Gametophyte interaction and sexual reproduction: how plants make a zygote.
about
The quest for four-dimensional imaging in plant cell biology: it's just a matter of timeCell Wall Composition, Biosynthesis and Remodeling during Pollen Tube GrowthThiol-based redox regulation in sexual plant reproduction: new insights and perspectivesThe evolution of pollen germination timing in flowering plants: Austrobaileya scandens (Austrobaileyaceae)pH signature for the responses of arbuscular mycorrhizal fungi to external stimuliDisruption of the pollen-expressed FERONIA homologs ANXUR1 and ANXUR2 triggers pollen tube discharge.Comparative transcriptomics of Arabidopsis sperm cells.The mathematics of sexual attraction.Biochemical and immunocytological characterizations of Arabidopsis pollen tube cell wall.What we have learned from transcript profile analyses of male and female gametes in flowering plants.Whole-organ analysis of calcium behaviour in the developing pistil of olive (Olea europaea L.) as a tool for the determination of key events in sexual plant reproduction.Pectins in the cell wall of Arabidopsis thaliana pollen tube and pistil.Molecular evidence that rough endoplasmic reticulum is the site of calreticulin translation in Petunia pollen tubes growing in vitro.The effect of exogenous calcium on mitochondria, respiratory metabolism enzymes and ion transport in cucumber roots under hypoxia.The peroxin loss-of-function mutation abstinence by mutual consent disrupts male-female gametophyte recognitionExportin1 genes are essential for development and function of the gametophytes in Arabidopsis thaliana.A collection of Ds insertional mutants associated with defects in male gametophyte development and function in Arabidopsis thaliana.How many genes are needed to make a pollen tube? Lessons from transcriptomics.On the fast lane: mitochondria structure, dynamics and function in growing pollen tubes.Analysis of phosphoproteome in rice pistil.Genome-wide gene expression profiling reveals conserved and novel molecular functions of the stigma in rice.Oscillatory signatures underlie growth regimes in Arabidopsis pollen tubes: computational methods to estimate tip location, periodicity, and synchronization in growing cells.Gene expression atlas of pigeonpea and its application to gain insights into genes associated with pollen fertility implicated in seed formationWhole genome analysis of gene expression reveals coordinated activation of signaling and metabolic pathways during pollen-pistil interactions in Arabidopsis.Arabidopsis tetraspanins are confined to discrete expression domains and cell types in reproductive tissues and form homo- and heterodimers when expressed in yeast.Malformation of gynoecia impedes fertilisation in bud-flowering Calluna vulgaris.The Arabidopsis proteasome RPT5 subunits are essential for gametophyte development and show accession-dependent redundancy.Signaling with Ions: The Keystone for Apical Cell Growth and Morphogenesis in Pollen Tubes.Pollen tube growth regulation by free anions depends on the interaction between the anion channel SLAH3 and calcium-dependent protein kinases CPK2 and CPK20.Inheritance of progeny sex ratio in Urtica dioica.Transmission ratio distortion in Arabidopsis lyrata: effects of population divergence and the S-locus
P2860
Q26853314-B9DB41BA-20AE-44EF-A5D1-EA38F9889B08Q26859102-9E677261-FF68-4391-AD06-500069E58EE1Q26993230-49A88383-8F98-43E5-8472-2AF4A74C538EQ28730097-2B8B718F-5435-46A8-8835-8E39818648AEQ28755630-BFF5725B-F167-4AA7-8128-53121DA1C8D1Q30490031-FB0C3AC6-5B87-4FAC-91CD-5570A4DA9034Q33356346-8B6152B3-3EA9-4FA3-9336-6B650523FC45Q33547657-6FC69402-78BB-4B40-9DAD-0573D8CDD70AQ33604016-C591D8CB-A1FC-4A8C-99FD-079AFF1CD4DFQ33686030-1BED106B-2631-4FB7-9123-4284BF458A32Q34066172-1078DC1D-8864-4E62-A30E-A53A795CB074Q35046092-6FBAB9E6-59D0-43FE-AA09-7AAFCBE41332Q35730236-9E8AA069-C36F-4B6F-855F-DD4AE0AA16B6Q35992753-9345CE56-798A-4E92-AE2D-75588ADB8CBBQ36515606-3E89A04B-9E7D-4B11-9AC6-62825D95F895Q36969609-AE9C737C-0861-4348-AA6C-20BA38AEB4FEQ37152699-A34F747D-FF7C-4B32-A5AB-D2E82B08E925Q37380801-0D9C587C-5B6B-4C17-B897-5A1E6BC2CED7Q38017317-C31BF873-5885-41AA-988B-54589A2D528DQ38426119-091B9E16-EC6A-4F4D-B1AD-6418FDAA4C09Q38516058-C2EB1AED-2F3D-4F6D-B9EE-625A8211BB1FQ38860022-515C5A1E-5FEC-436C-B254-95FD660C5780Q38879634-9EFDAC9A-7B82-4C9C-BF3C-9B17F0DB6415Q45207332-D4AB239A-3EFC-4F81-995C-B60681AB5BC6Q45245364-E1E72743-728D-4106-9236-74BDD547AFCAQ45917962-CE73AADC-182F-4F73-A1A1-B9333BCB8678Q48071084-9B65F1E0-1CFC-467E-B10D-66105684C681Q48193219-6901473A-8127-416F-B35C-A6DA0DA9C06AQ48613909-7E633936-5D84-4C41-9EB9-12CB35534596Q51771295-33B63D6A-262E-4E8A-88B9-026B29085B2CQ57760357-288CF127-CAC1-40D1-8199-C54688EFB13A
P2860
Gametophyte interaction and sexual reproduction: how plants make a zygote.
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
name
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@ast
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@en
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@nl
type
label
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@ast
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@en
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@nl
prefLabel
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@ast
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@en
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@nl
P2093
P356
P1476
Gametophyte interaction and sexual reproduction: how plants make a zygote.
@en
P2093
Ana Maria Vieira
José A Feijó
Jörg D Becker
Leonor C Boavida
P304
P356
10.1387/IJDB.052023LB
P577
2005-01-01T00:00:00Z