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31.
The subcellular localization of the exoribonuclease RNase II is not known despite the advanced biochemical characterization of the enzyme. Here we report that RNase II is organized into cellular structures that appear to coil around the Escherichia coli cell periphery and that RNase II is associated with the cytoplasmic membrane by its amino-terminal amphipathic helix. The helix also acts as an autonomous transplantable membrane binding domain capable of directing normally cytoplasmic proteins to the membrane. Assembly of the organized cellular structures of RNase II required the RNase II amphipathic membrane binding domain. Co-immunoprecipitation of the protein from cell extracts indicated that RNase II interacts with itself. The RNase II self-interaction and the ability of the protein to assemble into organized cellular structures required the membrane binding domain. The ability of RNase II to maintain cell viability in the absence of the exoribonuclease polynucleotide phosphorylase was markedly diminished when the RNase II cellular structures were lost due to changes in the amphipathicity of the amino-terminal helix, suggesting that membrane association and assembly of RNase II into organized cellular structures play an important role in the normal function of the protein within the bacterial cell. 相似文献
32.
Filomena Sica Andrea Pica Antonello Merlino Irene Russo Krauss Carmine Ercole Delia Picone 《FEBS letters》2013
Bovine seminal ribonuclease (BS-RNase) acquires an interesting anti-tumor activity associated with the swapping on the N-terminal. The first direct experimental evidence on the formation of a C-terminal swapped dimer (C-dimer) obtained from the monomeric derivative of BS-RNase, although under non-native conditions, is here reported. The X-ray model of this dimer reveals a quaternary structure different from that of the C-dimer of RNase A, due to the presence of three mutations in the hinge peptide 111–116. The mutations increase the hinge peptide flexibility and decrease the stability of the C-dimer against dissociation. The biological implications of the structural data are also discussed. 相似文献
33.
Yaou Shen Zhou Jiang Sifen Lu Haijian Lin Shibin Gao Huanwei Peng Guangsheng Yuan Li Liu Zhiming Zhang Maojun Zhao Tingzhao Rong Guangtang Pan 《Biochemical and biophysical research communications》2013
Genetic transformation of maize is highly dependent on the development of embryonic calli from the dedifferentiated immature embryo. To better understand the regulatory mechanism of immature embryo dedifferentiation, we generated four small RNA and degradome libraries from samples representing the major stages of dedifferentiation. More than 186 million raw reads of small RNA and degradome sequence data were generated. We detected 102 known miRNAs belonging to 23 miRNA families. In total, we identified 51, 70 and 63 differentially expressed miRNAs (DEMs) in the stage I, II, III samples, respectively, compared to the control. However, only 6 miRNAs were continually up-regulated by more than fivefold throughout the process of dedifferentiation. A total of 87 genes were identified as the targets of 21 DEM families. This group of targets was enriched in members of four significant pathways including plant hormone signal transduction, antigen processing and presentation, ECM-receptor interaction, and alpha-linolenic acid metabolism. The hormone signal transduction pathway appeared to be particularly significant, involving 21 of the targets. While the targets of the most significant DEMs have been proved to play essential roles in cell dedifferentiation. Our results provide important information regarding the regulatory networks that control immature embryo dedifferentiation in maize. 相似文献
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《Bioscience, biotechnology, and biochemistry》2013,77(4):910-912
We previously isolated from Nicotiana glutinosa leaves three distinct cDNA clones, NGR1, NGR2, and NGR3, encoding a wound-inducible RNase NW, and putative RNases NGR2 and NGR3, respectively. In this study, we produced RNases NW and NGR3 in Escherichia coli and purified them to homogeneity. RNase NGR3 had non-absolute specificity toward polynucleotides, although RNase NW preferentially cleaved polyinosinic acid (Poly I). Both RNases NW and NGR3 were more active toward diribonucleoside monophosphates ApG, CpU, and GpU. Furthermore, kinetic parameters for RNase NW (K m, 0.778 mM and k cat, 1938 min?1) and RNase NGR3 (K m, 0.548 mM and k cat, 408 min?1) were calculated using GpU as a substrate. 相似文献
35.
《Bioscience, biotechnology, and biochemistry》2013,77(2):394-396
The activated structure of RNase P RNA (PhopRNA) in Pyrococcus horikoshii OT3 was characterized by circular dichroism (CD) and ultraviolet (UV) absorbance spectra. The results suggested that interaction of four RNase P proteins (PhoPop5, PhoRpp21, PhoRpp29, and PhoRpp30) with PhopRNA results in destabilization of base stacking in PhopRNA, whereas the addition of a fifth protein, PhoRpp38, increases base stacking in PhopRNA. 相似文献
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《DNA Repair》2019
DNA replication, the faithful copying of genetic material, must be tightly regulated to produce daughter cells with intact copies of the chromosome(s). This regulated replication is initiated by binding of specific proteins at replication origins, such as DnaA to oriC in bacteria. However, unregulated replication can sometimes be initiated at other sites, which can threaten genomic stability. One of the first systems of unregulated replication to be described is the one activated in Escherichia coli mutants lacking RNase HI (rnhA). In fact, rnhA mutants can replicate their chromosomes in a DnaA- and oriC-independent process. Because this replication occurs in cells lacking RNase HI, it is proposed that RNA from R-loops is used as a DNA polymerase primer. Replication from R-loops has recently attracted increased attention due to the advent of DNA:RNA hybrid immunoprecipitation coupled with high-throughput DNA sequencing that revealed the high prevalence of R-loop formation in many organisms, and the demonstration that R-loops can severely threaten genomic stability. Although R-loops have been linked to genomic instability mostly via replication stress, evidence of their toxic effects via unregulated replication has also been presented. Replication from R-loops may also beneficially trigger stress-induced mutagenesis (SIM) that assists bacterial adaptation to stress. Here, we describe the cis- and trans-acting elements involved in R-loop-dependent replication in bacteria, with an emphasis on new data obtained with type 1A topoisomerase mutants and new available technologies. Furthermore, we discuss about the mechanism(s) by which R-loops can reshape the genome with both negative and positive outcomes. 相似文献
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