about
Establishing molecular tools for genetic manipulation of the pleuromutilin-producing fungus Clitopilus passeckerianusMycovirus Cryphonectria Hypovirus 1 Elements Cofractionate with trans-Golgi Network Membranes of the Fungal Host Cryphonectria parasiticaHarbouring public good mutants within a pathogen population can increase both fitness and virulenceMitogen-activated protein kinases are associated with the regulation of physiological traits and virulence in Fusarium oxysporum f. sp. cubenseIn vivo study of trichoderma-pathogen-plant interactions, using constitutive and inducible green fluorescent protein reporter systems.Construction of a fusion protein expression vector MK-EGFP and its subcellular localization in different carcinoma cell lines.Common genetic pathways regulate organ-specific infection-related development in the rice blast fungus.Analysis of banana transcriptome and global gene expression profiles in banana roots in response to infection by race 1 and tropical race 4 of Fusarium oxysporum f. sp. cubense.Transformation of Epichloƫ typhina by electroporation of conidia.Production of dsRNA sequences in the host plant is not sufficient to initiate gene silencing in the colonizing oomycete pathogen Phytophthora parasiticaTransformation of Botrytis cinerea by direct hyphal blasting or by wound-mediated transformation of sclerotia.Disruption of the Eng18B ENGase gene in the fungal biocontrol agent Trichoderma atroviride affects growth, conidiation and antagonistic ability.The rice leaf blast pathogen undergoes developmental processes typical of root-infecting fungi.Transcription factor Amr1 induces melanin biosynthesis and suppresses virulence in Alternaria brassicicolaMultilayer regulatory mechanisms control cleavage factor I proteins in filamentous fungi.Dehydrin-like proteins in the necrotrophic fungus Alternaria brassicicola have a role in plant pathogenesis and stress responseSimultaneous specific in planta visualization of root-colonizing fungi using fluorescence in situ hybridization (FISH).Characterization of Glomerella strains recovered from anthracnose lesions on common bean plants in BrazilTransient transformation of Podosphaera xanthii by electroporation of conidia.Membrane transporters in self resistance of Cercospora nicotianae to the photoactivated toxin cercosporin.Deciphering the Niches of Colonisation of Vitis vinifera L. by the Esca-Associated Fungus Phaeoacremonium aleophilum Using a gfp Marked Strain and Cutting Systems.A codon-optimized green fluorescent protein for live cell imaging in Zymoseptoria tritici.Glucosinolate-derived isothiocyanates impact mitochondrial function in fungal cells and elicit an oxidative stress response necessary for growth recoveryProduction and secretion of naphthoquinones is mediated by the MFS transporter MFS1 in the entomopathogenic fungus Ophiocordyceps sp. BCC1869.The mycovirus CHV1 disrupts secretion of a developmentally regulated protein in Cryphonectria parasitica.Comparative genomics of a plant-pathogenic fungus, Pyrenophora tritici-repentis, reveals transduplication and the impact of repeat elements on pathogenicity and population divergenceConstruction of a new GFP vector and its use for Fusaruim oxysporum transformation.A native promoter and inclusion of an intron is necessary for efficient expression of GFP or mRFP in Armillaria melleaSclerotinia sclerotiorum (Lib.) de Bary: biology and molecular traits of a cosmopolitan pathogen.The Mycelium Blueprint: insights into the cues that shape the filamentous fungal colony.Genotypic Regulation of Aflatoxin Accumulation but Not Aspergillus Fungal Growth upon Post-Harvest Infection of Peanut (Arachis hypogaea L.) Seeds.Transformation of Probiotic Yeast and Their Recovery from Gastrointestinal Immune Tissues Following Oral Gavage in Mice.Role of mannitol metabolism in the pathogenicity of the necrotrophic fungus Alternaria brassicicola.The construction and use of versatile binary vectors carrying pyrG auxotrophic marker and fluorescent reporter genes for Agrobacterium-mediated transformation of Aspergillus oryzae.Early events in the Fusarium verticillioides-maize interaction characterized by using a green fluorescent protein-expressing transgenic isolate.Response of AtNPR1-expressing cotton plants to Fusarium oxysporum f. sp. vasinfectum isolates.A functionally conserved Zn2 Cys6 binuclear cluster transcription factor class regulates necrotrophic effector gene expression and host-specific virulence of two major Pleosporales fungal pathogens of wheat.Integrative gene transfer in the truffle Tuber borchii by Agrobacterium tumefaciens-mediated transformation.A Brachypodium UDP-Glycosyltransferase Confers Root Tolerance to Deoxynivalenol and Resistance to Fusarium Infection.Rice false smut fungus hijacks the rice nutrients supply by blocking and mimicking the fertilization of rice ovary.
P2860
Q24647561-209C898B-1EBE-47D5-BE08-C181599DBB2BQ27473283-2A9F8041-976A-416F-9CC9-1C071873393CQ28354993-7889EC49-A4DB-4AFD-BEC6-D7A57A4571F5Q28545921-D5713054-2B25-469C-92B2-ECD92D0FD7D4Q33202637-5AD2A0EA-D4BF-4EC6-B7D4-0502B58BA7FBQ33266700-2302EF31-199F-48D7-8B77-5A4E67F6104DQ33547001-96037AAF-A3F3-40A4-931B-F97125490A50Q33715872-32A1B076-2F76-4FAA-BE6D-E2D66C3D0599Q33837476-12EE0236-FEBC-44B0-A589-6A9053D1CF1BQ34091265-53A306A9-A5B8-4507-973F-641F2DCFCA5CQ34107847-6CD687C6-9EBB-4F6C-9723-29860AB01CB5Q34269078-FC307CD9-10B7-4EEC-BDA1-C6419EC9F5DDQ34354463-CF7B1046-E932-4B58-8095-55449D1890F5Q34468927-F44AE100-7453-45A2-AB82-DF9C040D0BD0Q34883412-7C576C57-4A93-4DA4-921C-6EB687C55391Q35009079-C9238ED6-1426-4411-BDEB-405B8F0E52DFQ35039805-24E28534-FD18-450F-B4A1-1666D4104E4FQ35122013-8B1BED24-04B0-4773-B5FE-532D50AB5B6AQ35555184-D68C162D-2510-4042-9D7E-D435BDBE1BBEQ35599456-C4989722-FA02-48E8-8269-1317968C95FFQ35659467-DAAFF90F-09FB-41FE-9C5B-D6B2345BCC2FQ35669380-9D7C28E4-8351-4D84-AFB4-79CE2393673AQ35675766-300B05AB-60F7-4220-9179-231F93E78F80Q35700718-4E0FE328-009A-4775-97FA-403C879C8F2EQ36023130-78854429-081E-4A4F-A4ED-5FBBA75BC11CQ36512666-8E326B8F-C539-4962-B1DA-1D533350A241Q37063084-B8EF1163-1E20-4191-AB2B-4E1604350F22Q37072682-52849FC6-D17E-44BF-AFE4-E1A7AAA88FA4Q37761198-4555FA8C-8E19-4BEE-B8BB-51B3077930AEQ38244709-29C285CF-CAFB-4666-9521-48C4D042A4E8Q38680623-DEAEA332-DC66-40A3-934E-D57BFAD6033FQ38828923-43C356E2-773D-46B2-8908-13A06496C684Q38929562-682D4E35-CCCC-4798-B557-8A71219CB197Q39225207-4A2DAB51-CD39-4BF4-B95A-07F5D96AC115Q39734653-57E57A9B-BEC1-4F4E-BBC6-6362AD75D2CAQ40311989-05FE3708-C66B-413C-9B13-C8A7BAD6763AQ40446329-EBFC532C-2258-4DC5-AD13-BD95EC89EFD7Q40551618-025DE554-B360-414E-A623-E8AFCABB3D34Q40625320-9784044A-E404-4CDA-8230-A3604FB65108Q40693683-17694348-907B-42D5-AC98-68470EB804E2
P2860
description
2001 nĆ® lÅ«n-bĆ»n
@nan
2001 Õ©ÕøÖÕ”ÕÆÕ”Õ¶Õ« ÕÕ”ÕµÕ«Õ½Õ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕøÖÕ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ ÕµÖ
Õ¤ÕøÖÕ”Õ®
@hyw
2001 Õ©Õ¾Õ”ÕÆÕ”Õ¶Õ« Õ“Õ”ÕµÕ«Õ½Õ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕ¾Õ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ Õ°ÕøÕ¤Õ¾Õ”Õ®
@hy
2001幓ć®č«ę
@ja
2001幓č«ę
@yue
2001幓č«ę
@zh-hant
2001幓č«ę
@zh-hk
2001幓č«ę
@zh-mo
2001幓č«ę
@zh-tw
2001幓č®ŗę
@wuu
name
Green fluorescent protein is lighting up fungal biology
@ast
Green fluorescent protein is lighting up fungal biology
@en
Green fluorescent protein is lighting up fungal biology
@nl
type
label
Green fluorescent protein is lighting up fungal biology
@ast
Green fluorescent protein is lighting up fungal biology
@en
Green fluorescent protein is lighting up fungal biology
@nl
prefLabel
Green fluorescent protein is lighting up fungal biology
@ast
Green fluorescent protein is lighting up fungal biology
@en
Green fluorescent protein is lighting up fungal biology
@nl
P2093
P2860
P1476
Green fluorescent protein is lighting up fungal biology
@en
P2093
Ciuffetti LM
Dickman MB
Johnson KB
Martinez JP
Rodriguez RJ
Rollins JA
P2860
P304
P356
10.1128/AEM.67.5.1987-1994.2001
P407
P577
2001-05-01T00:00:00Z