| scholarly article | Q13442814 |
| P50 | author | Michael P. Snyder | Q28924918 |
| Philippe Lefrançois | Q87614441 | ||
| Pingxing Xie | Q95280435 | ||
| P2093 | author name string | G Shirleen Roeder | |
| Beth Rockmill | |||
| P2860 | cites work | Additions, losses, and rearrangements on the evolutionary route from a reconstructed ancestor to the modern Saccharomyces cerevisiae genome | Q21092460 |
| Meiotic chromosome pairing is promoted by telomere-led chromosome movements independent of bouquet formation | Q27333690 | ||
| Meiosis-specific DNA double-strand breaks are catalyzed by Spo11, a member of a widely conserved protein family | Q27930009 | ||
| Meiotic chromosomes: it takes two to tango | Q27930023 | ||
| Long-range communication between the silencers of HMR. | Q27930527 | ||
| Ndj1p, a meiotic telomere protein required for normal chromosome synapsis and segregation in yeast | Q27931008 | ||
| Csm4, in collaboration with Ndj1, mediates telomere-led chromosome dynamics and recombination during yeast meiosis | Q27931634 | ||
| Csm4-dependent telomere movement on nuclear envelope promotes meiotic recombination | Q27931695 | ||
| The yeast Red1 protein localizes to the cores of meiotic chromosomes | Q27931793 | ||
| Rapid telomere movement in meiotic prophase is promoted by NDJ1, MPS3, and CSM4 and is modulated by recombination | Q27932760 | ||
| Tam1, a telomere-associated meiotic protein, functions in chromosome synapsis and crossover interference | Q27934854 | ||
| A Mec1- and PP4-dependent checkpoint couples centromere pairing to meiotic recombination | Q27935744 | ||
| Meiotic telomere protein Ndj1p is required for meiosis-specific telomere distribution, bouquet formation and efficient homologue pairing | Q27936027 | ||
| Organization of the yeast Zip1 protein within the central region of the synaptonemal complex | Q27937024 | ||
| Budding yeast Hed1 down-regulates the mitotic recombination machinery when meiotic recombination is impaired | Q27937353 | ||
| Zip3 provides a link between recombination enzymes and synaptonemal complex proteins | Q27939710 | ||
| Comprehensive mapping of long-range interactions reveals folding principles of the human genome | Q28131819 | ||
| Capturing chromosome conformation | Q28201750 | ||
| Proof and evolutionary analysis of ancient genome duplication in the yeast Saccharomyces cerevisiae | Q28248858 | ||
| Chromosome Conformation Capture Carbon Copy (5C): a massively parallel solution for mapping interactions between genomic elements | Q28262061 | ||
| An oestrogen-receptor-α-bound human chromatin interactome | Q29541719 | ||
| Molecular evidence for an ancient duplication of the entire yeast genome | Q29547472 | ||
| Telomeres and centromeres have interchangeable roles in promoting meiotic spindle formation | Q30620665 | ||
| Circular chromosome conformation capture (4C) uncovers extensive networks of epigenetically regulated intra- and interchromosomal interactions. | Q33260024 | ||
| Temporal characterization of homology-independent centromere coupling in meiotic prophase | Q33567702 | ||
| The synaptonemal complex protein, Zip1, promotes the segregation of nonexchange chromosomes at meiosis I. | Q33640114 | ||
| Changing partners: moving from non-homologous to homologous centromere pairing in meiosis | Q33817094 | ||
| Meiotic cohesin promotes pairing of nonhomologous centromeres in early meiotic prophase | Q33881645 | ||
| A synaptonemal complex protein promotes homology-independent centromere coupling. | Q52050486 | ||
| The telomere bouquet regulates meiotic centromere assembly. | Q52958719 | ||
| The telomere bouquet controls the meiotic spindle. | Q53540686 | ||
| The three 'C' s of chromosome conformation capture: controls, controls, controls. | Q54625818 | ||
| Mapping chromatin interactions by chromosome conformation capture | Q80674244 | ||
| Heteroduplex DNA formation and homolog pairing in yeast meiotic mutants | Q33965764 | ||
| Modeling meiotic chromosomes indicates a size dependent contribution of telomere clustering and chromosome rigidity to homologue juxtaposition. | Q34263005 | ||
| Synaptonemal complex components persist at centromeres and are required for homologous centromere pairing in mouse spermatocytes. | Q34325523 | ||
| Interplay between synaptonemal complex, homologous recombination, and centromeres during mammalian meiosis | Q34325568 | ||
| SIR3 and SIR4 proteins are required for the positioning and integrity of yeast telomeres | Q34343500 | ||
| Normalization of a chromosomal contact map. | Q34398212 | ||
| Quantitative analysis of chromosome conformation capture assays (3C-qPCR). | Q34581232 | ||
| Distance-based assessment of the localization of functional annotations in 3D genome reconstructions | Q34623819 | ||
| Separable Crossover-Promoting and Crossover-Constraining Aspects of Zip1 Activity during Budding Yeast Meiosis | Q35675416 | ||
| The genetics and molecular biology of the synaptonemal complex. | Q35912834 | ||
| The clustering of telomeres and colocalization with Rap1, Sir3, and Sir4 proteins in wild-type Saccharomyces cerevisiae | Q36237437 | ||
| Controlled exchange of chromosomal arms reveals principles driving telomere interactions in yeast | Q36388826 | ||
| Pericentric chromatin is organized into an intramolecular loop in mitosis | Q36453590 | ||
| Meiotic chromosomes move by linkage to dynamic actin cables with transduction of force through the nuclear envelope | Q37013008 | ||
| Yeast silent mating type loci form heterochromatic clusters through silencer protein-dependent long-range interactions | Q37168902 | ||
| Mapping cis- and trans- chromatin interaction networks using chromosome conformation capture (3C). | Q37418588 | ||
| Chromosome spreading and immunofluorescence methods in Saccharomyes cerevisiae | Q37580787 | ||
| Telomere-mediated chromosome pairing during meiosis in budding yeast | Q40445528 | ||
| A three-dimensional model of the yeast genome | Q40674029 | ||
| Initiation of meiotic chromosome synapsis at centromeres in budding yeast | Q41344168 | ||
| Meiosis in asynaptic yeast | Q41973823 | ||
| Terminal regions of wheat chromosomes select their pairing partners in meiosis | Q42591635 | ||
| Gene loops juxtapose promoters and terminators in yeast | Q42633677 | ||
| Meiotic telomere clustering requires actin for its formation and cohesin for its resolution | Q42914420 | ||
| Global analysis of the meiotic crossover landscape. | Q43196392 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 10 | |
| P304 | page(s) | e1006347 | |
| P577 | publication date | 2016-10-21 | |
| P1433 | published in | PLOS Genetics | Q1893441 |
| P1476 | title | 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 | |
| P478 | volume | 12 |
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