Pathophysiological studies of aging Slc39a14 knockout mice to assess the progression of manganese-induced dystonia-parkinsonism

Pathophysiological studies of aging Slc39a14 knockout mice to assess the progression of manganese-induced dystonia-parkinsonism Article

Rodichkin, Alexander N, Edler, Melissa K, McGlothan, Jennifer L et al. (2022). Pathophysiological studies of aging Slc39a14 knockout mice to assess the progression of manganese-induced dystonia-parkinsonism . NEUROTOXICOLOGY, 93 92-102. 10.1016/j.neuro.2022.09.005

Open Access

cited authors

Rodichkin, Alexander N; Edler, Melissa K; McGlothan, Jennifer L; Guilarte, Tomas R

sustainable development goals

SDG 03: Good Health and Well-being

authors

publication date

December 1, 2022

published in

NEUROTOXICOLOGY Journal

keywords

ACCUMULATION
Aging
BRAIN
DELETION
DISEASE
Dystonia-parkinsonism
EXPOSURE
HYPERMANGANESEMIA
Life Sciences & Biomedicine
MOTOR DEFICITS
Manganese
Manganism
Neurosciences
Neurosciences & Neurology
Nigrostriatal dopaminergic system
POLYCYTHEMIA
Pharmacology & Pharmacy
SLC30A10 MUTATIONS
Science & Technology
Slc39a14 knock-out mice
TRANSPORTER
Toxicology

FIU Discovery

Pathophysiological studies of aging Slc39a14 knockout mice to assess the progression of manganese-induced dystonia-parkinsonism Article

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