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ZFP36-mediated mRNA decay regulates metabolism

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Cicchetto AC. et al, (2023), Cell Reports, 42

Limited value of serum neurofilament light chain in diagnosing amyotrophic lateral sclerosis

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Davies JC. et al, (2023), Brain Communications, 5

Regulation and function of poised mRNAs in lymphocytes

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Turner M., (2023), BioEssays, 45

Recreation of an antigen-driven germinal center in vitro by providing B cells with phagocytic antigen

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Martínez-Riaño A. et al, (2023), Communications biology, 6

A survey of current practice in genetic testing in amyotrophic lateral sclerosis in the UK and Republic of Ireland: implications for future planning

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De Oliveira HM. et al, (2022), Amyotrophic Lateral Sclerosis and Frontotemporal Degeneration, 1 - 9

Profiling non-coding RNA expression in cerebrospinal fluid of amyotrophic lateral sclerosis patients.

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Joilin G. et al, (2022), Ann Med, 54, 3069 - 3078

Creatine kinase and prognosis in amyotrophic lateral sclerosis: a literature review and multi-centre cohort analysis

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Comparison Of King’s Clinical Staging In Multinational Amyotrophic Lateral Sclerosis Cohorts

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Balendra R. et al, (2022), Amyotrophic Lateral Sclerosis and Frontotemporal Degeneration, 1 - 11

Modeling seeding and neuroanatomic spread of pathology in amyotrophic lateral sclerosis.

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Pandya S. et al, (2022), Neuroimage, 251

The timing of differentiation and potency of CD8 effector function is set by RNA binding proteins.

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Petkau G. et al, (2022), Nature communications, 13

Polypyrimidine Tract Binding Protein 1 regulates the activation of mouse CD8 T cells.

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D'Angeli V. et al, (2022), Eur J Immunol

Genetic testing in motor neurone disease

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Dharmadasa T. et al, (2022), Practical Neurology, 22, 107 - 116

Clinical trials in pediatric ALS: a TRICALS feasibility study.

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Kliest T. et al, (2022), Amyotroph Lateral Scler Frontotemporal Degener, 1 - 8

Cerebrospinal fluid biomarkers of disease activity and progression in amyotrophic lateral sclerosis

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Dreger M. et al, (2022), Journal of Neurology, Neurosurgery & Psychiatry

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