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Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Six open reading frames (ORFs) of
unknown function
from Saccharomyces cerevisiae chromosome XV, three from the left and three from the right arm, were deleted in two diploid strains by the short flanking homology method (Wach et al., 1994). Transformants were selected as Geneticin (
G418
)-resistant colonies and correct integration of the kanMX4 cassette was checked by colony PCR. Following sporulation of the diploids, tetrads were dissected and scored for the segregation of the
G418
-resistant marker. We have developed a widely applicable method for the construction of gap repair plasmids to obtain the cognate clones for each of the disrupted ORFs. The 5'- and 3'-flanks of the ORF in question are linked by a unique restriction endonuclease. When the plasmid is cut at this site it can be used to obtain, by selection for the appropriate antibiotic resistance, long flanking homology (LFH) cassettes containing the cognate clone or the disrupted allele. The LFH cassette containing the cognate clone or the disrupted allele can be released from the gap-repaired plasmid by cutting at the inserted flanking restriction sites. One of the six ORFs (YOR319w) corresponds to an essential gene whose product is part of the spliceosome complex. Haploid as well as homozygous and heterozygous diploid disruptant strains for each of the five non-essential ORFs were subjected to growth test on different media at 15 degrees C, 30 degrees C and 37 degrees C. Disruption of YOR322c causes osmotically sensitive growth on YEPD at 37 degrees C and the product of YOL091w appears to play a role in sporulation since the homozygous diploid disruptant has lost the ability to sporulate.
...
PMID:Construction of PCR-ligated long flanking homology cassettes for use in the functional analysis of six unknown open reading frames from the left and right arms of Saccharomyces cerevisiae chromosome XV. 955 47
Six open reading frames (ORFs) of
unknown function
from the left arm of Saccharomyces cerevisiae chromosome XV were deleted in two genetic backgrounds by disruption cassettes with long flanking homology (LFH) (Wach, 1996), within the frame of the research project EUROFAN. The LFH disruption cassettes, obtained by PCR, were made by introducing the kanMX4 marker module between two fragments homologous to the promoter and terminator regions of a given ORF. Transformants resistant to geneticin (
G418
) were selected. The LFH disruption cassettes were cloned in a bacterial vector. Each cognate gene was also cloned in a centromeric plasmid. Correct deletion of each gene was verified by four different PCR reactions. Sporulation and tetrad analysis of heterozygous deletants revealed that ORF YOL102c is essential. The non-growing haploid spores gave rise to microcolonies. Basic phenotypic analyses were performed on haploid deletants of both mating types of the five non-essential ORFs, YOL018c, YOL098c, YOL101c, YOL104c and YOL105c. Plate growth tests on different media at 15 degrees C, 30 degrees C or 37 degrees C did not reveal any significant differences between parental and mutant cells. Mating and sporulation efficiencies were not affected in any of the viable disruptants as compared to wild-type cells.
...
PMID:Disruption of six novel genes from the left arm of chromosome XV of Saccharomyces cerevisiae and basic phenotypic analysis of the generated mutants. 1002 87
Six open reading frames (ORFs) from Saccharomyces cerevisiae chromosome VII were deleted using the kanMX4 module and the long-flanking homology-PCR replacement strategy in at least two different backgrounds. Among these ORFs, two of them (YGL100w and YGL094c) are now known genes which encode well-characterized proteins (Seh1p, a nuclear pore protein, and Pan2p, a component of Pab1p-stimulated poly(A) ribonuclease, respectively). The other four ORFs (YGL101w, YGL099w, YGL098w and YGL096w) code for proteins of
unknown function
, although the protein encoded by YGL101w has a strong similarity to the hypothetical protein Ybr242p. Gene disruptions were performed in diploid cells using the KanMX4 cassette, and the geneticin (
G418
)-resistant transformants were checked by PCR. Tetrad analysis of heterozygous deletant strains revealed that YGL098w is an essential gene for vegetative growth in three backgrounds, whereas the other five genes are non-essential, although we have found some phenotypes in one of them. YGL099wDelta strain did not grow at all at 15 degrees C and showed a highly impaired sporulation and a significantly lower mating efficiency. The other three deletants did not reveal any significant differences with respect to their parental strains in our basic phenotypic tests.
...
PMID:Disruption and phenotypic analysis of six open reading frames from the left arm of Saccharomyces cerevisiae chromosome VII. 1066 74
Six ORFs of
unknown function
located on chromosome VII of Saccharomyces cerevisiae were disrupted in two different genetic backgrounds, and the phenotype of the generated mutants was analysed. Disruptions of ORFs YGR256w, YGR272c, YGR273c, YGR275w and YGR276c were carried out using the disruption marker kanMX4 flanked by short homology regions, whereas ORF YGR255c was inactivated with a long flanking homology (LFH) disruption cassette (Wach et al., 1994). Tetrad analysis of the heterozygous disruptants revealed that ORF YGR255c, previously identified as COQ6 and encoding a protein involved in the biosynthesis of coenzime Q (Tzagoloff and Dieckmann, 1990), is an essential gene. The same analysis also revealed that sporulation of the ygr272cDelta heterozygous diploid produced two small colonies per ascus that were also
G418
-resistant, indicating that the inactivation of ORF YGR272c could result in a slower growth rate. This result was confirmed by growth tests of the haploid disruptants and by complementation of the phenotype after transformation with a plasmid carrying the cognate gene. No phenotypes could be associated to the inactivation of ORFs YGR256w, YGR273c, YGR275w and YGR276c. Two of these genes have recently been further characterized: ORF YGR255w, renamed RTT102, encodes a regulator of the Ty1-element transposition, whereas ORF YGR276c was found to encode the 70 kDa RNase H activity and was renamed RNH70 (Frank et al., 1999).
...
PMID:Disruption of six novel genes from chromosome VII of Saccharomyces cerevisiae reveals one essential gene and one gene which affects the growth rate. 1066 75
A novel rapid polymerase chain reaction (PCR)-based technique for N-terminal attachment of green fluorescent protein (GFP) to a yeast protein is described. Genomic integration of a PCR-generated loxPkanMX4loxP-yEGFP fusion cassette immediately upstream of the open reading frame (ORF) allows for selection of
G418
resistant transformants carrying GFP fused N-terminally to the protein of interest. In a subsequent step, the loxPkanMX4loxP selection marker that is inserted between the tagged ORF and the endogenous promoter is excised upon site-specific recombination between the loxP sites by Cre recombinase, leaving behind in the promoter one loxP site, immediately upstream of the GFP start codon. The essential protein Ydl193wp of
unknown function
and the oleate-inducible fatty acid activation protein, encoded by FAA2, were N-terminally tagged using the novel technique. Both experiments yielded viable haploid strains with growth phenotypes indistinguishable from the wild type strain. The subcellular localization pattern for the chromosomally expressed GFP-Ydl193wp to the endoplasmic reticulum and lipid particles was identical to the pattern observed for a plasmid-borne GFP construct expressed under control of the MET25(p) promoter, albeit at a lower level and with a more homogeneous distribution among the cell population. GFP-FAA2 was inducible by oleate, as is the wild type gene, demonstrating that specific expression patterns are not grossly affected by the promoter manipulation. In agreement with previous reports, GFP-Faa2p was found to localize to peroxisomes.
...
PMID:A novel strategy for constructing N-terminal chromosomal fusions to green fluorescent protein in the yeast Saccharomyces cerevisiae. 1108 60
Six open reading frames (ORFs) of
unknown function
from the right arm of Saccharomyces cerevisiae chromosome XII were deleted in two genetic backgrounds by disruption cassettes with regions of short flanking homology. This work was carried out within the framework of the EUROFAN consortium. The SFH disruption cassettes, obtained by PCR, were made by amplification of the kanMX marker module with oligonucleotides containing approximately 40 bp of homology to either the promoter or translation terminator regions of the relevant ORF. Transformants resistant to geneticin (
G418
) were selected. The SFH disruption cassettes were cloned into a bacterial vector. Each cognate gene was also cloned into a yeast centromeric plasmid. Sporulation and tetrad analysis of the disrupted heterozygous strains revealed that ORF YLR153c (now known as ACS2) is essential. Basic phenotypic analysis was performed on haploid deletants of both mating types of the five non-essential ORFs, YLR082c (now known as SRL2), YLR149c, YLR151c, YLR152c and YLR154c. Plate growth tests on different media at 15 degrees C, 30 degrees C and 37 degrees C did not reveal any significant differences between parental and mutant cells. Mating and sporulation efficiencies were not affected in any of the viable disruptants as compared to wild-type cells.
...
PMID:Disruption and basic phenotypic analysis of six novel genes from the right arm of chromosome XII of Saccharomyces cerevisiae. 1125 56
Six ORFs of
unknown function
from the left arm of chromosome XII of Saccharomyces cerevisiae were chosen for a reverse genetic approach to provide materials to assist in assignment of function. A two-step PCR using long-flanking homology was employed to amplify disruption cassettes consisting of a kanMX gene as selectable marker flanked by 250-350 bp long regions homologous to the target gene. The diploid strains FY1679 and CEN.PK2 were transformed with the replacement cassettes and transformants were selected for geneticin (
G418
) resistance. Correct targeting of the replacement cassettes at the genomic locus was verified by Southern blot analysis with the kanMX gene as a probe. Disruption cassettes were cloned in pUG7 plasmid for systematic gene inactivation in other yeast strains and the cognate genes were cloned in pRS416 plasmid for gene complementation studies. Sporulation and tetrad analysis of heterozygous disruptants showed that three of the six ORFs [YLR141w (RRN5), YLR145w and YLR147c (SMD3)] were essential genes that were complemented by their cognate genes. ylr146c Delta (spe4) homozygous diploids showed enhanced sporulation efficiency, whereas ylr147c Delta heterozygous diploids failed to sporulate in the FY1679 but not in the CEN.PK2 genetic background. The other two disruptants [ylr143w and ylr144c (acf2)] gave no phenotype.
...
PMID:Disruption of six Saccharomyces cerevisiae ORFs on chromosome XII results in three lethal disruptants. 1175 85
Six open reading frames (ORFs) of
unknown function
from Saccharomyces cerevisiae from the left arms of chromosomes VII and XV were disrupted by the short-flanking homology method in the diploid strains FY1679 and CENPK2. In each case, the entire ORF, with the exception of the first nucleotide of the start codon, was eliminated and replaced by the kanMX4 cassette. Correct integration of the disrupting marker was checked by colony PCR of the geneticin (
G418
)-resistant transformants. Sporulation followed by tetrad dissection of the diploids revealed that none of the ORFs encoded a product essential for the viability of either yeast strain. The neutral effect of these disruptions extended to mating and sporulation, since it was possible to create homozygous diploid disruptants that were capable of sporulation. Basic phenotypic analysis was carried out on all strains by growing them on three different media at three different temperatures and revealed no significant differences between disruptants and the parental strains. A cognate clone and a kanMX4 disruption cassette were created for five of the six ORFs by gap repair with specific long-flanking homology cassettes. For experimental reasons, the cognate clone and disruption cassette corresponding to the sixth ORF (YGL161w) had to be created by PCR.
...
PMID:Basic functional analysis of six unknown open reading frames from Saccharomyces cerevisiae: four from chromosome VII and two from chromosome XV. 1178 67
