LC-NMR: a new tool to expedite the dereplication and identification of natural products

The rapid identification of known or undesirable compounds from natural products extracts — “dereplication” — is an important step in an efficiently run natural products discovery program. Dereplication strategies use analytical techniques and database searching to determine the identity of an active compound at the earliest possible stage in the discovery process. In the past few years, advances in technology have allowed the development of tandem analytical techniques such as liquid chromatography mass spectrometry (LC-MS), LC-MS-MS, liquid chromatography nuclear magnetic resonance (LC-NMR), and LC-NMR-MS. LC-NMR, despite its lower sensitivity as compared to LC-MS, provides a powerful tool for rapid identification of known compounds and identification of structure classes of novel compounds. LC-NMR is especially useful in instances where the data from LC-MS are incomplete or do not allow confident identification of the active component of a sample. LC-NMR has been used to identify the marine alkaloid aaptamine as the active component in an extract of the sponge Aaptos sp. This extract had been identified as an enzyme inhibitor by a high throughput screening (HTS) effort. Isolated aaptamine exhibited an IC₅₀=120 μM against this enzyme. Strategies for the identification of aaptamine and for the use of LC-NMR in a natural products HTS program are discussed. Journal of Industrial Microbiology & Biotechnology (2000) 25, 342–345. Received 30 March 2000/ Accepted in revised form 03 July 2000     

丝状真菌Podospora anserina中光敏色素基因的鉴定及功能分析

光敏色素在细菌和植物发育中起着关键作用,但它们在真菌中的生物学功能尚不完全清楚。【目的】探究光敏色素基因PaPhy1和PaPhy2在Podospora anserina有性生殖和无性发育中的作用及其调控机制。【方法】利用同源重组方法对P.anserina中2个光敏色素基因PaPhy1和PaPhy2进行定点敲除,获得光敏色素基因缺失菌株ΔPaPhy1和ΔPaPhy2,并通过遗传杂交构建双重突变体ΔPaPhy1ΔPaPhy2;分析突变型菌株和野生型菌株在不同光照下有性生殖、无性发育、生长速率和活性氧代谢等方面的差异,明确光敏色素基因在P.anserina中的主要功能。【结果】白光和蓝光诱导P.anserina子实体的形成,ΔPaPhy在光照下产生子实体的数量减少,ΔPaPhy的生命周期延长。【结论】光敏色素基因与P.anserina有性生殖密切相关;ΔPaPhy的衰老延迟和活性氧代谢有关。本研究的结果为进一步探索光照对丝状真菌繁殖调控机制以及抗衰老研究提供了新的思路。     

The MAT A locus of the dimorphic yeast Yarrowia lipolytica consists of two divergently oriented genes

The MAT A locus of Yarrowia lipolytica, which was on the basis of its ability to induce sporulation in a diploid B/B strain, represses the mating capacity of this strain. The gene functions required for induction of sporulation and repression of conjugation could be separated by subcloning. Sequence analysis revealed two ORFs in the MAT A locus. One of them (MAT A1) codes for a protein of 119 amino acids which is required to induce sporulation. The other (MAT A2) codes for a protein of 291 amino acids that is able to repress conjugation. Both genes are oriented divergently from a central promoter region, which possesses putative TATA and CAAT boxes for both genes. The product of MAT A1 shows no homology to any known protein and seems to represent a new class of mating-type genes. MAT A2 contains a HMG box with homology to other mating-type genes. Both MAT A1 and MAT A2 are mating-type specific. In cells of both mating types, the regions flanking the MAT A locus contain sequences with homology to either S. cerevisiae SLA2 and ORF YBB9, respectively. From hybridization and subcloning data we estimate that the MAT A region is approximately 2 kb long and is present only once in the genome. Received: 25 January 1999 / Accepted: 16 April 1999     

Yeast and drug discovery

Advanced genetic techniques, along with the high degree of conservation of basic cellular processes, have made the yeast Saccharomyces cerevisiae a valuable system for identification of new drug targets, target-based and non-target-based drug screening, and detailed analysis of the cellular effects of drugs. Yeast also presents a convenient system for antifungal drug discovery because it is closely related to Candida albicans, a major human pathogen. Many yeast genes remain poorly characterized, and most of the sophisticated techniques in yeast have been in widespread use less than a decade – a period shorter than the typical cycle from target identification to marketing approval for a new drug. It is likely that most of the benefits of yeast in discovery and development of therapeutic compounds have yet to be realized. Electronic Publication     

Suppressor analysis of the mpt5/htr1/uth4/puf5 deletion in Saccharomyces cerevisiae

The MPT5/HTR1/UTH4/PUF5 gene encodes an RNA-binding Puf-family protein in Saccharomyces cerevisiae. The Δmpt5 cells exhibit pleiotropic phenotypes, including the G2/M arrest of the cell cycle and weakened cell wall at high temperatures. The Δmpt5 disruptant was also hydroxyurea (HU) sensitive. In this study we screened deletion suppressors to rescue the temperature sensitivity of Δmpt5, and identified dsf1 (YEL070W), dsf2 (YBR007C), sir2, sir3, sir4 and swe1. Multicopy suppressors identified were PKC1 and its upstream genes, but not the downstream MAPK cascade genes. The overexpression of PKC1, however, did not suppress the HU sensitivity of Δmpt5. In contrast, both the HU- and temperature-sensitivities of a-type Δmpt5 cells were suppressed by each sir deletion or a multicopy of MATα2, suggesting that a diploid-type expression is involved. We found that a diploid-specific IME4 gene encoding an RNA-modifying protein was responsible for the suppression of the temperature sensitivity, but not of the HU sensitivity. Furthermore, the suppression of the HU sensitivity depended on PUF4, another Puf-family gene, and overexpression of PUF4 suppressed only the HU sensitivity of Δmpt5. The protein level of Puf4 was not affected by the sir mutation. Thus, these Ime4 and Puf4 proteins play complementary roles to rescue the defects in Δmpt5 Δsir cells.     

Sweet home actinomycetes: The 1999 MDS Panlabs Lecture

For the past 25 years, I have devoted most of my research efforts to the application of molecular genetics to yield improvement and production of novel secondary metabolites in actinomycetes. My group at Lilly Research Laboratories worked with a variety of Streptomyces species and with strains of Amycolatopsis and Saccharopolyspora. We developed molecular genetic tools to manipulate actinomycete genes, and applied them to important secondary metabolites, including tylosin, daptomycin, vancomycin, chloroeremomycin, and spinosyns. In the early years, I helped establish recombinant DNA technology to manufacture mammalian proteins, and more recently, helped implement microbial genomics as a research tool for antibiotic discovery. In this paper, I review some highlights, primarily from the actinomycete work. Journal of Industrial Microbiology & Biotechnology (2000) 24, 79–88. Received 25 October 1999/ Accepted in revised form 12 November 1999     

Codon optimization of bacterial luciferase (lux) for expression in mammalian cells

Expression of the bacterial luciferase (lux) system in mammalian cells would culminate in a new generation of bioreporters for in vivo monitoring and diagnostics technology. Past efforts to express bacterial luciferase in mammalian cells have resulted in only modest gains due in part to low overall expression of the bacterial genes. To optimize expression, we have designed and synthesized codon-optimized versions of the luxA and luxB genes from Photorhabdus luminsecens. To evaluate these genes in vivo, stable HEK293 cell lines were created harboring wild type luxA and luxB (WTA/WTB), codon-optimized luxA and wild type luxB (COA/WTB), and codon-optimized versions of both luxA and luxB genes (COA/COB). Although mRNA levels within these clones remained approximately equal, LuxA protein levels increased significantly after codon optimization. On average, bioluminescence levels were increased by more than six-fold [5×10⁵ vs 2.9×10⁶ relative light units (RLU)/mg total protein] with the codon-optimized luxA and wild type luxB. Bioluminescence was further enhanced upon expression of both optimized genes (2.7×10⁷ RLU/mg total protein). These results show promise toward the potential development of an autonomous light generating lux reporter system in mammalian cells     

Cloning and expression of the HIV protein in <Emphasis Type="Italic">Escherichia coli</Emphasis> cell-free system

Sixteen kinds of human immunodeficiency virus (HIV) target genes were cloned by polymerase chain reaction (PCR) amplification, and specific plasmids were constructed as the templates for the expression of these genes in the cell-free system. Similarly, the linear PCR templates of these genes for cell-free protein expression were also constructed by using two PCR amplification process. These different templates can be employed to biosynthesize HIV proteins in the cell-free system simultaneously and can be adapted for some high-throughput processes. HIV protease (P10) was performed as a target protein, and two different templates (plasmid and PCR product) were prepared and used for P10 expression in the Escherichia coli cell-free system. The target protein P10 was detected in sodium dodecyl sulfate–polyacrylamide gel electrophoresis gels either by using a plasmid template or by a PCR template. These results are promising and helpful to develop a high throughput process for drug discovery.     

Development of marker-free strains of Bacillus subtilis capable of secreting high levels of industrial enzymes

Different strategies have been employed to achieve high-level expression of single-copy genes encoding secreted enzymes in Bacillus subtilis. A model system was developed which utilizes the aprL gene from Bacillus clausii as a reporter gene for monitoring expression levels during stationary phase. An exceptionally strong promoter was constructed by altering the nuceotide sequence in the −10 and −35 regions of the promoter for the amyQ gene of Bacillus amyloliquefaciens. In addition, two or three tandem copies of this promoter were shown to increase expression levels substantially in comparison to the monomer promoter alone. Finally, the promoter and mRNA stabilization sequences derived from the cry3A gene of Bacillus thuringiensis were used in combination with the mutant amyQ promoter to achieve the highest levels of aprL expression. These promoters were shown to be fully functional in a high-expressing Bacillus strain grown under industrial fermentation conditions. The ability to obtain maximum expression levels from a single copy gene now makes it feasible to construct environmentally friendly, marker-free industrial strains of B. subtilis. Journal of Industrial Microbiology & Biotechnology (2000) 25, 204–212. Received 05 January 2000/ Accepted in revised form 26 June 2000     

Rice has two distinct classes of protein kinase genes related to SNF1 of Saccharomyces cerevisiae , which are differently regulated in early seed development

We have isolated five cDNA clones (osk1–5) for protein kinases from rice which are related to SNF1 protein kinase of Saccharomyces cerevisiae. Based on the sequence homology, these cDNAs can be classified into two groups, group 1 (osk1) and group 2 (osk2–5). The products of these genes were demonstrated to be functional SNF1-related protein kinases by in vitro and in vivo experiments. Recombinant proteins expressed from both groups of genes were fully active as protein kinases and could phosphorylate SAMS peptide, a substrate specific for the SNF1/AMPK family, as well as themselves (autophosphorylation). Moreover, expression of osk3 cDNA in yeast snf1 mutants restored SNF1 function. Northern blot analyses showed differential expression of these two gene groups; group 1 is expressed uniformly in growing tissues (young roots, young shoots, flowers, and immature seeds), whereas group 2 is strongly expressed in immature seeds. SNF1-related protein kinases have been reported from different plant species, such as rye, barley, Arabidopsis, tobacco, and potato, while the type of gene strongly expressed in immature seeds is known only in cereals such as rye, barley, and, from our findings, in rice. Expression levels of the group 2 genes were further analyzed in seeds during seed maturation. Expression is transiently increased in the early stages of seed maturation and then decreases. The expression peak precedes those of the sbe1 and waxy genes, which are involved in starch synthesis in rice. Taken together, these findings suggest that group 2 OSK genes play important roles in the early stages of endosperm development in rice seeds. Received: 30 April 1998 / Accepted: 20 August 1998     

Identification of a Potential Lead Structure for Designing New Antimicrobials to Treat Infections Caused by Staphylococcus epidermidis-Resistant Strains

Bacterial infections are a significant cause of morbidity and mortality among critically ill patients. The increase of antibiotic resistance in bacteria from human microbiota—such as Staphylococcus epidermidis, an important nosocomial pathogen that affects immunocompromised patients or those with indwelling devices—increased the desire for new antibiotics. In this study we designed, synthesized, and determined the antimicrobial activity of 27 thieno[2,3-b]pyridines (1, 2, 2a–2m, 3, 3a–3m) derivatives against a drug-resistant clinical S. epidermidis strain. In addition, we performed a structure-activity relationship analysis using a molecular modeling approach, and discuss the drug absorption, distribution, metabolism, excretion, and toxicity profile and Lipinski’s “rule of five,” which are tools to assess the relationship between structures and drug-like properties of active compounds. Our results showed that compound 3b (5-(1H-tetrazol-5-yl)-4-(3`-methylphenylamino)thieno[2,3-b]pyridine) was as active as oxacillin and chloramphenicol but with lower theoretical toxicity risks and a better drug likeness and drug score potential than chloramphenicol. All molecular modeling and biological results reinforced the promising profile of 3b for further experimental investigation and development of new antibacterial drugs. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

EXO1 and MSH4 differentially affect crossing-over and segregation

The 5′-3′ exonuclease Exo1p from Saccharomyces cerevisiae is required for wild-type levels of meiotic crossing-over and normal meiotic chromosome segregation as is the meiosis-specific MutS homologue, Msh4p. Mutations in both genes reduce crossing-over by approximately two-fold, but Δmsh4 strains have significantly lower viability and a higher frequency of meiosis I non-disjunction. Epistasis analysis indicates a complex interaction between the two genes. Although crossing-over was not detectably lower in the double mutant, viability was significantly worse than either single mutant. Such a result suggests that the two genes are affecting meiotic viability by distinct mechanisms. We propose that Δexo1 affects chromosome segregation by reducing crossing-over, while Δmsh4 affects both the frequency and distribution of crossovers. Mutation in EXO1 reduces gene conversion frequencies significantly at some but not all loci, suggesting that other enzymes are also involved in DNA resection. We propose that Exo1p plays an early role in establishing some recombination intermediates by generating single-stranded tails. The role of Msh4p is suggested to be in determining whether some recombination intermediates are resolved as crossover events and in generating crossover interference. The synergistic effect of Δexo1Δmsh4 on spore viability suggests that the two genes have partially compensatory roles in a process affecting meiotic success. Received: 10 November 1999; in revised form: 14 January 2000 / Accepted: 14 January 2000     

Exogenous ethylene influences flower opening of cut roses (<Emphasis Type="Italic">Rosa hybrida</Emphasis>) by regulating the genes encoding ethylene biosynthesis enzymes

The purpose of this paper is to investigate the differential responses of flower opening to ethylene in two cut rose cultivars, ‘Samantha’, whose opening process is promoted, and ‘Kardinal’, whose opening process is inhibited by ethylene. Ethylene production and 1-aminocyclopropane-1-carboxylate (ACC) synthase and oxidase activities were determined first. After ethylene treatment, ethylene production, ACC synthase (ACS) and ACC oxidase (ACO) activities in petals increased and peaked at the earlier stage (stage 3) in ‘Samantha’, and they were much more dramatically enhanced and peaked at the later stage (stage 4) in ‘Kardinal’ than control during vasing. cDNA fragments of three Rh-ACSs and one Rh-ACO genes were cloned and designated as Rh-ACS1, Rh-ACS2, Rh-ACS3 and Rh-ACO1 respectively. Northern blotting analysis revealed that, among three genes of ACS, ethylene-induced expression patterns of Rh-ACS3 gene corresponded to ACS activity and ethylene production in both cultivars. A more dramatic accumulation of Rh-ACS3 mRNA was induced by ethylene in ‘Kardinal’ than that of ‘Samantha’. As an ethylene action inhibitor, STS at concentration of 0.2 mmol/L generally inhibited the expression of Rh-ACSs and Rh-ACO in both cultivars, although it induced the expression of Rh-ACS3 transiently in ‘Kardinal’. Our results suggests that ‘Kardinal’ is more sensitive to ethylene than ‘Samantha’; and the changes of Rh-ACS3 expression caused by ethylene might be related to the acceleration of flower opening in ‘Samantha’ and the inhibition in ‘Kardinal’. Additional results indicated that three Rh-ACSs genes were differentially associated with flower opening and senescence as well as wounding.     

The Macrostomum lignano EST database as a molecular resource for studying platyhelminth development and phylogeny

We report the development of an Expressed Sequence Tag (EST) resource for the flatworm Macrostomum lignano. This taxon is of interest due to its basal placement within the flatworms. As such, it provides a useful comparative model for understanding the development of neural and sensory organization. It was anticipated on the basis of previous studies [e.g., Sánchez-Alvarado et al., Development, 129:5659–5665, (2002)] that a wide range of developmental markers would be expressed in later-stage macrostomids, and this proved to be the case, permitting recovery of a range of gene sequences important in development. To this end, an adult Macrostomum cDNA library was generated and 7,680 Macrostomum ESTs were sequenced from the 5′ end. In addition, 1,536 of these aforementioned sequences were sequenced from the 3′ end. Of the roughly 5,416 non-redundant sequences identified, 68% are similar to previously reported genes of known function. In addition, nearly 100 specific clones were obtained with potential neural and sensory function. From these data, an annotated searchable database of the Macrostomum EST collection has been made available on the web. A major objective was to obtain genes that would allow reconstruction of embryogenesis, and in particular neurogenesis, in a basal platyhelminth. The sequences recovered will serve as probes with which the origin and morphogenesis of lineages and tissues can be followed. To this end, we demonstrate a protocol for combined immunohistochemistry and in situ hybridization labeling in juvenile Macrostomum, employing homologs of lin11/lim1 and six3/optix. Expression of these genes is shown in the context of the neuropile/muscle system.     

分枝杆菌LY-1内源性表达元件的筛选及其在降低Cas9蛋白毒性中的应用

【背景】分枝杆菌LY-1因能够将天然植物甾醇代谢转化为重要甾体药物中间体,目前已成为工业上的优势生产菌株。高效的CRISPR/Cas9基因编辑技术是工业菌株代谢工程改造进行产量性状提升的关键。然而由于Cas9蛋白的高表达毒性问题且分枝杆菌中已公开报道的可用表达元件较少,极大地限制了Cas9蛋白在该菌株中的适度表达。【目的】筛选内源性表达元件,利用合适的表达元件启动Cas9蛋白的表达,降低其对菌株的毒性。【方法】依据文献和前期研究获得的分枝杆菌基因转录组水平数据,并结合启动子在线预测网站BDGP(https://www.fruitfly.org/seq＿tools/promoter.html),筛选内源性表达元件。以增强型绿色荧光蛋白作为报告基因对表达元件的强度进行评估,并采用不同强度的表达元件启动Cas9蛋白的表达。【结果】获得了23个不同表达强度的表达元件,采用中等强度的表达元件及弱表达元件都降低了Cas9蛋白对分枝杆菌LY-1的毒性,实现了Cas9蛋白在该菌株中的适度表达。【结论】建立了分枝杆菌LY-1内源性表达元件库,为后续菌株中高效CRISPR/Cas9基因编辑技术的构建及关键...     

Molecular characterization of two light-induced, gamete-specific genes from Chlamydomonas reinhardtii that encode hydroxyproline-rich proteins

Gametic differentiation in Chlamydomonas reinhardtii is a two-step process, which is controlled by the sequential action of the two extrinsic signals, nitrogen starvation and blue light. The gamete-specific genes GAS28 and GAS29 are expressed in the late phase of gametogenesis. Their light-induced expression is restricted to cells that have completed the first, nitrogen starvation-activated, phase of differentiation. A comparison of the two genes revealed striking similarities as well as differences. Their most prominent shared feature is an extended sequence homology of over 90% in their 5′-untranslated regions, suggesting a role in translational regulation. GAS28 and GAS29 both encode hydroxyproline-rich proteins (HRGPs) of very similar sizes that exhibit typical features of volvocalean cell wall constituents. GAS28 shows a high degree of homology with the Volvox pherophorin gene family, suggesting a relationship between these genes. Received: 6 August 1998 / Accepted: 16 November 1998     

鹌鹑源鼠伤寒沙门氏菌的分离鉴定与耐药性分析

【背景】在鹌鹑养殖过程中,抗菌药物和消毒剂的不规范使用加剧了耐药菌株在动物、场所和食品之间的相互传播,因此,掌握致病菌株在养殖动物中的耐药状况至关重要。【目的】检测北京周边地区鹌鹑蛋源致病菌株的耐药特征和耐药基因的流行情况。【方法】在天津市武清区部分鹌鹑养殖场采集鹌鹑泄殖腔粪便、鹌鹑蛋表、养殖环境和鹌鹑饮水的样品,通过细菌分离培养、菌落形态观察、染色镜检、生化鉴定、血清分型、沙门氏菌inv A基因序列测定等方法对分离菌株进行鉴定。同时进行小鼠攻毒试验,测定小鼠半数致死量(median lethal dose, LD50)。再通过药敏试验和PCR方法对分离菌的耐药表型、耐药基因及毒力基因进行检测。【结果】分离菌株菌落颜色、镜检形态和生化试验结果符合沙门氏菌特性,沙门氏菌inv A基因序列测定与鼠伤寒沙门氏菌参考株相似度为99.44%,鉴定为鼠伤寒沙门氏菌,血清型为1,4,[5],[12]:i:l,2。该菌株对小鼠有致病作用,小鼠LD50为2.10×107 CFU/mL;药敏试验结果显示该菌株对氨苄西林、阿莫西林/克拉维酸、头孢噻呋、链霉素、磺胺甲啞唑、磺胺异啞唑、诺氟沙星、环丙沙星表现耐...