about
Renewable energy from Cyanobacteria: energy production optimization by metabolic pathway engineering.A Tale of Two Sugars: Trehalose 6-Phosphate and SucroseA specialized aspartokinase enhances the biosynthesis of the osmoprotectants ectoine and hydroxyectoine in Pseudomonas stutzeri A1501In vitro silencing of Brugia malayi trehalose-6-phosphate phosphatase impairs embryogenesis and in vivo development of infective larvae in jirdsTranslational research in agricultural biology-enhancing crop resistivity against environmental stress alongside nutritional qualityExpansive evolution of the trehalose-6-phosphate phosphatase gene family in ArabidopsisIdentification and characterization of a novel trehalose synthase gene derived from saline-alkali soil metagenomes.Surviving extreme polar winters by desiccation: clues from Arctic springtail (Onychiurus arcticus) EST libraries.Trehalose-6-phosphate and SnRK1 kinases in plant development and signaling: the emerging pictureTranscription Factor Arabidopsis Activating Factor1 Integrates Carbon Starvation Responses with Trehalose Metabolism.Transcriptomic analysis of the exit from dormancy of Aspergillus fumigatus conidia.The role of Tre6P and SnRK1 in maize early kernel development and events leading to stress-induced kernel abortion.Biosynthesis of compatible solutes in rhizobial strains isolated from Phaseolus vulgaris nodules in Tunisian fields.Enzyme characteristics of pathogen-specific trehalose-6-phosphate phosphatasesA biosynthetic pathway for BE-7585A, a 2-thiosugar-containing angucycline-type natural product.Genome-driven investigation of compatible solute biosynthesis pathways of Pseudomonas syringae pv. syringae and their contribution to water stress tolerance.Over-expression of BvMTSH, a fusion gene for maltooligosyltrehalose synthase and maltooligosyltrehalose trehalohydrolase, enhances drought tolerance in transgenic rice.Trehalose 6-phosphate phosphatase is required for cell wall integrity and fungal virulence but not trehalose biosynthesis in the human fungal pathogen Aspergillus fumigatus.From dusk till dawn: the Arabidopsis thaliana sugar starving responsive network.The trehalose pathway in maize: conservation and gene regulation in response to the diurnal cycle and extended darkness.Enzymatic control of anhydrobiosis-related accumulation of trehalose in the sleeping chironomid, Polypedilum vanderplanki.Halorhabdus tiamatea: proteogenomics and glycosidase activity measurements identify the first cultivated euryarchaeon from a deep-sea anoxic brine lake as potential polysaccharide degraderTrehalose metabolism: from osmoprotection to signaling.The first prokaryotic trehalose synthase complex identified in the hyperthermophilic crenarchaeon Thermoproteus tenax.A Ralstonia solanacearum type III effector directs the production of the plant signal metabolite trehalose-6-phosphateA unique combination of genetic systems for the synthesis of trehalose in Rubrobacter xylanophilus: properties of a rare actinobacterial TreT.Relevance of trehalose in pathogenicity: some general rules, yet many exceptions.Gloeocapsopsis AAB1, an extremely desiccation-tolerant cyanobacterium isolated from the Atacama Desert.Trehalose synthesis in Aspergillus niger: characterization of six homologous genes, all with conserved orthologs in related species.Functional screening of a cDNA library from the desiccation-tolerant plant Selaginella lepidophylla in yeast mutants identifies trehalose biosynthesis genes of plant and microbial origin.Expression of biomass-degrading enzymes is a major event during conidium development in Trichoderma reeseiSystems approaches to predict the functions of glycoside hydrolases during the life cycle of Aspergillus niger using developmental mutants ∆brlA and ∆flbA.Trehalose Metabolites in Arabidopsis-elusive, active and central.Against All Odds: Trehalose-6-Phosphate Synthase and Trehalase Genes in the Bdelloid Rotifer Adineta vaga Were Acquired by Horizontal Gene Transfer and Are Upregulated during Desiccation.Reconstruction and in silico analysis of an Actinoplanes sp. SE50/110 genome-scale metabolic model for acarbose production.Role of trehalose in salinity and temperature tolerance in the model halophilic bacterium Chromohalobacter salexigensTrehalose-6-phosphate: connecting plant metabolism and development.Two Subclasses of Differentially Expressed TPS1 Genes and Biochemically Active TPS1 Proteins May Contribute to Sugar Signalling in Kiwifruit Actinidia chinensis.Identification of N(α)-acetyl-α-lysine as a probable thermolyte and its accumulation mechanism in Salinicoccus halodurans H3B36.Combined inactivation of the Candida albicans GPR1 and TPS2 genes results in avirulence in a mouse model for systemic infection
P2860
Q21994492-45A2E2A3-ACB8-4B69-A615-71338D8D29FEQ26740110-426E9708-04DD-41B5-911A-6F64BE29565CQ28242262-CE596A92-266B-4175-B295-F34E1493C8A3Q28482248-FE64F1A3-1C2C-445F-886F-885A384C0AB4Q28658748-F2194623-6C1A-40AA-B6E3-DE280B1BE590Q28727370-04B02342-BAA5-40C9-85A2-B75132B2B0A5Q31142185-70005BDD-E188-4D93-A2D9-C5D043BDF669Q33312093-02B4C8A3-9C94-416A-8259-E1C5358BC76AQ33358287-5F8BB051-CDB4-41BB-B0FB-97B2214D7295Q33361083-450AF00D-55CA-48EF-A41E-D4BA9ED1BADAQ33369965-B2979801-1905-46C9-BE36-DDE71BF60D1AQ33556629-53911B57-E826-4886-B31A-7AE3720B3134Q33633478-07C1A4CA-07D9-4770-8F6A-703AA4860D09Q33700541-F140E72F-3CCB-424C-AE5B-98435A1E9A27Q33897077-A8355F04-2437-4E1D-93DA-F2D1A6CAC649Q34055244-DF173988-0688-46DF-AF4B-35821CD2F937Q34179795-6E46AAC2-7CDB-4FF0-A366-1B1195E2C051Q34195426-3E07C43B-1A02-4F49-AA15-8D1A2E9B8A20Q34219291-21320E8E-0B92-443B-8904-9B9255E0E333Q34370967-928B6848-406D-4EE1-ABAE-A27C51F662C3Q34568104-EB4E3EF6-0D64-4577-9778-B99CD1D97E5CQ34639633-81D102C1-5448-4A75-BE2C-FB55A7E4D03FQ34659356-0EDB4DBE-01A4-4CCA-96B7-EFD7894D079AQ34692097-2CC02BDE-9652-4990-8E51-631B07280B28Q34782161-CE46A166-0649-48EC-ADE3-F7711BDBA39CQ34845600-1070AF5F-5136-4C28-B617-DCF6E4F01068Q34961740-23E0548F-974A-4668-8983-B041ACFBFF73Q35021254-D4BCF03C-9D8D-4204-8E4F-B6AF15948570Q35146025-9DC2761F-9AFC-43B1-B1AC-83F786A3DDD0Q35269743-DFD63137-62FA-4EAA-BF99-22ECFE36CBB5Q35530378-6E11240E-6D4A-49DC-A197-8B4BFFB85F01Q35550620-25857A05-66C2-4D09-86BB-8A8EA5B03EFBQ35625642-9835944C-DDCE-40EB-857C-A36EC9E69504Q35687653-985E132F-CE0D-4F30-9793-33F0364D9E8AQ35778056-125E7707-4B1C-4BD8-BD8B-EF084CEC1240Q35842493-EA9BE06A-B33A-4E69-9D5B-5580D8D4D3E8Q35970255-E6D98C6F-3376-4043-90BF-0CFFC49D3440Q36228486-0C7E1417-2B68-4FE7-ACAE-A5B7B167405AQ36387787-8CA957DC-19E6-4601-A07B-0E2D6B2288B2Q36539698-DDC3DD4D-0597-45C4-8891-7049058844B0
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Insights on the evolution of trehalose biosynthesis
@ast
Insights on the evolution of trehalose biosynthesis
@en
Insights on the evolution of trehalose biosynthesis.
@nl
type
label
Insights on the evolution of trehalose biosynthesis
@ast
Insights on the evolution of trehalose biosynthesis
@en
Insights on the evolution of trehalose biosynthesis.
@nl
prefLabel
Insights on the evolution of trehalose biosynthesis
@ast
Insights on the evolution of trehalose biosynthesis
@en
Insights on the evolution of trehalose biosynthesis.
@nl
P2093
P2860
P356
P1476
Insights on the evolution of trehalose biosynthesis
@en
P2093
Alfredo Mendoza-Vargas
Gabriel Iturriaga
Nelson Avonce
P2860
P2888
P356
10.1186/1471-2148-6-109
P577
2006-12-19T00:00:00Z
P5875
P6179
1005022599