Long-Distance Movement of mRNAs in Plants

Long-distance transport of information molecules in the vascular tissues could play an important role in regulating plant growth and enabling plants to cope with adverse environments. Various molecules, including hormones, proteins, small peptides and small RNAs have been detected in the vascular sy...
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Autor*in:	Chao Xia [verfasserIn] Cankui Zhang [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Schlagwörter:	phloem long distance systemic mobile mRNA heterograft

Übergeordnetes Werk:	In: Plants - MDPI AG, 2013, 9(2020), 6, p 731
Übergeordnetes Werk:	volume:9 ; year:2020 ; number:6, p 731

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/plants9060731

Katalog-ID:	DOAJ003684075

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source	In Plants 9(2020), 6, p 731 volume:9 year:2020 number:6, p 731
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institution	findex.gbv.de
topic_facet	phloem long distance systemic mobile mRNA heterograft Botany
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container_title	Plants
authorswithroles_txt_mv	Chao Xia @@aut@@ Cankui Zhang @@aut@@
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callnumber-first	Q - Science
author	Chao Xia
spellingShingle	Chao Xia misc QK1-989 misc phloem misc long distance misc systemic misc mobile mRNA misc heterograft misc Botany Long-Distance Movement of mRNAs in Plants
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topic_title	QK1-989 Long-Distance Movement of mRNAs in Plants phloem long distance systemic mobile mRNA heterograft
topic	misc QK1-989 misc phloem misc long distance misc systemic misc mobile mRNA misc heterograft misc Botany
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title	Long-Distance Movement of mRNAs in Plants
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title_full	Long-Distance Movement of mRNAs in Plants
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title_sort	long-distance movement of mrnas in plants
callnumber	QK1-989
title_auth	Long-Distance Movement of mRNAs in Plants
abstract	Long-distance transport of information molecules in the vascular tissues could play an important role in regulating plant growth and enabling plants to cope with adverse environments. Various molecules, including hormones, proteins, small peptides and small RNAs have been detected in the vascular system and proved to have systemic signaling functions. Sporadic studies have shown that a number of mRNAs produced in the mature leaves leave their origin cells and move to distal tissues to exert important physiological functions. In the last 3–5 years, multiple heterograft systems have been developed to demonstrate that a large quantity of mRNAs are mobile in plants. Further comparison of the mobile mRNAs identified from these systems showed that the identities of these mRNAs are very diverse. Although species-specific mRNAs may regulate the unique physiological characteristic of the plant, mRNAs with conserved functions across multiple species are worth more effort in identifying universal physiological mechanisms existing in the plant kingdom.
abstractGer	Long-distance transport of information molecules in the vascular tissues could play an important role in regulating plant growth and enabling plants to cope with adverse environments. Various molecules, including hormones, proteins, small peptides and small RNAs have been detected in the vascular system and proved to have systemic signaling functions. Sporadic studies have shown that a number of mRNAs produced in the mature leaves leave their origin cells and move to distal tissues to exert important physiological functions. In the last 3–5 years, multiple heterograft systems have been developed to demonstrate that a large quantity of mRNAs are mobile in plants. Further comparison of the mobile mRNAs identified from these systems showed that the identities of these mRNAs are very diverse. Although species-specific mRNAs may regulate the unique physiological characteristic of the plant, mRNAs with conserved functions across multiple species are worth more effort in identifying universal physiological mechanisms existing in the plant kingdom.
abstract_unstemmed	Long-distance transport of information molecules in the vascular tissues could play an important role in regulating plant growth and enabling plants to cope with adverse environments. Various molecules, including hormones, proteins, small peptides and small RNAs have been detected in the vascular system and proved to have systemic signaling functions. Sporadic studies have shown that a number of mRNAs produced in the mature leaves leave their origin cells and move to distal tissues to exert important physiological functions. In the last 3–5 years, multiple heterograft systems have been developed to demonstrate that a large quantity of mRNAs are mobile in plants. Further comparison of the mobile mRNAs identified from these systems showed that the identities of these mRNAs are very diverse. Although species-specific mRNAs may regulate the unique physiological characteristic of the plant, mRNAs with conserved functions across multiple species are worth more effort in identifying universal physiological mechanisms existing in the plant kingdom.
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title_short	Long-Distance Movement of mRNAs in Plants
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up_date	2024-07-03T19:28:56.018Z
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