A root specific induction of carotenoid biosynthesis contributes to ABA production upon salt stress in arabidopsis - Wikidata - awgldk - TriplyDB

A root specific induction of carotenoid biosynthesis contributes to ABA production upon salt stress in arabidopsis

A root specific induction of carotenoid biosynthesis contributes to ABA production upon salt stress in arabidopsis

http://www.wikidata.org/entity/Q31152486

about

Transcriptomic Analysis Reveals Possible Influences of ABA on Secondary Metabolism of Pigments, Flavonoids and Antioxidants in Tomato Fruit during Ripening Transcriptomic analysis reveals importance of ROS and phytohormones in response to short-term salinity stress in Populus tomentosa.Plant growth promoting rhizobacteria Dietzia natronolimnaea modulates the expression of stress responsive genes providing protection of wheat from salinity stress.Connecting Salt Stress Signalling Pathways with Salinity Induced Changes in Mitochondrial Metabolic Processes in C3 Plants.Evidence of Epigenetic Mechanisms Affecting Carotenoids.Carotenoid Biosynthesis in Daucus carota.Drought-Enhanced Xylem Sap Sulfate Closes Stomata by Affecting ALMT12 and Guard Cell ABA Synthesis.Root ABA Accumulation in Long-Term Water-Stressed Plants is Sustained by Hormone Transport from Aerial Organs.Carotenogenesis Is Regulated by 5'UTR-Mediated Translation of Phytoene Synthase Splice Variants.Tissue-specific accumulation and regulation of zeaxanthin epoxidase in Arabidopsis reflect the multiple functions of the enzyme in plastids.Increased Nicotiana tabacum fitness through positive regulation of carotenoid, gibberellin and chlorophyll pathways promoted by Daucus carota lycopene β-cyclase (Dclcyb1) expression.MsZEP, a novel zeaxanthin epoxidase gene from alfalfa (Medicago sativa), confers drought and salt tolerance in transgenic tobacco.Light-sensitive Phytochrome-Interacting Factors (PIFs) are not required to regulate phytoene synthase gene expression in the root.Carotenoid gene expression explains the difference of carotenoid accumulation in carrot root tissues.Tomato fruit carotenoid biosynthesis is adjusted to actual ripening progression by a light-dependent mechanism.Repression of ARF10 by microRNA160 plays an important role in the mediation of leaf water loss.Elucidation and functional characterization of CsPSY and CsUGT promoters in Crocus sativus L.A Growth-Promoting Bacteria, DCY84 Enhanced Salt Stress Tolerance by Activating Defense-Related Systems in Carotenoid Biosynthesis and Regulation in Plants

P2860

Q35656368-4159E478-4DF8-4E55-8326-55C1CE79B870 Q36059961-E8685338-5EE8-4093-AE49-6D755C7021F3 Q37314618-3D5CBA39-9A5A-4B9F-9ACC-299B9E326E08 Q38652166-5513149B-9CBF-4DFC-B4D6-735F9E7BCE5C Q38878285-D8469AF5-D717-4A19-918C-0BBE622CA090 Q38916590-4EC745D9-D413-49E5-8683-8178E120029F Q39207575-8A04BF82-1DFC-47B6-88CB-C36A57FCA1E4 Q39213169-3FBFD821-ECB1-420C-9872-416D9AABD3D5 Q39301534-8F47D52B-33D8-4114-BF58-B84216460AAA Q39441041-710F3D0A-4BAA-4856-9C50-B9C8D0A70B6F Q39554850-2D6B0FF4-CC43-4527-BA00-E795AD4B3C8E Q39628217-7B44EF9A-77F0-44BD-9DDD-D1DFC77623F7 Q42952424-06395CA0-DD70-48DB-B327-98BC3860BA43 Q50220842-FA81425C-833F-4F80-8135-C8603A48F0C4 Q50237666-7BEAF5C4-AF9F-41DB-B4B3-A70C1A200F4F Q51561949-9635C0C9-032D-465F-B0FD-F7C4E43754C5 Q55076178-16B024B6-EB53-4E93-A9DE-1F5197CE9029 Q57104718-380C803A-91A2-4B7E-9511-5A6436C3C424 Q57587925-3C2BFF5D-7301-4451-82DD-705155274E1D

P2860

A root specific induction of carotenoid biosynthesis contributes to ABA production upon salt stress in arabidopsis

http://www.wikidata.org/entity/Q31152486

description

2014 nî lūn-bûn

@nan

2014 թուականի Մարտին հրատարակուած գիտական յօդուած

@hyw

2014 թվականի մարտին հրատարակված գիտական հոդված

@hy

2014年の論文

@ja

2014年論文

@yue

2014年論文

@zh-hant

2014年論文

@zh-hk

2014年論文

@zh-mo

2014年論文

@zh-tw

2014年论文

@wuu

name

A root specific induction of c ...... pon salt stress in arabidopsis

@ast

A root specific induction of c ...... pon salt stress in arabidopsis

@en

type

label

A root specific induction of c ...... pon salt stress in arabidopsis

@ast

A root specific induction of c ...... pon salt stress in arabidopsis

@en

prefLabel

A root specific induction of c ...... pon salt stress in arabidopsis

@ast

A root specific induction of c ...... pon salt stress in arabidopsis

@en

P1433

Q31152486-36FA02C9-EE91-4FB1-9F7F-8ACD14A74EC5

P1476

Q31152486-27062F84-2EEB-49E3-A1B3-447B6417E744

P2093

Q31152486-850276AE-038A-42B7-983E-025A5AB88829

P2860

Q31152486-003DCB26-6FC8-4104-BBE1-D4868B77B6A0

Q31152486-00F0F336-29B2-41C0-AFAA-9F8ECE3CCA59

Q31152486-08645073-4ED4-47E2-ABE6-C2E0A6E7F9E4

Q31152486-0C20E686-BE2F-4EFA-B40D-555CA7DC2B26

Q31152486-16C05EC3-9715-48FF-BD7E-52CA38F00B05

Q31152486-189015CE-E319-4181-9DDF-619E0E8BDC28

Q31152486-33EBBE9C-EB28-4E85-BD5B-C1DC301469E1

Q31152486-3E024AE9-C25A-4CB2-A4DD-102BEDDE5BAB

Q31152486-4381F675-9400-4817-BE61-E407737F7FA9

Q31152486-4B8D5429-8548-4AB5-947B-C2F728369E57

P304

Q31152486-7B35E91B-7958-4252-8340-E8887CDB3D44

P31

Q31152486-AC3EC72A-5338-416C-A3EE-FFAF4D0FBD14

P356

Q31152486-ADD81CF4-3D5D-4903-9E3E-D4D9AE302F32

P407

Q31152486-9577B8E6-A0BA-4358-AA0D-F3DBF5679F99

P433

Q31152486-62767DC3-4030-4E8B-A90F-7474235A0218

P478

Q31152486-F5BA2469-D20D-494A-8BD7-4F8953E60745

P50

Q31152486-39C9FCCC-8023-4A51-B979-A6E68131B07E

Q31152486-947B3DFA-1708-470F-9BBE-778E756D0465

Q31152486-CE7DEB94-07C4-4E18-88F6-CFDD79517127

Q31152486-EC678995-4D44-4BD6-AD36-4801DEAD2E6D

P577

Q31152486-399016E7-4789-4CA6-90CA-5846F3084175

P5875

Q31152486-E20AD2B0-208C-4090-82A8-134F9BAE287B

P698

Q31152486-972B0D4B-F9B0-4D6D-9672-8B330F681C78

P932

Q31152486-AEB2DF2B-A3AB-4BD7-A9CD-EC75E38A913A

P356

JOURNAL.PONE.0090765

P1433

P1476

A root specific induction of c ...... pon salt stress in arabidopsis

@en

P2093

Antía Rodríguez-Villalón

http://www.w3.org/2001/XMLSchema#string

P2860

Molecular characterization of the Arabidopsis 9-cis epoxycarotenoid dioxygenase gene family

PHOTOPROTECTION REVISITED: Genetic and Molecular Approaches

Global transcriptome analysis reveals circadian regulation of key pathways in plant growth and development.

An "Electronic Fluorescent Pictograph" browser for exploring and analyzing large-scale biological data sets

Drought induction of Arabidopsis 9-cis-epoxycarotenoid dioxygenase occurs in vascular parenchyma cells.

Brassinosteroids control meristem size by promoting cell cycle progression in Arabidopsis roots.

Carotenoid crystal formation in Arabidopsis and carrot roots caused by increased phytoene synthase protein levels.

A transcriptional analysis of carotenoid, chlorophyll and plastidial isoprenoid biosynthesis genes during development and osmotic stress responses in Arabidopsis thaliana

Carotenoid biosynthesis in flowering plants.

Direct regulation of phytoene synthase gene expression and carotenoid biosynthesis by phytochrome-interacting factors.

P304

e90765

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1371/JOURNAL.PONE.0090765

http://www.w3.org/2001/XMLSchema#string

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

9

http://www.w3.org/2001/XMLSchema#string

P50

Manuel Rodriguez-Concepcion

A Gómez-Cadenas

M Águila Ruiz-Sola

P577

2014-03-04T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

260527380

http://www.w3.org/2001/XMLSchema#string

P698

24595399

http://www.w3.org/2001/XMLSchema#string

P932

3942475

http://www.w3.org/2001/XMLSchema#string