Pollen tube growth oscillations and intracellular calcium levels are reversibly modulated by actin polymerization.
about
NADPH Oxidase-Dependent Superoxide Production in Plant Reproductive TissuesThe quest for four-dimensional imaging in plant cell biology: it's just a matter of timeActin3 promoter reveals undulating F-actin bundles at shanks and dynamic F-actin meshworks at tips of tip-growing pollen tubes.Lifeact-mEGFP reveals a dynamic apical F-actin network in tip growing plant cellsTrans-Golgi network localized small GTPase RabA1d is involved in cell plate formation and oscillatory root hair growth.Magnitude and direction of vesicle dynamics in growing pollen tubes using spatiotemporal image correlation spectroscopy and fluorescence recovery after photobleaching.Fluorescence resonance energy transfer-sensitized emission of yellow cameleon 3.60 reveals root zone-specific calcium signatures in Arabidopsis in response to aluminum and other trivalent cations.Penetration of the stigma and style elicits a novel transcriptome in pollen tubes, pointing to genes critical for growth in a pistilExocytosis precedes and predicts the increase in growth in oscillating pollen tubes.Genome-scale analysis and comparison of gene expression profiles in developing and germinated pollen in Oryza sativa.Annexins as Overlooked Regulators of Membrane Trafficking in Plant CellsA compartmental model analysis of integrative and self-regulatory ion dynamics in pollen tube growthNtGNL1 plays an essential role in pollen tube tip growth and orientation likely via regulation of post-Golgi trafficking.At the poles across kingdoms: phosphoinositides and polar tip growthAnnexin5 plays a vital role in Arabidopsis pollen development via Ca2+-dependent membrane trafficking.Actin is involved in pollen tube tropism through redefining the spatial targeting of secretory vesicles.Under pressure, cell walls set the paceMutations in two putative phosphorylation motifs in the tomato pollen receptor kinase LePRK2 show antagonistic effects on pollen tube length.Cyclic nucleotide gated channels 7 and 8 are essential for male reproductive fertilityCharacterisation of detergent-insoluble membranes in pollen tubes of Nicotiana tabacum (L.).Pollen tube energetics: respiration, fermentation and the race to the ovuleAddition of Phenylboronic Acid to Malus domestica Pollen Tubes Alters Calcium Dynamics, Disrupts Actin Filaments and Affects Cell Wall Architecture.Boron Toxicity Causes Multiple Effects on Malus domestica Pollen Tube GrowthCombined Cytological and Transcriptomic Analysis Reveals a Nitric Oxide Signaling Pathway Involved in Cold-Inhibited Camellia sinensis Pollen Tube Growth.Regulation of Pollen Tube Growth by Transglutaminase.The distribution of cell wall polymers during antheridium development and spermatogenesis in the Charophycean green alga, Chara corallina.New findings in the mechanisms regulating polar growth in root hair cells.Calcium signals: the lead currency of plant information processing.Perturbation Analysis of Calcium, Alkalinity and Secretion during Growth of Lily Pollen Tubes.Plant organellar calcium signalling: an emerging field.On the fast lane: mitochondria structure, dynamics and function in growing pollen tubes.Control of cell wall extensibility during pollen tube growth.The pollen tube clear zone: clues to the mechanism of polarized growth.Distribution of callose synthase, cellulose synthase, and sucrose synthase in tobacco pollen tube is controlled in dissimilar ways by actin filaments and microtubules.The Cytoskeleton and Its Regulation by Calcium and Protons.Endocytic Pathways and Recycling in Growing Pollen Tubes.Calreticulin is required for calcium homeostasis and proper pollen tube tip growth in Petunia.Dynamic secretion changes in the salt glands of the mangrove tree species Avicennia officinalis in response to a changing saline environment.An autophagy-related kinase is essential for the symbiotic relationship between Phaseolus vulgaris and both rhizobia and arbuscular mycorrhizal fungi.The pH sensibility of actin-bundling LIM proteins is governed by the acidic properties of their C-terminal domain.
P2860
Q26749539-33501BE0-5462-4FC9-B4EC-D81CB51E8BF8Q26853314-8B477D0F-5695-45FF-BF0C-AAF16F8A0267Q27311228-38DE7EFF-0714-44B6-8F45-210E43263346Q27348942-950D60E2-03F4-4BB7-824C-1ED676E6A501Q30588629-4E810A9D-1B01-4DC1-9066-6524B2566D07Q33338389-D8F72280-591D-4889-9B87-AE7725B8E66DQ33348432-FEB5D971-6E22-4F4C-98C4-3A46322E43E6Q33497907-80B9E66A-A55E-4B88-96C3-012BD6269BFFQ33513060-78E7B7A6-AA74-4C82-8999-604F85168F11Q33589545-A1D2F027-E3D4-46A7-BE14-C61913902D7CQ33624905-C597060F-90FC-4063-9AEE-7E61DD7ADD62Q33719558-F2EFB271-282A-4100-A02A-4EF4F54F08FCQ33728418-5BD3547C-1C5E-402B-B54B-F1B2278A5EB7Q33737494-D608BB36-ABD5-4074-BEE9-D73CA5727A74Q33897958-B2511D2B-61FC-4EC5-901F-F7574DE3FB7DQ33974118-67ABDA94-C692-4040-9157-43822469DD1CQ34394628-B31DBB8B-66DC-478A-A0A5-F8473F264B09Q34575817-8873467A-9540-43A4-A132-318C5820B646Q34592596-76F152F7-66A3-4F35-9D1C-F2799B0D9C6FQ35177754-E509B05C-00AB-4AE2-9ECD-4BD14D995D10Q35205264-02D0FB3F-7EBD-410A-8BE7-96DD1E475E5FQ35926375-B8758792-DAA4-419F-8ECA-044250506759Q36621062-44EEA89E-3B96-4344-86E4-94968E70614BQ36795774-394797A8-B234-40D7-8F36-FC876C4A52DEQ36833625-1BBE4905-12A5-42E1-8421-39CDCB55AB35Q37397159-40FCDE6B-3949-497F-81D7-485275C0390EQ37536905-75FD7B58-4B68-4CD6-A5B5-57027DE95937Q37721659-41FC24ED-50BF-4C3E-9DD7-40441DEDBE2AQ37727774-92DD3A53-88A0-4E28-9DB4-C551F060FED1Q37971446-F2C39559-9284-4021-87CA-3C8590C3FA8DQ38017317-B1B8E7F4-6E40-4722-A0B5-B47057C12513Q38114767-4DCF49F9-6727-49C4-8517-775FFB279F84Q38272246-8F3F25B4-9626-4783-8C56-350B21E61DC3Q38338262-6E3AB8C6-1F78-4D36-9135-1E31A49CF151Q38684562-D05B241D-E1A4-4ECF-9057-76FC31177812Q38823363-2496F886-1FED-48F3-AD4B-6996E11DD283Q39025789-627BD6DE-860A-4D6D-9B08-02735D298315Q39508648-B55F47CC-231C-4492-B65F-8FE3CFB8FB51Q40557563-E7B57FC4-A748-45BA-8FCB-BFF52B9EC767Q40677697-2FE7C747-4C4E-417B-A8AA-09CCC23B35C0
P2860
Pollen tube growth oscillations and intracellular calcium levels are reversibly modulated by actin polymerization.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Pollen tube growth oscillation ...... lated by actin polymerization.
@en
Pollen tube growth oscillation ...... lated by actin polymerization.
@nl
type
label
Pollen tube growth oscillation ...... lated by actin polymerization.
@en
Pollen tube growth oscillation ...... lated by actin polymerization.
@nl
prefLabel
Pollen tube growth oscillation ...... lated by actin polymerization.
@en
Pollen tube growth oscillation ...... lated by actin polymerization.
@nl
P2093
P2860
P356
P1433
P1476
Pollen tube growth oscillation ...... ulated by actin polymerization
@en
P2093
Alenka Lovy-Wheeler
Luis Cárdenas
Peter K Hepler
P2860
P304
P356
10.1104/PP.107.113035
P407
P577
2008-02-08T00:00:00Z