scholarly article | Q13442814 |
P50 | author | Patrick J. Hussey | Q37830001 |
David Twell | Q37831267 | ||
Daniel Schubert | Q57218914 | ||
Renate H Schmidt | Q57566140 | ||
P2093 | author name string | Andrei Smertenko | |
Timothy J Hawkins | |||
Soon Ki Park | |||
P2860 | cites work | Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana | Q27860555 |
Control of microtubule dynamics by the antagonistic activities of XMAP215 and XKCM1 in Xenopus egg extracts | Q33885622 | ||
HEAT repeats associated with condensins, cohesins, and other complexes involved in chromosome-related functions | Q33922394 | ||
MOR1 is essential for organizing cortical microtubules in plants. | Q33949237 | ||
XMAP215 regulates microtubule dynamics through two distinct domains. | Q34271357 | ||
Microtubule Assembly in the Absence of Added Nucleotides | Q35098486 | ||
A microtubule-associated protein from Xenopus eggs that specifically promotes assembly at the plus-end | Q36217776 | ||
Stu2p: A microtubule-binding protein that is an essential component of the yeast spindle pole body. | Q36275044 | ||
mini spindles: A gene encoding a conserved microtubule-associated protein required for the integrity of the mitotic spindle in Drosophila | Q36316666 | ||
XMAP from Xenopus eggs promotes rapid plus end assembly of microtubules and rapid microtubule polymer turnover. | Q36382992 | ||
Fission yeast ch-TOG/XMAP215 homologue Alp14 connects mitotic spindles with the kinetochore and is a component of the Mad2-dependent spindle checkpoint | Q39645373 | ||
Cold-sensitive and caffeine-supersensitive mutants of the Schizosaccharomyces pombe dis genes implicated in sister chromatid separation during mitosis | Q41114115 | ||
The TOGp protein is a new human microtubule-associated protein homologous to the Xenopus XMAP215. | Q42676809 | ||
A new class of microtubule-associated proteins in plants. | Q47823275 | ||
Differential gene expression in nematode-induced feeding structures of transgenic plants harbouring promoter-gusA fusion constructs. | Q50778540 | ||
Temperature-sensitive developmental mutants of Caenorhabditis elegans. | Q50913450 | ||
Microtubule translocation in the cytokinetic apparatus of cultured tobacco cells | Q59025279 | ||
Isolation of a novel 190 kDa protein from tobacco BY-2 cells: possible involvement in the interaction between actin filaments and microtubules | Q73093136 | ||
Dictyostelium DdCP224 is a microtubule-associated protein and a permanent centrosomal resident involved in centrosome duplication | Q73685374 | ||
Novel patterns of ectopic cell plate growth and lipid body distribution in the Arabidopsis gemini pollen1 mutant | Q74009961 | ||
Plant microtubule-associated proteins: the HEAT is off in temperature-sensitive mor1 | Q74481127 | ||
The Arabidopsis thaliana gametophytic mutation gemini pollen1 disrupts microspore polarity, division asymmetry and pollen cell fate | Q77208776 | ||
P433 | issue | 9 | |
P304 | page(s) | 711-714 | |
P577 | publication date | 2002-09-01 | |
P1433 | published in | Nature Cell Biology | Q1574111 |
P1476 | title | MOR1/GEM1 has an essential role in the plant-specific cytokinetic phragmoplast | |
P478 | volume | 4 |
Q35980432 | +TIPs and microtubule regulation. The beginning of the plus end in plants |
Q46489777 | A Conserved cis-Regulatory Module Determines Germline Fate through Activation of the Transcription Factor DUO1 Promoter. |
Q48591329 | A NIMA-related protein kinase suppresses ectopic outgrowth of epidermal cells through its kinase activity and the association with microtubules |
Q35607544 | A decade of pollen transcriptomics. |
Q44945511 | A semidominant mutation in an Arabidopsis mitogen-activated protein kinase phosphatase-like gene compromises cortical microtubule organization |
Q50904482 | Analysis of gemini pollen 3 mutant suggests a broad function of AUGMIN in microtubule organization during sexual reproduction in Arabidopsis. |
Q34645980 | Analysis of transposon insertion mutants highlights the diversity of mechanisms underlying male progamic development in Arabidopsis. |
Q28082839 | Anther and pollen development: A conserved developmental pathway |
Q38409180 | Application of rice microspore-preferred promoters to manipulate early pollen development in Arabidopsis: a heterologous system. |
Q51054971 | Arabidopsis AtBECLIN 1/AtAtg6/AtVps30 is essential for pollen germination and plant development. |
Q44329541 | Arabidopsis Fused kinase TWO-IN-ONE dominantly inhibits male meiotic cytokinesis |
Q34282423 | Arabidopsis Fused kinase and the Kinesin-12 subfamily constitute a signalling module required for phragmoplast expansion |
Q48081092 | Arabidopsis MICROTUBULE-ASSOCIATED PROTEIN18 functions in directional cell growth by destabilizing cortical microtubules |
Q33351763 | Augmin plays a critical role in organizing the spindle and phragmoplast microtubule arrays in Arabidopsis |
Q55236945 | Auxin production in diploid microsporocytes is necessary and sufficient for early stages of pollen development. |
Q91723631 | Building new insights in plant gametogenesis from an evolutionary perspective |
Q48157947 | Cell cycle-regulated PLEIADE/AtMAP65-3 links membrane and microtubule dynamics during plant cytokinesis |
Q34639995 | Characterization and functional analysis of the potato pollen-specific microtubule-associated protein SBgLR in tobacco |
Q33353348 | Characterization of the Arabidopsis augmin complex uncovers its critical function in the assembly of the acentrosomal spindle and phragmoplast microtubule arrays |
Q51030878 | Collapsed abnormal pollen1 gene encoding the Arabinokinase-like protein is involved in pollen development in rice. |
Q36214100 | Combinatorial interactions between LBD10 and LBD27 are essential for male gametophyte development in Arabidopsis |
Q35705809 | Control of male gametophyte development |
Q38025513 | Cracking the elusive alignment hypothesis: the microtubule-cellulose synthase nexus unraveled |
Q36437584 | Cytokinesis in plant and animal cells: endosomes 'shut the door'. |
Q35032029 | Cytoskeletal control of plant cell shape: getting the fine points |
Q36434457 | Cytoskeletal organization during xylem cell differentiation |
Q35581432 | Dynamics and regulation of plant interphase microtubules: a comparative view |
Q37254248 | Evaluating the microtubule cytoskeleton and its interacting proteins in monocots by mining the rice genome |
Q51767880 | Fine mapping of pss1, a pollen semi-sterile gene in rice (Oryza sativa L.). |
Q37288553 | Formins: emerging players in the dynamic plant cell cortex |
Q50730509 | Gamma-tubulin is essential for microtubule organization and development in Arabidopsis. |
Q47357090 | Generative cell-specific activation of the histone gH2A gene promoter of Lilium longiflorum in tobacco |
Q33339290 | Genetic analysis of adventitious root formation with a novel series of temperature-sensitive mutants ofArabidopsis thaliana |
Q38461126 | Global Analysis Reveals the Crucial Roles of DNA Methylation during Rice Seed Development |
Q38107376 | How plants LINC the SUN to KASH. |
Q33267391 | Identification of microspore-active promoters that allow targeted manipulation of gene expression at early stages of microgametogenesis in Arabidopsis |
Q45382745 | Interaction of the Tobacco mosaic virus movement protein with microtubules during the cell cycle in tobacco BY-2 cells |
Q52973575 | LATERAL ORGAN BOUNDARIES DOMAIN (LBD)10 interacts with SIDECAR POLLEN/LBD27 to control pollen development in Arabidopsis. |
Q36482041 | MADS-complexes regulate transcriptome dynamics during pollen maturation |
Q35909198 | MAPping the eukaryotic tree of life: structure, function, and evolution of the MAP215/Dis1 family of microtubule-associated proteins |
Q38125617 | MAPs: cellular navigators for microtubule array orientations in Arabidopsis |
Q83158394 | MDP25, a novel calcium regulatory protein, mediates hypocotyl cell elongation by destabilizing cortical microtubules in Arabidopsis |
Q43523646 | MEI-1/katanin is required for translocation of the meiosis I spindle to the oocyte cortex in C elegans |
Q53642880 | MICROTUBULE ORGANIZATION 1 regulates structure and function of microtubule arrays during mitosis and cytokinesis in the Arabidopsis root. |
Q34619375 | Maize ROP2 GTPase provides a competitive advantage to the male gametophyte. |
Q37811972 | Male gametogenesis and germline specification in flowering plants |
Q38686219 | Male gametophyte development and function in angiosperms: a general concept. |
Q37391843 | Male gametophyte development: a molecular perspective. |
Q81196521 | Male germ line development in Arabidopsis. duo pollen mutants reveal gametophytic regulators of generative cell cycle progression |
Q35970242 | Microtubule Reorganization during Mitosis and Cytokinesis: Lessons Learned from Developing Microgametophytes in Arabidopsis Thaliana |
Q35195275 | Microtubule dynamics: new surprises from an old MAP. |
Q36730346 | Microtubule-associated proteins in higher plants |
Q35621346 | Microtubules and the shape of plants to come |
Q35636268 | Microtubules in plants |
Q36189898 | Midbodies and phragmoplasts: analogous structures involved in cytokinesis |
Q40342684 | Narrowing of the preprophase microtubule band is not required for cell division plane determination in cultured plant cells |
Q35980447 | New views on the plant cytoskeleton |
Q42495368 | NtDRP is necessary for accurate zygotic division orientation and differentiation of basal cell lineage toward suspensor formation |
Q34600809 | ORFH79 impairs mitochondrial function via interaction with a subunit of electron transport chain complex III in Honglian cytoplasmic male sterile rice |
Q42083866 | Phosphorylation of NtMAP65-1 by a MAP kinase down-regulates its activity of microtubule bundling and stimulates progression of cytokinesis of tobacco cells |
Q64107458 | Phosphorylation of Plant Microtubule-Associated Proteins During Cell Division |
Q47598358 | Phragmoplast microtubule dynamics - a game of zones. |
Q50785833 | Plant-specific microtubule-associated protein SPIRAL2 is required for anisotropic growth in Arabidopsis. |
Q33924128 | Polarity in plant asymmetric cell division: Division orientation and cell fate differentiation |
Q46581082 | Pyruvate decarboxylase provides growing pollen tubes with a competitive advantage in petunia |
Q51923158 | RA68 is required for postmeiotic pollen development in Oryza sativa. |
Q63431122 | RICE MORPHOLOGY DETERMINANT encodes the type II formin FH5 and regulates rice morphogenesis |
Q79756487 | RNA interference of the Arabidopsis putative transcription factor TCP16 gene results in abortion of early pollen development |
Q48567397 | Root hair development involves asymmetric cell division in Brachypodium distachyon and symmetric division in Oryza sativa |
Q35124528 | SIDECAR POLLEN suggests a plant-specific regulatory network underlying asymmetric microspore division in Arabidopsis |
Q51718042 | Serine palmitoyltransferase, a key enzyme for de novo synthesis of sphingolipids, is essential for male gametophyte development in Arabidopsis. |
Q43057538 | Sperm dimorphism in terms of nuclear shape and microtubule accumulation in Cyrtanthus mackenii |
Q38583838 | Structure, function, and evolution of plant NIMA-related kinases: implication for phosphorylation-dependent microtubule regulation |
Q84726109 | TMBP200, a XMAP215 homologue of tobacco BY-2 cells, has an essential role in plant mitosis |
Q47637228 | Targeted degradation of the cyclin-dependent kinase inhibitor ICK4/KRP6 by RING-type E3 ligases is essential for mitotic cell cycle progression during Arabidopsis gametogenesis |
Q51568447 | The Arabidopsis ARCP protein, CSI1, which is required for microtubule stability, is necessary for root and anther development. |
Q50665190 | The Arabidopsis CLASP gene encodes a microtubule-associated protein involved in cell expansion and division. |
Q54969760 | The Canonical E2Fs Are Required for Germline Development in Arabidopsis. |
Q60463817 | The Microtubule-Associated Protein IQ67 DOMAIN5 Modulates Microtubule Dynamics and Pavement Cell Shape |
Q48083163 | The POLARIS peptide of Arabidopsis regulates auxin transport and root growth via effects on ethylene signaling |
Q42366464 | The carboxyl-terminal tail of the stalk of Arabidopsis NACK1/HINKEL kinesin is required for its localization to the cell plate formation site |
Q38095625 | The evolution and diversification of plant microtubule-associated proteins |
Q46514246 | The microtubule-associated kinase-like protein RUNKEL functions in somatic and syncytial cytokinesis |
Q33842288 | The plant microtubule-associated protein AtMAP65-3/PLE is essential for cytokinetic phragmoplast function |
Q38089912 | The role of the cytoskeleton and associated proteins in determination of the plant cell division plane |
Q37802541 | The secret to life is being different: asymmetric divisions in plant development |
Q33679517 | The tobacco MAP215/Dis1-family protein TMBP200 is required for the functional organization of microtubule arrays during male germline establishment. |
Q33213705 | Three dimensional confocal and electron microscopy imaging define the dynamics and mechanisms of diploidisation at early stages of barley microspore-derived embryogenesis |
Q24809583 | Transcriptome analysis of haploid male gametophyte development in Arabidopsis |
Q24564788 | Two Arabidopsis phragmoplast-associated kinesins play a critical role in cytokinesis during male gametogenesis |
Q35758767 | gemini pollen 2, a male and female gametophytic cytokinesis defective mutation. |
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