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ATP Sulfurylase is Essential for the Utilization of Sulfamate as a Sulfur Source in the Yeast Komagataella pastoris (syn. Pichia pastoris)

机译：ATP硫酸酯酶对于酵母Komagataella pastoris（酵母毕赤酵母）中的氨基磺酸盐作为硫源的利用至关重要。

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The methylotrophic yeast Komagataella pastoris (syn. Pichia pastoris) is one of the few known yeasts that can utilize sulfamate (

{NH}_{2} {SO}_{3}^{-}

) as a sulfur source. The biochemical pathway responsible for the catabolism of sulfamate has yet to be identified. The present study sought to investigate whether sulfamate catabolism proceeds through either of the inorganic sulfur intermediates sulfate (

{SO}_{4}^{2 -}

) or sulfite (

{SO}_{3}^{2 -}

) before its assimilation and subsequent incorporation into sulfur-containing amino acids and their derivatives. Two key genes in the K. pastoris inorganic sulfur assimilation pathway were deleted separately and the ability of each deletion mutant to utilize sulfamate and other selected sulfur sources was studied. Deletion of the MET3 gene (which encodes the enzyme ATP sulfurylase) did not affect growth on l-methionine, sulfite, methanesulfonate, or taurine but completely abolished growth on sulfate, methyl sulfate and sulfamate. Deletion of the MET5 gene (which encodes the β subunit of the enzyme sulfite reductase) abolished growth on all tested sulfur sources except l-methionine. These results suggest that the catabolism of sulfamate proceeds through a sulfate intermediate before its assimilation.

机译：甲基营养酵母巴斯德酵母（巴斯德毕赤酵母）是可利用氨基磺酸盐的少数几种已知酵母之一（ NH 2 SO 3 - ）作为硫源。尚未确定负责氨基磺酸分解代谢的生化途径。本研究试图调查是否通过任何一种无机硫中间体硫酸盐（

SO42-）或亚硫酸盐（SO32-），然后将其吸收并随后掺入含硫氨基酸及其衍生物中。巴斯德毕赤酵母无机硫同化途径中的两个关键基因被分别删除，并且研究了每个删除突变体利用氨基磺酸盐和其他选定硫源的能力。删除MET3基因（编码ATP硫酰化酶的酶）不会影响1-甲硫氨酸，亚硫酸盐，甲磺酸盐或牛磺酸的生长，但完全消除了硫酸盐，硫酸甲酯和氨基磺酸盐的生长。除去MET5基因（其编码亚硫酸还原酶的β亚基），消除了除1-甲硫氨酸外的所有受试硫源的生长。这些结果表明，氨基磺酸盐的分解代谢是在硫酸盐中间体被同化之前进行的。

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期刊名称 Springer Open Choice
作者
Tomas Linder;
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作者单位

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年(卷),期 -1(74),9
年度 -1
页码 1021–1025
总页数 5
原文格式 PDF
正文语种
中图分类外科学;
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专利

1. ATP Sulfurylase is Essential for the Utilization of Sulfamate as a Sulfur Source in the Yeast Komagataella pastoris (syn. Pichia pastoris) [J] . Linder Tomas Current Microbiology: An International Journal . 2017,第9期

机译：ATP硫磺化酶对于在酵母Komagateella Pastoris（SYN。Pichia Pastoris）中的硫源是必不可少的
2. Cloning and expression of synthetic genes encoding native, hybrid- and bacteriocin-derived chimeras from mature class IIa bacteriocins, by Pichia pastoris (syn. Komagataella spp.) [J] . Arbulu Sara, Jimenez Juan J., Gutiez Loreto, Food research international . 2019,第JULa期

机译：巴斯德毕赤酵母（S. Komagataella spp。）克隆和表达成熟基因IIa类细菌素编码天然，杂种和细菌素的嵌合体的合成基因。
3. Cloning and expression of synthetic genes encoding native, hybrid- and bacteriocin-derived chimeras from mature class IIa bacteriocins, by Pichia pastoris (syn. Komagataella spp.) [J] . Arbulu Sara, Jimenez Juan J., Gutiez Loreto, Food research international . 2019,第Jula期

机译：克隆和表达编码成熟类IIA菌菌的天然，杂交和细菌和细菌乳酸嵌合体，Pichia Pastoris（Syn.Komagataella SPP。）
4. Optimization corn processing wastewater-based medium and conditions for recombinant lipase production by Pichia pastoris yeast [C] . Yun-Jun Yan, Jin-Yong Yan, Wen-Juan Yang, International Conference on Advanced Materials and Energy Sustainability . 2017

机译：优化玉米加工废水的培养基和重组脂肪酶生产的培养基，Pichia Pastoris酵母产生
5. Development of Secretion System for Heterologous Recombinant Protein Expression in E.coli Bacteria and Pichia pastoris Yeast. [D] . Qu, He. 2014

机译：大肠杆菌和巴斯德毕赤酵母中异源重组蛋白表达分泌系统的开发。
6. Methanol Expression Regulator 1 (Mxr1p) Is Essential for the Utilization of Amino Acids as the Sole Source of Carbon by the Methylotrophic Yeast Pichia pastoris [O] . Umakant Sahu, Pundi N. Rangarajan 2016

机译：甲醇表达调节剂1（Mxr1p）对于利用甲基营养酵母Pichia pastoris作为氨基酸的唯一碳源来说至关重要。
7. Methanol Expression Regulator 1 (Mxr1p) Is Essential for the Utilization of Amino Acids as the Sole Source of Carbon by the Methylotrophic Yeast, Pichia pastoris [O] . Sahu, Umakant, Rangarajan, Pundi N 2016

机译：甲醇表达调节剂1（Mxr1p）对于利用甲基营养酵母Pichia pastoris作为氨基酸的唯一碳源来说至关重要。

ATP Sulfurylase is Essential for the Utilization of Sulfamate as a Sulfur Source in the Yeast Komagataella pastoris (syn. Pichia pastoris)

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