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Literature DB >> 29181649

Cell-cell communications and molecular mechanisms in plant sexual reproduction.

Abstract

Sexual reproduction is achieved by precise interactions between male and female reproductive organs. In plant fertilization, sperm cells are carried to ovules by pollen tubes. Signals from the pistil are involved in elongation and control of the direction of the pollen tube. Genetic, reverse genetic, and cell biological analyses using model plants have identified various factors related to the regulation of pollen tube growth and guidance. In this review, I summarize the mechanisms and molecules controlling pollen tube growth to the ovule, micropylar guidance, reception of the guidance signal in the pollen tube, rupture of the pollen tube to release sperm cells, and cessation of the tube guidance signal. I also briefly introduce various techniques used to analyze pollen tube guidance in vitro.

Entities: Disease

Keywords: Gamete fusion; Lab-on-a-chip; Plant sexual reproduction; Pollen tube guidance; Synergid cell

Mesh：

Year: 2017 PMID： 29181649 DOI： 10.1007/s10265-017-0997-2

Source DB: PubMed Journal: J Plant Res ISSN： 0918-9440 Impact factor: 2.629

114 in total

1. Direct ligand-receptor complex interaction controls Brassica self-incompatibility.

Authors: S Takayama; H Shimosato; H Shiba; M Funato; F S Che; M Watanabe; M Iwano; A Isogai
Journal: Nature Date: 2001-10-04 Impact factor: 49.962

2. Conserved molecular components for pollen tube reception and fungal invasion.

Authors: Sharon A Kessler; Hiroko Shimosato-Asano; Nana F Keinath; Samuel E Wuest; Gwyneth Ingram; Ralph Panstruga; Ueli Grossniklaus
Journal: Science Date: 2010-11-12 Impact factor: 47.728

3. Micropylar pollen tube guidance by egg apparatus 1 of maize.

Authors: Mihaela L Márton; Simone Cordts; Jean Broadhvest; Thomas Dresselhaus
Journal: Science Date: 2005-01-28 Impact factor: 47.728

4. A peptide hormone and its receptor protein kinase regulate plant cell expansion.

Authors: Miyoshi Haruta; Grzegorz Sabat; Kelly Stecker; Benjamin B Minkoff; Michael R Sussman
Journal: Science Date: 2014-01-24 Impact factor: 47.728

Review 5. Peptide signalling during the pollen tube journey and double fertilization.

Authors: Li-Jia Qu; Ling Li; Zijun Lan; Thomas Dresselhaus
Journal: J Exp Bot Date: 2015-06-11 Impact factor: 6.992

6. Unique growth paths of heterospecific pollen tubes result in late entry into ovules in the gynoecium of Sagittaria (Alismataceae).

Authors: N Lyu; W Du; X-F Wang
Journal: Plant Biol (Stuttg) Date: 2016-10-26 Impact factor: 3.081

7. A gain-of-function mutation of Arabidopsis lipid transfer protein 5 disturbs pollen tube tip growth and fertilization.

Authors: Keun Chae; Chris A Kieslich; Dimitrios Morikis; Seung-Chul Kim; Elizabeth M Lord
Journal: Plant Cell Date: 2009-12-31 Impact factor: 11.277

8. Pollen tube contents initiate ovule enlargement and enhance seed coat development without fertilization.

Authors: Ryushiro D Kasahara; Michitaka Notaguchi; Shiori Nagahara; Takamasa Suzuki; Daichi Susaki; Yujiro Honma; Daisuke Maruyama; Tetsuya Higashiyama
Journal: Sci Adv Date: 2016-10-28 Impact factor: 14.136

9. Arabidopsis HAP2/GCS1 is a gamete fusion protein homologous to somatic and viral fusogens.

Authors: Clari Valansi; David Moi; Evgenia Leikina; Elena Matveev; Martín Graña; Leonid V Chernomordik; Héctor Romero; Pablo S Aguilar; Benjamin Podbilewicz
Journal: J Cell Biol Date: 2017-01-30 Impact factor: 10.539

10. MYB97, MYB101 and MYB120 function as male factors that control pollen tube-synergid interaction in Arabidopsis thaliana fertilization.

Authors: Yan Liang; Ze-Min Tan; Lei Zhu; Qian-Kun Niu; Jing-Jing Zhou; Meng Li; Li-Qun Chen; Xue-Qin Zhang; De Ye
Journal: PLoS Genet Date: 2013-11-21 Impact factor: 5.917

3 in total