在分枝杆菌中，通过海藻糖合酶的通量从海藻糖流向麦芽糖的α异头物。

Flux through trehalose synthase flows from trehalose to the alpha anomer of maltose in mycobacteria.

作者信息

Miah Farzana, Koliwer-Brandl Hendrik, Rejzek Martin, Field Robert A, Kalscheuer Rainer, Bornemann Stephen

机构信息

Department of Biological Chemistry, John Innes Centre, Norwich Research Park, Norwich, Norfolk NR4 7UH, UK.

出版信息

Chem Biol. 2013 Apr 18;20(4):487-93. doi: 10.1016/j.chembiol.2013.02.014.

DOI:10.1016/j.chembiol.2013.02.014

PMID:23601637

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3918855/

Abstract

Trehalose synthase (TreS) was thought to catalyze flux from maltose to trehalose, a precursor of essential trehalose mycolates in mycobacterial cell walls. However, we now show, using a genetic approach, that TreS is not required for trehalose biosynthesis in Mycobacterium smegmatis, whereas two alternative trehalose-biosynthetic pathways (OtsAB and TreYZ) are crucial. Consistent with this direction of flux, trehalose levels in Mycobacterium tuberculosis decreased when TreS was overexpressed. In addition, TreS was shown to interconvert the α anomer of maltose and trehalose using (1)H and (19)F-nuclear magnetic resonance spectroscopies using its normal substrates and deoxyfluoromaltose analogs, with the nonenzymatic mutarotation of α/β-maltose being slow. Therefore, flux through TreS in mycobacteria flows from trehalose to α-maltose, which is the appropriate anomer for maltose kinase of the GlgE α-glucan pathway, which in turn contributes to intracellular and/or capsular polysaccharide biosynthesis.

摘要

海藻糖合酶（TreS）曾被认为催化从麦芽糖到海藻糖的通量，海藻糖是分枝杆菌细胞壁中必需海藻糖霉菌酸的前体。然而，我们现在通过遗传学方法表明，耻垢分枝杆菌中海藻糖生物合成并不需要TreS，而两条替代的海藻糖生物合成途径（OtsAB和TreYZ）至关重要。与这种通量方向一致，当TreS过表达时，结核分枝杆菌中的海藻糖水平降低。此外，利用正常底物和脱氧氟麦芽糖类似物，通过¹H和¹⁹F核磁共振光谱表明，TreS能使麦芽糖和海藻糖的α异头物相互转化，而α/β-麦芽糖的非酶变旋作用缓慢。因此，分枝杆菌中通过TreS的通量是从海藻糖流向α-麦芽糖，α-麦芽糖是GlgEα-葡聚糖途径中麦芽糖激酶的合适异头物，进而有助于细胞内和/或荚膜多糖的生物合成。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f496/3918855/08da65bd22a0/fx1.jpg

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在分枝杆菌中，通过海藻糖合酶的通量从海藻糖流向麦芽糖的α异头物。

Flux through trehalose synthase flows from trehalose to the alpha anomer of maltose in mycobacteria.

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