about
DNA double-strand break formation and repair in Tetrahymena meiosisMeiotic chromosome mobility in fission yeast is resistant to environmental stress.The fission yeast FANCM ortholog directs non-crossover recombination during meiosisYeast nuclear envelope subdomains with distinct abilities to resist membrane expansion.Rad51/Dmc1 paralogs and mediators oppose DNA helicases to limit hybrid DNA formation and promote crossovers during meiotic recombinationSlx8 removes Pli1-dependent protein-SUMO conjugates including SUMOylated topoisomerase I to promote genome stability.Crossover promotion and prevention.Analysis of Schizosaccharomyces pombe meiosis by nuclear spreading.Single-step Marker Switching in Schizosaccharomyces pombe Using a Lithium Acetate Transformation Protocol.The RecQ DNA helicase Rqh1 constrains Exonuclease 1-dependent recombination at stalled replication forks.The human Holliday junction resolvase GEN1 rescues the meiotic phenotype of a Schizosaccharomyces pombe mus81 mutant.The DNA helicase Pfh1 promotes fork merging at replication termination sites to ensure genome stability.Fbh1 limits Rad51-dependent recombination at blocked replication forks.How not to get cross(ed): a novel role for FANCM orthologs in meiotic recombination.Mug20, a novel protein associated with linear elements in fission yeast meiosis.A failure of meiotic chromosome segregation in a fbh1Delta mutant correlates with persistent Rad51-DNA associations.Differential activation of M26-containing meiotic recombination hot spots in Schizosaccharomyces pombe.MHF1-2/CENP-S-X performs distinct roles in centromere metabolism and genetic recombination.The FANCM ortholog Fml1 promotes recombination at stalled replication forks and limits crossing over during DNA double-strand break repair.S. pombe meiotic linear elements contain proteins related to synaptonemal complex components.New cassettes for single-step drug resistance and prototrophic marker switching in fission yeast.Modulation of meiotic homologous recombination by DNA helicases.Genetic interactions between the chromosome axis-associated protein Hop1 and homologous recombination determinants in Schizosaccharomyces pombe.MHF1-2/CENP-S-X performs distinct roles in centromere metabolism and genetic recombination.The mycoparasitic yeast Saccharomycopsis schoenii predates and kills multi-drug resistant Candida aurisRapid and extensive karyotype diversification in haploid clinical Candida auris isolatesMeiotic recombination proteins localize to linear elements in Schizosaccharomyces pombeSpatial organisation and behaviour of the parental chromosome sets in the nuclei of Saccharomyces cerevisiae x S. paradoxus hybridsPseudohyphal Growth of the Emerging Pathogen Candida auris Is Triggered by Genotoxic Stress through the S Phase CheckpointRapid and extensive karyotype diversification in haploid clinical Candida auris isolatesDNA sequence differences are determinants of meiotic recombination outcomeImmediate visualization of recombination events and chromosome segregation defects in fission yeast meiosisIntragenic meiotic recombination in Schizosaccharomyces pombe is sensitive to environmental temperature changesABC Transporter Genes Show Upregulated Expression in Drug-Resistant Clinical Isolates of Candida auris: A Genome-Wide Characterization of ATP-Binding Cassette (ABC) Transporter Genes
P50
Q26768639-6BA14BB0-9851-4CB7-9661-B04038C0F3CFQ27322714-92874016-7040-4434-9EB1-4115A9F8F8EDQ28729084-8046C76B-78F3-4A33-B3D3-53904EEACB60Q34483484-1D78E914-B9A2-464F-9EDF-DEC75B67BDB7Q34712004-4AD5DBB1-8046-4C06-9C37-2618FE58D140Q34927156-87425729-320A-40B4-94F9-548CCADCFE5CQ36542036-75604D7B-3B1F-4687-BD1D-B12A382706B7Q37580790-00B9B3B3-E2F0-4FF8-952F-D44DEBCFA311Q37721147-33CEC498-7807-4BDD-A56B-FD3BBF352BAAQ38859923-24F429D5-4FA3-4F41-B896-65B5A577F61FQ39843905-71615ED0-CA03-4430-BAD8-0D57D06B36EEQ41779826-4E6CFC03-9F09-4E09-B567-6702B7132715Q41865081-58A693A6-8736-4D0A-96EC-B87E434D4F38Q42445100-0B64489B-26EF-4CDD-8C4B-9574C264AED7Q42573314-079F08BD-1F27-4DF0-9D97-E89DE0B77717Q42701127-3AB677FD-2E66-4359-951F-644F4E36FE59Q42871520-24E498A5-53B3-404A-BA1D-7D5E7A44223BQ42961762-68FBC72B-1E76-4288-B199-2BF63D09A374Q43244381-B9CE75A5-7BB5-4159-802A-50F5904FC0ADQ47264979-9728A1FD-C501-4FED-89A4-2EC7106C8380Q48142396-488FD1E9-8064-43D6-A11F-ABDF35019C9FQ48174147-7F27D34F-79C8-4EFF-B722-24E2C26BD289Q52351581-A01AA5CF-6FAD-426C-B171-3DB0ACA55BA0Q53842802-41F5286D-1704-4878-A2BD-8CA9998FC18EQ57296241-85F3CEE5-B414-4BD4-86DF-8B8C9CA9A7FCQ61228447-46AD088D-B260-4810-BFCC-C4EF26A646CEQ64388567-306A3527-04DB-42A7-B59D-1E0584E395D0Q74796400-132EC536-834C-43B7-87DF-6343782D77B7Q90244702-EB72DE1A-1A69-4DF2-A1DA-35AD9DB83E27Q90291132-3F1D9050-4341-43C0-8FB3-16821AD7E66CQ91235094-C2A11595-976C-4576-85FE-2753898E9FCDQ91437921-8C413D44-B0ED-42C6-8987-DDC7AF891625Q92026431-3FCD2ED2-B9FC-4D6A-8C26-C602819AAF1DQ92404341-2939F344-897E-475D-9625-CFF34238ED38
P50
description
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
Alexander Lorenz
@ast
Alexander Lorenz
@en
Alexander Lorenz
@es
Alexander Lorenz
@nl
type
label
Alexander Lorenz
@ast
Alexander Lorenz
@en
Alexander Lorenz
@es
Alexander Lorenz
@nl
prefLabel
Alexander Lorenz
@ast
Alexander Lorenz
@en
Alexander Lorenz
@es
Alexander Lorenz
@nl
P1053
B-4735-2008
P106
P1153
7102442802
P21
P31
P3829
P496
0000-0003-1925-3713