Ethylene interacts with abscisic acid to regulate endosperm rupture during germination: a comparative approach using Lepidium sativum and Arabidopsis thaliana.
about
Abscisic Acid synthesis and responseDifferent Modes of Hydrogen Peroxide Action During Seed GerminationEthylene and Hormonal Cross Talk in Vegetative Growth and DevelopmentDormant and after-Ripened Arabidopsis thaliana Seeds are Distinguished by Early Transcriptional Differences in the Imbibed StateEthylene, a key factor in the regulation of seed dormancy.ALTERED MERISTEM PROGRAM 1 is involved in development of seed dormancy in Arabidopsis.Abscisic acid (ABA) regulates grape bud dormancy, and dormancy release stimuli may act through modification of ABA metabolismUltraweak Photon Emission from the Seed Coat in Response to Temperature and Humidity-A Potential Mechanism for Environmental Signal Transduction in the Soil Seed Bank.Pyrazinamide and derivatives block ethylene biosynthesis by inhibiting ACC oxidaseTranscriptional regulatory programs underlying barley germination and regulatory functions of Gibberellin and abscisic acid.Members of the gibberellin receptor gene family GID1 (GIBBERELLIN INSENSITIVE DWARF1) play distinct roles during Lepidium sativum and Arabidopsis thaliana seed germination.Identification of the Arabidopsis REDUCED DORMANCY 2 gene uncovers a role for the polymerase associated factor 1 complex in seed dormancyNatural variation in germination responses of Arabidopsis to seasonal cues and their associated physiological mechanisms.DELAY OF GERMINATION 1 mediates a conserved coat-dormancy mechanism for the temperature- and gibberellin-dependent control of seed germinationEffects of abscisic acid, ethylene and sugars on the mobilization of storage proteins and carbohydrates in seeds of the tropical tree Sesbania virgata (Leguminosae).A Ser/Thr protein kinase phosphorylates MA-ACS1 (Musa acuminata 1-aminocyclopropane-1-carboxylic acid synthase 1) during banana fruit ripening.HRS1 acts as a negative regulator of abscisic acid signaling to promote timely germination of Arabidopsis seedsA tale of two tissues: AtGH9C1 is an endo-β-1,4-glucanase involved in root hair and endosperm development in Arabidopsis.Arabidopsis thaliana bZIP44: a transcription factor affecting seed germination and expression of the mannanase-encoding gene AtMAN7.Effects of abscisic acid, gibberellin, ethylene and their interactions on production of phenolic acids in salvia miltiorrhiza bunge hairy roots.A Petunia homeodomain-leucine zipper protein, PhHD-Zip, plays an important role in flower senescencePyrimidine degradation influences germination seedling growth and production of Arabidopsis seeds.Dormancy cycling in Arabidopsis seeds is controlled by seasonally distinct hormone-signaling pathways.Abscisic acid regulates root elongation through the activities of auxin and ethylene in Arabidopsis thaliana.An Endosperm-Associated Cuticle Is Required for Arabidopsis Seed Viability, Dormancy and Early Control of Germination.Exogenous auxin regulates multi-metabolic network and embryo development, controlling seed secondary dormancy and germination in Nicotiana tabacum LThe E3 ubiquitin ligase HOS1 is involved in ethylene regulation of leaf expansion in Arabidopsis.Exogenous spermidine improves seed germination of sweet corn via involvement in phytohormone interactions, H2O2 and relevant gene expression.NO Promotes Seed Germination and Seedling Growth Under High Salt May Depend on EIN3 Protein in Arabidopsis.ABA crosstalk with ethylene and nitric oxide in seed dormancy and germinationComparative proteomic study of Arabidopsis mutants mpk4 and mpk6.Global Transcriptomic Analysis Reveals the Mechanism of Phelipanche aegyptiaca Seed Germination.Salt Induces Features of a Dormancy-Like State in Seeds of Eutrema (Thellungiella) salsugineum, a Halophytic Relative of Arabidopsis.The Arabidopsis MIEL1 E3 ligase negatively regulates ABA signalling by promoting protein turnover of MYB96The evolution of seeds.First off the mark: early seed germination.Beyond gibberellins and abscisic acid: how ethylene and jasmonates control seed germination.Molecular mechanisms of seed dormancy.The functions of the endosperm during seed germination.The biomechanics of seed germination.
P2860
Q24597773-D8D0A907-BD09-4AC7-BB3D-582BF1F9A05BQ26766396-F993E952-A6D3-450D-B902-97A7383EFE48Q26800287-50CB6F1C-D4FC-433D-96B3-BC81CD65DA3DQ28596868-CE36FAF7-39DC-4D24-A799-4136DE478749Q30427767-3D43BEFA-D59A-4B40-ABA6-7AF9289F57FAQ33351394-23643B03-2144-4F98-8510-37D57ED8BD26Q33359820-0E890156-04D3-4472-A2AE-E1B1B8C5C4BEQ33458397-AB280735-0496-49FC-9372-106D5EA27F7DQ33804763-E3AE3FA0-CD77-48A8-ACF6-D098E66BF6ACQ33931081-C8C248D7-B9A1-4322-B5B9-86F75A38ED2CQ33967685-AB981AA2-2769-4E37-BF91-B838FC3277C5Q33974897-462D8035-471E-43D8-B0FD-0EA2FD156BCCQ34052159-83504A67-65B5-47E0-B12D-8ADF8C6177BCQ34120228-AF4F8973-CCC3-4410-9A78-25E34EC8D705Q34152789-600F94A9-A797-4FE4-87C7-1C3E0FA8B2C5Q34196499-EF777E38-CC54-4D9E-B5B8-D2071FB3AA9CQ34251213-A68A78FB-E988-497F-A957-A37397F2C195Q34485237-22D67C01-E693-483C-A842-212579E0EC3DQ34609167-9C6ED903-C729-4651-9C70-F661E267D031Q34984072-2FBE9DA9-21D8-4B29-B862-8FE37D7713C2Q35097347-DE8F5905-95FD-4702-B960-F96592D80AC0Q35570139-15BFF4D1-6B72-4B0C-B411-B3BC88ADA73EQ35647517-6C96870F-C9C4-47ED-BBD0-B463AF76C5B5Q35683663-653B7338-3855-4101-9708-88534E55478DQ35872641-7212F677-497F-45C7-A224-9434B225C219Q35918593-67284964-7878-4F18-AFD8-8D1B92CC8AB4Q36213304-3DEF9A55-E872-4631-A3B6-1F311D66F6ECQ36238860-43A6C44C-2FC8-42A3-B838-FE1A490556FEQ36437919-4C980E3C-496C-475A-AEEA-0E05D95645E7Q36715219-BBD5A3D3-921F-4472-BF03-E326CC87223CQ37024201-86F93FF2-8090-4407-857C-1EBBF672C06FQ37134663-9B8EE4C4-ADF8-4A22-8948-2A4C51029661Q37146908-092AD119-C9C2-4EE3-AF59-8B1F2BF8AE94Q37263695-55CA90B0-0F9F-46A6-BF2D-2C7B9C4F5495Q37734588-94E503FC-334A-4140-B2CA-056BD3A9E9B5Q37856600-782222F8-B4A6-4E49-9AD2-694AFB18CA84Q37951745-E393D973-12CD-44EF-A378-0A021D2CBA2FQ38012481-1EF4E210-570A-42E0-A874-11D39F34D6C7Q38223216-652EA76D-BBB3-4DA4-BC68-2CF27102A8DFQ38785964-32617F29-3863-4ED9-A2E3-0278CCF9A7A9
P2860
Ethylene interacts with abscisic acid to regulate endosperm rupture during germination: a comparative approach using Lepidium sativum and Arabidopsis thaliana.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Ethylene interacts with abscis ...... ivum and Arabidopsis thaliana.
@en
Ethylene interacts with abscis ...... ivum and Arabidopsis thaliana.
@nl
type
label
Ethylene interacts with abscis ...... ivum and Arabidopsis thaliana.
@en
Ethylene interacts with abscis ...... ivum and Arabidopsis thaliana.
@nl
prefLabel
Ethylene interacts with abscis ...... ivum and Arabidopsis thaliana.
@en
Ethylene interacts with abscis ...... ivum and Arabidopsis thaliana.
@nl
P2093
P2860
P356
P1433
P1476
Ethylene interacts with abscis ...... ivum and Arabidopsis thaliana.
@en
P2093
Ada Linkies
Cassandra S C Cadman
Françoise Corbineau
Gerhard Leubner-Metzger
James R Lynn
Karl Morris
Kerstin Müller
Meike Wenk
Veronika Turecková
William E Finch-Savage
P2860
P304
P356
10.1105/TPC.109.070201
P577
2009-12-18T00:00:00Z