| scholarly article | Q13442814 |
| P2093 | author name string | G Shirleen Roeder | |
| Tomomi Tsubouchi | |||
| Amy J Macqueen | |||
| P2860 | cites work | SUMO modifications control assembly of synaptonemal complex and polycomplex in meiosis of Saccharomyces cerevisiae | Q24681493 |
| The meiosis-specific zip4 protein regulates crossover distribution by promoting synaptonemal complex formation together with zip2. | Q27929737 | ||
| Meiotic chromosomes: it takes two to tango | Q27930023 | ||
| A Role for SUMO in meiotic chromosome synapsis | Q27931422 | ||
| The yeast Red1 protein localizes to the cores of meiotic chromosomes | Q27931793 | ||
| The budding yeast Msh4 protein functions in chromosome synapsis and the regulation of crossover distribution | Q27931846 | ||
| Crossover assurance and crossover interference are distinctly regulated by the ZMM proteins during yeast meiosis | Q27934346 | ||
| Zip2, a meiosis-specific protein required for the initiation of chromosome synapsis | Q27934770 | ||
| Yeast mer1 mutants display reduced levels of meiotic recombination | Q27935285 | ||
| Rap1 prevents telomere fusions by nonhomologous end joining | Q27936253 | ||
| Organization of the yeast Zip1 protein within the central region of the synaptonemal complex | Q27937024 | ||
| Zip3 provides a link between recombination enzymes and synaptonemal complex proteins | Q27939710 | ||
| ZIP1 is a synaptonemal complex protein required for meiotic chromosome synapsis | Q29618281 | ||
| Repression of meiotic crossing over by a centromere (CEN3) in Saccharomyces cerevisiae. | Q33952507 | ||
| A polymerization model of chiasma interference and corresponding computer simulation | Q33957285 | ||
| Meiotic synapsis proceeds from a limited number of subtelomeric sites in the human male | Q34114502 | ||
| Chromosome sites play dual roles to establish homologous synapsis during meiosis in C. elegans | Q35619465 | ||
| The genetics and molecular biology of the synaptonemal complex. | Q35912834 | ||
| Zip1-induced changes in synaptonemal complex structure and polycomplex assembly | Q36382459 | ||
| When specialized sites are important for synapsis and the distribution of crossovers | Q36733973 | ||
| Correlation between pairing initiation sites, recombination nodules and meiotic recombination in Sordaria macrospora | Q42963294 | ||
| The Sgs1 Helicase Regulates Chromosome Synapsis and Meiotic Crossing Over | Q47388021 | ||
| Imposition of crossover interference through the nonrandom distribution of synapsis initiation complexes | Q47910491 | ||
| A synaptonemal complex protein promotes homology-independent centromere coupling. | Q52050486 | ||
| Synaptonemal complex formation: where does it start? | Q53657228 | ||
| Roles for two RecA homologs in promoting meiotic chromosome synapsis | Q54601107 | ||
| P433 | issue | 22 | |
| P304 | page(s) | 3217-3226 | |
| P577 | publication date | 2008-11-01 | |
| P1433 | published in | Genes & Development | Q1524533 |
| P1476 | title | Initiation of meiotic chromosome synapsis at centromeres in budding yeast | |
| P478 | volume | 22 |
| Q58792957 | A ZIP1 separation-of-function allele reveals that centromere pairing drives meiotic segregation of achiasmate chromosomes in budding yeast |
| Q36902036 | A few of our favorite things: Pairing, the bouquet, crossover interference and evolution of meiosis. |
| Q50027177 | A meiotic XPF-ERCC1-like complex recognizes joint molecule recombination intermediates to promote crossover formation |
| Q30580394 | A selfish DNA element engages a meiosis-specific motor and telomeres for germ-line propagation. |
| Q47659645 | Centromere Dynamics in Male and Female Germ Cells |
| Q46041033 | Centromere pairing in early meiotic prophase requires active centromeres and precedes installation of the synaptonemal complex in maize |
| Q35812251 | Centromere pairing--tethering partner chromosomes in meiosis I. |
| Q35921916 | Chromosome Synapsis Alleviates Mek1-Dependent Suppression of Meiotic DNA Repair |
| Q38176326 | Chromosome segregation in budding yeast: sister chromatid cohesion and related mechanisms. |
| Q37786461 | Complex regulation of sister kinetochore orientation in meiosis-I |
| Q37656154 | Control of Meiotic Crossovers: From Double-Strand Break Formation to Designation. |
| Q47278848 | Control of meiotic pairing and recombination by chromosomally tethered 26S proteasome. |
| Q36473394 | Correlations between Synaptic Initiation and Meiotic Recombination: A Study of Humans and Mice |
| Q37671689 | Couples, pairs, and clusters: mechanisms and implications of centromere associations in meiosis |
| Q34441535 | Crossover formation during rice meiosis relies on interaction of OsMSH4 and OsMSH5. |
| Q92901769 | Crossover recombination and synapsis are linked by adjacent regions within the N terminus of the Zip1 synaptonemal complex protein |
| Q27934547 | Differential association of the conserved SUMO ligase Zip3 with meiotic double-strand break sites reveals regional variations in the outcome of meiotic recombination |
| Q34244927 | Differing requirements for RAD51 and DMC1 in meiotic pairing of centromeres and chromosome arms in Arabidopsis thaliana. |
| Q37288589 | Finding the correct partner: the meiotic courtship |
| Q42109496 | Fpr3 and Zip3 ensure that initiation of meiotic recombination precedes chromosome synapsis in budding yeast |
| Q34446659 | Full-length synaptonemal complex grows continuously during meiotic prophase in budding yeast |
| Q58696735 | HO Endonuclease-Initiated Recombination in Yeast Meiosis Fails To Promote Homologous Centromere Pairing and Is Not Constrained To Utilize the Dmc1 Recombinase |
| Q35034403 | High throughput sequencing reveals alterations in the recombination signatures with diminishing Spo11 activity |
| Q34325568 | Interplay between synaptonemal complex, homologous recombination, and centromeres during mammalian meiosis |
| Q37362826 | Ipl1/Aurora B kinase coordinates synaptonemal complex disassembly with cell cycle progression and crossover formation in budding yeast meiosis |
| Q37810497 | Many functions of the meiotic cohesin |
| Q50234120 | Meiotic Centromere Coupling and Pairing Function by Two Separate Mechanisms in Saccharomyces cerevisiae |
| Q58693050 | Meiotic Chromosome Interactions: Nonhomologous Centromere (Un)Coupling and Homologous Synapsis |
| Q33881645 | Meiotic cohesin promotes pairing of nonhomologous centromeres in early meiotic prophase |
| Q36170704 | Multiple Pairwise Analysis of Non-homologous Centromere Coupling Reveals Preferential Chromosome Size-Dependent Interactions and a Role for Bouquet Formation in Establishing the Interaction Pattern |
| Q51866095 | OsSGO1 maintains synaptonemal complex stabilization in addition to protecting centromeric cohesion during rice meiosis. |
| Q37446586 | PHS1 regulates meiotic recombination and homologous chromosome pairing by controlling the transport of RAD50 to the nucleus |
| Q33486503 | Pch2 links chromosome axis remodeling at future crossover sites and crossover distribution during yeast meiosis |
| Q38824610 | Regulating the construction and demolition of the synaptonemal complex. |
| Q34325603 | Rumors of its disassembly have been greatly exaggerated: the secret life of the synaptonemal complex at the centromeres |
| Q37876819 | SUMO meets meiosis: an encounter at the synaptonemal complex: SUMO chains and sumoylated proteins suggest that heterogeneous and complex interactions lie at the centre of the synaptonemal complex |
| Q35675416 | Separable Crossover-Promoting and Crossover-Constraining Aspects of Zip1 Activity during Budding Yeast Meiosis |
| Q89885285 | Slx5p-Slx8p Promotes Accurate Chromosome Segregation by Mediating the Degradation of Synaptonemal Complex Components during Meiosis |
| Q35081607 | Sme4 coiled-coil protein mediates synaptonemal complex assembly, recombinosome relocalization, and spindle pole body morphogenesis. |
| Q36210732 | Spindle assembly checkpoint proteins regulate and monitor meiotic synapsis in C. elegans |
| Q34325523 | Synaptonemal complex components persist at centromeres and are required for homologous centromere pairing in mouse spermatocytes. |
| Q33567702 | Temporal characterization of homology-independent centromere coupling in meiotic prophase |
| Q36119914 | The Arabidopsis HEI10 is a new ZMM protein related to Zip3 |
| Q64386897 | The E3 ubiquitin ligase Sina regulates the assembly and disassembly of the synaptonemal complex in Drosophila females |
| Q27932800 | The Ecm11-Gmc2 complex promotes synaptonemal complex formation through assembly of transverse filaments in budding yeast |
| Q38813539 | The Nucleoporin Nup2 Contains a Meiotic-Autonomous Region that Promotes the Dynamic Chromosome Events of Meiosis. |
| Q27935580 | The kinetochore prevents centromere-proximal crossover recombination during meiosis |
| Q33486516 | The pch2Delta mutation in baker's yeast alters meiotic crossover levels and confers a defect in crossover interference |
| Q34335536 | The role of rice HEI10 in the formation of meiotic crossovers |
| Q33518469 | The synaptonemal complex protein Zip1 promotes bi-orientation of centromeres at meiosis I. |
| Q33640114 | The synaptonemal complex protein, Zip1, promotes the segregation of nonexchange chromosomes at meiosis I. |
| Q34131609 | The synaptonemal complex shapes the crossover landscape through cooperative assembly, crossover promotion and crossover inhibition during Caenorhabditis elegans meiosis |
| Q33920029 | Wrestling with Chromosomes: The Roles of SUMO During Meiosis |
| Q27936223 | Yeast axial-element protein, Red1, binds SUMO chains to promote meiotic interhomologue recombination and chromosome synapsis |
| Q47241927 | Zipping and Unzipping: Protein Modifications Regulating Synaptonemal Complex Dynamics |
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