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GEO help: Mouse over screen elements for information. |
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| Status |
Public on Feb 07, 2017 |
| Title |
Illumina MiSeq (Candida albicans) |
| Technology type |
high-throughput sequencing |
| Distribution |
virtual |
| Organism |
Candida albicans |
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| Submission date |
Feb 07, 2017 |
| Last update date |
Feb 07, 2017 |
| Contact name |
GEO |
| Country |
USA |
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| Samples (125)
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GSM2479669, GSM2479670, GSM2479671, GSM2479672, GSM2479673, GSM2479674
GSM2479675, GSM2479676, GSM2479677, GSM2479678, GSM2479679, GSM2479680, GSM3038538, GSM3038539, GSM3038540, GSM3038541, GSM3038542, GSM3038543, GSM3038544, GSM3038545, GSM3038546, GSM3038547, GSM3038548, GSM3427854, GSM3427855, GSM3427856, GSM3427857, GSM3430651, GSM3496057, GSM3496058, GSM3496059, GSM3496060, GSM3579221, GSM3579222, GSM3579223, GSM3579224, GSM3579225, GSM3579226, GSM3579227, GSM3579228, GSM3579229, GSM3579230, GSM3579231, GSM3579232, GSM3579233, GSM3579234, GSM3579235, GSM3579236, GSM3579237, GSM3579238, GSM3579239, GSM3579240, GSM3579241, GSM3579242, GSM3579243, GSM3579244, GSM3579245, GSM3579246, GSM3579247, GSM3579248, GSM3638992, GSM3638993, GSM3638994, GSM3638995, GSM3638996, GSM3638997, GSM4275091, GSM4275092, GSM4275093, GSM4275094, GSM4787779, GSM4787780, GSM4787781, GSM4787782, GSM4787783, GSM4787784, GSM4944164, GSM4944165, GSM4944166, GSM4944167, GSM4944168, GSM4944169, GSM5823401, GSM5823402, GSM5823403, GSM5823404, GSM5823405, GSM5823406, GSM5823407, GSM5823408, GSM5823409, GSM5823410, GSM5866399, GSM5866400, GSM5866401, GSM5866402, GSM5911579, GSM5911580, GSM5911581, GSM5911582, GSM5911583, GSM5911584, GSM5911585, GSM5911586, GSM5911587, GSM5911588, GSM5911589, GSM6943568, GSM6943569, GSM6943570, GSM6943571, GSM6943572, GSM6943573, GSM6943574, GSM6943575, GSM6943576, GSM6943577, GSM6943578, GSM6943579, GSM8243252, GSM8243253, GSM8243254, GSM8243255, GSM8243256, GSM8243257
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| Series (17)
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| GSE94627 |
A phylogenetic framework to study the evolution of transcriptional regulatory networks [RNA-Seq] |
| GSE94628 |
A phylogenetic framework to study the evolution of transcriptional regulatory networks |
| GSE111731 |
Revealing parallel host-pathogen transcriptional dynamics using sorted subpopulations and single, Candida albicans infected macrophages |
| GSE121210 |
Transcriptional profiling of Mms21 deleted (mms21Δ/Δ) mutant Candida albicans strains |
| GSE121271 |
High throughput gene expression profiling of yeast colonies with microgel-culture Drop-seq |
| GSE123122 |
Transcript levels of genes in both the wild type SN148 and the crz1/crz1 mutant with or without 0.2M CaCl2 treatment |
| GSE125636 |
Transcriptional profiling of CAI4 (Wild-type), cpp1Δ/Δ, cek1Δ/Δ, cek2Δ/Δ, cpp1Δ/Δ cek1Δ/Δ, cpp1Δ/Δ cek2Δ/Δ and cek1Δ/Δ cek2Δ/Δ strains in the absence or presence of alpha pheromone in Candida albicans |
| GSE127796 |
Screening of Candida albicans GRACE library revealed a unique pattern of biofilm construction under repression of the essential gene ILS1 |
| GSE143825 |
The zinc cluster transcription factor Rha1 is a positive filamentation regulator in Candida albicans |
| GSE158062 |
The Candida albicans MEKK Ste11 has both structural and enzymatic functions in opaque cells under pheromone stimulation |
| GSE162171 |
Modulation of the complex regulatory network for methionine biosynthesis in fungi |
| GSE193907 |
SAGA Complex Subunits in Candida albicans Differentially Regulate Filamentation, Invasiveness and Biofilm Formation |
| GSE196244 |
Transcriptional profiling of the Candida albicans response to the DNA damage stressing agent methyl methanesulfonate |
| GSE197249 |
Transcriptomic profiles of Candida albicans grown in the presence or absence of mucins |
| GSE223216 |
Differential gene expression in the grf10Δ mutant of Candida albicans in rich growth medium |
| GSE223218 |
Grf10 regulates the response to copper, iron, and phosphate in Candida albicans. |
| GSE266247 |
Functional genomic analysis of genes important for Candida albicans fitness in diverse environmental conditions |
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| Supplementary data files not provided |
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