Michelle Newbery scite author profile

Michelle Newbery

3Publications

10Citation Statements Received

102Citation Statements Given

How they've been cited

How they cite others

102

Affiliations

Illawarra Health and Medical Research Institute, University of Wollongong

Publications

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Transgene and Chemical Transdifferentiation of Somatic Cells for Rapid and Efficient Neurological Disease Cell Models

Newbery

Maksour

et al. 2022

Front. Cell. Neurosci.

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For neurological diseases, molecular and cellular research relies on the use of model systems to investigate disease processes and test potential therapeutics. The last decade has witnessed an increase in the number of studies using induced pluripotent stem cells to generate disease relevant cell types from patients. The reprogramming process permits the generation of a large number of cells but is potentially disadvantaged by introducing variability in clonal lines and the removal of phenotypes of aging, which are critical to understand neurodegenerative diseases. An under-utilized approach to disease modeling involves the transdifferentiation of aged cells from patients, such as fibroblasts or blood cells, into various neural cell types. In this review we discuss techniques used for rapid and efficient direct conversion to neural cell types. We examine the limitations and future perspectives of this rapidly advancing field that could improve neurological disease modeling and drug discovery.

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An Optimized Direct Lysis Gene Expression Microplate Assay and Applications for Disease, Differentiation, and Pharmacological Cell-Based Studies

Maksour

Lum

et al. 2022

Biosensors

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Routine cell culture reverse transcriptase quantitative polymerase chain reaction (RT-qPCR) gene expression analysis is limited in scalability due to minimum sample requirement and multistep isolation procedures. In this study, we aimed to optimize and apply a cost-effective and rapid protocol for directly sampling gene expression data from microplate cell cultures. The optimized protocol involves direct lysis of microplate well population followed by a reduced thermocycler reaction time one-step RT-qPCR assay. In applications for inflammation and stress-induced cell-based models, the direct lysis RT-qPCR microplate assay was utilized to detect IFN1 and PPP1R15A expression by poly(I:C) treated primary fibroblast cultures, IL6 expression by poly(I:C) iPSC-derived astrocytes, and differential PPP1R15A expression by ER-stressed vanishing white-matter disease patient induced pluripotent stem cell (iPSC)-derived astrocytes. Neural differentiation recipe optimizations were performed with SYN1 and VGLUT1 expression in neuronal cultures, and S100B, GFAP, and EAAT1 expression in astrocyte differentiations. The protocol provides microplate gene expression results from cell lysate to readout within ~35 min, with comparable cost to routine RT-qPCR, and it may be utilized to support laboratory cell-based assays in basic and applied scientific and medical fields of research including stem-cell differentiation, cell physiology, and drug mechanism studies.

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Efficient third generation lentiviral particle production v3

Newbery¹,

provided²,

Hulme³

et al. 2021

Preprint

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The overexpression of a gene of interest by third generation lentiviral particle generation systems is a critical process in molecular biology, cell biology and gene therapy research. While many lentiviral protocol production methods have been discussed in literature, this protocol takes into account previously established optimisations with the aim to minimise user handling time, cost, and maximise practical yield. This protocol allows for at least 6 days of consecutive viral particle collection without compromising HEK293T cell culture or viral production efficiency, and can be easily and cost effectively reproduced in basic cell culture laboratories.

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