Keyword search (4,163 papers available)

"candida albicans" Keyword-tagged Publications:

Title Authors PubMed ID
1 Otilonium Bromide Exhibits Potent Antifungal Effects by Blocking Ergosterol Plasma Membrane Localization and Triggering Cytotoxic Autophagy in Candida Albicans Zhen C; Wang L; Feng Y; Whiteway M; Hang S; Yu J; Lu H; Jiang Y; 38995235
BIOLOGY
2 Pitavastatin Calcium Confers Fungicidal Properties to Fluconazole by Inhibiting Ubiquinone Biosynthesis and Generating Reactive Oxygen Species Li W; Feng Y; Feng Z; Wang L; Whiteway M; Lu H; Jiang Y; 38929106
BIOLOGY
3 Antimicrobial photodynamic therapy against a dual-species cariogenic biofilm using a ruthenium-loaded resin-based dental material Leite ML; Comeau P; Aghakeshmiri S; Lange D; Rodrigues LKA; Branda N; Manso AP; 38395246
ENCS
4 A Systematic Evaluation of Curcumin Concentrations and Blue Light Parameters towards Antimicrobial Photodynamic Therapy against Cariogenic Microorganisms Comeau P; Manso A; 38140048
ENCS
5 Understanding Fluconazole Tolerance in Candida albicans: Implications for Effective Treatment of Candidiasis and Combating Invasive Fungal Infections Feng Y; Lu H; Whiteway M; Jiang Y; 37918789
BIOLOGY
6 Candida albicans exhibits heterogeneous and adaptive cytoprotective responses to anti-fungal compounds Dumeaux V; Massahi S; Bettauer V; Mottola A; Dukovny A; Khurdia SS; Costa ACBP; Omran RP; Simpson S; Xie JL; Whiteway M; Berman J; Hallett MT; 37888959
BIOLOGY
7 The Adr1 transcription factor directs regulation of the ergosterol pathway and azole resistance in Candida albicans Shrivastava M; Kouyoumdjian GS; Kirbizakis E; Ruiz D; Henry M; Vincent AT; Sellam A; Whiteway M; 37791798
BIOLOGY
8 A Small Molecule Inhibitor of Erg251 Makes Fluconazole Fungicidal by Inhibiting the Synthesis of the 14α-Methylsterols Lu H; Li W; Whiteway M; Wang H; Zhu S; Ji Z; Feng Y; Yan L; Fang T; Li L; Ni T; Zhang X; Lv Q; Ding Z; Qiu L; Zhang D; Jiang Y; 36475771
BIOLOGY
9 A Deep Learning Approach to Capture the Essence of Candida albicans Morphologies Bettauer V; Costa ACBP; Omran RP; Massahi S; Kirbizakis E; Simpson S; Dumeaux V; Law C; Whiteway M; Hallett MT; 35972285
BIOLOGY
10 Transcriptional Profiling of the Candida albicans Response to the DNA Damage Agent Methyl Methanesulfonate Feng Y; Zhang Y; Li J; Omran RP; Whiteway M; Feng J; 35886903
BIOLOGY
11 Genetic Screening of Candida albicans Inactivation Mutants Identifies New Genes Involved in Macrophage-Fungal Cell Interactions Godoy P; Darlington PJ; Whiteway M; 35450285
PERFORM
12 SAGA Complex Subunits in Candida albicans Differentially Regulate Filamentation, Invasiveness, and Biofilm Formation Rashid S; Correia-Mesquita TO; Godoy P; Omran RP; Whiteway M; 35350439
BIOLOGY
13 The zinc cluster transcription factor Rha1 is a positive filamentation regulator in Candida albicans Omran RP; Ramírez-Zavala B; Aji Tebung W; Yao S; Feng J; Law C; Dumeaux V; Morschhäuser J; Whiteway M; 34849863
PERFORM
14 Calcium-calcineurin signaling pathway in Candida albicans: A potential drug target Li W; Shrivastava M; Lu H; Jiang Y; 33989979
BIOLOGY
15 Signal-mediated localization of Candida albicans pheromone response pathway components Costa ACBP; Omran RP; Law C; Dumeaux V; Whiteway M; 33793759
PERFORM
16 Candida albicans targets that potentially synergize with fluconazole. Lu H, Shrivastava M, Whiteway M, Jiang Y 33587857
BIOLOGY
17 Loss of Arp1, a putative actin-related protein, triggers filamentous and invasive growth and impairs pathogenicity in Candida albicans. Yao S, Feng Y, Islam A, Shrivastava M, Gu H, Lu Y, Sheng J, Whiteway M, Feng J 33363697
BIOLOGY
18 Nucleotide Excision Repair Protein Rad23 Regulates Cell Virulence Independent of Rad4 in Candida albicans. Feng J, Yao S, Dong Y, Hu J, Whiteway M, Feng J 32075883
BIOLOGY
19 RNA sequencing reveals an additional Crz1-binding motif in promoters of its target genes in the human fungal pathogen Candida albicans. Xu H, Fang T, Omran RP, Whiteway M, Jiang L 31900175
BIOLOGY
20 The Genomic Landscape of the Fungus-Specific SWI/SNF Complex Subunit, Snf6, in Candida albicans. Tebbji F, Chen Y, Sellam A, Whiteway M 29152582
BIOLOGY
21 Chemogenomic Profiling of the Fungal Pathogen Candida albicans. Chen Y, Mallick J, Maqnas A, Sun Y, Choudhury BI, Côte P, Yan L, Ni TJ, Li Y, Zhang D, Rodríguez-Ortiz R, Lv QZ, Jiang YY, Whiteway M 29203491
BIOLOGY
22 MAP Kinase Regulation of the Candida albicans Pheromone Pathway. Rastghalam G, Omran RP, Alizadeh M, Fulton D, Mallick J, Whiteway M 30787119
BIOLOGY
23 The evolutionary rewiring of the ribosomal protein transcription pathway modifies the interaction of transcription factor heteromer Ifh1-Fhl1 (interacts with forkhead 1-forkhead-like 1) with the DNA-binding specificity element. Mallick J, Whiteway M 23625919
BIOLOGY
24 Mms21: A Putative SUMO E3 Ligase in Candida albicans That Negatively Regulates Invasiveness and Filamentation, and Is Required for the Genotoxic and Cellular Stress Response. Islam A, Tebbji F, Mallick J, Regan H, Dumeaux V, Omran RP, Whiteway M 30530734
PERFORM

 

Title:Loss of Arp1, a putative actin-related protein, triggers filamentous and invasive growth and impairs pathogenicity in Candida albicans.
Authors:Yao SFeng YIslam AShrivastava MGu HLu YSheng JWhiteway MFeng J
Link:https://www.ncbi.nlm.nih.gov/pubmed/33363697
DOI:10.1016/j.csbj.2020.11.034
Publication:Computational and structural biotechnology journal
Keywords:Actin-related proteinCandida albicansFilamentous growthInvasive growthNuclei separationPathogenicityRNA sequencingSpindle orientation
PMID:33363697 Category:Comput Struct Biotechnol J Date Added:2020-12-29
Dept Affiliation: BIOLOGY
1 Department of Pathogen Biology, School of Medicine, Nantong University, Nantong 226001, Jiangsu, China.
2 Nantong Health College of Jiangsu Province, Nantong 226010, Jiangsu, China.
3 Department of Biochemistry and Biophysics, University of Rochester Medical Center, Rochester 14642, NY, USA.
4 Biology Department, Concordia University, Montreal H4B 1R6, Quebec, Canada.

Description:

Loss of Arp1, a putative actin-related protein, triggers filamentous and invasive growth and impairs pathogenicity in Candida albicans.

Comput Struct Biotechnol J. 2020; 18:4002-4015

Authors: Yao S, Feng Y, Islam A, Shrivastava M, Gu H, Lu Y, Sheng J, Whiteway M, Feng J

Abstract

The polymorphous cellular shape of Candida albicans, in particular the transition from a yeast to a filamentous form, is crucial for either commensalism or life-threatening infections of the host. Various external or internal stimuli, including serum and nutrition starvation, have been shown to regulate filamentous growth primarily through two classical signaling pathways, the cAMP-PKA and the MAPK pathways. Genotoxic stress also induces filamentous growth, but through independent pathways, and little is known about negative regulation during this reversible morphological transition. In this study, we established that ARP1 in C. albicans, similar to its homolog in S. cerevisiae, has a role in nuclei separation and spindle orientation. Deletion of ARP1 generated filamentous and invasive growth as well as increased biofilm formation, accompanied by up-regulation of hyphae specific genes, such as HWP1, UME6 and ALS3. The filamentous and invasive growth of the ARP1 deletion strain was independent of transcription factors Efg1, Cph1 and Ume6, but was suppressed by deleting checkpoint BUB2 or overexpressing NRG1. Deletion of ARP1 impaired the colonization of Candida cells in mice and also attenuated virulence in a mouse model. All the data suggest that loss of ARP1 activates filamentous and invasive growth in vitro, and that it positively regulates virulence in vivo, which provides insight into actin-related morphology and pathogenicity in C. albicans.

PMID: 33363697 [PubMed]




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