Kirkwood, T.B.L
Kirkwood, Thomas B.L.
Tom Kirkwood British biologist
Kirkwood, T. B. L., 1951-
Kirkwood, Tom 1951-
Kirkwood, T. B. L. (1952- )
Kirkwood, T.B.L. (Tom), gerontoloog
VIAF ID: 165178128 (Personal)
Permalink: http://viaf.org/viaf/165178128
Preferred Forms
- 200 _ | ‡a Kirkwood ‡b Thomas B. L.
- 100 1 _ ‡a Kirkwood, T. B. L
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- 100 1 0 ‡a Kirkwood, T. B. L.
- 100 1 _ ‡a Kirkwood, T. B. L.
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- 100 1 _ ‡a Kirkwood, Thomas B. L.
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- 100 1 _ ‡a Kirkwood, Thomas B.L.
- 100 1 _ ‡a Kirkwood, Tom ‡d 1951-
- 100 0 _ ‡a Tom Kirkwood ‡c British biologist
4xx's: Alternate Name Forms (29)
Works
Title | Sources |
---|---|
Accuracy in molecular processes : its control and relevance to living systems | |
Biological mechanisms of ageing | |
The Cambridge handbook of age and ageing | |
Chance, development, and aging, 1999: | |
Czas naszego życia : co wiemy o starzeniu się człowieka | |
Differences in the accumulation of mitochondrial defects with age in mice and humans | |
Dlaczego kobiety żyją dłużej | |
Dlaczego nie możemy żyć wiecznie? | |
The end of age | |
The enduring effect of education-socioeconomic differences in disability trajectories from age 85 years in the Newcastle 85+ Study. | |
Explaining sex differences in lifespan in terms of optimal energy allocation in the baboon | |
Food restriction, evolution and ageing | |
The free-radical theory of ageing--older, wiser and still alive: modelling positional effects of the primary targets of ROS reveals new support | |
Genes that shape the course of ageing | |
Gerontology: Healthy old age. | |
Human longevity at the cost of reproductive success | |
Initial level and rate of change in grip strength predict all-cause mortality in very old adults | |
Life-history evolution and the polyphenic regulation of somatic maintenance and survival | |
LINK-AGE: Coordination and consolidation of European biogerontology: en route towards formation of a European college of biogerontology | |
Lokata w banku czasu | |
Longitudinal changes in global and domain specific cognitive function in the very-old: findings from the Newcastle 85+ Study | |
Low tobacco-related cancer incidence in offspring of long-lived siblings: a comparison with Danish national cancer registry data. | |
Macronutrient intake and food sources in the very old: analysis of the Newcastle 85+ Study | |
A mathematical model of aging-related and cortisol induced hippocampal dysfunction | |
Medical challenges of improving the quality of a longer life | |
A meta-analysis of genome-wide association studies identifies multiple longevity genes | |
Metabolic evolution suggests an explanation for the weakness of antioxidant defences in beta-cells | |
Mitochondria and ageing: winning and losing in the numbers game. | |
Mitochondrial dysfunction accounts for the stochastic heterogeneity in telomere-dependent senescence | |
Modelling cellular senescence as a result of telomere state. | |
Modelling telomere shortening and the role of oxidative stress. | |
Modelling the actions of chaperones and their role in ageing. | |
Modelling the disposable soma theory of ageing. | |
A modified and automated version of the 'Fluorimetric Detection of Alkaline DNA Unwinding' method to quantify formation and repair of DNA strand breaks | |
The most pressing problem of our age. | |
The National Service Framework--suggestions about priorities for policy development welcome. | |
New model of health promotion and disease prevention for the 21st century | |
New science for an old problem | |
The old worm turns more slowly | |
On the programmed/non-programmed nature of ageing within the life history | |
p53 and ageing: too much of a good thing? | |
The personal and health service impact of falls in 85 year olds: cross-sectional findings from the Newcastle 85+ cohort study | |
Pervasive gene expression responses to a fluctuating diet in Drosophila melanogaster | |
The place of genetics in ageing research. | |
Poly(ADP-ribose) polymerase-1 is a survival factor for radiation-exposed intestinal epithelial stem cells in vivo | |
Predicting Risk of Cognitive Decline in Very Old Adults Using Three Models: The Framingham Stroke Risk Profile; the Cardiovascular Risk Factors, Aging, and Dementia Model; and Oxi-Inflammatory Biomarkers | |
The predictive adaptive response: modeling the life-history evolution of the butterfly Bicyclus anynana in seasonal environments | |
Reactive oxygen species production and mitochondrial dysfunction in white blood cells are not valid biomarkers of ageing in the very old | |
Resolving the Enigma of the Clonal Expansion of mtDNA Deletions. | |
The road to rack and ruin: selecting deleterious mitochondrial DNA variants | |
Seimei no mochijikan wa kimatteirunoka : Tsukaisute no karada rōka riron ga hiraku kibō no chihei | |
Selection on alleles affecting human longevity and late-life disease: the example of apolipoprotein E. | |
Serum osmolarity and haematocrit do not modify the association between the impedance index (Ht(2)/Z) and total body water in the very old: the Newcastle 85+ study. | |
Sex and longevity : sexuality, gender, reproduction, parenthood | |
Skromni nosiciele genów | |
Somatic mutations and ageing in silico | |
Speed-bumps ahead for the genetics of later-life diseases | |
Systems biology of ageing and longevity | |
Tales of old | |
Telomere-driven replicative senescence is a stress response | |
Telomere length and anaemia in old age: results from the Newcastle 85-plus Study and the Leiden 85-plus Study. | |
Testing evolutionary theories of menopause | |
Time of our lives : the science of human aging | |
Time of our lives. What controls the length of life? | |
Tools for the SBML Community. | |
Towards an e-biology of ageing: integrating theory and data | |
Trade-off mediated effects on the genetics of human survival caused by increasingly benign living conditions | |
Transcription could be the key to the selection advantage of mitochondrial deletion mutants in aging | |
Understanding the physiology of the ageing individual: computational modelling of changes in metabolism and endurance. | |
Untangling functional declines in the locomotion of aging worms | |
Utility of NT-proBNP as a rule-out test for left ventricular dysfunction in very old people with limiting dyspnoea: the Newcastle 85+ Study. | |
Vitamin D Status, Muscle Strength and Physical Performance Decline in Very Old Adults: A Prospective Study | |
Wellbeing in later life | |
What accounts for the wide variation in life span of genetically identical organisms reared in a constant environment? | |
What explains variations in the clinical use of mild cognitive impairment (MCI) as a diagnostic category? | |
A whole-body mathematical model of cholesterol metabolism and its age-associated dysregulation | |
Why and how are we living longer? | |
Why can't we live forever? | |
Why women live longer. Stress alone does not explain the longevity gap | |
Workshop on thromboplastin calibration : July 1, 1983 | |
Zeit unseres Lebens warum Altern biologisch unnötig ist | |
生命の持ち時間は決まっているのか : 「使い捨ての体」老化理論が開く希望の地平 |