scholarly article | Q13442814 |
P50 | author | Franz Klein | Q68148066 |
P2093 | author name string | Doris Chen | |
Lingzhi Huang | |||
Martin Xaver | |||
P2860 | cites work | Molecular architecture of SMC proteins and the yeast cohesin complex | Q24296209 |
Coordination of DNA damage responses via the Smc5/Smc6 complex | Q24303726 | ||
Identification of the proteins, including MAGEG1, that make up the human SMC5-6 protein complex | Q24304051 | ||
Hop2/Mnd1 acts on two critical steps in Dmc1-promoted homologous pairing | Q24671981 | ||
Genome-wide mapping of the cohesin complex in the yeast Saccharomyces cerevisiae | Q24794908 | ||
Smc5/6 coordinates formation and resolution of joint molecules with chromosome morphology to ensure meiotic divisions | Q27317410 | ||
Structural and Functional Insights into the Roles of the Mms21 Subunit of the Smc5/6 Complex | Q27657416 | ||
Structure and DNA binding activity of the mouse condensin hinge domain highlight common and diverse features of SMC proteins | Q27659630 | ||
SMC5 and SMC6 genes are required for the segregation of repetitive chromosome regions. | Q27930040 | ||
Dynamic and selective DNA-binding activity of Smc5, a core component of the Smc5-Smc6 complex | Q27930174 | ||
A SUMO ligase is part of a nuclear multiprotein complex that affects DNA repair and chromosomal organization | Q27930326 | ||
Ubc9- and mms21-mediated sumoylation counteracts recombinogenic events at damaged replication forks | Q27930441 | ||
Smc5-Smc6 mediate DNA double-strand-break repair by promoting sister-chromatid recombination. | Q27931113 | ||
A central role for cohesins in sister chromatid cohesion, formation of axial elements, and recombination during yeast meiosis. | Q27931673 | ||
Interplay between the Smc5/6 complex and the Mph1 helicase in recombinational repair | Q27933139 | ||
Sumoylation and the structural maintenance of chromosomes (Smc) 5/6 complex slow senescence through recombination intermediate resolution | Q27933175 | ||
An essential DNA strand-exchange activity is conserved in the divergent N-termini of BLM orthologs | Q27933341 | ||
Polo-like kinase Cdc5 promotes chiasmata formation and cosegregation of sister centromeres at meiosis I. | Q27933588 | ||
Zip2, a meiosis-specific protein required for the initiation of chromosome synapsis | Q27934770 | ||
Purification and characterization of the Sgs1 DNA helicase activity of Saccharomyces cerevisiae. | Q27936079 | ||
Role of Polo-like kinase CDC5 in programming meiosis I chromosome segregation | Q27936086 | ||
Chromosomal association of the Smc5/6 complex reveals that it functions in differently regulated pathways | Q27936127 | ||
Polo-like kinase Cdc5 drives exit from pachytene during budding yeast meiosis | Q27936840 | ||
Crossover/noncrossover differentiation, synaptonemal complex formation, and regulatory surveillance at the leptotene/zygotene transition of meiosis | Q27936900 | ||
Identification of Holliday junction resolvases from humans and yeast | Q27937498 | ||
Srs2 disassembles Rad51 filaments by a protein-protein interaction triggering ATP turnover and dissociation of Rad51 from DNA. | Q27938895 | ||
RecQ helicase, Sgs1, and XPF family endonuclease, Mus81-Mms4, resolve aberrant joint molecules during meiotic recombination | Q27939265 | ||
Zip3 provides a link between recombination enzymes and synaptonemal complex proteins | Q27939710 | ||
Mus81/Mms4 endonuclease and Sgs1 helicase collaborate to ensure proper recombination intermediate metabolism during meiosis. | Q27940287 | ||
Differential timing and control of noncrossover and crossover recombination during meiosis | Q28207440 | ||
BLM helicase ortholog Sgs1 is a central regulator of meiotic recombination intermediate metabolism | Q28264465 | ||
Delineation of joint molecule resolution pathways in meiosis identifies a crossover-specific resolvase | Q28264475 | ||
Meiosis I is established through division-specific translational control of a cyclin | Q29346871 | ||
The Bloom's syndrome helicase suppresses crossing over during homologous recombination | Q29547237 | ||
Meiotic chromosome synapsis-promoting proteins antagonize the anti-crossover activity of sgs1. | Q30827295 | ||
Sumoylation of the BLM ortholog, Sgs1, promotes telomere-telomere recombination in budding yeast. | Q33608784 | ||
A method for preparing genomic DNA that restrains branch migration of Holliday junctions | Q33613634 | ||
Meiotic recombination intermediates are resolved with minimal crossover formation during return-to-growth, an analogue of the mitotic cell cycle | Q33921194 | ||
The Smc5-Smc6 complex is required to remove chromosome junctions in meiosis. | Q33952127 | ||
Factors that affect the location and frequency of meiosis-induced double-strand breaks in Saccharomyces cerevisiae. | Q33965142 | ||
Mnd1p: an evolutionarily conserved protein required for meiotic recombination | Q34067772 | ||
Normalization of ChIP-seq data with control | Q34376050 | ||
SUMOylation of the α-kleisin subunit of cohesin is required for DNA damage-induced cohesion. | Q54499093 | ||
A Topological Interaction between Cohesin Rings and a Circular Minichromosome | Q57270088 | ||
Disjunction of Homologous Chromosomes in Meiosis I Depends on Proteolytic Cleavage of the Meiotic Cohesin Rec8 by Separin | Q57270125 | ||
Intermediates of Yeast Meiotic Recombination Contain Heteroduplex DNA | Q58486283 | ||
Direct Coupling Between Meiotic DNA Replication and Recombination Initiation | Q58486289 | ||
Meiosis-induced double-strand break sites determined by yeast chromatin structure | Q58486296 | ||
Condensin structures chromosomal DNA through topological links | Q59344613 | ||
Smc5/6: a link between DNA repair and unidirectional replication? | Q63383716 | ||
Spo11-accessory proteins link double-strand break sites to the chromosome axis in early meiotic recombination | Q64386697 | ||
DNA-binding properties of Smc6, a core component of the Smc5-6 DNA repair complex | Q82517453 | ||
Separation of roles of Zip1 in meiosis revealed in heterozygous mutants of Saccharomyces cerevisiae | Q84483022 | ||
Alternate pathways involving Sgs1/Top3, Mus81/ Mms4, and Srs2 prevent formation of toxic recombination intermediates from single-stranded gaps created by DNA replication | Q34430247 | ||
Opening closed arms: long-distance activation of SMC ATPase by hinge-DNA interactions | Q34564368 | ||
Homologous recombination-dependent rescue of deficiency in the structural maintenance of chromosomes (Smc) 5/6 complex | Q34568333 | ||
Smc5p promotes faithful chromosome transmission and DNA repair in Saccharomyces cerevisiae | Q34588701 | ||
Budding yeast ATM/ATR control meiotic double-strand break (DSB) levels by down-regulating Rec114, an essential component of the DSB-machinery. | Q34795521 | ||
Heteroduplex rejection during single-strand annealing requires Sgs1 helicase and mismatch repair proteins Msh2 and Msh6 but not Pms1 | Q35318165 | ||
Rad51 paralogues Rad55-Rad57 balance the antirecombinase Srs2 in Rad51 filament formation | Q35541880 | ||
BLM ortholog, Sgs1, prevents aberrant crossing-over by suppressing formation of multichromatid joint molecules | Q36082370 | ||
Meiotic DNA joint molecule resolution depends on Nse5-Nse6 of the Smc5-Smc6 holocomplex | Q36341514 | ||
ZMM proteins during meiosis: crossover artists at work | Q36900922 | ||
Systematic pathway analysis using high-resolution fitness profiling of combinatorial gene deletions | Q37277864 | ||
mre11S--a yeast mutation that blocks double-strand-break processing and permits nonhomologous synapsis in meiosis | Q37367245 | ||
The Yin and Yang of the MMS21-SMC5/6 SUMO ligase complex in homologous recombination | Q37393400 | ||
The unnamed complex: what do we know about Smc5-Smc6? | Q37421564 | ||
Stabilization and electrophoretic analysis of meiotic recombination intermediates in Saccharomyces cerevisiae | Q37607261 | ||
Mnd1 is required for meiotic interhomolog repair. | Q38341859 | ||
Purification, crystallization and preliminary X-ray crystallographic studies of the complex between Smc5 and the SUMO E3 ligase Mms21. | Q38351746 | ||
Live-cell imaging reveals a stable cohesin-chromatin interaction after but not before DNA replication | Q40247003 | ||
Changes in chromatin structure at recombination initiation sites during yeast meiosis. | Q40794093 | ||
Phosphorylation of Slx4 by Mec1 and Tel1 regulates the single-strand annealing mode of DNA repair in budding yeast | Q40816101 | ||
Smc5/6 is required for repair at collapsed replication forks | Q41076824 | ||
Cohesin relocation from sites of chromosomal loading to places of convergent transcription | Q41809530 | ||
Regulatory control of the resolution of DNA recombination intermediates during meiosis and mitosis | Q42007696 | ||
A hierarchical combination of factors shapes the genome-wide topography of yeast meiotic recombination initiation | Q42079090 | ||
Architecture of the Smc5/6 Complex of Saccharomyces cerevisiae Reveals a Unique Interaction between the Nse5-6 Subcomplex and the Hinge Regions of Smc5 and Smc6 | Q42094944 | ||
Rtt107 is required for recruitment of the SMC5/6 complex to DNA double strand breaks | Q42112221 | ||
Extensive DNA damage-induced sumoylation contributes to replication and repair and acts in addition to the mec1 checkpoint | Q42142499 | ||
Histone H3 lysine 4 trimethylation marks meiotic recombination initiation sites. | Q43188962 | ||
SMC6 is required for MMS-induced interchromosomal and sister chromatid recombinations in Saccharomyces cerevisiae | Q44792785 | ||
Novel essential DNA repair proteins Nse1 and Nse2 are subunits of the fission yeast Smc5-Smc6 complex. | Q46271244 | ||
The cohesin ring concatenates sister DNA molecules | Q46505764 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 12 | |
P304 | page(s) | e1004067 | |
P577 | publication date | 2013-12-26 | |
P1433 | published in | PLOS Genetics | Q1893441 |
P1476 | title | Smc5/6-Mms21 prevents and eliminates inappropriate recombination intermediates in meiosis | |
P478 | volume | 9 |
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