TY - JOUR A1 - Broeker, Nina K. A1 - Roske, Yvette A1 - Valleriani, Angelo A1 - Stephan, Mareike Sophia A1 - Andres, Dorothee A1 - Koetz, Joachim A1 - Heinemann, Udo A1 - Barbirz, Stefanie T1 - Time-resolved DNA release from an O-antigen-specific Salmonella bacteriophage with a contractile tail JF - The journal of biological chemistry N2 - Myoviruses, bacteriophages with T4-like architecture, must contract their tails prior to DNA release. However, quantitative kinetic data on myovirus particle opening are lacking, although they are promising tools in bacteriophage-based antimicrobial strategies directed against Gram-negative hosts. For the first time, we show time-resolved DNA ejection from a bacteriophage with a contractile tail, the multi-O-antigen-specific Salmonella myovirus Det7. DNA release from Det7 was triggered by lipopolysaccharide (LPS) O-antigen receptors and notably slower than in noncontractile-tailed siphoviruses. Det7 showed two individual kinetic steps for tail contraction and particle opening. Our in vitro studies showed that highly specialized tailspike proteins (TSPs) are necessary to attach the particle to LPS. A P22-like TSP confers specificity for the Salmonella Typhimurium O-antigen. Moreover, crystal structure analysis at 1.63 angstrom resolution confirmed that Det7 recognized the Salmonella Anatum O-antigen via an E15-like TSP, DettilonTSP. DNA ejection triggered by LPS from either host showed similar velocities, so particle opening is thus a process independent of O-antigen composition and the recognizing TSP. In Det7, at permissive temperatures TSPs mediate O-antigen cleavage and couple cell surface binding with DNA ejection, but no irreversible adsorption occurred at low temperatures. This finding was in contrast to short-tailed Salmonella podoviruses, illustrating that tailed phages use common particle-opening mechanisms but have specialized into different infection niches. KW - bacteriophage KW - lipopolysaccharide (YLPS) KW - structural biology KW - DNA viruses KW - glycobiology KW - fluorescence KW - Salmonella enterica KW - contractile tail KW - DNA ejection KW - O-antigen specificity KW - Salmonella myovirus KW - tailspike protein KW - molecular machine Y1 - 2019 U6 - https://doi.org/10.1074/jbc.RA119.008133 SN - 1083-351X VL - 294 IS - 31 SP - 11751 EP - 11761 PB - American Society for Biochemistry and Molecular Biology CY - Bethesda ER - TY - JOUR A1 - Bühning, Martin A1 - Valleriani, Angelo A1 - Leimkühler, Silke T1 - The role of SufS is restricted to Fe-S cluster biosynthesis in escherichia coli JF - Biochemistry N2 - In Escherichia coli, two different systems that are important for the coordinate formation of Fe–S clusters have been identified, namely, the ISC and SUF systems. The ISC system is the housekeeping Fe–S machinery, which provides Fe–S clusters for numerous cellular proteins. The IscS protein of this system was additionally revealed to be the primary sulfur donor for several sulfur-containing molecules with important biological functions, among which are the molybdenum cofactor (Moco) and thiolated nucleosides in tRNA. Here, we show that deletion of central components of the ISC system in addition to IscS leads to an overall decrease in Fe–S cluster enzyme and molybdoenzyme activity in addition to a decrease in the number of Fe–S-dependent thiomodifications of tRNA, based on the fact that some proteins involved in Moco biosynthesis and tRNA thiolation are Fe–S-dependent. Complementation of the ISC deficient strains with the suf operon restored the activity of Fe–S-containing proteins, including the MoaA protein, which is involved in the conversion of 5′GTP to cyclic pyranopterin monophosphate in the fist step of Moco biosynthesis. While both systems share a high degree of similarity, we show that the function of their respective l-cysteine desulfurase IscS or SufS is specific for each cellular pathway. It is revealed that SufS cannot play the role of IscS in sulfur transfer for the formation of 2-thiouridine, 4-thiouridine, or the dithiolene group of molybdopterin, being unable to interact with TusA or ThiI. The results demonstrate that the role of the SUF system is exclusively restricted to Fe–S cluster assembly in the cell. Y1 - 2017 U6 - https://doi.org/10.1021/acs.biochem.7b00040 SN - 0006-2960 VL - 56 SP - 1987 EP - 2000 PB - American Chemical Society CY - Washington ER - TY - JOUR A1 - Bartholomäus, Alexander A1 - Fedyunin, Ivan A1 - Feist, Peter A1 - Sin, Celine A1 - Zhang, Gong A1 - Valleriani, Angelo A1 - Ignatova, Zoya T1 - Bacteria differently regulate mRNA abundance to specifically respond to various stresses JF - Geology N2 - Environmental stress is detrimental to cell viability and requires an adequate reprogramming of cellular activities to maximize cell survival. We present a global analysis of the response of Escherichia coli to acute heat and osmotic stress. We combine deep sequencing of total mRNA and ribosome-protected fragments to provide a genome-wide map of the stress response at transcriptional and translational levels. For each type of stress, we observe a unique subset of genes that shape the stress-specific response. Upon temperature upshift, mRNAs with reduced folding stability up-and downstream of the start codon, and thus with more accessible initiation regions, are translationally favoured. Conversely, osmotic upshift causes a global reduction of highly translated transcripts with high copy numbers, allowing reallocation of translation resources to not degraded and newly synthesized mRNAs. KW - transcription KW - translation KW - deep sequencing KW - Escherichia coli KW - copy numbers Y1 - 2016 U6 - https://doi.org/10.1098/rsta.2015.0069 SN - 1364-503X SN - 1471-2962 VL - 374 PB - Royal Society CY - London ER - TY - JOUR A1 - Zhang, Gong A1 - Fedyunin, Ivan A1 - Kirchner, Sebastian A1 - Xiao, Chuanle A1 - Valleriani, Angelo A1 - Ignatova, Zoya T1 - FANSe: an accurate algorithm for quantitative mapping of large scale sequencing reads JF - Nucleic acids research N2 - The most crucial step in data processing from high-throughput sequencing applications is the accurate and sensitive alignment of the sequencing reads to reference genomes or transcriptomes. The accurate detection of insertions and deletions (indels) and errors introduced by the sequencing platform or by misreading of modified nucleotides is essential for the quantitative processing of the RNA-based sequencing (RNA-Seq) datasets and for the identification of genetic variations and modification patterns. We developed a new, fast and accurate algorithm for nucleic acid sequence analysis, FANSe, with adjustable mismatch allowance settings and ability to handle indels to accurately and quantitatively map millions of reads to small or large reference genomes. It is a seed-based algorithm which uses the whole read information for mapping and high sensitivity and low ambiguity are achieved by using short and non-overlapping reads. Furthermore, FANSe uses hotspot score to prioritize the processing of highly possible matches and implements modified Smith-Watermann refinement with reduced scoring matrix to accelerate the calculation without compromising its sensitivity. The FANSe algorithm stably processes datasets from various sequencing platforms, masked or unmasked and small or large genomes. It shows a remarkable coverage of low-abundance mRNAs which is important for quantitative processing of RNA-Seq datasets. Y1 - 2012 U6 - https://doi.org/10.1093/nar/gks196 SN - 0305-1048 VL - 40 IS - 11 PB - Oxford Univ. Press CY - Oxford ER - TY - JOUR A1 - Zhang, Gong A1 - Fedyunin, Ivan A1 - Miekley, Oskar A1 - Valleriani, Angelo A1 - Moura, Alessandro A1 - Ignatova, Zoya T1 - Global and local depletion of ternary complex limits translational elongation N2 - The translation of genetic information according to the sequence of the mRNA template occurs with high accuracy and fidelity. Critical events in each single step of translation are selection of transfer RNA (tRNA), codon reading and tRNA-regeneration for a new cycle. We developed a model that accurately describes the dynamics of single elongation steps, thus providing a systematic insight into the sensitivity of the mRNA translation rate to dynamic environmental conditions. Alterations in the concentration of the aminoacylated tRNA can transiently stall the ribosomes during translation which results, as suggested by the model, in two outcomes: either stress-induced change in the tRNA availability triggers the premature termination of the translation and ribosomal dissociation, or extensive demand for one tRNA species results in a competition between frameshift to an aberrant open-reading frame and ribosomal drop-off. Using the bacterial Escherichia coli system, we experimentally draw parallels between these two possible mechanisms. Y1 - 2010 UR - http://nar.oxfordjournals.org/ U6 - https://doi.org/10.1093/Nar/Gkq196 SN - 0305-1048 ER - TY - JOUR A1 - Valleriani, Angelo A1 - Ignatova, Zoya A1 - Nagar, Apoorva A1 - Lipowsky, Reinhard T1 - Turnover of messenger RNA : polysome statistics beyond the steady state N2 - The interplay between turnover or degradation and ribosome loading of messenger RNA (mRNA) is studied theoretically using a stochastic model that is motivated by recent experimental results. Random mRNA degradation affects the statistics of polysomes, i.e., the statistics of the number of ribosomes per mRNA as extracted from cells. Since ribosome loading of newly created mRNA chains requires some time to reach steady state, a fraction of the extracted mRNA/ ribosome complexes does not represent steady state conditions. As a consequence, the mean ribosome density obtained from the extracted complexes is found to be inversely proportional to the mRNA length. On the other hand, the ribosome density profile shows an exponential decrease along the mRNA for prokaryotes and becomes uniform in eukaryotic cells. Copyright (C) EPLA, 2010 Y1 - 2010 UR - http://iopscience.iop.org/0295-5075/ U6 - https://doi.org/10.1209/0295-5075/89/58003 SN - 0295-5075 ER -