Reconstruction and visualization of carbohydrate, N-glycosylation pathways in Pichia pastoris CBS7435 using computational and system biology approaches.

Systems and Synthetic Biology Pub Date : 2013-06-01 Epub Date: 2012-12-30 DOI:10.1007/s11693-012-9102-2

Akriti Srivastava, Pallavi Somvanshi, Bhartendu Nath Mishra

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引用次数: 12

Abstract

Pichia pastoris is an efficient expression system for production of recombinant proteins. To understand its physiology for building novel applications it is important to understand and reconstruct its metabolic network. The metabolic reconstruction approach connects genotype with phenotype. Here, we have attempted to reconstruct carbohydrate metabolism pathways responsible for high biomass density and N-glycosylation pathways involved in the post translational modification of proteins of P. pastoris CBS7435. Both these metabolic pathways play a crucial role in heterologous protein production. We report novel, missing and unannotated enzymes involved in the target metabolic pathways. A strong possibility of cellulose and xylose metabolic processes in P. pastoris CBS7435 suggests its use in the area of biofuels. The reconstructed metabolic networks can be used for increased yields and improved product quality, for designing appropriate growth medium, for production of recombinant therapeutics and for making biofuels.

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利用计算生物学和系统生物学方法重建和可视化毕赤酵母CBS7435的碳水化合物、n -糖基化途径。

毕赤酵母是生产重组蛋白的高效表达系统。为了更好地理解其生理机能，建立新的应用，理解和重建其代谢网络是很重要的。代谢重建方法将基因型与表型联系起来。在这里，我们试图重建P. pastoris CBS7435的高生物量密度的碳水化合物代谢途径和涉及蛋白质翻译后修饰的n -糖基化途径。这两种代谢途径在异源蛋白的产生中都起着至关重要的作用。我们报告了新的，缺失的和未注释的酶参与目标代谢途径。P. pastoris CBS7435中纤维素和木糖代谢过程的可能性很大，表明其在生物燃料领域的应用。重建的代谢网络可用于提高产量和改善产品质量，设计适当的生长培养基，生产重组疗法和制造生物燃料。

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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Systems and Synthetic Biology

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