Your search keyword '"Wilson GG"' showing total 129 results

1. Influence of the annual flood-pulse on catch per unit effort, condition and reproduction ofClarias gariepinusfrom the upper Okavango Delta, Botswana

Author

Bokhutlo, T, primary, Weyl, OLF, additional, Mosepele, K, additional, and Wilson, GG, additional

Published

2016

2. Influence of the annual flood-pulse on catch per unit effort, condition and reproduction of Clarias gariepinus from the upper Okavango Delta, Botswana.

Author

Bokhutlo, T, Weyl, OLF, Mosepele, K, and Wilson, GG

Subjects

CLARIAS, CLARIAS gariepinus, BIOLOGY, FISH reproduction, BEHAVIOR

Abstract

Catch per unit effort (CPUE), length, weight and maturity data forClarias gariepinuswere collected during monthly gillnet surveys in the upper Okavango Delta between 2001 and 2009 to investigate their relationship with the annual flood-pulse. CPUE, condition factor (K) and the proportion of ripe-running fish (PRR) in the population followed a unimodal annual cycle that could be modelled using water temperature and flood-pulse hydrology. Increased CPUE during declining water levels was most likely a result of feeding migrations and aggregation behaviour. The observed increase inKduring low floods in October and November preceded the increase inPRR, which increased mainly with increasing temperature but appeared less dependent on flow. This study provided quantitative evidence that the biology of fish in the Okavango Delta is mainly dependent on the annual flood regime and, therefore, that conservation efforts should be focused on maintaining natural flow patterns in the face of climate change and potential water extraction schemes upstream. [ABSTRACT FROM AUTHOR]

Published

2016

3. Links between the timing of life-history transitions and dietary and morphological variation during early life history in the sand goby, Pomatoschistus minutus.

Author

Jensen M, Nielsen PJ, and Wilson GG

Subjects

Animals, Fishes, Larva, Ecosystem, Diet veterinary, Perciformes

Abstract

Bipartite life histories involve a suite of morphological changes that support the pelagic to demersal transition and an expanded range of prey options and microhabitats. Pelagic individuals are thought to shift (settle) to their preferred benthic habitat at the earliest opportunity once they have attained a minimum level of morphological competency to access their new environment. In theory, early changes in larval morphology (collectively termed 'metamorphosis'), habitat and diet-a measure of habitat-use-ought to be synchronous. Yet relationships may be decoupled by factors linked to behaviour, prey availability or morphological complexity, and few descriptions exist to allow such synchrony to be assessed. The sand goby, Pomatoschistus minutus, is a common coastal fish across north-western Europe, with a size at larval metamorphosis and settlement of around 10 and 16-18 mm standard length (SL), respectively. We sampled shoreline larval and juvenile populations to examine relationships between morphology, diet and life stage. Prey diversity increased with body length; however, dietary change was clearest at 16-18 mm SL, with a reduction in calanoid copepods and shift to larger prey such as Nereis polychaetes and mysid and amphipod crustacea. Early growth in five prey capture and processing morphologies was rapid. Four of these showed a subsequent marked shift to slower growth, but none of these changes were aligned with size at metamorphosis and only that of mouth width coincided with body size at settlement. Early life history in P. minutus appears geared towards a protracted morphological reorganization prior to demersal life and an alternative suite of prey resources. Larval metamorphosis seems to be of limited consequence in this regard. Comparable studies of other Baltic Sea fishes would confirm whether these dynamics relate to shared environmental pressures or to factors intrinsic to P. minutus biology., (© 2023 The Authors. Journal of Fish Biology published by John Wiley & Sons Ltd on behalf of Fisheries Society of the British Isles.)

Published

2023

4. Assembling highly repetitive Xanthomonas TALomes using Oxford Nanopore sequencing.

Author

Erkes A, Grove RP, Žarković M, Krautwurst S, Koebnik R, Morgan RD, Wilson GG, Hölzer M, Marz M, Boch J, and Grau J

Subjects

Transcription Activator-Like Effectors genetics, Genome, Nanopore Sequencing, Xanthomonas genetics

Abstract

Background: Most plant-pathogenic Xanthomonas bacteria harbor transcription activator-like effector (TALE) genes, which function as transcriptional activators of host plant genes and support infection. The entire repertoire of up to 29 TALE genes of a Xanthomonas strain is also referred to as TALome. The DNA-binding domain of TALEs is comprised of highly conserved repeats and TALE genes often occur in gene clusters, which precludes the assembly of TALE-carrying Xanthomonas genomes based on standard sequencing approaches., Results: Here, we report the successful assembly of the 5 Mbp genomes of five Xanthomonas strains from Oxford Nanopore Technologies (ONT) sequencing data. For one of these strains, Xanthomonas oryzae pv. oryzae (Xoo) PXO35, we illustrate why Illumina short reads and longer PacBio reads are insufficient to fully resolve the genome. While ONT reads are perfectly suited to yield highly contiguous genomes, they suffer from a specific error profile within homopolymers. To still yield complete and correct TALomes from ONT assemblies, we present a computational correction pipeline specifically tailored to TALE genes, which yields at least comparable accuracy as Illumina-based polishing. We further systematically assess the ONT-based pipeline for its multiplexing capacity and find that, combined with computational correction, the complete TALome of Xoo PXO35 could have been reconstructed from less than 20,000 ONT reads., Conclusions: Our results indicate that multiplexed ONT sequencing combined with a computational correction of TALE genes constitutes a highly capable tool for characterizing the TALomes of huge collections of Xanthomonas strains in the future., (© 2023. The Author(s).)

Published

2023

5. Exposure-Safety Analyses of Talazoparib in Patients With Advanced Breast Cancer and Germline BRCA1/2 Mutations in the EMBRACA and ABRAZO Trials.

Author

Elmeliegy M, Yu Y, Litton JK, Czibere A, Wilson GG, Tudor IC, Zheng J, and Wang DD

Subjects

Administration, Oral, Adult, Aged, Aged, 80 and over, Anemia chemically induced, Antineoplastic Agents administration & dosage, Antineoplastic Agents blood, Antineoplastic Agents pharmacokinetics, Dose-Response Relationship, Drug, Drug Administration Schedule, Drug Dosage Calculations, Female, Genes, BRCA1, Genes, BRCA2, Humans, Middle Aged, Mutation, Neutropenia chemically induced, Phthalazines administration & dosage, Phthalazines blood, Phthalazines pharmacokinetics, Poly(ADP-ribose) Polymerase Inhibitors administration & dosage, Poly(ADP-ribose) Polymerase Inhibitors blood, Poly(ADP-ribose) Polymerase Inhibitors pharmacokinetics, Prognosis, Proportional Hazards Models, Thrombocytopenia chemically induced, Antineoplastic Agents adverse effects, Breast Neoplasms drug therapy, Breast Neoplasms genetics, Germ-Line Mutation, Phthalazines adverse effects, Poly(ADP-ribose) Polymerase Inhibitors adverse effects

Abstract

Poly(ADP-ribose) polymerase inhibitors, such as talazoparib, may affect hematopoiesis. This analysis characterized the relationship between talazoparib exposure and the most common grade ≥ 3 hematopoietic adverse events (AEs) leading to dose modification in the phase 2 (ABRAZO) and phase 3 (EMBRACA) trials. The relationship between time-varying average talazoparib concentration (C avg,t ), along with other baseline variables, and grade ≥ 3 anemia, thrombocytopenia, and neutropenia were evaluated both by graphical examination and using univariate and multivariate Cox proportional hazard models. The results indicated that higher C avg,t was associated with a higher risk of anemia and thrombocytopenia. A trend toward an association between higher C avg,t and neutropenia was observed, although not statistically significant. Higher risk of all tested safety end points was associated with lower baseline hemoglobin. Higher risk of neutropenia was associated with lower baseline absolute neutrophil count and lower body weight. These findings support the proposed management of AEs through talazoparib dosing modification., (© 2020, The American College of Clinical Pharmacology.)

Published

2020

6. Assessment of subpatent Plasmodium infection in northwestern Ethiopia.

Author

Assefa A, Ahmed AA, Deressa W, Wilson GG, Kebede A, Mohammed H, Sassine M, Haile M, Dilu D, Teka H, Murphy MW, Sergent S, Rogier E, Zhiyong Z, Wakeman BS, Drakeley C, Shi YP, Von Seidlein L, and Hwang J

Subjects

Adolescent, Adult, Child, Child, Preschool, Cross-Sectional Studies, Dried Blood Spot Testing, Ethiopia epidemiology, Female, Humans, Malaria, Falciparum diagnosis, Malaria, Falciparum prevention & control, Malaria, Vivax diagnosis, Malaria, Vivax prevention & control, Male, Middle Aged, Plasmodium falciparum, Plasmodium vivax, Prevalence, Seroepidemiologic Studies, Young Adult, Disease Eradication methods, Malaria, Falciparum epidemiology, Malaria, Vivax epidemiology

Abstract

Background: Ethiopia has set a goal for malaria elimination by 2030. Low parasite density infections may go undetected by conventional diagnostic methods (microscopy and rapid diagnostic tests) and their contribution to malaria transmission varies by transmission settings. This study quantified the burden of subpatent infections from samples collected from three regions of northwest Ethiopia., Methods: Sub-samples of dried blood spots from the Ethiopian Malaria Indicator Survey 2015 (EMIS-2015) were tested and compared using microscopy, rapid diagnostic tests (RDTs), and nested polymerase chain reaction (nPCR) to determine the prevalence of subpatent infection. Paired seroprevalence results previously reported along with gender, age, and elevation of residence were explored as risk factors for Plasmodium infection., Results: Of the 2608 samples collected, the highest positive rate for Plasmodium infection was found with nPCR 3.3% (95% CI 2.7-4.1) compared with RDT 2.8% (95% CI 2.2-3.5) and microscopy 1.2% (95% CI 0.8-1.7). Of the nPCR positive cases, Plasmodium falciparum accounted for 3.1% (95% CI 2.5-3.8), Plasmodium vivax 0.4% (95% CI 0.2-0.7), mixed P. falciparum and P. vivax 0.1% (95% CI 0.0-0.4), and mixed P. falciparum and Plasmodium malariae 0.1% (95% CI 0.0-0.3). nPCR detected an additional 30 samples that had not been detected by conventional methods. The majority of the nPCR positive cases (61% (53/87)) were from the Benishangul-Gumuz Region. Malaria seropositivity had significant association with nPCR positivity [adjusted OR 10.0 (95% CI 3.2-29.4), P < 0.001]., Conclusion: Using nPCR the detection rate of malaria parasites increased by nearly threefold over rates based on microscopy in samples collected during a national cross-sectional survey in 2015 in Ethiopia. Such subpatent infections might contribute to malaria transmission. In addition to strengthening routine surveillance systems, malaria programmes may need to consider low-density, subpatent infections in order to accelerate malaria elimination efforts.

Published

2020

7. Structure of HhaI endonuclease with cognate DNA at an atomic resolution of 1.0 Å.

Author

Horton JR, Yang J, Zhang X, Petronzio T, Fomenkov A, Wilson GG, Roberts RJ, and Cheng X

Subjects

Catalytic Domain, Crystallography, X-Ray, DNA chemistry, DNA genetics, DNA Restriction Enzymes chemistry, DNA Restriction Enzymes genetics, DNA Restriction Enzymes ultrastructure, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, DNA-Binding Proteins ultrastructure, Deoxyribonucleases, Type II Site-Specific chemistry, Deoxyribonucleases, Type II Site-Specific genetics, Haemophilus chemistry, Haemophilus enzymology, Protein Binding genetics, DNA ultrastructure, Deoxyribonucleases, Type II Site-Specific ultrastructure, Nucleic Acid Conformation, Protein Conformation

Abstract

HhaI, a Type II restriction endonuclease, recognizes the symmetric sequence 5'-GCG↓C-3' in duplex DNA and cleaves ('↓') to produce fragments with 2-base, 3'-overhangs. We determined the structure of HhaI in complex with cognate DNA at an ultra-high atomic resolution of 1.0 Å. Most restriction enzymes act as dimers with two catalytic sites, and cleave the two strands of duplex DNA simultaneously, in a single binding event. HhaI, in contrast, acts as a monomer with only one catalytic site, and cleaves the DNA strands sequentially, one after the other. HhaI comprises three domains, each consisting of a mixed five-stranded β sheet with a defined function. The first domain contains the catalytic-site; the second contains residues for sequence recognition; and the third contributes to non-specific DNA binding. The active-site belongs to the 'PD-D/EXK' superfamily of nucleases and contains the motif SD-X11-EAK. The first two domains are similar in structure to two other monomeric restriction enzymes, HinP1I (G↓CGC) and MspI (C↓CGG), which produce fragments with 5'-overhangs. The third domain, present only in HhaI, shifts the positions of the recognition residues relative to the catalytic site enabling this enzyme to cleave the recognition sequence at a different position. The structure of M.HhaI, the biological methyltransferase partner of HhaI, was determined earlier. Together, these two structures represent the first natural pair of restriction-modification enzymes to be characterized in atomic detail., (© The Author(s) 2019. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2020

8. Chronic Spinal Cord Injury Reduces Gastrin-Releasing Peptide in the Spinal Ejaculation Generator in Male Rats.

Author

Wiggins JW, Kozyrev N, Sledd JE, Wilson GG, and Coolen LM

Subjects

Animals, Chronic Disease, Gastrin-Releasing Peptide analysis, Locomotion physiology, Male, Rats, Rats, Sprague-Dawley, Sexual Dysfunction, Physiological physiopathology, Spinal Cord Injuries physiopathology, Thoracic Vertebrae injuries, Ejaculation physiology, Gastrin-Releasing Peptide metabolism, Sexual Dysfunction, Physiological metabolism, Spinal Cord Injuries metabolism

Abstract

Spinal cord injury (SCI) causes sexual dysfunction, including anejaculation in men. Likewise, chronic mid-thoracic contusion injury impairs ejaculatory reflexes in male rats. Ejaculation is controlled by a spinal ejaculation generator (SEG) comprised of a population of lumbar spinothalamic (LSt) neurons. LSt neurons co-express four neuropeptides, including gastrin-releasing peptide (GRP) and galanin and control ejaculation via release of these peptides in lumbar and sacral autonomic and motor nuclei. Here, we tested the hypothesis that contusion injury causes a disruption of the neuropeptides that are expressed in LSt cell bodies and axon terminals, thereby causing ejaculatory dysfunction. Male Sprague Dawley rats received contusion or sham surgery at spinal levels T6-7. Five to six weeks later, animals were perfused and spinal cords were immunoprocessed for galanin and GRP. Results showed that numbers of cells immunoreactive for galanin were not altered by SCI, suggesting that LSt cells are not ablated by SCI. In contrast, GRP immunoreactivity was decreased in LSt cells following SCI, evidenced by fewer GRP and galanin/GRP dual labeled cells. However, SCI did not affect efferent connections of LSt, cells as axon terminals containing galanin or GRP in contact with autonomic cells were not reduced following SCI. Finally, no changes in testosterone plasma levels or androgen receptor expression were noted after SCI. In conclusion, chronic contusion injury decreased immunoreactivity for GRP in LSt cell soma, but did not affect LSt neurons per se or LSt connections within the SEG. Since GRP is essential for triggering ejaculation, such loss may contribute to ejaculatory dysfunction following SCI.

Published

2019

9. Modeling reservoir management for malaria control in Ethiopia.

Author

Kibret S, Ryder D, Wilson GG, and Kumar L

Subjects

Animals, Anopheles parasitology, Anopheles physiology, Cost of Illness, Ecosystem, Ethiopia, Health Care Costs, Humans, Hydrology, Larva physiology, Malaria economics, Malaria parasitology, Malaria transmission, Models, Economic, Mosquito Vectors parasitology, Reproduction physiology, Water Resources, Cost-Benefit Analysis, Malaria prevention & control, Mosquito Control methods, Mosquito Vectors physiology, Water Supply methods

Abstract

This study investigated how changes in reservoir water level affect mosquito abundance and malaria transmission in Ethiopia. Digital elevation models of three Ethiopian dams at lowland, midland and highland elevations were used to quantify water surface area and wetted shoreline at different reservoir water levels (70, 75, 80, 85, 90, 95 and 100% full capacity) to estimate surface area of potential mosquito breeding habitat. Reservoir water level drawdown rates of 10, 15 and 20 mm.day -1 were applied as scenarios to model larval abundance, entomological inoculation rate (EIR) and malaria prevalence at each dam. Malaria treatment cost and economic cost in terms of lost working days were calculated for each water level scenario and dam. At the lowland dam, increased larval abundances were associated with increasing reservoir water level and wetted shoreline area. In contrast, both larval abundances and area of wetted shoreline declined with increasing reservoir water level at the midland and highland dams. Estimated EIR, malaria prevalence, malaria treatment cost and economic cost generally decreased when the water level drawdown rate increased from 10 to 15 and 20 mm.day -1 irrespective of reservoir water level. Given the expansion of dam construction in sub-Saharan Africa, incorporating malaria control measures such as manipulating drawdown rates into reservoir management has the potential to reduce the malaria burden and health care costs in communities near reservoirs.

Published

2019

10. Characterization of the Type III restriction endonuclease PstII from Providencia stuartii.

Author

Sears A, Peakman LJ, Wilson GG, and Szczelkun MD

Published

2019

11. Multiplex serology demonstrate cumulative prevalence and spatial distribution of malaria in Ethiopia.

Author

Assefa A, Ali Ahmed A, Deressa W, Sime H, Mohammed H, Kebede A, Solomon H, Teka H, Gurrala K, Matei B, Wakeman B, Wilson GG, Sinha I, Maude RJ, Ashton R, Cook J, Shi YP, Drakeley C, von Seidlein L, Rogier E, and Hwang J

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Antibodies, Protozoan, Child, Child, Preschool, Ethiopia epidemiology, Female, Humans, Immunoglobulin G analysis, Infant, Infant, Newborn, Malaria classification, Male, Middle Aged, Plasmodium classification, Prevalence, Seroepidemiologic Studies, Serologic Tests, Young Adult, Malaria epidemiology, Plasmodium isolation & purification

Abstract

Background: Measures of malaria burden using microscopy and rapid diagnostic tests (RDTs) in cross-sectional household surveys may incompletely describe the burden of malaria in low-transmission settings. This study describes the pattern of malaria transmission in Ethiopia using serological antibody estimates derived from a nationwide household survey completed in 2015., Methods: Dried blood spot (DBS) samples were collected during the Ethiopian Malaria Indicator Survey in 2015 from malarious areas across Ethiopia. Samples were analysed using bead-based multiplex assays for IgG antibodies for six Plasmodium antigens: four human malaria species-specific merozoite surface protein-1 19kD antigens (MSP-1) and Apical Membrane Antigen-1 (AMA-1) for Plasmodium falciparum and Plasmodium vivax. Seroprevalence was estimated by age, elevation and region. The seroconversion rate was estimated using a reversible catalytic model fitted with maximum likelihood methods., Results: Of the 10,278 DBS samples available, 93.6% (9622/10,278) had valid serological results. The mean age of participants was 15.8 years and 53.3% were female. National seroprevalence for antibodies to P. falciparum was 32.1% (95% confidence interval (CI) 29.8-34.4) and 25.0% (95% CI 22.7-27.3) to P. vivax. Estimated seroprevalences for Plasmodium malariae and Plasmodium ovale were 8.6% (95% CI 7.6-9.7) and 3.1% (95% CI 2.5-3.8), respectively. For P. falciparum seroprevalence estimates were significantly higher at lower elevations (< 2000 m) compared to higher (2000-2500 m) (aOR 4.4; p < 0.01). Among regions, P. falciparum seroprevalence ranged from 11.0% (95% CI 8.8-13.7) in Somali to 65.0% (95% CI 58.0-71.4) in Gambela Region and for P. vivax from 4.0% (95% CI 2.6-6.2) in Somali to 36.7% (95% CI 30.0-44.1) in Amhara Region. Models fitted to measure seroconversion rates showed variation nationally and by elevation, region, antigen type, and within species., Conclusion: Using multiplex serology assays, this study explored the cumulative malaria burden and regional dynamics of the four human malarias in Ethiopia. High malaria burden was observed in the northwest compared to the east. High transmission in the Gambela and Benishangul-Gumuz Regions and the neglected presence of P. malariae and P. ovale may require programmatic attention. The use of a multiplex assay for antibody detection in low transmission settings has the potential to act as a more sensitive biomarker.

Published

2019

12. Transcriptional Reprogramming of Rice Cells by Xanthomonas oryzae TALEs.

Author

Mücke S, Reschke M, Erkes A, Schwietzer CA, Becker S, Streubel J, Morgan RD, Wilson GG, Grau J, and Boch J

Abstract

Rice-pathogenic Xanthomonas oryzae bacteria cause severe harvest loss and challenge a stable food supply. The pathogen virulence relies strongly on bacterial TALE (transcription activator-like effector) proteins that function as transcriptional activators inside the plant cell. To understand the plant targets of TALEs, we determined the genome sequences of the Indian X. oryzae pv. oryzae ( Xoo ) type strain ICMP 3125 T and the strain PXO142 from the Philippines. Their complete TALE repertoire was analyzed and genome-wide TALE targets in rice were characterized. Integrating computational target predictions and rice transcriptomics data, we were able to verify 12 specifically induced target rice genes. The TALEs of the Xoo strains were reconstructed and expressed in a TALE-free Xoo strain to attribute specific induced genes to individual TALEs. Using reporter assays, we could show that individual TALEs act directly on their target promoters. In particular, we show that TALE classes assigned by AnnoTALE reflect common target genes, and that TALE classes of Xoo and the related pathogen X. oryzae pv. oryzicola share more common target genes than previously believed. Taken together, we establish a detailed picture of TALE-induced plant processes that significantly expands our understanding of X. oryzae virulence strategies and will facilitate the development of novel resistances to overcome this important rice disease.

Published

2019

13. Structure, subunit organization and behavior of the asymmetric Type IIT restriction endonuclease BbvCI.

Author

Shen BW, Doyle L, Bradley P, Heiter DF, Lunnen KD, Wilson GG, and Stoddard BL

Subjects

Amino Acid Sequence, Base Sequence, Binding Sites, Catalytic Domain, DNA Restriction Enzymes genetics, DNA Restriction Enzymes isolation & purification, Escherichia coli enzymology, Holoenzymes genetics, Holoenzymes isolation & purification, Mutation, Peptides chemistry, Protein Multimerization, Protein Subunits genetics, Protein Subunits isolation & purification, DNA Cleavage, DNA Restriction Enzymes chemistry, Holoenzymes chemistry, Protein Subunits chemistry

Abstract

BbvCI, a Type IIT restriction endonuclease, recognizes and cleaves the seven base pair sequence 5'-CCTCAGC-3', generating 3-base, 5'-overhangs. BbvCI is composed of two protein subunits, each containing one catalytic site. Either site can be inactivated by mutation resulting in enzyme variants that nick DNA in a strand-specific manner. Here we demonstrate that the holoenzyme is labile, with the R1 subunit dissociating at low pH. Crystallization of the R2 subunit under such conditions revealed an elongated dimer with the two catalytic sites located on opposite sides. Subsequent crystallization at physiological pH revealed a tetramer comprising two copies of each subunit, with a pair of deep clefts each containing two catalytic sites appropriately positioned and oriented for DNA cleavage. This domain organization was further validated with single-chain protein constructs in which the two enzyme subunits were tethered via peptide linkers of variable length. We were unable to crystallize a DNA-bound complex; however, structural similarity to previously crystallized restriction endonucleases facilitated creation of an energy-minimized model bound to DNA, and identification of candidate residues responsible for target recognition. Mutation of residues predicted to recognize the central C:G base pair resulted in an altered enzyme that recognizes and cleaves CCTNAGC (N = any base).

Published

2019

14. Can water-level management reduce malaria mosquito abundance around large dams in sub-Saharan Africa?

Author

Kibret S, Wilson GG, Ryder D, Tekie H, and Petros B

Subjects

Africa South of the Sahara epidemiology, Animals, Anopheles, Disease Reservoirs, Humans, Larva, Seasons, Malaria prevention & control, Malaria transmission, Mosquito Control, Mosquito Vectors, Sanitation, Water

Abstract

Background: Water level management has been suggested as a potential tool to reduce malaria around large reservoirs. However, no field-based test has been conducted to assess the effect of water level management on mosquito larval abundance in African settings. The objective of the present study is to evaluate the effects of water level drawdown rates on mosquito larval abundance., Methods: Twelve experimental dams were constructed on the foreshore of the Koka Dam in Ethiopia. These were grouped into four daily water drawdown treatments, each with three replicates: no water-level drawdown (Group 1; Control), 10 mm.d-1 (Group 2), 15 mm.d-1 (Group 3) and 20 mm.d-1 (Group 4). Larval sampling was conducted weekly for a period of 6 weeks each in the main malaria transmission season (October to November 2013) and subsequent dry season (February to March 2014). Larval densities were compared among treatments over time using repeated measures Analysis of Variance (ANOVA)., Results: A total of 284 Anopheles mosquito larvae were collected from the experimental dams during the study period. Most (63.4%; n = 180) were collected during the main malaria transmission season while the remaining (36.6%; n = 104) were collected during the dry season. Larvae comprised four Anopheles species, dominated by Anopheles arabiensis (48.1% of total larval samples; n = 136) and An. pharoensis (33.2%; n = 94). Mean larval density was highest in control treatment dams with stable water levels throughout the study, and decreased significantly (P < 0.05) with increasing water drawdown rates in both seasons. During the main transmission season, anopheline larval density was generally lower by 30%, 70% and 84% in Groups 2, Group 3 and Group 4, respectively, compared with the control dams (Group 1). In the dry season, larval density was reduced by 45%, 70% and 84% in Groups 2, Group 3 and Group 4, respectively, when compared to the control dams., Conclusion: Increased water drawdown rates were associated with lower mosquito larval abundance. Water level management could thus serve as a potential control measure for malaria vectors around reservoirs by regulating the persistence of shallow shoreline breeding habitats. Dam operators and water resource managers should consider incorporating water level management as a malaria control mechanism into routine dam operations to manage the risk of malaria transmission to human populations around reservoirs.

Published

2018

15. The third restriction-modification system from Thermus aquaticus YT-1: solving the riddle of two TaqII specificities.

Author

Skowron PM, Anton BP, Czajkowska E, Zebrowska J, Sulecka E, Krefft D, Jezewska-Frackowiak J, Zolnierkiewicz O, Witkowska M, Morgan RD, Wilson GG, Fomenkov A, Roberts RJ, and Zylicz-Stachula A

Subjects

Amino Acid Sequence, Bacterial Proteins metabolism, Cloning, Molecular, DNA Cleavage, Deoxyribonucleases, Type II Site-Specific metabolism, Escherichia coli genetics, Escherichia coli metabolism, Gene Expression, Isoenzymes genetics, Isoenzymes metabolism, Molecular Weight, Plasmids chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Alignment, Sequence Homology, Amino Acid, Substrate Specificity, Thermus genetics, Bacterial Proteins genetics, Deoxyribonucleases, Type II Site-Specific genetics, Nucleotide Motifs, Plasmids metabolism, Thermus enzymology

Abstract

Two restriction-modification systems have been previously discovered in Thermus aquaticus YT-1. TaqI is a 263-amino acid (aa) Type IIP restriction enzyme that recognizes and cleaves within the symmetric sequence 5'-TCGA-3'. TaqII, in contrast, is a 1105-aa Type IIC restriction-and-modification enzyme, one of a family of Thermus homologs. TaqII was originally reported to recognize two different asymmetric sequences: 5'-GACCGA-3' and 5'-CACCCA-3'. We previously cloned the taqIIRM gene, purified the recombinant protein from Escherichia coli, and showed that TaqII recognizes the 5'-GACCGA-3' sequence only. Here, we report the discovery, isolation, and characterization of TaqIII, the third R-M system from T. aquaticus YT-1. TaqIII is a 1101-aa Type IIC/IIL enzyme and recognizes the 5'-CACCCA-3' sequence previously attributed to TaqII. The cleavage site is 11/9 nucleotides downstream of the A residue. The enzyme exhibits striking biochemical similarity to TaqII. The 93% identity between their aa sequences suggests that they have a common evolutionary origin. The genes are located on two separate plasmids, and are probably paralogs or pseudoparalogs. Putative positions and aa that specify DNA recognition were identified and recognition motifs for 6 uncharacterized Thermus-family enzymes were predicted., (© The Author(s) 2017. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2017

16. The Influence of Dams on Malaria Transmission in Sub-Saharan Africa.

Author

Kibret S, Wilson GG, Ryder D, Tekie H, and Petros B

Subjects

Africa South of the Sahara, Animals, Ecosystem, Anopheles, Insect Vectors, Malaria epidemiology, Water Supply

Abstract

The construction of dams in sub-Saharan Africa is pivotal for food security and alleviating poverty in the region. However, the unintended adverse public health implications of extending the spatial distribution of water infrastructure are poorly documented and may minimize the intended benefits of securing water supplies. This paper reviews existing studies on the influence of dams on the spatial distribution of malaria parasites and vectors in sub-Saharan Africa. Common themes emerging from the literature were that dams intensified malaria transmission in semi-arid and highland areas with unstable malaria transmission but had little or no impact in areas with perennial transmission. Differences in the impacts of dams resulted from the types and characteristics of malaria vectors and their breeding habitats in different settings of sub-Saharan Africa. A higher abundance of a less anthropophilic Anopheles arabiensis than a highly efficient vector A. gambiae explains why dams did not increase malaria in stable areas. In unstable areas where transmission is limited by availability of water bodies for vector breeding, dams generally increase malaria by providing breeding habitats for prominent malaria vector species. Integrated vector control measures that include reservoir management, coupled with conventional malaria control strategies, could optimize a reduction of the risk of malaria transmission around dams in the region.

Published

2017

17. Malaria impact of large dams at different eco-epidemiological settings in Ethiopia.

Author

Kibret S, Wilson GG, Ryder D, Tekie H, and Petros B

Abstract

Background: Dams are important to ensure food security and promote economic development in sub-Saharan Africa. However, a poor understanding of the negative public health consequences from issues such as malaria could affect their intended advantages. This study aims to compare the malaria situation across elevation and proximity to dams. Such information may contribute to better understand how dams affect malaria in different eco-epidemiological settings., Methods: Larval and adult mosquitoes were collected from dam and non-dam villages around the Kesem (lowland), Koka (midland), and Koga (highland) dams in Ethiopia between October 2013 and July 2014. Determination of blood meal sources and detection of Plasmodium falciparum sporozoites was done using enzyme-linked immunosorbent assay (ELISA). Five years of monthly malaria case data (2010-2014) were also collected from health centers in the study villages., Results: Mean monthly malaria incidence was two- and ten-fold higher in the lowland dam village than in midland and highland dam villages, respectively. The total surface area of anopheline breeding habitats and the mean larval density was significantly higher in the lowland dam village compared with the midland and highland dam villages. Similarly, the mean monthly malaria incidence and anopheline larval density was generally higher in the dam villages than in the non-dam villages in all the three dam settings. Anopheles arabiensis , Anopheles pharoensis , and Anopheles funestus s.l. were the most common species, largely collected from lowland and midland dam villages. Larvae of these species were mainly found in reservoir shoreline puddles and irrigation canals. The mean adult anopheline density was significantly higher in the lowland dam village than in the midland and highland dam villages. The annual entomological inoculation rate (EIR) of An. arabiensis , An. funestus s.l. , and An. pharoensis in the lowland dam village was 129.8, 47.8, and 33.3 infective bites per person per annum, respectively. The annual EIR of An. arabiensis and An. pharoensis was 6.3 and 3.2 times higher in the lowland dam village than in the midland dam village., Conclusions: This study found that the presence of dams intensifies malaria transmission in lowland and midland ecological settings. Dam and irrigation management practices that could reduce vector abundance and malaria transmission need to be developed for these regions.

Published

2017

18. DNA recognition by the SwaI restriction endonuclease involves unusual distortion of an 8 base pair A:T-rich target.

Author

Shen BW, Heiter DF, Lunnen KD, Wilson GG, and Stoddard BL

Subjects

AT Rich Sequence, Amino Acid Sequence, Base Pairing, Binding Sites, Crystallography, X-Ray, DNA genetics, Deoxyribonucleases, Type II Site-Specific genetics, Models, Molecular, Mutagenesis, Site-Directed, Nucleic Acid Conformation, Protein Conformation, Protein Structure, Quaternary, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Homology, Amino Acid, Static Electricity, Structural Homology, Protein, Substrate Specificity, DNA chemistry, DNA metabolism, Deoxyribonucleases, Type II Site-Specific chemistry, Deoxyribonucleases, Type II Site-Specific metabolism

Abstract

R.SwaI, a Type IIP restriction endonuclease, recognizes a palindromic eight base pair (bp) symmetric sequence, 5΄-ATTTAAAT-3΄, and cleaves that target at its center to generate blunt-ended DNA fragments. Here, we report three crystal structures of SwaI: unbound enzyme, a DNA-bound complex with calcium ions; and a DNA-bound, fully cleaved complex with magnesium ions. We compare these structures to two structurally similar ‘PD-D/ExK’ restriction endonucleases (EcoRV and HincII) that also generate blunt-ended products, and to a structurally distinct enzyme (the HNH endonuclease PacI) that also recognizes an 8-bp target site consisting solely of A:T base pairs. Binding by SwaI induces an extreme bend in the target sequence accompanied by un-pairing and re-ordering of its central A:T base pairs. This result is reminiscent of a more dramatic target deformation previously described for PacI, implying that long A:T-rich target sites might display structural or dynamic behaviors that play a significant role in endonuclease recognition and cleavage.

Published

2017

19. Increased outdoor biting tendency of Anopheles arabiensis and its challenge for malaria control in Central Ethiopia.

Author

Kibret S and Wilson GG

Published

2016

20. Denys-Drash syndrome associated WT1 glutamine 369 mutants have altered sequence-preferences and altered responses to epigenetic modifications.

Author

Hashimoto H, Zhang X, Zheng Y, Wilson GG, and Cheng X

Subjects

Adenine metabolism, Amino Acid Substitution, Crystallography, X-Ray, Cytosine chemistry, Cytosine metabolism, DNA chemistry, DNA metabolism, Glutamine genetics, Guanine metabolism, Humans, WT1 Proteins chemistry, Denys-Drash Syndrome genetics, Epigenesis, Genetic, Mutation, WT1 Proteins genetics, WT1 Proteins metabolism

Abstract

Mutations in human zinc-finger transcription factor WT1 result in abnormal development of the kidneys and genitalia and an array of pediatric problems including nephropathy, blastoma, gonadal dysgenesis and genital discordance. Several overlapping phenotypes are associated with WT1 mutations, including Wilms tumors, Denys-Drash syndrome (DDS), Frasier syndrome (FS) and WAGR syndrome (Wilms tumor, aniridia, genitourinary malformations, and mental retardation). These conditions vary in severity from individual to individual; they can be fatal in early childhood, or relatively benign into adulthood. DDS mutations cluster predominantly in zinc fingers (ZF) 2 and 3 at the C-terminus of WT1, which together with ZF4 determine the sequence-specificity of DNA binding. We examined three DDS associated mutations in ZF2 of human WT1 where the normal glutamine at position 369 is replaced by arginine (Q369R), lysine (Q369K) or histidine (Q369H). These mutations alter the sequence-specificity of ZF2, we find, changing its affinity for certain bases and certain epigenetic forms of cytosine. X-ray crystallography of the DNA binding domains of normal WT1, Q369R and Q369H in complex with preferred sequences revealed the molecular interactions responsible for these affinity changes. DDS is inherited in an autosomal dominant fashion, implying a gain of function by mutant WT1 proteins. This gain, we speculate, might derive from the ability of the mutant proteins to sequester WT1 into unproductive oligomers, or to erroneously bind to variant target sequences., (© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2016

21. Type II restriction endonucleases - a historical perspective and more.

Author

Pingoud A, Wilson GG, and Wende W

Published

2016

22. Perpetuating the homing endonuclease life cycle: identification of mutations that modulate and change I-TevI cleavage preference.

Author

Roy AC, Wilson GG, and Edgell DR

Subjects

DNA Cleavage, Directed Molecular Evolution, Endodeoxyribonucleases chemistry, Introns genetics, Mutagenesis, Site-Directed, Mutant Proteins chemistry, Mutant Proteins genetics, Mutant Proteins metabolism, Protein Domains genetics, Structure-Activity Relationship, Substrate Specificity, Amino Acid Substitution genetics, Endodeoxyribonucleases genetics, Endodeoxyribonucleases metabolism, Mutation

Abstract

Homing endonucleases are sequence-tolerant DNA endonucleases that act as mobile genetic elements. The ability of homing endonucleases to cleave substrates with multiple nucleotide substitutions suggests a high degree of adaptability in that changing or modulating cleavage preference would require relatively few amino acid substitutions. Here, using directed evolution experiments with the GIY-YIG homing endonuclease I-TevI that targets the thymidylate synthase gene of phage T4, we readily isolated variants that dramatically broadened I-TevI cleavage preference, as well as variants that fine-tuned cleavage preference. By combining substitutions, we observed an ∼10 000-fold improvement in cleavage on some substrates not cleaved by the wild-type enzyme, correlating with a decrease in readout of information content at the cleavage site. Strikingly, we were able to change the cleavage preference of I-TevI to that of the isoschizomer I-BmoI which targets a different cleavage site in the thymidylate synthase gene, recapitulating the evolution of cleavage preference in this family of homing endonucleases. Our results define a strategy to isolate GIY-YIG nuclease domains with distinct cleavage preferences, and provide insight into how homing endonucleases may escape a dead-end life cycle in a population of saturated target sites by promoting transposition to different target sites., (© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2016

23. Malaria and large dams in sub-Saharan Africa: future impacts in a changing climate.

Author

Kibret S, Lautze J, McCartney M, Nhamo L, and Wilson GG

Subjects

Africa South of the Sahara epidemiology, Computer Simulation, Humans, Incidence, Risk Assessment, Climate Change, Facility Design and Construction, Malaria epidemiology, Malaria transmission, Water parasitology

Abstract

Background: Sub-Saharan Africa (SSA) has embarked on a new era of dam building to improve food security and promote economic development. Nonetheless, the future impacts of dams on malaria transmission are poorly understood and seldom investigated in the context of climate and demographic change., Methods: The distribution of malaria in the vicinity of 1268 existing dams in SSA was mapped under the Intergovernmental Panel on Climate Change (IPCC) representative concentration pathways (RCP) 2.6 and 8.5. Population projections and malaria incidence estimates were used to compute population at risk of malaria in both RCPs. Assuming no change in socio-economic interventions that may mitigate impacts, the change in malaria stability and malaria burden in the vicinity of the dams was calculated for the two RCPs through to the 2080s. Results were compared against the 2010 baseline. The annual number of malaria cases associated with dams and climate change was determined for each of the RCPs., Results: The number of dams located in malarious areas is projected to increase in both RCPs. Population growth will add to the risk of transmission. The population at risk of malaria around existing dams and associated reservoirs, is estimated to increase from 15 million in 2010 to 21-23 million in the 2020s, 25-26 million in the 2050s and 28-29 million in the 2080s, depending on RCP. The number of malaria cases associated with dams in malarious areas is expected to increase from 1.1 million in 2010 to 1.2-1.6 million in the 2020s, 2.1-3.0 million in the 2050s and 2.4-3.0 million in the 2080s depending on RCP. The number of cases will always be higher in RCP 8.5 than RCP 2.6., Conclusion: In the absence of changes in other factors that affect transmission (e.g., socio-economic), the impact of dams on malaria in SSA will be significantly exacerbated by climate change and increases in population. Areas without malaria transmission at present, which will transition to regions of unstable transmission, may be worst affected. Modifying conventional water management frameworks to improve malaria control, holds the potential to mitigate some of this increase and should be more actively implemented.

Published

2016

24. Structure of Type IIL Restriction-Modification Enzyme MmeI in Complex with DNA Has Implications for Engineering New Specificities.

Author

Callahan SJ, Luyten YA, Gupta YK, Wilson GG, Roberts RJ, Morgan RD, and Aggarwal AK

Subjects

Base Sequence, DNA Methylation, Hydrolysis, Molecular Sequence Data, DNA chemistry, Deoxyribonucleases, Type II Site-Specific chemistry

Abstract

The creation of restriction enzymes with programmable DNA-binding and -cleavage specificities has long been a goal of modern biology. The recently discovered Type IIL MmeI family of restriction-and-modification (RM) enzymes that possess a shared target recognition domain provides a framework for engineering such new specificities. However, a lack of structural information on Type IIL enzymes has limited the repertoire that can be rationally engineered. We report here a crystal structure of MmeI in complex with its DNA substrate and an S-adenosylmethionine analog (Sinefungin). The structure uncovers for the first time the interactions that underlie MmeI-DNA recognition and methylation (5'-TCCRAC-3'; R = purine) and provides a molecular basis for changing specificity at four of the six base pairs of the recognition sequence (5'-TCCRAC-3'). Surprisingly, the enzyme is resilient to specificity changes at the first position of the recognition sequence (5'-TCCRAC-3'). Collectively, the structure provides a basis for engineering further derivatives of MmeI and delineates which base pairs of the recognition sequence are more amenable to alterations than others.

Published

2016

25. Biodistribution Analyses of a Near-Infrared, Fluorescently Labeled, Bispecific Monoclonal Antibody Using Optical Imaging.

Author

Peterson NC, Wilson GG, Huang Q, Dimasi N, and Sachsenmeier KF

Subjects

Animals, Antibodies, Bispecific chemistry, Antibodies, Bispecific immunology, Drug Design, Drug Discovery, ErbB Receptors, Female, Liver pathology, Mice, Models, Animal, Optical Imaging, Spectroscopy, Near-Infrared, Succinimides, Tissue Distribution, Xenograft Model Antitumor Assays, Antibodies, Bispecific pharmacokinetics, Fluorescent Dyes

Abstract

In recent years, biodistribution analyses of pharmaceutical compounds in preclinical animal models have become an integral part of drug development. Here we report on the use of optical imaging biodistribution analyses in a mouse xenograft model to identify tissues that nonspecifically retained a bispecific antibody under development. Although our bispecific antibody bound both the epidermal growth factor receptor and insulin growth factor 1 receptor are expressed on H358, nonsmall-cell lung carcinoma cells, the fluorescence from labeled bispecific antibody was less intense than expected in xenografted tumors. Imaging analyses of live mice and major organs revealed that the majority of the Alexa Fluor 750 labeled bispecific antibody was sequestered in the liver within 2 h of injection. However, results varied depending on which near-infrared fluorophore was used, and fluorescence from the livers of mice injected with bispecific antibody labeled with Alexa Fluor 680 was less pronounced than those labeled with Alexa Fluor 750. The tissue distribution of control antibodies remained unaffected by label and suggests that the retention of fluorophores in the liver may differ. Given these precautions, these results support the incorporation of optical imaging biodistribution analyses in biotherapeutic development strategies.

Published

2016

26. AnnoTALE: bioinformatics tools for identification, annotation, and nomenclature of TALEs from Xanthomonas genomic sequences.

Author

Grau J, Reschke M, Erkes A, Streubel J, Morgan RD, Wilson GG, Koebnik R, and Boch J

Subjects

Computational Biology, Genome, Molecular Sequence Annotation, Sequence Analysis, DNA, Virulence Factors genetics, Bacterial Proteins genetics, Evolution, Molecular, Transcription Activator-Like Effectors genetics, Xanthomonas genetics

Abstract

Transcription activator-like effectors (TALEs) are virulence factors, produced by the bacterial plant-pathogen Xanthomonas, that function as gene activators inside plant cells. Although the contribution of individual TALEs to infectivity has been shown, the specific roles of most TALEs, and the overall TALE diversity in Xanthomonas spp. is not known. TALEs possess a highly repetitive DNA-binding domain, which is notoriously difficult to sequence. Here, we describe an improved method for characterizing TALE genes by the use of PacBio sequencing. We present 'AnnoTALE', a suite of applications for the analysis and annotation of TALE genes from Xanthomonas genomes, and for grouping similar TALEs into classes. Based on these classes, we propose a unified nomenclature for Xanthomonas TALEs that reveals similarities pointing to related functionalities. This new classification enables us to compare related TALEs and to identify base substitutions responsible for the evolution of TALE specificities.

Published

2016

27. Structural basis for human PRDM9 action at recombination hot spots.

Author

Patel A, Horton JR, Wilson GG, Zhang X, and Cheng X

Subjects

Alleles, Base Sequence, Crystallization, Histones, Humans, Meiosis genetics, Methylation, Protein Binding, Protein Structure, Tertiary, Histone-Lysine N-Methyltransferase chemistry, Histone-Lysine N-Methyltransferase metabolism, Models, Molecular, Recombination, Genetic

Abstract

The multidomain zinc finger (ZnF) protein PRDM9 (PRD1-BF1-RIZ1 homologous domain-containing 9) is thought to influence the locations of recombination hot spots during meiosis by sequence-specific DNA binding and trimethylation of histone H3 Lys4. The most common variant of human PRDM9, allele A (hPRDM9A), recognizes the consensus sequence 5'-NCCNCCNTNNCCNCN-3'. We cocrystallized ZnF8-12 of hPRDM9A with an oligonucleotide representing a known hot spot sequence and report the structure here. ZnF12 was not visible, but ZnF8-11, like other ZnF arrays, follows the right-handed twist of the DNA, with the α helices occupying the major groove. Each α helix makes hydrogen-bond (H-bond) contacts with up to four adjacent bases, most of which are purines of the complementary DNA strand. The consensus C:G base pairs H-bond with conserved His or Arg residues in ZnF8, ZnF9, and ZnF11, and the consensus T:A base pair H-bonds with an Asn that replaces His in ZnF10. Most of the variable base pairs (N) also engage in H bonds with the protein. These interactions appear to compensate to some extent for changes from the consensus sequence, implying an adaptability of PRDM9 to sequence variations. We investigated the binding of various alleles of hPRDM9 to different hot spot sequences. Allele C was found to bind a C-specific hot spot with higher affinity than allele A bound A-specific hot spots, perhaps explaining why the former is dominant in A/C heterozygotes. Allele L13 displayed higher affinity for several A-specific sequences, allele L9/L24 displayed lower affinity, and allele L20 displayed an altered sequence preference. These differences can be rationalized structurally and might contribute to the variation observed in the locations and activities of meiotic recombination hot spots., (© 2016 Patel et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2016

28. Malaria impact of large dams in sub-Saharan Africa: maps, estimates and predictions.

Author

Kibret S, Lautze J, McCartney M, Wilson GG, and Nhamo L

Subjects

Africa South of the Sahara, Endemic Diseases statistics & numerical data, Humans, Prevalence, Residence Characteristics statistics & numerical data, Spatial Analysis, Lakes, Malaria, Falciparum epidemiology, Water Supply

Abstract

Background: While there is growing recognition of the malaria impacts of large dams in sub-Saharan Africa, the cumulative malaria impact of reservoirs associated with current and future dam developments has not been quantified. The objective of this study was to estimate the current and predict the future impact of large dams on malaria in different eco-epidemiological settings across sub-Saharan Africa., Methods: The locations of 1268 existing and 78 planned large dams in sub-Saharan Africa were mapped against the malaria stability index (stable, unstable and no malaria). The Plasmodium falciparum infection rate (PfIR) was determined for populations at different distances (<1, 1-2, 2-5, 5-9 km) from the associated reservoirs using the Malaria Atlas Project (MAP) and WorldPop databases. Results derived from MAP were verified by comparison with the results of detailed epidemiological studies conducted at 11 dams., Results: Of the 1268 existing dams, 723 are located in malarious areas. Currently, about 15 million people live in close proximity (<5 km) to the reservoirs associated with these dams. A total of 1.1 million malaria cases annually are associated with them: 919,000 cases due to the presence of 416 dams in areas of unstable transmission and 204,000 cases due to the presence of 307 dams in areas of stable transmission. Of the 78 planned dams, 60 will be located in malarious areas and these will create an additional 56,000 cases annually. The variation in annual PfIR in communities as a function of distance from reservoirs was statistically significant in areas of unstable transmission but not in areas of stable transmission., Conclusion: In sub-Saharan Africa, dams contribute significantly to malaria risk particularly in areas of unstable transmission. Additional malaria control measures are thus required to reduce the impact of dams on malaria.

Published

2015

29. Rural Mental Health Ecology: A Framework for Engaging with Mental Health Social Capital in Rural Communities.

Author

Wilson RL, Wilson GG, and Usher K

Subjects

Australia, Environment, Humans, Residence Characteristics, Rural Health, Mental Health, Mental Health Services organization & administration, Rural Population, Social Capital, Social Environment

Abstract

The mental health of people in rural communities is influenced by the robustness of the mental health ecosystem within each community. Theoretical approaches such as social ecology and social capital are useful when applied to the practical context of promoting environmental conditions which maximise mental health helping capital to enhance resilience and reduce vulnerably as a buffer for mental illness. This paper explores the ecological conditions that affect the mental health and illness of people in rural communities. It proposes a new mental health social ecology framework that makes full use of the locally available unique social capital that is sufficiently flexible to facilitate mental health helping capital best suited to mental health service delivery for rural people in an Australian context.

Published

2015

30. Complete genome sequence and methylome analysis of bacillus strain x1.

Author

Fomenkov A, Lunnen KD, Zhu Z, Anton BP, Wilson GG, Vincze T, and Roberts RJ

Abstract

Bacillus strain X1 is the source strain for the restriction enzyme BstXI. Its complete sequence and full methylome was determined using single-molecule real-time (SMRT) sequencing., (Copyright © 2015 Fomenkov et al.)

Published

2015

31. Modification-dependent restriction endonuclease, MspJI, flips 5-methylcytosine out of the DNA helix.

Author

Horton JR, Wang H, Mabuchi MY, Zhang X, Roberts RJ, Zheng Y, Wilson GG, and Cheng X

Subjects

5-Methylcytosine metabolism, Binding Sites, DNA metabolism, DNA Restriction Enzymes genetics, DNA Restriction Enzymes metabolism, Models, Molecular, Mutagenesis, Protein Binding, 5-Methylcytosine chemistry, DNA chemistry, DNA Restriction Enzymes chemistry

Abstract

MspJI belongs to a family of restriction enzymes that cleave DNA containing 5-methylcytosine (5mC) or 5-hydroxymethylcytosine (5hmC). MspJI is specific for the sequence 5(h)mC-N-N-G or A and cleaves with some variability 9/13 nucleotides downstream. Earlier, we reported the crystal structure of MspJI without DNA and proposed how it might recognize this sequence and catalyze cleavage. Here we report its co-crystal structure with a 27-base pair oligonucleotide containing 5mC. This structure confirms that MspJI acts as a homotetramer and that the modified cytosine is flipped from the DNA helix into an SRA-like-binding pocket. We expected the structure to reveal two DNA molecules bound specifically to the tetramer and engaged with the enzyme's two DNA-cleavage sites. A coincidence of crystal packing precluded this organization, however. We found that each DNA molecule interacted with two adjacent tetramers, binding one specifically and the other non-specifically. The latter interaction, which prevented cleavage-site engagement, also involved base flipping and might represent the sequence-interrogation phase that precedes specific recognition. MspJI is unusual in that DNA molecules are recognized and cleaved by different subunits. Such interchange of function might explain how other complex multimeric restriction enzymes act., (© The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2014

32. Wilms tumor protein recognizes 5-carboxylcytosine within a specific DNA sequence.

Author

Hashimoto H, Olanrewaju YO, Zheng Y, Wilson GG, Zhang X, and Cheng X

Subjects

Crystallization, Cytosine metabolism, DNA Methylation, Early Growth Response Protein 1 chemistry, Early Growth Response Protein 1 metabolism, Humans, Models, Molecular, Mutation, Oxidation-Reduction, Protein Binding, Protein Structure, Tertiary, Cytosine analogs & derivatives, WT1 Proteins chemistry, WT1 Proteins genetics, WT1 Proteins metabolism

Abstract

In mammalian DNA, cytosine occurs in several chemical forms, including unmodified cytosine (C), 5-methylcytosine (5 mC), 5-hydroxymethylcytosine (5 hmC), 5-formylcytosine (5 fC), and 5-carboxylcytosine (5 caC). 5 mC is a major epigenetic signal that acts to regulate gene expression. 5 hmC, 5 fC, and 5 caC are oxidized derivatives that might also act as distinct epigenetic signals. We investigated the response of the zinc finger DNA-binding domains of transcription factors early growth response protein 1 (Egr1) and Wilms tumor protein 1 (WT1) to different forms of modified cytosine within their recognition sequence, 5'-GCG(T/G)GGGCG-3'. Both displayed high affinity for the sequence when C or 5 mC was present and much reduced affinity when 5 hmC or 5 fC was present, indicating that they differentiate primarily oxidized C from unoxidized C, rather than methylated C from unmethylated C. 5 caC affected the two proteins differently, abolishing binding by Egr1 but not by WT1. We ascribe this difference to electrostatic interactions in the binding sites. In Egr1, a negatively charged glutamate conflicts with the negatively charged carboxylate of 5 caC, whereas the corresponding glutamine of WT1 interacts with this group favorably. Our analyses shows that zinc finger proteins (and their splice variants) can respond in modulated ways to alternative modifications within their binding sequence., (© 2014 Hashimoto et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2014

33. Increased malaria transmission around irrigation schemes in Ethiopia and the potential of canal water management for malaria vector control.

Author

Kibret S, Wilson GG, Tekie H, and Petros B

Subjects

Agricultural Irrigation, Animals, Ethiopia epidemiology, Humans, Incidence, Larva, Malaria epidemiology, Mosquito Control, Retrospective Studies, Culicidae parasitology, Insect Vectors parasitology, Malaria prevention & control, Malaria transmission, Water parasitology

Abstract

Background: Irrigation schemes have been blamed for the increase in malaria in many parts of sub-Saharan Africa. However, proper water management could help mitigate malaria around irrigation schemes in this region. This study investigates the link between irrigation and malaria in Central Ethiopia., Methods: Larval and adult mosquitoes were collected fortnightly between November 2009 and October 2010 from two irrigated and two non-irrigated (control) villages in the Ziway area, Central Ethiopia. Daily canal water releases were recorded during the study period and bi-weekly correlation analysis was done to determine relationships between canal water releases and larval/adult vector densities. Blood meal sources (bovine vs human) and malaria sporozoite infection were tested using enzyme-linked immunosorbent assay (ELISA). Monthly malaria data were also collected from central health centre of the study villages., Results: Monthly malaria incidence was over six-fold higher in the irrigated villages than the non-irrigated villages. The number of anopheline breeding habitats was 3.6 times higher in the irrigated villages than the non-irrigated villages and the most common Anopheles mosquito breeding habitats were waterlogged field puddles, leakage pools from irrigation canals and poorly functioning irrigation canals. Larval and adult anopheline densities were seven- and nine-fold higher in the irrigated villages than in the non-irrigated villages, respectively, during the study period. Anopheles arabiensis was the predominant species in the study area. Plasmodium falciparum sporozoite rates of An. arabiensis and Anopheles pharoensis were significantly higher in the irrigated villages than the non-irrigated villages. The annual entomological inoculation rate (EIR) calculated for the irrigated and non-irrigated villages were 34.8 and 0.25 P. falciparum infective bites per person per year, respectively. A strong positive correlation was found between bi-weekly anopheline larval density and canal water releases. Similarly, there was a strong positive correlation between bi-weekly vector density and canal water releases lagged by two weeks. Furthermore, monthly malaria incidence was strongly correlated with monthly vector density lagged by a month in the irrigated villages., Conclusion: The present study revealed that the irrigation schemes resulted in intensified malaria transmission due to poor canal water management. Proper canal water management could reduce vector abundance and malaria transmission in the irrigated villages.

Published

2014

34. Type II restriction endonucleases--a historical perspective and more.

Author

Pingoud A, Wilson GG, and Wende W

Subjects

DNA chemistry, DNA metabolism, Deoxyribonucleases, Type II Site-Specific genetics, Deoxyribonucleases, Type II Site-Specific history, Evolution, Molecular, History, 20th Century, History, 21st Century, Protein Engineering, Restriction Mapping, Deoxyribonucleases, Type II Site-Specific chemistry, Deoxyribonucleases, Type II Site-Specific metabolism

Abstract

This article continues the series of Surveys and Summaries on restriction endonucleases (REases) begun this year in Nucleic Acids Research. Here we discuss 'Type II' REases, the kind used for DNA analysis and cloning. We focus on their biochemistry: what they are, what they do, and how they do it. Type II REases are produced by prokaryotes to combat bacteriophages. With extreme accuracy, each recognizes a particular sequence in double-stranded DNA and cleaves at a fixed position within or nearby. The discoveries of these enzymes in the 1970s, and of the uses to which they could be put, have since impacted every corner of the life sciences. They became the enabling tools of molecular biology, genetics and biotechnology, and made analysis at the most fundamental levels routine. Hundreds of different REases have been discovered and are available commercially. Their genes have been cloned, sequenced and overexpressed. Most have been characterized to some extent, but few have been studied in depth. Here, we describe the original discoveries in this field, and the properties of the first Type II REases investigated. We discuss the mechanisms of sequence recognition and catalysis, and the varied oligomeric modes in which Type II REases act. We describe the surprising heterogeneity revealed by comparisons of their sequences and structures., (© The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2014

35. Structure of 5-hydroxymethylcytosine-specific restriction enzyme, AbaSI, in complex with DNA.

Author

Horton JR, Borgaro JG, Griggs RM, Quimby A, Guan S, Zhang X, Wilson GG, Zheng Y, Zhu Z, and Cheng X

Subjects

5-Methylcytosine analogs & derivatives, CCAAT-Enhancer-Binding Proteins, Cytosine chemistry, Cytosine metabolism, DNA Cleavage, DNA Restriction Enzymes metabolism, Dimerization, Endodeoxyribonucleases chemistry, Models, Molecular, Nuclear Proteins chemistry, Protein Structure, Tertiary, Ubiquitin-Protein Ligases, Cytosine analogs & derivatives, DNA chemistry, DNA Restriction Enzymes chemistry

Abstract

AbaSI, a member of the PvuRts1I-family of modification-dependent restriction endonucleases, cleaves deoxyribonucleic acid (DNA) containing 5-hydroxymethylctosine (5hmC) and glucosylated 5hmC (g5hmC), but not DNA containing unmodified cytosine. AbaSI has been used as a tool for mapping the genomic locations of 5hmC, an important epigenetic modification in the DNA of higher organisms. Here we report the crystal structures of AbaSI in the presence and absence of DNA. These structures provide considerable, although incomplete, insight into how this enzyme acts. AbaSI appears to be mainly a homodimer in solution, but interacts with DNA in our structures as a homotetramer. Each AbaSI subunit comprises an N-terminal, Vsr-like, cleavage domain containing a single catalytic site, and a C-terminal, SRA-like, 5hmC-binding domain. Two N-terminal helices mediate most of the homodimer interface. Dimerization brings together the two catalytic sites required for double-strand cleavage, and separates the 5hmC binding-domains by ∼70 Å, consistent with the known activity of AbaSI which cleaves DNA optimally between symmetrically modified cytosines ∼22 bp apart. The eukaryotic SET and RING-associated (SRA) domains bind to DNA containing 5-methylcytosine (5mC) in the hemi-methylated CpG sequence. They make contacts in both the major and minor DNA grooves, and flip the modified cytosine out of the helix into a conserved binding pocket. In contrast, the SRA-like domain of AbaSI, which has no sequence specificity, contacts only the minor DNA groove, and in our current structures the 5hmC remains intra-helical. A conserved, binding pocket is nevertheless present in this domain, suitable for accommodating 5hmC and g5hmC. We consider it likely, therefore, that base-flipping is part of the recognition and cleavage mechanism of AbaSI, but that our structures represent an earlier, pre-flipped stage, prior to actual recognition., (© The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2014

36. Time-resolved fluorescence of 2-aminopurine in DNA duplexes in the presence of the EcoP15I Type III restriction-modification enzyme.

Author

Ma L, Wu X, Wilson GG, Jones AC, and Dryden DT

Subjects

Binding Sites, Enzyme Activation, Substrate Specificity, 2-Aminopurine chemistry, DNA chemistry, DNA Methylation, DNA Restriction-Modification Enzymes chemistry, Site-Specific DNA-Methyltransferase (Adenine-Specific) chemistry, Spectrometry, Fluorescence methods

Abstract

EcoP15I is a Type III DNA restriction and modification enzyme of Escherichia coli. We show that it contains two modification (Mod) subunits for sequence-specific methylation of DNA and one copy of a restriction endonuclease (Res) subunit for cleavage of DNA containing unmethylated target sequences. Previously the Mod2 dimer in the presence of cofactors was shown to use nucleotide flipping to gain access to the adenine base targeted for methylation (Reddy and Rao, J. Mol. Biol. 298 (2000) 597-610.). Surprisingly the Mod2 enzyme also appeared to flip a second adenine in the target sequence, one which was not subject to methylation. We show using fluorescence lifetime measurements of the adenine analogue, 2-aminopurine, that only the methylatable adenine undergoes flipping by the complete Res1Mod2 enzyme and that this occurs even in the absence of cofactors. We suggest that this is due to activation of the Mod2 core by the Res subunit., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2014

37. Structure and mutagenesis of the DNA modification-dependent restriction endonuclease AspBHI.

Author

Horton JR, Nugent RL, Li A, Mabuchi MY, Fomenkov A, Cohen-Karni D, Griggs RM, Zhang X, Wilson GG, Zheng Y, Xu SY, and Cheng X

Subjects

Amino Acid Sequence, Amino Acid Substitution, Catalytic Domain, DNA chemistry, Enzyme Activation, Genetic Variation, Models, Molecular, Molecular Sequence Data, Protein Binding, Protein Conformation, Protein Interaction Domains and Motifs, Protein Multimerization, Sequence Alignment, Substrate Specificity, DNA Restriction Enzymes chemistry, DNA Restriction Enzymes genetics, Mutagenesis

Abstract

The modification-dependent restriction endonuclease AspBHI recognizes 5-methylcytosine (5mC) in the double-strand DNA sequence context of (C/T)(C/G)(5mC)N(C/G) (N = any nucleotide) and cleaves the two strands a fixed distance (N12/N16) 3' to the modified cytosine. We determined the crystal structure of the homo-tetrameric AspBHI. Each subunit of the protein comprises two domains: an N-terminal DNA-recognition domain and a C-terminal DNA cleavage domain. The N-terminal domain is structurally similar to the eukaryotic SET and RING-associated (SRA) domain, which is known to bind to a hemi-methylated CpG dinucleotide. The C-terminal domain is structurally similar to classic Type II restriction enzymes and contains the endonuclease catalytic-site motif of DX20EAK. To understand how specific amino acids affect AspBHI recognition preference, we generated a homology model of the AspBHI-DNA complex, and probed the importance of individual amino acids by mutagenesis. Ser41 and Arg42 are predicted to be located in the DNA minor groove 5' to the modified cytosine. Substitution of Ser41 with alanine (S41A) and cysteine (S41C) resulted in mutants with altered cleavage activity. All 19 Arg42 variants resulted in loss of endonuclease activity.

Published

2014

38. Highlights of the DNA cutters: a short history of the restriction enzymes.

Author

Loenen WA, Dryden DT, Raleigh EA, Wilson GG, and Murray NE

Subjects

DNA Modification Methylases history, Deoxyribonucleases, Type I Site-Specific history, Deoxyribonucleases, Type II Site-Specific history, Deoxyribonucleases, Type III Site-Specific history, History, 20th Century, DNA Restriction Enzymes history

Abstract

In the early 1950's, 'host-controlled variation in bacterial viruses' was reported as a non-hereditary phenomenon: one cycle of viral growth on certain bacterial hosts affected the ability of progeny virus to grow on other hosts by either restricting or enlarging their host range. Unlike mutation, this change was reversible, and one cycle of growth in the previous host returned the virus to its original form. These simple observations heralded the discovery of the endonuclease and methyltransferase activities of what are now termed Type I, II, III and IV DNA restriction-modification systems. The Type II restriction enzymes (e.g. EcoRI) gave rise to recombinant DNA technology that has transformed molecular biology and medicine. This review traces the discovery of restriction enzymes and their continuing impact on molecular biology and medicine.

Published

2014

39. Type I restriction enzymes and their relatives.

Author

Loenen WA, Dryden DT, Raleigh EA, and Wilson GG

Subjects

Base Sequence, DNA chemistry, Deoxyribonucleases, Type I Site-Specific classification, Deoxyribonucleases, Type I Site-Specific chemistry, Deoxyribonucleases, Type I Site-Specific metabolism

Abstract

Type I restriction enzymes (REases) are large pentameric proteins with separate restriction (R), methylation (M) and DNA sequence-recognition (S) subunits. They were the first REases to be discovered and purified, but unlike the enormously useful Type II REases, they have yet to find a place in the enzymatic toolbox of molecular biologists. Type I enzymes have been difficult to characterize, but this is changing as genome analysis reveals their genes, and methylome analysis reveals their recognition sequences. Several Type I REases have been studied in detail and what has been learned about them invites greater attention. In this article, we discuss aspects of the biochemistry, biology and regulation of Type I REases, and of the mechanisms that bacteriophages and plasmids have evolved to evade them. Type I REases have a remarkable ability to change sequence specificity by domain shuffling and rearrangements. We summarize the classic experiments and observations that led to this discovery, and we discuss how this ability depends on the modular organizations of the enzymes and of their S subunits. Finally, we describe examples of Type II restriction-modification systems that have features in common with Type I enzymes, with emphasis on the varied Type IIG enzymes.

Published

2014

40. Restriction endonuclease TseI cleaves A:A and T:T mismatches in CAG and CTG repeats.

Author

Ma L, Chen K, Clarke DJ, Nortcliffe CP, Wilson GG, Edwardson JM, Morton AJ, Jones AC, and Dryden DT

Subjects

Adenine chemistry, DNA chemistry, Deoxyribonucleases, Type II Site-Specific chemistry, Thymine chemistry, Base Pair Mismatch, DNA Cleavage, Deoxyribonucleases, Type II Site-Specific metabolism, Trinucleotide Repeats

Abstract

The type II restriction endonuclease TseI recognizes the DNA target sequence 5'-G^CWGC-3' (where W = A or T) and cleaves after the first G to produce fragments with three-base 5'-overhangs. We have determined that it is a dimeric protein capable of cleaving not only its target sequence but also one containing A:A or T:T mismatches at the central base pair in the target sequence. The cleavage of targets containing these mismatches is as efficient as cleavage of the correct target sequence containing a central A:T base pair. The cleavage mechanism does not apparently use a base flipping mechanism as found for some other type II restriction endonuclease recognizing similarly degenerate target sequences. The ability of TseI to cleave targets with mismatches means that it can cleave the unusual DNA hairpin structures containing A:A or T:T mismatches formed by the repetitive DNA sequences associated with Huntington's disease (CAG repeats) and myotonic dystrophy type 1 (CTG repeats).

Published

2013

41. Crystallization and preliminary crystallographic analysis of the type IIL restriction enzyme MmeI in complex with DNA.

Author

Callahan SJ, Morgan RD, Jain R, Townson SA, Wilson GG, Roberts RJ, and Aggarwal AK

Subjects

Crystallization, Crystallography, X-Ray, DNA metabolism, Deoxyribonucleases, Type II Site-Specific metabolism, Protein Binding, DNA chemistry, Deoxyribonucleases, Type II Site-Specific chemistry

Abstract

Type IIL restriction enzymes have rejuvenated the search for user-specified DNA binding and cutting. By aligning and contrasting the highly comparable amino-acid sequences yet diverse recognition specificities across the family of enzymes, amino acids involved in DNA binding have been identified and mutated to produce alternative binding specificities. To date, the specificity of MmeI (a type IIL restriction enzyme) has successfully been altered at positions 3, 4 and 6 of the asymmetric TCCRAC (where R is a purine) DNA-recognition sequence. To further understand the structural basis of MmeI DNA-binding specificity, the enzyme has been crystallized in complex with its DNA substrate. The crystal belonged to space group P1, with unit-cell parameters a = 61.73, b = 94.96, c = 161.24 Å, α = 72.79, β = 89.12, γ = 71.68°, and diffracted to 2.6 Å resolution when exposed to synchrotron radiation. The structure promises to reveal the basis of MmeI DNA-binding specificity and will complement efforts to create enzymes with novel specificities., (© 2011 International Union of Crystallography. All rights reserved.)

Published

2011

42. Effect of co-administration of varenicline and antidepressants on extracellular monoamine concentrations in rat prefrontal cortex.

Author

Rollema H, Wilson GG, Lee TC, Folgering JH, and Flik G

Subjects

Animals, Chromatography, High Pressure Liquid, Clorgyline pharmacology, Data Interpretation, Statistical, Dopamine metabolism, Drug Interactions, Extracellular Space drug effects, Male, Microdialysis, Monoamine Oxidase Inhibitors pharmacology, Neurotransmitter Agents metabolism, Norepinephrine metabolism, Prefrontal Cortex drug effects, Rats, Rats, Wistar, Serotonin metabolism, Sertraline pharmacology, Varenicline, Vesicular Monoamine Transport Proteins metabolism, Antidepressive Agents pharmacology, Benzazepines pharmacology, Biogenic Monoamines metabolism, Extracellular Space metabolism, Nicotinic Agonists pharmacology, Prefrontal Cortex metabolism, Quinoxalines pharmacology

Abstract

Since a substantial proportion of smokers have comorbid mood disorders, the smoking cessation aid varenicline might occasionally be prescribed to patients who are simultaneously treated with antidepressants. Given that varenicline is a selective nicotinic acetylcholine receptor partial agonist and not a substrate or inhibitor of drug metabolizing enzymes, pharmacokinetic interactions with various classes of antidepressants are highly unlikely. It is, however, conceivable that varenicline may have a pharmacodynamic effect on antidepressant-evoked increases in central monoamine release. Interactions resulting in excessive transmitter release could cause adverse events such as serotonin syndrome, while attenuation of monoamine release could impact the clinical efficacy of antidepressants. To investigate this we examined whether varenicline administration modulates the effects of the selective serotonin reuptake inhibitor sertraline and the monoamine oxidase inhibitor clorgyline, given alone and combined, on extracellular concentrations of the monoamines serotonin, dopamine, and norepinephrine in rat brain by microdialysis. Given the important role attributed to cortical monoamine release in serotonin syndrome as well as antidepressant activity, the effects on extracellular monoamine concentrations were measured in the medial prefrontal cortex. Responses to maximally effective doses of sertraline or clorgyline and of sertraline plus clorgyline were the same in the absence as in the presence of a relatively high dose of varenicline, which by itself had no significant effect on cortical monoamine release. This is consistent with the binding profile of varenicline that has insufficient affinity for receptors, enzymes, or transporters to inhibit or potentiate the pharmacologic effects of antidepressants. Since varenicline neither diminished nor potentiated sertraline- or clorgyline-induced increases in neurotransmitter levels, combining varenicline with serotonergic antidepressants is unlikely to cause excessive serotonin release or to attenuate antidepressant efficacy via effects on cortical serotonin, dopamine or norepinephrine release., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

43. Unusual target site disruption by the rare-cutting HNH restriction endonuclease PacI.

Author

Shen BW, Heiter DF, Chan SH, Wang H, Xu SY, Morgan RD, Wilson GG, and Stoddard BL

Subjects

Base Pairing, Base Sequence, Catalytic Domain genetics, DNA Restriction Enzymes genetics, Deoxyribonucleases, Type II Site-Specific, Metals chemistry, Protein Structure, Tertiary genetics, DNA chemistry, DNA genetics, DNA metabolism, DNA Restriction Enzymes metabolism

Abstract

The crystal structure of the rare-cutting HNH restriction endonuclease PacI in complex with its eight-base-pair target recognition sequence 5'-TTAATTAA-3' has been determined to 1.9 A resolution. The enzyme forms an extended homodimer, with each subunit containing two zinc-bound motifs surrounding a betabetaalpha-metal catalytic site. The latter is unusual in that a tyrosine residue likely initiates strand cleavage. PacI dramatically distorts its target sequence from Watson-Crick duplex DNA base pairing, with every base separated from its original partner. Two bases on each strand are unpaired, four are engaged in noncanonical A:A and T:T base pairs, and the remaining two bases are matched with new Watson-Crick partners. This represents a highly unusual DNA binding mechanism for a restriction endonuclease, and implies that initial recognition of the target site might involve significantly different contacts from those visualized in the DNA-bound cocrystal structures.

Published

2010

44. Spatial and temporal patterns in fish assemblages following an artificially extended floodplain inundation event, northern Murray-Darling Basin, Australia.

Author

Rolls RJ and Wilson GG

Subjects

Animals, Environmental Monitoring, New South Wales, Population Dynamics, Queensland, Animal Migration, Conservation of Natural Resources methods, Ecosystem, Floods, Perciformes growth & development, Rivers

Abstract

Water extraction from dryland rivers is often associated with declines in the health of river and floodplain ecosystems due to reduced flooding frequency and extent of floodplain inundation. Following moderate flooding in early 2008 in the Narran River, Murray-Darling Basin, Australia, 10,423 ML of water was purchased from agricultural water users and delivered to the river to prolong inundation of its terminal lake system to improve the recruitment success of colonial waterbirds that had started breeding in response to the initial flooding. This study examined the spatial and temporal patterns of fish assemblages in river and floodplain habitats over eight months following flooding to assess the possible ecological benefits of flood extension. Although the abundances of most fish species were greater in river channel habitats, the fish assemblage used floodplain habitats when inundated. Young-of-the-year (4-12 months age) golden perch (Macquaria ambigua) and bony bream (Nematalosa erebi) were consistently sampled in floodplain sites when inundated, suggesting that the floodplain provides rearing habitat for these species. Significant differences in the abundances of fish populations between reaches upstream and downstream of a weir in the main river channel indicates that the effectiveness of the environmental water release was limited by restricted connectivity within the broader catchment. Although the seasonal timing of flood extension may have coincided with sub-optimal primary production, the use of the environmental water purchase is likely to have promoted recruitment of fish populations by providing greater access to floodplain nursery habitats, thereby improving the ability to persist during years of little or no flow.

Published

2010

45. Discovery of natural nicking endonucleases Nb.BsrDI and Nb.BtsI and engineering of top-strand nicking variants from BsrDI and BtsI.

Author

Xu SY, Zhu Z, Zhang P, Chan SH, Samuelson JC, Xiao J, Ingalls D, and Wilson GG

Subjects

Amino Acid Sequence, Catalytic Domain, Cloning, Molecular, DNA Modification Methylases genetics, DNA Restriction Enzymes chemistry, Deoxyribonucleases, Type II Site-Specific chemistry, Dimerization, Geobacillus stearothermophilus enzymology, Molecular Sequence Data, Mutagenesis, Site-Directed, Open Reading Frames, Protein Subunits genetics, Protein Subunits metabolism, Sequence Alignment, Substrate Specificity, DNA Restriction Enzymes genetics, DNA Restriction Enzymes metabolism

Abstract

BsrDI and BtsI restriction endonucleases recognize and cleave double-strand DNA at the sequences GCAATG (2/0) and GCAGTG (2/0), respectively. We have purified and partially characterized these two enzymes, and analyzed the genes that encode them. BsrDI and BtsI are unusual in two respects: each cleaves DNA as a heterodimer of one large subunit (B subunit) and one small subunit (A subunit); and, in the absence of their small subunits, the large subunits behave as sequence-specific DNA nicking enzymes and only nick the bottom strand of the sequences at these respective positions: GCAATG (-/0) and GCAGTG (-/0). We refer to the single subunit, the bottom-strand nicking forms as 'hemidimers'. Amino acid sequence comparisons reveal that BsrDI and BtsI belong to a family of restriction enzymes that possess two catalytic sites: a canonical PD-X(n)-EXK and a second non-canonical PD-X(n)-E-X12-QR. Interestingly, the other family members, which include BsrI (ACTGG 1/-1) and BsmI/Mva1269I (GAATGC 1/-1) are single polypeptide chains, i.e. monomers, rather than heterodimers. In BsrDI and BtsI, the two catalytic sites are found in two separate subunits. Site-directed mutagenesis confirmed that the canonical catalytic site located at the N-terminus of the large subunit is responsible for the bottom-strand cleavage, whereas the non-canonical catalytic site located in the small subunit is responsible for hydrolysis of the top strand. Top-strand specific nicking variants, Nt.BsrDI and Nt.BtsI, were successfully engineered by combining the catalytic-deficient B subunit with wild-type A subunit.

Published

2007

46. A genetic dissection of the LlaJI restriction cassette reveals insights on a novel bacteriophage resistance system.

Author

O'Driscoll J, Heiter DF, Wilson GG, Fitzgerald GF, Roberts R, and van Sinderen D

Subjects

Amino Acid Sequence, Bacteriophages, DNA metabolism, DNA Methylation, DNA Restriction-Modification Enzymes chemistry, DNA Restriction-Modification Enzymes metabolism, Guanosine Triphosphate metabolism, Molecular Sequence Data, Phenotype, Protein Subunits, DNA Restriction-Modification Enzymes genetics

Abstract

Background: Restriction/modification systems provide the dual function of protecting host DNA against restriction by methylation of appropriate bases within their recognition sequences, and restriction of foreign invading un-methylated DNA, such as promiscuous plasmids or infecting bacteriphage. The plasmid-encoded LlaJI restriction/modification system from Lactococcus lactis recognizes an asymmetric, complementary DNA sequence, consisting of 5'GACGC'3 in one strand and 5'GCGTC'3 in the other and provides a prodigious barrier to bacteriophage infection. LlaJI is comprised of four similarly oriented genes, encoding two 5mC-MTases (M1.LlaJI and M2.LlaJI) and two subunits responsible for restriction activity (R1.LlaJI and R2.LlaJI). Here we employ a detailed genetic analysis of the LlaJI restriction determinants in an attempt to characterize mechanistic features of this unusual hetero-oligomeric endonuclease., Results: Detailed bioinformatics analysis confirmed the presence of a conserved GTP binding and hydrolysis domain within the C-terminal half of the R1.LlaJI amino acid sequence whilst the N-terminal half appeared to be entirely unique. This domain architecture was homologous with that of the "B" subunit of the GTP-dependent, methyl-specific McrBC endonuclease from E.coli K-12. R1.LlaJI did not appear to contain a catalytic centre, whereas this conserved motif; PD....D/EXK, was clearly identified within the amino acid sequence for R2.LlaJI. Both R1.LlaJI and R2.LlaJI were found to be absolutely required for detectable LlaJI activity in vivo. The LlaJI restriction subunits were purified and examined in vitro, which allowed the assignment of R1.LlaJI as the sole specificity determining subunit, whilst R2.LlaJI is believed to mediate DNA cleavage., Conclusion: The hetero-subunit structure of LlaJI, wherein one subunit mediates DNA binding whilst the other subunit is predicted to catalyze strand hydrolysis distinguishes LlaJI from previously characterized restriction-modification systems. Furthermore, this distinction is accentuated by the fact that whilst LlaJI behaves as a conventional Type IIA system in vivo, in that it restricts un-methylated DNA, it resembles the Type IV McrBC endonuclease, an enzyme specific for methylated DNA. A number of similar restriction determinants were identified in the database and it is likely LlaJI together with these homologous systems, comprise a new subtype of the Type II class incorporating features of Type II and Type IV systems.

Published

2006

47. DNA nicking by HinP1I endonuclease: bending, base flipping and minor groove expansion.

Author

Horton JR, Zhang X, Maunus R, Yang Z, Wilson GG, Roberts RJ, and Cheng X

Subjects

Binding Sites, Calcium chemistry, Catalysis, DNA metabolism, Deoxyribonucleases, Type II Site-Specific metabolism, Dimerization, Models, Molecular, Nucleic Acid Conformation, Protein Binding, DNA chemistry, Deoxyribonucleases, Type II Site-Specific chemistry

Abstract

HinP1I recognizes and cleaves the palindromic tetranucleotide sequence G downward arrowCGC in DNA. We report three structures of HinP1I-DNA complexes: in the presence of Ca(2+) (pre-reactive complex), in the absence of metal ion (binary complex) and in the presence of Mg(2+) (post-reactive complex). HinP1I forms a back-to-back dimer with two active sites and two DNA duplexes bound on the outer surfaces of the dimer facing away from each other. The 10 bp DNA duplexes undergo protein-induced distortions exhibiting features of A-, B- and Z-conformations: bending on one side (by intercalation of a phenylalanine side chain into the major groove), base flipping on the other side of the recognition site (by expanding the step rise distance of the local base pair to Z-form) and a local A-form conformation between the two central C:G base pairs of the recognition site (by binding of the N-terminal helix in the minor groove). In the pre- and post-reactive complexes, two metals (Ca(2+) or Mg(2+)) are found in the active site. The enzyme appears to cleave DNA sequentially, hydrolyzing first one DNA strand, as seen in the post-reactive complex in the crystalline state, and then the other, as supported by the observation that, in solution, a nicked DNA intermediate accumulates before linearization.

Published

2006

48. Measurement of the contributions of 1D and 3D pathways to the translocation of a protein along DNA.

Author

Gowers DM, Wilson GG, and Halford SE

Subjects

Diffusion, Models, Molecular, Motion, Osmolar Concentration, Protein Transport, DNA metabolism, DNA-Binding Proteins metabolism

Abstract

Proteins that act at specific DNA sequences bind DNA randomly and then translocate to the target site. The translocation is often ascribed to the protein sliding along the DNA while maintaining continuous contact with it. Proteins also can move on DNA by multiple cycles of dissociation/reassociation within the same chain. To distinguish these pathways, a strategy was developed to analyze protein motion between DNA sites. The strategy reveals whether the protein maintains contact with the DNA as it transfers from one site to another by sliding or whether it loses contact by a dissociation/reassociation step. In reactions at low salt, the test protein stayed on the DNA as it traveled between sites, but only when the sites were <50 bp apart. Transfers of >30 bp at in vivo salt, and over distances of >50 bp at any salt, always included at least one dissociation step. Hence, for this enzyme, 1D sliding operates only over short distances at low salt, and 3D dissociation/reassociation is its main mode of translocation.

Published

2005

49. Characterization of the Type III restriction endonuclease PstII from Providencia stuartii.

Author

Sears A, Peakman LJ, Wilson GG, and Szczelkun MD

Subjects

Amino Acid Sequence, Bacterial Proteins genetics, Base Sequence, DNA metabolism, Deoxyribonucleases, Type III Site-Specific genetics, Molecular Sequence Data, Nucleoside-Triphosphatase metabolism, Sequence Analysis, Protein, Substrate Specificity, Bacterial Proteins metabolism, Deoxyribonucleases, Type III Site-Specific metabolism, Providencia enzymology

Abstract

A new Type III restriction endonuclease designated PstII has been purified from Providencia stuartii. PstII recognizes the hexanucleotide sequence 5'-CTGATG(N)(25-26/27-28)-3'. Endonuclease activity requires a substrate with two copies of the recognition site in head-to-head repeat and is dependent on a low level of ATP hydrolysis ( approximately 40 ATP/site/min). Cleavage occurs at just one of the two sites and results in a staggered cut 25-26 nt downstream of the top strand sequence to generate a two base 5'-protruding end. Methylation of the site occurs on one strand only at the first adenine of 5'-CATCAG-3'. Therefore, PstII has characteristic Type III restriction enzyme activity as exemplified by EcoPI or EcoP15I. Moreover, sequence asymmetry of the PstII recognition site in the T7 genome acts as an historical imprint of Type III restriction activity in vivo. In contrast to other Type I and III enzymes, PstII has a more relaxed nucleotide specificity and can cut DNA with GTP and CTP (but not UTP). We also demonstrate that PstII and EcoP15I cannot interact and cleave a DNA substrate suggesting that Type III enzymes must make specific protein-protein contacts to activate endonuclease activity.

Published

2005

50. Site-specific DNA-nicking mutants of the heterodimeric restriction endonuclease R.BbvCI.

Author

Heiter DF, Lunnen KD, and Wilson GG

Subjects

Amino Acid Sequence, Bacterial Proteins genetics, Catalytic Domain, Cations metabolism, DNA genetics, Deoxyribonucleases, Type II Site-Specific genetics, Molecular Sequence Data, Mutagenesis, Site-Directed, Protein Subunits genetics, Protein Subunits metabolism, Sequence Alignment, Sequence Analysis, DNA, Substrate Specificity, Bacterial Proteins metabolism, Base Sequence, DNA metabolism, Deoxyribonucleases, Type II Site-Specific metabolism

Abstract

The restriction enzyme R.BbvCI cleaves duplex DNA within a seven base-pair asymmetric recognition sequence, thus: CCTCAGC/GCTGAGG-->CC--TCAGC/GC--TGAGG. We show that R.BbvCI comprises two different subunits, R(1) and R(2); that each subunit contains a catalytic site for DNA strand hydrolysis; and that these sites act independently and strand-specifically. In turn, each catalytic site was inactivated by mutagenesis to form dimeric enzymes in which only one site remained functional. The altered enzymes hydrolyzed just one strand of the recognition sequence, nicking the DNA rather than cleaving it. Enzymes in which the catalytic site in the R(1) subunit remained functional nicked the bottom strand of the sequence, producing CCTCAGC/GC--TGAGG, while those in which the catalytic site in the R(2) subunit remained functional nicked the top strand, producing CC--TCAGC/GCTGAGG. These DNA-nicking enzymes could prove useful for investigation of DNA repair, recombination, and replication, and for laboratory procedures that initiate from nicks, such as DNA degradation, synthesis, and amplification.

Published

2005