Overhang polarity of chromosomal double-strand breaks impacts kinetics and fidelity of yeast non-homologous end joining

Non-homologous end joining (NHEJ) is the main repair pathway for DNA double-strand breaks (DSBs) in cells with limited 5′ resection. To better understand how overhang polarity of chromosomal DSBs affects NHEJ, we made site-specific 5′-overhanging DSBs (5′ DSBs) in yeast using an optimized zinc finger nuclease at an efficiency that approached HO-induced 3′ DSB formation. When controlled for the extent of DSB formation, repair monitoring suggested that chromosomal 5′ DSBs were rejoined more efficiently than 3′ DSBs, consistent with a robust recruitment of NHEJ proteins to 5′ DSBs. Ligation-mediated qPCR revealed that Mre11-Rad50-Xrs2 rapidly modified 5′ DSBs and facilitated protection of 3′ DSBs, likely through recognition of overhang polarity by the Mre11 nuclease. Next-generation sequencing revealed that NHEJ at 5′ DSBs had a higher mutation frequency, and validated the differential requirement of Pol4 polymerase at 3′ and 5′ DSBs. The end processing enzyme Tdp1 did not impact joining fidelity at chromosomal 5′ DSBs as in previous plasmid studies, although Tdp1 was recruited to only 5′ DSBs in a Ku-independent manner. These results suggest distinct DSB handling based on overhang polarity that impacts NHEJ kinetics and fidelity through differential recruitment and action of DSB modifying enzymes.     

Modulation of DNA end joining by nuclear proteins

DNA double strand breaks in mammalian cells are primarily repaired by homologous recombination and non-homologous end joining (NHEJ). NHEJ may either be error-free or mutagenic with deletions or insertions at the joint. Recent studies showed that DNA ends can also be joined via microhomologous sequences flanking the break point especially when proteins responsible for NHEJ, such as Ku, are absent. Microhomology-mediated end joining (MHEJ) is always accompanied by a deletion that spans one of the two homologous sequences and the intervening sequence, if any. In this study we evaluated several factors affecting the relative contribution of MHEJ to DNA end joining using nuclear extracts and DNA substrates containing 10-bp repeats at the ends. We found that the occurrence of MHEJ is determined by the relative abundance of nuclear proteins. At low DNA/protein ratios, an error-free end-joining mechanism predominated over MHEJ. As the DNA/protein ratio increased, MHEJ became predominant. We show that the nuclear proteins that contribute to the inhibition of the error-prone MHEJ include Ku and histone H1. Treatment of extracts with flap endonuclease 1 antiserum significantly reduced MHEJ. Addition of a 17-bp intervening sequence between the microhomologous sequences significantly reduced the efficiency of MHEJ. Thus, this cell-free assay provides a platform for evaluating factors modulating end joining.     

Simple,sensitive and rapid HPLC–MS/MS method for the determination of cepharanthine in human plasma

A rapid, sensitive and specific method for the determination of cepharanthine in human plasma using high performance liquid chromatography coupled with tandem mass spectrometry (HPLC–MS/MS) was described. Cepharanthine and the internal standard (I.S.), telmisartan, were extracted from human plasma by methanol to precipitate the protein. A centrifuged upper layer was then evaporated and reconstituted with 100 μL methanol. Chromatographic separation was performed on an AGILENT XDB-C₈ column (150 mm × 2.1 mm, 5.0 μm, Agilent, USA) using a gradient mobile phase with 1 mmol/L ammonium acetate in water with 0.05% formic acid and methanol. Detection and quantitation was performed by MS/MS using electrospray ionization (ESI) and multiple reaction monitoring (MRM) in the positive ion mode. The most intense [M+H]⁺ MRM transition of cepharanthine at m/z 607.3 → 365.3 was used for quantitation and the transition at m/z 515.5 → 276.4 was used to monitor telmisartan. The calibration curve was linear within the concentration range of 0.5–200.0 ng/mL (r = 0.9994). The limit of quantification (LOQ) was 0.5 ng/mL. The extraction recovery was above 81.1%. The accuracy was higher than 92.3%. The intra- and inter-day precisions were less than 9.66%. The method was accurate, sensitive and simple and was successfully applied to a pharmacokinetic study after single intravenous administration of 50 mg cepharanthine in 12 healthy Chinese volunteers.     

Epitranscriptomic technologies and analyses

RNA can interact with RNA-binding proteins(RBPs), mRNA, or other non-coding RNAs(ncRNAs) to form complex regulatory networks. High-throughput CLIP-seq, degradome-seq, and RNA-RNA interactome sequencing methods represent powerful approaches to identify biologically relevant ncRNA-target and protein-ncRNA interactions. However, assigning ncRNAs to their regulatory target genes or interacting RNA-binding proteins(RBPs) remains technically challenging. Chemical modifications to mRNA also play important roles in regulating gene expression. Investigation of the functional roles of these modifications relies highly on the detection methods used. RNA structure is also critical at nearly every step of the RNA life cycle. In this review, we summarize recent advances and limitations in CLIP technologies and discuss the computational challenges of and bioinformatics tools used for decoding the functions and regulatory networks of ncRNAs. We also summarize methods used to detect RNA modifications and to probe RNA structure.     

Asymmetric reduction of ketopantolactone using a strictly (<Emphasis Type="Italic">R</Emphasis>)-stereoselective carbonyl reductase through efficient NADPH regeneration and the substrate constant-feeding strategy

Objectives

To characterize a recombinant carbonyl reductase from Saccharomyces cerevisiae (SceCPR1) and explore its use in asymmetric synthesis of (R)-pantolactone [(R)-PL].

Results

The NADPH-dependent SceCPR1 exhibited strict (R)-enantioselectivity and high activity in the asymmetric reduction of ketopantolactone (KPL) to (R)-PL. Escherichia coli, coexpressing SceCPR1 and glucose dehydrogenase from Exiguobacterium sibiricum (EsGDH), was constructed to fulfill efficient NADPH regeneration. During the whole-cell catalyzed asymmetric reduction of KPL, the spontaneous hydrolysis of KPL significantly affected the yield of (R)-PL, which was effectively alleviated by the employment of the substrate constant-feeding strategy. The established whole-cell bioreduction for 6 h afforded 458 mM (R)-PL with the enantiomeric excess value of >99.9% and the yield of 91.6%.

Conclusions

Escherichia coli coexpressing SceCPR1 and EsGDH efficiently catalyzed the asymmetric synthesis of (R)-PL through the substrate constant-feeding strategy.

     

Evaluation of antimicrobial activity of certain Chinese plants used in folkloric medicine

Six selected plants, belonging to 3 families from Nanjing of China, were extracted with the solvent 95% (v/v) ethanol to yield 11 extracts. The extracts were evaluated for their effects on the growth of eight clinical bacteria, two fungi and one yeast using a modified agar diffusion method. The results showed that the majority of the extracts investigated showed greater activities against the Gram-positive bacteria than against the Gram-negative bacteria, the fungi and the yeast. The strongest antimicrobial activity was exhibited by the stem extracts of Mahonia fortunei against multiresistant Staphylococcus aureus strains, followed by the stem extracts of Mahonia bealei, while Bacillus thuringiensis was the most sensitive to all extracts.     

乌司他丁联合连续性血液净化治疗重症脓毒症临床研究

目的：研究连续性血液净化联合乌司他丁对重症脓毒症患者炎症反应的影响及其临床疗效。方法：70例重症脓毒症患者随机分为对照组（n=22例）、CBP组（n=23例）和CBP＋乌司他丁组（n=25例）,其中对照组采用经典治疗方案,CBP组在此基础上加用连续性血液净化,CBP＋乌司他丁组在CBP组基础上加用乌司他丁治疗。观察比较患者病情发展,分别于治疗前后进行血液生化指标、凝血功能检测和动脉血气分析,ELISA法检测血清CRP水平。结果：①与对照组和CBP组相比,CBP＋鸟司他丁纽患者病死率、ICU住院时间、MODS发生率均明显下降（P〈0．05）。②经过治疗,CBP＋乌司他丁组患者APACHEⅡ评分降至15．46±3．96,与对照组（18．06±4．25）和CBP组（17．14±5．55）比较差异有统计学意义（P〈0．05）。③治疗后,患者BUN、HR降低程度依次为CBP＋乌司他丁组〉CBP组〉对照组,组问比较差异有显著性（P〈0．05）,而治疗前后PH值、HCO3-、MAP比较差并不明显（P〉0．05）。④CBP＋乌司他丁纽血清CRP含量下降,WBC数量减少,其变化程度明显大于CBP组和对照组（P〈0．05）。⑤对照组、CBP组和CBP＋乌司他丁组患者PT、TT和APTT时间延长,血小板数量下降,其中CBP＋鸟司他丁组PT、APTT时间短于CBP组和对照组（P〈0．05）。结论：连续性血液净化联合乌司他丁可有效抑制脓毒症患者炎症反应,缓解病情,改善患者预后。     

Epigenetic inactivation of the miR-124-1 in haematological malignancies

miR-124-1 is a tumour suppressor microRNA (miR). Epigenetic deregulation of miRs is implicated in carcinogenesis. Promoter DNA methylation and histone modification of miR-124-1 was studied in 5 normal marrow controls, 4 lymphoma, 8 multiple myeloma (MM) cell lines, 230 diagnostic primary samples of acute myeloid leukaemia (AML), acute lymphoblastic leukaemia (ALL), chronic myeloid leukaemia (CML), chronic lymphocytic leukaemia (CLL), MM, and non-Hodgkin's lymphoma (NHL), and 53 MM samples at stable disease or relapse. Promoter of miR-124-1 was unmethylated in normal controls but homozygously methylated in 4 of 4 lymphoma and 4 of 8 myeloma cell lines. Treatment of 5-Aza-2'-deoxycytidine led to miR-124-1 demethylation and re-expression of mature miR-124, which also associated with emergence of euchromatic trimethyl H3K4 and consequent downregulation of CDK6 in myeloma cells harboring homozygous miR-124-1 methylation. In primary samples at diagnosis, miR-124-1 methylation was absent in CML but detected in 2% each of MM at diagnosis and relapse/progression, 5% ALL, 15% AML, 14% CLL and 58.1% of NHL (p<0.001). Amongst lymphoid malignancies, miR-124-1 was preferentially methylated in NHL than MM, CLL or ALL. In primary lymphoma samples, miR-124-1 was preferentially hypermethylated in B- or NK/T-cell lymphomas and associated with reduced miR-124 expression. In conclusion, miR-124-1 was hypermethylated in a tumour-specific manner, with a heterochromatic histone configuration. Hypomethylation led to partial restoration of euchromatic histone code and miR re-expression. Infrequent miR-124-1 methylation detected in diagnostic and relapse MM samples showed an unimportant role in MM pathogenesis, despite frequent methylation found in cell lines. Amongst haematological cancers, miR-124-1 was more frequently hypermethylated in NHL, and hence warrants further study.     

Translation termination factor of eRFI of the ciliate Blepharisma japonicum recognizes all three stop codons

We have determined the type of stop codon specificity of Blepharisma japonicum translation termination factor eRF1 in an in vitro reconstituted eukaryotic translation system and in in vivo assay (the dual reporter system). We have shown that B. japonicum eRF1 retained specificity towards all three stop codons although efficiency of peptydyl-tRNA hydrolysis in the presence of UGA is reduced in an in vitro assay. We suggest that since the heterotrich B. japonicum represents the earliest diverged lineage on phylogenetic tree of ciliates, B. japonicum has the universal genetic code as ancestor group for all ciliates.