about
Candida albicans possesses Sap7 as a pepstatin A-insensitive secreted aspartic proteaseComprehensive characterization of secreted aspartic proteases encoded by a virulence gene family in Candida albicans.Oral Immunization Against Candidiasis Using Lactobacillus casei Displaying Enolase 1 from Candida albicansIntegrating reductive and synthetic approaches in biology using man-made cell-like compartments.Kinin release from human kininogen by 10 aspartic proteases produced by pathogenic yeast Candida albicansInactivation of the antifungal and immunomodulatory properties of human cathelicidin LL-37 by aspartic proteases produced by the pathogenic yeast Candida albicans.Centrifugal microfluidic platform for single-cell level cardiomyocyte-based drug profiling and screening.Next generation of antimicrobial peptides as molecular targeted medicines.Biodefense-new stage in the molecular controlling of immune system.Biochemical analysis and application of molecular display technology on Candida albicans for diagnosing and preventing candidiasis.Transcriptome and proteome analyses provide insight into laticifer's defense of Euphorbia tirucalli against pests.A comparative proteomics study of a synovial cell line stimulated with TNF-α.Pinpoint Chemical Modification of the Quinone-Access Channel of Mitochondrial Complex I via a Two-Step Conjugation Reaction.Ammonia production from amino acid-based biomass-like sources by engineered Escherichia coli.Inactivation of α1-proteinase inhibitor by Candida albicans aspartic proteases favors the epithelial and endothelial cell colonization in the presence of neutrophil extracellular traps.The action of ten secreted aspartic proteases of pathogenic yeast Candida albicans on major human salivary antimicrobial peptide, histatin 5.Inactivation of human kininogen-derived antimicrobial peptides by secreted aspartic proteases produced by the pathogenic yeast Candida albicans.Description of the interaction between Candida albicans and macrophages by mixed and quantitative proteome analysis without isolation.Characterization of Antimicrobial Peptides toward the Development of Novel Antibiotics.Aspartic Proteases and Major Cell Wall Components in Candida albicans Trigger the Release of Neutrophil Extracellular Traps.An oral vaccine against candidiasis generated by a yeast molecular display system.Elucidation of potentially virulent factors of Candida albicans during serum adaptation by using quantitative time-course proteomics.Secreted aspartic peptidases of Candida albicans liberate bactericidal hemocidins from human hemoglobin.Cell-surface modification of non-GMO without chemical treatment by novel GMO-coupled and -separated cocultivation method.Epoxycyclohexenedione-type Compounds are a New Class of Inhibitors of the Bovine Mitochondrial ADP/ATP Carrier.Metabolite profiling of the fermentation process of "yamahai-ginjo-shikomi" Japanese sake.Folate Biofortification in Hydroponically Cultivated Spinach by the Addition of Phenylalanine.Molecular changes in appearance of a cancer cell among normal HEK293T cells.High-throughput screening of improved protease inhibitors using a yeast cell surface display system and a yeast cell chip.Specific Methylation of Asp160 (49 kDa subunit) Located inside the Quinone Binding Cavity of Bovine Mitochondrial Complex I.Comparative multi-omics analysis reveals diverse latex-based defense strategies against pests among latex-producing organs of the fig tree (Ficus carica).Reduction of Synthetic Ubiquinone QT Catalyzed by Bovine Mitochondrial Complex I Is Decoupled from Proton Translocation.High-throughput evaluation of T7 promoter variants using biased randomization and DNA barcoding.Molecular and Physiological Study of by Quantitative Proteome AnalysisDetection of betacyanin in red-tube spinach (Spinacia oleracea) and its biofortification by strategic hydroponicsSmall RNAs detected in exosomes derived from the MH7A synovial fibroblast cell line with TNF-α stimulationPeptide barcoding for establishment of new types of genotype-phenotype linkagesProfiling of adhesive properties of the agglutinin-like sequence (ALS) protein family, a virulent attribute of Candida albicansDetection of Candida albicans by using a designed fluorescence-quenched peptideEvaluation of Mdh1 protein as an antigenic candidate for a vaccine against candidiasis
P50
Q28481265-1C3CD6C4-06BD-4EB7-897F-FC8722474106Q33924990-C718D89B-B9D6-446F-8E16-0B35D993AEDAQ35052906-BD0A5D97-6DAC-4F70-8180-CAA01AE0D192Q35150422-58AFBACE-92AC-4076-9109-3CEF3CE865CAQ35603104-C3E468BF-2E4A-40FC-8DBC-33CEBCFFBE24Q35609334-ABF89D31-7F27-46BE-A268-1E40C14B7BDDQ35717303-D01FC811-5B8F-4D9A-A280-9CA6BEB2FEE6Q38015603-4FA21C36-FC5B-447D-9BD3-A3A8D30B7E5BQ38159903-DABDA44B-1F15-4455-BB27-5F1F6149A279Q38159904-3A8ECC4C-D570-43CD-8399-C9083D33572BQ38441684-3EEAC04B-DFE8-4B19-999A-A134EB0001C9Q38444823-A672F635-7653-4149-84BB-C6FCCB6A3FB0Q38679352-0B98F211-3573-4EE8-8C2B-C1CEDFEBD52AQ38692433-786EC288-EA1F-4C4D-AAD9-2DFA34A917D7Q38814027-BF07C091-A8A9-4470-AF78-0CFCCC88BBF5Q39622152-3C0B81A4-59FA-43DD-B403-537A32EB80A7Q40560073-D52532E0-CAC4-4EB1-87D8-FE5C39FCA315Q41690473-BB497DD8-1FA0-475C-AEBB-EB6C7D495658Q41869149-EC3B9FF1-2C02-4E3D-9379-F193AB5320C8Q42098852-01F34E23-F83C-4B1E-AD24-F3233839791DQ42254273-EEA07110-CBDA-49C9-9C15-879AA987027CQ42613963-790FBA2D-B8CD-4904-96ED-FEE370A58A14Q46798543-DF054B39-5632-48C3-91E8-E49A5BD7788AQ47211306-A704A07B-BD0D-454C-8101-7F38C63D01F1Q47219528-D51DDFE0-7FE3-4BB5-8AB2-FD749832E72CQ47245623-5BEFD5C0-2DAF-4BE6-9F56-7CE5ADA66318Q48369375-4C57A5AE-AA17-4851-AB61-8DF2449C6D3DQ51365627-AF61451A-590D-432C-BDA6-36A55880ADF1Q51554958-37159832-3488-47F5-A841-47AC7656B9B3Q52868001-BA805C2A-13C1-4D06-8E9D-87D34A7B1342Q52879529-FC7E14EE-6681-45B0-B731-026CA3401A5FQ52893014-2F0BCDB4-F7A2-4952-BEE2-4B13B690C5A8Q53284083-A6BF3B66-E9DF-4F07-9DFE-0CAA3A4B6210Q58723623-1D99D650-2EFA-4C03-92C9-5EB2ABC56514Q58759925-7E3E88ED-B9B8-4EDF-9C87-EEABD07B9A27Q58791358-FC4E1CDA-464F-4FC7-830C-D1EAE5EB2A03Q64098172-D4C8E2E4-3869-4095-B692-601808DA645FQ83414392-A9AF2D05-90A7-41A7-AF13-9A46F40BB412Q86896005-3EC5ED00-F20E-4A16-A8CB-A9F4D76BB2ECQ87523904-FE9AD92E-7F88-47DB-A34B-53F138F22909
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Wataru Aoki
@ast
Wataru Aoki
@en
Wataru Aoki
@es
Wataru Aoki
@nl
type
label
Wataru Aoki
@ast
Wataru Aoki
@en
Wataru Aoki
@es
Wataru Aoki
@nl
prefLabel
Wataru Aoki
@ast
Wataru Aoki
@en
Wataru Aoki
@es
Wataru Aoki
@nl
P106
P31
P496
0000-0002-3118-9390