about
P688
LaeA, a regulator of secondary metabolism in Aspergillus sppSecondary chemicals protect mould from fungivoryThe Aspergillus nidulans MAPK module AnSte11-Ste50-Ste7-Fus3 controls development and secondary metabolismHeterochromatic marks are associated with the repression of secondary metabolism clusters in Aspergillus nidulansSexual development and cryptic sexuality in fungi: insights from Aspergillus speciesLaeA control of velvet family regulatory proteins for light-dependent development and fungal cell-type specificitySecondary metabolism and development is mediated by LlmF control of VeA subcellular localization in Aspergillus nidulansInduced fungal resistance to insect grazing: reciprocal fitness consequences and fungal gene expression in the Drosophila-Aspergillus model systemCoordination of secondary metabolism and development in fungi: the velvet family of regulatory proteins.FfVel1 and FfLae1, components of a velvet-like complex in Fusarium fujikuroi, affect differentiation, secondary metabolism and virulenceSuppressor mutagenesis identifies a velvet complex remediator of Aspergillus nidulans secondary metabolism.The phosducin-like protein PhnA is required for Gbetagamma-mediated signaling for vegetative growth, developmental control, and toxin biosynthesis in Aspergillus nidulans.Functional roles of FgLaeA in controlling secondary metabolism, sexual development, and virulence in Fusarium graminearumAllergens/Antigens, toxins and polyketides of important Aspergillus species.Growth and developmental control in the model and pathogenic aspergilliveA-dependent RNA-pol II transcription elongation factor-like protein, RtfA, is associated with secondary metabolism and morphological development in Aspergillus nidulansNosA, a transcription factor important in Aspergillus fumigatus stress and developmental response, rescues the germination defect of a laeA deletion.The function and evolution of the Aspergillus genome.A novel automethylation reaction in the Aspergillus nidulans LaeA protein generates S-methylmethionine.Fungus-specific sirtuin HstD coordinates secondary metabolism and development through control of LaeAThe VeA regulatory system and its role in morphological and chemical development in fungi.Fungal secondary metabolites - strategies to activate silent gene clusters.Fungal development and the COP9 signalosome.Aspergillus nidulans asexual development: making the most of cellular modules.Aspergillus nidulans natural product biosynthesis is regulated by mpkB, a putative pheromone response mitogen-activated protein kinase.Requirement of LaeA for secondary metabolism and sclerotial production in Aspergillus flavusPyrG is required for maintaining stable cellular uracil level and normal sporulation pattern under excess uracil stress in Aspergillus nidulans.Involvement of transposon-like elements in penicillin gene cluster regulation.Oxylipins act as determinants of natural product biosynthesis and seed colonization in Aspergillus nidulans.Mechanism of Sterigmatocystin Biosynthesis Regulation by pH in Aspergillus nidulans.Overexpression of the Aspergillus nidulans histone 4 acetyltransferase EsaA increases activation of secondary metabolite productionHistone deacetylase activity regulates chemical diversity in Aspergillus.VelB/VeA/LaeA complex coordinates light signal with fungal development and secondary metabolism.Identification of protein complexes from filamentous fungi with tandem affinity purification.Aspergillus flavus VelB acts distinctly from VeA in conidiation and may coordinate with FluG to modulate sclerotial production.Effects of laeA deletion on Aspergillus flavus conidial development and hydrophobicity may contribute to loss of aflatoxin production.Developmental biology. Sex and poison in the dark.FgVELB is associated with vegetative differentiation, secondary metabolism and virulence in Fusarium graminearum.Secondary metabolic gene cluster silencing in Aspergillus nidulans.Genomic mining for Aspergillus natural products
P921
Q24624239-2E0727F2-5D51-489E-B5A6-43BD8F92BDACQ24652255-77EE4E5C-D775-4EC2-BC28-DCFEB34561F5Q27332428-361F3225-583B-4F1B-86D9-81582F2A28BEQ27976503-579BCA7C-7A26-47A5-B0D0-7F5F73D7FEF1Q28253241-E17E8F22-6152-4359-A4EF-BC66E5AFC36AQ28476419-7FA5CD58-052F-4287-A54E-BED7F497D972Q28485158-5385C3A5-181A-43D8-9432-C0E38D50396BQ28536315-0AF4A259-D5F0-4A6E-9534-1CCBB47E1144Q33351496-D0C4BDE2-2C4F-457D-8B53-6DEA108C6946Q34341591-3119CB63-8DA7-4E76-BBE6-D87DF82645A0Q34432303-899C7389-0879-4943-B6B5-277471CFE3D2Q34461695-E8F6D6D0-C66A-4629-836D-70D32C8B7E20Q34848645-7B06A117-B891-44B7-92A1-0536049B3D14Q35022360-5E374F08-F2C9-46CE-90A4-1F7565F5107CQ35075203-F473675C-64AD-44D8-AEC8-73ED7A9D88BCQ36162278-C98E27FB-9E52-4170-8399-25CC0D9B3A28Q36354459-BDD8EC39-CAFD-42A0-BAF4-C0EF4A2821C0Q36501248-7BC173FC-331B-4B10-B56C-D0D41559FCD3Q36850207-143080A9-F956-4A85-8887-6FA5EBA65A75Q37124810-63D4935B-8070-4767-B672-9B0999C78DFBQ37155117-38BC0020-9181-436B-A8E6-F666F0756DDCQ37740268-9091C687-4026-47DE-B91A-37AA712AE22FQ37799161-C6ABF8CC-BFDD-4838-B2B3-3F8694C4C386Q37805069-9707D26C-6C49-4707-A120-2E9503668854Q39023039-16543158-15E0-43A1-9248-B3DDCBE3E456Q39797016-AEE8AAE8-B972-486E-BA87-8EA93CDEFE78Q40108422-D5A58A23-0E00-4CF1-9297-CD8B12A4C517Q40312755-74095163-7302-4877-95FF-F43F86DDE343Q40357335-43191222-9FD8-4708-954A-B3B51BC2BB93Q42030784-C66F029B-FE1F-40D3-AC95-39A765004B66Q42389163-34F6186E-3677-4441-9F3B-151C8A478651Q42628294-485C0ED1-4C73-4723-A821-151412E994D2Q46537897-C534D9D0-177C-4BD2-AAA3-AA88F03CC2DEQ48336324-889F233E-05A7-44D9-A28E-3DABA7B9CC73Q50724806-F5C88903-3929-4AFE-8C77-C540C614C910Q51819881-3FCC5783-1B9A-49FA-9864-3FA5D77030F5Q51954070-3FBE699E-BF1C-4DF5-9CEB-2F45A98E4E62Q52626630-938205B2-D3F8-4D8E-B8E8-56339F21E27BQ53342095-ECEC91F4-2151-4781-90E1-EEEDDA6ECE31Q62658783-486D8D4D-2D1D-4405-978C-8AEC892A0F4B
P921
description
proteïne in AN0807-T
@nl
name
AN0807-T
@nl
Methyltransferase-domain protein
@en
type
label
AN0807-T
@nl
Methyltransferase-domain protein
@en
prefLabel
AN0807-T
@nl
Methyltransferase-domain protein
@en