A 7-dimethylallyl tryptophan synthase from a fungal Neosartorya sp.: Biochemical characterization and structural insight into the regioselective prenylation

A putative 7-dimethylallyl tryptophan synthase (DMATS) gene from a fungal Neosartorya sp. was cloned and overexpressed as a soluble His₆-fusion protein in Escherichia coli. The enzyme was found to catalyze the prenylation of l-tryptophan at the C7 position of the indole moiety in the presence of dimethylallyl diphosphate; thus, it functions as a 7-DMATS. In this study, we describe the biochemical characterization of 7-DMATS from Neosartorya sp., referred to as 7-DMATS^Neo, and the structural basis of the regioselective prenylation of l-tryptophan at the C7 position by comparison of the three-dimensional structural models of 7-DMATS^Neo with FgaPT2 (4-DMATS) from Aspergillus fumigatus.     

Enzymic Deacetylation of Methyl 2,3-Di-O-Acetyl-α- and β-D-Threofuranoside

Enzymic deacetylation of methyl 2,3-di-O-acaetyl-α- and β-D-threofuranoside using porcine liver esterase affords monoacetates only (in the case of the α-anomer, the 3-O-acetylderivative exclusively) without any further hydrolysis to the corresponding diols.     

Citrate metabolism in anaerobic bacteria

Abstract The regulation of anaerobic citrate metabolism is very diverse among different groups of bacteria. In organisms like Streptococcus lactis and Clostridium sporosphaeroides which lack citrate synthase, the activity of its antagonistic enzyme, citrate lyase, need not be regulated. Many anaerobes like Rhodocyclus gelatinosus and Clostridium sphenoides are able to synthesize their own l -glutamate and contain citrate synthase. In these bacteria the activity of citrate metabolizing enzymes which are involved in a cascade system are under strict control. In Rc. gelatinosus activation/inactivation of citrate lyase is controlled by acetylation/deacetylation which is catalyzed by its corresponding regulatory enzymes, citrate lyase ligase and citrate lyase deacetylase. In C. sphenoides inactivation of citrate lyase is accomplished by deacetylation as well as by changing in the enzyme conformation. Activation of citrate lyase is catalyzed by citrate lyase ligase whose activity in addition is modulated by phosphorylation/dephosphorylation. Further, electron transport process also seems to play a role in the inactivation of citrate metabolizing enzymes in enteric bacteria.     

运动提高沉默信息调节因子2相关酶1改善阿尔兹海默症

阿尔兹海默症(Alzheimer's disease, AD)是一种神经退行性疾病,β-淀粉样蛋白(β-amyloid, Aβ)沉积和Tau蛋白过度磷酸化是其主要病理特征。沉默信息调节因子2相关酶1 (silent mating-type information regulation 2 homolog 1, SIRT1)具有去乙酰化作用,能够使多种类型组蛋白及非组蛋白脱乙酰化,在AD发病过程中占据重要地位。近年研究发现,运动能够激活SIRT1减缓AD进程,其机制可能是:抑制β-分泌酶活性、提高α-分泌酶活性,减少Aβ生成;减少过度磷酸化Tau蛋白集聚;与过氧化体增殖物激活型受体γ辅激活因子-1α(peroxisome proliferator-activated receptor γ coactivator-1α,PGC-1α)相互作用以促进线粒体生物发生;上调同源性磷酸酶张力蛋白诱导激酶1(phosphatase and tensin homolog induced putative kinase1,PINK1)/Parkin信号通路改善线粒体自噬;去乙酰化核转录因子-κB(nuclear factor kappa B, NF-κB)以抑制神经炎症;提高海马中脑源性神经营养因子(brain-derived neurotrophic factor, BDNF)、神经胶质源性营养因子(glial cellline-derived neurotrophic factor,GDNF)等营养因子的蛋白质水平,以及抑制ApoE4基因进而增强神经元突触可塑性。本文总结了运动通过调控SIRT1改善AD的作用和机制,为预防及治疗AD提供新的思路。     

Screening of lipases for regioselective hydrolysis of peracetylated β-monosaccharides

The monodeacetylation of peracetylated-β-d-galactose (1) and peracetylated N-acetyl-β-d-glucosamine (2) by different lipases is here described. Lipases from different sources in an immobilized form were evaluated to find those that offer the higher activity and regioselectivity in the reactions. In the hydrolysis of 1, the lipase from Aspergillus niger was the most active one, although it hydrolyzed the anomeric position. Using the lipase from Candida rugosa, 30% yield of the corresponding 6-OH isomer was achieved. On the other hand, in the hydrolysis of 2, the lipase from A. niger was the most active and regioselective catalyst, producing more than 75% of the 6-OH derivative product.     

Alkylalanes and methyl furanosides: regioselective O-debenzylation or acetal cleavage

Perbenzylated methyl pentofuranosides were submitted to the action of three alkylalanes and regioselective debenzylation at O-2 of the four pentoses was observed when choosing the right match between anomeric configuration and aluminium reagent. Diisobutylalane (DIBAL-H) allowed an easy access to reduced open-chain compounds, whereas trimethylalane (TMAL) stereoselectively produced methylated open chain derivatives.