C. P. Hollenberg scite author profile

The entire DNA sequence of chromosome III of the yeast Saccharomyces cerevisiae has been determined. This is the first complete sequence analysis of an entire chromosome from any organism. The 315-kilobase sequence reveals 182 open reading frames for proteins longer than 100 amino acids, of which 37 correspond to known genes and 29 more show some similarity to sequences in databases. Of 55 new open reading frames analysed by gene disruption, three are essential genes; of 42 non-essential genes that were tested, 14 show some discernible effect on phenotype and the remaining 28 have no overt function.

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The ABC-transporter Ste6 accumulates in the plasma membrane in a ubiquitinated form in endocytosis mutants.

Kölling

1994

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We are investigating the transport and turnover of the multispanning membrane protein Ste6. The Ste6 protein is a member of the ABC‐transporter family and is required for the secretion of the yeast mating pheromone a‐factor. In contrast to the prevailing view that Ste6 is a plasma membrane protein, we found that Ste6 is mainly associated with internal membranes and not with the cell surface. Fractionation and immunofluorescence data are compatible with a Golgi localization of Ste6. Despite its mostly intracellular localization, the Ste6 protein is in contact with the cell surface, as demonstrated by the finding that Ste6 accumulates in the plasma membrane in endocytosis mutants. The Ste6 protein which accumulates in the plasma membrane in endocytosis mutants is ubiquitinated. Ste6 is thus the second protein in yeast besides MAT alpha 2 for which ubiquitination has been demonstrated. Ste6 is a very unstable protein (half‐life 13 min) which is stabilized approximately 3‐fold in a ubc4 ubc5 mutant, implicating the ubiquitin system in the degradation of Ste6. The strongest stabilizing effect on Ste6 is, however, observed in the vacuolar pep4 mutant (half‐life > 2 h), suggesting that most of Ste6 is degraded in the vacuole. Secretory functions are required for efficient degradation of Ste6, indicating that Ste6 enters the secretory pathway and is transported to the vacuole by vesicular carriers.

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Complete DNA sequence of yeast chromosome XI

Dujon

Alexandraki

André

et al. 1994

Nature

348

165

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The complete DNA sequence of the yeast Saccharomyces cerevisiae chromosome XI has been determined. In addition to a compact arrangement of potential protein coding sequences, the 666,448-base-pair sequence has revealed general chromosome patterns; in particular, alternating regional variations in average base composition correlate with variations in local gene density along the chromosome. Significant discrepancies with the previously published genetic map demonstrate the need for using independent physical mapping criteria.

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Functional analysis of 150 deletion mutants in Saccharomyces cerevisiae by a systematic approach

Entian¹,

et al. 1999

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In a systematic approach to the study of Saccharomyces cerevisiae genes of unknown function, 150 deletion mutants were constructed (1 double, 149 single mutants) and phenotypically analysed. Twenty percent of all genes examined were essential. The viable deletion mutants were subjected to 20 different test systems, ranging from high throughput to highly specific test systems. Phenotypes were obtained for two-thirds of the mutants tested. During the course of this investigation, mutants for 26 of the genes were described by others. For 18 of these the reported data were in accordance with our results. Surprisingly, for seven genes, additional, unexpected phenotypes were found in our tests. This suggests that the type of analysis presented here provides a more complete description of gene function.

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Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X.

et al. 1996

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The complete nucleotide sequence of Saccharomyces cerevisiae chromosome X (745 442 bp) reveals a total of 379 open reading frames (ORFs), the coding region covering approximately 75% of the entire sequence. One hundred and eighteen ORFs (31%) correspond to genes previously identified in S. cerevisiae. All other ORFs represent novel putative yeast genes, whose function will have to be determined experimentally. However, 57 of the latter subset (another 15% of the total) encode proteins that show significant analogy to proteins of known function from yeast or other organisms. The remaining ORFs, exhibiting no significant similarity to any known sequence, amount to 54% of the total. General features of chromosome X are also reported, with emphasis on the nucleotide frequency distribution in the environment of the ATG and stop codons, the possible coding capacity of at least some of the small ORFs (<100 codons) and the significance of 46 non‐canonical or unpaired nucleotides in the stems of some of the 24 tRNA genes recognized on this chromosome.

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C. P. Hollenberg

The complete DNA sequence of yeast chromosome III

The ABC-transporter Ste6 accumulates in the plasma membrane in a ubiquitinated form in endocytosis mutants.

Complete DNA sequence of yeast chromosome XI

Functional analysis of 150 deletion mutants in Saccharomyces cerevisiae by a systematic approach

Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X.

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