Regulation of mitophagy by the NSL complex underlies genetic risk for Parkinson’s disease: Bioinformatic Prioritisation and Hit Validation

By Karishma D’Sa, MSc, Sebastian Guelfi, David Zhang, MSc, Alan Pittman, Daniah Trabzuni, Demis A. Kia, Nicholas W Wood, John Hardy, PhD, Claudia Manzoni, PhD, Mina Ryten and Benjamin O’Callaghan, PhD

View Published Protocol

Description

This protocol describes the Bioinformatic Prioritisation of PD GWAS candidates for High Content Screening, and Hit Validation by allele-specific expression (ASE) analysis.

Identifier (DOI)

10.1101/2020.01.06.896241v2

Tags

High Content Screening
Parkinson's disease
Substantia nigra

Team

Team Wood and Team Hardy

Program

Collaborative Research Network

Theme

PD Functional Genomics

Meet the Authors

Karishma D’Sa, MSc

Key Personnel: Team Wood, Team Hardy,

University College London
Sebastian Guelfi
David Zhang, MSc

Key Personnel: Team Wood,

University College London
Alan Pittman
Daniah Trabzuni
Demis A. Kia
Nicholas W Wood
John Hardy, PhD

Lead PI (Core Leadership): Team Hardy,

University College London
Claudia Manzoni, PhD

Key Personnel: Team Hardy,

University College London
Mina Ryten

Co-PI (Core Leadership): Team Hardy, Team Wood,

University College London
Benjamin O’Callaghan, PhD

Key Personnel: Team Hardy,

University College London

Regulation of mitophagy by the NSL complex underlies genetic risk for Parkinson’s disease: Bioinformatic Prioritisation and Hit Validation

Output Details

Meet the Authors

Karishma D’Sa, MSc

Sebastian Guelfi

David Zhang, MSc

Alan Pittman

Daniah Trabzuni

Demis A. Kia

Nicholas W Wood

John Hardy, PhD

Claudia Manzoni, PhD

Mina Ryten

Benjamin O’Callaghan, PhD

Related Research

Regulation of mitophagy by the NSL complex underlies genetic risk for Parkinson’s disease at 16q11.2 and MAPT H1 loci

ASAP CRN Cloud Release Notes – Version 2.0.0

Extracellular space diffusion modelling identifies distinct functional advantages of archetypical glutamatergic and GABAergic synapse geometries