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4. Distribution and diversity of Phytophthora across Australia

Author

Burgess, T.I., White, D., McDougall, K.M., Garnas, J., Dunstan, W.A., Català, S., Carnegie, A.J., Worboys, S., Cahill, D., Vettraino, A.-M., Stukely, M.J.C., Liew, E.C.Y., Paap, T., Bose, T., Migliorini, D., Williams, B., Brigg, F., Crane, C., Rudman, T., Hardy, G.E.St.J., Burgess, T.I., White, D., McDougall, K.M., Garnas, J., Dunstan, W.A., Català, S., Carnegie, A.J., Worboys, S., Cahill, D., Vettraino, A.-M., Stukely, M.J.C., Liew, E.C.Y., Paap, T., Bose, T., Migliorini, D., Williams, B., Brigg, F., Crane, C., Rudman, T., and Hardy, G.E.St.J.

Abstract

The introduction and subsequent impact of Phytophthora cinnamomi within native vegetation is one of the major conservation issues for biodiversity in Australia. Recently, many new Phytophthora species have been described from Australia's native ecosystems; however, their distribution, origin, and potential impact remain unknown. Historical bias in Phytophthora detection has been towards sites showing symptoms of disease, and traditional isolation methods show variable effectiveness of detecting different Phytophthora species. However, we now have at our disposal new techniques based on the sampling of environmental DNA and metabarcoding through the use of high-throughput sequencing. Here, we report on the diversity and distribution of Phytophthora in Australia using metabarcoding of 640 soil samples and we compare the diversity detected using this technique with that available in curated databases. Phytophthora was detected in 65% of sites, and phylogenetic analysis revealed 68 distinct Phytophthora phylotypes. Of these, 21 were identified as potentially unique taxa and 25 were new detections in natural areas and/or new introductions to Australia. There are 66Phytophthora taxa listed in Australian databases, 43 of which were also detected in this metabarcoding study. This study revealed high Phytophthora richness within native vegetation and the additional records provide a valuable baseline resource for future studies. Many of the Phytophthora species now uncovered in Australia's native ecosystems are newly described and until more is known we need to be cautious with regard to the spread and conservation management of these new species in Australia's unique ecosystems.

Published
2017

5. Fenofibrate intervention and event lowering in diabetes (FIELD) study: baseline characteristics and short-term effects of fenofibrate [ISRCTN64783481]

Author

Scott, R, Best, J, Forder, P, Taskinen, M-R, Simes, J, Barter, P, Keech, A, Colman, P, D'Emden, M, Davis, T, Drury, P, Ehnholm, C, Glasziou, P, Hunt, D, Kesaniemi, YA, Laakso, M, Simes, RJ, Sullivan, D, Whiting, M, Ansquer, J-C, Fraitag, B, Anderson, N, Hankey, G, Lehto, S, Mann, S, Romo, M, Li, LP, Hennekens, C, MacMahon, S, Pocock, S, Tonkin, A, Wilhelmsen, L, Akauola, H, Alford, F, Beinart, I, Bohra, S, Boyages, S, Connor, H, Darnell, D, Davoren, P, Lepre, F, De Looze, F, Duffield, A, Fassett, R, Flack, J, Fulcher, G, Grant, S, Hamwood, S, Harmelin, D, Jackson, R, Jeffries, W, Kamp, M, Kritharides, L, Mahar, L, McCann, V, McIntyre, D, Moses, R, Newnham, H, Nicholson, G, O'Brien, R, Park, K, Petrovsky, N, Phillips, P, Pinn, G, Simmons, D, Stanton, K, Stuckey, B, Sullivan, DR, Suranyi, M, Suthers, M, Tan, Y, Templer, M, Topliss, D, Waites, JH, Watts, G, Welborn, T, Wyndham, R, Haapamaki, H, Kesaniemi, A, Lahtela, J, Levanen, H, Saltevo, J, Sodervik, H, Taskinen, M, Vanhala, M, Baker, J, Burton, A, Dixon, P, Doran, J, Dunn, P, Graham, N, Hamer, A, Hedley, J, Lloyd, J, Manning, P, McPherson, I, Morris, S, Renner, C, Smith, R, Wackrow, M, Young, S, Alard, F, Alcoe, J, Allan, C, Amerena, J, Anderson, R, Arnold, N, Arsov, T, Ashby, D, Atkinson, C, Badhni, L, Balme, M, Barton, D, Batrouney, B, Beare, C, Beattie, T, Beggs, J, Bendall, C, Benz, A, Bond, A, Bradfield, R, Bradshaw, J, Brearley, S, Bruce, D, Burgess, J, Butler, J, Callary, M, Campbell, J, Chambers, K, Chow, J, Chow, S, Ciszek, K, Clifton, P, Clifton-Bligh, P, Clowes, V, Coates, P, Cocks, C, Cole, S, Colquhoun, D, Correcha, M, Costa, B, Coverdale, S, Croft, M, Crowe, J, Dal Sasso, S, Davis, W, Dunn, J, Edwards, S, Elder, R, El-Kaissi, S, Emery, L, England, M, Farouque, O, Fernandez, M, Fitzpatrick, B, Francis, N, Freeman, P, Fuller, A, Gale, D, Gaylard, V, Gillzan, C, Glatthaar, C, Goddard, J, Grange, V, Greenaway, T, Griffin, J, Grogan, A, Guha, S, Gustafson, J, Hamblin, PS, Hannay, T, Hardie, C, Harper, A, Hartl, G, Harvey, A, Havlin, S, Haworth, K, Hay, P, Hay, L, Heenan, B, Hesketh, R, Heyworth, A, Hines, M, Hockings, G, Hodge, A, Hoffman, L, Hoskin, L, Howells, M, Hunt, A, Inder, W, Jackson, D, Jovanovska, A, Kearins, K, Kee, P, Keen, J, Kilpatrick, D, Kindellan, J, Kingston-Ray, M, Kotowicz, M, Lassig, A, Layton, M, Lean, S, Lim, E, Long, F, Lucas, L, Ludeman, D, Ludeman-Robertson, C, Lyall, M, Lynch, L, Maddison, C, Malkus, B, Marangou, A, Margrie, F, Matthiesson, K, Matthiesson, J, Maxwell, S, McCarthy, K, McElduff, A, Mckee, H, McKenzie, J, McLachan, K, McNair, P, Meischke, M, Miller, AMC, Morrison, B, Morton, A, Mossman, W, Mowat, A, Muecke, J, Murie, P, Murray, S, Nadorp, P, Nair, S, Nairn, J, Nankervis, A, Narayan, K, Nattrass, N, Ngui, J, Nicholls, S, Nicholls, V, Nye, JA, Nye, E, O'Neal, D, O'Neill, M, O'Rourke, S, Pearse, J, Pearson, C, Phillips, J, Pittis, L, Playford, D, Porter, L, Portley, R, Powell, M, Preston, C, Pringle, S, Quinn, WA, Raffaele, J, Ramnath, G, Ramsden, J, Richtsteiger, D, Roffe, S, Rosen, S, Ross, G, Ross, Z, Rowe, J, Rumble, D, Ryan, S, Sansom, J, Seymour, C, Shanahan, E, Shelly, S, Shepherd, J, Sherman, G, Siddall, R, Silva, D, Simmons, S, Simpson, R, Sinha, A, Slobodniuk, R, Smith, M, Smith, P, Smith, S, Smith-Orr, V, Snow, J, Socha, L, Stack, T, Steed, K, Steele, K, Stephensen, J, Stevens, P, Stewart, G, Stewart, R, Strakosch, C, Sullivan, M, Sunder, S, Sunderland, J, Tapp, E, Taylor, J, Thorn, D, Tolley, A, Torpy, D, Truran, G, Turner, F, Turner, J, Van de Velde, J, Varley, S, Wallace, J, Walsh, J, Walshe, J, Ward, G, Watson, B, Watson, J, Webb, A, Werner, F, White, E, Whitehouse, A, Whitehouse, N, Wigg, S, Wilkinson, J, Wilmshurst, E, Wilson, D, Wittert, G, Wong, B, Wong, M, Worboys, S, Wright, S, Wu, S, Yarker, J, Yeo, M, Young, K, Youssef, J, Yuen, R, Zeimer, H, Ziffer, RW, Aura, A, Friman, A, Hanninen, J, Henell, J, Hyvarinen, N, Ikonen, M, Itkonen, A, Jappinen, J, Jarva, A, Jerkkola, T, Jokinen, V, Juutilainen, J, Kahkonen, H, Kangas, T, Karttunen, M, Kauranen, P, Kortelainen, S, Koukkunen, H, Kumpulainen, L, Laitinen, T, Laitinen, M, Lehto, R, Leinonen, E, Lindstron-Karjalainen, M, Lumiaho, A, Makela, J, Makinen, K, Mannermaa, L, Mard, T, Miettinen, J, Naatti, V, Paavola, S, Parssinen, N, Ripatti, J, Ruotsalainen, S, Salo, A, Siiskonen, M, Soppela, A, Starck, J, Suonranta, I, Ukkola, L, Valli, K, Virolainen, J, Allan, P, Arnold, W, Bagg, W, Balfour, K, Ball, T, Ballantine, B, Ballantyne, C, Barker, C, Bartley, F, Berry, E, Braatvedt, G, Campbell, A, Clarke, T, Clarke, R, Claydon, A, Clayton, S, Cresswell, P, Cutfield, R, Daffurn, J, Delahunt, J, Dissnayake, A, Eagleton, C, Ferguson, C, Florkowski, C, Fry, D, Giles, P, Gluyas, M, Grant, C, Guile, P, Guolo, M, Hale, P, Hammond, M, Healy, P, Hills, M, Hinge, J, Holland, J, Hyne, B, Ireland, A, Johnstone, A, Jones, S, Kerr, G, Kerr, K, Khant, M, Krebs, J, Law, L, Lydon, B, MacAuley, K, McEwan, R, McGregor, P, McLaren, B, McLeod, L, Medforth, J, Miskimmin, R, Moffat, J, Pickup, M, Prentice, C, Rahman, M, Reda, E, Ross, C, Ryalls, A, Schmid, D, Shergill, N, Snaddon, A, Snell, H, Stevens, L, Waterman, A, Watts, V, Jayne, K, Keirnan, E, Newman, P, Ritchie, G, Rosenfeld, A, Beller, E, Gebski, V, Pillai, A, Anderson, C, Blakesmith, S, Chan, S-Y, Czyniewski, S, Dobbie, A, Doshi, S, Dupuy, A, Eckermann, S, Edwards, M, Fields, N, Flood, K, Ford, S, French, C, Gillies, S, Greig, C, Groshens, M, Gu, J, Guo, Y, Hague, W, Healy, S, Hones, L, Hossain, Z, Howlett, M, Lee, J, Li, L-P, Matthews, T, Micallef, J, Martin, A, Minns, I, Nguyen, A, Papuni, F, Patel, A, Pike, R, Pena, M, Pinto, K, Schipp, D, Schroeder, J, Sim, B, Sodhi, C, Sourjina, T, Sutton, C, Taylor, R, Vlagsma, P, Walder, S, Walker, R, Wong, W, Zhang, J, Zhong, B, Kokkonen, A, Narva, P, Niemi, E-L, Syrjanen, A-M, Lintott, C, Tirimacco, R, Kajosaari, M, Raman, L, Sundvall, J, Tukianen, M, Crimet, D, Sirugue, I, and Aubonnet, P

Subjects
Male, Cardiac & Cardiovascular Systems, Endocrinology, Diabetes and Metabolism, Atorvastatin, Coronary Disease, Fibrate, SECONDARY PREVENTION, ATORVASTATIN, law.invention, Placebos, Randomized controlled trial, Fenofibrate, law, Myocardial infarction, 1102 Cardiorespiratory Medicine and Haematology, Finland, Original Investigation, Hypolipidemic Agents, PLASMA, CHOLESTEROL, Middle Aged, INSULIN, CARDIOVASCULAR-DISEASE, Cardiovascular Diseases, Female, Cardiology and Cardiovascular Medicine, Life Sciences & Biomedicine, medicine.drug, medicine.medical_specialty, medicine.drug_class, Diabetes Complications, Endocrinology & Metabolism, Double-Blind Method, Internal medicine, Diabetes mellitus, Intervention (counseling), medicine, Humans, CORONARY-HEART-DISEASE, Obesity, Triglycerides, Aged, Apolipoproteins B, Bezafibrate, Science & Technology, business.industry, Cholesterol, HDL, Australia, Cholesterol, LDL, medicine.disease, BEZAFIBRATE, FIELD Study Investigators, MYOCARDIAL-INFARCTION, Diabetes Mellitus, Type 2, Cardiovascular System & Hematology, Cardiovascular System & Cardiology, business, HIGH-DENSITY-LIPOPROTEIN, New Zealand
Abstract

Objective The Fenofibrate Intervention and Event Lowering in Diabetes (FIELD) Study is examining the effects of long-term fibrate therapy on coronary heart disease (CHD) event rates in patients with diabetes mellitus. This article describes the trial's run-in phase and patients' baseline characteristics. Research design and methods FIELD is a double-blind, placebo-controlled trial in 63 centres in 3 countries evaluating the effects of fenofibrate versus placebo on CHD morbidity and mortality in 9795 patients with type 2 diabetes mellitus. Patients were to have no indication for lipid-lowering therapy on randomization, but could start these or other drugs at any time after randomization. Follow-up in the study was to be for a median duration of not less than 5 years and until 500 major coronary events (fatal coronary heart disease plus nonfatal myocardial infarction) had occurred. Results About 2100 patients (22%) had some manifestation of cardiovascular disease (CVD) at baseline and thus high risk status. Less than 25% of patients without CVD had a (UKPDS determined) calculated 5-year CHD risk of 30), most were men, two-thirds were aged over 60 years, and substantial proportions had NCEP ATP III features of the metabolic syndrome independent of their diabetes, including low HDL (60%), high blood pressure measurement or treatment for hypertension (84%), high waist measurement (68%), and raised triglycerides (52%). After a 6-week run-in period before randomisation with all participants receiving 200 mg comicronized fenofibrate, there were declines in total and LDL cholesterol (10%) and triglycerides (26%) and an increase in HDL cholesterol (6.5%). Conclusion The study will show the effect of PPAR-alpha agonist action on CHD and other vascular outcomes in patients with type 2 diabetes including substantial numbers with low to moderate CVD risk but with the various components of the metabolic syndrome. The main results of the study will be reported in late 2005.

Published
2005

10. Pollination Processes inIdiospermum australiense(Calycanthaceae), an arborescent basal angiosperm of Australia’s Tropical Rain Forests.

Author

Worboys, S. J. and Jackes, B. R.

Subjects
POLLINATION, PLANT fertilization, FLOWERS, CALYCANTHACEAE, MAGNOLIALES
Abstract

Idiospermum australiense(Diels) S.T. Blake, a rainforest canopy tree restricted to a few small populations in northeast Australia, is the only southern hemisphere representative of the Calycanthaceae. Pollination processes inIdiospermumwere investigated. Flowers are protogynous, with some populations of the species being andromonoecious, whilst others are hermaphrodite. Over their 10 - 16 day floral lifespan, movements of floral organs enforced spatial and temporal separation of male and female floral function. Changes in colour and intensity of fragrance may also influence their attractiveness to potential pollinators. Pollen is present in large quantities, and appears to act as a reward for floral visitors. Insect trapping was carried out both within flowers, and immediately adjacent to inflorescences. A wide variety of arthropods was trapped, with thrips being the most abundant. Other arthropods were trapped, including fourteen species of beetle. For arthropods other than thrips, the mean numbers of adults trapped on flowers remained more or less constant throughout the floral lifetime. However, there was a significant interaction between floral age and the number of pre-adult arthropods present - as the flower aged, the mean number of larvae and eggs per flower increased. The flowers appear to act as sheltered mating and brooding sites for small insects. [ABSTRACT FROM AUTHOR]

Published
2005
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11. Long-term control of <em>Phytophthora</em> diseases of cocoa using trunk-injected phosphonate.

Author

Guest, D. I., Anderson, R. D., Foard, H. J., Phillips, D., Worboys, S., and Middleton, R. M.

Subjects
PHYTOPHTHORA, PLANT diseases, COCOA, PHOSPHONATES, EXPERIMENTAL agriculture
Abstract

Pod rot and stem canker, caused by Phytophthora palmivora, are serious diseases of cocoa causing pod losses of up to 63% and the death of up to 10% of trees annually on Kar Kar island. Papua New Guinea. Trials were conducted on commercial cocoa plantations to compare the effectiveness of potassium phosphonate when applied as trunk injections, trunk paints and foliar sprays, and trunk injections of Aliette CA and of Ridomil 250EC, with conventional Ridomil-based spray programmes. The results show that, in trials conducted over 5 years, injections of potassium phosphonate give the highest healthy pod yield and lowest incidence of Phytophthora pod rot and stem canker when compared with Ridomil-based spray programmes or trunk injections of Ridomil 2SOEC or Aliette CA. The increase in ripe healthy pod yields was due to both pod rot and stem canker control. The level of control is independent of the seasonal timing of injection. Optimum control was achieved with annual injections of 15 g a.i. per tree, and varied with tree size and disease severity. Injections of phosphonate will, under the range of conditions found in our trials, provide the most cost-effective control of Phytophthora diseases. [ABSTRACT FROM AUTHOR]

Published
1994
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12. Phylogenomics and the rise of the angiosperms.

Author

Zuntini AR, Carruthers T, Maurin O, Bailey PC, Leempoel K, Brewer GE, Epitawalage N, Françoso E, Gallego-Paramo B, McGinnie C, Negrão R, Roy SR, Simpson L, Toledo Romero E, Barber VMA, Botigué L, Clarkson JJ, Cowan RS, Dodsworth S, Johnson MG, Kim JT, Pokorny L, Wickett NJ, Antar GM, DeBolt L, Gutierrez K, Hendriks KP, Hoewener A, Hu AQ, Joyce EM, Kikuchi IABS, Larridon I, Larson DA, de Lírio EJ, Liu JX, Malakasi P, Przelomska NAS, Shah T, Viruel J, Allnutt TR, Ameka GK, Andrew RL, Appelhans MS, Arista M, Ariza MJ, Arroyo J, Arthan W, Bachelier JB, Bailey CD, Barnes HF, Barrett MD, Barrett RL, Bayer RJ, Bayly MJ, Biffin E, Biggs N, Birch JL, Bogarín D, Borosova R, Bowles AMC, Boyce PC, Bramley GLC, Briggs M, Broadhurst L, Brown GK, Bruhl JJ, Bruneau A, Buerki S, Burns E, Byrne M, Cable S, Calladine A, Callmander MW, Cano Á, Cantrill DJ, Cardinal-McTeague WM, Carlsen MM, Carruthers AJA, de Castro Mateo A, Chase MW, Chatrou LW, Cheek M, Chen S, Christenhusz MJM, Christin PA, Clements MA, Coffey SC, Conran JG, Cornejo X, Couvreur TLP, Cowie ID, Csiba L, Darbyshire I, Davidse G, Davies NMJ, Davis AP, van Dijk KJ, Downie SR, Duretto MF, Duvall MR, Edwards SL, Eggli U, Erkens RHJ, Escudero M, de la Estrella M, Fabriani F, Fay MF, Ferreira PL, Ficinski SZ, Fowler RM, Frisby S, Fu L, Fulcher T, Galbany-Casals M, Gardner EM, German DA, Giaretta A, Gibernau M, Gillespie LJ, González CC, Goyder DJ, Graham SW, Grall A, Green L, Gunn BF, Gutiérrez DG, Hackel J, Haevermans T, Haigh A, Hall JC, Hall T, Harrison MJ, Hatt SA, Hidalgo O, Hodkinson TR, Holmes GD, Hopkins HCF, Jackson CJ, James SA, Jobson RW, Kadereit G, Kahandawala IM, Kainulainen K, Kato M, Kellogg EA, King GJ, Klejevskaja B, Klitgaard BB, Klopper RR, Knapp S, Koch MA, Leebens-Mack JH, Lens F, Leon CJ, Léveillé-Bourret É, Lewis GP, Li DZ, Li L, Liede-Schumann S, Livshultz T, Lorence D, Lu M, Lu-Irving P, Luber J, Lucas EJ, Luján M, Lum M, Macfarlane TD, Magdalena C, Mansano VF, Masters LE, Mayo SJ, McColl K, McDonnell AJ, McDougall AE, McLay TGB, McPherson H, Meneses RI, Merckx VSFT, Michelangeli FA, Mitchell JD, Monro AK, Moore MJ, Mueller TL, Mummenhoff K, Munzinger J, Muriel P, Murphy DJ, Nargar K, Nauheimer L, Nge FJ, Nyffeler R, Orejuela A, Ortiz EM, Palazzesi L, Peixoto AL, Pell SK, Pellicer J, Penneys DS, Perez-Escobar OA, Persson C, Pignal M, Pillon Y, Pirani JR, Plunkett GM, Powell RF, Prance GT, Puglisi C, Qin M, Rabeler RK, Rees PEJ, Renner M, Roalson EH, Rodda M, Rogers ZS, Rokni S, Rutishauser R, de Salas MF, Schaefer H, Schley RJ, Schmidt-Lebuhn A, Shapcott A, Al-Shehbaz I, Shepherd KA, Simmons MP, Simões AO, Simões ARG, Siros M, Smidt EC, Smith JF, Snow N, Soltis DE, Soltis PS, Soreng RJ, Sothers CA, Starr JR, Stevens PF, Straub SCK, Struwe L, Taylor JM, Telford IRH, Thornhill AH, Tooth I, Trias-Blasi A, Udovicic F, Utteridge TMA, Del Valle JC, Verboom GA, Vonow HP, Vorontsova MS, de Vos JM, Al-Wattar N, Waycott M, Welker CAD, White AJ, Wieringa JJ, Williamson LT, Wilson TC, Wong SY, Woods LA, Woods R, Worboys S, Xanthos M, Yang Y, Zhang YX, Zhou MY, Zmarzty S, Zuloaga FO, Antonelli A, Bellot S, Crayn DM, Grace OM, Kersey PJ, Leitch IJ, Sauquet H, Smith SA, Eiserhardt WL, Forest F, and Baker WJ

Subjects
Fossils, Nuclear Proteins genetics, Genes, Plant genetics, Genomics, Magnoliopsida genetics, Magnoliopsida classification, Phylogeny, Evolution, Molecular
Abstract

Angiosperms are the cornerstone of most terrestrial ecosystems and human livelihoods 1,2 . A robust understanding of angiosperm evolution is required to explain their rise to ecological dominance. So far, the angiosperm tree of life has been determined primarily by means of analyses of the plastid genome 3,4 . Many studies have drawn on this foundational work, such as classification and first insights into angiosperm diversification since their Mesozoic origins 5-7 . However, the limited and biased sampling of both taxa and genomes undermines confidence in the tree and its implications. Here, we build the tree of life for almost 8,000 (about 60%) angiosperm genera using a standardized set of 353 nuclear genes 8 . This 15-fold increase in genus-level sampling relative to comparable nuclear studies 9 provides a critical test of earlier results and brings notable change to key groups, especially in rosids, while substantiating many previously predicted relationships. Scaling this tree to time using 200 fossils, we discovered that early angiosperm evolution was characterized by high gene tree conflict and explosive diversification, giving rise to more than 80% of extant angiosperm orders. Steady diversification ensued through the remaining Mesozoic Era until rates resurged in the Cenozoic Era, concurrent with decreasing global temperatures and tightly linked with gene tree conflict. Taken together, our extensive sampling combined with advanced phylogenomic methods shows the deep history and full complexity in the evolution of a megadiverse clade., (© 2024. The Author(s).)

Published
2024
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13. Utilisation of primary care electronic patient records for identification and targeted invitation of individuals to a lung cancer screening programme.

Author

Dickson JL, Hall H, Horst C, Tisi S, Verghese P, Worboys S, Perugia A, Rusius J, Mullin AM, Teague J, Farrelly L, Bowyer V, Gyertson K, Bojang F, Levermore C, Anastasiadis T, McCabe J, Devaraj A, Nair A, Navani N, Hackshaw A, Quaife SL, and Janes SM

Subjects
Humans, Electronic Health Records, Tomography, X-Ray Computed, Primary Health Care, Mass Screening, Early Detection of Cancer, Lung Neoplasms diagnosis, Lung Neoplasms epidemiology
Abstract

Lung cancer screening (LCS) eligibility is largely determined by tobacco consumption. Primary care smoking data could guide LCS invitation and eligibility assessment. We present observational data from the SUMMIT Study, where individual self-reported smoking status was concordant with primary care records in 75.3%. However, 10.3% demonstrated inconsistencies between historic and most recent smoking status documentation. Quantified tobacco consumption was frequently missing, precluding direct LCS eligibility assessment. Primary care recorded "ever-smoker" status, encompassing both recent and historic documentation, can be used to target LCS invitation. Identifying those with missing or erroneous "never-smoker" smoking status is crucial for equitable invitation to LCS., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2022
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14. Genomic insights into rapid speciation within the world's largest tree genus Syzygium.

Author

Low YW, Rajaraman S, Tomlin CM, Ahmad JA, Ardi WH, Armstrong K, Athen P, Berhaman A, Bone RE, Cheek M, Cho NRW, Choo LM, Cowie ID, Crayn D, Fleck SJ, Ford AJ, Forster PI, Girmansyah D, Goyder DJ, Gray B, Heatubun CD, Ibrahim A, Ibrahim B, Jayasinghe HD, Kalat MA, Kathriarachchi HS, Kintamani E, Koh SL, Lai JTK, Lee SML, Leong PKF, Lim WH, Lum SKY, Mahyuni R, McDonald WJF, Metali F, Mustaqim WA, Naiki A, Ngo KM, Niissalo M, Ranasinghe S, Repin R, Rustiami H, Simbiak VI, Sukri RS, Sunarti S, Trethowan LA, Trias-Blasi A, Vasconcelos TNC, Wanma JF, Widodo P, Wijesundara DSA, Worboys S, Yap JW, Yong KT, Khew GSW, Salojärvi J, Michael TP, Middleton DJ, Burslem DFRP, Lindqvist C, Lucas EJ, and Albert VA

Subjects
Genetic Speciation, Genomics, Phylogeny, Syzygium genetics, Trees
Abstract

Species radiations, despite immense phenotypic variation, can be difficult to resolve phylogenetically when genetic change poorly matches the rapidity of diversification. Genomic potential furnished by palaeopolyploidy, and relative roles for adaptation, random drift and hybridisation in the apportionment of genetic variation, remain poorly understood factors. Here, we study these aspects in a model radiation, Syzygium, the most species-rich tree genus worldwide. Genomes of 182 distinct species and 58 unidentified taxa are compared against a chromosome-level reference genome of the sea apple, Syzygium grande. We show that while Syzygium shares an ancient genome doubling event with other Myrtales, little evidence exists for recent polyploidy events. Phylogenomics confirms that Syzygium originated in Australia-New Guinea and diversified in multiple migrations, eastward to the Pacific and westward to India and Africa, in bursts of speciation visible as poorly resolved branches on phylogenies. Furthermore, some sublineages demonstrate genomic clines that recapitulate cladogenetic events, suggesting that stepwise geographic speciation, a neutral process, has been important in Syzygium diversification., (© 2022. The Author(s).)

Published
2022
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15. Matrix metabolism rate differs in functionally distinct tendons.

Author

Birch HL, Worboys S, Eissa S, Jackson B, Strassburg S, and Clegg PD

Subjects
Animals, Collagen chemistry, Cross-Linking Reagents pharmacology, DNA metabolism, Horses, Humans, Models, Biological, RNA, Messenger metabolism, Achilles Tendon pathology, Collagen Type I chemistry, Extracellular Matrix metabolism, Gene Expression Regulation, Enzymologic, Matrix Metalloproteinases metabolism, Tendons pathology
Abstract

Tendon matrix integrity is vital to ensure adequate mechanical properties for efficient function. Although historically tendon was considered to be relatively inert, recent studies have shown that tendon matrix turnover is active. During normal physiological activities some tendons are subjected to stress and strains much closer to their failure properties than others. Tendons with low safety margins are those which function as energy stores such as the equine superficial digital flexor tendon (SDFT) and human Achilles tendon (AT). We postulate therefore that energy storing tendons suffer a higher degree of micro-damage and thus have a higher rate of matrix turnover than positional tendons. The hypothesis was tested using tissue from the equine SDFT and common digital extensor tendon (CDET). Matrix turnover was assessed indirectly by a combination of measurements for matrix age, markers of degradation, potential for degradation and protein expression. Results show that despite higher cellularity, the SDFT has lower relative levels of mRNA for collagen types I and III. Non-collagenous proteins, although expressed at different levels per cell, do not appear to differ between tendon types. Relative levels of mRNA for MMP1, MMP13 and both pro-MMP3 and MMP13 protein activity were significantly higher in the CDET. Correspondingly levels of cross-linked carboxyterminal telopeptide of type I collagen (ICTP) were higher in the CDET and tissue fluorescence lower suggesting more rapid turnover of the collagenous component. Reduced or inhibited collagen turnover in the SDFT may account for the high level of degeneration and subsequent injury compared to the CDET.

Published
2008
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16. Evidence that parenteral testosterone therapy may improve endothelium-dependent and -independent vasodilation in postmenopausal women already receiving estrogen.

Author

Worboys S, Kotsopoulos D, Teede H, McGrath B, and Davis SR

Subjects
Brachial Artery diagnostic imaging, Brachial Artery physiology, Cardiovascular Diseases etiology, Drug Implants, Female, Humans, Middle Aged, Progestins therapeutic use, Reference Values, Risk Factors, Ultrasonography, Doppler, Endothelium, Vascular physiology, Estrogen Replacement Therapy, Gonadal Steroid Hormones pharmacology, Postmenopause physiology, Testosterone pharmacology, Vasodilation physiology
Abstract

The gender difference in cardiovascular disease has been partly attributed to higher androgenic hormone levels. Although testosterone in women may not affect lipids, it remains unknown whether it negates favorable estrogenic effects on endothelial function. We have investigated the effects of testosterone implant therapy on arterial reactivity encompassing endothelial-dependent and -independent vasodilation in women using hormone replacement therapy (HRT). B-mode ultrasound measurements of resting brachial artery diameter, following reactive hyperemia [endothelium-dependent flow- mediated dilation (FMD)] and following glyceryl trinitrate (GTN) (endothelium-independent dilation), were recorded in 33 postmenopausal women stabilized on HRT (>6 months), at baseline, and 6 weeks after a testosterone implant (50 mg), with 15 postmenopausal nonusers of HRT serving as controls. In the brachial artery, baseline resting diameter was similar (0.40 +/- 0.01 vs. 0.41 +/- 0.01 cm, P = 0.5). In the treated group, testosterone levels increased (0.99 +/- 0.08 to 4.99 +/- 0.3 nmol/L, P < 0.001), associated with a mean 42% increase in FMD (6.4% +/- 0.7 to 9.1% +/- 1.1, P = 0.03). The control group did not change (8.1% +/- 1.4 to 5.6% +/- 1.0, P = 0.4). ANOVA of repeated measures (P = 0.04) and mean change (P = 0.02) in FMD both demonstrated significantly greater improvement with testosterone compared with controls. GTN induced vasodilation increased with testosterone treatment (14.9% +/- 0.9 to 17.8% +/- 1.2, P = 0.03). Our preliminary data indicate that parenteral testosterone therapy improves both endothelial-dependent (flow-mediated) and endothelium-independent (GTN-mediated) brachial artery vasodilation in postmenopausal women using long-term estrogen therapy. The mechanisms underlying these potentially beneficial cardiovascular effects require further investigation.

Published
2001
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