Titlebook: Ethylene in Plants; Chi-Kuang Wen Book 2015 Springer Science+Business Media Dordrecht 2015 Ethylene biosynthesis.Ethylene receptor.Ethylen

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Young Leaders Transforming Science in Ghanae in these integration processes. In this chapter, we will discuss the interactions of ethylene with environmental signal (light) and several internal hormones (auxin, jasmonate, and gibberellins) in the regulation of plant growth, and highlight the recent advances in understanding their associated molecular mechanisms.

GRIEF

Book 2015roles in biological processes. It discusses at which point plants could have acquired ethylene signaling from an evolutionary perspective. Ethylene was the first gaseous hormone to be identified and triggers various responses in higher plants. Our grasp of ethylene signaling has rapidly expanded ove

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https://doi.org/10.1007/978-94-017-1235-4s to ethylene. Even though the exact nature of receptor output is unknown, it is clear that the receptors affect the activity of the CTR1 (CONSITUTIVE TRIPLE RESPONSE1) protein kinase. A model for how ethylene affects receptor signaling is presented.

Original

,Ethylene Receptors—Biochemical Events,s to ethylene. Even though the exact nature of receptor output is unknown, it is clear that the receptors affect the activity of the CTR1 (CONSITUTIVE TRIPLE RESPONSE1) protein kinase. A model for how ethylene affects receptor signaling is presented.

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Ethylene Signaling from the Endoplasmic Reticulum Membrane to the Nucleus,ed how the ethylene signal is transmitted from the ethylene receptor complex at the ER membrane to the downstream nuclear transcription factors, further connecting the signaling components and filling in long-standing gaps in our understanding of the pathway. These findings raise intriguing new questions for the future.

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