Computation-Driven Mechanistic Understanding of the Cellular Cost and Role of Defensive Pigment Production in a Polyextremotolerant Fungus

Materials Science eJournal Pub Date : 2020-03-03 DOI:10.2139/ssrn.3528691

Wheaton L. Schroeder, S. Harris, Rajib Saha

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Abstract

The polyextremotolerant black yeast Exophiala dermatitidis is a tractable model system for investigation of adaptations under extreme conditions. Foremost amongst these adaptations is production of the defensive pigments melanins and carotenoids. A particularly important question is their metabolic production cost. However, this investigation has been hindered by a relatively poor systems-level understanding of E. dermatitidis metabolism. To address this challenge, a genome-scale model (iEde2091) was developed. Using iEde2091, carotenoids were found to be more expensive to produce than melanins. Given their overlapping protective functions, this suggests that carotenoids have an underexplored yet important role of photo-protection under high-energy visible light. Furthermore, multiple defensive pigments with overlapping functions might allow E. dermatitidis to minimize cost. Because iEde2091 revealed that E. dermatitidis synthesizes the same melanins as humans and the active sites of the key tyrosinase enzyme are highly conserved, this model may enable a broader understanding of melanin production across kingdoms.

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一个多极端耐受性真菌的细胞成本和防御性色素生产的计算驱动机制理解

多极端耐受性黑酵母菌皮炎外菌是一种易于处理的模型系统，用于研究极端条件下的适应性。在这些适应中，最重要的是防御性色素黑色素和类胡萝卜素的产生。一个特别重要的问题是它们的代谢生产成本。然而，由于对皮炎杆菌代谢的系统水平了解相对较差，这项研究受到了阻碍。为了应对这一挑战，我们开发了一个基因组尺度模型(iEde2091)。使用iEde2091，类胡萝卜素的生产成本比黑色素要高。鉴于它们重叠的保护功能，这表明类胡萝卜素在高能可见光下的光保护作用尚未得到充分开发。此外，多种功能重叠的防御色素可能使皮炎的成本最小化。由于iEde2091揭示了皮炎杆菌合成与人类相同的黑色素，并且关键酪氨酸酶的活性位点高度保守，该模型可能使人们更广泛地了解跨王国的黑色素产生。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials Science eJournal

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