| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2001PNAS...98.3249T |
| P356 | DOI | 10.1073/PNAS.061628798 |
| P932 | PMC publication ID | 30639 |
| P698 | PubMed publication ID | 11248064 |
| P5875 | ResearchGate publication ID | 12084443 |
| P50 | author | Nina Agabian | Q110779995 |
| P2093 | author name string | R W Davis | |
| R M Williams | |||
| T Jones | |||
| S Scherer | |||
| N Hansen | |||
| C Komp | |||
| K W Tzung | |||
| L Huizar | |||
| N Federspiel | |||
| R Surzycki | |||
| R Tamse | |||
| V Bivolarevic | |||
| P2860 | cites work | Asexual sporulation in Aspergillus nidulans. | Q39523265 |
| Snf1 kinase connects nutritional pathways controlling meiosis in Saccharomyces cerevisiae | Q39575506 | ||
| Control of meiotic gene expression in Saccharomyces cerevisiae. | Q40693698 | ||
| Homologous recombination in fission yeast: absence of crossover interference and synaptonemal complex | Q40733649 | ||
| Identification of a mating type-like locus in the asexual pathogenic yeast Candida albicans | Q41686102 | ||
| Evidence for mating of the "asexual" yeast Candida albicans in a mammalian host | Q41747334 | ||
| Identification of fuz7, a Ustilago maydis MEK/MAPKK homolog required for a-locus-dependent and -independent steps in the fungal life cycle | Q43972319 | ||
| Phylogenetic analysis of five medically important Candida species as deduced on the basis of small ribosomal subunit RNA sequences | Q45076126 | ||
| Degenerative spermatocyte, a novel gene encoding a transmembrane protein required for the initiation of meiosis in Drosophila spermatogenesis | Q47070030 | ||
| The control of filamentous differentiation and virulence in fungi | Q47750581 | ||
| Recombination at work for meiosis | Q48018607 | ||
| Mdes, a mouse homolog of the Drosophila degenerative spermatocyte gene is expressed during mouse spermatogenesis | Q48048925 | ||
| Suppression of hyphal formation in Candida albicans by mutation of a STE12 homolog | Q48077116 | ||
| The yeast RME1 gene encodes a putative zinc finger protein that is directly repressed by a1-alpha 2. | Q48201663 | ||
| Reactivity in vegetative incompatibility of the HET-E protein of the fungus Podospora anserina is dependent on GTP-binding activity and a WD40 repeated domain. | Q52528792 | ||
| A meiotic recombination checkpoint controlled by mitotic checkpoint genes | Q59098626 | ||
| Candida concentrations in the vagina and their association with signs and symptoms of vaginal candidosis | Q68050010 | ||
| The processing of yeast pheromones | Q74509411 | ||
| Regulation of meiotic S phase by Ime2 and a Clb5,6-associated kinase in Saccharomyces cerevisiae | Q77319700 | ||
| Cloning, characterization, and localization of mouse and human SPO11 | Q22010714 | ||
| Gapped BLAST and PSI-BLAST: a new generation of protein database search programs | Q24545170 | ||
| MAP kinase pathways in the yeast Saccharomyces cerevisiae | Q24548569 | ||
| Pheromone-regulated genes required for yeast mating differentiation | Q24678064 | ||
| Base-calling of automated sequencer traces using phred. II. Error probabilities | Q27860615 | ||
| Base-calling of automated sequencer traces using phred. I. Accuracy assessment | Q27860665 | ||
| Consed: a graphical tool for sequence finishing | Q27860740 | ||
| Meiotic chromosomes: it takes two to tango | Q27930023 | ||
| Two yeast forkhead genes regulate the cell cycle and pseudohyphal growth | Q27931177 | ||
| A central role for cohesins in sister chromatid cohesion, formation of axial elements, and recombination during yeast meiosis. | Q27931673 | ||
| IME4, a gene that mediates MAT and nutritional control of meiosis in Saccharomyces cerevisiae | Q27932777 | ||
| Binding of yeast a1 and alpha 2 as a heterodimer to the operator DNA of a haploid-specific gene | Q27934257 | ||
| Gametogenesis in yeast is regulated by a transcriptional cascade dependent on Ndt80. | Q27934574 | ||
| Zip2, a meiosis-specific protein required for the initiation of chromosome synapsis | Q27934770 | ||
| UME6 is a central component of a developmental regulatory switch controlling meiosis-specific gene expression | Q27936382 | ||
| The meiosis-specific Hop2 protein of S. cerevisiae ensures synapsis between homologous chromosomes | Q27937163 | ||
| The transcriptional program of sporulation in budding yeast | Q27938344 | ||
| Induction of meiosis in Saccharomyces cerevisiae depends on conversion of the transcriptional represssor Ume6 to a positive regulator by its regulated association with the transcriptional activator Ime1. | Q27940264 | ||
| Molecular genetics of mating recognition in basidiomycete fungi | Q28266669 | ||
| The double-strand-break repair model for recombination | Q28267259 | ||
| Fusion of a fission yeast | Q28293542 | ||
| Yeast dom34 mutants are defective in multiple developmental pathways and exhibit decreased levels of polyribosomes | Q28768009 | ||
| Nonfilamentous C. albicans mutants are avirulent | Q29617839 | ||
| An atypical topoisomerase II from Archaea with implications for meiotic recombination | Q29618230 | ||
| Whose end is destruction: cell division and the anaphase-promoting complex | Q29618257 | ||
| Ustilago maydis, the delightful blight | Q30334375 | ||
| An automated sample preparation system for large-scale DNA sequencing | Q30629991 | ||
| An automated hydrodynamic process for controlled, unbiased DNA shearing | Q32028945 | ||
| Molecular genetics of heterokaryon incompatibility in filamentous ascomycetes | Q33334915 | ||
| Candida albicans RIM101 pH response pathway is required for host-pathogen interactions | Q33592905 | ||
| Roles of the DNA mismatch repair and nucleotide excision repair proteins during meiosis | Q33608248 | ||
| Structural maintenance of chromosomes (SMC) proteins: conserved molecular properties for multiple biological functions | Q33700987 | ||
| Signal transduction cascades regulating mating, filamentation, and virulence in Cryptococcus neoformans | Q33718369 | ||
| Adhesins in Candida albicans | Q33718388 | ||
| Induction of mating in Candida albicans by construction of MTLa and MTLalpha strains | Q33909520 | ||
| Transcriptional regulation of meiosis in yeast | Q33912898 | ||
| RIM101-dependent and-independent pathways govern pH responses in Candida albicans | Q33961756 | ||
| SPO13 negatively regulates the progression of mitotic and meiotic nuclear division in Saccharomyces cerevisiae | Q33963575 | ||
| DLH1 is a functional Candida albicans homologue of the meiosis-specific gene DMC1 | Q33967691 | ||
| A mutation in an HSP90 gene affects the sexual cycle and suppresses vegetative incompatibility in the fungus Podospora anserina. | Q33970889 | ||
| Cell wall and secreted proteins of Candida albicans: identification, function, and expression | Q34009982 | ||
| The pachytene checkpoint | Q34023299 | ||
| MOD-D, a Galpha subunit of the fungus Podospora anserina, is involved in both regulation of development and vegetative incompatibility | Q34607087 | ||
| Inactivation of the Podospora anserina vegetative incompatibility locus het-c, whose product resembles a glycolipid transfer protein, drastically impairs ascospore production | Q35542286 | ||
| A gene homologous to Saccharomyces cerevisiae SNF1 appears to be essential for the viability of Candida albicans | Q35559465 | ||
| Mating types and sexual development in filamentous ascomycetes | Q36574357 | ||
| Signal transduction through homologs of the Ste20p and Ste7p protein kinases can trigger hyphal formation in the pathogenic fungus Candida albicans | Q36690032 | ||
| A Candida albicans gene encoding a DNA ligase | Q36823568 | ||
| Molecular markers reveal that population structure of the human pathogen Candida albicans exhibits both clonality and recombination | Q37241878 | ||
| Meiosis: how could it work? | Q37394575 | ||
| Dimorphism and haploid fruiting in Cryptococcus neoformans: association with the alpha-mating type | Q37502523 | ||
| A regulatory hierarchy for cell specialization in yeast | Q38241033 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Candida albicans | Q310443 |
| P304 | page(s) | 3249-3253 | |
| P577 | publication date | 2001-03-01 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Genomic evidence for a complete sexual cycle in Candida albicans | |
| P478 | volume | 98 |
| Q90317369 | A 'parameiosis' drives depolyploidization and homologous recombination in Candida albicans |
| Q21283948 | A fungal phylogeny based on 42 complete genomes derived from supertree and combined gene analysis |
| Q21145286 | A human-curated annotation of the Candida albicans genome |
| Q40160054 | A single SNP, G929T (Gly310Val), determines the presence of a functional and a non-functional allele of HIS4 in Candida albicans SC5314: detection of the non-functional allele in laboratory strains |
| Q39229843 | An active retrotransposon in Candida albicans. |
| Q34452516 | Applications of yeast in drug discovery. |
| Q34161985 | Candida Albicans: a molecular revolution built on lessons from budding yeast |
| Q41874538 | Candida albicans Mds3p, a conserved regulator of pH responses and virulence identified through insertional mutagenesis. |
| Q24805003 | Candida albicans genome sequence: a platform for genomics in the absence of genetics |
| Q35215948 | Candida albicans secreted aspartyl proteinases in virulence and pathogenesis |
| Q74642979 | Candida albicans switches mates |
| Q35558609 | Candida albicansclades |
| Q34382808 | Chromosomal G + C content evolution in yeasts: systematic interspecies differences, and GC-poor troughs at centromeres |
| Q34574459 | Clonal population structure and genetic diversity of Candida albicans in AIDS patients from Abidjan (Côte d'Ivoire). |
| Q21090487 | Clonality despite sex: the evolution of host-associated sexual neighborhoods in the pathogenic fungus Penicillium marneffei |
| Q48138322 | Comparison of the yeast proteome to other fungal genomes to find core fungal genes. |
| Q39756083 | Completion of a parasexual cycle in Candida albicans by induced chromosome loss in tetraploid strains |
| Q33474576 | Computational analysis of the interaction between transcription factors and the predicted secreted proteome of the yeast Kluyveromyces lactis |
| Q94102815 | Current Awareness on Comparative and Functional Genomics |
| Q34616403 | Estimating the spontaneous mutation rate of loss of sex in the human pathogenic fungus Cryptococcus neoformans |
| Q24804600 | Evidence from comparative genomics for a complete sexual cycle in the 'asexual' pathogenic yeast Candida glabrata |
| Q34046630 | Evolution of eukaryotic microbial pathogens via covert sexual reproduction |
| Q22122230 | Evolution of pathogenicity and sexual reproduction in eight Candida genomes |
| Q36160831 | Evolution of the MAT locus and its Ho endonuclease in yeast species |
| Q57362464 | Functional Genomic Analysis of the Rice Blast Fungus Magnaporthe grisea |
| Q34289019 | Fungal genomics and pathogenicity |
| Q35006051 | Fungal mating: Candida albicans flips a switch to get in the mood |
| Q33757581 | Fungal meiosis and parasexual reproduction--lessons from pathogenic yeast |
| Q37672042 | Fungal sex and pathogenesis |
| Q39659009 | Gcn4 co-ordinates morphogenetic and metabolic responses to amino acid starvation in Candida albicans |
| Q37541482 | Gene Ontology and the annotation of pathogen genomes: the case of Candida albicans |
| Q26774293 | Genome management and mismanagement--cell-level opportunities and challenges of whole-genome duplication |
| Q21999033 | Genomic Plasticity of the Human Fungal Pathogen Candida albicans |
| Q54600647 | Genomic and experimental evidence for a potential sexual cycle in the pathogenic thermal dimorphic fungus Penicillium marneffei. |
| Q31101727 | Genomic approaches to fungal pathogenicity |
| Q48292702 | Genomic differences between Candida glabrata and Saccharomyces cerevisiae around the MRPL28 and GCN3 loci |
| Q40172519 | Identification and characterization of a Candida albicans mating pheromone |
| Q40691781 | Inactivation of Kex2p diminishes the virulence of Candida albicans |
| Q33841447 | Induction of the Candida albicans filamentous growth program by relief of transcriptional repression: a genome-wide analysis |
| Q28216197 | Life and death in a macrophage: role of the glyoxylate cycle in virulence |
| Q37772895 | MAPK cell-cycle regulation in Saccharomyces cerevisiae and Candida albicans |
| Q40495284 | MFalpha1, the gene encoding the alpha mating pheromone of Candida albicans |
| Q36510463 | Mating is rare within as well as between clades of the human pathogen Candida albicans |
| Q37457980 | Mechanistic plasticity of sexual reproduction and meiosis in the Candida pathogenic species complex |
| Q34082203 | Meiotic regulators Ndt80 and ime2 have different roles in Saccharomyces and Neurospora |
| Q34380356 | Metabolic specialization associated with phenotypic switching in Candidaalbicans |
| Q35948286 | Molecular phylogenetics of Candida albicans. |
| Q42054944 | Multilocus sequence typing reveals intrafamilial transmission and microevolutions of Candida albicans isolates from the human digestive tract |
| Q33904587 | Myosin I is required for hypha formation in Candida albicans |
| Q47597341 | Natural history and evolutionary principles of gene duplication in fungi |
| Q37629837 | Origins of eukaryotic sexual reproduction |
| Q37469557 | Parasexuality and ploidy change in Candida tropicalis. |
| Q38650449 | Ploidy Variation in Fungi: Polyploidy, Aneuploidy, and Genome Evolution |
| Q34355333 | Rapid mechanisms for generating genome diversity: whole ploidy shifts, aneuploidy, and loss of heterozygosity |
| Q36405480 | Recent advances in the genomic analysis of Candida albicans |
| Q42695853 | Retention of Core Meiotic Genes Across Diverse Hymenoptera |
| Q37301928 | Role of Ndt80p in sterol metabolism regulation and azole resistance in Candida albicans. |
| Q39618568 | Roles of TUP1 in switching, phase maintenance, and phase-specific gene expression in Candida albicans |
| Q33902950 | Septin function in Candida albicans morphogenesis. |
| Q34573500 | Sequence finishing and gene mapping for Candida albicans chromosome 7 and syntenic analysis against the Saccharomyces cerevisiae genome |
| Q34577438 | Sex and virulence of human pathogenic fungi |
| Q33770532 | Sex-specific homeodomain proteins Sxi1alpha and Sxi2a coordinately regulate sexual development in Cryptococcus neoformans |
| Q38236222 | Sexual reproduction of human fungal pathogens |
| Q34645110 | Species and condition specific adaptation of the transcriptional landscapes in Candida albicans and Candida dubliniensis |
| Q35075814 | Strategies for the identification of virulence determinants in human pathogenic fungi. |
| Q40607044 | Systematic discovery of new genes in the Saccharomyces cerevisiae genome |
| Q58432115 | The Fungal Genome Initiative and Lessons Learned from Genome Sequencing |
| Q27932149 | The Smk1p MAP kinase negatively regulates Gsc2p, a 1,3-beta-glucan synthase, during spore wall morphogenesis in Saccharomyces cerevisiae. |
| Q28251908 | The biology of mating in Candida albicans |
| Q21999078 | The diploid genome sequence of Candida albicans |
| Q33332302 | The parasexual cycle in Candida albicans provides an alternative pathway to meiosis for the formation of recombinant strains |
| Q38554271 | The parasexual lifestyle of Candida albicans |
| Q31070375 | The use of direct cDNA selection to rapidly and effectively identify genes in the fungus Aspergillus fumigatus |
| Q33951984 | Three retrotransposon families in the genome of Giardia lamblia: two telomeric, one dead |
| Q34167828 | Transcription profiling of Candida albicans cells undergoing the yeast-to-hyphal transition |
| Q38522960 | Transcriptome characterization of the dimorphic and pathogenic fungus Paracoccidioides brasiliensis by EST analysis. |
| Q39697631 | Usefulness of multilocus sequence typing for characterization of clinical isolates of Candida albicans |
| Q34144354 | White-opaque switching in Candida albicans is controlled by mating-type locus homeodomain proteins and allows efficient mating |
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