A thermoinducible lambda phage-ColE1 plasmid chimera for the overproduction of gene products from cloned DNA segments.

Two segments of lambda have been cloned into the multicopy plasmid pBR322. One extends from N through cII (NcII segment, from 71.3 to 81.0% on the physical map) and the other from N through P (NOP segment, from 71.3 to 86.5% on the physical map). Cells carrying these recombinant plasmids express lambda immunity (cIts) and Rex function. In addition, they decrease the efficiency of plating at 32 degrees C of lambdavir and lambdaimm434, but not that of lambdaimm21. Recombinant plasmids with lambdaNOP segments (pKC14, pKC16) differ from recombinant plasmid with labmdaNcII segment (pKC10) in two respects: (i) strains carrying pKC14 or pKC16 are killed at 42 degrees C, and (ii) these strains are thermally inducible for plasmid DNA synthesis, resulting in increase of plasmid copy number from an uninduced level of 50 to more than 130 per chromosome. It was suggested that both these differences are related to functions contained in the lambda DNA segment extending from 81.0 to 86.5%. The usefulness of plasmid pKC16 for overproduction of gene products from cloned DNA segments was demonstrated by cloning the E. coli exonuclease III gene (xth) in pKC16. Thermal induction of this xth plasmid (pSGr) results in a 125-fold increase in exonuclease III activity over that of a control strain lacking the xth gene insert. The extent of exonuclease III overproduction obtained by cloning xth gene in a lambda vector was similar to that obtained with pSGR3.     

Metastasis suppressor NME1 promotes non-homologous end joining of DNA double-strand breaks

NME1 (also known as NM23-H1) was the first identified tumor metastasis suppressor, which has been reported to link with genomic stability maintenance and cancer. However its underlying mechanisms are still not fully understood. Here we find that NME1 is required for non-homologous end joining (NHEJ) of DNA double-strand breaks (DSBs). Mechanistically, NME1 re-localizes to DNA damage sites in a Ku-XRCC4-dependent manner, and regulates downstream LIG4 recruitment and end joining efficiency. Furthermore, we show that the 3′-5′ exonuclease activity of NME1 is critical for its function in NHEJ. Taken together, our findings identify NME1 as a novel NHEJ factor, and reveal how this metastasis suppressor promotes genome stability.     

A direct proofreader–clamp interaction stabilizes the Pol III replicase in the polymerization mode

Processive DNA synthesis by the αεθ core of the Escherichia coli Pol III replicase requires it to be bound to the β₂ clamp via a site in the α polymerase subunit. How the ε proofreading exonuclease subunit influences DNA synthesis by α was not previously understood. In this work, bulk assays of DNA replication were used to uncover a non‐proofreading activity of ε. Combination of mutagenesis with biophysical studies and single‐molecule leading‐strand replication assays traced this activity to a novel β‐binding site in ε that, in conjunction with the site in α, maintains a closed state of the αεθ–β₂ replicase in the polymerization mode of DNA synthesis. The ε–β interaction, selected during evolution to be weak and thus suited for transient disruption to enable access of alternate polymerases and other clamp binding proteins, therefore makes an important contribution to the network of protein–protein interactions that finely tune stability of the replicase on the DNA template in its various conformational states.     

Hydrolysis of the 5'-p-nitrophenyl ester of TMP by oligoribonucleases (ORN) from Escherichia coli, Mycobacterium smegmatis, and human

Escherichia coli oligoribonuclease (EcoORN), encoded by the orn gene, is a 3'-5' exonuclease that degrades short single-stranded oligoribonucleotides to rNMPs in the final step of RNA degradation. The orn gene is essential in E. coli, but not in higher organisms, and close homologues are present in other genomes from the beta and gamma subdivisions of the Protobacteriaceae, including many pathogenic species. We report here the expression in E. coli of orn and homologues from Mycobacterium smegmatis and human, and large-scale purification of the three enzymes. All three were found to promote the hydrolysis of the 5'-p-nitrophenyl ester of TMP (pNP-TMP) with similar values of Michaelis-Menten parameters (k(cat)=100-650 min(-1), K(M)=0.4-2.0 mM, at pH 8.00 and 25 degrees C, with 1 mM Mn(2+)). Hydrolysis by pNP-TMP by all three enzymes depended on a divalent metal ion, with Mn(2+) being preferred over Mg(2+) as cofactor, and was inhibited by Ni(2+). The concentration dependency of Mn(2+) was examined, giving K(Mn) values of 0.2-0.6 mM. The availability of large amounts of the purified enzymes and a simple spectrophotometric assay for ORN activity should facilitate large-scale screening for new inhibitors of bacterial oligoribonucleases.     

Effects of cations on small fragment of DNA polymerase I using a novel FRET assay

DNA polymerase I （Poll） digested by protease produces a small fragment （SF） containing 5~--~3~ exonuclease activity. The 5~-~3＇ exonuclease activity of poll cleaves the down- stream RNA primer strands during DNA replication in vivo. Previous in vitro studies suggested its capability of cleaving duplex from 5＇ terminal and a flap-structure-spe- cific endonuclease activity. From the crystal structures of other nucleases and biochemical data, a two-metal-ion mechanism has been proposed but has not been deter- mined. In this study, we cloned, expressed, and purified the SF protein, and established a novel fluorescence resonance energy transfer （FRET） assay to analyze the catalytic activ- ity of the SF protein. The effects of several metal ions on its catalytic capability were analyzed using this FRET assay. Results showed that Mg2＋, Mn2＋, and Zn2＋ were able to activate the cleavage of SF, while Ca2＋, Ni2＋, and Co2＋ were not suitable for SF catalysis. The effects of K＋, Na＋, and dNTP were also determined.     

Recombination in Escherichia coli. VI. Characterization of a recombination-deficient mutation with unusual properties

A detailed study of the rec-34 mutation shows that this mutation is located near pheA on the E. coli chromosome, like the recA and recH genes. The rec-34 recipients, which are radiation-sensitive and “reckless”, yield about 0.1–1% of the number of recombinants obtained with a Rec⁺ recipient in conjunction experiments. The recombinants obtained in conjunction experiments, in which rec-4⁺ allele transfer is avoided, are still recombination deficient.rec-34 definitely is not a mutation in the recH gene. Although definite proof is lacking we suggest that rec-34 is an unusual recA mutation.     

miRNA的异构体——isomiR

最近,深度测序技术揭示:同一个miRNA前体可能由于Drosha或Dicer的剪切位点改变,外切核酸酶介导的miRNA末端缩短,miRNA编辑或miRNA 3'末端无需模板的核苷酸添加等4种原因,而形成多种长度或序列不同的miRNAs异构体—isomiR.因为这些isomiR与已注解的miRNA可以调节同一个靶标,也可以靶向不同的靶标,所以它们不仅扩大了miRNA调节的范围,而且还有可能代表了每种miRNA基于isomiR的一种微型调节网络.研究发现,isomiR的表达具有细胞、组织、发育和疾病状况等特异性,并且很多人类疾病的致病机制也与它们有关,推测isomiR将来不仅有可能成为疾病诊断或治疗的生物学标记或靶标,而且相关的研究还对于RNA干扰技术也具有重要的指导意义.本文主要综述了isomiR的研究进展,并对isomiR应用前景做了展望.     

Construction of linear functional expression elements with DNA fragments created by site-specific DNA nickase, N.Bpu10 I, and exonuclease III

A method to assemble linear expression elements for rapid gene expression is described. Primers containing target specific sequences and N.Bpu10 I nickase recognition sites were used to amplify promoter, open reading frame and terminator fragments. Amplified fragments were treated with N.Bpu10 I nickase and exonuclease III to generate overhangs for directional ligation. These fragments were ligated and further amplified with element-specific primers. The amplified DNA was transfected into mammalian cells for gene expression.