about
Structural and functional insights into intramolecular fructosyl transfer by inulin fructotransferaseCrystal Structures of Aspergillus japonicus Fructosyltransferase Complex with Donor/Acceptor Substrates Reveal Complete Subsites in the Active Site for CatalysisStructural and Functional Basis for Substrate Specificity and Catalysis of Levan FructotransferaseThe contribution of wheat to human diet and healthImplication of fructans in health: immunomodulatory and antioxidant mechanismsClimate extreme effects on the chemical composition of temperate grassland species under ambient and elevated CO2: a comparison of fructan and non-fructan accumulatorsExogenous Classic Phytohormones Have Limited Regulatory Effects on Fructan and Primary Carbohydrate Metabolism in Perennial Ryegrass (Lolium perenne L.).A Simple and Fast Kinetic Assay for the Determination of Fructan Exohydrolase Activity in Perennial Ryegrass (Lolium perenne L.).Purification, cloning and functional differences of a third fructan 1-exohydrolase (1-FEHw3) from wheat (Triticum aestivum).Donor substrate recognition in the raffinose-bound E342A mutant of fructosyltransferase Bacillus subtilis levansucraseTowards a better understanding of the generation of fructan structure diversity in plants: molecular and functional characterization of a sucrose:fructan 6-fructosyltransferase (6-SFT) cDNA from perennial ryegrass (Lolium perenne)Regulators of plant biomass degradation in ascomycetous fungi.De novo assembly and annotation of the Zhe-Maidong (Ophiopogon japonicus (L.f.) Ker-Gawl) transcriptome in different growth stagesFermentation of fructooligosaccharides and inulin by bifidobacteria: a comparative study of pure and fecal culturesAdvanced phenotyping offers opportunities for improved breeding of forage and turf speciesEffect of fructooligosaccharide metabolism on chicken colonization by an extra-intestinal pathogenic Escherichia coli strain.Identification and development of a functional marker from 6-SFT-A2 associated with grain weight in wheatInhibitory effect of Erythronium japonicum on the human breast cancer cell metastasis.Structural Modifications of Fructans in Aloe barbadensis Miller (Aloe Vera) Grown under Water StressInfant food applications of complex carbohydrates: Structure, synthesis, and function.Structural Analysis of β-Fructofuranosidase from Xanthophyllomyces dendrorhous Reveals Unique Features and the Crucial Role of N-Glycosylation in Oligomerization and Activity.An acceptor-substrate binding site determining glycosyl transfer emerges from mutant analysis of a plant vacuolar invertase and a fructosyltransferase.Crystal structure of inactivated Thermotoga maritima invertase in complex with the trisaccharide substrate raffinose.TaMYB13 is a transcriptional activator of fructosyltransferase genes involved in β-2,6-linked fructan synthesis in wheat.Regulation of fructooligosaccharide metabolism in an extra-intestinal pathogenic Escherichia coli strain.Role of FODMAPs in Patients With Irritable Bowel Syndrome.Inulin Potential for Enzymatic Obtaining of Prebiotic Oligosaccharides.Effects of elevated CO2 concentration and water deficit on fructan metabolism in Viguiera discolor Baker.Glycoside hydrolase family 32 is present in Bacillus subtilis phages.Cloning and functional characterization of two abiotic stress-responsive Jerusalem artichoke (Helianthus tuberosus) fructan 1-exohydrolases (1-FEHs).Fructan biosynthesis and degradation as part of plant metabolism controlling sugar fluxes during durum wheat kernel maturationTaMYB13-1, a R2R3 MYB transcription factor, regulates the fructan synthetic pathway and contributes to enhanced fructan accumulation in bread wheatIncrease of seed germination, growth and membrane integrity of wheat seedlings by exposure to static and a 10-KHz electromagnetic field.Prebiotic potential and gastrointestinal effects of immature wheat grain (IWG) biscuits.The large subunit determines catalytic specificity of barley sucrose:fructan 6-fructosyltransferase and fescue sucrose:sucrose 1-fructosyltransferase.Dissecting the molecular basis of the contribution of source strength to high fructan accumulation in wheat.Coordinated expression of functionally diverse fructosyltransferase genes is associated with fructan accumulation in response to low temperature in perennial ryegrass.Molecular dissection of variation in carbohydrate metabolism related to water-soluble carbohydrate accumulation in stems of wheat.Prebiotic potential of Agave angustifolia Haw fructans with different degrees of polymerization.Dependence of fructooligosaccharide content on activity of fructooligosaccharide-metabolizing enzymes in yacon (Smallanthus sonchifolius) tuberous roots during storage.
P2860
Q27643442-85226CE4-39EF-48A0-ADB4-D2B30BFC5CB6Q27661614-31A6AAAE-7027-444D-94F5-BB919B83546CQ27670799-CAA12F95-0246-4F9B-9E86-419215ACDE24Q28071675-1894DDB0-A37A-47A6-A651-A64816ACD7F9Q28084064-22138A4A-2214-4684-96C5-91CE73B0BC5DQ28541552-381D1805-8764-42D7-9ECB-9812C98E22DDQ30386168-C8121C25-7065-4A91-BED0-4E6C82659B53Q30386415-24B45A38-569D-45A3-9D50-0315D654F44DQ33324160-4E86EE08-9EB8-404E-8E18-701D5803237BQ33325643-30BB2954-FDBA-4903-935A-30E45ADE7AE6Q33393460-3B6EBBD6-6D9E-4AF2-A89D-435504012CE4Q33791538-BDDC4E63-6227-44F9-8046-B2A96F33724FQ33803982-6AC8DE0C-88C4-4A46-9361-377C27B573F2Q34097784-4C1773D0-C6B9-4425-8349-1D0C0ACF9155Q34169541-985902D7-1716-4F8B-84B6-993FC6C4061FQ34239023-13E495A7-71D0-4F85-A44C-D677F8A0C270Q35028849-D765CD91-61BB-4E72-A089-6649D99E736BQ35050401-037E1C0B-0F45-49EF-80E9-1B1F012B88ACQ36084829-176920E2-3EE7-4C2C-873A-EFDE62D5BCC0Q36203364-B2097D5C-D31A-4177-B670-D27337F72165Q36727384-F8CCC150-F81E-4465-B897-3B79D63B5DD3Q37258191-6491E834-4576-472E-89E3-9DF5F56CF651Q38316827-C2E99A8A-E2BC-4220-BEC6-06CB2EE844D2Q38332680-2F0E96DF-538C-45C7-A57B-7F5023C9196BQ38334104-82C6A63E-6908-4BDE-99B0-67FBE4FC35BFQ38360922-A684815F-7B35-45FF-88C6-307A32DC48B3Q38369045-63CE5F93-FDA6-4EE4-86BA-D7A99C2FD9BEQ39322468-46A6B593-7FDA-4113-8026-4F328C3FF8A1Q40464787-7F2B5C2A-A78C-4489-8676-982F05C0A58BQ41671669-8EFAFE08-B6FB-448F-930B-4760FC101F4FQ41916475-47B23208-F00C-4065-9F37-D55F0EACC6FCQ41967815-C6C2B26B-3717-404D-B1C0-84168BF21FACQ43497956-5733FE2E-6195-4A3D-8ED8-BD620A75DE62Q44736749-42246F39-0E0B-4E36-A7EE-CBB1F9F35779Q44922009-8158FC87-BFD7-4674-97E4-F70B3A483569Q45955699-C55FF054-CB2F-435B-B957-520790CD0FCAQ46227749-7E3C254F-3FCC-468E-B0AA-163887A0E1D4Q46847391-B8C9DDD5-6D6E-4C9B-9BAC-4933440646FFQ46848075-C590C611-1FA5-4D16-A020-AC25864A9D45Q46905662-8EC18159-A044-42F7-94C2-11502335FD7B
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Fructans: beneficial for plants and humans.
@ast
Fructans: beneficial for plants and humans.
@en
type
label
Fructans: beneficial for plants and humans.
@ast
Fructans: beneficial for plants and humans.
@en
prefLabel
Fructans: beneficial for plants and humans.
@ast
Fructans: beneficial for plants and humans.
@en
P1476
Fructans: beneficial for plants and humans.
@en
P2093
Tita Ritsema
P304
P356
10.1016/S1369-5266(03)00034-7
P577
2003-06-01T00:00:00Z