SCC2 cDNA ORF clone, Saccharomyces cerevisiae S288C

Gene
Clones
gRNAs

Summary

Gene Symbol	SCC2
Entrez Gene ID	851761
Full Name	cohesin-loading factor complex subunit SCC2
Gene Type	protein-coding
Organism	Saccharomyces cerevisiae S288C

mRNA and Protein(s)

mRNA	Protein	Name
NM_001180488.3	NP_010466.3	cohesin-loading factor complex subunit SCC2

Pathways from BioSystems

Homologies

Kluyveromyces lactis	KLLA0D18194g	XP_453866.1
Eremothecium gossypii	AGOS_AGL133W	NP_986534.1
Saccharomyces cerevisiae (baker's yeast)	SCC2	NP_010466.3

Gene Ontology
Bibliography

Related articles in PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome IV.
Jacq C, Alt-M?rbe J, Andre B, Arnold W, Bahr A, Ballesta JP, Bargues M, Baron L, Becker A, Biteau N, Bl?cker H, Blugeon C, Boskovic J, Brandt P, Br?ckner M, Buitrago MJ, Coster F, Delaveau T, del Rey F, Dujon B, Eide LG, Garcia-Cantalejo JM, Goffeau A, Gomez-Peris A, Zaccaria P
Nature387(6632 Suppl)75-8(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?

Nipbl seems to have also additional roles, for instance as transcription factor.This chapter summarizes our current knowledge on kollerin function and the recent studies on the genomic localization of Scc2, highlighting and critically discussing controversial data.
Title: Resolving the Genomic Localization of the Kollerin Cohesin-Loader Complex.

The role of Scc2 in cohesin loading
Title: Identification of Functional Domains in the Cohesin Loader Subunit Scc4 by a Random Insertion/Dominant Negative Screen.

Authors conclude that normal Scc2 function requires modulation of its phosphorylation state and suggest that scc2 phosphomimetic mutants cause an increased incidence of abortive cohesin deposition events that result in compromised cohesin complex integrity and Mcd1 turnover.
Title: Phosphorylation of the Scc2 cohesin deposition complex subunit regulates chromosome condensation through cohesin integrity.

Scc2 normally promotes a gene expression program that supports translational fidelity. . translational dysfunction may contribute to the human disorder Cornelia de Lange syndrome, which is caused by mutations in NIPBL, the human ortholog of SCC2.
Title: The SMC Loader Scc2 Promotes ncRNA Biogenesis and Translational Fidelity.

These findings reveal the role of Scc4 in determining the localization of cohesin loading and establish a molecular basis for Scc2/4 recruitment to centromeres.
Title: Structural evidence for Scc4-dependent localization of cohesin loading.

The following SCC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SCC2 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
OSi01264	NM_001180488.3 Latest version!	Saccharomyces cerevisiae S288C cohesin-loading factor complex subunit SCC2 (SCC2), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00

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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)

SCC2 ( NM_001180488.3 ) cDNA ORF clone, Saccharomyces cerevisiae S288C -> NP_010466.3 Saccharomyces cerevisiae S288C cohesin-loading factor complex subunit SCC2 (SCC2), partial mRNA.

Price & Availability↑

CloneID	OSi01264
Clone ID Related Accession (Same CDS sequence)	NM_001180488.3
Accession Version	NM_001180488.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4482bp) 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	cohesin-loading factor complex subunit SCC2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by SGD. This record is derived from an annotated genomic sequence (NC_001136). On Jul 30, 2012 this sequence version replaced NM_001180488.2. ##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.

ATGTCGTACC CAGGGAAAGA CAAGAATATT CCTGGAAGAA TAATAGAGGC CCTAGAAGAC 
CTGCCTTTGA GTTATCTGGT TCCTAAGGAT GGGTTAGCCG CGCTAGTAAA TGCCCCAATG 
CGGGTTTCTT TACCTTTTGA CAAGACTATC TTTACCAGCG CTGATGATGG CAGAGATGTT 
AATATAAATG TTCTAGGTAC AGCTAACAGC ACTACTTCTT CCATAAAGAA TGAGGCCGAA 
AAAGAAAGGC TTGTTTTCAA AAGACCCAGT AATTTTACGT CATCAGCCAA TTCTGTTGAT 
TATGTCCCAA CTAACTTTTT GGAAGGATTA TCACCGCTAG CGCAGAGTGT TCTATCAACC 
CATAAAGGGT TGAATGATTC CATTAACATC GAGAAAAAAA GTGAAATAGT AAGCAGACCG 
GAGGCAAAGC ATAAGCTCGA AAGTGTGACT TCGAATGCTG GTAACTTGAG TTTCAACGAC 
AATTCTTCCA ACAAGAAAAC CAAAACTTCA ACAGGTGTAA CCATGACACA AGCGAATTTA 
GCGGAACAAT ATTTGAATGA TCTTAAAAAT ATTTTAGATA TTGTTGGATT TGACCAAAAC 
TCTGCTGAAA TTGGAAATAT CGAGTACTGG CTCCAGTTGC CAAATAAAAA ATTCGTTTTA 
ACTACAAACT GCTTAACCAA ATTACAAATG ACAATTAAAA ATATTACCGA TAACCCACAG 
CTATCGAACT CAATCGAAAT AACATGGCTT TTGAGATTGC TTGATGTGAT GGTTTGTAAT 
ATAAAGTTCA GTAAAAGCTC TTTAAAGATG GGTTTAGATG ATTCTATGTT ACGATATATT 
GCTTTGCTTT CTACAATTGT ACTATTCAAT ATTTTTTTAC TGGGTAAGAA TGACAGCAAC 
TTACATCGGG AATCATACAT CATGGAACCG GTGAATTTTT TAAGCGACTT GATAGAATCT 
CTAAAAATAT TAACAATTGA ATATGGTTCT TTGAAGATAG AATTTGACAC TTTCCAGGAG 
GCCCTAGAAT TGCTACCGAA ATACATACGT AACGGCCCTT TTCTGGATGA TAATGTCACG 
GCAAAGCTTG TGTACATCTT TAGCGACTTG CTGATGAATA ATGACATTGA AGCAACTACG 
AATATCCAAT TTCAAAGTTT TTGGGATAAT GTGAAGAGAA TCAGCTCTGA TATTTTAGTT 
TCATTATTCG GTAGTTTTGA TCAACAGAGA GGATTTATTA TAGAAGAACT ACTATCTCAT 
ATCGAAAAGC TTCCCACTAA GAGAATACAA AAAAAACTAA GAAAAGTTGG TAACCAAAAC 
ATTTATATCA CTGATTTTAC CTTTACTTTA ATGTCAATGT TAGAGAATAT TAATTGCTAC 
TCCTTCTGTA ATCAGATGAA GGATATTGCA CCAGAGAATA TTGATCTATT AAAGAACGAA 
TACAAAAAGC AAGAAGAATT TCTTTTTAAC ATTGTTGAGC ATATAAATGA CACAATACTG 
GAAAGGTTTT TCAAGAACCC GTCCGCTTTA AGGTATGTAA TTGACAACTT TGTCCAAGAT 
CTATTATTGC TAATTTCCTC CCCTCAGTGG CCTGTAACAG AAAAAATACT AAGCTCTTTG 
TTAAAGAGAC TTCTAAGTGT ATACAGCCCA TCCATGCAAG TTTCTGCAAA CATTGAAACA 
ATATGTTTAC AACTTATAGG GAATATTGGT TCTACAATTT TTGATATTAA ATGCTCAACT 
AGAGACCATG AAGATAACAA CTTGATTAAA ATGATTAATT ACCCCGAAAC TTTGCCGCAT 
TTTTTTAAAT CATTTGAAGA ATGCATTGCA TATAATGAAA CGATCAAATG CCGTCGTTCT 
GCAACAAGAT TCCTTTGGAA TTTAAGGCTC GGTACGATCT TGATATTAGA AGAGTATACA 
AAGGATGCCA AAGAACAAAT TATAACCGTT GACAATGAAT TGAAAAAAAT ATTGGAGCAG 
ATAAAAGATG GTGGACTTGG ACCCGAATTA GAGAACAGAG AAGCAGATTT TAGTACGATT 
AAATTGGATT ATTTTTCTAT TTTGCACGCC TTTGAACTAC TGAATCTATA CGATCCATAC 
TTGAAGTTGA TATTATCACT TCTAGCCAAG GATAAAATCA AACTGAGATC GACTGCTATT 
AAATGTCTCT CGATGTTGGC TTCAAAAGAC AAAGTGATAC TTTCAAACCC AATGGTTAAA 
GAAACTATTC ACCGGCGTTT AAACGACTCA TCTGCATCTG TCAAGGATGC CATTCTAGAT 
TTGGTCAGTA TTAATTCTTC ATACTTCGAA TTTTATCAAC AAATTAACAA CAACTATAAC 
GATGATAGCA TAATGGTAAG AAAACATGTG TTAAGAATTA ATGAAAAAAT GTACGACGAG 
ACGAACGACA TCGTCACGAA GGTATACGTA ATAGCAAGAA TCCTAATGAA AATAGAAGAC 
GAGGAGGACA ATATAATTGA TATGGCTAGG CTGATTTTAT TAAATAGATG GATATTAAAG 
GTACATGAAG TATTGGACCA GCCCGAAAAG TTGAAAGAAA TTTCTTCTTC AGTCCTACTA 
GTAATGTCCC GTGTGGCTAT AATGAATGAG AAATGCTCCC AACTTTTCGA CTTGTTTCTC 
AACTTTTATC TCCTAAACAA AGAAGCGCAT TCAAAAGAAG CATACGATAA AATCACTCAC 
GTTCTAACCA TTCTTACCGA CTTTTTGGTA CAAAAAATTG TCGAGCTCAA CTCAGATGAC 
ACAAATGAAA AGAATTCGAT TGTTGATAAA CAAAATTTTT TAAACCTTTT GGCGAAGTTT 
GCTGATTCTA CTGTGTCATT TTTGACTAAA GACCACATTA CAGCATTGTA TCCTTATATG 
GTATCGGACG AAAAATCTGA CTTCCACTAT TATATCTTGC AAGTCTTTAG ATGCACTTTT 
GAAAAATTGG CCAACTTTAA ACAGAAATTT TTGTATGACT TAGAGACGAC CCTTTTGAGT 
AGGCTACCAA AGATGAATGT AAGAGAGATA GATGAAGCTA TGCCTCTTAT CTGGTCTGTT 
GCCACTCATC GTCATGATAC TGCTAGAGTA GCTAAAGCAT GTTCATCCTG TCTTTCCCAT 
TTACATCCAT ATATAAATAA GGCAAATAAC GAGGAAGCTG CCATTGTAGT TGACGGAAAA 
TTGCAAAGGC TGATATATTT ATCCACCGGT TTTGCCAGGT TCTGCTTTCC TAAACCCTCC 
AATGATAAAA TTGCATTTTT ACAAGAAGGT GAAACCCTGT ATGAACATAT TACCAAATGC 
CTACTTGTAC TATCTAAAGA CAAAATTACA CACGTAATAA GAAGGGTTGC TGTGAAAAAT 
CTCACTAAAT TATGTGGAAA TCATCCAAAA CTATTCAATT CAAGACACGT TCTACATTTA 
CTGGACAAAG AATTTCAGAG CGATCAGCTA GATATTAAAC TAGTAATTCT AGAAAGTTTA 
TATGATCTTT TTCTACTGGA AGAAAGGAAG TCAGTGAGAA ACACTGGCGT TAATAGCACT 
TTGTCTTCGA ACTCCATTTT GAAAAAGAAA TTACTGAAAA CGAATAGGGT AGAGTTTGCA 
AATGATGGAG TATGTTCAGC GTTGGCTACT AGATTTTTAG ACAATATTCT CCAACTATGT 
CTCCTACGTG ATCTAAAGAA TTCTCTCGTA GCTATTCGAT TATTAAAGTT GATTTTGAAA 
TTTGGTTACA CAAATCCCTC TCATTCAATT CCAACTGTAA TTGCTTTATT TGCCTCTACT 
AGCCAGTATA TTCGTCATGT CGCCTATGAG TTGTTAGAAG ATCTTTTTGA GAAATACGAA 
ACGCTAGTAT TCAGTAGTTT ATCTCGAGGG GTTACAAAAG CTATACATTA TTCTATTCAT 
ACAGATGAGA AGTATTATTA CAAGCACGAT CATTTTTTGT CTTTACTTGA AAAATTATGT 
GGAACTGGAA AAAAAAATGG CCCAAAGTTC TTTAAAGTTC TGAAGAGAAT CATGCAATCC 
TATTTAGATG ATATCACCGA TTTAACATCA ACAAATAGTA GTGTTCAAAA GTCCATTTTC 
GTTCTCTGCA CTAACATTTC GAATATCACA TTTGTTTCTC AGTACGATTT GGTGTCCCTA 
CTCAAAACCA TTGATTTAAC TACAGATAGA TTAAAAGAGG TTATCATGGA TGAAATAGGT 
GACAATGTTT CATCGCTATC CGTATCAGAA GAAAAGCTCA GTGGAATAAT TTTAATACAG 
TTAAGCTTAC AGGATTTGGG TACTTATCTA CTGCACTTAT ACGGGTTAAG GGATGATGTG 
CTTTTATTAG ATATTGTAGA AGAATCAGAA TTGAAGAACA AACAACTCCC TGCAAAGAAG 
CCGGATATCA GTAAGTTTTC CGCACAGTTG GAGAATATTG AACAGTATTC ATCAAATGGC 
AAGCTTCTTA CATATTTTAG AAAACACGTG AAGGATACGT AA

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

RefSeq	NP_010466.3
CDS	1..4482
Translation	MSYPGKDKNIPGRIIEALEDLPLSYLVPKDGLAALVNAPMRVSLPFDKTIFTSADDGRDVNINVLGTANSTTSSIKNEAEKERLVFKRPSNFTSSANSVDYVPTNFLEGLSPLAQSVLSTHKGLNDSINIEKKSEIVSRPEAKHKLESVTSNAGNLSFNDNSSNKKTKTSTGVTMTQANLAEQYLNDLKNILDIVGFDQNSAEIGNIEYWLQLPNKKFVLTTNCLTKLQMTIKNITDNPQLSNSIEITWLLRLLDVMVCNIKFSKSSLKMGLDDSMLRYIALLSTIVLFNIFLLGKNDSNLHRESYIMEPVNFLSDLIESLKILTIEYGSLKIEFDTFQEALELLPKYIRNGPFLDDNVTAKLVYIFSDLLMNNDIEATTNIQFQSFWDNVKRISSDILVSLFGSFDQQRGFIIEELLSHIEKLPTKRIQKKLRKVGNQNIYITDFTFTLMSMLENINCYSFCNQMKDIAPENIDLLKNEYKKQEEFLFNIVEHINDTILERFFKNPSALRYVIDNFVQDLLLLISSPQWPVTEKILSSLLKRLLSVYSPSMQVSANIETICLQLIGNIGSTIFDIKCSTRDHEDNNLIKMINYPETLPHFFKSFEECIAYNETIKCRRSATRFLWNLRLGTILILEEYTKDAKEQIITVDNELKKILEQIKDGGLGPELENREADFSTIKLDYFSILHAFELLNLYDPYLKLILSLLAKDKIKLRSTAIKCLSMLASKDKVILSNPMVKETIHRRLNDSSASVKDAILDLVSINSSYFEFYQQINNNYNDDSIMVRKHVLRINEKMYDETNDIVTKVYVIARILMKIEDEEDNIIDMARLILLNRWILKVHEVLDQPEKLKEISSSVLLVMSRVAIMNEKCSQLFDLFLNFYLLNKEAHSKEAYDKITHVLTILTDFLVQKIVELNSDDTNEKNSIVDKQNFLNLLAKFADSTVSFLTKDHITALYPYMVSDEKSDFHYYILQVFRCTFEKLANFKQKFLYDLETTLLSRLPKMNVREIDEAMPLIWSVATHRHDTARVAKACSSCLSHLHPYINKANNEEAAIVVDGKLQRLIYLSTGFARFCFPKPSNDKIAFLQEGETLYEHITKCLLVLSKDKITHVIRRVAVKNLTKLCGNHPKLFNSRHVLHLLDKEFQSDQLDIKLVILESLYDLFLLEERKSVRNTGVNSTLSSNSILKKKLLKTNRVEFANDGVCSALATRFLDNILQLCLLRDLKNSLVAIRLLKLILKFGYTNPSHSIPTVIALFASTSQYIRHVAYELLEDLFEKYETLVFSSLSRGVTKAIHYSIHTDEKYYYKHDHFLSLLEKLCGTGKKNGPKFFKVLKRIMQSYLDDITDLTSTNSSVQKSIFVLCTNISNITFVSQYDLVSLLKTIDLTTDRLKEVIMDEIGDNVSSLSVSEEKLSGIILIQLSLQDLGTYLLHLYGLRDDVLLLDIVEESELKNKQLPAKKPDISKFSAQLENIEQYSSNGKLLTYFRKHVKDT

Target ORF information:

RefSeq Version	NM_001180488.3
Organism	Saccharomyces cerevisiae S288C
Definition	Saccharomyces cerevisiae S288C cohesin-loading factor complex subunit SCC2 (SCC2), partial mRNA.

Target ORF information:

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

NM_001180488.3

ORF Insert Sequence:

ATGTCGTACC CAGGGAAAGA CAAGAATATT CCTGGAAGAA TAATAGAGGC CCTAGAAGAC 
CTGCCTTTGA GTTATCTGGT TCCTAAGGAT GGGTTAGCCG CGCTAGTAAA TGCCCCAATG 
CGGGTTTCTT TACCTTTTGA CAAGACTATC TTTACCAGCG CTGATGATGG CAGAGATGTT 
AATATAAATG TTCTAGGTAC AGCTAACAGC ACTACTTCTT CCATAAAGAA TGAGGCCGAA 
AAAGAAAGGC TTGTTTTCAA AAGACCCAGT AATTTTACGT CATCAGCCAA TTCTGTTGAT 
TATGTCCCAA CTAACTTTTT GGAAGGATTA TCACCGCTAG CGCAGAGTGT TCTATCAACC 
CATAAAGGGT TGAATGATTC CATTAACATC GAGAAAAAAA GTGAAATAGT AAGCAGACCG 
GAGGCAAAGC ATAAGCTCGA AAGTGTGACT TCGAATGCTG GTAACTTGAG TTTCAACGAC 
AATTCTTCCA ACAAGAAAAC CAAAACTTCA ACAGGTGTAA CCATGACACA AGCGAATTTA 
GCGGAACAAT ATTTGAATGA TCTTAAAAAT ATTTTAGATA TTGTTGGATT TGACCAAAAC 
TCTGCTGAAA TTGGAAATAT CGAGTACTGG CTCCAGTTGC CAAATAAAAA ATTCGTTTTA 
ACTACAAACT GCTTAACCAA ATTACAAATG ACAATTAAAA ATATTACCGA TAACCCACAG 
CTATCGAACT CAATCGAAAT AACATGGCTT TTGAGATTGC TTGATGTGAT GGTTTGTAAT 
ATAAAGTTCA GTAAAAGCTC TTTAAAGATG GGTTTAGATG ATTCTATGTT ACGATATATT 
GCTTTGCTTT CTACAATTGT ACTATTCAAT ATTTTTTTAC TGGGTAAGAA TGACAGCAAC 
TTACATCGGG AATCATACAT CATGGAACCG GTGAATTTTT TAAGCGACTT GATAGAATCT 
CTAAAAATAT TAACAATTGA ATATGGTTCT TTGAAGATAG AATTTGACAC TTTCCAGGAG 
GCCCTAGAAT TGCTACCGAA ATACATACGT AACGGCCCTT TTCTGGATGA TAATGTCACG 
GCAAAGCTTG TGTACATCTT TAGCGACTTG CTGATGAATA ATGACATTGA AGCAACTACG 
AATATCCAAT TTCAAAGTTT TTGGGATAAT GTGAAGAGAA TCAGCTCTGA TATTTTAGTT 
TCATTATTCG GTAGTTTTGA TCAACAGAGA GGATTTATTA TAGAAGAACT ACTATCTCAT 
ATCGAAAAGC TTCCCACTAA GAGAATACAA AAAAAACTAA GAAAAGTTGG TAACCAAAAC 
ATTTATATCA CTGATTTTAC CTTTACTTTA ATGTCAATGT TAGAGAATAT TAATTGCTAC 
TCCTTCTGTA ATCAGATGAA GGATATTGCA CCAGAGAATA TTGATCTATT AAAGAACGAA 
TACAAAAAGC AAGAAGAATT TCTTTTTAAC ATTGTTGAGC ATATAAATGA CACAATACTG 
GAAAGGTTTT TCAAGAACCC GTCCGCTTTA AGGTATGTAA TTGACAACTT TGTCCAAGAT 
CTATTATTGC TAATTTCCTC CCCTCAGTGG CCTGTAACAG AAAAAATACT AAGCTCTTTG 
TTAAAGAGAC TTCTAAGTGT ATACAGCCCA TCCATGCAAG TTTCTGCAAA CATTGAAACA 
ATATGTTTAC AACTTATAGG GAATATTGGT TCTACAATTT TTGATATTAA ATGCTCAACT 
AGAGACCATG AAGATAACAA CTTGATTAAA ATGATTAATT ACCCCGAAAC TTTGCCGCAT 
TTTTTTAAAT CATTTGAAGA ATGCATTGCA TATAATGAAA CGATCAAATG CCGTCGTTCT 
GCAACAAGAT TCCTTTGGAA TTTAAGGCTC GGTACGATCT TGATATTAGA AGAGTATACA 
AAGGATGCCA AAGAACAAAT TATAACCGTT GACAATGAAT TGAAAAAAAT ATTGGAGCAG 
ATAAAAGATG GTGGACTTGG ACCCGAATTA GAGAACAGAG AAGCAGATTT TAGTACGATT 
AAATTGGATT ATTTTTCTAT TTTGCACGCC TTTGAACTAC TGAATCTATA CGATCCATAC 
TTGAAGTTGA TATTATCACT TCTAGCCAAG GATAAAATCA AACTGAGATC GACTGCTATT 
AAATGTCTCT CGATGTTGGC TTCAAAAGAC AAAGTGATAC TTTCAAACCC AATGGTTAAA 
GAAACTATTC ACCGGCGTTT AAACGACTCA TCTGCATCTG TCAAGGATGC CATTCTAGAT 
TTGGTCAGTA TTAATTCTTC ATACTTCGAA TTTTATCAAC AAATTAACAA CAACTATAAC 
GATGATAGCA TAATGGTAAG AAAACATGTG TTAAGAATTA ATGAAAAAAT GTACGACGAG 
ACGAACGACA TCGTCACGAA GGTATACGTA ATAGCAAGAA TCCTAATGAA AATAGAAGAC 
GAGGAGGACA ATATAATTGA TATGGCTAGG CTGATTTTAT TAAATAGATG GATATTAAAG 
GTACATGAAG TATTGGACCA GCCCGAAAAG TTGAAAGAAA TTTCTTCTTC AGTCCTACTA 
GTAATGTCCC GTGTGGCTAT AATGAATGAG AAATGCTCCC AACTTTTCGA CTTGTTTCTC 
AACTTTTATC TCCTAAACAA AGAAGCGCAT TCAAAAGAAG CATACGATAA AATCACTCAC 
GTTCTAACCA TTCTTACCGA CTTTTTGGTA CAAAAAATTG TCGAGCTCAA CTCAGATGAC 
ACAAATGAAA AGAATTCGAT TGTTGATAAA CAAAATTTTT TAAACCTTTT GGCGAAGTTT 
GCTGATTCTA CTGTGTCATT TTTGACTAAA GACCACATTA CAGCATTGTA TCCTTATATG 
GTATCGGACG AAAAATCTGA CTTCCACTAT TATATCTTGC AAGTCTTTAG ATGCACTTTT 
GAAAAATTGG CCAACTTTAA ACAGAAATTT TTGTATGACT TAGAGACGAC CCTTTTGAGT 
AGGCTACCAA AGATGAATGT AAGAGAGATA GATGAAGCTA TGCCTCTTAT CTGGTCTGTT 
GCCACTCATC GTCATGATAC TGCTAGAGTA GCTAAAGCAT GTTCATCCTG TCTTTCCCAT 
TTACATCCAT ATATAAATAA GGCAAATAAC GAGGAAGCTG CCATTGTAGT TGACGGAAAA 
TTGCAAAGGC TGATATATTT ATCCACCGGT TTTGCCAGGT TCTGCTTTCC TAAACCCTCC 
AATGATAAAA TTGCATTTTT ACAAGAAGGT GAAACCCTGT ATGAACATAT TACCAAATGC 
CTACTTGTAC TATCTAAAGA CAAAATTACA CACGTAATAA GAAGGGTTGC TGTGAAAAAT 
CTCACTAAAT TATGTGGAAA TCATCCAAAA CTATTCAATT CAAGACACGT TCTACATTTA 
CTGGACAAAG AATTTCAGAG CGATCAGCTA GATATTAAAC TAGTAATTCT AGAAAGTTTA 
TATGATCTTT TTCTACTGGA AGAAAGGAAG TCAGTGAGAA ACACTGGCGT TAATAGCACT 
TTGTCTTCGA ACTCCATTTT GAAAAAGAAA TTACTGAAAA CGAATAGGGT AGAGTTTGCA 
AATGATGGAG TATGTTCAGC GTTGGCTACT AGATTTTTAG ACAATATTCT CCAACTATGT 
CTCCTACGTG ATCTAAAGAA TTCTCTCGTA GCTATTCGAT TATTAAAGTT GATTTTGAAA 
TTTGGTTACA CAAATCCCTC TCATTCAATT CCAACTGTAA TTGCTTTATT TGCCTCTACT 
AGCCAGTATA TTCGTCATGT CGCCTATGAG TTGTTAGAAG ATCTTTTTGA GAAATACGAA 
ACGCTAGTAT TCAGTAGTTT ATCTCGAGGG GTTACAAAAG CTATACATTA TTCTATTCAT 
ACAGATGAGA AGTATTATTA CAAGCACGAT CATTTTTTGT CTTTACTTGA AAAATTATGT 
GGAACTGGAA AAAAAAATGG CCCAAAGTTC TTTAAAGTTC TGAAGAGAAT CATGCAATCC 
TATTTAGATG ATATCACCGA TTTAACATCA ACAAATAGTA GTGTTCAAAA GTCCATTTTC 
GTTCTCTGCA CTAACATTTC GAATATCACA TTTGTTTCTC AGTACGATTT GGTGTCCCTA 
CTCAAAACCA TTGATTTAAC TACAGATAGA TTAAAAGAGG TTATCATGGA TGAAATAGGT 
GACAATGTTT CATCGCTATC CGTATCAGAA GAAAAGCTCA GTGGAATAAT TTTAATACAG 
TTAAGCTTAC AGGATTTGGG TACTTATCTA CTGCACTTAT ACGGGTTAAG GGATGATGTG 
CTTTTATTAG ATATTGTAGA AGAATCAGAA TTGAAGAACA AACAACTCCC TGCAAAGAAG 
CCGGATATCA GTAAGTTTTC CGCACAGTTG GAGAATATTG AACAGTATTC ATCAAATGGC 
AAGCTTCTTA CATATTTTAG AAAACACGTG AAGGATACGT AA

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

PubMed

The nucleotide sequence of Saccharomyces cerevisiae chromosome IV.
Nature387(6632 Suppl)75-8(1997 May)
Jacq C,Alt-M?rbe J,Andre B,Arnold W,Bahr A,Ballesta JP,Bargues M,Baron L,Becker A,Biteau N,Bl?cker H,Blugeon C,Boskovic J,Brandt P,Br?ckner M,Buitrago MJ,Coster F,Delaveau T,del Rey F,Dujon B,Eide LG,Garcia-Cantalejo JM,Goffeau A,Gomez-Peris A,Zaccaria P

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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SCC2 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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