Diana Zheng scite author profile

Summary Filamentous fungi are powerful producers of hydrolytic enzymes for the deconstruction of plant cell wall polysaccharides. However, the central question of how these sugars are perceived in the context of the complex cell wall matrix remains largely elusive. To address this question in a systematic fashion we performed an extensive comparative systems analysis of how the model filamentous fungus Neurospora crassa responds to the three main cell wall polysaccharides: pectin, hemicellulose and cellulose. We found the pectic response to be largely independent of the cellulolytic one with some overlap to hemicellulose, and in its extent surprisingly high, suggesting advantages for the fungus beyond being a mere carbon source. Our approach furthermore allowed us to identify carbon source-specific adaptations, such as the induction of the unfolded protein response on cellulose, and a commonly induced set of 29 genes likely involved in carbon scouting. Moreover, by hierarchical clustering we generated a co-expression matrix useful for the discovery of new components involved in polysaccharide utilization. This is exemplified by the identification of lat-1, which we demonstrate to encode for the physiologically relevant arabinose transporter in Neurospora. The analyses presented here are an important step towards understanding fungal degradation processes of complex biomass.

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Clinical Implementation of Upper Extremity Rehabilitation Robotics

Massie

Reutman

Zheng

2018

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Date Presented 4/19/2018 Upper extremity (UE) robotic training for people with neurological impairments has solid theoretical support from a neuroplasticity perspective, yet little is known regarding its clinical implementation. This study investigated the use of UE robotics from a clinical perspective. Primary Author and Speaker: Crystal Massie Additional Authors and Speakers: Rebecca Reutman, Diana Zheng Contributing Authors: Emily Schafer, Hannah Lybarger, Ryan Cardinal, Peter Altenburger

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Diana Zheng

A comparative systems analysis of polysaccharide‐elicited responses in Neurospora crassa reveals carbon source‐specific cellular adaptations

Clinical Implementation of Upper Extremity Rehabilitation Robotics

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