Diurnal patterns of growth and transient reserves of sink and source tissues are affected by cold nights in barley

Kallyne A. Barros; Alberto A. Esteves-Ferreira; Masami Inaba; Helena Meally; John Finnan; Susanne Barth; Seth J. Davis; Ronan Sulpice

doi:10.1111/pce.13735

Diurnal patterns of growth and transient reserves of sink and source tissues are affected by cold nights in barley

Kallyne A. Barros
, Alberto A. Esteves-Ferreira
, Masami Inaba
, Helena Meally
, John Finnan
, Susanne Barth
, Seth J. Davis
, Ronan Sulpice

Sustainable World

University of Galway
Teagasc - Irish Agriculture and Food Development Authority
University of York
College of Environment and Planning Henan University

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

3 Citations (Scopus)

Abstract

Barley is described to mostly use sucrose for night carbon requirements. To understand how the transient carbon is accumulated and utilized in response to cold, barley plants were grown in a combination of cold days and/or nights. Both daytime and night cold reduced growth. Sucrose was the main carbohydrate supplying growth at night, representing 50–60% of the carbon consumed. Under warm days and nights, starch was the second contributor with 26% and malate the third with 15%. Under cold nights, the contribution of starch was severely reduced, due to an inhibition of its synthesis, including under warm days, and malate was the second contributor to C requirements with 24–28% of the total amount of carbon consumed. We propose that malate plays a critical role as an alternative carbon source to sucrose and starch in barley. Hexoses, malate, and sucrose mobilization and starch accumulation were affected in barley elf3 clock mutants, suggesting a clock regulation of their metabolism, without affecting growth and photosynthesis however. Altogether, our data suggest that the mobilization of sucrose and malate and/or barley growth machinery are sensitive to cold.

Original language	English
Pages (from-to)	1404-1420
Number of pages	17
Journal	Plant, Cell and Environment
Volume	43
Issue number	6
DOIs	https://doi.org/10.1111/pce.13735
Publication status	Published - 1 Jun 2020

Keywords

EARLY FLOWERING 3
barley growth
carbon metabolism
circadian clock
cold
diurnal metabolism
fructans
malate
starch
sucrose

Access to Document

10.1111/pce.13735

Cite this

@article{09fd0dc78c314d58ab1dad318eb2631c,

title = "Diurnal patterns of growth and transient reserves of sink and source tissues are affected by cold nights in barley",

abstract = "Barley is described to mostly use sucrose for night carbon requirements. To understand how the transient carbon is accumulated and utilized in response to cold, barley plants were grown in a combination of cold days and/or nights. Both daytime and night cold reduced growth. Sucrose was the main carbohydrate supplying growth at night, representing 50–60\% of the carbon consumed. Under warm days and nights, starch was the second contributor with 26\% and malate the third with 15\%. Under cold nights, the contribution of starch was severely reduced, due to an inhibition of its synthesis, including under warm days, and malate was the second contributor to C requirements with 24–28\% of the total amount of carbon consumed. We propose that malate plays a critical role as an alternative carbon source to sucrose and starch in barley. Hexoses, malate, and sucrose mobilization and starch accumulation were affected in barley elf3 clock mutants, suggesting a clock regulation of their metabolism, without affecting growth and photosynthesis however. Altogether, our data suggest that the mobilization of sucrose and malate and/or barley growth machinery are sensitive to cold.",

keywords = "EARLY FLOWERING 3, barley growth, carbon metabolism, circadian clock, cold, diurnal metabolism, fructans, malate, starch, sucrose",

author = "Barros, \{Kallyne A.\} and Esteves-Ferreira, \{Alberto A.\} and Masami Inaba and Helena Meally and John Finnan and Susanne Barth and Davis, \{Seth J.\} and Ronan Sulpice",

note = "Publisher Copyright: {\textcopyright} 2020 John Wiley \& Sons Ltd.",

year = "2020",

month = jun,

day = "1",

doi = "10.1111/pce.13735",

language = "English",

volume = "43",

pages = "1404--1420",

journal = "Plant, Cell and Environment",

issn = "0140-7791",

publisher = "John Wiley and Sons Inc",

number = "6",

}

TY - JOUR

T1 - Diurnal patterns of growth and transient reserves of sink and source tissues are affected by cold nights in barley

AU - Barros, Kallyne A.

AU - Esteves-Ferreira, Alberto A.

AU - Inaba, Masami

AU - Meally, Helena

AU - Finnan, John

AU - Barth, Susanne

AU - Davis, Seth J.

AU - Sulpice, Ronan

PY - 2020/6/1

Y1 - 2020/6/1

N2 - Barley is described to mostly use sucrose for night carbon requirements. To understand how the transient carbon is accumulated and utilized in response to cold, barley plants were grown in a combination of cold days and/or nights. Both daytime and night cold reduced growth. Sucrose was the main carbohydrate supplying growth at night, representing 50–60% of the carbon consumed. Under warm days and nights, starch was the second contributor with 26% and malate the third with 15%. Under cold nights, the contribution of starch was severely reduced, due to an inhibition of its synthesis, including under warm days, and malate was the second contributor to C requirements with 24–28% of the total amount of carbon consumed. We propose that malate plays a critical role as an alternative carbon source to sucrose and starch in barley. Hexoses, malate, and sucrose mobilization and starch accumulation were affected in barley elf3 clock mutants, suggesting a clock regulation of their metabolism, without affecting growth and photosynthesis however. Altogether, our data suggest that the mobilization of sucrose and malate and/or barley growth machinery are sensitive to cold.

AB - Barley is described to mostly use sucrose for night carbon requirements. To understand how the transient carbon is accumulated and utilized in response to cold, barley plants were grown in a combination of cold days and/or nights. Both daytime and night cold reduced growth. Sucrose was the main carbohydrate supplying growth at night, representing 50–60% of the carbon consumed. Under warm days and nights, starch was the second contributor with 26% and malate the third with 15%. Under cold nights, the contribution of starch was severely reduced, due to an inhibition of its synthesis, including under warm days, and malate was the second contributor to C requirements with 24–28% of the total amount of carbon consumed. We propose that malate plays a critical role as an alternative carbon source to sucrose and starch in barley. Hexoses, malate, and sucrose mobilization and starch accumulation were affected in barley elf3 clock mutants, suggesting a clock regulation of their metabolism, without affecting growth and photosynthesis however. Altogether, our data suggest that the mobilization of sucrose and malate and/or barley growth machinery are sensitive to cold.

KW - EARLY FLOWERING 3

KW - barley growth

KW - carbon metabolism

KW - circadian clock

KW - cold

KW - diurnal metabolism

KW - fructans

KW - malate

KW - starch

KW - sucrose

UR - https://www.scopus.com/pages/publications/85080112338

U2 - 10.1111/pce.13735

DO - 10.1111/pce.13735

M3 - Article

SN - 0140-7791

VL - 43

SP - 1404

EP - 1420

JO - Plant, Cell and Environment

JF - Plant, Cell and Environment

IS - 6

ER -

Diurnal patterns of growth and transient reserves of sink and source tissues are affected by cold nights in barley

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this