about
P688
Low genetic variation and no detectable population structure in aspergillus fumigatus compared to closely related Neosartorya speciesDiscovery of a sexual cycle in Aspergillus lentulus, a close relative of A. fumigatusIdentification and characterization of an Aspergillus fumigatus "supermater" pairComparative analysis of programmed cell death pathways in filamentous fungiSexual development and cryptic sexuality in fungi: insights from Aspergillus speciesGenetic Analysis Using an Isogenic Mating Pair of Aspergillus fumigatus Identifies Azole Resistance Genes and Lack of MAT Locus's Role in VirulenceDiscovery of a sexual cycle in the opportunistic fungal pathogen Aspergillus fumigatus.A fungal sexual revolution: Aspergillus and Penicillium show the way.Sexual reproduction in Aspergillus species of medical or economical importance: why so fastidious?Sexual reproduction and the evolution of microbial pathogens.Sex and virulence of human pathogenic fungi.Double-stranded RNA mycovirus infection of Aspergillus fumigatus is not dependent on the genetic make-up of the host.Mating type gene homologues in Aspergillus fumigatus.DNA sequence characterization and molecular evolution of MAT1 and MAT2 mating-type loci of the self-compatible ascomycete mold Neosartorya fischeri.Fungal genomics: forensic evidence of sexual activity.Mating type protein Mat1-2 from asexual Aspergillus fumigatus drives sexual reproduction in fertile Aspergillus nidulans.Fungal sex and pathogenesisExtracellular DNA release acts as an antifungal resistance mechanism in mature Aspergillus fumigatus biofilms.Conserved regulators of mating are essential for Aspergillus fumigatus cleistothecium formationVirulence in an insect model differs between mating types in Aspergillus fumigatus.Multilocus sequence typing of the pathogenic fungus Aspergillus fumigatus.Characterization of multiple isolates of Aspergillus fumigatus from patients: genotype, mating type and invasiveness.Aspergillus genomes: secret sex and the secrets of sex.Evidence for sexuality in the opportunistic fungal pathogen Aspergillus fumigatus.Polyclonal Aspergillus fumigatus infection in captive penguins.Mating type and invasiveness are significantly associated in Aspergillus fumigatusGenomic evidence for mating abilities in the asexual pathogen Aspergillus fumigatus
P921
Q24547650-F8649D0D-F3D4-4CF3-89DC-7D880D6D940CQ24605723-C495807B-BAD2-4F24-99ED-6A6C02F99FECQ24633824-A1A53E56-3188-4A2D-AC88-572F3FDB0DA9Q25255138-7D32E548-C0CE-424A-BE7E-D433E4A19B44Q28253241-7A8B109F-9DC9-4DE5-A17A-259023023017Q28546712-70D347A0-E467-4E3D-80B4-8DB44CFA0B95Q34014893-34AFDC79-EFA7-4434-8F45-8DAC96409E4AQ34029200-3B5AB7C5-1A6F-4956-9F4C-C993D30B3AB4Q34083424-722AE584-7E57-4BF9-94CD-1B34B2228C28Q34562954-88F26320-C56E-41EC-9AA7-E1096A07EA0BQ34577438-5149BD05-BAC8-4296-9824-57FB51EF8BD5Q35027734-F7156658-C484-4D94-AD7D-D943A6FF24B2Q35103700-6FCD6018-1A71-499D-A09B-8B058A37FEAAQ35855084-79CB0021-D34E-47B7-8637-C099D77AF431Q36187562-969BB279-25FE-4B1B-B218-D6EF185A7BBFQ36746983-F374B57D-B205-4B50-8647-131DFEFB676BQ37672042-4994D1CE-AF48-42F8-80CF-40B11E1CFCF9Q39932219-5ABFC6C3-75D6-45D2-AE1E-9974E6011C94Q40346586-71AD4FF2-A5C6-4072-B4F8-83D2170596D0Q42019814-5061D840-0E33-4487-9F6B-FE4FB8407FC8Q42110727-25B3D87A-E2CB-461B-9971-51CDA87176C5Q44593058-BA9F483A-259B-46AA-BCF3-41CE71F2A658Q44845648-3C8BA7FC-4AC6-43BD-81F3-EE1909F88846Q47766935-D92DEB3B-C7FC-4E0A-889E-CD2A1B9BA0F7Q48367465-E8EAFE88-83FF-4F52-BCD0-13A1CE6D58D2Q61530020-D0517E4E-F69B-42AD-A1C9-900CB8216883Q61530025-27C3A767-26EA-45FC-805C-AF18D0C8F7D7
P921
description
protein
@id
proteïne in Afu3g06170-T
@nl
protèin
@ace
name
Afu3g06170-T
@nl
HMG box mating-type transcription factor
@en
type
label
Afu3g06170-T
@nl
HMG box mating-type transcription factor
@en
altLabel
AFUA_3G06170
@en
CADAFUAG00005478
@en
MTLa-1
@en
prefLabel
Afu3g06170-T
@nl
HMG box mating-type transcription factor
@en
P682
P279
P31
P3382
Afu3g06170-T