Brittany Cain

Overview

Explore the profile of Brittany Cain including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 8

Citations 52

Followers 0

Related Specialties

Biochemistry

Biology

Cell Biology

Top 10 Co-Authors

Brian Gebelein

Rhett A Kovall

Joseph Salomone

Zhenyu Yuan

Edward Farrow

Shenyue Qin

Ellen K Gagliani

Jordan A Webb

Kenneth Campbell

Emma Schoch

Published In

Nucleic Acids Res

Development

PLoS Genet

bioRxiv

Elife

Affiliations

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Recent Articles

Modelling a pathological GSX2 variant that selectively alters DNA binding reveals hypomorphic mouse brain defects

Tweedie L, Tweedie L, Riccetti M, Riccetti M, Cain B, Cain B, et al.

Dis Model Mech . 2025 Jan; 18(2). PMID: 39882631

Gsx2 is a homeodomain transcription factor critical for development of the ventral telencephalon and hindbrain in mouse. Loss of Gsx2 function results in severe basal ganglia dysgenesis and defects in...

Cooperative Gsx2-DNA binding requires DNA bending and a novel Gsx2 homeodomain interface

Webb J, Farrow E, Cain B, Yuan Z, Yarawsky A, Schoch E, et al.

Nucleic Acids Res . 2024 Jun; 52(13):7987-8002. PMID: 38874471

The conserved Gsx homeodomain (HD) transcription factors specify neural cell fates in animals from flies to mammals. Like many HD proteins, Gsx factors bind A/T-rich DNA sequences prompting the following...

Cooperative Gsx2-DNA Binding Requires DNA Bending and a Novel Gsx2 Homeodomain Interface

Webb J, Farrow E, Cain B, Yuan Z, Yarawsky A, Schoch E, et al.

bioRxiv . 2023 Dec; PMID: 38106145

Prediction of cooperative homeodomain DNA binding sites from high-throughput-SELEX data

Cain B, Webb J, Yuan Z, Cheung D, Lim H, Kovall R, et al.

Nucleic Acids Res . 2023 Apr; 51(12):6055-6072. PMID: 37114997

Homeodomain proteins constitute one of the largest families of metazoan transcription factors. Genetic studies have demonstrated that homeodomain proteins regulate many developmental processes. Yet, biochemical data reveal that most bind...

Mechanisms Underlying Hox-Mediated Transcriptional Outcomes

Cain B, Gebelein B

Front Cell Dev Biol . 2021 Dec; 9:787339. PMID: 34869389

Metazoans differentially express multiple Hox transcription factors to specify diverse cell fates along the developing anterior-posterior axis. Two challenges arise when trying to understand how the Hox transcription factors regulate...

Enhancers with cooperative Notch binding sites are more resistant to regulation by the Hairless co-repressor

Kuang Y, Pyo A, Eafergan N, Cain B, Gutzwiller L, Axelrod O, et al.

PLoS Genet . 2021 Sep; 17(9):e1009039. PMID: 34559800

Notch signaling controls many developmental processes by regulating gene expression. Notch-dependent enhancers recruit activation complexes consisting of the Notch intracellular domain, the Cbf/Su(H)/Lag1 (CSL) transcription factor (TF), and the Mastermind...

Conserved Gsx2/Ind homeodomain monomer versus homodimer DNA binding defines regulatory outcomes in flies and mice

Salomone J, Qin S, Fufa T, Cain B, Farrow E, Guan B, et al.

Genes Dev . 2020 Dec; 35(1-2):157-174. PMID: 33334823

How homeodomain proteins gain sufficient specificity to control different cell fates has been a long-standing problem in developmental biology. The conserved Gsx homeodomain proteins regulate specific aspects of neural development...

Enhancer architecture sensitizes cell specific responses to gene dose via a bind and discard mechanism

Kuang Y, Golan O, Preusse K, Cain B, Christensen C, Salomone J, et al.

Elife . 2020 Apr; 9. PMID: 32297857

Notch pathway haploinsufficiency can cause severe developmental syndromes with highly variable penetrance. Currently, we have a limited mechanistic understanding of phenotype variability due to gene dosage. Here, we unexpectedly found...

Physical interactions between Gsx2 and Ascl1 balance progenitor expansion versus neurogenesis in the mouse lateral ganglionic eminence

Roychoudhury K, Salomone J, Qin S, Cain B, Adam M, Potter S, et al.

Development . 2020 Mar; 147(7). PMID: 32122989

The Gsx2 homeodomain transcription factor promotes neural progenitor identity in the lateral ganglionic eminence (LGE), despite upregulating the neurogenic factor Ascl1. How this balance in maturation is maintained is unclear....