FLO11 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene
Clones
gRNAs

Summary

Gene Symbol	FLO11
Entrez Gene ID	854836
Full Name	Flo11p
Synonyms	MUC1,STA4
Gene Type	protein-coding
Organism	Saccharomyces cerevisiae S288C

mRNA and Protein(s)

mRNA	Protein	Name
NM_001179541.3	NP_012284.3	Flo11p

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome IX.
Churcher C, Bowman S, Badcock K, Bankier A, Brown D, Chillingworth T, Connor R, Devlin K, Gentles S, Hamlin N, Harris D, Horsnell T, Hunt S, Jagels K, Jones M, Lye G, Moule S, Odell C, Pearson D, Rajandream M, Rice P, Rowley N, Skelton J, Smith V, Barrell B
Nature387(6632 Suppl)84-7(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?

IRA2 mutation reveals the phenotypic effects of the cryptic variants by disrupting the transcriptional silencing of one or more genes that contribute to the trait.We also show that this ability to disrupt FLO11 repression is not unique to IRA2
Title: Transcriptional Derepression Uncovers Cryptic Higher-Order Genetic Interactions.

by deleting many of the known transcriptional activators of invasion, as well as the gene encoding the cell surface protein Flo11 from five relevant segregants and showing that these individuals differ in the genes they require for invasion
Title: Regulatory Rewiring in a Cross Causes Extensive Genetic Heterogeneity.

Interactions by the fungal Flo11 adhesin depend on a fibronectin type III-like adhesin domain girdled by aromatic bands.
Title: Interactions by the Fungal Flo11 Adhesin Depend on a Fibronectin Type III-like Adhesin Domain Girdled by Aromatic Bands.

Gcn5 plays an important role in the regulatory network of FLO11 expression via Gcn4 by downregulating ICR1 expression, which derepresses FLO11 for promoting pseudohyphal development
Title: The Histone Acetyltransferase Gcn5 Regulates ncRNA-ICR1 and FLO11 Expression during Pseudohyphal Development in Saccharomyces cerevisiae.

Flo11 downregulation causes filamentous and invasive growth of rho mutants.
Title: Dysfunctional mitochondria modulate cAMP-PKA signaling and filamentous and invasive growth of Saccharomyces cerevisiae.

The following FLO11 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FLO11 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
OSi03850	NM_001179541.3 Latest version!	Saccharomyces cerevisiae S288C Flo11p (FLO11), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00

ORF Online Only Promotion

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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)

FLO11 ( NM_001179541.3 ) cDNA ORF clone, Saccharomyces cerevisiae S288C -> NP_012284.3 Saccharomyces cerevisiae S288C Flo11p (FLO11), partial mRNA.

Price & Availability↑

CloneID	OSi03850
Clone ID Related Accession (Same CDS sequence)	NM_001179541.3
Accession Version	NM_001179541.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4104bp) 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	Flo11p
Comment	Comment: REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001141). On Jul 30, 2012 this sequence version replaced NM_001179541.2. ##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.

ATGCAAAGAC CATTTCTACT CGCTTATTTG GTCCTTTCGC TTCTATTTAA CTCGGCTTTG 
GGTTTTCCAA CTGCACTAGT TCCAAGAGGA TCCTCCGAAG GAACTAGCTG TAATTCTATC 
GTTAATGGCT GTCCCAACTT AGACTTCAAT TGGCACATGG ACCAGCAAAA TATCATGCAG 
TATACTTTGG ATGTGACTTC CGTTTCTTGG GTTCAAGACA ACACATACCA AATCACTATT 
CATGTCAAAG GTAAAGAAAA TATTGACCTG AAGTATCTAT GGTCTTTGAA AATCATTGGT 
GTCACTGGTC CAAAAGGTAC CGTCCAACTA TACGGTTACA ACGAAAATAC CTATTTGATT 
GACAACCCAA CTGATTTCAC AGCCACTTTT GAAGTTTATG CCACACAAGA TGTCAACAGC 
TGTCAGGTGT GGATGCCTAA CTTCCAAATT CAATTCGAGT ATTTGCAAGG TAGTGCCGCT 
CAATATGCAA GCTCCTGGCA ATGGGGAACT ACATCTTTTG ATTTGTCTAC TGGTTGTAAC 
AACTATGACA ATCAAGGCCA CTCTCAAACG GATTTCCCAG GCTTCTATTG GAACATAGAT 
TGTGACAATA ATTGTGGCGG TACGAAGTCA TCTACCACTA CATCTAGCAC TTCCGAGTCA 
TCTACCACTA CATCTAGCAC TTCCGAGTCA TCTACCACTA CATCTAGCAC TTCCGAGTCA 
TCTACCACTA CATCTAGCAC TTCCGAGTCA TCTACATCAT CATCAACCAC CGCTCCTGCT 
ACACCAACCA CTACCTCATG CACTAAGGAA AAGCCTACAC CCCCAACCAC TACCTCATGC 
ACAAAGGAAA AGCCTACACC TCCTCATCAC GACACCACTC CATGTACAAA GAAGAAAACT 
ACCACATCTA AGACATGCAC TAAGAAGACT ACTACTCCAG TACCAACCCC ATCAAGCTCT 
ACTACTGAAA GTTCTTCTGC TCCAGTACCA ACTCCATCCA GCTCTACTAC TGAAAGCTCT 
TCTGCTCCAG TAACCAGCTC TACCACTGAA AGCTCTTCTG CTCCAGTACC AACCCCATCA 
AGCTCTACTA CTGAAAGCTC TTCTGCTCCA GTAACCAGCT CTACCACTGA AAGCTCTTCT 
GCTCCAGTAA CCAGCTCTAC CACTGAAAGC TCTTCTGCTC CAGTACCAAC TCCATCCAGC 
TCTACTACTG AAAGCTCTTC TGCTCCAGTA ACCAGCTCTA CCACTGAAAG CTCTTCTGCT 
CCAGTAACCA GCTCTACCAC TGAAAGCTCT TCTGCTCCAG TAACCAGCTC TACCACTGAA 
AGCTCTTCTG CTCCAGTAAC CAGCTCTACC ACTGAAAGCT CTTCTGCTCC AGTACCAACT 
CCATCCAGCT CTACTACTGA AAGCTCTTCT GCTCCAGTAA CCAGCTCTAC CACTGAAAGC 
TCTTCTGCTC CAGTACCAAC TCCATCCAGC TCTACTACTG AAAGCTCTTC TGCTCCAGTA 
ACCAGCTCTA CCACTGAAAG CTCTTCTGCT CCAGTACCAA CTCCATCCAG CTCTACTACT 
GAAAGCTCTT CTGCTCCAGC TCCAACCCCA TCAAGCTCCA CCACTGAAAG CTCTTCTGCT 
CCAGTAACCA GCTCTACCAC TGAAAGCTCT TCTGCTCCAG TACCAACTCC ATCCAGCTCT 
ACTACTGAAA GCTCTTCTAC TCCAGTAACC AGCTCCACCA CTGAAAGCTC TTCTGCTCCA 
GTGCCAACTC CATCAAGCTC TACTACTGAA AGCTCTTCTG CTCCAGTACC AACTCCATCA 
AGCTCTACTA CTGAAAGCTC TTCTGCTCCA GCTCCAACCC CATCAAGCTC TACTACTGAA 
AGCTCTTCTG CTCCAGTAAC CAGCTCTACC ACTGAAAGCT CTTCTGCTCC AGTACCAACT 
CCATCCAGCT CTACTACTGA AAGCTCTTCT GCTCCAGTAC CAACCCCATC CAGCTCTACT 
ACTGAAAGCT CTTCTGCTCC AGTACCAACT CCATCCAGCT CTACTACTGA AAGCTCTTCT 
GCTCCAGTAA CCAGCTCTAC CACTGAAAGC TCTTCTGCTC CAGTAACCAG CTCTACCACT 
GAAAGCTCTT CTGCTCCAGT ACCAACTCCA TCCAGCTCTA CTACTGAAAG CTCTTCTGCT 
CCAGTACCAA CTCCATCCAG CTCTACTACT GAAAGCTCTT CTGCTCCAGT ACCAACTCCA 
TCCAGCTCTA CTACTGAAAG CTCTTCTGCT CCAGTAACCA GCTCTACCAC TGAAAGCTCT 
TCTGCTCCAG TACCAACTCC ATCCAGCTCT ACTACTGAAA GCTCTTCTGC TCCAGTGCCA 
ACTCCATCCA GCTCTACTAC CGAAAGCTCT TCTGCTCCAG TACCAACCCC ATCAAGCTCT 
ACTACTGAAA GCTCTGTAGC ACCAGTACCA ACCCCATCTT CCTCTAGCAA CATCACTTCC 
TCCGCTCCAT CTTCAACCCC ATTCAGCTCT AGCACTGAAA GCTCTTCTGT TCCAGTACCA 
ACCCCATCAA GCTCTACTAC TGAAAGCTCT TCTGCTCCAG TATCCAGCTC CACCACTGAA 
AGCTCTGTAG CACCAGTACC AACCCCATCT TCCTCTAGCA ACATCACTTC CTCCGCTCCA 
TCTTCAATTC CATTCAGCTC TACTACTGAA AGCTTTTCTA CTGGCACTAC TGTCACTCCA 
TCATCATCCA AATACCCTGG CAGTCAAACA GAAACCTCTG TTTCTTCTAC AACCGAAACT 
ACCATTGTTC CAACTAAAAC TACGACTTCT GTCACTACAC CATCAACAAC CACTATTACC 
ACTACGGTTT GCTCTACAGG AACAAACTCT GCCGGTGAAA CTACCTCTGG ATGCTCTCCA 
AAGACCGTTA CAACTACTGT TCCAACTACA ACTACGACTT CTGTCACTAC ATCATCAACA 
ACCACTATTA CTACTACAGT TTGCTCTACA GGAACAAACT CTGCCGGTGA AACTACCTCT 
GGATGCTCTC CAAAGACCAT TACAACTACT GTTCCATGTT CAACCAGTCC AAGCGAAACC 
GCCTCGGAAT CAACAACCAC TTCACCTACC ACACCTGTAA CTACAGTTGT CTCAACCACC 
GTCGTTACTA CTGAGTATTC TACTAGTACA AAACCAGGTG GTGAAATTAC AACTACATTT 
GTCACCAAAA ACATTCCAAC CACTTACCTA ACCACAATTG CTCCAACTCC ATCAGTCACT 
ACGGTTACCA ATTTCACCCC AACCACTATT ACTACTACGG TTTGCTCTAC AGGTACAAAC 
TCTGCCGGTG AAACTACCTC TGGATGCTCT CCAAAGACTG TCACAACCAC TGTTCCTTGT 
TCAACTGGTA CTGGCGAATA CACTACTGAA GCTACCACCC TTGTTACAAC AGCTGTCACA 
ACCACCGTTG TTACCACTGA ATCCTCTACG GGTACTAACT CCGCTGGTAA GACGACAACT 
GGTTACACAA CAAAGTCTGT ACCAACCACC TATGTAACCA CTTTGGCTCC AAGTGCACCA 
GTAACTCCTG CCACTAATGC CGTACCAACT ACAATAACCA CTACTGAATG TTCTGCTGCT 
ACAAACGCTG CCGGTGAAAC TACATCTGTA TGCTCTGCTA AGACTATCGT AAGTTCTGCA 
AGCGCAGGCG AAAACACTGC ACCTTCGGCT ACCACCCCTG TCACGACGGC TATTCCAACC 
ACAGTTATTA CCACTGAGTC ATCTGTTGGT ACTAACTCCG CTGGCGAAAC AACAACTGGT 
TACACAACCA AGTCCATCCC AACCACTTAC ATAACCACTT TGATTCCAGG TTCAAATGGT 
GCCAAGAATT ACGAAACTGT GGCCACAGCA ACCAACCCTA TTTCAATCAA GACTACATCC 
CAACTAGCTA CAACAGCTTC TGCTTCTAGC GTGGCTCCCG TTGTCACATC TCCATCTCTA 
ACTGGTCCAC TACAATCTGC TTCTGGTTCT GCAGTCGCTA CATACTCTGT TCCTTCTATC 
TCGAGTACTT ACCAAGGTGC TGCTAATATC AAGGTTCTTG GAAACTTTAT GTGGTTGCTA 
CTCGCTCTTC CAGTTGTATT CTAA

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

RefSeq	NP_012284.3
CDS	1..4104
Translation	MQRPFLLAYLVLSLLFNSALGFPTALVPRGSSEGTSCNSIVNGCPNLDFNWHMDQQNIMQYTLDVTSVSWVQDNTYQITIHVKGKENIDLKYLWSLKIIGVTGPKGTVQLYGYNENTYLIDNPTDFTATFEVYATQDVNSCQVWMPNFQIQFEYLQGSAAQYASSWQWGTTSFDLSTGCNNYDNQGHSQTDFPGFYWNIDCDNNCGGTKSSTTTSSTSESSTTTSSTSESSTTTSSTSESSTTTSSTSESSTSSSTTAPATPTTTSCTKEKPTPPTTTSCTKEKPTPPHHDTTPCTKKKTTTSKTCTKKTTTPVPTPSSSTTESSSAPVPTPSSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPVTSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPVTSSTTESSSAPVTSSTTESSSAPVTSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPAPTPSSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSTPVTSSTTESSSAPVPTPSSSTTESSSAPVPTPSSSTTESSSAPAPTPSSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPVPTPSSSTTESSSAPVPTPSSSTTESSSAPVTSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPVPTPSSSTTESSSAPVPTPSSSTTESSSAPVTSSTTESSSAPVPTPSSSTTESSSAPVPTPSSSTTESSSAPVPTPSSSTTESSVAPVPTPSSSSNITSSAPSSTPFSSSTESSSVPVPTPSSSTTESSSAPVSSSTTESSVAPVPTPSSSSNITSSAPSSIPFSSTTESFSTGTTVTPSSSKYPGSQTETSVSSTTETTIVPTKTTTSVTTPSTTTITTTVCSTGTNSAGETTSGCSPKTVTTTVPTTTTTSVTTSSTTTITTTVCSTGTNSAGETTSGCSPKTITTTVPCSTSPSETASESTTTSPTTPVTTVVSTTVVTTEYSTSTKPGGEITTTFVTKNIPTTYLTTIAPTPSVTTVTNFTPTTITTTVCSTGTNSAGETTSGCSPKTVTTTVPCSTGTGEYTTEATTLVTTAVTTTVVTTESSTGTNSAGKTTTGYTTKSVPTTYVTTLAPSAPVTPATNAVPTTITTTECSAATNAAGETTSVCSAKTIVSSASAGENTAPSATTPVTTAIPTTVITTESSVGTNSAGETTTGYTTKSIPTTYITTLIPGSNGAKNYETVATATNPISIKTTSQLATTASASSVAPVVTSPSLTGPLQSASGSAVATYSVPSISSTYQGAANIKVLGNFMWLLLALPVVF

Target ORF information:

RefSeq Version	NM_001179541.3
Organism	Saccharomyces cerevisiae S288C
Definition	Saccharomyces cerevisiae S288C Flo11p (FLO11), partial mRNA.

Target ORF information:

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

NM_001179541.3

ORF Insert Sequence:

ATGCAAAGAC CATTTCTACT CGCTTATTTG GTCCTTTCGC TTCTATTTAA CTCGGCTTTG 
GGTTTTCCAA CTGCACTAGT TCCAAGAGGA TCCTCCGAAG GAACTAGCTG TAATTCTATC 
GTTAATGGCT GTCCCAACTT AGACTTCAAT TGGCACATGG ACCAGCAAAA TATCATGCAG 
TATACTTTGG ATGTGACTTC CGTTTCTTGG GTTCAAGACA ACACATACCA AATCACTATT 
CATGTCAAAG GTAAAGAAAA TATTGACCTG AAGTATCTAT GGTCTTTGAA AATCATTGGT 
GTCACTGGTC CAAAAGGTAC CGTCCAACTA TACGGTTACA ACGAAAATAC CTATTTGATT 
GACAACCCAA CTGATTTCAC AGCCACTTTT GAAGTTTATG CCACACAAGA TGTCAACAGC 
TGTCAGGTGT GGATGCCTAA CTTCCAAATT CAATTCGAGT ATTTGCAAGG TAGTGCCGCT 
CAATATGCAA GCTCCTGGCA ATGGGGAACT ACATCTTTTG ATTTGTCTAC TGGTTGTAAC 
AACTATGACA ATCAAGGCCA CTCTCAAACG GATTTCCCAG GCTTCTATTG GAACATAGAT 
TGTGACAATA ATTGTGGCGG TACGAAGTCA TCTACCACTA CATCTAGCAC TTCCGAGTCA 
TCTACCACTA CATCTAGCAC TTCCGAGTCA TCTACCACTA CATCTAGCAC TTCCGAGTCA 
TCTACCACTA CATCTAGCAC TTCCGAGTCA TCTACATCAT CATCAACCAC CGCTCCTGCT 
ACACCAACCA CTACCTCATG CACTAAGGAA AAGCCTACAC CCCCAACCAC TACCTCATGC 
ACAAAGGAAA AGCCTACACC TCCTCATCAC GACACCACTC CATGTACAAA GAAGAAAACT 
ACCACATCTA AGACATGCAC TAAGAAGACT ACTACTCCAG TACCAACCCC ATCAAGCTCT 
ACTACTGAAA GTTCTTCTGC TCCAGTACCA ACTCCATCCA GCTCTACTAC TGAAAGCTCT 
TCTGCTCCAG TAACCAGCTC TACCACTGAA AGCTCTTCTG CTCCAGTACC AACCCCATCA 
AGCTCTACTA CTGAAAGCTC TTCTGCTCCA GTAACCAGCT CTACCACTGA AAGCTCTTCT 
GCTCCAGTAA CCAGCTCTAC CACTGAAAGC TCTTCTGCTC CAGTACCAAC TCCATCCAGC 
TCTACTACTG AAAGCTCTTC TGCTCCAGTA ACCAGCTCTA CCACTGAAAG CTCTTCTGCT 
CCAGTAACCA GCTCTACCAC TGAAAGCTCT TCTGCTCCAG TAACCAGCTC TACCACTGAA 
AGCTCTTCTG CTCCAGTAAC CAGCTCTACC ACTGAAAGCT CTTCTGCTCC AGTACCAACT 
CCATCCAGCT CTACTACTGA AAGCTCTTCT GCTCCAGTAA CCAGCTCTAC CACTGAAAGC 
TCTTCTGCTC CAGTACCAAC TCCATCCAGC TCTACTACTG AAAGCTCTTC TGCTCCAGTA 
ACCAGCTCTA CCACTGAAAG CTCTTCTGCT CCAGTACCAA CTCCATCCAG CTCTACTACT 
GAAAGCTCTT CTGCTCCAGC TCCAACCCCA TCAAGCTCCA CCACTGAAAG CTCTTCTGCT 
CCAGTAACCA GCTCTACCAC TGAAAGCTCT TCTGCTCCAG TACCAACTCC ATCCAGCTCT 
ACTACTGAAA GCTCTTCTAC TCCAGTAACC AGCTCCACCA CTGAAAGCTC TTCTGCTCCA 
GTGCCAACTC CATCAAGCTC TACTACTGAA AGCTCTTCTG CTCCAGTACC AACTCCATCA 
AGCTCTACTA CTGAAAGCTC TTCTGCTCCA GCTCCAACCC CATCAAGCTC TACTACTGAA 
AGCTCTTCTG CTCCAGTAAC CAGCTCTACC ACTGAAAGCT CTTCTGCTCC AGTACCAACT 
CCATCCAGCT CTACTACTGA AAGCTCTTCT GCTCCAGTAC CAACCCCATC CAGCTCTACT 
ACTGAAAGCT CTTCTGCTCC AGTACCAACT CCATCCAGCT CTACTACTGA AAGCTCTTCT 
GCTCCAGTAA CCAGCTCTAC CACTGAAAGC TCTTCTGCTC CAGTAACCAG CTCTACCACT 
GAAAGCTCTT CTGCTCCAGT ACCAACTCCA TCCAGCTCTA CTACTGAAAG CTCTTCTGCT 
CCAGTACCAA CTCCATCCAG CTCTACTACT GAAAGCTCTT CTGCTCCAGT ACCAACTCCA 
TCCAGCTCTA CTACTGAAAG CTCTTCTGCT CCAGTAACCA GCTCTACCAC TGAAAGCTCT 
TCTGCTCCAG TACCAACTCC ATCCAGCTCT ACTACTGAAA GCTCTTCTGC TCCAGTGCCA 
ACTCCATCCA GCTCTACTAC CGAAAGCTCT TCTGCTCCAG TACCAACCCC ATCAAGCTCT 
ACTACTGAAA GCTCTGTAGC ACCAGTACCA ACCCCATCTT CCTCTAGCAA CATCACTTCC 
TCCGCTCCAT CTTCAACCCC ATTCAGCTCT AGCACTGAAA GCTCTTCTGT TCCAGTACCA 
ACCCCATCAA GCTCTACTAC TGAAAGCTCT TCTGCTCCAG TATCCAGCTC CACCACTGAA 
AGCTCTGTAG CACCAGTACC AACCCCATCT TCCTCTAGCA ACATCACTTC CTCCGCTCCA 
TCTTCAATTC CATTCAGCTC TACTACTGAA AGCTTTTCTA CTGGCACTAC TGTCACTCCA 
TCATCATCCA AATACCCTGG CAGTCAAACA GAAACCTCTG TTTCTTCTAC AACCGAAACT 
ACCATTGTTC CAACTAAAAC TACGACTTCT GTCACTACAC CATCAACAAC CACTATTACC 
ACTACGGTTT GCTCTACAGG AACAAACTCT GCCGGTGAAA CTACCTCTGG ATGCTCTCCA 
AAGACCGTTA CAACTACTGT TCCAACTACA ACTACGACTT CTGTCACTAC ATCATCAACA 
ACCACTATTA CTACTACAGT TTGCTCTACA GGAACAAACT CTGCCGGTGA AACTACCTCT 
GGATGCTCTC CAAAGACCAT TACAACTACT GTTCCATGTT CAACCAGTCC AAGCGAAACC 
GCCTCGGAAT CAACAACCAC TTCACCTACC ACACCTGTAA CTACAGTTGT CTCAACCACC 
GTCGTTACTA CTGAGTATTC TACTAGTACA AAACCAGGTG GTGAAATTAC AACTACATTT 
GTCACCAAAA ACATTCCAAC CACTTACCTA ACCACAATTG CTCCAACTCC ATCAGTCACT 
ACGGTTACCA ATTTCACCCC AACCACTATT ACTACTACGG TTTGCTCTAC AGGTACAAAC 
TCTGCCGGTG AAACTACCTC TGGATGCTCT CCAAAGACTG TCACAACCAC TGTTCCTTGT 
TCAACTGGTA CTGGCGAATA CACTACTGAA GCTACCACCC TTGTTACAAC AGCTGTCACA 
ACCACCGTTG TTACCACTGA ATCCTCTACG GGTACTAACT CCGCTGGTAA GACGACAACT 
GGTTACACAA CAAAGTCTGT ACCAACCACC TATGTAACCA CTTTGGCTCC AAGTGCACCA 
GTAACTCCTG CCACTAATGC CGTACCAACT ACAATAACCA CTACTGAATG TTCTGCTGCT 
ACAAACGCTG CCGGTGAAAC TACATCTGTA TGCTCTGCTA AGACTATCGT AAGTTCTGCA 
AGCGCAGGCG AAAACACTGC ACCTTCGGCT ACCACCCCTG TCACGACGGC TATTCCAACC 
ACAGTTATTA CCACTGAGTC ATCTGTTGGT ACTAACTCCG CTGGCGAAAC AACAACTGGT 
TACACAACCA AGTCCATCCC AACCACTTAC ATAACCACTT TGATTCCAGG TTCAAATGGT 
GCCAAGAATT ACGAAACTGT GGCCACAGCA ACCAACCCTA TTTCAATCAA GACTACATCC 
CAACTAGCTA CAACAGCTTC TGCTTCTAGC GTGGCTCCCG TTGTCACATC TCCATCTCTA 
ACTGGTCCAC TACAATCTGC TTCTGGTTCT GCAGTCGCTA CATACTCTGT TCCTTCTATC 
TCGAGTACTT ACCAAGGTGC TGCTAATATC AAGGTTCTTG GAAACTTTAT GTGGTTGCTA 
CTCGCTCTTC CAGTTGTATT CTAA

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

PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome IX.
Nature387(6632 Suppl)84-7(1997 May)
Churcher C,Bowman S,Badcock K,Bankier A,Brown D,Chillingworth T,Connor R,Devlin K,Gentles S,Hamlin N,Harris D,Horsnell T,Hunt S,Jagels K,Jones M,Lye G,Moule S,Odell C,Pearson D,Rajandream M,Rice P,Rowley N,Skelton J,Smith V,Barrell B

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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FLO11 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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