Brynne C Stanton

Overview

Explore the profile of Brynne C Stanton including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 8

Citations 470

Followers 0

Related Specialties

Molecular Biology

Microbiology

Biotechnology

Top 10 Co-Authors

Christina M Hull

Christopher A Voigt

Emilia K Kruzel

Alvin Tamsir

Steven S Giles

Kevin Clancy

Liliana Wroblewska

Matthew E Mead

Aseem Z Ansari

Chunbo Lou

Published In

Mol Microbiol

ACS Synth Biol

Eukaryot Cell

Nature

PLoS Genet

Affiliations

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Recent Articles

Targets of the Sex Inducer homeodomain proteins are required for fungal development and virulence in Cryptococcus neoformans

Mead M, Stanton B, Kruzel E, Hull C

Mol Microbiol . 2014 Dec; 95(5):804-18. PMID: 25476490

In the yeast Saccharomyces cerevisiae, the regulation of cell types by homeodomain transcription factors is a key paradigm; however, many questions remain regarding this class of developmental regulators in other...

Systematic transfer of prokaryotic sensors and circuits to mammalian cells

Stanton B, Siciliano V, Ghodasara A, Wroblewska L, Clancy K, Trefzer A, et al.

ACS Synth Biol . 2014 Nov; 3(12):880-91. PMID: 25360681

Prokaryotic regulatory proteins respond to diverse signals and represent a rich resource for building synthetic sensors and circuits. The TetR family contains >10(5) members that use a simple mechanism to...

Genomic mining of prokaryotic repressors for orthogonal logic gates

Stanton B, Nielsen A, Tamsir A, Clancy K, Peterson T, Voigt C

Nat Chem Biol . 2013 Dec; 10(2):99-105. PMID: 24316737

Genetic circuits perform computational operations based on interactions between freely diffusing molecules within a cell. When transcription factors are combined to build a circuit, unintended interactions can disrupt its function....

The First Annual Winter q-bio Meeting: quantitative biology on the Hawaiian Islands

Prindle A, Stanton B

ACS Synth Biol . 2013 May; 2(4):170-2. PMID: 23656474

No abstract available.

Genetic programs constructed from layered logic gates in single cells

Moon T, Lou C, Tamsir A, Stanton B, Voigt C

Nature . 2012 Oct; 491(7423):249-53. PMID: 23041931

Genetic programs function to integrate environmental sensors, implement signal processing algorithms and control expression dynamics. These programs consist of integrated genetic circuits that individually implement operations ranging from digital logic...

Allelic exchange of pheromones and their receptors reprograms sexual identity in Cryptococcus neoformans

Stanton B, Giles S, Staudt M, Kruzel E, Hull C

PLoS Genet . 2010 Mar; 6(2):e1000860. PMID: 20195516

Cell type specification is a fundamental process that all cells must carry out to ensure appropriate behaviors in response to environmental stimuli. In fungi, cell identity is critical for defining...

Cognate Site Identifier analysis reveals novel binding properties of the Sex Inducer homeodomain proteins of Cryptococcus neoformans

Stanton B, Giles S, Kruzel E, Warren C, Ansari A, Hull C

Mol Microbiol . 2009 Jun; 72(6):1334-47. PMID: 19486297

Homeodomain proteins function in fungi to specify cell types and control sexual development. In the meningoencephalitis-causing fungal pathogen Cryptococcus neoformans, sexual development leads to the production of spores (suspected infectious...

Sexual development in Cryptococcus neoformans requires CLP1, a target of the homeodomain transcription factors Sxi1alpha and Sxi2a

Ekena J, Stanton B, Schiebe-Owens J, Hull C

Eukaryot Cell . 2007 Nov; 7(1):49-57. PMID: 17993575

Sexual development in the human fungal pathogen Cryptococcus neoformans is a multistep process that results in the formation of spores, the likely infectious particles. A critical step in this developmental...