Your search keyword '"Ribosomes -- Research"' showing total 456 results

1. Structural basis of early translocation events on the ribosome

Author

Rundlet, Emily J., Holm, Mikael, Schacherl, Magdalena, Natchiar, S. Kundhavai, Altman, Roger B., Spahn, Christian M. T., and Myasnikov, Alexander G.

Subjects

Biological research, Biology, Experimental, Ribosomes -- Research, Translocation (Genetics) -- Research, Molecular structure -- Research, Protein biosynthesis -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Peptide-chain elongation during protein synthesis entails sequential aminoacyl-tRNA selection and translocation reactions that proceed rapidly (2-20 per second) and with a low error rate (around 10.sup.-3 to 10.sup.-5 at each step) over thousands of cycles.sup.1. The cadence and fidelity of ribosome transit through mRNA templates in discrete codon increments is a paradigm for movement in biological systems that must hold for diverse mRNA and tRNA substrates across domains of life. Here we use single-molecule fluorescence methods to guide the capture of structures of early translocation events on the bacterial ribosome. Our findings reveal that the bacterial GTPase elongation factor G specifically engages spontaneously achieved ribosome conformations while in an active, GTP-bound conformation to unlock and initiate peptidyl-tRNA translocation. These findings suggest that processes intrinsic to the pre-translocation ribosome complex can regulate the rate of protein synthesis, and that energy expenditure is used later in the translocation mechanism than previously proposed. Cryo-electron microscopy and single-molecule fluorescence methods are used to elucidate the mechanism of early translocation events on the bacterial ribosome., Author(s): Emily J. Rundlet [sup.1] [sup.2] , Mikael Holm [sup.1] , Magdalena Schacherl [sup.3] , S. Kundhavai Natchiar [sup.1] , Roger B. Altman [sup.1] , Christian M. T. Spahn [sup.3] [...]

Published

2021

2. LIN28B alters ribosomal dynamics to promote metastasis in MYCN-driven malignancy

Author

Missios, Pavlos, da Rocha, Edroaldo Lummertz, Pearson, Daniel S., Philipp, Julia, Aleman, Maria M., Pirouz, Mehdi, Farache, Dorian, Franses, Joseph W., Kubaczka, Caroline, Tsanov, Kaloyan M., Jha, Deepak K., Pepe-Mooney, Brian, Powers, John T., Gregory, Richard I., Lee, Amy S.Y., Dominguez, Daniel, Ting, David T., and Daley, George Q.

Subjects

Oncology, Experimental, Gene expression -- Research, Metastasis -- Genetic aspects -- Development and progression, Ribosomes -- Research, Neuroblastoma -- Genetic aspects -- Development and progression, Cancer -- Research, Transcription factors -- Health aspects, Health care industry

Abstract

High expression of LIN28B is associated with aggressive malignancy and poor survival. Here, probing M/CN-amplified neuroblastoma as a model system, we showed that LIN28B expression was associated with enhanced cell migration in vitro and invasive and metastatic behavior in murine xenografts. Sequence analysis of the polyribosome fraction of LIN28B-expressing neuroblastoma cells revealed let-7-independent enrichment of transcripts encoding components of the translational and ribosomal apparatus and depletion of transcripts of neuronal developmental programs. We further observed that LIN28B utilizes both its cold shock and zinc finger RNA binding domains to preferentially interact with MYCN-induced transcripts of the ribosomal complex, enhancing their translation. These data demonstrated that LIN28B couples the MYCN-driven transcriptional program to enhanced ribosomal translation, thereby implicating LIN28B as a posttranscriptional driver of the metastatic phenotype., Introduction Tight translational control of the transcriptome is a conserved regulatory mechanism during development and the physiological and pathological stress responses (1-3). Activation of ribosomal biogenesis plays a critical role [...]

Published

2021

3. Ribosome-dependent activation of stringent control

Author

Brown, Alan, Fernandez, Israel S., Gordiyenko, Yuliya, and Ramakrishnan, V.

Subjects

Virulence (Microbiology) -- Research, Ribosomes -- Research, Transfer RNA -- Research, Microbiological research, Transcription factors -- Research, Escherichia coli -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

In order to survive, bacteria continually sense, and respond to, environmental fluctuations. Stringent control represents a key bacterial stress response to nutrient starvation (1,2) that leads to rapid and comprehensive reprogramming of metabolic and transcriptional patterns3. In general, transcription of genes for growth and proliferation is downregulated, while those important for survival and virulence are upregulated (4). Amino acid starvation is sensed by depletion of the aminoacylated tRNA pools (5), and this results in accumulation of ribosomes stalled with non-aminoacylated (uncharged) tRNA in the ribosomal A site (6,7). RelA is recruited to stalled ribosomes and activated to synthesize a hyperphosphorylated guanosine analogue, (p)ppGpp (8), which acts as a pleiotropic secondary messenger. However, structural information about how RelA recognizes stalled ribosomes and discriminates against aminoacylated tRNAs is missing. Here we present the cryo-electron microscopy structure of RelA bound to the bacterial ribosome stalled with uncharged tRNA. The structure reveals that RelA utilizes a distinct binding site compared to the translational factors, with a multi-domain architecture that wraps around a highly distorted A-site tRNA. The TGS (ThrRS, GTPase and SpoT) domain of RelA binds the CCA tail to orient the free 3' hydroxyl group of the terminal adenosine towards a β-strand, such that an aminoacylated tRNA at this position would be sterically precluded. The structure supports a model in which association of RelA with the ribosome suppresses auto-inhibition to activate synthesis of (p)ppGpp and initiate the stringent response. Since stringent control is responsible for the survival of pathogenic bacteria under stress conditions, and contributes to chronic infections and antibiotic tolerance, RelA represents a good target for the development of novel antibacterial therapeutics., Stringent control is a pleiotropic response to the failure of amino acid availability to keep up with the demands of protein synthesis (1). It is mediated by a hyperphosphorylated nucleotide [...]

Published

2016

4. Diverse roles of assembly factors revealed by structures of late nuclear pre-60S ribosomes

Author

Wu, Shan, Tutuncuoglu, Beril, Yan, Kaige, Brown, Hailey, Zhang, Yixiao, Tan, Dan, Gamalinda, Michael, Yuan, Yi, Li, Zhifei, Jakovljevic, Jelena, Ma, Chengying, Lei, Jianlin, Dong, Meng-Qiu, Woolford, Jr., John L., and Gao, Ning

Subjects

Nucleolus organizer region -- Research, Protein binding -- Research, Ribosomes -- Research, Protein research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Ribosome biogenesis is a highly complex process in eukaryotes, involving temporally and spatially regulated ribosomal protein (r-protein) binding and ribosomal RNA remodelling events in the nucleolus, nucleoplasm and cytoplasm (1,2). [...]

Published

2016

5. Initiation of translation in bacteria by a structured eukaryotic IRES RNA

Author

Colussi, Timothy M., Costantino, David A., Zhu, Jianyu, Donohue, John Paul, Korostelev, Andrei A., Jaafar, Zane A., Plank, Terra-Dawn M., Noller, Harry F., and Kieft, Jeffrey S.

Subjects

Gene expression -- Analysis, Genetic translation -- Research, Ribosomes -- Research, Protein biosynthesis -- Analysis, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The central dogma of gene expression (DNA to RNA to protein) is universal, but in different domains of life there are fundamental mechanistic differences within this pathway. For example, the [...]

Published

2015

6. Research Study Findings from Duke University School of Medicine Update Understanding of Biology (Mutational Analyses of the Cysteine-Rich Domain of Yvh1, a Protein Required for Translational Competency in Yeast)

Subjects

Yeast fungi -- Genetic aspects, Ribosomes -- Research, Microbiological research, Biological sciences, Health

Abstract

2022 SEP 13 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Data detailed on biology have been presented. According to news reporting out of Durham, [...]

Published

2022

7. Biophysical studies of the universally conserved NTPases HflX and YchF

Author

Wieden, Hans-Joachim, Brandon, Harland Edward, University of Lethbridge. Faculty of Arts and Science, Wieden, Hans-Joachim, Brandon, Harland Edward, and University of Lethbridge. Faculty of Arts and Science

Abstract

Antibiotic resistance is becoming an increasing global health concern. The bacterial protein synthesis machinery, including the ribosome and its associated factors, are the target of over half of the clinically relevant antibiotics currently in use, highlighting the importance of cellular protein production as antibiotic target. The ribosome associated factors HflX and YchF are members of the GTPase superfamily. Their cellular functions are only poorly understood. The overarching goal of this thesis was to determine the location where HflX and YchF bind on the bacterial ribosome. Data presented here confirm that YchF interacts with the ribosomal A-site, while HflX is unique within the GTPase family being able to bind to both the ribosomal A-site and E-site. From this data and subsequent biochemical and biophysical studies, a mechanism for both HflX and YchF function during protein synthesis, specifically under stress conditions, is proposed.

Published

2021

8. Binding of in vitro reconstituted snR30 Ribonucleoprotein to Ribosomal RNA

Author

Kothe, Ute, Vos, Timothy, University of Lethbridge. Faculty of Arts and Science, Kothe, Ute, Vos, Timothy, and University of Lethbridge. Faculty of Arts and Science

Abstract

The creation of eukaryotic ribosomes is a complex process involving hundreds of assembly factors, including the small nucleolar RNA snR30. Through interacting with the unprocessed precursor ribosomal RNA (pre-rRNA), snR30 is essential for the maturation of pre-rRNA forming the small ribosomal subunit. To characterize snR30’s interaction network, an in vitro approach was used to quantify the affinity of snR30 to the core H/ACA protein complex and the PIN endonuclease Utp23 revealing very tight interactions with affinities in the sub- and low-nanomolar ranges, respectively. Furthermore, the snR30 complex binds tightly to its primary binding site in ribosomal RNA called the C1 site, but only weakly to other predicted interaction sites. Utp23 binds tightly to its predicted interaction site in ribosomal RNA only if adjacent rRNA elements are also present. In conclusion, these findings serve as foundational work to further explore the mechanisms of snR30 during maturation of rRNA.

Published

2021

9. Role of conserved residues for RNA binding and catalysis in two bacterial pseudouridine synthases

Author

Kothe, Ute, Vienneau, Hope Marie, University of Lethbridge. Faculty of Arts and Science, Kothe, Ute, Vienneau, Hope Marie, and University of Lethbridge. Faculty of Arts and Science

Abstract

Pseudouridine synthases are RNA modification enzymes targeting various forms of RNA in the cell. RluB and RluF are pseudouridine synthases modifying adjacent uridines in E. coli ribosomal RNA. These enzymes have a highly conserved RNA-binding loop, distinct between RluB and RluF, proposed to play a role in their specificity. This thesis provides preliminary insight into the importance of the eight-residue binding loops of RluB and RluF for RNA target recognition. I have shown that altering the residues of the binding loop decreases the enzyme’s affinity for RNA and effectively abolish the enzyme’s pseudouridylation activity. I conclude that the binding loops of RluB and RluF are critical for RNA binding and for positioning the target RNA for catalysis. Better understanding the requirements for specificity and target recognition of RluB and RluF will enhance our knowledge on ribosome formation and may aid in engineering new enzymes to pseudouridylate other functional RNAs.

Published

2021

10. Findings from Department of Pediatrics Yields New Findings on Neuroblastomas (Inhibitors of Ribosome Biogenesis Repress the Growth of Mycn-amplified Neuroblastoma)

Subjects

Gene expression -- Research, Neuroblastoma -- Research -- Care and treatment -- Genetic aspects, Pediatric research, Ribosomes -- Research, Obesity, DNA binding proteins, Cancer research, Biosynthesis, Cancer, Physical fitness, Childhood cancer, Hyperactivity, Pediatrics, Transcription (Genetics), RNA, Anopheles, Editors, Health

Abstract

2019 MAY 18 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Oncology - Neuroblastomas have been published. According to [...]

Published

2019

11. Nanjing Medical University Details Findings in Colon Cancer (LUCAT1 promotes colorectal cancer tumorigenesis by targeting the ribosomal protein L40-MDM2-p53 pathway through binding with UBA52)

Subjects

Colon cancer -- Research -- Genetic aspects -- Diagnosis, Protein binding -- Research, Ribosomes -- Research, Obesity, Cancer research, Colorectal cancer, Physical fitness, Tumors, Tumor proteins, Anopheles, Editors, Health

Abstract

2019 MAR 16 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Oncology - Colon Cancer have been published. According [...]

Published

2019

12. Findings from Department of Medical Biotechnology Broadens Understanding of Colon Cancer (Ebp1 p48 promotes oncogenic activities in human colon cancer cells through regulation of TIF-90-mediated ribosomal RNA synthesis)

Subjects

Cancer cells -- Research, Colon cancer -- Research -- Genetic aspects -- Care and treatment, Gene expression -- Research, Ribosomes -- Research, Obesity, Cancer research, Colorectal cancer, Physical fitness, Protein binding, Biotechnology, Tumors, Gastrointestinal diseases, Ribosomal RNA, RNA synthesis, RNA, Editors, Health

Abstract

2019 MAR 16 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Oncology - Colon Cancer have been published. According [...]

Published

2019

13. Findings from Central South University in the Area of Antibiotics Described (Streptomycin-induced ribosome engineering complemented with fermentation optimization for enhanced production of 10-membered enediynes tiancimycin-A and tiancimycin-D)

Subjects

Streptomycin -- Research, Ribosomes -- Research, Anthraquinones -- Health aspects, Obesity, Cancer treatment, Fermentation, Physical fitness, Tumors, Antibacterial agents, Antibodies, Antibiotics, Editors, Health

Abstract

2019 MAR 9 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators publish new report on Drugs and Therapies - Antibiotics. According to [...]

Published

2019

14. Visualizing late states of human 40S ribosomal subunit maturation

Author

Ameismeier, Michael, Cheng, Jingdong, Berninghausen, Otto, and Beckmann, Roland

Subjects

Ribosomes -- Research, Cytological research, Displays (Marketing), Microscopy, Biosynthesis, Electron microscopy, RNA, Fungi, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The formation of eukaryotic ribosomal subunits extends from the nucleolus to the cytoplasm and entails hundreds of assembly factors. Despite differences in the pathways of ribosome formation, high-resolution structural information has been available only from fungi. Here we present cryo-electron microscopy structures of late-stage human 40S assembly intermediates, representing one state reconstituted in vitro and five native states that range from nuclear to late cytoplasmic. The earliest particles reveal the position of the biogenesis factor RRP12 and distinct immature rRNA conformations that accompany the formation of the 40S subunit head. Molecular models of the late-acting assembly factors TSR1, RIOK1, RIOK2, ENP1, LTV1, PNO1 and NOB1 provide mechanistic details that underlie their contribution to a sequential 40S subunit assembly. The NOB1 architecture displays an inactive nuclease conformation that requires rearrangement of the PNO1-bound 3' rRNA, thereby coordinating the final rRNA folding steps with site 3 cleavage.Cryo-EM structures of late intermediates in the assembly of human 40S ribosomal subunits help to define the principles by which immature rRNA conformations and ribosomal biogenesis factors shape the 40S maturation process., Author(s): Michael Ameismeier [sup.1] , Jingdong Cheng [sup.1] , Otto Berninghausen [sup.1] , Roland Beckmann [sup.1] Author Affiliations:(1) Gene Center Munich and Center of Integrated Protein Science-Munich (CiPS-M), Department of [...]

Published

2018

15. New Findings from I.T. Pereira and Co-Authors Describe Advances in Cardiology (Polysome profiling followed by RNA-seq of cardiac differentiation stages in hESCs)

Subjects

Cell differentiation -- Research, Heart cells -- Research, RNA sequencing -- Usage, Ribosomes -- Research, Stem cells -- Research, Obesity, Physical fitness, Stem cell research, Gene expression, Messenger RNA, Genes, RNA, Anopheles, Cardiology, Criminal investigation, Editors, Biochemistry, Genetic research, Health

Abstract

2018 DEC 22 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- New research on Cardiology is the subject of a report. According to [...]

Published

2018

16. High-resolution cryo-electron microscopy structure of the Trypanosoma brucei ribosome

Author

Hashem, Yaser, Georges, Amedee des, Fu, Jie, Buss, Sarah N., Jossinet, Fabrice, Jobe, Amy, Zhang, Qin, Liao, Hstau Y., Grassucci, Robert A., Bajaj, Chandrajit, Westhof, Eric, Madison-Antenucci, Susan, and Frank, Joachim

Subjects

Ribosomes -- Research, Electron microscopy -- Methods, RNA -- Research, Trypanosoma brucei -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Ribosomes, the protein factories of living cells, translate genetic information carried by messenger RNAs into proteins, and are thus involved in virtually all aspects of cellular development and maintenance. The [...]

Published

2013

17. Proximity of the start codon to a leaderless mRNA's 5' terminus is a strong positive determinant of ribosome binding and expression in Escherichia coli

Author

Krishnan, Karthik M., Van Etten, William J., III, and Janssen, Gary R.

Subjects

Codon -- Physiological aspects, Messenger RNA -- Research, Escherichia coli -- Genetic aspects, Ribosomes -- Research, Bacterial genetics -- Research, Biological sciences

Abstract

An AUG start codon is an important determinant of ribosome binding and expression of leaderless mRNAs in Escherichia coli. Using reporter constructs encoding mRNAs where the AUG start codon is preceded by untranslated leaders of various length and sequence, we find that close proximity of the start codon to the 5' terminus and the leader sequence are strong determinants of both ribosome binding and expression. doi: 10.1128/JB.00756-10

Published

2010

18. The polypeptide tunnel exit of the mitochondrial ribosome is tailored to meet the specific requirements of the organelle

Author

Gruschke, Steffi and Ott, Martin

Subjects

Ribosomes -- Genetic aspects, Ribosomes -- Structure, Ribosomes -- Research, Mitochondrial biogenesis -- Analysis, Biological sciences

Published

2010

19. Visualizing ribosome biogenesis: parallel assembly pathways for the 30s subunit

Author

Mulder, Anke M., Yoshioka, Craig, Beck, Andrea H., Bunner, Anne E., Milligan, Ronald A., Potter, Clinton S., Carragher, Bridget, and Williamson, James R.

Subjects

Biosynthesis -- Physiological aspects, Ribosomes -- Research, Science and technology

Abstract

Ribosomes are self-assembling macromolecular machines that translate DNA into proteins, and an understanding of ribosome biogenesis is central to cellular physiology. Previous studies on the Escherichia coli 30S subunit suggest that ribosome assembly occurs via multiple parallel pathways rather than through a single rate-limiting step, but little mechanistic information is known about this process. Discovery single-particle profiling (DSP), an application of time-resolved electron microscopy, was used to obtain more than 1 million snapshots of assembling 30S subunits, identify and visualize the structures of 14 assembly intermediates, and monitor the population flux of these intermediates over time. DSP results were integrated with mass spectrometry data to construct the first ribosome-assembly mechanism that incorporates binding dependencies, rate constants, and structural characterization of populated intermediates. 10.1126/science.1193220

Published

2010

20. The RNA dreamtime : modern cells feature proteins that might have supported a prebiotic polypeptide world but nothing indicates that RNA world ever was

Author

Kurland, Charles G.

Subjects

Peptidyl transferases -- Research, Proteolysis -- Analysis, RNA -- Research, Ribosomes -- Research, Biological sciences

Published

2010

21. Functional dichotomy of ribosomal proteins during the synthesis of mammalian 40S ribosomal subunits

Author

O'Donohue, Marie-Francoise, Choesmel, Valerie, Faubladier, Marlene, Fichant, Gwennaele, and Gleizes, Pierre-Emmanuel

Subjects

Proteins -- Research, Ribosomes -- Research, Biological sciences

Abstract

Our knowledge of the functions of metazoan ribosomal proteins in ribosome synthesis remains fragmentary. Using siRNAs, we show that knockdown of 31 of the 32 ribosomal proteins of the human 40S subunit (ribosomal protein of the small subunit [RPS]) strongly affects pre-ribosomal RNA (rRNA) processing, which often correlates with nucleolar chromatin disorganization. 16 RPSs are strictly required for initiating processing of the sequences flanking the 18S rRNA in the pre-rRNA except at the metazoan-specific early cleavage site. The remaining 16 proteins are necessary for progression of the nuclear and cytoplasmic maturation steps and for nuclear export. Distribution of these two subsets of RPSs in the 40S subunit structure argues for a tight dependence of pre-rRNA processing initiation on the folding of both the body and the head of the forming subunit. Interestingly, the functional dichotomy of RPS proteins reported in this study is correlated with the mutation frequency of RPS genes in Diamond-Black-fan anemia. doi/ 10.1083/jcb.201005117

Published

2010

22. Evolutionary relationships among scyphozoan jellyfish families based on complete taxon sampling and phylogenetic analyses of 18S and 2 8S ribosomal DNA

Author

Bayha, Keith M., Dawson, Michael N., Collins, Allen G., Barbeitos, Marcos S., and Haddock, Steven H.D.

Subjects

DNA -- Research, Ribosomes -- Research, Evolution -- Research, Jellyfishes -- Research, Jellyfishes -- Genetic aspects, Jellyfishes -- Physiological aspects, Zoology and wildlife conservation

Abstract

A stable phylogenetic hypothesis for families within jellyfish class Scyphozoa has been elusive. Reasons for the lack of resolution of scyphozoan familial relationships include a dearth of morphological characters that reliably distinguish taxa and incomplete taxonomic sampling in molecular studies. Here, we address the latter issue by using maximum likelihood and Bayesian methods to reconstruct the phylogenetic relationships among all 19 currently valid scyphozoan families, using sequence data from two nuclear genes: 18S and 28S rDNA. Consistent with prior morphological hypotheses, we find strong evidence for monophyly of subclass Discomedusae, order Coronatae, rhizostome suborder Kolpophorae and superfamilies Actinomyariae, Kampylomyariae, Krikomyariae, and Scapulatae. Eleven of the 19 currently recognized scyphozoan families are robustly monophyletic, and we suggest recognition of two new families pending further analyses. In contrast to long-standing morphological hypotheses, the phylogeny shows coronate family Nausithoidae, semaeostome family Cyaneidae, and rhizostome suborder Daktyliophorae to be nonmonophyletic. Our analyses neither strongly support nor strongly refute monophyly of order Rhizostomeae, superfamily Inscapulatae, and families Ulmaridae, Catostylidae, Lychnorhizidae, and Rhizostomatidae. These taxa, as well as familial relationships within Coronatae and within rhizostome superfamily Inscapulatae, remain unclear and may be resolved by additional genomic and taxonomic sampling. In addition to clarifying some historically difficult taxonomic questions and highlighting nodes in particular need of further attention, the molecular phylogeny presented here will facilitate more robust study of phenotypic evolution in the Scyphozoa, including the evolution characters associated with mass occurrences of jellyfish. doi: 10.1093/icb/icq074

Published

2010

23. Structure of hibernating ribosomes studied by cryoelectron tomography in vitro and in situ

Author

Ortiz, Julio O., Brandt, Florian, Matias, Valerio R.F., Sennels, Lau, Rappsilber, Juri, Scheres, Sjors H.W., Eibauer, Matthias, Hartl, F. Ulrich, and Baumeister, Wolfgang

Subjects

Ribosomes -- Research, Tomography -- Usage, Escherichia coli -- Physiological aspects, Escherichia coli -- Research, Biological sciences

Abstract

Ribosomes arranged in pairs (100S) have been related with nutritional stress response and are believed to represent a 'hibernation state.' Several proteins have been identified that are associated with 100S ribosomes but their spatial organization has hitherto not been characterized. We have used cryoelectron tomography to reveal the three-dimensional configuration of 100S ribosomes isolated from starved Escherichia coli cells and we have described their mode of interaction. In situ studies with intact E. coli cells allowed us to demonstrate that 100S ribosomes do exist in vivo and represent an easily reversible state of quiescence; they readily vanish when the growth medium is replenished. doi/ 10.1083/jcb.201005007

Published

2010

24. Characterization of the nuclear export adaptor protein Nmd3 in association with the 60S ribosomal subunit

Author

Sengupta, Jayati, Bussiere, Cyril, Pallesen, Jesper, West, Matthew, Johnson, Arlen W., and Frank, Joachim

Subjects

Ribosomal RNA -- Chemical properties, Proteins -- Research, Ribosomes -- Research, Cell nuclei -- Research, Biological sciences

Abstract

The nucleocytoplasmic shuttling protein Nmd3 is an adaptor for export of the 60S ribosomal subunit from the nucleus. Nmd3 binds to nascent 60S subunits in the nucleus and recruits the export receptor Crm1 to facilitate passage through the nuclear pore complex. In this study, we present a cryoelectron microscopy (cryo-EM) reconstruction of the 60S subunit in complex with Nmd3 from Saccharomyces cerevisiae. The density corresponding to Nmd3 is directly visible in the cryo-EM map and is attached to the regions around helices 38, 69, and 95 of the 25S ribosomal RNA (rRNA), the helix 95 region being adjacent to the protein Rpl10. We identify the intersubunit side of the large subunit as the binding site for Nmd3. rRNA protection experiments corroborate the structural data. Furthermore, Nmd3 binding to 60S subunits is blocked in 80S ribosomes, which is consistent with the assigned binding site on the subunit joining face. This cryo-EM map is a first step toward a molecular understanding of the functional role and release mechanism of Nmd3. www.jcb.org/cgi/doi/10.1083/jcb.201001124

Published

2010

25. Spontaneous formation of the unlocked state of the ribosome is a multistep process

Author

Munro, James B., Altman, Roger B., Tung, Chang-Shung, Cate, Jamie H.D., Sanbonmatsu, Kevin Y., and Blanchard, Scott C.

Subjects

Translocation (Genetics) -- Research, Ribosomes -- Physiological aspects, Ribosomes -- Research, Genetic translation -- Research, Science and technology

Abstract

The mechanism of substrate translocation through the ribosome is central to the rapid and faithful translation of mRNA into proteins. The rate-limiting step in translocation is an unlocking process that includes the formation of an 'unlocked' intermediate state, which requires the convergence of large-scale conformational events within the ribosome including tRNA hybrid states formation, closure of the ribosomal L1 stalk domain, and subunit ratcheting. Here, by imaging of the pretranslocation ribosome complex from multiple structural perspectives using two- and three-color single-molecule fluorescence resonance energy transfer, we observe that tRNA hybrid states formation and L1 stalk closure, events central to the unlocking mechanism, are not tightly coupled. These findings reveal that the unlocked state is achieved through a stochastic-multistep process, where the extent of conformational coupling depends on the nature of tRNA substrates. These data suggest that cellular mechanisms affecting the coupling of conformational processes on the ribosome may regulate the process of translation elongation. single-molecule FRET | translation | translocation | tRNA hybrid states | translation regulation www.pnas.org/cgi/doi/10.1073/pnas.0908597107

Published

2010

26. Depletion of the signal recognition particle receptor inactivates ribosomes in Escherichia coli

Author

Burk, Jonas, Weiche, Benjamin, Wenk, Meike, Boy, Diana, Nestel, Sigrun, Heimrich, Bernd, and Koch, Hans-Georg

Subjects

Cell receptors -- Research, Escherichia coli -- Research, Ribosomes -- Physiological aspects, Ribosomes -- Research, Biological sciences

Abstract

The signal recognition particle (SRP)-dependent cotranslational targeting of proteins to the cytoplasmic membrane in bacteria or the endoplasmic reticulum membrane in eukaryotes is an essential process in most living organisms. Eukaryotic cells have been shown to respond to an impairment of the SRP pathway by (i) repressing ribosome biogenesis, resulting in decreased protein synthesis, and (ii) by increasing the expression of protein quality control mechanisms, such as chaperones and proteases. In the current study, we have analyzed how bacteria like Escherichia coli respond to a gradual depletion of FtsY, the bacterial SRP receptor. Our analyses using cell-free transcription/translation systems showed that FtsY depletion inhibits the translation of both SRP-dependent and SRP-independent proteins. This synthesis defect is the result of a multifaceted response that includes the upregulation of the ribosome-inactivating protein ribosome modulation factor (RMF). Although the consequences of these responses in E. coli are very similar to some of the effects also observed in eukaryotic cells, one striking difference is that E. coli obviously does not reduce the rate of protein synthesis by downregulating ribosome biogenesis. Instead, the upregulation of RMF leads to a direct and reversible inhibition of translation. doi: 10.1128/JB.00208-09

Published

2009

27. Ribosome stalk assembly requires the dual-specificity phosphatase Yvh1 for the exchange of Mrt4 with PO

Author

Lo, Kai-Yin, Li, Zhihua, Wang, Feng, Marcotte, Edward M., and Johnson, Arlen W.

Subjects

Phosphatases -- Physiological aspects, Phosphatases -- Genetic aspects, Phosphatases -- Research, Ribosomes -- Physiological aspects, Ribosomes -- Research, Transcription factors -- Physiological aspects, Transcription factors -- Research, Biological sciences

Abstract

The ribosome stalk is essential for recruitment of translation factors. In yeast, PO and Rpl12 correspond to bacterial L10 and L11 and form the stalk base of mature ribosomes, whereas Mrt4 is a nuclear paralogue of PO. In this study, we show that the dual-specificity phosphatase Yvh 1 is required for the release of Mrt4 from the pre-60S subunits. Deletion of YVH1 leads to the persistence of Mrt4 on pre-60S subunits in the cytoplasm. A mutation in Mrt4 at the protein-RNA interface bypasses the requirement for Yvh1. Pre-60S subunits associated with Yvh1 contain Rpl12 but lack both Mrt4 and PO. These results suggest a linear series of events in which Yvh1 binds to the pre-60S subunit to displace Mrt4. Subsequently, PO loads onto the subunit to assemble the mature stalk, and Yvh1 is released. The initial assembly of the ribosome with Mrt4 may provide functional compartmentalization of ribosome assembly in addition to the spatial separation afforded by the nuclear envelope.

Published

2009

28. The virion-packaged endoribonuclease of herpes simplex virus 1 cleaves mRNA in polyribosomes

Author

Taddeo, Brunella, Zhang, Weiran, and Roizman, Bernard

Subjects

Herpes simplex virus -- Research, Viral genetics -- Research, Ribosomes -- Research, Science and technology

Abstract

The virion host shutoff protein product of the [U.sub.L]41 gene of herpes simplex virus 1 is an endoribonuclease that selectively degrades mRNAs during the first hours after infection. Specifically, in contrast to the events in uninfected cells or cells infected with a mutant lacking the RNase, in wild-type virus-infected cells mRNA of housekeeping genes exemplified by GAPDH is degraded rapidly, whereas mRNAs containing AU elements are cleaved and the 5' cleavage product of these RNAs persists for many hours. We report that in wild-type virus-infected cells there was a rapid increase in the number and size of processing bodies (P-bodies). These P-bodies were also preset in cycloheximide (CHX)-treated cells but not in either treated or untreated uninfected cells or cells infected with the RNase minus mutant. Additional studies revealed that polyribosomes extracted from cytoplasm of wild-type virus-infected cells treated with CHX and displayed in sucrose gradients contained ribosome-loaded, truncated AU-rich mRNAs lacking the 3' UTR and poly(A) tails. The results suggest that the virion RNase is bound to polyribosomes by virtue of the reported association with translation machinery and cleaves the RNAs 5' to the AU elements. In contrast to the slow degradation of the of the residual 5' domain, the 3' UTR of the AU-rich mRNA and the GAPDH mRNA are rapidly degraded in wild-type virus-infected cells. AU-rich elements RNA | RNase

Published

2009

29. The cytoplasmic structure hypothesis for ribosome assembly, vertical inheritance, and phylogeny

Author

Thaler, David S.

Subjects

Ribosomes -- Research, Cytoplasmic inheritance -- Research, Synthetic biology -- Analysis, Phylogeny -- Analysis, Biological sciences

Published

2009

30. An RNA hairpin sequesters the ribosome binding site of the homing endonuclease mobE gene

Author

Gibb, Ewan A. and Edgell, David R.

Subjects

Bacteriophages -- Research, Operons -- Research, Ribosomes -- Research, Genetic regulation -- Research, Biological sciences

Abstract

Previous transcript mapping of the bacteriophage Aeh1 nrd operon revealed a predicted RNA hairpin upstream of the homing endonuclease mobE gene. We enzymatically mapped the hairpin, showing that the mobE ribosome binding site is sequestered. Cloning of the hairpin upstream of lacZ resulted in reduced [beta]-galactosidase activity, consistent with translational regulation.

Published

2009

31. Genetic analysis of the invariant residue G791 in Escherichia coli 16S rRNA implicates RelA in ribosome function

Author

Kim, Hong-Man, Ryou, Sang-Mi, Song, Woo-Seok, Sim, Se-Hoon, Cha, Chang-Jun, Han, Seung Hyun, Ha, Nam-Chul, Kim, Jae-Hong, Bae, Jeehyeon, Cunningham, Philip R., and Lee, Kangseok

Subjects

Protein biosynthesis -- Physiological aspects, Protein biosynthesis -- Research, Escherichia coli -- Genetic aspects, Escherichia coli -- Research, Ribosomes -- Physiological aspects, Ribosomes -- Research, Biological sciences

Abstract

Previous studies identified G791 in Escherichia coli 16S rRNA as an invariant residue for ribosome function. In order to establish the functional role of this residue in protein synthesis, we searched for multicopy suppressors of the mutant ribosomes that bear a G-to-U substitution at position 791. We identified relA, a gene whose product has been known to interact with ribosomes and trigger a stringent response. Overexpression of RelA resulted in the synthesis of approximately 1.5 times more chloramphenicol acetyltransferase (CAT) protein than could be synthesized by the mutant ribosomes in the absence of RelA overexpression. The ratio of mutant rRNA to the total ribosome pool was not changed, and the steady-state level of CAT mRNA was decreased by RelA overexpression. These data confirmed that the phenotype of RelA as a multicopy suppressor of the mutant ribosome did not result from the enhanced synthesis of mutant rRNA or CAT mRNA from the plasmid. To test whether the phenotype of RelA was related to the stringent response induced by the increased cellular level of (p)ppGpp, we screened for mutant RelA proteins whose overexpression enhances CAT protein synthesis by the mutant ribosomes as effectively as wild-type RelA overexpression and then screened for those whose overexpression does not produce sufficiently high levels of (p)ppGpp to trigger the stringent response under the condition of amino acid starvation. Overexpression of the isolated mutant RelA proteins resulted in the accumulation of (p)ppGpp in cells, which was amounted to approximately 18.2 to 38.9% of the level of (p)ppGpp found in cells that overexpress the wild-type RelA. These findings suggest that the function of RelA as a multicopy suppressor of the mutant ribosome does not result from its (p)ppGpp synthetic activity. We conclude that RelA has a previously unrecognized role in ribosome function.

Published

2009

32. Following movement of the L1 stalk between three functional states in single ribosomes

Author

Cornish, Peter V., Ermolenko, Dmitri N., Staple, David W., Hoang, Lee, Hickerson, Robyn P., Noller, Harry F., and Ha, Taekjip

Subjects

Energy transformation -- Methods, Energy transformation -- Research, Ribosomes -- Physiological aspects, Ribosomes -- Research, Translocation (Genetics) -- Research, Science and technology

Abstract

The L1 stalk is a mobile domain of the large ribosomal subunit E site that interacts with the elbow of deacylated tRNA during protein synthesis. Here, by using single-molecule FRET, we follow the real-time dynamics of the L1 stalk and observe its movement relative to the body of the large subunit between at least 3 distinct conformational states: open, half-closed, and fully closed. Pretranslocation ribosomes undergo spontaneous fluctuations between the open and fully closed states. In contrast, posttranslocation ribosomes containing peptidyl-tRNA and deacylated tRNA in the classical P/P and E/E states, respectively, are fixed in the half-closed conformation. In ribosomes with a vacant E site, the L1 stalk is observed either in the fully closed or fully open conformation. Several lines of evidence show that the L1 stalk can move independently of intersubunit rotation. Our findings support a model in which the mobility of the L1 stalk facilitates binding, movement, and release of deacylated tRNA by remodeling the structure of the 50S subunit E site between 3 distinct conformations, corresponding to the E/E vacant, P/E hybrid, and classical states. dynamics | single-molecule FRET | translocation

Published

2009

33. Evolutionary roles of upstream open reading frames in mediating gene regulation in fungi

Author

Hood, Heather M., Neafsey, Daniel E., Galagan, James, and Sachs, Matthew S.

Subjects

Ribosomes -- Research, Genetic translation -- Analysis, Evolution -- Research, Fungi -- Genetic aspects, Fungi -- Physiological aspects, Genetic regulation -- Analysis, Messenger RNA -- Research, Biological sciences

Published

2009

34. Role of GTPases in bacterial ribosome assembly

Author

Britton, Robert A.

Subjects

Cell cycle -- Research, Guanosine triphosphatase -- Chemical properties, Ribosomes -- Research, Genetic translation -- Analysis, Biological sciences

Published

2009

35. Aminoacyl-tRNA synthesis and translational quality control

Author

Jiqiang Ling, Reynolds, Noah, and Ibba, Michael

Subjects

Transfer RNA -- Research, Genetic translation -- Analysis, Aminoacyl-tRNA synthetases -- Chemical properties, Ribosomes -- Research, Biological sciences

Published

2009

36. Regulation of translation initiation by RNA binding proteins

Author

Babitzke, Paul, Baker, Carol S., and Romeo, Tony

Subjects

Binding proteins -- Chemical properties, RNA -- Chemical properties, Ribosomes -- Research, Genetic translation -- Research, Biological sciences

Published

2009

37. Concurrent nucleation of 16S folding and induced fit in 30S ribosome assembly

Author

Adilakshmil, Tadepalli, Bellur, Deepti L., and Woodson, Sarah A.

Subjects

Ribosomes -- Research, Escherichia coli -- Research, Ribosomal RNA -- Research, Protein binding -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Rapidly growing cells produce thousands of new ribosomes each minute, in a tightly regulated process that is essential to cell growth (1,2). How the Escherichia coli 16S ribosomal RNA and [...]

Published

2008

38. Role of hybrid tRNA-binding states in ribosomal translocation

Author

Walker, Sarah E., Shoji, Shinichiro, Pan, Dongli, Cooperman, Barry S., and Fredrick, Kurt

Subjects

Ribosomes -- Physiological aspects, Ribosomes -- Research, Transfer RNA -- Physiological aspects, Transfer RNA -- Research, Genetic translation -- Physiological aspects, Genetic translation -- Research, Science and technology

Abstract

During translation, tRNAs must move rapidly to their adjacent sites in the ribosome while maintaining precise pairing with mRNA. This movement (translocation) occurs in a stepwise manner with hybrid-state intermediates, but it is unclear how these hybrid states relate to kinetically defined events of translocation. Here we analyze mutations at position 2394 of 23S rRNA in a pre-steady-state kinetic analysis of translocation. These mutations target the 50S E site and are predicted to inhibit P/E state formation. Each mutation decreases growth rate, the maximal rate of translocation ([k.sub.trans]), and the apparent affinity of EF-G for the pretranslocation complex (i.e., increases [K.sub.1/2]). The magnitude of these defects follows the trend A > G > U. Because the C2394A mutation did not decrease the rate of single-turnover GTP hydrolysis, the >20-fold increase in [K.sub.1/2] conferred by C2394A can be attributed to neither the initial binding of EF-G nor the subsequent GTP hydrolysis step. We propose that C2394A inhibits a later step, P/E state formation, to confer its effects on translocation. Replacement of the peptidyl group with an aminoacyl group, which is predicted to inhibit A/P state formation, decreases [k.sub.trans] without increasing [K.sub.1/2]. These data suggest that movements of tRNA into the P/E and A/P sites are separable events. This mutational study allows tRNA movements with respect to both subunits to be integrated into a kinetic model for translocation. elongation factor G | translation | exit site | GTPase

Published

2008

39. Saccharomyces cerevisiae SFP1: at the crossroads of central metabolism and ribosome biogenesis

Author

Cipollina, Chiara, van den Brink, Joost, Daran-Lapujade, Pascale, Pronk, Jack T., Porro, Danilo, and de Winde, Johannes H.

Subjects

Brewer's yeast -- Physiological aspects, Ribosomes -- Research, Microbial metabolism -- Research, Biological sciences

Abstract

Saccharomyces cerevisiae SFP1 is required for nutrient-dependent regulation of ribosome biogenesis and cell size. A mutant deleted for SFP1 shows specific traits, including a slow growth phenotype, especially when growing on glucose. We recently analysed the physiology of an sfp1[DELTA] mutant and its isogenic reference strain in chemostat cultures. This approach was successful in revealing the effects of nutrients on the activity of Sfp1 independent of growth rate-related feedback. In the present work we exposed carbon-limited cultures of an sfp1[DELTA] mutant and its reference strain to sudden glucose excess. This allowed us to study the effect of SFP1 deletion on cell physiology when the cells are forced to exploit their maximum growth potential; this is similar to what happens in shake-flask cultures but with no bias due to growth rate differences. We show that nutrients differentiallly affect the role of Sfp1 in cell-size modulation and in transcriptional control. Furthermore, we report that while Sfp1 is necessary for the efficient glucose-dependent regulation of ribosome biogenesis genes, it is not required for the proper induction of ribosomal protein genes in response to glucose excess. Finally, our data suggest a role for Sfp1 in the regulation of glycolysis, further underlining its involvement in the network that links ribosome biogenesis and cell metabolism.

Published

2008

40. Interactions of an essential Bacillus subtilis GTPase, YsxC, with ribosomes

Author

Wicker-Planquart, Catherine, Foucher, Anne-Emmanuelle, Louwagie, Mathilde, Britton, Robert A., and Jault, Jean-Michel

Subjects

Bacillus subtilis -- Physiological aspects, Bacillus subtilis -- Research, Guanosine triphosphatase -- Physiological aspects, Guanosine triphosphatase -- Research, Bacterial proteins -- Physiological aspects, Bacterial proteins -- Research, Ribosomes -- Genetic aspects, Ribosomes -- Physiological aspects, Ribosomes -- Research, Bacterial genetics -- Research, Biological sciences

Abstract

YsxC is a small GTPase of Bacillus subtilis with essential but still unknown function, although recent works have suggested that it might be involved in ribosome biogenesis. Here, purified YsxC overexpressed in Escherichia coil was found to be partly associated with high-molecular-weight material, most likely rRNA, and thus eluted from gel filtration as a large complex. In addition, purification of ribosomes from an E. coli strain overexpressing YsxC allowed the copurification of the YsxC protein. Purified YsxC was shown to bind preferentially to the 50S subunit of B. subtilis ribosomes; this interaction was modulated by nucleotides and was stronger in the presence of a nonhydrolyzable GTP analogue than with GTP. Far-Western blotting analysis performed with [His.sub.6]-YsxC and ribosomal proteins separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that YsxC interacted with at least four ribosomal proteins from the 50S subunit. Two of these putative protein partners were identified by mass spectrometry as LI and L3, while the third reactive band in the one-dimensional gel contained L6 and L10. The fourth band that reacted with YsxC contained a mixture of three proteins, L7/L12, L23, and L27, suggesting that at least one of them binds to YsxC. Coimmobilization assays confirmed that L1, L6, and L7/L12 interact with YsxC. Together, these results suggest that YsxC plays a role in ribosome assembly.

Published

2008

41. Revisiting the role of yeast Sfp1 in ribosome biogenesis and cell size control: a chemostat study

Author

Cipollina, Chiara, van den Brink, Joost, Daran-Lapujade, Pascale, Pronk, Jack T., Vai, Marina, and de Winde, Johannes H.

Subjects

Brewer's yeast -- Genetic aspects, Brewer's yeast -- Properties, Ribosomes -- Research, Biological sciences

Abstract

Saccharomyces cerevisiae SFP1 promotes transcription of a large cluster of genes involved in ribosome biogenesis. During growth in shake flasks, a mutant deleted for SFP1 shows a small size phenotype and a reduced growth rate. We characterized the behaviour of an sfplA mutant compared to an isogenic reference strain growing in chemostat cultures at the same specific growth rate. By studying glucose (anaerobic)-and ethanol (aerobic)-Iimited cultures we focused specifically on nutrient-dependent effects. Major differences in the genome-wide transcriptional profiles were observed during glucose-limited growth. In particular, Sfp1 appeared to be involved in the control of ribosome biogenesis but not of ribosomal protein gene expression. Flow cytometric analyses revealed size defects for the mutant under both growth conditions. Our results suggest that Sfp1 plays a role in transcriptional and cell size control, operating at two different levels of the regulatory network linking growth, metabolism and cell size.

Published

2008

42. YbxF, a protein associated with exponential-phase ribosomes in Bacillus subtilis

Author

Sojka, Ludek, Fucik, Vladimir, Krasny, Libor, Barvik, Ivan, and Jonfik, Jifi

Subjects

Bacillus subtilis -- Genetic aspects, Bacillus subtilis -- Research, Operons -- Research, Ribosomes -- Research, Biological sciences

Abstract

The ybxF gene is a member of the streptomycin operon in a wide range of gram-positive bacteria. In Bacillus subtilis, it codes for a small basic protein (82 amino acids, pI 9.51) of unknown function. We demonstrate that, in B. subtilis, YbxF localizes to the ribosome, primarily to the 50S subunit, with dependence on growth phase. Based on three-dimensional structures of YbxF generated by homology modeling, we identified helix 2 as important for the interaction with the ribosome. Subsequent mutational analysis of helix 2 revealed Lys24 as crucial for the interaction. Neither the B. subtilis ybxF gene nor its paralogue, the ymxC gene, is essential, as shown by probing [DELTA]ybxF, [DELTA]ymxC, or [DELTA]ybxF AymxC double deletion strains in several functional assays.

Published

2007

43. Target mRNAs are repressed as efficiently by microRNA-binding sites in the 5' UTR as in the 3' UTR

Author

Lytle, J. Robin, Yario, Therese A., and Steitz, Joan A.

Subjects

Messenger RNA -- Research, Repression (Psychology) -- Research, Ribosomes -- Research, Genetic translation -- Research, Science and technology

Abstract

In animals, microRNAs (miRNAs) bind to the 3' UTRs of their target mRNAs and interfere with translation, although the exact mechanism of inhibition of protein synthesis remains unclear. Functional miRNA-binding sites in the coding regions or 5' UTRs of endogenous mRNAs have not been identified. We studied the effect of introducing miRNA target sites into the 5' UTR of luciferase reporter mRNAs containing internal ribosome entry sites (IRESs), so that potential steric hindrance by a microribonucleoprotein complex would not interfere with the initiation of translation. In human HeLa cells, which express endogenous let-7a miRNA, the translational efficiency of these IRES-containing reporters with 5' let-7 complementary sites from the Caenorhabditis elegans lin-41 3' UTR was repressed. Similarly, the IRES-containing reporters were translationally repressed when human Ago2 was tethered to either the 5' or 3' UTR. Interestingly, the method of DNA transfection affected our ability to observe miRNA-mediated repression. Our results suggest that association with any position on a target mRNA is mechanistically sufficient for a microribonucleoprotein to exert repression of translation at some step downstream of initiation. internal ribosome entry sites | repression | method of transfection | let-7 miRNP | translation efficiency

Published

2007

44. The essential GTPase YqeH is required for proper ribosome assembly in Bacillus subtilis

Author

Uicker, William C., Schaefer, Laura, Koenigsknecht, Mark, and Britton, Robert A.

Subjects

Guanosine triphosphatase -- Research, Eukaryotes -- Genetic aspects, Eukaryotes -- Research, Bacillus subtilis -- Genetic aspects, Bacillus subtilis -- Research, Ribosomes -- Research, Biological sciences

Abstract

Recent work with bacteria and eukaryotes has shown that GTPases play important roles in ribosome assembly. Here we show that the essential GTPase YqeH is required for proper 70S ribosome formation and 30S subunit assembly/stability in Bacillus subtilis.

Published

2007

45. Induced-fit tightens pleuromutilins binding to ribosomes and remote interactions enable their selectivity

Author

Davidovich, Chen, Bashan, Anat, Auerbach-Nevo, Tamar, Yaggie, Rachel D., Gontarek, Richard R., and Yonath, Ada

Subjects

Ribosomes -- Structure, Ribosomes -- Research, Protein binding -- Research, Deinococcus -- Genetic aspects, Science and technology

Abstract

New insights into functional flexibility at the peptidyl transferase center (PTC) and its vicinity were obtained by analysis of pleuromutilins binding modes to the ribosome. The crystal structures of Deinococcus radiodurans large ribosomal subunit complexed with each of three pleuromutilin derivatives: retapamulin (SB-275833), SB-280080, and SB-571519, show that all bind to the PTC with their core oriented similarly at the A-site and their C14 extensions pointing toward the P-site. Except for an H-bond network with a single nucleotide, G2061, which involves the essential keto group of all three compounds, only minor hydrophobic contacts are formed between the pleuromutilin C14 extensions and any ribosomal component, consistent with the PTC tolerance to amino acid diversity. Efficient drug binding mode is attained by a mechanism based on induced-fit motions exploiting the ribosomal intrinsic functional flexibility and resulting in conformational rearrangements that seal the pleuromutilin-binding pocket and tightens it up. Comparative studies identified a network of remote interactions around the PTC, indicating that pleuromutilins selectivity is acquired by nonconserved nucleotides residing in the PTC vicinity, in a fashion resembling allosterism. Likewise, pleuromutilin resistant mechanisms involve nucleotides residing in the environs of the binding pocket, consistent with their slow resistance-development rates. antibiotics | functional flexibility | ribosome crystallography | peptidyl transferase center | retapamulin

Published

2007

46. The specialized cytosolic J-protein, Jjj1, functions in 60S ribosomal subunit biogenesis

Author

Meyer, Alison E., Hung, Nai-Jung, Yang, Peizhen, Johnson, Arlen W., and Craig, Elizabeth A.

Subjects

Ribosomes -- Research, Polypeptides -- Research, Molecular chaperones -- Research, Science and technology

Abstract

J-proteins and Hsp70 chaperones function together in diverse cellular processes. We identified a cytosolic J-protein, Jjj1, of Saccharomyces cerevisiae that is associated with 60S ribosomal particles. Unlike Zuo1, a 60S subunit-associated J-protein that is a component of the chaperone machinery that binds nascent polypeptide chains upon their exit from the ribosome, Jjj1 plays a role in ribosome biogenesis. Cells lacking Jjj1 have phenotypes very similar to those lacking Rei1, a ribosome biogenesis factor associated with pre-60S ribosomal particles in the cytosol. Jjj1 stimulated the ATPase activity of the general cytosolic Hsp70 Ssa, but not Ssb, Zuo1's ribosome-associated Hsp70 partner. Overexpression of Jjj1, which is normally [approximately equal to] 40-fold less abundant than Zuo1, can partially rescue the phenotypes of cells lacking Zuo1 as well as cells lacking Ssb. Together, these results are consistent with the idea that Jjj1 normally functions with Ssa in a late, cytosolic step of the biogenesis of 60S ribosomal subunits. In addition, because of its ability to bind 60S subunits, we hypothesize that Jjj1, when overexpressed, is able to partially substitute for the Zuo1:Ssb chaperone machinery by recruiting Ssa to the ribosome, facilitating its interaction with nascent polypeptide chains. Hsp70 | Reil | ribosome biogenesis | Hsp40

Published

2007

47. Comparison of primer sets for use in automated ribosomal intergenic spacer analysis of aquatic bacterial communities: An ecological perspective

Author

Jones, Stuart E., Shade, Ashley L., McMahon, Katherine D., and Kent, Angela D.

Subjects

Aquatic microbiology -- Research, Microbial colonies -- Research, Ribosomes -- Chemical properties, Ribosomes -- Research, Water -- Microbiology, Water -- Research, Biological sciences

Abstract

Two primer sets for automated ribosomal intergenic spacer analysis (ARISA) are used for assessing the bacterial community composition (BCC) in Lake Mendota, Wisconsin. The analysis has shown that ARISA is a powerful tool for evaluating the changes in BCC through space and time, regardless of the specific primer set used.

Published

2007

48. Naturally occurring adenines within mRNA coding sequences affect ribosome binding and expression in Escherichia coli

Author

Brock, Jay E., Paz, Robert L., Cottle, Patrick, and Janssen, Gary R.

Subjects

Messenger RNA -- Research, Adenine -- Research, Genetic translation -- Research, Ribosomes -- Research, Escherichia coli -- Genetic aspects, Escherichia coli -- Research, Biological sciences

Abstract

Translation initiation requires the precise positioning of a ribosome at the start codon. The major signals of bacterial mRNA that direct the ribosome to a translational start site are the Shine-Dalgarno (SD) sequence within the untranslated leader and the start codon. Evidence for the presence of many non-SD-led genes in prokaryotes provides a motive for studying additional interactions between ribosomes and mRNA that contribute to translation initiation. A high incidence of adenines has been reported downstream of the start codon for many Escherichia coli genes, and addition of downstream adenine-rich sequences increases expression from several genes in E. coli. Here we describe site-directed mutagenesis of the E. coli aroL, pncB, and cysJ coding sequences that was used to assess the contribution of naturally occurring adenines to in vivo expression and in vitro ribosome binding from mRNAs with different SD-containing untranslated leaders. Base substitutions that decreased the downstream adenines by one or two nucleotides decreased expression significantly from aroL-, pncB-, and cysJ-lacZ fusions; mutations that increased downstream adenines by one or two nucleotides increased expression significantly from aroL- and cysJ-lacZ fusions. Using primer extension inhibition (toe-print) and filter binding assays to measure ribosome binding, the changes in in vivo expression correlated closely with changes in in vitro ribosome binding strength. Our data are consistent with a model in which downstream adenines influence expression through their effects on the mRNA-ribosome association rate and the amount of ternary complex formed. This work provides evidence that adenine-rich sequence motifs might serve as a general enhancer of E. coli translation.

Published

2007

49. How ribosomes make peptide bonds

Author

Rodnina, Marina V., Beringer, Malte, and Wintermeyer, Wolfgang

Subjects

Ribosomes -- Research, Peptide bonds -- Research, RNA -- Usage, Biological sciences, Chemistry

Abstract

Ribosomes are molecular machines that synthesize proteins in the cell. Recent biochemical analyses and high-resolution crystal structures of the bacterial ribosome have shown that the active site for the formation of peptide bonds--the peptidyl-transferase center--is composed solely of rRNA. Thus, the ribosome is the largest known RNA catalyst and the only natural ribozyme that has a synthetic activity. The ribosome employs entropic catalysis to accelerate peptide-bond formation by positioning substrates, reorganizing water in the active site and providing an electrostatic network that stabilizes reaction intermediates. Proton transfer during the reaction seems to be promoted by a concerted shuttle mechanism that involves ribose hydroxyl groups on the tRNA substrate.

Published

2007

50. Construction of modified ribosomes for incorporation of D-amino acids into proteins

Author

Dedkova, Larisa M., Fahmi, Nour Eddine, Golovine, Serguei Y., and Hecht, Sidney M.

Subjects

Ribosomes -- Research, Protein binding -- Research, Amino acids -- Synthesis, Amino acids -- Analysis, Biological sciences, Chemistry

Abstract

A strategy is developed to prepare modified ribosomes containing alterations within the peptidyltransferase center and helix 89 of 23S rRNA in order to permit the incorporation of D-amino acids into proteins using in vitro protein-synthesizing systems. The alterations in the translation properties have facilitated the binding and processing of misacylated D-aminoacyl-[tRNA.sub.CUA] shown in the A site of the ribosome and increased the probability of using D-amino acids for in vitro protein synthesis.

Published

2006