One-step purification and characterization of a fully active histidine-tagged Class II fructose-1,6-bisphosphate aldolase from Mycobacterium tuberculosis

Rv0363c (fba), encoding Class II fructose-bisphosphate aldolase (FBA), is one of the potential drug targets identified in our laboratory based on minimal gene set concept. The wild-type enzyme overproduction in E. coli had been reported. However, the purification procedure was relatively tedious and the yield was low. In this study, five histidine codons were introduced into the 3′ end of the amplified fba fragments. The expressed C-terminal histidine-tagged Class II FBA was produced in E. coli BL21 (DE3) and easily purified using immobilized metal affinity chromatography. The purified his-tagged FBA was characterized. Its biochemical properties were compared to the non-his-tagged enzyme purified according to the previous report. Both FBAs have similar characteristics such as native/subunit molecular mass, kinetic parameters, and temperature/pH optima and stability. The C-terminal his-tagged FBA can be a surrogate for the native enzyme and used for screening of inhibitors of FBA. This developed expression system will pave the way for high-throughput screening and crystallization studies. Moreover, in this study, a colorimetric FBA assay has been simplified to facilitate the mass screening of inhibitor of FBA.     

Cloning and molecular characterization of fructose-1,6-bisphosphate aldolase gene regulated by high-salinity and drought in Sesuvium portulacastrum

Sesuvium portulacastrum, a mangrove plant from seashore, is a halophyte species well adapted to salinity and drought. Some efforts have been made to describe its physiological and structural characteristics on salt and drought-tolerance, but the underlying molecular mechanism and key components have not yet been identified. Here, a fructose-1,6-bisphosphate aldolase gene, designated SpFBA, was isolated and characterized from S. portulacastrum roots in response to seawater. The SpFBA cDNA has a total length of 1452 bp with an open reading frame of 1071 bp, and is predicted to encode a precursor protein of 357 amino acid residues sharing high degree of homology with class I FBAs from other plants. Semi-quantitative RT-PCR analysis indicated that the SpFBA was more strongly expressed in roots than in leaves and stems, and the abiotic stimuli such as Seawater, NaCl, ABA, and PEG, could trigger a significant induction of SpFBA in S. portulacastrum roots within 2–12 h. Overproduction of Recombinant SpFBA resulted in an increased tolerance to salinity in transgenic Escherichia coli. All these results suggest that the SpFBA plays very important roles in responding to salt stress and related abiotic stimuli, and in improving the survival ability of S. portulacastrum under high salinity and drought. The GenBank Accession number of S. portulacastrum fructose-1,6-bisphosphate aldolase (SpFBA) is ACG68894.     

结核分枝杆菌PhoP系统研究进展

Pho P与Pho R组成的Pho PR是结核分枝杆菌重要的双组分调节系统。Pho P作为应答调节子调节基因的表达,这些基因参与细胞壁脂质合成,并对结核分枝杆菌毒力有重要调控作用。本文综述了Pho P的结构、性质以及相关的结核分枝杆菌疫苗研发情况,并提出了未来可能的研究趋势。     

Characterization of a extreme thermostable fructose-1,6-bisphosphate aldolase from hyperthermophilic bacterium Aquifex aeolicus

Fructose-1,6-bisphosphate (FBP) aldolase, is a glycolytic enzyme that catalyzes the reversible condensation reaction of FBP to dihydroxyacetone phosphate (DHAP) and glyceraldehyde-3-phosphate (G3P). The aldolase gene from Aquifex aeolicus was subcloned, overexpressed in E. coli and purified to 95% homogeneity. The purified enzyme was activated by high concentrations of NH₄⁺ and low concentrations of Co²⁺. The native molecular weight of the purified FBP aldolase was identified as 67 kDa (dimer) by gel filtration chromatography. The enzyme exhibits optimum pH at 6.5 and temperature at 90 °C. Based on the kinetic characterizations, the apparent K_m was calculated to be 4.4 ± 0.07 mM, while V_max was found to be 100 ± 0.02 μM min⁻¹ mg protein⁻¹. The recombinant protein showed extreme heat stability; no activity loss was observed even at 100 °C for 2 h. In addition, the thermophilic enzyme also showed higher stability against several organic solvents viz. acetonitrile, 1,4-dioxane, and methanol. With higher stability against both heat and organic solvents than any other class II aldolase, the A. aeolicus FBP aldolase is an attractive enzyme for use as a biocatalyst for industrial applications.     

结核分枝杆菌抗原蛋白的研究及其应用新进展

结核病(tuberculosis, TB)是由结核分枝杆菌(Mycobacterium tuberculosis, MTB)感染引起的慢性传染病,是仅次于正在暴发的新型冠状病毒肺炎(COVID-19)的第二大单一感染致死病因。COVID-19的大流行对TB的诊断及治疗造成了破坏性的影响,全球实现终结TB目标的进展偏离了轨道。因此,早诊断、早治疗依然是防控TB蔓延的关键。TB精准诊断一直受MTB抗原特异性、检测技术特异性和灵敏度的影响,因此亟需挖掘高特异性新抗原、开发新检测技术。随着蛋白质基因组学(proteogenomics)和质谱技术的快速发展,从临床体液、组织样本中高效、精准靶向检测MTB特异性已知、甚至新抗原的表达,以及监测治疗过程中的抗原表达量的动态变化,是TB诊断及治疗的发展趋势。在MTB标准菌株H37Rv的4 008个注释基因中(NC＿000 962.3, NCBI),国内外报道的已注释抗原虽有140多个,但仅有极少的抗原应用于TB的筛查及辅助诊断,离世界卫生组织(World Health Organization, WHO)的诊断标准尚远。本文通过对MTB已报道抗原以及基...     

用小鼠模型分析可溶性表达结核分枝杆菌Ag85A的免疫原性

【目的】可溶性表达结核分枝杆菌Ag85A蛋白,并评价其免疫原性。【方法】利用冷休克表达质粒和含有伴侣质粒的大肠杆菌对Ag85A蛋白进行可溶性原核表达,并进行纯化与鉴定,通过C57BL/6小鼠模型对Ag85A蛋白的免疫原性,包括诱导机体特异性体液免疫应答和细胞免疫应答水平进行分析。【结果】重组菌诱导后裂解上清中检测到可溶性Ag85A蛋白的表达,经过亲和层析纯化收获了纯度在90%以上的Ag85A蛋白,Western blot鉴定显示其具有较好的免疫反应性。Ag85A蛋白免疫小鼠后,血清中可以检测到高水平的Ig G抗体效价,其中Ig G2b水平要高于Ig G1。通过特异性多肽、蛋白刺激脾脏和腹股沟淋巴结细胞可分泌高水平的IFN-γ、TNF-α等Th1型细胞因子。【结论】实现了Ag85A蛋白的可溶性表达,免疫特性评价显示Ag85A蛋白可诱导机体产生强烈的特异性体液免疫应答及Th1型的细胞免疫应答,从而为其进一步免疫学功能的研究奠定了重要基础。     

结核分枝杆菌Rv0081基因编码蛋白的生物信息学分析

运用生物信息学分析软件预测结核分枝杆菌（Mycobacterium tuberculosis, Mtb）Rv0081蛋白的生物学特征及筛选潜在的优势抗原表位。 从NCBI数据库获取Mtb Rv0081蛋白的氨基酸序列，利用生物信息学分析软件ProtParam、ProtScale及TMPRED分析Rv0081蛋白的理化性质及亲疏水性；TMHMM、SignalP-5.0 Server预测蛋白的跨膜区及信号肽；NetNGlyc-1.0 Server、NetPhos 3.1 Server分别预测蛋白的糖基化位点及磷酸化位点；STRING预测能与Rv0081相互作用的蛋白；分别运用SOPMA、SWISS-MODEL预测蛋白的二、三级结构；综合运用softberry、WoLF PSORT预测蛋白的亚细胞定位；运用DNAStar预测蛋白的B细胞抗原表位；综合运用SYFPEITHI、NetCTL 1.2 Server、Net MHC pan 4.1 server预测蛋白的CTL细胞抗原表位；综合运用SYFPEITHI、Net MHCII pan 4.0 server预测蛋白的Th细胞抗原表位。 结果表明，Rv0081蛋白由114个氨基酸组成，相对分子质量为12 356.32，亚细胞定位于细胞质中，为稳定的疏水性蛋白，无跨膜区和信号肽，含有1个糖基化位点及9个磷酸化位点；二级结构主要由α-螺旋和无规则卷曲构成，结构较松散；与hycE、hycP、Rv0088、Rv0083、hycD、hycQ、Rv0082、devR、Rv0080及Rv0079蛋白存在相互作用关系；综合分析各软件预测结果筛选出6个优势B细胞抗原表位、6个优势CTL细胞抗原表位及7个优势Th细胞抗原表位。Mtb Rv0081蛋白具有较多潜在的候选B、T细胞抗原表位，可作为研发新型结核疫苗的候选抗原。     

Increased activity of the tandem fructose-1,6-bisphosphate aldolase,triosephosphate isomerase and fructose-1,6-bisphosphatase enzymes in <Emphasis Type="Italic">Anabaena</Emphasis> sp. strain PCC 7120 stimulates photosynthetic yield

The regulation of photosynthetic yield at the genetic level has largely focused on manipulation of the catalytic enzymes in the Calvin cycle by genetic engineering. In order to investigate the contribution of increased enzymatic activity in the Calvin cycle on photosynthetic yield, the rice fructose-1,6-bisphosphate aldolase (FBA), spinach triosephosphate isomerase (TPI) and wheat fructose-1,6-bisphosphatase (FBPase) genes were cloned in tandem and co-overexpressed in cyanobacterium Anabaena sp. strain PCC 7120 cells. The enzymatic activities of FBA, TPI and FBPase, as well as sedoheptulose-1,7-bisphosphatase (SBPase), were remarkably increased in transgenic cells relative to the wild-type. The photosynthetic yield, as reflected by photosynthetic O₂ evolution and dry cellular weight, was also markedly increased in transgenic cells versus wide-type cells. The activity of SBPase is considered the most important factor for ribulose-1,5-bisphosphate (RuBP) regeneration in the Calvin cycle, and increased activity of TPI alone in transgenic cells does not stimulate photosynthetic yield. Thus, the increased activity of FBA and FBPase, but not TPI, significantly improved photosynthetic yield in transgenic cells by stimulating SBPase activity and consequently accelerating the RuBP regeneration rate.     

结核分枝杆菌Rv3194c蛋白的亚细胞定位

【目的】Rv3194c基因编码的是结核分枝杆菌的PDZ信号蛋白,本研究探讨该蛋白的亚细胞定位,为其细胞结合蛋白的筛选奠定基础。【方法】从H37Rv基因组中扩增出编码只含有PDZ结构域的tRv3194c (Rv3194c 1–234 aa)的基因片段,在3′端加T2A和EGFP序列,一并插入真核表达载体构建出pcDNA3.1-tRv3194c-T2A-EGFP。将构建好的质粒瞬时转染L929细胞,并共感染重组痘苗病毒vTF7-3,用间接免疫荧光、流式细胞分选以及Western blotting检测融合蛋白的表达以及亚细胞定位。【结果】成功构建出真核表达载体pcDNA3.1-tRv3194c-T2A-EGFP,瞬时转染L929细胞后融合蛋白tRv3194c定位于线粒体膜上,且重组痘苗病毒vTF7-3的感染有助于靶蛋白表达水平的提高。【结论】Rv3194蛋白的PDZ结构域与线粒体外膜相关蛋白结合,为了解该蛋白在细胞内的致病机制提供重要线索。     

Increased activity of only an individual non-regulated enzyme fructose-1,6-bisphosphate aldolase in <Emphasis Type="Italic">Anabaena</Emphasis> sp. strain PCC 7120 stimulates photosynthetic yield

The goal of this study was to investigate the contribution of increased activity of individual non-regulated enzymes in the Calvin cycle to improve photosynthetic yield. Two non-regulated enzymes, rice fructose-1,6-bisphosphate aldolase (FBA) and spinach triosephosphate isomerase (TPI), were individually cloned and overexpressed in the cyanobacterium Anabaena sp. strain PCC 7120 cells. The enzyme activity and the photosynthetic yield, as reflected by the cell growth rate, photosynthetic oxygen evolution and dry cellular weight, were measured and compared between the wild-type and transgenic cells harboring either FBA or TPI. Though the activity of these two individual non-regulated enzymes was similarly increased in the corresponding transgenic cells, the contributions of each enzyme on the amount of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco), reflected by the levels of Rubisco large subunit, and the photosynthetic yield were different. Transgenic cells, carrying FBA, showed an evident increase in Rubisco amount and photosynthetic yield, while there was no increase in cells harboring TPI. This indicates that the contributions of non-regulated enzymes in the Calvin cycle on photosynthetic yield differed and firstly reveals that increased activity of only a single non-regulated enzyme in transgenic cells markedly improves the photosynthetic yield via stimulating the amount of Rubisco and consequently accelerating the ribulose-1,5-bisphosphate (RuBP) regeneration rate.     

Physical and functional interaction between d-ribokinase and topoisomerase I has opposite effects on their respective activity in Mycobacterium smegmatis and Mycobacterium tuberculosis

d-ribose is an essential component of multiple important biological molecules and must first be phosphorylated by ribokinase before entering metabolic pathways. However, the function and regulation of ribokinases in Mycobacterium tuberculosis, the causative agent of tuberculosis, and its related species are largely unknown. In this study, we have characterized the activities of two putative ribokinases, Rv2436 and Ms4585, from M. tuberculosis and Mycobacterium smegmatis, respectively. The mycobacterial topoisomerase I (TopA) was found to physically interact with its ribokinase both in vitro and in vivo. By creating two ribokinase mutants that showed defective interactions with TopA, we further showed that the interaction between ribokinase and TopA had opposite effects on their respective function. While the interaction between the two proteins inhibited the ability of TopA to relax supercoiled DNA, it stimulated ribokinase activity. A cross-regulation assay revealed that the interaction between the two proteins was conserved in the two mycobacterial species. Thus, we uncovered an interplay between ribokinase and topoisomerase I in mycobacteria, which implies the existence of a novel regulatory strategy for efficient utilization of d-ribose in M. tuberculosis that may be useful in stressful environments with restricted access to nutrients.     

相对定量分析异烟肼、链霉素单耐药与多耐药结核分枝杆菌临床分离株的蛋白质组差异

【目的】探讨异烟肼(isoniazid,INH)、链霉素(streptomycin,SM)单耐药结核分枝杆菌(Mycobacterium tuberculosis,MTB)与INH/SM多耐药MTB蛋白质组差异。【方法】应用i TRAQ结合Nano LC-MS/MS定量蛋白质组学技术,分析临床分离INH、SM或INH/SM耐药MTB与H37Rv标准株间均表达差异蛋白;并以INH/SM耐药MTB与H37Rv比值为对照,相对定量分析单耐药与多耐药MTB蛋白表达差异倍数;运用DAVID 6.7分析差异蛋白生物功能;STITCH 5.0分析差异蛋白与INH和SM相互作用。【结果】与H37Rv标准株比较,58个蛋白在INH、SM耐药与INH/SM耐药MTB间均有表达差异,共同差异蛋白生物功能主要为氧化还原酶活性和转移酶活性;主要参与丙酸代谢信号通路。共同差异蛋白中,与INH/SM耐药MTB比较,Rv2986c和Rv1908c在INH、SM耐药MTB均表达上调1.25倍;Rv3133c和Rv0577则均表达下调0.7倍;生物信息学预测发现以上4种蛋白可直接或间接与INH、SM进行相互作用。【结论】INH、SM单耐药和INH/SM多耐药MTB蛋白表达谱有较大差异,蛋白Rv2986c、Rv1908c、Rv3133c和Rv0577表达水平及相互作用可能与INH和SM耐药有关。     

Increased activity of the non-regulated enzymes fructose-1,6-bisphosphate aldolase and triosephosphate isomerase in Anabaena sp. strain PCC 7120 increases photosynthetic yield

Non-regulated enzymes in the Calvin cycle are generally presumed to be less important for the regulation of photosynthetic yield. Here, to investigate the relationship between the activity of non-regulated enzymes and photosynthetic yield, two non-regulated enzymes in the Calvin cycle—a rice cytosolic fructose-1,6-bisphosphate aldolase (FBA) and a spinach chloroplast triosephosphate isomerase (TPI)—were cloned and co-expressed in cells of the cyanobacterium Anabaena sp. strain PCC 7120. The activity of FBA and TPI and the photosynthetic yield reflected by photosynthetic O₂ evolution and cell dry weight were measured and compared between wild-type and transgenic cells. Our results demonstrated that the activity of FBA and TPI were increased in transgenic cells relative to wild-type cells, and that activity was further increased in a transgenic strain harboring two sets of FBA-TPI tandem genes relative to cells containing one copy of the FBA-TPI tandem gene. The increased activity of FBA and TPI in Anabaena sp. strain PCC 7120 increased photosynthetic yield, with increased activity levels correlating closely with the degree of changes in photosynthetic yield. This implies that the photosynthetic yield is limited by the activity of the non-regulated enzymes FBA and TPI, and that the endogenous activity of non-regulated enzymes is not sufficient to increase photosynthetic yield. We discuss the various roles of FBA and TPI, and regulated and non-regulated enzymes, in modulating photosynthetic yield. W. Ma and L. Wei contributed equally to this work.     

Use of visual loop-mediated isotheral amplification of rimM sequence for rapid detection of Mycobacterium tuberculosis and Mycobacterium bovis

Mycobacterium tuberculosis and Mycobacterium bovis are pathogenic bacterial species in the genus Mycobacterium and the causative agents of most cases of tuberculosis (TB). Detection of M. tuberculosis and M. bovis using conventional culture- and biochemical-based assays is time-consuming and laborious. Therefore, a simple and sensitive method for rapid detection has been anxiously awaited. In the present study, a visual loop-mediated isothermal amplification (LAMP) assay was designed from the rimM (encoding 16S rRNA-processing protein) gene sequence and used to rapidly detect M. tuberculosis and M. bovis from clinical samples in South China. The visual LAMP reaction was performed by adding calcein and manganous ion, allowing the results to be read by simple visual observation of color change in a closed-tube system, and which takes less than 1 h at 65 °C. The assay correctly identified 84 M. tuberculosis isolates, 3 M. bovis strains and 1 M. bovis BCG samples, but did not detect 51 non-tuberculous mycobacteria (NTM) isolates and 8 other bacterial species. Sensitivity of this assay for detection of genomic DNA was 1 pg. Specific amplification was confirmed by the ladder-like pattern of gel electrophoresis and restriction enzyme HhaI digestion. The assay successfully detected M. tuberculosis and M. bovis not only in pure bacterial culture but also in clinical samples of sputum, pleural fluid and blood. The speed, specificity, sensitivity of the rimM LAMP, the lack of a need for expensive equipment, and the visual readout show great potential for clinical detection of M. tuberculosis and M. bovis.     

Detection of streptomycin resistance in Mycobacterium tuberculosis clinical isolates from China as determined by denaturing HPLC analysis and DNA sequencing

China is regarded by the World Health Organization as a major hot-spot region for Mycobacterium tuberculosis infection. Streptomycin has been deployed in China for over 50 years and is still widely used for tuberculosis treatment. We have developed a denaturing HPLC (DHPLC) method for detecting various gene mutations conferring drug resistance in M. tuberculosis. The present study focused on rpsL and rrs mutation analysis. Two hundred and fifteen M. tuberculosis clinical isolates (115 proved to be streptomycin-resistant and 100 susceptible by a routine proportional method) from China were tested to determine the streptomycin minimal inhibitory concentration (MIC), and subjected to DHPLC and concurrent DNA sequencing to determine rpsL and rrs mutations. The results showed that 85.2% (98/115) of streptomycin-resistant isolates harbored rpsL or rrs mutation, while rpsL mutation (76.5%, 88/115) dominated. MIC of 98 mutated isolates revealed no close correlation between mutation types and levels of streptomycin resistance. No mutation was found in any of the susceptible isolates. The DHPLC results were completely consistent with those of sequencing. The DHPLC method devised in this study can be regarded as a useful and powerful tool for detection of streptomycin resistance. This is the first report to describe DHPLC analysis of mutations in the rpsL and rrs genes of M. tuberculosis in a large number of clinical isolates.     

结核分枝杆菌EsxV脂质体纳米颗粒亚单位疫苗的制备及免疫学特性

本研究旨在制备脂质体纳米颗粒（lipid nanoparticles,LNP）为载体的结核分枝杆菌（Mycobacterium tuberculosis,Mtb）抗原EsxV亚单位疫苗,明确该疫苗经黏膜免疫诱导的免疫应答水平。采用薄膜分散法制备包裹蛋白EsxV和c-di-AMP的LNP （EsxV：C：L）,并对其包封率、LNP形态、粒径、表位电荷及多相分散指数进行了检测。EsxV：C：L滴鼻免疫BALB/c小鼠,检测免疫后血清和黏膜抗体、肺或脾细胞因子转录及分泌水平、肺T细胞亚群细胞比例。结果成功获得大小均一、呈球状、带负电的EsxV：C：L LNP亚单位疫苗。与EsxV：C相比,EsxV：C：L鼻黏膜接种可诱导小鼠呼吸道黏膜sIgA水平增加,脾细胞因子IL-2分泌水平升高,提高中央记忆T细和组织驻留T细胞的比例。综上,EsxV：C：L经黏膜免疫,可诱导更强的黏膜免疫和记忆性T细胞免疫应答,可能提供更好的抗Mtb感染的保护作用。     

Simplified amplified-fragment length polymorphism method for genotyping Mycobacterium tuberculosis isolates

A simplified amplified-fragment length polymorphism (AFLP) method was developed and applied to genotype 52 Mycobacterium tuberculosis isolates. This method can be carried out using only one restriction enzyme (XhoI), one double strand adapter, and one PCR primer. The amounts of DNA and DNA polymerase, and the concentrations of primer and Mg²⁺ in the PCR step were optimized using the Basic Sequential Simplex method. AFLP analysis of the isolates generated a total of 24 differently sized bands ranging from 1537 to 121 bp, and 52 different band patterns, with a minimum of 2 and a maximum of 13 bands. The results were compared with the well-established IS6110 restriction fragment length polymorphism (IS6110-RFLP) typing method, which rendered a total of 32 differently sized bands from 1 to 12 kbp, and 52 different band patterns, with a minimum of 3 and a maximum of 15 bands. Therefore, both genotyping methods showed a discriminatory power of samples of 100%. Nevertheless, pairwise comparisons of the 1326 similarity indexes calculated for both typing methods showed a total absence of correlation between the similarity indexes of the two methods. The simplified AFLP method is expected to be more useful for genotyping M. tuberculosis isolates compared to the IS6110-RFLP method, since the former evaluates genetic variations throughout the M. tuberculosis genome. Furthermore, the relatively rapid and low-cost simplified AFLP method compares favorably to the IS6110-RFLP or conventional AFLP methods, and shows great promise for genotyping M. tuberculosis isolates, especially in developing countries or for preliminary screening.     

Genes encoding a fructose-1,6-bisphosphate aldolase and a fructose-1,6-bisphosphatase are present within the gene cluster for mimosine degradation in Rhizobium sp. strain TAL1145

Rhizobium sp. strain TAL1145 can catabolize mimosine, a toxic amino acid produced by the tree-legume leucaena. The mid and pyd genes involved in mimosine degradation in TAL1145 are located in two clusters within a 25-kb region in the chromosome, which was cloned in plasmid pUHR263. A 5.5-kb EcoRI fragment, located between the mid and pyd genes in pUHR263, was characterized by sequencing and transposon-insertion mutagenesis and six open reading frames (ORF) were identified. Based on high homologies with other known proteins and conserved signature domains, ORF1 and ORF2 were identified as fba and fbp genes, encoding fructose-1,6-bisphosphate aldolase (FBA) and fructose-1,6-bisphosphatase (FBP), respectively. The fba mutant showed a slightly reduced growth rate compared to TAL1145 while the fbp mutant did not show any growth defects. Both mutants could catabolize mimosine and formed normal nitrogen-fixing nodules on leucaena, suggesting that these genes are not involved in mimosine degradation and symbiosis.