about
P688
Relationship between secondary metabolism and fungal developmentRegulation of gene expression by ambient pH in filamentous fungi and yeastsYPXL/I is a protein interaction motif recognized by aspergillus PalA and its human homologue, AIP1/AlixpH signaling in human fungal pathogens: a new target for antifungal strategiesAmbient pH signalling in ascomycetous yeasts involves homologues of the Aspergillus nidulans genes palF and paIH.Genetic analysis of regulatory mutants affecting synthesis of extracellular proteinases in the yeast Yarrowia lipolytica: identification of a RIM101/pacC homologOrganization and dynamics of the Aspergillus nidulans Golgi during apical extension and mitosis.The abfB gene encoding the major alpha-L-arabinofuranosidase of Aspergillus nidulans: nucleotide sequence, regulation and construction of a disrupted strain.Aspergillus niger mstA encodes a high-affinity sugar/H+ symporter which is regulated in response to extracellular pH.NapA and NapB are the Aspergillus nidulans Nap/SET family members and NapB is a nuclear protein specifically interacting with importin alpha.Coordination of secondary metabolism and development in fungi: the velvet family of regulatory proteins.A fungal pH-responsive signaling pathway regulating Aspergillus adaptation and invasion into the cornea.pH regulation of gene expression in fungi.Effect of environmental pH on morphological development of Candida albicans is mediated via the PacC-related transcription factor encoded by PRR2.Partial nuclear pore complex disassembly during closed mitosis in Aspergillus nidulans.Neurospora crassa female development requires the PACC and other signal transduction pathways, transcription factors, chromatin remodeling, cell-to-cell fusion, and autophagy.Regulation of penicillin biosynthesis in filamentous fungi.pH regulation in Aspergillus and parallels with higher eukaryotic regulatory systems.Adaptation to environmental pH in Candida albicans and its relation to pathogenesis.Diverged binding specificity of Rim101p, the Candida albicans ortholog of PacC.Recent advances in the characterization of ambient pH regulation of gene expression in filamentous fungi and yeasts.Ambient pH gene regulation in fungi: making connections.Biosynthesis and uptake of siderophores is controlled by the PacC-mediated ambient-pH Regulatory system in Aspergillus nidulans.pH Response Pathways in Fungi: Adapting to Host-derived and Environmental Signals.Alkaline pH-induced up-regulation of the afp gene encoding the antifungal protein (AFP) of Aspergillus giganteus is not mediated by the transcription factor PacC: possible involvement of calcineurin.Specific DNA recognition by the Aspergillus nidulans three zinc finger transcription factor PacC.The optimization of penicillin biosynthesis in fungi.Regulatory genes in Aspergillus nidulans.On the mechanism by which alkaline pH prevents expression of an acid-expressed gene.pH signaling in Sclerotinia sclerotiorum: identification of a pacC/RIM1 homolog.Molecular cloning and transcriptional regulation of the Aspergillus nidulans xlnD gene encoding a beta-xylosidase.Regulation of the Aspergillus nidulans penicillin biosynthesis gene acvA (pcbAB) by amino acids: implication for involvement of transcription factor PACC.Opposite patterns of expression of two Aspergillus nidulans xylanase genes with respect to ambient pH.Specificity determinants of proteolytic processing of Aspergillus PacC transcription factor are remote from the processing site, and processing occurs in yeast if pH signalling is bypassed.Activation of the Aspergillus PacC zinc finger transcription factor requires two proteolytic steps.Rescue of Aspergillus nidulans severely debilitating null mutations in ESCRT-0, I, II and III genes by inactivation of a salt-tolerance pathway allows examination of ESCRT gene roles in pH signalling.On how a transcription factor can avoid its proteolytic activation in the absence of signal transduction.The Aspergillus PacC zinc finger transcription factor mediates regulation of both acid- and alkaline-expressed genes by ambient pH.Receptor-independent Ambient pH signaling by ubiquitin attachment to fungal arrestin-like PalF.pH regulation is a major determinant in expression of a fungal penicillin biosynthetic gene.
P921
Q24533241-4AE67368-5810-4350-9DD5-F56B6CB944CDQ24533246-F64D63AA-6CD5-4178-977B-BA9D0EC40BC5Q24554336-F453926C-ACF3-4805-8D05-1A90299471E2Q26830123-7D161826-770B-45F2-BB70-BC7E7FF43165Q27937755-4399AD6E-1B81-4D54-A235-63E6316DE32EQ28776779-F481A540-8A33-4B61-9899-632AD06E4104Q30490957-AF725805-2C7F-4F1E-AD86-71E352391515Q30675187-33BE9DB6-C201-4448-BC7D-355CC35A489DQ31035446-F8D0B8D8-0229-4766-993E-C76B365A8B7EQ33300037-16ECCB7D-9D9C-4550-96DF-79F7D23F98CAQ33351496-E582F4B0-361D-4275-A4D9-514EC4668913Q33845214-C4EFC463-B748-471F-9656-E8B2E9FB7485Q33987044-79907D8A-FFC8-4052-94E1-EA379BE0F260Q33993303-460C0BE7-007E-402C-B1ED-CAF3B663843CQ34370022-86F9AF88-78BF-4ACC-BFF8-4F6911F24D8AQ34379608-0309626C-913D-466B-A3ED-CC569DA39CDFQ34395754-A26723CA-129D-4B2A-9D5E-218A3B220391Q35102808-ECD22FAC-2401-4169-8080-A9CE904EDA30Q35159843-7B4348AC-9A33-4F2F-8654-C5D52135FD89Q35612423-7598589A-516D-4E3B-AF80-D27D55F43F6DQ35919866-283DB114-63AC-4821-81F0-A6FD4DB74C29Q37155104-7E985975-D05C-4887-A409-6C85BE727CEEQ37422152-017AC595-B5BD-4BBD-A93F-7269F83C0D95Q38025379-8B0B5F50-887E-4534-B80D-3E844B167007Q38321567-ADBF9385-CE7C-4955-9DD2-5BF44234161DQ38340995-46B19CB6-8D9B-4460-ABA9-3862209B88D6Q38548761-6976A5CE-CB7A-4434-90C6-0559F49FC9A0Q38622347-A0A2BF42-6F63-4145-9D3C-502A42A0FA18Q39452737-E2F09DBD-4362-4637-8E42-09BD34E3535DQ39489007-2DA7AA92-2657-49BD-AEDB-3CC960EDA830Q39560313-2AF21B78-8BFE-4F37-96C3-1E015E6C20B8Q39561218-3F9B5373-E211-4DBB-B9B0-33A167B0DCFFQ39564929-B9EE469C-A983-49C4-863D-635E88242D9AQ39610969-515CFD0C-6D2B-4078-A455-191D85664316Q39646881-95133223-751C-4244-8D5F-9CFB0B5B31CAQ39970278-D852174B-FAFD-4CC0-8BC4-AC0361022381Q40387120-2DA4C408-4466-48BA-99B7-84BBC485BF36Q40805816-DF9F8D18-AFB3-4020-B1FC-1C3A6FDB6E58Q40815046-1E029756-4C44-4205-89BD-0328AE96D5B6Q40874083-52FCA912-5B3A-4F15-BD1B-9F016F8843DB
P921
description
proteïne in AN2855-T
@nl
name
AN2855-T
@nl
C2H2 finger domain transcription factor
@en
type
label
AN2855-T
@nl
C2H2 finger domain transcription factor
@en
prefLabel
AN2855-T
@nl
C2H2 finger domain transcription factor
@en