Project description:BackgroundThe characterization of DNA replication origins in yeast has shed much light on the mechanisms of initiation of DNA replication. However, very little is known about the evolution of origins or the evolution of mechanisms through which origins are recognized by the initiation machinery. This lack of understanding is largely due to the vast evolutionary distances between model organisms in which origins have been examined.ResultsIn this study we have isolated and characterized autonomously replicating sequences (ARSs) in Lachancea kluyveri - a pre-whole genome duplication (WGD) budding yeast. Through a combination of experimental work and rigorous computational analysis, we show that L. kluyveri ARSs require a sequence that is similar but much longer than the ARS Consensus Sequence well defined in Saccharomyces cerevisiae. Moreover, compared with S. cerevisiae and K. lactis, the replication licensing machinery in L. kluyveri seems more tolerant to variations in the ARS sequence composition. It is able to initiate replication from almost all S. cerevisiae ARSs tested and most Kluyveromyces lactis ARSs. In contrast, only about half of the L. kluyveri ARSs function in S. cerevisiae and less than 10% function in K. lactis.ConclusionsOur findings demonstrate a replication initiation system with novel features and underscore the functional diversity within the budding yeasts. Furthermore, we have developed new approaches for analyzing biologically functional DNA sequences with ill-defined motifs.

Project description:We generated a genome-wide replication profile in the genome of Lachancea kluyveri and assessed the relationship between replication and base composition. This species diverged from Saccharomyces cerevisiae before the ancestral whole genome duplication. The genome comprises eight chromosomes among which a chromosomal arm of 1 Mb has a G + C-content much higher than the rest of the genome. We identified 252 active replication origins in L. kluyveri and found considerable divergence in origin location with S. cerevisiae and with Lachancea waltii. Although some global features of S. cerevisiae replication are conserved: Centromeres replicate early, whereas telomeres replicate late, we found that replication origins both in L. kluyveri and L. waltii do not behave as evolutionary fragile sites. In L. kluyveri, replication timing along chromosomes alternates between regions of early and late activating origins, except for the 1 Mb GC-rich chromosomal arm. This chromosomal arm contains an origin consensus motif different from other chromosomes and is replicated early during S-phase. We showed that precocious replication results from the specific absence of late firing origins in this chromosomal arm. In addition, we found a correlation between GC-content and distance from replication origins as well as a lack of replication-associated compositional skew between leading and lagging strands specifically in this GC-rich chromosomal arm. These findings suggest that the unusual base composition in the genome of L. kluyveri could be linked to replication.

Project description:S-phase time-course of Lachancea kluyveri cells

Project description:Petite-negative budding yeast (known as Lachancea kluyveri or Saccharomyces kluyveri) sequenced for comparative genomics studies

Project description:Lachancea kluyveri (formerly Saccharomyces kluyveri); Growth on different nitrogen sources.

Project description:ChIP-chip to determine the regulation of the binding targets of a2 and alpha2 in Lachancea kluyveri

Project description:Transcriptional profiling of the yeast Lachancea kluyveri when grown on minimal media with different compounds added as the sole nitrogen source. Cells grown on uracil, uridine, dihydrouracil and ammonia were profiled using cells grown on proline as the reference. Five conditions, of one was used as reference. Each grown in 4 parallell biological replicates, which were extracted, labeled and hybridized individually, except for the reference where the replicates were pooled. 1 technical replicate. Please note that raw data files for the following samples are not available; Skluy_uracil_rep2, Skluy_dihydrouracil_rep3, Skluy_uridine_rep4

Project description:Transcriptional profiling of the yeast Lachancea kluyveri when grown on minimal media with different compounds added as the sole nitrogen source. Cells grown on uracil, uridine, dihydrouracil and ammonia were profiled using cells grown on proline as the reference.

Project description:To understand the iron-responsive gene expression in Lachancea kluyveri under high and low iron conditions, we perfomred the genome-wide gene expression profiling for the log-phase cells of Lachancea kluyveri wild type, sef1 deletion, aft1 deletion and sef1aft1 double deletion mutants under the YPD+400mM ferrous iron and YPD+ 200 mM BPS conditions.

Project description:To understand the Sef1-dependent gene expression in Lachancea kluyveri under both fermentative and respiratory conditions, we perfomred the genome-wide gene expression profiling for the log-phase cells of Lachancea kluyveri wild type and sef1 deletion mutant under both YPD and YPGly conditions.