCTA ATGGAAGGTC AAAGGCTGCG CAATTTATGT ATGCTAAAAA TGTCCTTGAG 
AATCACATTA ATAATGGTGA CGATGAAAGA GATATTGAGA CAGTGGAAAA ACTAACCACT 
GCTTCAATAG CTTTAGAGCA GTTTTTCAAA AAAAGTCCTG ATAGTCAATT TGCTCTTCAA 
TGTGCTCTTC TAACTCTTGA AAGGTTACAT CACTATGAAA ATGCAAACGA ACTGGCTAAT 
CGGTTGATAG GCATTTTGGA AAAAAAGTTT GAGAAAACTC AAGATGAAAG AGAACTGTTT 
AATTTTGCGA TAATTAAAGG ACAATTCGCT CGTATTCACT TAGGTTTAGG AAATTTCGAA 
CTCTCTATTG AAAACGCTGA TCTTTCTCAA GGTATTATAT CTGAATCGAG CGACGAAAAA 
TCAATGAAAA CCAAAATATC CAATCACATT TGCTTAGGAT TAAGTTATTT CTTCTTAAAC 
GACTTTGATC AGACTTTGAA CCAATTCCAA GAACTGCTAA GCATTTCAAA GGATTCTAAG 
CACCTAGTTG TTTTAATTGC GAAGGTGCTT TATGATGTAG GTGAATCTGA CACAAAGGAA 
ATTGCTTTAC AGGAACTAAC AGAATATATA GCCACAAGCG GCGCAGACTT GTTAGTAACA 
CTAACGATTG CAGCTATGTC AATTCTAGAC GATAAGCGTG AAGATTTAAG CATTATTTTA 
GAAGAATTGA AAGCTTTGCC ATTATCCAAA CAAATAATAG ATAAGCACAA AGACGCACCA 
TATCTGATAG AAGAAATTAC TAAGAGACTT TATCGTAACG ATACCGGTAA ACAAGTATGG 
CAAAGGAGTG CGTACTTTTT CCCTAATAAC CTCAAGGTTT GGGAGAGATT AGATAAGAAT 
ATTCAACGAA GAATAGCTTC TAATGGACAA AATAAAGTTA CTGCGGAGGA GATGAGTAAA 
CTATATTGTG AGAGTAAGAA TTTGAGAAGC ATACAAAGAG GTATGTTTTT GTGCCCTTGG 
AACGTTACTG CAGTGAAGGC GCTAAACGAA TGTTTCTAA

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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SKI3 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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