Difference between revisions of "Commonly used strains"
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'''Notes:''' Isogenic to S288C; used in the systematic sequencing project, the sequence stored in SGD. | '''Notes:''' Isogenic to S288C; used in the systematic sequencing project, the sequence stored in SGD. | ||
− | '''References:'''[http://db.yeastgenome.org/cgi-bin/reference/reference.pl?dbid=S000047446 Winston et al.] (1995) Yeast 11:53-55. | + | '''References:''' [http://db.yeastgenome.org/cgi-bin/reference/reference.pl?dbid=S000047446 Winston et al.] (1995) Yeast 11:53-55. |
'''Sources:''' [http://web.uni-frankfurt.de/fb15/mikro/euroscarf/data/fy1679.html EUROSCARF:10000D] | '''Sources:''' [http://web.uni-frankfurt.de/fb15/mikro/euroscarf/data/fy1679.html EUROSCARF:10000D] |
Revision as of 11:59, 24 July 2007
This page describes some of the most commonly used yeast lab strains. Much of the information is taken from F. Sherman (2002) Getting started with yeast, Methods Enzymol. 350, 3-41. Other useful papers for strain background information include:
- Mortimer and Johnston (1986) Genetics 113:35-43 - thoroughly describes the genealogy of strain S288C
- van Dijken et al. (2000) Enzyme Microb Technol 26:706-714 - compares various characteristics of commonly used lab strains
- Winzeler et al. (2003) Genetics 163:79-89 - uses SFP (single-feature polymorphisms) analysis to study genetic identity between common lab strains
Contents
S288C
Genotype: MATα SUC2 gal2 mal mel flo1 flo8-1 hap1
Notes: Strain used in the systematic sequencing project, the sequence stored in SGD. S288C does not form pseudohyphae. In addition, since it has a mutated copy of HAP1, it is not a good strain for mitochondrial studies. S288C strains are gal2- and they do not use galactose anaerobically.
References: Mortimer and Johnston (1986) Genetics 113:35-43.
Sources: ATCC:204508
BY4743
Genotype: MATa/α his3Δ1/his3Δ1 leu2Δ0/leu2Δ0 lys2Δ0/LYS2 MET15/met15Δ0 ura3Δ0/ura3Δ0
Notes: Strain used in the systematic deletion project, generated from a cross between BY4741 and BY4742, which are derived from S288C. See Brachmann et al. reference for details.
References: Brachmann et al. (1998) Yeast 14:115-32.
Sources: Biosystems:YSC1050
FY1679
Genotype: MATa/α ura3-52/ura3-52 trp1Δ63/TRP1 leu2Δ1/LEU2 his3Δ200/HIS3 GAL2/GAL
Notes: Isogenic to S288C; used in the systematic sequencing project, the sequence stored in SGD.
References: Winston et al. (1995) Yeast 11:53-55.
Sources: EUROSCARF:10000D
AB972
Genotype: MATα X2180-1B trp10 [rho 0]
Notes: Isogenic to S288C; used in the systematic sequencing project, the sequence stored in SGD. AB972 is an ethidium bromide-induced rho- derivative of the strain X2180-1B-trp1.
References: Olson MV et al. (1986) Proc. Natl. Acad. Sci. USA 83:7826-7830.
Sources: ATCC:204511
A364A
Genotype: MATa ade1 ade2 ura1 his7 lys2 tyr1 gal1 SUC mal cup
Notes: Isogenic to S288C; used in the systematic sequencing project, the sequence stored in SGD.
References: Hartwell (1967) J. Bacteriol. 93:1662-1670.
Sources: ATCC:208526
XJ24-24a
Genotype: MATa ho HMa HMα ade6 arg4-17 trp1-1 tyr7-1 MAL2
Notes: Derived from, but not isogenic to S288C
References: Strathern et al. (1979) Cell 18:309-319
DC5
Genotype: MATa leu2-3,112 his3-11,15 can1-11
Notes: Isogenic to S288C; used in the systematic sequencing project, the sequence stored in SGD.
References: Broach et al. (1979) Gene 8:121-133
YNN216
Genotype: MATa/α ura3-52/ura3-52 lys2-801amber/lys2-801amber ade2-101ochre/ade2-101ochre
Notes: Congenic to S288C (see Sikorski and Hieter). Used to derive YSS and CY strains (see Sobel and Wolin).
References: Sikorski RS and Hieter P (1989) Genetics 122:19-27.
Sobel and Wolin (1999) Mol. Biol. Cell 10:3849-3862.
YPH499
Genotype: MATa ura3-52 lys2-801_amber ade2-101_ochre trp1-Δ63 his3-Δ200 leu2-Δ1
Notes: Contains nonrevertible (deletion) auxotrophic mutations that can be used for selection of vectors. Note that trp1-Δ63, unlike trp1-Δ1, does not delete adjacent GAL3 UAS sequence and retains homology to TRP1 selectable marker. gal2-, does not use galactose anaerobically. Derived from the diploid strain YNN216 (Johnston and Davis 1984; original source: M. Carlson, Columbia University), which is congenic with S288C.
References: Sikorski RS and Hieter P (1989) Genetics 122:19-27.
Sobel and Wolin (1999) Mol. Biol. Cell 10:3849-3862.
Johnston M and Davis RW (1984) Mol Cell Biol 4(8):1440-8.
Sources: ATCC:204679
YPH500
Genotype: MATα ura3-52 lys2-801_amber ade2-101_ochre trp1-Δ63 his3-Δ200 leu2-Δ1
Notes:MATα strain isogenic to YPH499 except at mating type locus. Derived from the diploid strain YNN216 (Johnston and Davis 1984; original source: M. Carlson, Columbia University), which is congenic with S288C.
References: Sikorski RS and Hieter P (1989) Genetics 122:19-27.
Sobel and Wolin (1999) Mol. Biol. Cell 10:3849-3862.
Johnston M and Davis RW (1984) Mol Cell Biol 4(8):1440-8.
Sources: ATCC:204680
YPH501
Genotype: MATa/MATα ura3-52/ura3-52 lys2-801_amber/lys2-801_amber ade2-101_ochre/ade2-101_ochre trp1-Δ63/trp1-Δ63 his3-Δ200/his3-Δ200 leu2-Δ1/leu2-Δ1
Notes:a/α diploid isogenic to YPH499 and YPH500. Derived from the diploid strain YNN216 (Johnston and Davis 1984; original source: M. Carlson, Columbia University), which is congenic with S288C.
References: Sikorski RS and Hieter P (1989) Genetics 122:19-27.
Sobel and Wolin (1999) Mol. Biol. Cell 10:3849-3862.
Johnston M and Davis RW (1984) Mol Cell Biol 4(8):1440-8.
Sources: ATCC:204681
Sigma 1278B
Notes:Used in pseudohyphal growth studies. Detailed notes about the sigma strains have been kindly provided by Cora Styles.
SK1
Genotype: MATa/α HO gal2 cupS can1R
Notes: Commonly used for studying sporulation or meiosis. Canavanine-resistant derivative
References: Kane SM and Roth J. (1974) Bacteriol. 118: 8-14
Sources: ATCC:204722
CEN.PK (aka CEN.PK2)
Genotype: MATa/α ura3-52/ura3-52 trp1-289/trp1-289 leu2-3_112/leu2-3_112 his3 Δ1/his3 Δ1 MAL2-8C/MAL2-8C SUC2/SUC2
References: van Dijken et al. (2000) Enzyme Microb Technol 26:706-714
Sources: EUROSCARF:30000D
W303
Genotype: MATa/MATα {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15} [phi+]
Notes: W303 also contains a bud4 mutation that causes haploids to bud with a mixture of axial and bipolar budding patterns. In addition, the original W303 strain contains the rad5-535 allele.
References: W303 constructed by Rodney Rothstein (see detailed notes from RR).
bud4 info: Voth, W.P. et al. (2005) Eukaryotic Cell, in press.
rad5-535 info: Fan et al. (1996) Genetics 142:749
Sources: Biosystems:YSC1058
W303-1A
Genotype: MATa {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15}
Notes: W303-1A possesses a ybp1-1 mutation (I7L, F328V, K343E, N571D) which abolishes Ybp1p function, increasing sensitivity to oxidative stress.
References: W303 constructed by Rodney Rothstein (see detailed notes from RR).
ybp1-1 info: Veal et al. (2003) J. Biol. Chem. 278:30896-904.
Sources: Biosystems:YSC1058
W303-1B
Genotype: MATα {leu2-3,112 trp1-1 can1-100 ura3-1 ade2-1 his3-11,15}
References: W303 constructed by Rodney Rothstein (see detailed notes from RR).
Sources: Biosystems:YSC1058
X2180-1A
Genotype: MATa SUC2 mal mel gal2 CUP1
References: Robert Mortimer, personal comm.
Sources: ATCC:204504
D273-10B
Genotype: MATα mal
Notes: Normal cytochrome content and respiration; low frequency of rho-. This strain and its auxotrophic derivatives were used in numerious laboratories for mitochondrial and related studies and for mutant screens. Good respirer that's relatively resistant to glucose repression.
References: Sherman, F. (1963) Genetics 48:375-385.
Sources: ATCC:24657
FL100
Genotype: MATa
References: Lacroute, F. (1968) J. Bacteriol. 95:824-832.