Structural requirements of strigolactones for hyphal branching in AM fungi
about
sameAs
Emerging Roles of Strigolactones in Plant Responses to Stress and DevelopmentThe importance of strigolactone transport regulation for symbiotic signaling and shoot branchingStrigolactone versus gibberellin signaling: reemerging concepts?Strigolactones: new plant hormones in action.Molecular mechanism of strigolactone perception by DWARF14Pre-attachment Striga hermonthica resistance of New Rice for Africa (NERICA) cultivars based on low strigolactone productionStrigolactones inhibit caulonema elongation and cell division in the moss Physcomitrella patensStrigolactone and karrikin signal perception: receptors, enzymes, or both?Strigolactones, karrikins and beyond.Strigolactones: a novel class of phytohormones that inhibit the growth and survival of breast cancer cells and breast cancer stem-like enriched mammosphere cells.Control of tiller growth of rice by OsSPL14 and Strigolactones, which work in two independent pathways.Differential activity of Striga hermonthica seed germination stimulants and Gigaspora rosea hyphal branching factors in rice and their contribution to underground communicationF-box protein MAX2 has dual roles in karrikin and strigolactone signaling in Arabidopsis thaliana.The yeast three-hybrid system as an experimental platform to identify proteins interacting with small signaling molecules in plant cells: potential and limitationsThe computational-based structure of Dwarf14 provides evidence for its role as potential strigolactone receptor in plants.Strigolactone Hormones and Their Stereoisomers Signal through Two Related Receptor Proteins to Induce Different Physiological Responses in Arabidopsis.Reduced germination of Orobanche cumana seeds in the presence of Arbuscular Mycorrhizal fungi or their exudates.Molecular locks and keys: the role of small molecules in phytohormone researchCarlactone is converted to carlactonoic acid by MAX1 in Arabidopsis and its methyl ester can directly interact with AtD14 in vitroUnraveling plant hormone signaling through the use of small molecules.Genetic variation in strigolactone production and tillering in rice and its effect on Striga hermonthica infection.New Strigolactone Mimics as Exogenous Signals for Rhizosphere Organisms.Carotenoid cleavage dioxygenase 7 modulates plant growth, reproduction, senescence, and determinate nodulation in the model legume Lotus japonicus.Getting to the roots of it: Genetic and hormonal control of root architecture.Strigolactones are regulators of root development.Strigolactones as small molecule communicators.Natural elicitors, effectors and modulators of plant responses.Recent advances in strigolactone research: chemical and biological aspects.Plant hormones as signals in arbuscular mycorrhizal symbiosis.Evolution of Bradyrhizobium-Aeschynomene mutualism: living testimony of the ancient world or highly evolved state?Target sites for chemical regulation of strigolactone signaling.Frontier studies on highly selective bio-regulators useful for environmentally benign agricultural production.Synthesis of strigolactones, a strategic account.How drought and salinity affect arbuscular mycorrhizal symbiosis and strigolactone biosynthesis?Strigolactone biology: genes, functional genomics, epigenetics and applications.Stereospecificity in strigolactone biosynthesis and perception.Strigolactones: how far is their commercial use for agricultural purposes?Apocarotenoids: A New Carotenoid-Derived Pathway.The role of strigolactones and ethylene in disease caused by Pythium irregulare.The Role of Strigolactones and Their Potential Cross-talk under Hostile Ecological Conditions in Plants.
P2860
Q26752498-B484AA43-22AB-486E-99D2-DFDF75D5B757Q26753054-7DB5E641-61BE-4272-A311-47126B61F6AEQ26768655-08AE6067-CAD9-4688-B1E2-D7B2546C98EBQ26770196-A4CD9DBD-4D0E-4BC7-AC05-86DFB421C3EDQ27687234-CA669098-22BE-437F-9F70-68D1243C5783Q28246880-A2BA6B78-44A7-4EFF-9438-D2E3ECBE819BQ28539520-4F733DE3-581C-422C-B3B5-033D6338E0B7Q28710174-ECAB8B6F-F335-476F-8AC0-CDDEA61F59A5Q30101012-EC3D1B7C-CB28-4379-821E-28C3F2564BE5Q33353296-5938D7C7-DE2F-405F-BE38-B6EE8AA3E072Q33354285-BCEABDDA-29DB-4140-93CE-5C8B62F114CDQ34050663-7B92B592-0B0E-4248-A550-97EA30FBC7F0Q34183769-5649CEB2-895C-4354-AD06-42296B16816CQ34284036-AA216035-FD67-49BE-A317-8A2A3F05EFE7Q34309285-DDE8486C-7BF0-44CA-B970-77536F6F47EFQ34419291-BF7100DA-D87E-4A0E-9BE2-EA5C509C93D5Q34474336-57D587C2-A01C-46A4-84D6-4F7122D609D2Q34722178-D5938D2A-74F1-4FEB-BB3E-83F1FD5FCB85Q34752787-C772D842-F570-47D4-B792-A54A20D24A46Q35225476-690E9CBC-4378-408A-94E4-291995C7E8FCQ35783698-5CA90670-1F9E-4529-9188-7D77EB5320C4Q36396735-DC543E6F-23A6-43D7-81F1-D2B09C52B3B8Q36802517-ADEA5835-059C-4BF3-956B-0036034A97FEQ36935730-135371AC-ABF5-46B8-A322-A105860A446AQ37884530-AF679B8C-AA69-4005-951A-82E9429462BEQ37949526-F370FD0F-3412-47E7-86B6-AF54574EEF52Q38037318-93404DEA-1705-40EF-AC61-8A42A6F9126CQ38051138-0511456E-A131-439C-BD3A-7F70F699B7BEQ38056744-095A7673-7B53-4987-8864-C6971E1327D9Q38060679-36753DBA-94F2-4B71-856E-09B473BF73BAQ38270184-33500DC0-49B7-43F9-BED6-009F03F418F1Q38380900-136E3679-BA65-47FC-821E-79F9BEB31013Q38573401-88B81EEF-579D-4446-B1BB-608EF2474EC3Q38655840-6510BD27-F8DC-4FF5-BFD7-0CFAE78F93E7Q38669759-A4F25481-23FF-4B4F-B9F4-357D518940CDQ38815238-D476A7AF-98B4-4BF2-94EA-6E825B9D659FQ38909167-8C3099AA-8DC0-4A1A-8B8D-E1F1C7BECABFQ38916601-C985F978-0BAD-498D-8409-E39DE686CE60Q38963216-C9C3AB6C-4614-4B16-8983-93FB3BE251D2Q39101833-E3322C78-F950-47D8-B552-BB6070C36D1F
P2860
Structural requirements of strigolactones for hyphal branching in AM fungi
description
2010 nî lūn-bûn
@nan
2010 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Structural requirements of strigolactones for hyphal branching in AM fungi
@ast
Structural requirements of strigolactones for hyphal branching in AM fungi
@en
Structural requirements of strigolactones for hyphal branching in AM fungi
@nl
type
label
Structural requirements of strigolactones for hyphal branching in AM fungi
@ast
Structural requirements of strigolactones for hyphal branching in AM fungi
@en
Structural requirements of strigolactones for hyphal branching in AM fungi
@nl
prefLabel
Structural requirements of strigolactones for hyphal branching in AM fungi
@ast
Structural requirements of strigolactones for hyphal branching in AM fungi
@en
Structural requirements of strigolactones for hyphal branching in AM fungi
@nl
P2093
P2860
P3181
P356
P1476
Structural requirements of strigolactones for hyphal branching in AM fungi
@en
P2093
Hideo Hayashi
Seisuke Ito
Shin Ogasawara
P2860
P304
P3181
P356
10.1093/PCP/PCQ058
P407
P577
2010-04-23T00:00:00Z