Fiber deprivation and microbiome-borne curli shift gut bacterial populations and accelerate disease in a mouse model of Parkinson's disease - ScienceDirect

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Parkinson’s disease (PD) is a neurological disorder characterized by motor dysfunction, dopaminergic neuron loss, and alpha-synuclein (αSyn) inclusion…
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Cell Reports, Vol 42, Issue 9, 26 September 2023
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Dietary fibre deprivation and bacterial curli exposure shift gut microbiome and exacerbate Parkinson's disease-like pathologies in an alpha-synuclein-overexpressing mouse
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Gut Microbiota Regulate Motor Deficits and Neuroinflammation in a Model of Parkinson's Disease - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Gut microbiota relieves inflammation in the substantia nigra of chronic Parkinson's disease by protecting the function of dopamine neurons
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Gut Microbiota Regulate Motor Deficits and Neuroinflammation in a Model of Parkinson's Disease - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Gut Microbiota Regulate Motor Deficits and Neuroinflammation in a Model of Parkinson's Disease - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
The Role of Functional Amyloids in Bacterial Virulence - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Inflammation, stress, and gut-brain axis as therapeutic targets in bipolar disorder - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Gut Microbiota Regulate Motor Deficits and Neuroinflammation in a Model of Parkinson's Disease: Cell
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Inflammation, stress, and gut-brain axis as therapeutic targets in bipolar disorder - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial populations and accelerate disease in a mouse model of Parkinson's disease - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
The Role of Functional Amyloids in Bacterial Virulence - ScienceDirect
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Gut Microbial Alteration in MPTP Mouse Model of Parkinson Disease is Administration Regimen Dependent
Fiber deprivation and microbiome-borne curli shift gut bacterial  populations and accelerate disease in a mouse model of Parkinson's disease  - ScienceDirect
Gut microbiota-derived propionate mediates the neuroprotective effect of osteocalcin in a mouse model of Parkinson's disease, Microbiome
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