| scholarly article | Q13442814 |
| P2093 | author name string | Chan A | |
| Sweeney M | |||
| Dawe RK | |||
| Hiatt EN | |||
| Yu HG | |||
| P2860 | cites work | CENP-E is a putative kinetochore motor that accumulates just before mitosis | Q24293768 |
| Kid, a novel kinesin-like DNA binding protein, is localized to chromosomes and the mitotic spindle | Q24322321 | ||
| Motile kinetochores and polar ejection forces dictate chromosome position on the vertebrate mitotic spindle | Q24673532 | ||
| Identification and partial characterization of mitotic centromere-associated kinesin, a kinesin-related protein that associates with centromeres during mitosis | Q28633869 | ||
| The kinetochore microtubule minus-end disassembly associated with poleward flux produces a force that can do work | Q30450974 | ||
| On the Anaphase Movement of Chromosomes | Q33747011 | ||
| Molecular characterization of a maize B chromosome centric sequence | Q33961735 | ||
| The Genetic Consequences of Anaphase Bridge Formation in Drosophila | Q33975481 | ||
| Preferential Segregation of Structurally Modified Chromosomes in Maize | Q33977275 | ||
| The Effect of Abnormal Chromosome 10 on Preferential Segregation and Crossing over in Maize | Q33983123 | ||
| The force exerted by a single kinesin molecule against a viscous load | Q34018422 | ||
| Two different microtubule-based motor activities with opposite polarities in kinetochores | Q34111829 | ||
| Force generation by microtubule assembly/disassembly in mitosis and related movements | Q34453605 | ||
| Spindle poles in higher plant mitosis | Q35369796 | ||
| Highly repeated DNA sequence limited to knob heterochromatin in maize | Q35406523 | ||
| A conserved repetitive DNA element located in the centromeres of cereal chromosomes | Q35949446 | ||
| Polarity of spindle microtubules in Haemanthus endosperm | Q36206441 | ||
| Microtubule dynamics and chromosome motion visualized in living anaphase cells | Q36218473 | ||
| Kinetochores are transported poleward along a single astral microtubule during chromosome attachment to the spindle in newt lung cells | Q36222387 | ||
| Antibodies to the kinesin motor domain and CENP-E inhibit microtubule depolymerization-dependent motion of chromosomes in vitro | Q36235181 | ||
| Chromokinesin: a DNA-binding, kinesin-like nuclear protein | Q36235349 | ||
| The force for poleward chromosome motion in Haemanthus cells acts along the length of the chromosome during metaphase but only at the kinetochore during anaphase | Q36236616 | ||
| Poleward kinetochore fiber movement occurs during both metaphase and anaphase-A in newt lung cell mitosis | Q36532077 | ||
| Micromanipulation of chromosomes in PTK2 cells using laser microsurgery (optical scalpel) in combination with laser-induced optical force (optical tweezers). | Q36774655 | ||
| A novel kinesin-like protein with a calmodulin-binding domain | Q36807497 | ||
| A plant kinesin heavy chain-like protein is a calmodulin-binding protein | Q36813808 | ||
| Kinesin force generation measured using a centrifuge microscope sperm-gliding motility assay | Q36838382 | ||
| Induction of centromeric activity in maize by suppressor of meiotic drive 1. | Q37408565 | ||
| The forces that move chromosomes in mitosis | Q39653525 | ||
| A new role for motor proteins as couplers to depolymerizing microtubules | Q40570151 | ||
| Kinetochore function: molecular motors, switches and gates | Q41066963 | ||
| Motors involved in spindle assembly and chromosome segregation | Q41099637 | ||
| Cytoplasmic dynein is localized to kinetochores during mitosis | Q41197238 | ||
| The mechanism of kinetochore-spindle attachment and polewards movement analyzed in PtK2 cells at the prophase-prometaphase transition. | Q41713313 | ||
| Localization of cytoplasmic dynein to mitotic spindles and kinetochores | Q41733968 | ||
| Anaphase transport of akinetochoric fragments in tipulid spermatocytes. Electron microscopic observations on fragment-spindle interactions | Q44389279 | ||
| DNA binding and meiotic chromosomal localization of the Drosophila nod kinesin-like protein. | Q46033662 | ||
| Xklp1, a chromosomal Xenopus kinesin-like protein essential for spindle organization and chromosome positioning | Q48074617 | ||
| Morphological Plasticity of the Mitotic Apparatus in Plants and Its Developmental Consequences. | Q52222938 | ||
| Morphological studies on the structure of univalent sex chromosomes during anaphase movement in spermatocytes of the crane fly Pales ferruginea | Q52479310 | ||
| Evidence for polewards forces on chromosome arms during anaphase. | Q52550783 | ||
| The Collection, Processing, and Display of Digital Three-Dimensional Images of Biological Specimens | Q57412279 | ||
| Chromosomes take the lead in spindle assembly | Q58875827 | ||
| A kinesin-like protein, KatAp, in the cells of arabidopsis and other plants | Q70992273 | ||
| Two different monoclonal antibodies to alpha-tubulin inhibit the bending of reactivated sea urchin spermatozoa | Q71846100 | ||
| [Polarization optical studies of the mitotic spindle. I. The demonstration of spindle fibers in living cells] | Q73252573 | ||
| An interpretation of transport phenomena at mitosis | Q78956616 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 831-840 | |
| P577 | publication date | 1997-11-01 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Neocentromere-mediated chromosome movement in maize | |
| P478 | volume | 139 |
| Q34608639 | A genetic test to determine the origin of maternal transmission ratio distortion. Meiotic drive at the mouse Om locus |
| Q77990746 | A maize homolog of mammalian CENPC is a constitutive component of the inner kinetochore |
| Q35625730 | A molecular portrait of Arabidopsis meiosis |
| Q34569998 | A novel meiotic drive locus almost completely distorts segregation in mimulus (monkeyflower) hybrids |
| Q51241305 | Aberrant Meiotic Modulation Partially Contributes to the Lower Germination Rate of Pollen Grains in Maize (Zea mays L.) Under Low Nitrogen Supply |
| Q28750068 | Accelerated evolution of the Prdm9 speciation gene across diverse metazoan taxa |
| Q53249231 | Activation of rye 5RL neocentromere by an organophosphate pesticide. |
| Q26866535 | Atypical centromeres in plants-what they can tell us |
| Q46316513 | Cell Biology of Cheating-Transmission of Centromeres and Other Selfish Elements Through Asymmetric Meiosis |
| Q50026026 | Cellular and Molecular Mechanisms of Centromere Drive |
| Q37478208 | Centromeres: long intergenic spaces with adaptive features |
| Q48275085 | Centromeric retroelements and satellites interact with maize kinetochore protein CENH3. |
| Q31010221 | Characterization of a maize chromosome 4 centromeric sequence: evidence for an evolutionary relationship with the B chromosome centromere. |
| Q35765305 | Complex genetic nature of sex-independent transmission ratio distortion in Asian rice species: the involvement of unlinked modifiers and sex-specific mechanisms. |
| Q52567736 | Cytochalasin D and latrunculin affect chromosome behaviour during meiosis in crane-fly spermatocytes. |
| Q34608761 | De novo evolution of satellite DNA on the rye B chromosome. |
| Q36851384 | Diversity and abundance of the abnormal chromosome 10 meiotic drive complex in Zea mays |
| Q34434387 | Domain organization at the centromere and neocentromere |
| Q52138343 | Dynamic analyses of the expression of the HISTONE::YFP fusion protein in arabidopsis show that syncytial endosperm is divided in mitotic domains. |
| Q28266114 | Engineered plant minichromosomes: a bottom-up success? |
| Q34617850 | Four loci on abnormal chromosome 10 contribute to meiotic drive in maize |
| Q41031799 | Functional complementation of human centromere protein A (CENP-A) by Cse4p from Saccharomyces cerevisiae |
| Q30442020 | Functional redundancy in the maize meiotic kinetochore |
| Q26810051 | Genetic and epigenetic interactions in allopolyploid plants |
| Q43909610 | Independently regulated neocentromere activity of two classes of tandem repeat arrays |
| Q36784796 | Intragenomic conflict between the two major knob repeats of maize |
| Q51610385 | Karyotype of Zea luxurians and Z. mays subsp. mays using FISH/DAPI, and analysis of meiotic behavior of hybrids. |
| Q64992234 | Live cell imaging of meiosis in Arabidopsis thaliana. |
| Q30492271 | Live imaging of rapid chromosome movements in meiotic prophase I in maize |
| Q91280745 | Live-Cell Imaging of Meiotic Spindle and Chromosome Dynamics in Maize (Zea mays) |
| Q36045154 | Maize histone H2B-mCherry: a new fluorescent chromatin marker for somatic and meiotic chromosome research. |
| Q34608436 | Male-offspring-specific, haplotype-dependent, nonrandom cosegregation of alleles at loci on two mouse chromosomes |
| Q34617954 | Marcus rhoades, preferential segregation and meiotic drive |
| Q28972443 | Meiotic drive of chromosomal knobs reshaped the maize genome |
| Q53500048 | Meiotic loss of the B chromosomes of maize is influenced by the B univalent co-orientation and the TR-1 knob constitution of the A chromosomes. |
| Q34605793 | Meiotic transmission rates correlate with physical features of rearranged centromeres in maize. |
| Q34617900 | Molecular characterization of a family of tandemly repeated DNA sequences, TR-1, in heterochromatic knobs of maize and its relatives. |
| Q62382521 | Neocentric activity of rye 5RL chromosome in wheat |
| Q34146174 | Neocentromeres: role in human disease, evolution, and centromere study |
| Q33600182 | Nuclear organization and chromosome segregation |
| Q53619980 | Organization of endoreduplicated chromosomes in the endosperm of Zea mays L. |
| Q34192362 | Perspective: transposable elements, parasitic DNA, and genome evolution |
| Q45230662 | Phosphoserines on maize CENTROMERIC HISTONE H3 and histone H3 demarcate the centromere and pericentromere during chromosome segregation |
| Q33538777 | Plant centromeres: structure and control |
| Q35101570 | R2d2 and Hyperdrive Mechanisms (in Mouse Meiosis). |
| Q62382518 | Rye terminal neocentromeres: characterisation of the underlying DNA and chromatin structure |
| Q34289102 | Sequencing of a rice centromere uncovers active genes |
| Q33896049 | Stable barley chromosomes without centromeric repeats. |
| Q55432533 | Tackling Plant Meiosis: From Model Research to Crop Improvement. |
| Q35650136 | The Arabidopsis SKP1-LIKE1 gene is essential for male meiosis and may control homologue separation |
| Q46020379 | The Arabidopsis gene tardy asynchronous meiosis is required for the normal pace and synchrony of cell division during male meiosis. |
| Q27306790 | The Maize Divergent spindle-1 (dv1) Gene Encodes a Kinesin-14A Motor Protein Required for Meiotic Spindle Pole Organization |
| Q35038686 | The maize Ab10 meiotic drive system maps to supernumerary sequences in a large complex haplotype |
| Q30442066 | The maize homologue of the cell cycle checkpoint protein MAD2 reveals kinetochore substructure and contrasting mitotic and meiotic localization patterns |
| Q33538780 | The structure and evolution of angiosperm nuclear genomes |
| Q26865376 | The unconventional structure of centromeric nucleosomes |
| Q33845509 | Transposable element contributions to plant gene and genome evolution |
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