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41.
肉桂酰辅酶A还原酶(cinnamoyl-CoA reductase,CCR)是木质素合成代谢的关键酶。该研究以菊芋(Helianthus tuberosus L.)‘廊芋8号’为材料,克隆到1个菊芋的CCR基因,命名为HtCCR1(GenBank登录号为MN205540),其开放阅读框(ORF)长975bp,编码324个氨基酸,其中含有FR_SDR_e保守结构域。系统进化分析表明,HtCCR1与向日葵CCR蛋白(XP_021989763.1)共聚于一支,二者亲缘关系最近。实时定量PCR分析表明,HtCCR1基因在菊芋茎和叶中的表达量显著高于在根和块茎中;盐(150mmol·L-1 NaCl)胁迫处理6、12和24h后,处理组HtCCR1基因的表达量均显著高于对照组;干旱(20%PEG6000)胁迫6和12h后,处理组HtCCR1基因的表达较对照组均显著上调。成功构建pET-28a-HtCCR1原核表达载体,转化大肠杆菌BL21(DE3)并诱导出了符合预期大小的蛋白,表明HtCCR1重组蛋白已成功表达。该研究结果为进一步研究HtCCR1基因的功能及利用基因工程手段调节菊芋中木质素的生物合成奠定了基础。 相似文献
42.
Sharma SS Campbell JW Frisch D Blattner FR Harcum SW 《Biotechnology and bioengineering》2007,98(5):1056-1070
Highly reduced E. coli strains, MDS40, MDS41, and MDS42, lacking approximately 15% of the genome, were grown to high cell densities to test their ability to produce a recombinant protein with high yields. These strains lack all transposons and insertion sequences, cryptic prophage and many genes of unknown function. In addition to improving genetic stability, these deletions may reduce the biosynthetic requirements of the cell potentially allowing more efficient production of recombinant protein. Basic growth parameters and the ability of the strains to produce chloramphenicol acetyltransferase (CAT) under high cell density, batch cultivation were assessed. Although growth rate and recombinant protein production of the reduced genome strains are comparable to the parental MG1655 strain, the reduced genome strains were found to accumulate significant amounts of acetate in the medium at the expense of additional biomass. A number of hypotheses were examined to explain the accumulation of acetate, including oxygen limitation, carbon flux imbalance, and metabolic activity of the recombinant protein. Use of a non-catalytic CAT variant identified the recombinant protein activity as the source of this phenomenon; implications for the metabolic efficiency of the reduced genome strains are discussed. 相似文献
43.
Adamo KB Dent R Langefeld CD Cox M Williams K Carrick KM Stuart JS Sundseth SS Harper ME McPherson R Tesson F 《Obesity (Silver Spring, Md.)》2007,15(5):1068-1075
Peroxisome proliferator-activated receptor gamma (PPARgamma) and its response gene, Acyl CoA synthetase 5 (ACSL5), which has an important role in fatty acid metabolism, may affect weight loss in response to caloric restriction. Therefore, we aimed to determine whether these genes were involved in the interindividual response to dietary treatment. Genotypic/phenotypic comparisons were made between selected obese women from the quintiles losing the most (diet responsive, n = 74) and the quintiles losing the least (diet-resistant, n = 67) weight in the first 6 weeks of a 900-kcal formula diet. Two common PPARgamma single nucleotide polymorphisms, Pro(12)Ala and C1431T, and eight polymorphisms across the ACSL5 gene were selected for single locus and haplotypic association analyses. The PPARgamma Pro(12)Ala single nucleotide polymorphism was associated with diet resistance (odds ratio = 3.48, 95% confidence interval = 1.41 to 8.56, p = 0.03), and the rs2419621, located in the 5'untranslated region of the ACSL5 gene, displayed the strongest association with diet response (odds ratio = 3.45, 95% confidence interval = 1.61 to 7.69, p = 0.001). Skeletal muscle ACSL5 mRNA expression was significantly lower in carriers of the wildtype compared with the variant rs2419621 allele (p = 0.03). Our results suggest a link between PPARgamma2 and ACSL5 genotype and diet responsiveness. 相似文献
44.
Biotechnological production of fuels and chemicals from renewable resources is an appealing way to move from the current petroleum-based economy to a biomass-based green economy. Recently, the feedstocks that can be used for bioconversion or fermentation have been expanded to plant biomass, microbial biomass, and industrial waste. Several microbes have been engineered to produce chemicals from renewable resources, among which Escherichia coli is one of the best studied. Much effort has been made to engineer E. coli to produce fuels and chemicals from different renewable resources. In this paper, we focused on E. coli and systematically reviewed a range of fuels and chemicals that can be produced from renewable resources by engineered E. coli. Moreover, we proposed how can we further improve the efficiency for utilizing renewable resources by engineered E. coli, and how can we engineer E. coli for utilizing alternative renewable feedstocks. e.g. C1 gases and methanol. This review will help the readers better understand the current progress in this field and provide insights for further metabolic engineering efforts in E. coli. 相似文献
45.
Eva Xepapadaki Giuseppe Maulucci Caterina Constantinou Eleni A. Karavia Evangelia Zvintzou Bareket Daniel Shlomo Sasson Kyriakos E. Kypreos 《生物化学与生物物理学报:疾病的分子基础》2019,1865(6):1351-1360
High density lipoprotein (HDL) has attracted the attention of biomedical community due to its well-documented role in atheroprotection. HDL has also been recently implicated in the regulation of islets of Langerhans secretory function and in the etiology of peripheral insulin sensitivity. Indeed, data from numerous studies strongly indicate that the functions of pancreatic β-cells, skeletal muscles and adipose tissue could benefit from improved HDL functionality. To better understand how changes in HDL structure may affect diet-induced obesity and type 2 diabetes we aimed at investigating the impact of Apoa1 or Lcat deficiency, two key proteins of peripheral HDL metabolic pathway, on these pathological conditions in mouse models. We report that universal deletion of apoa1 or lcat expression in mice fed western-type diet results in increased sensitivity to body-weight gain compared to control C57BL/6 group. These changes in mouse genome correlate with discrete effects on white adipose tissue (WAT) metabolic activation and plasma glucose homeostasis. Apoa1-deficiency results in reduced WAT mitochondrial non-shivering thermogenesis. Lcat-deficiency causes a concerted reduction in both WAT oxidative phosphorylation and non-shivering thermogenesis, rendering lcat?/? mice the most sensitive to weight gain out of the three strains tested, followed by apoa1?/? mice. Nevertheless, only apoa1?/? mice show disturbed plasma glucose homeostasis due to dysfunctional glucose-stimulated insulin secretion in pancreatic β-islets and insulin resistant skeletal muscles. Our analyses show that both apoa1?/? and lcat?/? mice fed high-fat diet have no measurable Apoa1 levels in their plasma, suggesting no direct involvement of Apoa1 in the observed phenotypic differences among groups. 相似文献
46.
47.
Metabolic engineering of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) composition in recombinant Salmonella enterica serovar typhimurium 总被引:1,自引:0,他引:1
A recombinant strain of Salmonella enterica serovar Typhimurium (mutant in propionate-activation activity) was metabolically engineered to control the composition of poly(3-hydroxybutyrate-co-3-hydroxy- valerate) (PHBV), a polyhydroxyalkanoate copolymer with commercially desirable properties. A gene (prpE) encoding propionyl-CoA synthetase was placed under the control of the IPTG-inducible taclacUV5 promoter (P(taclacUV5)) while the polyhydroxyalkanoate synthesis operon (phaBCA) from Acinetobacter sp. RA3849 was coexpressed under the control of the arabinose-inducible araBAD promoter (P(BAD)). S. enterica, harboring both constructs, was grown in medium containing a fixed substrate concentration and the composition of the copolymer was varied between 2 mol% and 25 mol% 3-hydroxyvalerate by controlling the IPTG level in the medium. This "dial-a-composition" system should find application in cases where the substrate concentration of a feedstream for PHBV bioplastic production is not adjustable. 相似文献
48.
49.
Promiscuous protein biotinylation by Escherichia coli biotin protein ligase 总被引:2,自引:0,他引:2
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Choi-Rhee E Schulman H Cronan JE 《Protein science : a publication of the Protein Society》2004,13(11):3043-3050
Biotin protein ligases (BPLs) are enzymes of extraordinary specificity. BirA, the BPL of Escherichia coli biotinylates only a single cellular protein. We report a mutant BirA that attaches biotin to a large number of cellular proteins in vivo and to bovine serum albumin, chloramphenicol acetyltransferase, immunoglobin heavy and light chains, and RNAse A in vitro. The mutant BirA also self biotinylates in vivo and in vitro. The wild type BirA protein is much less active in these reactions. The biotinylation reaction is proximity-dependent in that a greater extent of biotinylation was seen when the mutant ligase was coupled to the acceptor proteins than when the acceptors were free in solution. This approach may permit facile detection and recovery of interacting proteins by existing avidin/streptavidin technology. 相似文献
50.
A continuous coupled enzyme assay for bacterial malonyl-CoA:acyl carrier protein transacylase (FabD)
Bacterial malonyl-CoA:acyl carrier protein transacylase catalyzes the transfer of a malonyl moiety from malonyl-CoA to the free thiol group of the phosphopantetheine arm of acyl carrier protein. Malonyl-ACP, the product of this enzymatic reaction, is the key building block for de novo fatty acid biosynthesis. Here, we describe a continuous enzyme assay based on the coupling of the malonyl-CoA:acyl carrier protein transacylase reaction to alpha-ketoglutarate dehydrogenase (KDH). KDH-dependent consumption of the coenzyme A generated by malonyl-CoA:acyl carrier protein transacylase is accompanied by a reduction of nicotinamide adenine dinucleotide, oxidized (NAD(+)) to nicotinamide adenine dinucleotide, reduced. The rate of NAD(+) reduction is continuously monitored as a change in fluorescence using a microtiter plate reader. We show that this coupled enzyme assay is amenable to routine chemical compound screening. 相似文献