Your search keyword '"Daley, Daniel"' showing total 46 results

1. Inheritance in Matthew and Jewish Tradition.

Author

Daley, Daniel

Subjects

*GOD in Christianity, *JEWS

Published

2023

2. The bacterial divisome: more than a ring?

Author

Söderström, Bill and Daley, Daniel

Subjects

*BACTERIAL cells, *MOLECULAR machinery (Technology), *DNA machinery, *MOLECULAR switches, *TOROIDAL plasma

Abstract

Bacterial cells are critically dependent on their ability to divide. The process of division is carried out by a large and highly dynamic molecular machine, known as the divisome. An understanding of the divisomes' architecture is highly sought after, as it is essential for understanding molecular mechanisms and potentially designing antibiotic molecules that curb bacterial growth. Our current view, which is mainly based on high-resolution imaging of Escherichia coli, is that it is a patchy ring or toroid structure. However, recent super-resolution imaging has shown that the toroid structure contains at least three concentric rings, each containing a different set of proteins. Thus, the emerging picture is that the divisome has different functional modules that are spatially separated in concentric rings. [ABSTRACT FROM AUTHOR]

Published

2017

3. Why Is the GMN Motif Conserved in the CorA/Mrs2/Alr1 Superfamily of Magnesium Transport Proteins?

Author

Palombo, Isolde, Daley, Daniel O., and Rapp, Mikaela

Subjects

*CARRIER proteins, *MAGNESIUM, *THERMOTOGA maritima, *MYCOBACTERIUM tuberculosis, *OLIGOMERS -- Structure

Abstract

Members of the CorA/Mrs2/Alr1 superfamily of transport proteins mediate magnesium uptake in all kingdoms of life. Family members have a low degree of sequence conservation but are characterized by a conserved extracellular loop. While the degree of sequence conservation in the loop deviates to some extent between family members, the GMN family signature motif is always present. Structural and functional data imply that the loop plays a central role in magnesium selectivity, and recent biochemical data suggest it is crucial for stabilizing the pentamer in the magnesium-free (putative open) conformation. In this study, we present a detailed structure-function analysis of the extracellular loop of CorA from Thermotoga maritima, which provides molecular insight into how the loop mediates these two functions. The data show that loop residues outside of the GMN motif can be substituted if they support the pentameric state, but the residues of the GMN motif are intolerant to substitution. We conclude that G312 is absolutely required for magnesium uptake, M313 is absolutely required for pentamer integrity in the putative open conformation, and N314 plays a role in both of these functions. These observations suggest a molecular reason why the GMN motif is conserved throughout the CorA/Mrs2/Alr1 superfamily. [ABSTRACT FROM AUTHOR]

Published

2013

4. Heme incorporation into the cytochrome bo 3 occurs at a late stage of assembly

Author

Palombo, Isolde and Daley, Daniel O.

Subjects

*HEME, *CYTOCHROME b, *CELL respiration, *PROKARYOTES, *EUKARYOTES, *ESCHERICHIA coli

Abstract

Abstract: Respiratory complexes in both prokaryotes and eukaryotes contain multiple co-factors, which are coordinated in defined positions so that they can function as electron wires. Intriguingly, co-factors are usually buried deep within hetero-oligomeric protein complexes and it is not clear when or how they are incorporated. In this study we show that heme is incorporated into the cytochrome bo 3 complex of Escherichia coli at a late stage of assembly. Specifically the apo-form of subunit I (the catalytic subunit) interacts with subunits III and IV before accepting heme. Assembly of subunit II is stalled until heme is incorporated. [Copyright &y& Elsevier]

Published

2012

5. The Periplasmic Loop Provides Stability to the Open State of the CorA Magnesium Channel.

Author

Palombo, Isolde, Daley, Daniel O., and Rapp, Mikaela

Subjects

*ION channels, *ACTIVE biological transport, *ION-permeable membranes, *MEMBRANE proteins, *BIOLOGICAL membranes

Abstract

Crystal structures of the CorA Mg2+ channel have suggested that metal binding in the cytoplasmic domain stabilizes the pentamer in a closed conformation. The open "metal free" state of the channel is, however, still structurally uncharacterized. Here, we have attempted to map conformational states of CorA from Thermotoga maritima by determining which residues support the pentameric structure in the presence or absence of Mg2+. Wefind that whenMg2+is present, the pentamer is stabilized by the putative gating sites (M1/M2) in the cytoplasmic domain. Strikingly however, we find that the conserved and functionally important periplasmic loop is vital for the integrity of the pentamer when Mg2+ is absent from the M1/M2 sites. Thus, although the periplasmic loops were largely disordered in the x-ray structures of the closed channel, our data suggests a prominent role for the loops in stabilizing the open conformation of the CorA channels. [ABSTRACT FROM AUTHOR]

Published

2012

6. The Escherichia coli Cell Division Protein ZipA Forms Homodimers Prior to Association with FtsZ.

Author

Skoog, Karl and Daley, Daniel O.

Subjects

*ESCHERICHIA coli, *CELL division, *GEL electrophoresis, *OLIGOMERS, *TUBULINS, *BACTERIA

Abstract

ZipA is an essential component of the cell division machinery in E. coli and other closely related bacteria. It is an integral membrane protein that binds to FtsZ, tethering it to the inner membrane. ZipA also induces bundling of FtsZ protofilaments and may play a role in regulating FtsA activity; however, the molecular details behind these observations are not clear. In this study we have analyzed the oligomeric state of ZipA in vivo, by chemical cross-linking, and in vitro, by native gel electrophoresis (BN-PAGE). Our data indicate that ZipA can self-associate as a homodimer and that this self-interaction is not dependent on the FtsZ-binding domain. This observation rules out the possibility that FtsZ polymers mediate the ZipA self-interaction. Given this observation, it is possible that a certain population of ZipA is recruited to the division septum in a homodimeric form. [ABSTRACT FROM AUTHOR]

Published

2012

7. Exploring the inner membrane proteome of Escherichia coli: which proteins are eluding detection and why?

Author

Bernsel, Andreas and Daley, Daniel O.

Subjects

*BACTERIAL proteins, *MEMBRANE proteins, *EXTRACELLULAR matrix proteins, *PATHOGENIC microorganisms, *ESCHERICHIA coli, *PROTEOMICS, *BIOINFORMATICS

Abstract

Proteins embedded in membranes are important for helping the cell adapt to changes in the extracellular milieu and often play key roles in the life cycles of pathogenic microbes. Bioinformatic predictions can provide an estimate of membrane proteins, but experimental approaches of detection are required for a deeper understanding of their functions. To determine the effectiveness of experimental detection approaches, here we collate and discuss data from available proteomic analyses on the inner (or cytoplasmic) membrane of Escherichia coli. We compile a list of proteins that have been experimentally detected and by comparing this to a predicted proteome we identify membrane proteins that have eluded us experimentally. Limitations of current proteomic analyses together with possible solutions are discussed. We also provide a list of proteins for benchmarking the performance of future proteomic studies. [Copyright &y& Elsevier]

Published

2009

8. The assembly of membrane proteins into complexes

Author

Daley, Daniel O.

Subjects

*MEMBRANE proteins, *BIOLOGICAL membranes, *STRUCTURAL bioinformatics, *MOLECULAR chaperones, *PROTEINS

Abstract

Protein complexes are a fundamental aspect of life in a membrane. It is therefore important to understand which proteins are assembled, and how the process of assembly is coordinated. To this end, a number of themes have emerged from the literature in recent years: first, membrane proteins assemble in an ordered, rather than a stochastic manner; second, they require chaperones to prevent unwanted interactions/aggregation; and third, they can be assembled into existing complexes. As these recurrent themes have emerged from studies on disparate complexes, they provide a general framework to understand the assembly of membrane proteins. [Copyright &y& Elsevier]

Published

2008

9. Experimentally Constrained Topology Models for 51,208 Bacterial Inner Membrane Proteins

Author

Granseth, Erik, Daley, Daniel O., Rapp, Mikaela, Melén, Karin, and von Heijne, Gunnar

Subjects

*MEMBRANE proteins, *GENOMES, *CYTOPLASM, *TOPOLOGY

Abstract

We have used 502 Escherichia coli inner membrane proteins with experimentally determined C-terminal locations (cytoplasmic or periplasmic) from a recently published data set, together with an additional 106 bacterial membrane proteins with known topology, as queries in BLAST searches against a data base of 658,210 bacterial open reading frames from GenBank. We find 51,208 homologs to the query sequences for which we can assign the location of the C terminus or an internal residue to the same side of the membrane as the query''s C terminus. These assignments are then used as constraints for topology prediction. The 51,208 much improved topology models derived in this way cover ∼30% of all predicted bacterial inner membrane proteins in 225 fully sequenced bacterial genomes. [Copyright &y& Elsevier]

Published

2005

10. Intracellular gene transfer: Reduced hydrophobicity facilitates gene transfer for subunit 2 of cytochrome c oxidase.

Author

Daley, Daniel O., Clifton, Rachel, and Whelan, James

Subjects

*GENETIC transformation, *CYTOCHROME oxidase, *MITOCHONDRIA

Abstract

Examines the effect of reduced hydrophobicity on the gene transfer of cytochrome c oxidase subunit 2. Importation of nuclear-encoded protein into mitochondria; Changes in amino acids in the mature protein; Characterization of gene transfer events in plants and green algae.

Published

2002

11. Gene transfer from mitochondrion to nucleus: novel mechanisms for gene activation from Cox2.

Author

Daley, Daniel O, Adams, Keith L, Clifton, Rachel, Qualmann, Svenja, Millar, A. Harvey, Palmer, Jeffrey D, Pratje, Elke, and Whelan, James

Subjects

*GENETIC transformation, *MITOCHONDRIAL DNA, *CELL nuclei, *LEGUMES, *CYTOCHROME c

Abstract

Summary The evolutionarily recent transfer of the gene for cytochrome c oxidase subunit 2 (cox2 ) from the mitochondrion to the nucleus in legumes is shown to have involved novel gene-activation steps. The acquired mitochondrial targeting presequence is bordered by two introns. Characterization of the import of soybean Cox2 indicates that the presequence is cleaved in a three-step process which is independent of assembly. The final processing step takes place only in the mitochondria of legume species, and not in several non-legume plants. The unusually long presequence of 136 amino acids consists of three regions: the first 20 amino acids are required for mitochondrial targeting and can be replaced by another presequence; the central portion of the presequence is required for efficient import of the Cox2 protein into mitochondria; and the last 12 amino acids, derived from the mitochondrially encoded protein, are required for correct maturation of the imported protein. The acquisition of a unique presequence, and the capacity for legume mitochondria to remove this presequence post-import, are considered to be essential adaptations for targeting of Cox2 to the mitochondrion and therefore activation of the transferred gene in the nucleus. [ABSTRACT FROM AUTHOR]

Published

2002

12. Repeated, recent and diverse transfers of a mitochondrial gene to the nucleus in flowering plants.

Author

Adams, Keith L., Daley, Daniel O., Qiu, Yin-Long, Whelan, James, and Palmer, Jeffrey D.

Subjects

*MITOCHONDRIA, *GENETIC transformation, *ANGIOSPERMS, *ENDOSYMBIOSIS, *EVOLUTIONARY theories, *GENETICS

Abstract

Reports the frequent loss and transfer to the nucleus of the mitochondrial gene rps10 among 277 diverse angiosperms. Implication that many independent RNA-mediated rps10 transfers occurred during recent angiosperm evolution; Theory that each of the genes may represent a separate functional gene transfer; Diverse mechanisms by which transferred genes become activated as revealed by the structures of several nuclear rps10 genes; Relation to the endosymbiotic theory for the bacterial origin of the mitochondrion.

Published

2000

13. Reproductive Health and AIDS-Related Services For Women: How Well Are They Integrated?

Author

Daley, Daniel

Subjects

*REPRODUCTIVE health, *WOMEN'S health, *HEALTH facilities, *WOMEN'S health services, *MATERNAL health services, *SEXUALLY transmitted diseases

Abstract

To explore the relationship between human immunodeficiency virus (HIV) and AIDS services and reproductive health services, a survey was undertaken in 1994 of 30 health care facilities that are grantees under Title IIIb of the Ryan White Comprehensive AIDS Resource Emergency Act, 19 family planning clinics that offer at least some HIV services, and two family planning agencies that are also grantees under Title IIIb. The Title IIIb providers and the family planning agencies offer similar sets of services, but they tend to view reproductive health and HIV and STD services as distinctly different categories. Eliminating the perceptual distinctions between these services and viewing reproductive health services as key components of HIV and AIDS prevention could result in a more integrated system of helping women with HIV infection or AIDS as well as those at risk of HIV infection. [ABSTRACT FROM AUTHOR]

Published

1994

14. Public Funding for Contraceptive, Sterilization and Abortion Services, Fiscal Year 1992.

Author

Daley, Daniel and Gold, Rachel Benson

Subjects

*ORAL contraceptives, *FEDERAL aid to health planning, *STERILIZATION (Disinfection), *CONTRACEPTIVE drugs, *PROGESTATIONAL hormones, *BIRTH control

Abstract

This article discusses the public funding for contraceptive, sterilization and abortion services for fiscal year 1992. The federal government makes funds available for family planning services through four major sources, Title X of the Public Health Service Act, and Titles V, XIX and XX of the Social Security Act. The latter three sources are better known as the maternal and child health block grant, Medicaid and the social services block grant, respectively. Title X is the only federal program with the primary purpose of providing family planning services. The Department of Health and Human Services administers this categorical program, awarding family planning-specific grants through its 10 regional offices to a variety of public-sector and private-sector agencies. In West Virginia, a 1992 law would ban state-funded abortions unless two doctors certified that the procedure was necessary to save the woman's life, to prevent the irreversible loss of major bodily function, if there was clear evidence of severe fetal defect, if the fetus suffered from a terminal illness, or if the woman was a victim of incest or a rape reported to authorities. A temporary restraining order was issued to bar the implementation of the law, pending a ruling on the constitutionality of the provisions under the state constitution.

Published

1993

15. Public funding of contraceptive, sterilization and abortion services, fiscal year 1990.

Author

Gold, Rachel Benson and Daley, Daniel

Subjects

*PUBLIC finance, *CONTRACEPTIVES, *STERILIZATION (Birth control), *ABORTION, *MEDICAID

Abstract

In FY 1990, the federal and state governments spent $504 million to provide contraceptive services and supplies, according to results of a survey of state health, social services and Medicaid agencies conducted by The Alan Guttmacher Institute. Medicaid accounted for 38 percent of all public funds spent on contraceptive services, Title X provided 22 percent, and two federal block-grant programs--Social Services and Maternal and Child Health--together were responsible for 12 percent of public expenditures. State governments accounted for the remaining 28 percent of public funding. Although public expenditures for contraceptive services have risen by $154 million over the past decade, when inflation is taken into account, expenditures have actually fallen by one-third. Since 1980, the proportion of public contraceptive expenditures contributed by Title X has been cut virtually in half, while the proportion contributed by state governments has nearly doubled. When inflation is taken into account, Title X expenditures for contraceptive services have fallen by almost two-thirds since 1980. The federal and state governments together spent $95 million to subsidize sterilization services in 1990, and $65 million to provide abortion services. The federal government was the major source of funding for sterilization services but provided less than one percent of the cost of abortion services. Because of changes over time in survey methodology and the difficulties some states had in separating out expenditures by type of care, these data are approximations. [ABSTRACT FROM AUTHOR]

Published

1991

16. Global Topology Analysis of the Escherichia coli Inner Membrane Proteome.

Author

Daley, Daniel O.

Subjects

*ESCHERICHIA coli, *BIOMOLECULES, *ENTEROBACTERIACEAE, *GREEN fluorescent protein, *MEMBRANE proteins, *CYTOPLASM

Abstract

The protein complement of cellular membranes is notoriously resistant to standard proteomic analysis and structural studies. As a result, membrane proteomes remain ill-defined. Here, we report a global topology analysis of the Escherichia coli inner membrane proteome. Using C-terminal tagging with the alkaline phosphatase and green fluorescent protein, we established the periplasmic or cytoplasmic locations of the C termini for 601 inner membrane proteins. By constraining a topology prediction algorithm with this data, we derived high-quality topology models for the 601 proteins, providing a firm foundation for future functional studies of this and other membrane proteomes. We also estimated the overexpression potential for 397 green fluorescent protein fusions; the results suggest that a large fraction of all inner membrane proteins can be produced in sufficient quantities for biochemical and structural work. [ABSTRACT FROM AUTHOR]

Published

2005

17. FtsZ does not initiate membrane constriction at the onset of division.

Author

Daley, Daniel O., Skoglund, Ulf, and Söderström, Bill

Published

2016

18. Structural and functional insights into the Pseudomonas aeruginosa glycosyltransferase WaaG and the implications for lipopolysaccharide biosynthesis.

Author

Scaletti, Emma R., Pettersson, Pontus, Patrick, Joan, Shilling, Patrick J., Westergren, Robert Gustafsson, Daley, Daniel O., Mäler, Lena, Widmalm, Göran, and Stenmark, Pål

Subjects

*BIOSYNTHESIS, *ESCHERICHIA coli, *LIPOPOLYSACCHARIDES, *DRUG design, *BINDING sites, *GALACTOSE, *MICROCYSTIS aeruginosa

Abstract

The glycosyltransferase WaaG in Pseudomonas aeruginosa (PaWaaG) is involved in the synthesis of the core region of lipopolysaccharides. It is a promising target for developing adjuvants that could help in the uptake of antibiotics. Herein, we have determined structures of PaWaaG in complex with the nucleotide-sugars UDP-glucose, UDP-galactose, and UDPGalNAc. Structural comparison with the homolog from Escherichia coli (EcWaaG) revealed five key differences in the sugar-binding pocket. Solution-state NMR analysis showed that WT PaWaaG specifically hydrolyzes UDP-GalNAc and unlike EcWaaG, does not hydrolyze UDP-glucose. Furthermore, we found that a PaWaaG mutant (Y97F/T208R/N282A/T283A/T285I) designed to resemble the EcWaaG sugar binding site, only hydrolyzed UDP-glucose, underscoring the importance of the identified amino acids in substrate specificity. However, neither WT PaWaaG nor the PaWaaG mutant capable of hydrolyzing UDP-glucose was able to complement an E. coli waaG strain, indicating that more remains to be uncovered about the function of PaWaaG in vivo. This structural and biochemical information will guide future structurebased drug design efforts targeting PaWaaG. [ABSTRACT FROM AUTHOR]

Published

2023

19. Tips for efficiently maintaining pET expression plasmids.

Author

Khananisho, Diana, Cumming, Alister J., Kulakova, Daria, Shilling, Patrick J., and Daley, Daniel O.

Subjects

*PLASMIDS, *LACTAMS, *RNA polymerases, *RECOMBINANT proteins, *HARBOR maintenance & repair, *ESCHERICHIA coli

Abstract

pET expression plasmids are widely used for producing recombinant proteins in Escherichia coli. Selection and maintenance of cells harboring a pET plasmid are possible using either a Tn3.1-type genetic fragment (which encodes a ß-lactamase and confers resistance to ß-lactam antibiotics) or a Tn903.1-type genetic fragment (which encodes an aminoglycoside-3'-phosphotransferase and confers resistance aminoglycoside antibiotics). Herein we have investigated how efficiently pET plasmids are maintained using these two fragments. The study reveals that pET plasmids are efficiently maintained with both Tn3.1 and Tn903.1 genetic fragments prior to the induction of recombinant protein production, and over short induction times (i.e., 2 h). However, over longer induction times (i.e., 20 h), the efficiency of plasmid maintenance depends on the host strain used, and the type of antibiotic selection cassette used. Based on our collective observations, we have 2 general tips for efficiently maintaining pET plasmids during recombinant production experiments. Tip #1: Use a strain with lowered levels of the T7 RNA polymerase, such as C41(DE3). pET plasmids will be efficiently maintained over long induction times with both the Tn3.1 and Tn903.1 genetic fragments, regardless of whether antibiotics are present during cultivation. Tip #2: If a strain with higher levels of T7 RNA polymerase strain is necessary, such as BL21(DE3)), keep induction times short or use a plasmid containing a Tn903.1-type fragment and select with kanamycin. [ABSTRACT FROM AUTHOR]

Published

2023

20. Application of nanotags and nanobodies for live cell single-molecule imaging of the Z-ring in Escherichia coli.

Author

Westlund, Emma, Bergenstråle, Axel, Pokhrel, Alaska, Chan, Helena, Skoglund, Ulf, Daley, Daniel O., and Söderström, Bill

Subjects

*CELL imaging, *BACTERIAL proteins, *FLUORESCENT proteins, *IMMOBILIZED proteins, *IMMUNOGLOBULINS

Abstract

Understanding where proteins are localized in a bacterial cell is essential for understanding their function and regulation. This is particularly important for proteins that are involved in cell division, which localize at the division septum and assemble into highly regulated complexes. Current knowledge of these complexes has been greatly facilitated by super-resolution imaging using fluorescent protein fusions. Herein, we demonstrate with FtsZ that single-molecule PALM images can be obtained in-vivo using a genetically fused nanotag (ALFA), and a corresponding nanobody fused to mEos3.2. The methodology presented is applicable to other bacterial proteins. [ABSTRACT FROM AUTHOR]

Published

2023

21. Elucidation of the O-antigen structure of Escherichia coli O93 and characterization of its biosynthetic genes.

Author

Furevi, Axel, Ståhle, Jonas, Muheim, Claudio, Gkotzis, Spyridon, Daley, Daniel O, Udekwu, Klas I, and Widmalm, Göran

Subjects

*ESCHERICHIA coli, *COUPLING constants, *GENE clusters, *POLYMER structure, *COMPUTER software

Abstract

The structure of the O-antigen from the international reference strain Escherichia coli O93:−:H16 has been determined. A nonrandom modal chain-length distribution was observed for the lipopolysaccharide, a pattern which is typical when long O-specific polysaccharides are expressed. By a combination of (i) bioinformatics information on the gene cluster related to O-antigen synthesis including putative function on glycosyl transferases, (ii) the magnitude of NMR coupling constants of anomeric protons, and (iii) unassigned 2D 1H, 13C-HSQC, and 1H,1H-TOCSY NMR spectra it was possible to efficiently elucidate the structure of the carbohydrate polymer in an automated fashion using the computer program CASPER. The polysaccharide also carries O -acetyl groups and their locations were determined by 2D NMR experiments showing that ~½ of the population was 2,6-di- O -acetylated, ~¼ was 2- O -acetylated, whereas ~¼ did not carry O -acetyl group(s) in the 3- O -substituted mannosyl residue of the repeating unit. The structure of the tetrasaccharide repeating unit of the O-antigen is given by: →2)-β- d -Man p -(1→3)-β- d -Man p 2Ac6Ac-(1→4)-β- d -Glc p A-(1→3)-α- d -Glc p NAc-(1→, which should also be the biological repeating unit and it shares structural elements with capsular polysaccharides from E. coli K84 and K50. The structure of the acidic O-specific polysaccharide from Cellulophaga baltica strain NN015840T differs to that of the O-antigen from E. coli O93 by lacking the O -acetyl group at O6 of the O -acetylated mannosyl residue. [ABSTRACT FROM AUTHOR]

Published

2023

22. Super-resolution images of peptidoglycan remodelling enzymes at the division site of Escherichia coli.

Author

Söderström, Bill, Chan, Helena, and Daley, Daniel O.

Subjects

*BACTERIAL cells, *PEPTIDOGLYCANS, *ESCHERICHIA coli, *BACTERIAL proteins, *GRAM-negative bacteria

Abstract

Bacterial cells need to divide. This process requires more than 30 different proteins, which gather at the division site. It is widely assumed that these proteins assemble into a macromolecular complex (the divisome), but capturing the molecular layout of this complex has proven elusive. Super-resolution microscopy can provide spatial information, down to a few tens of nanometers, about how the division proteins assemble into complexes and how their activities are co-ordinated. Herein we provide insight into recent work from our laboratories, where we used super-resolution gSTED nanoscopy to explore the molecular organization of FtsZ, FtsI and FtsN. The resulting images show that all three proteins form discrete densities organised in patchy pseudo-rings at the division site. Significantly, two-colour imaging highlighted a radial separation between FtsZ and FtsN, indicating that there is more than one type of macromolecular complex operating during division. These data provide a first glimpse into the spatial organisation of PG-synthesising enzymes during division in Gram-negative bacteria. [ABSTRACT FROM AUTHOR]

Published

2019

23. The outer mitochondrial membrane in higher plants

Author

Duncan, Owen, van der Merwe, Margaretha J., Daley, Daniel O., and Whelan, James

Subjects

*MITOCHONDRIAL membranes, *PLASTIDS, *PLANT organelles, *PLANT proteins, *ARABIDOPSIS thaliana, *PHYLOGENY

Abstract

The acquisition and integration of intracellular organelles, such as mitochondria and plastids, were important steps in the emergence of complex multicellular life. Although the outer membranes of these organelles have lost many of the functions of their free-living bacterial ancestor, others were acquired during organellogenesis. To date, the biological roles of these proteins have not been systematically characterized. In this review, we discuss the evolutionary origins and functions of outer membrane mitochondrial (OMM) proteins in Arabidopsis thaliana. Our analysis, using phylogenetic inference, indicates that several OMM proteins either acquired novel functional roles or were recruited from other subcellular localizations during evolution in Arabidopsis. These observations suggest the existence of novel communication routes and functions between organelles within plant cells. [Copyright &y& Elsevier]

Published

2013

24. Estimating Z-ring radius and contraction in dividing Escherichia coli.

Author

Strömqvist, Johan, Skoog, Karl, Daley, Daniel O., Widengren, Jerker, and Von Heijne, Gunnar

Subjects

*FLUORESCENCE, *ESCHERICHIA coli, *CELL division, *GREEN fluorescent protein, *FLUORESCENT polymers, *MOLECULAR microbiology

Abstract

We present a fluorescence recovery after photobleaching-based method for monitoring the progression of septal Z-ring contraction in dividing Escherichia coli cells. In a large number of cells undergoing division, we irreversibly bleached cytosolically expressed Enhanced Green Fluorescent Protein on one side of the septal invagination and followed the fluorescence relaxation on both sides of the septum. Since the relaxation time depends on the cross-sectional area of the septum, it can be used to determine the septal radius r. Assuming that the fraction of the observed cells with r-values in a given interval reflects the duration of that interval in the division process we could derive an approximate time-course for the contraction event, as a population average. By applying the method repeatedly on individual cells, the contraction process was also followed in real time. On a population average level, our data are best described by a linear contraction process in time. However, on the single cell level the contraction processes display a complex behaviour, with varying levels of activity. The proposed approach provides a simple yet versatile method for studying Z-ring contraction in vivo, and will help to elucidate its underlying mechanisms. [ABSTRACT FROM AUTHOR]

Published

2010

25. Assembly of the Cytochrome bo 3 Complex

Author

Stenberg, Filippa, von Heijne, Gunnar, and Daley, Daniel O.

Subjects

*CYTOCHROMES, *PROTEINS, *ESCHERICHIA coli, *MEMBRANE proteins

Abstract

Abstract: An understanding of the mechanisms that govern the assembly of macromolecular protein complexes is fundamental for studying their function and regulation. With this in mind, we have determined the assembly pathway for the membrane-embedded cytochrome bo 3 of Escherichia coli. We show that there is a preferred order of assembly, where subunits III and IV assemble first, followed by subunit I and finally subunit II. We also show that cofactor insertion catalyses assembly. These findings provide novel insights into the biogenesis of this model membrane protein complex. [Copyright &y& Elsevier]

Published

2007

26. Signal amplification of araC pBAD using a standardized translation initiation region.

Author

Shilling, Patrick J, Khananisho, Diana, Cumming, Alister J, Söderström, Bill, and Daley, Daniel O

Subjects

*GENE expression, *BIOENGINEERING, *ARABINOSE, *MICROBIAL cells, *SYNTHETIC biology

Abstract

araC pBAD is a genetic fragment that regulates the expression of the araBAD operon in bacteria, which is required for the metabolism of L-arabinose. It is widely used in bioengineering applications because it can drive regulatable and titratable expression of genes and genetic pathways in microbial cell factories. A notable limitation of araC pBAD is that it generates a low signal when induced with high concentrations of L-arabinose (the maximum ON state). Herein we have amplified the maximum ON state of araC pBAD by coupling it to a synthetically evolved translation initiation region (TIREVOL). The coupling maintains regulatable and titratable expression from araC pBAD and yet increases the maximal ON state by >5-fold. The general principle demonstrated in the study can be applied to amplify the signal from similar genetic modules. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2022

27. Improved designs for pET expression plasmids increase protein production yield in Escherichia coli.

Author

Shilling, Patrick J., Mirzadeh, Kiavash, Cumming, Alister J., Widesheim, Magnus, Köck, Zoe, and Daley, Daniel O.

Subjects

*PLASMIDS, *PROTEIN expression, *ESCHERICHIA coli, *BACTERIAL proteins, *TRANSCRIPTION factors, *PROTEIN analysis

Abstract

The pET series of expression plasmids are widely used for recombinant protein production in Escherichia coli. The genetic modules controlling transcription and translation in these plasmids were first described in the 1980s and have not changed since. Herein we report design flaws in these genetic modules. We present improved designs and demonstrate that, when incorporated into pET28a, they support increases in protein production. The improved designs are applicable to most of the 103 vectors in the pET series and can be easily implemented. Patrick Shilling et al. increase the protein production yield from the pET28a expression plasmid by modifying the genetic modules that control transcription and translation initiation. These improved designs are applicable to most vectors in the pET series and can be easily implemented. [ABSTRACT FROM AUTHOR]

Published

2020

28. Increased production of periplasmic proteins in Escherichia coli by directed evolution of the translation initiation region.

Author

Mirzadeh, Kiavash, Shilling, Patrick J., Elfageih, Rageia, Cumming, Alister J., Cui, Huanhuan L., Rennig, Maja, Nørholm, Morten H. H., and Daley, Daniel O.

Subjects

*RECOMBINANT proteins, *BACTERIAL proteins, *GENETIC translation, *AMINO acid sequence, *SIGNAL peptides, *PROTEINS, *ESCHERICHIA coli

Abstract

Background: Recombinant proteins are often engineered with an N-terminal signal peptide, which facilitates their secretion to the oxidising environment of the periplasm (gram-negative bacteria) or the culture supernatant (gram-positive bacteria). A commonly encountered problem is that the signal peptide influences the synthesis and secretion of the recombinant protein in an unpredictable manner. A molecular understanding of this phenomenon is highly sought after, as it could lead to improved methods for producing recombinant proteins in bacterial cell factories. Results: Herein we demonstrate that signal peptides contribute to an unpredictable translation initiation region. A directed evolution approach that selects a new translation initiation region, whilst leaving the amino acid sequence of the signal peptide unchanged, can increase production levels of secreted recombinant proteins. The approach can increase production of single chain antibody fragments, hormones and other recombinant proteins in the periplasm of E. coli. Conclusions: The study demonstrates that signal peptide performance is coupled to the efficiency of the translation initiation region. [ABSTRACT FROM AUTHOR]

Published

2020

29. Spatial separation of FtsZ and FtsN during cell division.

Author

Söderström, Bill, Chan, Helena, Shilling, Patrick J., Skoglund, Ulf, and Daley, Daniel O.

Subjects

*ESCHERICHIA coli, *CELL division, *PROTEINS, *MICROSCOPY, *MACROMOLECULES

Abstract

Summary: The division of Escherichia coli is mediated by a collection of some 34 different proteins that are recruited to the division septum and are thought to assemble into a macromolecular complex known as ‘the divisome’. Herein, we have endeavored to better understand the structure of the divisome by imaging two of its core components; FtsZ and FtsN. Super resolution microscopy (SIM and gSTED) indicated that both proteins are localized in large assemblies, which are distributed around the division septum (i.e., forming a discontinuous ring). Although the rings had similar radii prior to constriction, the individual densities were often spatially separated circumferentially. As the cell envelope constricted, the discontinuous ring formed by FtsZ moved inside the discontinuous ring formed by FtsN. The radial and circumferential separation observed in our images indicates that the majority of FtsZ and FtsN molecules are organized in different macromolecular assemblies, rather than in a large super‐complex. This conclusion was supported by fluorescence recovery after photobleaching measurements, which indicated that the dynamic behavior of the two macromolecular assemblies was also fundamentally different. Taken together, the data indicates that constriction of the cell envelope is brought about by (at least) two spatially separated complexes. [ABSTRACT FROM AUTHOR]

Published

2018

30. Coordinated disassembly of the divisome complex in Escherichia coli.

Author

Söderström, Bill, Mirzadeh, Kiavash, Toddo, Stephen, von Heijne, Gunnar, Skoglund, Ulf, and Daley, Daniel O.

Subjects

*ESCHERICHIA coli, *GRAM-negative bacteria, *ESCHERICHIA coli proteins, *PERIPLASM, *PEPTIDOGLYCANS

Abstract

The divisome is the macromolecular complex that carries out cell division in Escherichia coli. Every generation it must be assembled, and then disassembled so that the sequestered proteins can be recycled. Whilst the assembly process has been well studied, virtually nothing is known about the disassembly process. In this study, we have used super-resolution SIM imaging to monitor pairs of fluorescently tagged divisome proteins as they depart from the division septum. These simple binary comparisons indicated that disassembly occurs in a coordinated process that consists of at least five steps: [FtsZ, ZapA] ⇒ [ZipA, FtsA] ⇒ [FtsL, FtsQ] ⇒ [FtsI, FtsN] ⇒ [FtsN]. This sequence of events is remarkably similar to the assembly process, indicating that disassembly follows a first-in, first-out principle. A secondary observation from these binary comparisons was that FtsZ and FtsN formed division rings that were spatially separated throughout the division process. Thus the data indicate that the divisome structure can be visualized as two concentric rings; a proto-ring containing FtsZ and an FtsN-ring. [ABSTRACT FROM AUTHOR]

Published

2016

31. Trimeric microsomal glutathione transferase 2 displays one third of the sites reactivity.

Author

Ahmad, Shabbir, Thulasingam, Madhuranayaki, Palombo, Isolde, Daley, Daniel O., Johnson, Kenneth A., Morgenstern, Ralf, Haeggström, Jesper Z., and Rinaldo-Matthis, Agnes

Subjects

*GLUTATHIONE transferase, *BINDING sites, *DINITROBENZENES, *MEMBRANE proteins, *EICOSANOIDS

Abstract

Human microsomal glutathione transferase 2 (MGST2) is a trimeric integral membrane protein that belongs to the membrane-associated proteins in eicosanoid and glutathione metabolism (MAPEG) family. The mammalian MAPEG family consists of six members where four have been structurally determined. MGST2 activates glutathione to form a thiolate that is crucial for GSH peroxidase activity and GSH conjugation reactions with electrophilic substrates, such as 1-chloro-2,4-dinitrobenzene (CDNB). Several studies have shown that MGST2 is able to catalyze a GSH conjugation reaction with the epoxide LTA 4 forming the pro-inflammatory LTC 4 . Unlike its closest homologue leukotriene C 4 synthase (LTC4S), MGST2 appears to activate its substrate GSH using only one of the three potential active sites [Ahmad S, et al. (2013) Biochemistry . 52, 1755–1764]. In order to demonstrate and detail the mechanism of one-third of the sites reactivity of MGST2, we have determined the enzyme oligomeric state, by Blue native PAGE and Differential Scanning Calorimetry, as well as the stoichiometry of substrate and substrate analog inhibitor binding to MGST2, using equilibrium dialysis and Isothermal Titration Calorimetry, respectively. Global simulations were used to fit kinetic data to determine the catalytic mechanism of MGST2 with GSH and CDNB (1-chloro-2,4-dinitrobenzene) as substrates. The best fit was observed with 1/3 of the sites catalysis as compared with a simulation where all three sites were active. In contrast to LTC4S, MGST2 displays a 1/3 the sites reactivity, a mechanism shared with the more distant family member MGST1 and recently suggested also for microsomal prostaglandin E synthase-1. [ABSTRACT FROM AUTHOR]

Published

2015

32. The Escherichia coli Envelope Stress Sensor CpxA Responds to Changes in Lipid Bilayer Properties.

Author

Keller, Rebecca, Ariöz, Candan, Hansmeier, Nicole, Stenberg-Bruzell, Filippa, Burstedt, Malin, Vikström, David, Kelly, Amelie, Wieslander, Åke, Daley, Daniel O., and Hunke, Sabine

Subjects

*ESCHERICHIA coli, *BILAYER lipid membranes, *PHOSPHATIDYLETHANOLAMINES, *PHOSPHOLIPIDS, *BIOLOGICAL membranes

Abstract

The Cpx stress response system is induced by various environmental and cellular stimuli. It is also activated in Escherichia coli strains lacking the major phospholipid, phosphatidylethanolamine (PE). However, it is not known whether CpxA directly senses changes in the lipid bilayer or the presence of misfolded proteins due to the lack of PE in their membranes. To address this question, we used an in vitro reconstitution system and vesicles with different lipid compositions to track modulations in the activity of CpxA in different lipid bilayers. Moreover, the Cpx response was validated in vivo by monitoring expression of a PcpxP-gfp reporter in lipid-engineered strains of E. coli. Our combined data indicate that CpxA responds specifically to different lipid compositions. [ABSTRACT FROM AUTHOR]

Published

2015

33. YfgM Is an Ancillary Subunit of the SecYEG Translocon in Escherichia coli.

Author

Götzke, Hansjörg, Palombo, Isolde, Muheim, Claudio, Perrody, Elsa, Genevaux, Pierre, Kudva, Renuka, Müller, Matthias, and Daley, Daniel O.

Subjects

*ESCHERICHIA coli, *GRAM-negative bacteria, *CYTOPLASM, *MEMBRANE proteins, *IMMUNOPRECIPITATION

Abstract

Protein secretion in Gram-negative bacteria is essential for both cell viability and pathogenesis. The vast majority of secreted proteins exit the cytoplasm through a transmembrane conduit called the Sec translocon in a process that is facilitated by ancillary modules, such as SecA, SecDF-YajC, YidC, and PpiD. In this study we have characterized YfgM, a protein with no annotated function. We found it to be a novel ancillary subunit of the Sec translocon as it co-purifies with both PpiD and the SecYEG translocon after immunoprecipitation and blue native/SDS-PAGE. Phenotypic analyses of strains lacking yfgM suggest that its physiological role in the cell overlaps with the periplasmic chaperones SurA and Skp. We, therefore, propose a role for YfgM in mediating the trafficking of proteins from the Sec translocon to the periplasmic chaperone network that contains SurA, Skp, DegP, PpiD, and FkpA. [ABSTRACT FROM AUTHOR]

Published

2014

34. Heterologous overexpression of a monotopic glucosyltransferase (MGS) induces fatty acid remodeling in Escherichia coli membranes.

Author

Ariöz, Candan, Götzke, Hansjörg, Lindholm, Ljubica, Eriksson, Jonny, Edwards, Katarina, Daley, Daniel O., Barth, Andreas, and Wieslander, Åke

Subjects

*MEMBRANE proteins, *ACHOLEPLASMA laidlawii, *CELLS, *CYCLOPROPANATION, *FATTY acids, *LIPIDS

Abstract

Abstract: The membrane protein monoglucosyldiacylglycerol synthase (MGS) from Acholeplasma laidlawii is responsible for the creation of intracellular membranes when overexpressed in Escherichia coli (E. coli). The present study investigates time dependent changes in composition and properties of E. coli membranes during 22h of MGS induction. The lipid/protein ratio increased by 38% in MGS-expressing cells compared to control cells. Time-dependent screening of lipids during this period indicated differences in fatty acid modeling. (1) Unsaturation levels remained constant for MGS cells (~62%) but significantly decreased in control cells (from 61% to 36%). (2) Cyclopropanated fatty acid content was lower in MGS producing cells while control cells had an increased cyclopropanation activity. Among all lipids, phosphatidylethanolamine (PE) was detected to be the most affected species in terms of cyclopropanation. Higher levels of unsaturation, lowered cyclopropanation levels and decreased transcription of the gene for cyclopropane fatty acid synthase (CFA) all indicate the tendency of the MGS protein to force E. coli membranes to alter its usual fatty acid composition. [Copyright &y& Elsevier]

Published

2014

35. Disassembly of the divisome in E scherichia coli: evidence that FtsZ dissociates before compartmentalization.

Author

Söderström, Bill, Skoog, Karl, Blom, Hans, Weiss, David S., Heijne, Gunnar, and Daley, Daniel O.

Subjects

*ESCHERICHIA coli, *CELL division, *BACTERIAL proteins, *CELL envelope (Biology), *CYTOPLASM, *BACTERIA cytochemistry, *BACTERIA

Abstract

In most bacteria cell division is mediated by a protein super-complex called the divisome that co-ordinates the constriction and scission of the cell envelope. FtsZ is the first of the divisome proteins to accumulate at the division site and is widely thought to function as a force generator that constricts the cell envelope. In this study we have used a combination of confocal fluorescence microscopy and fluorescence recovery after photobleaching ( FRAP) to determine if divisome proteins are present at the septum at the time of cytoplasmic compartmentalization in E scherichia coli. Our data suggest that many are, but that FtsZ and ZapA disassemble before the cytoplasm is sealed by constriction of the inner membrane. This observation implies that FtsZ cannot be a force generator during the final stage(s) of envelope constriction in E . coli. [ABSTRACT FROM AUTHOR]

Published

2014

36. Improved production of membrane proteins in Escherichia coli by selective codon substitutions.

Author

Nørholm, Morten H.H., Toddo, Stephen, Virkki, Minttu T.I., Light, Sara, von Heijne, Gunnar, and Daley, Daniel O.

Subjects

*MEMBRANE proteins, *ESCHERICHIA coli, *GENETIC code, *SUBSTITUTION reactions, *GENE expression, *GENETIC engineering

Abstract

Highlights: [•] Membrane proteins are extremely challenging to produce. [•] We attempted to improve expression of two difficult to express coding sequences. [•] Multi-parameter sequence optimization of codons and other variables failed. [•] Substitution of synonymous codons adjacent to the AUG start worked efficiently. [•] Coding sequences can be re-wired for higher expression by selective engineering. [Copyright &y& Elsevier]

Published

2013

37. Antiparallel Dimers of the Small Multidrug Resistance Protein EmrE Are More Stable Than Parallel Dimers.

Author

Lloris-Garcerá, Pilar, Bianchi, Frans, Slusky, Joanna S. G., Seppälä, Susanna, Daley, Daniel O., and von Heijne, Gunnar

Subjects

*MULTIDRUG resistance-associated proteins, *DIMERS, *CROSSLINKING (Polymerization), *PROTEIN crosslinking, *OLIGOMERS, *MEMBRANE proteins

Abstract

The bacterial multidrug transporter EmrE is a dual-topology membrane protein and as such is able to insert into the membrane in two opposite orientations. The functional form of EmrE is a homodimer; however, the relative orientation of the subunits in the dimer is under debate. Using EmrE variants with fixed, opposite orientations in the membrane, we now show that, although the proteins are able to form parallel dimers, an antiparallel organization of the subunits in the dimer is preferred. Blue-native PAGE analyses of intact oligomers and disulfide cross-linking demonstrate that in membranes, the proteins form parallel dimers only if no oppositely orientated partner is present. Co-expression of oppositely orientated proteins almost exclusively yields antiparallel dimers. Finally, parallel dimers can be disrupted and converted into antiparallel dimers by heating of detergent-solubilized protein. Importantly, in vivo function is correlated clearly to the presence of antiparallel dimers. Our results suggest that an antiparallel arrangement of the subunits in the dimer is more stable than a parallel organization and likely corresponds to the functional form of the protein. [ABSTRACT FROM AUTHOR]

Published

2012

38. Manipulating the genetic code for membrane protein production: What have we learnt so far?

Author

Nørholm, Morten H.H., Light, Sara, Virkki, Minttu T.I., Elofsson, Arne, von Heijne, Gunnar, and Daley, Daniel O.

Subjects

*GENETIC code, *MEMBRANE proteins, *MOLECULAR cloning, *RNA, *CELL membrane formation, *PROTEIN folding

Abstract

Abstract: With synthetic gene services, molecular cloning is as easy as ordering a pizza. However choosing the right RNA code for efficient protein production is less straightforward, more akin to deciding on the pizza toppings. The possibility to choose synonymous codons in the gene sequence has ignited a discussion that dates back 50years: Does synonymous codon use matter? Recent studies indicate that replacement of particular codons for synonymous codons can improve expression in homologous or heterologous hosts, however it is not always successful. Furthermore it is increasingly apparent that membrane protein biogenesis can be codon-sensitive. Single synonymous codon substitutions can influence mRNA stability, mRNA structure, translational initiation, translational elongation and even protein folding. Synonymous codon substitutions therefore need to be carefully evaluated when membrane proteins are engineered for higher production levels and further studies are needed to fully understand how to select the codons that are optimal for higher production. This article is part of a Special Issue entitled: Protein Folding in Membranes. [Copyright &y& Elsevier]

Published

2012

39. Membrane protein structural biology - How far can the bugs take us? (Review).

Author

Granseth, Erik, Seppälä, Susanna, Rapp, Mikaela, Daley, Daniel O., and Von Heijne, Gunnar

Subjects

*MEMBRANE proteins, *BIOLOGICAL membranes, *CRYSTALLIZATION, *BIOLOGY, *PROKARYOTES, *HOMOLOGY (Biology)

Abstract

Membrane proteins are core components of many essential cellular processes, and high-resolution structural data is therefore highly sought after. However, owing to the many bottlenecks associated with membrane protein crystallization, progress has been slow. One major problem is our inability to obtain sufficient quantities of membrane proteins for crystallization trials. Traditionally, membrane proteins have been isolated from natural sources, or for prokaryotic proteins, expressed by recombinant techniques. We are however a long way away from a streamlined overproduction of eukaryotic proteins. With this technical limitation in mind, we have probed the question as to how far prokaryotic homologues can take us towards a structural understanding of the eukaryotic/human membrane proteome(s). [ABSTRACT FROM AUTHOR]

Published

2007

40. Protein Complexes of the Escherichia coil Cell Envelope.

Author

Stenberg, Filippa, Chovanec, Peter, Maslen, Sarah L., Robinson, Carol V., Ilag, Leopold L., von Heijne, Gunnar, and Daley, Daniel O.

Subjects

*MEMBRANE proteins, *ESCHERICHIA coli, *BIOLOGICAL membranes, *PROTEINS, *ESCHERICHIA, *BIOCHEMISTRY

Abstract

Protein complexes are an intrinsic aspect of life in the membrane. Knowing which proteins are assembled in these complexes is there fore essential to understanding protein function(s). Unfortunately, recent high throughput protein interaction studies have failed to deliver any significant information on proteins embedded in the membrane, and many membrane protein complexes remain ill defined. In this study, we have optimized the blue native-PAGE technique for the study of membrane protein complexes in the inner and outer membranes of Escherichia coll. In combination with second dimension SDS-PAGE and mass spectrometry, we have been able to identify 43 distinct protein complexes. In addition to a number of well characterized complexes, we have identified known and orphan proteins in novel oligomeric states. For two orphan proteins, YhcB and YjdB, our findings enable a tentative functional assignment. We propose that YhcB is a hitherto unidentified additional subunit of the cytochrome bd oxidase and that YjdB, which co-localizes with the ZipA protein, is involved in cell division. Our reference two-dimensional blue native-SDS-polyacrylamide gels will facilitate future studies of the assembly and composition of E. coli membrane protein complexes during different growth conditions and in different mutant backgrounds. [ABSTRACT FROM AUTHOR]

Published

2005

41. Adaptations Required for Mitochondrial Import following Mitochondrial to Nucleus Gene Transfer of Ribosomal Protein S10.

Author

Murcha, Monika W., Rudhe, Charlotta, Elhafez, Dina, Adams, Keith L., Daley, Daniel O., and Whelan, James

Subjects

*MITOCHONDRIA, *PLANT physiology, *RIBOSOMES, *BOTANICAL chemistry, *BIOCHEMISTRY, *BOTANY

Abstract

The minimal requirements to support protein import into mitochondria were investigated in the context of the phenomenon of ongoing gene transfer from the mitochondrion to tile nucleus in plants. Ribosomal protein 10 of the small subunit is encoded in the mitochondrion in soybean and many other angiosperms, whereas in several other species it is nuclear encoded and thus must be imported into the mitochondrial matrix to function. When encoded by the nuclear genome, it has adopted different strategies for mitochondrial targeting and import. In lettuce (Lactuca sativa) and carrot (Daucus carota), Rps10 independently gained different N-terminal extensions from other genes, following transfer to the nucleus. (The designation of Rps10 follows the following convention. The gene is indicated in italics. If encoded in the mitochondrion, it is rps10; if encoded in the nucleus, it is Rps10.) Here, we show that the N-terminal extensions of Rps10 in lettuce and carrot are both essential for mitochondrial import. In maize (Zea mays), Rps10 has not acquired an extension upon transfer but can be readily imported into mitochondria. Deletion analysis located the mitochondrial targeting region to the first 20 amino acids. Using site directed mutagenesis, we changed residues in the first 20 amino acids of the mitochondrial encoded soybean (Glycine max) rps10 to the corresponding amino acids in the nuclear encoded maize Rps10 until import was achieved. Changes were required that altered charge, hydrophobicity, predicted ability to form an amphiphatic α-helix, and generation of a binding motif for the outer mitochondrial membrane receptor, translocase of the outer membrane 20. In addition to defining the changes required to achieve mitochondrial localization, the results demonstrate that even proteins that do not present barriers to import can require substantial changes to acquire a mitochondrial targeting signal. [ABSTRACT FROM AUTHOR]

Published

2005

42. A Lead-Based Fragment Library Screening of the Glycosyltransferase WaaG from Escherichia coli.

Author

Riu, Federico, Ruda, Alessandro, Engström, Olof, Muheim, Claudio, Mobarak, Hani, Ståhle, Jonas, Kosma, Paul, Carta, Antonio, Daley, Daniel O., and Widmalm, Göran

Subjects

*ESCHERICHIA coli, *MOLECULAR dynamics, *MAGNETIZATION transfer, *RANK correlation (Statistics), *DISACCHARIDES, *THIAZOLES, *ANTIBIOTICS

Abstract

Glucosyl transferase I (WaaG) in E. coli catalyzes the transfer of an α-d-glucosyl group to the inner core of the lipopolysaccharide (LPS) and plays an important role in the biogenesis of the outer membrane. If its activity could be inhibited, the integrity of the outer membrane would be compromised and the bacterium would be susceptible to antibiotics that are normally prevented from entering the cell. Herein, three libraries of molecules (A, B and C) were docked in the binding pocket of WaaG, utilizing the docking binding affinity as a filter to select fragment-based compounds for further investigations. From the results of the docking procedure, a selection of compounds was investigated by molecular dynamics (MD) simulations to obtain binding free energy (BFE) and KD values for ligands as an evaluation for the binding to WaaG. Derivatives of 1,3-thiazoles (A7 and A4) from library A and 1,3,4-thiadiazole (B33) from library B displayed a promising profile of BFE, with KD < mM, viz., 0.11, 0.62 and 0.04 mM, respectively. Further root-mean-square-deviation (RMSD), electrostatic/van der Waals contribution to the binding and H-bond interactions displayed a favorable profile for ligands A4 and B33. Mannose and/or heptose-containing disaccharides C1–C4, representing sub-structures of the inner core of the LPS, were also investigated by MD simulations, and compound C42− showed a calculated KD = 0.4 µM. In the presence of UDP-Glc2−, the best-docked pose of disaccharide C42− is proximate to the glucose-binding site of WaaG. A study of the variation in angle and distance was performed on the different portions of WaaG (N-, the C- domains and the hinge region). The Spearman correlation coefficient between the two variables was close to unity, where both variables increase in the same way, suggesting a conformational rearrangement of the protein during the MD simulation, revealing molecular motions of the enzyme that may be part of the catalytic cycle. Selected compounds were also analyzed by Saturation Transfer Difference (STD) NMR experiments. STD effects were notable for the 1,3-thiazole derivatives A4, A8 and A15 with the apo form of the protein as well as in the presence of UDP for A4. [ABSTRACT FROM AUTHOR]

Published

2022

43. Sequential Closure of the Cytoplasm and Then the Periplasm during Cell Division in Escherichia coli.

Author

Skoog, Karl, Söderström, Bill, Widengren, Jerker, von Heijne, Gunnar, and Daley, Daniel O.

Subjects

*CELL division, *ESCHERICHIA coli, *ESCHERICHIA coli diseases, *FLUORESCENCE, *CYTOPLASM

Abstract

To visualize the latter stages of cell division in live Escherichia coli, we have carried out fluorescence recovery after photobleaching (FRAP) on 121 cells expressing cytoplasmic green fluorescent protein and periplasmic mCherry. Our data show conclusively that the cytoplasm is sealed prior to the periplasm during the division event. [ABSTRACT FROM AUTHOR]

Published

2012

44. Structural analysis of the O-antigen polysaccharide from Escherichia coli O188.

Author

Furevi, Axel, Ståhle, Jonas, Muheim, Claudio, Gkotzis, Spyridon, Udekwu, Klas I., Daley, Daniel O., and Widmalm, Göran

Subjects

*ESCHERICHIA coli, *ANTIGENS, *POLYSACCHARIDES, *NUCLEAR magnetic resonance spectroscopy, *MORPHOLOGY, *MOLECULAR models

Abstract

The structure of the O-antigen from Escherichia coli reference strain O188 (E. coli O188:H10) has been investigated. The lipopolysaccharide shows a typical nonrandom modal chain-length distribution and the sugar and absolute configuration analysis revealed d -Man, d -Glc, d -GlcN and d -GlcA as major components. The structure of the O-specific polysaccharide was determined using one- and two-dimensional 1H and 13C NMR spectroscopy experiments, where inter-residue correlations were identified by 1H,13C-heteronuclear multiple-bond correlation and 1H,1H-NOESY experiments, which revealed that it consists of pentasaccharide repeating units with the following structure: Biosynthetic aspects and NMR analysis are consistent with the presented structure as the biological repeating unit. The O-antigen of Shigella boydii type 16 differs only in that it carries O -acetyl groups to ~50% at O6 of the branch-point mannose residues. A molecular model of the E. coli O188 O-antigen containing 20 repeating units extends ~100 Å, which is similar to the height of the periplasmic portion of polysaccharide co-polymerase Wzz proteins that regulate the O-antigen chain length of lipopolysaccharides in the Wzx/Wzy biosynthetic pathway. Image 1 • E. coli O188 O-antigen contains pentasaccharide repeating units. • S. boydii type 16 O-antigen is in addition O -acetylated. • Molecular models of the O-antigens identify epitopes that are different. [ABSTRACT FROM AUTHOR]

Published

2020

45. A synbio approach for selection of highly expressed gene variants in Gram-positive bacteria.

Author

Ferro, Roberto, Rennig, Maja, Hernández-Rollán, Cristina, Daley, Daniel O., and Nørholm, Morten H. H.

Subjects

*RECOMBINANT proteins, *BACILLUS subtilis, *PROTEIN expression, *LACTOCOCCUS lactis, *FOOD fermentation, *NEURAMINIDASE, *ECONOMICS, *MARKETING

Abstract

Background: The market for recombinant proteins is on the rise, and Gram-positive strains are widely exploited for this purpose. Bacillus subtilis is a profitable host for protein production thanks to its ability to secrete large amounts of proteins, and Lactococcus lactis is an attractive production organism with a long history in food fermentation. Results: We have developed a synbio approach for increasing gene expression in two Gram-positive bacteria. First of all, the gene of interest was coupled to an antibiotic resistance gene to create a growth-based selection system. We then randomised the translation initiation region (TIR) preceding the gene of interest and selected clones that produced high protein titres, as judged by their ability to survive on high concentrations of antibiotic. Using this approach, we were able to significantly increase production of two industrially relevant proteins; sialidase in B. subtilis and tyrosine ammonia lyase in L. lactis. Conclusion: Gram-positive bacteria are widely used to produce industrial enzymes. High titres are necessary to make the production economically feasible. The synbio approach presented here is a simple and inexpensive way to increase protein titres, which can be carried out in any laboratory within a few days. It could also be implemented as a tool for applications beyond TIR libraries, such as screening of synthetic, homologous or domain-shuffled genes. [ABSTRACT FROM AUTHOR]

Published

2018

46. Mutations in the Plasmodium falciparum chloroquine resistance transporter, PfCRT, enlarge the parasite's food vacuole and alter drug sensitivities.

Author

Pulcini, Serena, Staines, Henry M., Lee, Andrew H., Shafik, Sarah H., Bouyer, Guillaume, Moore, Catherine M., Daley, Daniel A., Hoke, Matthew J., Altenhofen, Lindsey M., Painter, Heather J., Mu, Jianbing, Ferguson, David J. P., Llinás, Manuel, Martin, Rowena E., Fidock, David A., Cooper, Roland A., and Krishna, Sanjeev

Subjects

*PLASMODIUM falciparum, *GENETIC mutation, *CHLOROQUINE, *AMANTADINE, *ANTIMALARIALS

Abstract

Mutations in the Plasmodium falciparum chloroquine resistance transporter, PfCRT, are the major determinant of chloroquine resistance in this lethal human malaria parasite. Here, we describe P. falciparum lines subjected to selection by amantadine or blasticidin that carry PfCRT mutations (C101F or L272F), causing the development of enlarged food vacuoles. These parasites also have increased sensitivity to chloroquine and some other quinoline antimalarials, but exhibit no or minimal change in sensitivity to artemisinins, when compared with parental strains. A transgenic parasite line expressing the L272F variant of PfCRT confirmed this increased chloroquine sensitivity and enlarged food vacuole phenotype. Furthermore, the introduction of the C101F or L272F mutation into a chloroquine-resistant variant of PfCRT reduced the ability of this protein to transport chloroquine by approximately 93 and 82%, respectively, when expressed in Xenopus oocytes. These data provide, at least in part, a mechanistic explanation for the increased sensitivity of the mutant parasite lines to chloroquine. Taken together, these findings provide new insights into PfCRT function and PfCRT-mediated drug resistance, as well as the food vacuole, which is an important target of many antimalarial drugs. [ABSTRACT FROM AUTHOR]

Published

2015