sameAs
Proteomics of plant pathogenic fungiThe PITP family of phosphatidylinositol transfer proteins.Dead-box proteins: a family affair--active and passive players in RNP-remodelingScreening the yeast genome for new DNA-repair genes.Probing the yeast proteome for RNA-processing factorsTackling an essential problem in functional proteomics of Saccharomyces cerevisiaeLocalizing the proteomeThe E-cadherin/catenin complex: an important gatekeeper in breast cancer tumorigenesis and malignant progression.The p53 pathway in breast cancerRhesus factors and ammonium: a function in efflux?A tale of histone modifications.Functional genomics and metal metabolismVersatile biocatalysis of fungal cytochrome P450 monooxygenasesDNA damage tolerance by recombination: Molecular pathways and DNA structuresIn Vivo Transcriptional Profiling of Human Pathogenic Fungi during Infection: Reflecting the Real Life?The final cut: cell polarity meets cytokinesis at the bud neck in S. cerevisiaeHeterotrimeric G Protein-coupled Receptor Signaling in Yeast Mating Pheromone ResponseMicrobial 2-Cys Peroxiredoxins: Insights into Their Complex Physiological RolesMore than just trash bins? Potential roles for extracellular vesicles in the vertical and horizontal transmission of yeast prionsTowards the molecular mechanism of the integration of peroxisomal membrane proteinsAdaptations of the Secretome of Candida albicans in Response to Host-Related Environmental ConditionsProteases of Wood Rot Fungi with Emphasis on the Genus PleurotusReceptor-mediated mitophagy in yeast and mammalian systemsMicrobial enzymes: tools for biotechnological processesTOPping off meiosisDiversity of the biosynthesis pathway for threonylcarbamoyladenosine (t(6)A), a universal modification of tRNAThe flavoproteome of the yeast Saccharomyces cerevisiaePlants versus fungi and oomycetes: pathogenesis, defense and counter-defense in the proteomics eraDegradation-mediated protein quality control at the inner nuclear membraneWASP family proteins, more than Arp2/3 activatorsCross-stress resistance in Saccharomyces cerevisiae yeast--new insight into an old phenomenonEngineering enhanced protein disaggregases for neurodegenerative diseaseMembrane trafficking in the yeast Saccharomyces cerevisiae modelRegulatory roles of phosphorylation in model and pathogenic fungiRAD50, an SMC family member with multiple roles in DNA break repair: how does ATP affect function?A conserved role of the RSC chromatin remodeler in the establishment of nucleosome-depleted regions.Formin' the connection between microtubules and the cell cortexChitin deacetylases: properties and applications.Mechanisms Underlying the Essential Role of Mitochondrial Membrane Lipids in Yeast Chronological AgingSrs2: the "Odd-Job Man" in DNA repair.
P921
Q21296824-F0CA26E0-5F43-494C-8AF5-DD293DD00D9CQ24542543-B6AFC4BB-4F75-4832-A884-4BE20C8D5DCAQ24671865-06DDFEA3-7B3D-405C-A5C4-A8321273FF50Q24791574-A882FCA1-B649-40C8-B617-6CDD2210C5C2Q24792603-80EBA076-3F8E-4BB8-A93F-105AC92C436CQ24792632-3442AD2C-4DB1-4F69-BEF3-BC4CF7788AF1Q24793545-8FE0C6C0-F5A2-4ABD-B32B-1CC7AC8F9ACBQ24801633-4E1BF863-ABCC-4C8D-9980-04696F72D2F2Q24802349-BF6125E7-3FBC-48E1-81D7-FB1D6D76C50BQ24805275-225B0FAC-2508-48EE-8F83-0BFCBD71EF48Q24805396-E010B8FA-4E25-4317-B927-C64C2766AC42Q24806125-870E45D8-BA68-4D09-854A-1A363CC0CE23Q26739208-F6D4ED7C-FB36-4B6E-80B8-77F3900FF9EAQ26745490-26300B02-2BCF-4D93-A0A2-402EBFD456CAQ26748283-992228A0-6FF7-4CC7-BB18-65BC7AD7C6B8Q26753023-91F7CBB3-76BD-45D5-A433-435534451A95Q26767043-CDD21DE8-6906-4D46-B87C-A4371D98FFDFQ26774297-DD56022F-83B2-4982-87DB-62C72D3EC5A5Q26778300-C921BE14-6FD4-4A0E-92CC-21F65F2D2CC4Q26782406-53628C7F-8EBF-4F38-ACBF-708EDB58A8F0Q26785119-A440573C-043C-4C9F-BFC6-EC5F934F90BEQ26800284-47424B69-A800-46E4-9950-DDFE580B519DQ26821921-712F2D6C-68F2-44EB-A712-9EDF76151DB7Q26827731-5D7F4C3A-BAF1-4201-B6F2-E2CB39D10930Q26998667-8268591C-548B-4FA9-A65E-5FE3CF526595Q27009453-585F87A3-18D2-4C76-B1C7-3FFCD721CDCEQ27021669-22D6B867-67E7-48C9-974D-7BB0047E1F33Q27022838-876FB432-95A5-49B2-ABF4-4616FB41125BQ28066166-F1DED42E-A49E-43FB-9989-68A06081BA4CQ28072805-F051D065-F7DD-48FE-9657-ED6BF0583597Q28073348-D610E488-8F69-4BC2-81DA-46D2E4D1E33CQ28083809-F87C712F-283E-4B9F-99CA-A8ED15056A7CQ28084192-4EC12CAA-6D64-43E2-8962-4C1044090F8BQ28087413-D2AF6485-59D2-4316-B63B-A86744A53C76Q28239071-FF75643D-1C5A-4545-9FB2-EFDC46AF3D56Q30392202-0EF89490-CB68-4159-BE5E-B998B1231C46Q33543250-F936BD11-12CB-4192-B524-66B411A72C83Q33635490-85E333C1-DDF8-4CC8-8558-436466B84C8CQ33737685-D7F1B6B4-D4E4-4EF7-9BE8-DEEE1FB8FBBEQ33754225-F68E4CE4-369F-4A81-8719-3588BCB7E190
P921
description
mycoprotein
@en
name
Micoproteina
@it
Micoproteína
@es
Mikoprotein
@id
Mikoprotein
@jv
Mycoprotein
@en
Mycoproteïne
@nl
Mycoprotéine
@fr
マイコプロテイン
@ja
type
label
Micoproteina
@it
Micoproteína
@es
Mikoprotein
@id
Mikoprotein
@jv
Mycoprotein
@en
Mycoproteïne
@nl
Mycoprotéine
@fr
マイコプロテイン
@ja
altLabel
Mycoproteine
@nl
fungal protein
@en
fungal proteins
@en
prefLabel
Micoproteina
@it
Micoproteína
@es
Mikoprotein
@id
Mikoprotein
@jv
Mycoprotein
@en
Mycoproteïne
@nl
Mycoprotéine
@fr
マイコプロテイン
@ja
P486
P6366
P646
P672
P279
P3417
Mycoprotein
P486
P6366
P646
P672
D12.776.354