Water-deficit accumulates sugars by starch degradation--not by de novo synthesis--in white clover leaves (Trifolium repens).
about
Transcriptome Profiling of Watermelon Root in Response to Short-Term Osmotic StressDominant Trees in a Subtropical Forest Respond to Drought Mainly via Adjusting Tissue Soluble Sugar and Proline ContentThioredoxin-regulated beta-amylase (BAM1) triggers diurnal starch degradation in guard cells, and in mesophyll cells under osmotic stressAn automated growth enclosure for metabolic labeling of Arabidopsis thaliana with 13C-carbon dioxide - an in vivo labeling system for proteomics and metabolomics research.Deep Sequencing of Suppression Subtractive Hybridisation Drought and Recovery Libraries of the Non-model Crop Trifolium repens LLeaf metabolite profile of the Brazilian resurrection plant Barbacenia purpurea Hook. (Velloziaceae) shows two time-dependent responses during desiccation and recovering.Concerted changes in N and C primary metabolism in alfalfa (Medicago sativa) under water restriction.Drought adaptation in plants with crassulacean acid metabolism involves the flexible use of different storage carbohydrate pools.Summer drought alters carbon allocation to roots and root respiration in mountain grassland.Starch as a determinant of plant fitness under abiotic stress.Genome-wide transcriptomic analysis of cotton under drought stress reveal significant down-regulation of genes and pathways involved in fibre elongation and up-regulation of defense responsive genes.Moderate water stress causes different stomatal and non-stomatal changes in the photosynthetic functioning of Phaseolus vulgaris L. genotypes.Populus euphratica: the transcriptomic response to drought stress.β-Amylase1 and β-amylase3 are plastidic starch hydrolases in Arabidopsis That Seem to Be Adapted for Different Thermal, pH, and stress conditions.NADPH from the oxidative pentose phosphate pathway drives the operation of cyclic electron flow around photosystem I in high-intertidal macroalgae under severe salt stress.
P2860
Q28553609-9D870269-FE76-44C6-8DDE-1F976BA0D6F9Q33679489-CCC8A218-3331-4742-9431-488861E08201Q34414473-58DB3B07-230A-4823-86A8-764CB6E8F58BQ34615820-E58D5960-D163-466D-ADDF-3CF582AD4D09Q36303590-10045B14-E7A4-4E0F-BDAE-03BB48C67BDEQ38270265-E62ECA16-FA4D-40C4-8398-76F11122BEDBQ38878311-D3C7717E-4A2F-4445-AF14-C63F53132FB4Q38936299-D9BB0086-34DB-41A5-A8F0-7A00118D7212Q39052680-5A3FDE3B-2AE2-4A13-81F5-6FCABEF9A48CQ39170733-EE8DA36F-4C9F-47DC-841D-4C8241E1E26DQ39333041-D6553E0F-163F-4F05-9502-272821A1BF5EQ39380762-60AA272A-7238-4E1E-9555-F5320BAD3347Q39509726-D7221E14-74DB-4317-9C73-72D3791ADE73Q45004222-12CF0853-4494-42C2-AE19-DDDBB150C33FQ46674614-82B5B1FF-9C3E-4F9B-86E5-28830A589323
P2860
Water-deficit accumulates sugars by starch degradation--not by de novo synthesis--in white clover leaves (Trifolium repens).
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Water-deficit accumulates suga ...... ver leaves (Trifolium repens).
@en
Water-deficit accumulates suga ...... thesis--in white clover leaves
@nl
type
label
Water-deficit accumulates suga ...... ver leaves (Trifolium repens).
@en
Water-deficit accumulates suga ...... thesis--in white clover leaves
@nl
prefLabel
Water-deficit accumulates suga ...... ver leaves (Trifolium repens).
@en
Water-deficit accumulates suga ...... thesis--in white clover leaves
@nl
P2093
P1476
Water-deficit accumulates suga ...... ver leaves (Trifolium repens).
@en
P2093
Bok-Rye Lee
Chan-Woo Park
Jean-Christophe Avice
Tae-Hwan Kim
Woo-Jin Jung
Yu-Lan Jin
P304
P356
10.1111/J.1399-3054.2008.01156.X
P577
2008-07-24T00:00:00Z