Multiple paths of sugar-sensing and a sugar/oxygen overlap for genes of sucrose and ethanol metabolism.
about
Metabolizable and non-metabolizable sugars activate different signal transduction pathways in tomatoTransgene expression patterns indicate that spaceflight affects stress signal perception and transduction in arabidopsisEffect of hexokinase activity on tomato root metabolism during prolonged hypoxia.Correlated responses of root growth and sugar concentrations to various defoliation treatments and rhythmic shoot growth in oak tree seedlings (Quercus pubescens)Nuclear magnetic resonance micro-imaging in the investigation of plant cell metabolism.Increased level of hemoglobin 1 enhances survival of hypoxic stress and promotes early growth in Arabidopsis thalianaResponse of potato tuber cell division and growth to shade and elevated CO2.Sugar modulation of alpha-amylase genes under anoxiaConstruction and maintenance of the optimal photosynthetic systems of the leaf, herbaceous plant and tree: an eco-developmental treatise.Sensing and signalling in response to oxygen deprivation in plants and other organismsGenome-wide analysis of transcript abundance and translation in Arabidopsis seedlings subjected to oxygen deprivationEngineering plants for elevated CO(2): a relationship between starch degradation and sugar sensing.Partial resistance to clubroot in Arabidopsis is based on changes in the host primary metabolism and targeted cell division and expansion capacity.Regulation of assimilate import into sink organs: update on molecular drivers of sink strength.Differential anoxic expression of sugar-regulated genes reveals diverse interactions between sugar and anaerobic signaling systems in riceRegulation of phosphate starvation responses in higher plants.Transcriptome dynamics of a susceptible wheat upon Fusarium head blight reveals that molecular responses to Fusarium graminearum infection fit over the grain development processes.Soluble invertase expression is an early target of drought stress during the critical, abortion-sensitive phase of young ovary development in maize.The sunflower transcription factor HaWRKY76 confers drought and flood tolerance to Arabidopsis thaliana plants without yield penalty.Arabidopsis mutants deficient in diacylglycerol acyltransferase display increased sensitivity to abscisic acid, sugars, and osmotic stress during germination and seedling development.Maize ABI4 binds coupling element1 in abscisic acid and sugar response genes.Physiological and transcriptomic characterization of submergence and reoxygenation responses in soybean seedlings.A genome-wide analysis of the effects of sucrose on gene expression in Arabidopsis seedlings under anoxia.Rice Seed Germination Underwater: Morpho-Physiological Responses and the Bases of Differential Expression of Alcoholic Fermentation Enzymes.Identification of Cultured and Natural Astragalus Root Based on Monosaccharide Mapping.Sugar and fructan accumulation during metabolic adjustment between respiration and fermentation under low oxygen conditions in wheat roots.Effect of applying an arsenic-resistant and plant growth-promoting rhizobacterium to enhance soil arsenic phytoremediation by Populus deltoides LH05-17
P2860
Q24678123-5E985135-A885-497F-AC1E-419F3732A755Q28366657-589490B8-5D35-49D3-9E01-166D027AF22EQ31102952-E0A6FAE6-49D9-4134-9637-6BAFE0D81683Q33350475-CDCD04B1-622E-4532-B50B-5514D490B1F6Q34261708-112B0254-A562-4347-ACC8-ECDEC04D2EAAQ34431331-545458C7-8D36-4FCF-AFE7-8CB52A79CB10Q34575399-E088E2AC-F993-42AB-A7DF-A13BC6D110FAQ34575476-4C12AF03-3E12-48C1-876D-523966F486BEQ34583040-CDCD46C0-B920-4B19-8F0B-380A26308F8CQ34583904-B2800F4F-B023-4467-B3D4-E980FBB6F983Q34583930-42A83472-882F-4102-A8D4-D4885CE992E3Q35773277-7A0A9A46-8F14-4C96-843D-C817E6581626Q36875995-4CDC7A4A-F8C5-4553-B141-E30AF8E8B56EQ36898322-9B9F594C-EB17-42DC-8901-ABDAD837FDB9Q37462546-489ED04D-FA85-4E04-8971-7C42BB0E8C02Q37697994-C79CF426-5CDB-4237-AD10-BB381AA4EB2EQ38451978-09C38F25-BCC7-408D-B3BA-78ED191694A3Q38874419-FC29A4F1-A7EB-4B57-8556-92BFCD92570DQ39379073-DB16DAE5-8D5C-41C8-B4D0-670F6B0589C2Q44062061-FFF3FEB2-C230-4D90-9213-526AF65CC027Q44170755-7C387E60-C638-4BB7-909E-295C931A3EF0Q44992807-0ABACE90-080E-41D4-96B4-FF00513A08FFQ45285465-FC63382C-C144-4024-B1FB-A170E0B5E212Q45948950-71A2C405-BBE1-4056-AB36-D8B7F5B6B5B8Q46668286-8B6923B2-2D2F-4CB5-A49C-F2A7EE4F4103Q48003764-939DC3DA-74C2-499C-AC26-4EF07BF96642Q57120952-B0FBDCDD-DFC6-4765-A3C9-BADB43BEB580
P2860
Multiple paths of sugar-sensing and a sugar/oxygen overlap for genes of sucrose and ethanol metabolism.
description
2000 nî lūn-bûn
@nan
2000 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
name
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@ast
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@en
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@nl
type
label
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@ast
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@en
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@nl
prefLabel
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@ast
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@en
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@nl
P2093
P2860
P356
P1476
Multiple paths of sugar-sensin ...... ucrose and ethanol metabolism.
@en
P2093
P2860
P304
P356
10.1093/JEXBOT/51.SUPPL_1.417
P478
51 Spec No
P577
2000-02-01T00:00:00Z