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51.
Dynamic viral populations in hypersaline systems as revealed by metagenomic assembly 总被引:1,自引:0,他引:1
JB Emerson BC Thomas K Andrade EE Allen KB Heidelberg JF Banfield 《Applied and environmental microbiology》2012,78(17):6309-6320
Viruses of the Bacteria and Archaea play important roles in microbial evolution and ecology, and yet viral dynamics in natural systems remain poorly understood. Here, we created de novo assemblies from 6.4 Gbp of metagenomic sequence from eight community viral concentrate samples, collected from 12 h to 3 years apart from hypersaline Lake Tyrrell (LT), Victoria, Australia. Through extensive manual assembly curation, we reconstructed 7 complete and 28 partial novel genomes of viruses and virus-like entities (VLEs, which could be viruses or plasmids). We tracked these 35 populations across the eight samples and found that they are generally stable on the timescale of days and transient on the timescale of years, with some exceptions. Cross-detection of the 35 LT populations in three previously described haloviral metagenomes was limited to a few genes, and most previously sequenced haloviruses were not detected in our samples, though 3 were detected upon reducing our detection threshold from 90% to 75% nucleotide identity. Similar results were obtained when we applied our methods to haloviral metagenomic data previously reported from San Diego, CA: 10 contigs that we assembled from that system exhibited a variety of detection patterns on a timescale of weeks to 1 month but were generally not detected in LT. Our results suggest that most haloviral populations have a limited or, possibly, a temporally variable global distribution. This study provides high-resolution insight into viral biogeography and dynamics and it places "snapshot" viral metagenomes, collected at a single time and location, in context. 相似文献
52.
Rapidly evolving CRISPRs implicated in acquired resistance of microorganisms to viruses 总被引:4,自引:0,他引:4
Recent experimental evidence has demonstrated that bacteria acquire resistance to viruses by incorporation of short transcribed nucleotide sequences into regions of clustered regularly interspaced short palindromic repeats (CRISPR). We have analysed community genomic data from acidophilic microbial biofilms and discovered that evolution of the CRISPR regions in two distinct Leptospirillum group II bacteria occurs fast enough to promote individuality in otherwise nearly clonal populations. Comparative genomics strongly indicates very recent lateral transfer of the CRISPR locus between these populations, followed by significant loss of spacer sequences and locus expansion by unidirectional heterogeneous addition of new spacer sequences. Diversification of the CRISPR region is inferred to be a population-level response to the rapidly changing selective pressure of phage predation. Results reinforce the importance of phage–host interactions in shaping microbial ecology and evolution over very short time scales. 相似文献
53.
Previously, we described GFP-spectrin, a membrane-localized derivative of the green fluorescent protein that can be employed as a marker during the simultaneous identification of transfected cells and cell cycle analysis by flow cytometry (Kalejta et al., Cytometry 29: 286-291, 1997). A membrane-anchored GFP fusion protein is necessary because the ethanol permeabilization step required to achieve efficient propidium iodide staining allows cytoplasmic GFP to leach out of the cell. However, viable cells expressing GFP-spectrin are not as bright as cells expressing cytoplasmic GFP and their fluorescence intensity is further diminished after ethanol treatment. Here, we demonstrate that the fluorescence intensity of cells expressing an integral membrane GFP fusion protein (Us9-GFP) is similar to that of cells expressing cytoplasmic GFP and is quantitatively maintained in cells after ethanol treatment. By allowing an accurate assessment of the expression level of GFP, Us9-GFP allows a more precise analysis of the effects of a cotransfected plasmid on the cell cycle and thus represents an improvement upon the original membrane-associated GFP fusion proteins employed in this assay. 相似文献
54.
Mark J. Banfield 《Cellular microbiology》2015,17(1):18-25
Microbial pathogens and pests of animals and plants secrete effector proteins into host cells, altering cellular physiology to the benefit of the invading parasite. Research in the past decade has delivered significant new insights into the molecular mechanisms of how these effector proteins function, with a particular focus on modulation of host immunity‐related pathways. One host system that has emerged as a common target of effectors is the ubiquitination system in which substrate proteins are post‐translationally modified by covalent conjugation with the small protein ubiquitin. This modification, typically via isopeptide bond formation through a lysine side chain of ubiquitin, can result in target degradation, relocalization, altered activity or affect protein–protein interactions. In this review, I focus primarily on how effector proteins from bacterial and filamentous pathogens of plants and pests perturb host ubiquitination pathways that ultimately include the 26S proteasome. The activities of these effectors, in how they affect ubiquitin pathways in plants, reveal how pathogens have evolved to identify and exploit weaknesses in this system that deliver increased pathogen fitness. 相似文献
55.
Herpes simplex virus particles are unable to traverse the secretory pathway in the mouse L-cell mutant gro29. 总被引:5,自引:5,他引:0
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The mouse L-cell mutant gro29 was selected for its ability to survive infection by herpes simplex virus type 1 (HSV-1) and is defective in the propagation of HSV-1 and vesicular stomatitis virus (F. Tufaro, M. D. Snider, and S. L. McKnight, J. Cell Biol. 105:647-657, 1987). In this report, we show that gro29 cells harbor a lesion that inhibits the egress of HSV-1 virions during infection. We also found that HSV-1 glycoprotein D was slow to traverse the secretory pathway en route to the plasma membrane of infected gro29 cells. The movement of glycoproteins was not blocked entirely, however, and immunofluorescence experiments revealed that infected gro29 cells contained roughly 10% of the expected amount of glycoprotein D on their cell surface at 12 h postinfection. Furthermore, nucleocapsids and virions assembled inside the cells during infection, suggesting that the lesion in gro29 cells impinged on a late step in virion maturation. Electron micrographs of infected cells revealed that many of the intracellular virions were contained in irregular cytoplasmic vacuoles, similar to those that accumulate in HSV-1-infected cells treated with the ionophore monensin. We conclude from these results that gro29 harbors a defect that blocks the egress of HSV-1 virions from the infected cell without seriously impeding the flux of individual glycoproteins to the cell surface. We infer that HSV-1 maturation and egress require a host cell component that is either reduced or absent in gro29 cells and that this lesion, although not lethal to the host cell, cannot be tolerated by HSV-1 during its life cycle. 相似文献
56.
Significance of nucleotide sequence alignments: a method for random sequence permutation that preserves dinucleotide and codon usage 总被引:10,自引:0,他引:10
The similarity of two nucleotide sequences is often expressed in terms of
evolutionary distance, a measure of the amount of change needed to
transform one sequence into the other. Given two sequences with a small
distance between them, can their similarity be explained by their base
composition alone? The nucleotide order of these sequences contributes to
their similarity if the distance is much smaller than their average
permutation distance, which is obtained by calculating the distances for
many random permutations of these sequences. To determine whether their
similarity can be explained by their dinucleotide and codon usage, random
sequences must be chosen from the set of permuted sequences that preserve
dinucleotide and codon usage. The problem of choosing random dinucleotide
and codon-preserving permutations can be expressed in the language of graph
theory as the problem of generating random Eulerian walks on a directed
multigraph. An efficient algorithm for generating such walks is described.
This algorithm can be used to choose random sequence permutations that
preserve (1) dinucleotide usage, (2) dinucleotide and trinucleotide usage,
or (3) dinucleotide and codon usage. For example, the similarity of two
60-nucleotide DNA segments from the human beta-1 interferon gene
(nucleotides 196-255 and 499-558) is not just the result of their nonrandom
dinucleotide and codon usage.
相似文献
57.
Functional metagenomic selection of ribulose 1, 5‐bisphosphate carboxylase/oxygenase from uncultivated bacteria
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Vanessa A. Varaljay Sriram Satagopan Justin A. North Brian Witte Manuella N. Dourado Karthik Anantharaman Mark A. Arbing Shelley Hoeft McCann Ronald S. Oremland Jillian F. Banfield Kelly C. Wrighton F. Robert Tabita 《Environmental microbiology》2016,18(4):1187-1199
Ribulose 1,5‐bisphosphate carboxylase/oxygenase (RubisCO) is a critical yet severely inefficient enzyme that catalyses the fixation of virtually all of the carbon found on Earth. Here, we report a functional metagenomic selection that recovers physiologically active RubisCO molecules directly from uncultivated and largely unknown members of natural microbial communities. Selection is based on CO2‐dependent growth in a host strain capable of expressing environmental deoxyribonucleic acid (DNA), precluding the need for pure cultures or screening of recombinant clones for enzymatic activity. Seventeen functional RubisCO‐encoded sequences were selected using DNA extracted from soil and river autotrophic enrichments, a photosynthetic biofilm and a subsurface groundwater aquifer. Notably, three related form II RubisCOs were recovered which share high sequence similarity with metagenomic scaffolds from uncultivated members of the Gallionellaceae family. One of the Gallionellaceae RubisCOs was purified and shown to possess CO2/O2 specificity typical of form II enzymes. X‐ray crystallography determined that this enzyme is a hexamer, only the second form II multimer ever solved and the first RubisCO structure obtained from an uncultivated bacterium. Functional metagenomic selection leverages natural biological diversity and billions of years of evolution inherent in environmental communities, providing a new window into the discovery of CO2‐fixing enzymes not previously characterized. 相似文献
58.
59.
Mature Form of the Deoxyribonucleic Acid from Chick Embryo Lethal Orphan Virus 总被引:8,自引:6,他引:2
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The deoxyribonucleic acid (DNA) of chick embryo lethal orphan (CELO) virus, an oncogenic avian adenovirus, had a biphasic denaturation profile indicating intramolecular base composition heterogeneity. This was confirmed by shearing the DNA and centrifuging it to equilibrium in Cs(2)SO(4) in the presence of HgCl(2) when two bands were formed. No circular molecules formed when CELO virus DNA was annealed, although lambda DNA formed circles under the same conditions. No circular molecules were found by sedimentation or electron microscopy when the DNA was digested with exonuclease III and then annealed, but 30 to 40% of T7 DNA molecules became circular under similar conditions. The complementary strands of CELO virus DNA both appeared to be continuous, and, when CELO DNA was denatured and then annealed under appropriate conditions, all of the renatured molecules were linear. It is concluded that CELO virus DNA consists of a unique rather than permuted collection of linear molecules that lack exposed single-strand complementary ends or duplex terminal repetitions. These results are discussed in relation to the replication of viral DNA and the transformation of host cells. 相似文献
60.
The climatic cycles with subsequent glacial and intergalcial periods have had a great impact on the distribution and evolution of species. Using genetic analytical tools considerably increased our understanding of these processes. In this review I therefore give an overview of the molecular biogeography of Europe. For means of simplification, I distinguish between three major biogeographical entities: (i) "Mediterranean" with Mediterranean differentiation and dispersal centres, (ii) "Continental" with extra-Mediterranean centres and (iii) "Alpine" and/or "Arctic" with recent alpine and/or arctic distribution patterns. These different molecular biogeographical patterns are presented using actual examples. Many "Mediterranean" species are differentiated into three major European genetic lineages, which are due to glacial isolation in the three major Mediterranean peninsulas. Postglacial expansion in this group of species is mostly influenced by the barriers of the Pyrenees and the Alps with four resulting main patterns of postglacial range expansions. However, some cases are known with less than one genetic lineage per Mediterranean peninsula on the one hand, and others with a considerable genetic substructure within each of the Mediterranean peninsulas, Asia Minor and the Maghreb. These structures within the Mediterranean sub-centres are often rather strong and in several cases even predate the Pleistocene. For the "Continental" species, it could be shown that the formerly supposed postglacial spread from eastern Palearctic expansion centres is mostly not applicable. Quite the contrary, most of these species apparently had extra-Mediterranean centres of survival in Europe with special importance of the perialpine regions, the Carpathian Basin and parts of the Balkan Peninsula. In the group of "Alpine" and/or "Arctic" species, several molecular biogeographical patterns have been found, which support and improve the postulates based on distribution patterns and pollen records. Thus, genetic studies support the strong linkage between southwestern Alps and Pyrenees, northeastern Alps and Carpathians as well as southeastern Alps and the Dinaric mountain systems, hereby allowing conclusions on the glacial distribution patterns of these species. Furthermore, genetic analyses of arctic-alpine disjunct species support their broad distribution in the periglacial areas at least during the last glacial period. The detailed understanding of the different phylogeographical structures is essential for the management of the different evolutionary significant units of species and the conservation of their entire genetic diversity. Furthermore, the distribution of genetic diversity due to biogeographical reasons helps understanding the differing regional vulnerabilities of extant populations. 相似文献