about
P688
Long-oligomer microarray profiling in Neurospora crassa reveals the transcriptional program underlying biochemical and physiological events of conidial germination.A highly conserved mechanism of regulated ribosome stalling mediated by fungal arginine attenuator peptides that appears independent of the charging status of arginyl-tRNAs.Physical evidence for distinct mechanisms of translational control by upstream open reading framesReconstruction and validation of a genome-scale metabolic model for the filamentous fungus Neurospora crassa using FARMChromosomal loci of Neurospora crassa.Pseudo-Wild Types in Neurospora CrassaThe evolutionarily conserved eukaryotic arginine attenuator peptide regulates the movement of ribosomes that have translated it.Transcriptional profiling and functional analysis of heterokaryon incompatibility in Neurospora crassa reveals that reactive oxygen species, but not metacaspases, are associated with programmed cell death.A UV-induced mutation in neurospora that affects translational regulation in response to arginine.The arginine attenuator peptide interferes with the ribosome peptidyl transferase center.Sequence requirements for ribosome stalling by the arginine attenuator peptide.Systems analysis of plant cell wall degradation by the model filamentous fungus Neurospora crassaRole of an upstream open reading frame in mediating arginine-specific translational control in Neurospora crassa.Transcriptional profiling of cross pathway control in Neurospora crassa and comparative analysis of the Gcn4 and CPC1 regulonsControl of the ornithine cycle in Neurospora crassa by the mitochondrial membrane.Translational regulation in response to changes in amino acid availability in Neurospora crassa.Ribosome stalling is responsible for arginine-specific translational attenuation in Neurospora crassaArginine changes the conformation of the arginine attenuator peptide relative to the ribosome tunnelThe transcriptional response to nonself in the fungus Podospora anserinaCompartmental and regulatory mechanisms in the arginine pathways of Neurospora crassa and Saccharomyces cerevisiae.Early colony establishment in Neurospora crassa requires a MAP kinase regulatory network.A nascent polypeptide domain that can regulate translation elongation.A PARTIAL MAP OF LINKAGE GROUP D IN NEUROSPORA CRASSA.Chromosome rearrangements in Neurospora and other filamentous fungi.Evolutionary changes in the fungal carbamoyl-phosphate synthetase small subunit gene and its associated upstream open reading frame.Evolutionarily conserved features of the arginine attenuator peptide provide the necessary requirements for its function in translational regulation.The Neurospora crassa arg-2 locus. Structure and expression of the gene encoding the small subunit of arginine-specific carbamoyl phosphate synthetase.Arginine-specific regulation mediated by the Neurospora crassa arg-2 upstream open reading frame in a homologous, cell-free in vitro translation system.SOME CARBON-DIOXIDE REQUIRING MUTANTS OF NEUROSPORA CRASSAMetabolite distribution in cellsIndependent localization and regulation of carbamyl phosphate synthetase A polypeptides of Neurospora crassa
P921
Q24817128-A4FC82DB-3357-42CA-BDED-D4A864D1D4A6Q27937448-C5ADFB52-F64E-4C9C-AFFF-334FB707C692Q28364051-4E4148F8-D953-4041-BEC0-E8D06F88C2E0Q28535020-93B2B4C8-84A4-4AFF-B304-E4E7F513532CQ33627185-48404ADA-7771-41C5-ADEF-74FCB8EA9AF6Q33712606-A171D6B9-A1C5-4888-9823-B49A51B7E26CQ33781826-380C8497-84DB-4F3A-B0C1-B757E20E9E85Q33928881-3A7FFE21-6579-45A6-A5CD-03600601DE78Q33966467-06F3E503-0E6D-4CEC-BA1B-8244BA683133Q34031513-89A0EDF7-88C6-413A-98B1-EABA53DB74E9Q34412752-AC98C369-72F5-438D-A223-5AACB94E2FD0Q34614986-D10259F2-471D-4B18-836C-A0968E0A7B49Q35605195-06B38AC7-D3D9-4FD7-B76C-F83A77A23860Q35948280-E4C69D79-FDC1-46E2-A243-AEB8DAD96317Q36329713-C67AC748-5DD5-4B05-9025-20841EC0C07DQ36554952-57D372ED-2A69-40B4-B88D-63EEECB81CC1Q36571016-D1B8BAF1-8FDE-4F1E-A517-BB16B25E934DQ36600266-785CCD57-6F73-4613-A28E-D11B25B57AECQ36947234-CE94C379-D795-4E3D-8730-56B999B48845Q37062753-B45EF616-44E6-4721-8AC5-968DCF6D3B72Q37269829-886CF9CE-22DE-40FB-9D4E-6296536A8D4EQ37356413-2E2F2D8D-DB7C-4E1E-80EF-97BFE14CA181Q37685186-85CFAE29-FFD6-4CB5-B512-1102F2B84F20Q41625199-BE0FC2E9-0419-4B12-8B50-D91B9B631EB0Q42598433-F2315957-D16F-4195-A82D-6AAD646E0E68Q42626661-589C14DB-2B7C-4BB6-ACA0-B6B1C800A695Q42630931-C92CB5D0-5298-489B-ACC8-B42845263FBAQ42647941-D746CD00-47E0-492C-828F-7DD5C08B9B39Q62968668-FB24C371-2261-4AF9-A3AC-1A5C61D5BFE7Q62970499-C7AAD782-E277-4749-A760-5CE038CB65C8Q63014208-4743686E-339E-4FB3-A36F-D503696F6492
P921
description
fungal protein found in Neurospora crassa OR74A
@en
proteïne in NCU07732-t26_2
@nl
name
NCU07732-t26_2
@nl
carbamoyl-phosphate synthase small subunit, variant 1
@en
type
label
NCU07732-t26_2
@nl
carbamoyl-phosphate synthase small subunit, variant 1
@en
prefLabel
NCU07732-t26_2
@nl
carbamoyl-phosphate synthase small subunit, variant 1
@en
P279
P31
P3382
NCU07732-t26_2