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Plant Fertilization: Bursting Pollen Tubes!

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Presentation on theme: "Plant Fertilization: Bursting Pollen Tubes!"— Presentation transcript:

1 Plant Fertilization: Bursting Pollen Tubes!
Noni Franklin-Tong  Current Biology  Volume 20, Issue 16, Pages R681-R683 (August 2010) DOI: /j.cub Copyright © 2010 Elsevier Ltd Terms and Conditions

2 Figure 1 Components involved in higher plant pollination and double fertilization. (A) This cartoon shows a stylized and simplified pistil being pollinated. A pollen grain lands on the stigma of the pistil, hydrates and germinates to produce a pollen tube that grows through the pistil, using many interactive signals between pollen tube and pistil as it grows down the style. When the pollen tube reaches the female gametophyte, it encounters many other signals that guide it to the synergids. Upon reaching the synergids, the pollen tube bursts and causes degeneration of one of the synergids. Double fertilization happens after pollen tube discharge: one sperm cell fuses with the egg cell to form the embryo; the other fuses with the central cell to form the endosperm. (B) To achieve fertilization, the pollen tube has to grow directionally towards the ovule and this involves further bi-directional conversations between the pistil and pollen tube. This cartoon shows a composite model of what we know about signals involved in fertilization (synergid components are indicated in pink; pollen tube components, in yellow). The synergids flanking the egg cell secrete many small cysteine-rich proteins (CRPs, pink blobs) that are thought to act as signaling ligands. Two have known functions: LUREs act as attractants to provide guidance to the target egg cell. The synergid-expressed secreted ligand ZmES4 signals to the pollen tube tip, causing it to burst. This involves activation of a K+ Shaker channel, KZM1, localized at the pollen tube tip plasma membrane. Synergid-localized receptor-like kinases (RLKs) FERONIA/SIRENE interact with unknown signals to trigger arrest of pollen tube tip growth. Pollen-expressed RLKs, ANXUR1/2, are thought to control the timing of sperm cell discharge. A pollen-expressed Ca2+ transporter, ACA9, responds to an unknown signal to play a role in discharge of sperm cells. There are many other small CRPs secreted by the synergids; presumably they interact with pollen tube receptors or channels. Current Biology  , R681-R683DOI: ( /j.cub ) Copyright © 2010 Elsevier Ltd Terms and Conditions

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