Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | Candida albicans | TXT | ||||||
GSE262764 |
The spliceosome impacts morphogenesis in the human fungal pathogen Candida albicans.
|
21 |
|
Lydia Herzel | May 28, 2024 | |||
GSE263609 |
Candida albicans PPG1, a serine/threonine phosphatase, plays a vital role in central carbon metabolisms under filament-inducing conditions: A multi-omics approach
|
8 | Andre Sanches Barreiros | Apr 10, 2024 | ||||
GSE199421 |
A highly conserved tRNA modification contributes to C. albicans filamentation and virulence
|
12 | Sebastian Andreas Leidel | Apr 04, 2024 | ||||
GSE245114 |
Manganese homeostasis modulates fungal virulence and stress tolerance in Candida albicans
|
12 | Adnane Sellam | Feb 13, 2024 | ||||
GSE249927 |
Identification of genes regulated by the transcription factor RFX1 (CR_06110C) in the yeast Candida albicans
|
6 | Jose Christian Perez | Dec 15, 2023 | ||||
GSE245897 |
Filamentation and Biofilm Formation are Regulated by the Phase-Separation Capacity of Network Transcription Factors in Candida albicans
|
12 |
|
Collin Ganser | Nov 20, 2023 | |||
GSE199422 |
Ncs2* mediates in vivo virulence of pathogenic yeast through sulphur modification of cytoplasmic transfer RNA
|
12 | Sebastian Andreas Leidel | Sep 05, 2023 | ||||
GSE238051 |
The Candida albicans reference strain SC5314 contains a rare, dominant allele of the transcription factor Rob1 that modulates biofilm formation and oral commensalism
|
12 | Damian Joseph Krysan | Jul 29, 2023 | ||||
GSE217461 |
Inferring gene regulatory networks via transcriptional profiles as associated dynamical attractors
|
51 | Ruihao Li | Jun 23, 2023 | ||||
GSE209608 |
Next generation sequencing facilitates quantitative analysis of transcriptional profiling of Candida albicans SC5314 with H55 treatment or not.
|
6 | Xueyang Jin | May 18, 2023 | ||||
GSE227654 |
The Rfg1 and Bcr1 transcription factors regulate acidic pH-induced filamentous growth in Candida albicans
|
4 | Guobo Guan | Mar 24, 2023 | ||||
GSE206208 |
Transcriptomic regulation of acidic biofilms by Candida albicans Sfl1
|
6 | Ana Soares | Mar 03, 2023 | ||||
GSE165326 |
Candida albicans: control vs. alpha1-antitrypsin (AAT) treatment
|
8 | Mark S. Gresnigt | Jan 01, 2023 | ||||
GSE217094 |
Multiple genes of Candida albicans influencing echinocandin susceptibility in caspofungin-adapted mutants
|
15 | Soumyaroop Bhattacharya | Nov 05, 2022 | ||||
GSE200778 |
A computational workflow for the analysis of 3’ Tag-Seq data
|
4 | Clarissa Jane Nobile | Oct 13, 2022 | ||||
GSE184807 |
Transcriptomic characterization of Candida albicans in response to Aureobasidin treatment in vitro.
|
6 |
|
Sun Tee Tay | Sep 30, 2022 | |||
GSE207072 |
Functional Portrait of Irf1 (Orf19.217), a Regulator of Morphogenesis and Iron Homeostasis in Candida albicans [RNA-Seq]
|
18 | Lasse van Wijlick | Jul 01, 2022 | ||||
GSE137530 |
Next generation sequencing facilitates quantitative analysis of transcriptional profiling of Candida albicans wild type and cys4 mutant strains
|
9 |
|
Wenqiang Chang | Jun 01, 2022 | |||
GSE201904 |
Design principles and applications of a CRISPR activation system for facile genetic overexpression in Candida albicans
|
6 | Rebecca S Shapiro | May 03, 2022 | ||||
GSE188886 |
Streptococcus mutans suppresses filamentous growth of Candida albicans through secreting mutanocyclin, an unacylated tetramic acid
|
4 | LI TAO | Mar 31, 2022 |