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The wild mammalian microbiome

野生哺乳动物微生物组

基本信息

批准号：
NE/L011867/3
负责人：
Sarah Knowles
金额：
$ 19.52万
依托单位：
University of Oxford
依托单位国家：
英国
项目类别：
Fellowship
财政年份：
2019
资助国家：
英国
起止时间：
2019 至无数据
项目状态：
已结题

来源：
https://gtr.ukri.org/projects?ref=NE%2FL011867%2F3
关键词：
wild mammalian microbiome

项目摘要

The vertebrate gut teems with a vast, diverse community of bacteria that outnumber the cells of their host by at least an order of magnitude, the so-called gut microbiota. Recent advances in molecular biology have revolutionised research into these bacterial communities, and demonstrated their pervasive effects on host biology, health and disease. At the same time, their tremendous variability has come to light - they vary enormously across species, among individuals, and within individuals over time. Such variation demands an explanation, yet our current understanding of the ecological and evolutionary processes responsible remains limited. A key obstacle in this respect is that so far, microbiota research has focused heavily on just two model organisms - humans and laboratory mice, leaving a gap in knowledge about what shapes gut microbial communities in natural vertebrate populations. I outline a research programme that addresses this need, by developing wild small mammals as a novel system for microbiota research, and using them to address several key questions about which we currently know rather little: (1) Why do individuals within a single population show distinct gut microbial profiles, and what processes drive changes in these communities over time within individuals? (2) How exactly are gut microbes and other gut-dwelling organisms transmitted among hosts within a population - do their social interactions or shared use of space play a significant role in this process? (3) What ecological and evolutionary processes underlie variation across species in their gut microbiota?To address the first two questions, I will use a common British rodent - the wood mouse - as a model study system. Wood mice are ideal for this purpose: in the wild, a large number of individuals can be uniquely marked and monitored throughout their lives in a relatively small area, with repeated sampling of their gut microbiota and fine-scale characterisation of their local habitat. Also, manipulative experiments both in the wild and in captivity are possible with this species. To address the first question, I will use a combination of detailed field observations and controlled experiments to build a comprehensive picture of the processes shaping within-population variation in gut microbial communities. Observational data on key hypothesized factors including genetic relatedness, diet, habitat, gut parasites, age and reproductive status will allow me to estimate their relative contribution to microbiota variation within and among individuals. I will also use a large-scale drug treatment experiment in wild mice to directly test how the presence of another key group of gut inhabitants - parasitic helminths, affects the microbiota. Finally, I will perform a "diet shift" experiment in captive wood mice, to test how changes in natural food groups shape the gut microbiota. To address the second question, I will use a novel 'social network' based approach in the same wild wood mouse population used above, to examine how animal social contacts and space use drive the transmission of gut microbes and gut parasites. Finally, to answer the third question, I will perform a multi-species study using wild small mammals (mice, voles and shrews) that co-occur across several different habitat types in Europe. This study will test for the first time whether a host's evolutionary heritage or their current environmental conditions (habitat and diet), dominate in shaping their microbiota. This research will provide fundamental insight into the ecological and evolutionary processes affecting the mammalian gut microbiota, and thereby advance our knowledge about how and why these communities, which are so critical to host health, vary in nature. It will also fill an important gap in knowledge about how gut-dwelling organisms are transmitted among animals, with relevance to the control of infectious disease.

脊椎动物的肠道充满了大量的、多样的细菌群落，它们的数量至少超过宿主细胞的数量级，即所谓的肠道微生物群。分子生物学的最新进展彻底改变了对这些细菌群落的研究，并证明了它们对宿主生物学、健康和疾病的普遍影响。与此同时，它们的巨大变异性也逐渐显露出来--它们在物种之间、个体之间以及个体内部随着时间的推移都有着巨大的差异。这种变化需要一个解释，但我们目前对生态和进化过程的理解仍然有限。这方面的一个关键障碍是，到目前为止，微生物群研究主要集中在两种模式生物上-人类和实验室小鼠，在自然脊椎动物种群中形成肠道微生物群落的知识方面存在空白。我概述了一个研究计划，以满足这一需求，通过开发野生小型哺乳动物作为一种新的系统微生物群研究，并使用它们来解决几个关键问题，我们目前知道的很少：（1）为什么在一个单一的人口中的个人显示不同的肠道微生物概况，以及什么过程驱动这些社区随着时间的推移在个人？(2)肠道微生物和其他肠道生物在种群内的宿主之间究竟是如何传播的--它们的社会互动或共同使用空间在这一过程中发挥了重要作用吗？(3)什么样的生态和进化过程是肠道微生物群中物种间差异的基础？为了解决前两个问题，我将使用一种常见的英国啮齿动物--木鼠--作为模型研究系统。木鼠是实现这一目的的理想选择：在野外，大量个体可以在相对较小的区域内进行独特的标记和终生监测，并对其肠道微生物群进行重复采样，并对其当地栖息地进行精细表征。此外，在野生和圈养的操纵实验都是可能的与这个物种。为了解决第一个问题，我将使用详细的实地观察和对照实验相结合，以建立一个全面的过程中塑造肠道微生物群落的种群内变异的图片。关于关键假设因素的观察数据，包括遗传相关性，饮食，栖息地，肠道寄生虫，年龄和生殖状态，将使我能够估计它们对个体内和个体间微生物群变化的相对贡献。我还将使用野生小鼠的大规模药物治疗实验，直接测试另一个关键肠道居民群体-寄生蠕虫的存在如何影响微生物群。最后，我将在圈养的小白鼠中进行一个“饮食转变”实验，以测试天然食物组的变化如何塑造肠道微生物群。为了解决第二个问题，我将在上面使用的相同野生木鼠种群中使用一种基于“社交网络”的新方法，以研究动物的社交接触和空间使用如何驱动肠道微生物和肠道寄生虫的传播。最后，为了回答第三个问题，我将使用欧洲几种不同栖息地类型的野生小型哺乳动物（小鼠，田鼠和鼩）进行多物种研究。这项研究将首次测试宿主的进化遗产或其当前的环境条件（栖息地和饮食）是否在塑造其微生物群中占主导地位。这项研究将为影响哺乳动物肠道微生物群的生态和进化过程提供基本的见解，从而推进我们对这些对宿主健康至关重要的社区如何以及为什么在性质上有所不同的认识。它还将填补关于肠道生物如何在动物之间传播的知识方面的一个重要空白，这与控制传染病有关。

项目成果

期刊论文数量（10）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

A 16S rRNA Gene and Draft Genome Database for the Murine Oral Bacterial Community.

DOI：
10.1128/msystems.01222-20
发表时间：
2021-02-09
期刊：
mSystems
影响因子：
6.4
作者：
Joseph S;Aduse-Opoku J;Hashim A;Hanski E;Streich R;Knowles SCL;Pedersen AB;Wade WG;Curtis MA
通讯作者：
Curtis MA

The genome sequence of the wood mouse, Apodemus sylvaticus (Linnaeus, 1758)

木鼠Apodemus sylvaticus 的基因组序列（Linnaeus，1758）

DOI：
10.12688/wellcomeopenres.20001.1
发表时间：
2023
期刊：
Wellcome Open Research
影响因子：
0
作者：
Knowles S
通讯作者：
Knowles S

Gut microbiota of the critically endangered Saiga antelope across two wild populations in a year without mass mortality.

DOI：
10.1038/s41598-023-44393-z
发表时间：
2023-10-11
期刊：
SCIENTIFIC REPORTS
影响因子：
4.6
作者：
Hanski, Eveliina;Khanyari, Munib;Li, Jingdi;Bates, Kieran A.;Zuther, Steffen;Maiden, Martin C. J.;Kock, Richard;Knowles, Sarah C. L.
通讯作者：
Knowles, Sarah C. L.

Response to Nguyen et al. 'Laboratory-Inspired Manipulations Hold Value for Wild Microbiome-Behaviour Research'.

对 Nguyen 等人的回应

DOI：
10.1016/j.tree.2021.01.004
发表时间：
2021
期刊：
Trends in ecology & evolution
影响因子：
16.8
作者：
Davidson GL
通讯作者：
Davidson GL

Synchronous Seasonality in the Gut Microbiota of Wild Mouse Populations.

DOI：
10.3389/fmicb.2022.809735
发表时间：
2022
期刊：
FRONTIERS IN MICROBIOLOGY
影响因子：
5.2
作者：
Marsh, Kirsty J.;Raulo, Aura M.;Brouard, Marc;Troitsky, Tanya;English, Holly M.;Allen, Bryony;Raval, Rohan;Venkatesan, Saudamini;Pedersen, Amy B.;Webster, Joanne P.;Knowles, Sarah C. L.
通讯作者：
Knowles, Sarah C. L.

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Sarah Knowles其他文献

Psychological therapy for the prevention of suicide in prison: study protocol for a randomised controlled trial

DOI：
10.1186/s12888-024-06320-y
发表时间：
2024-12-18
期刊：
BMC Psychiatry
影响因子：
3.600
作者：
Daniel Pratt;Tim Kirkpatrick;Yvonne Awenat;Caroline Hendricks;Amanda Perry;Leslie-Anne Carter;Rebecca Crook;Paula Duxbury;Charlotte Lennox;Sarah Knowles;Helen Brooks;Linda Davies;Gemma Shields;David Honeywell;Louis Appleby;Patricia Gooding;Dawn Edge;Richard Emsley;Jenny Shaw;Gillian Haddock
通讯作者：
Gillian Haddock

Algorithmic approach to finding people with multiple sclerosis using routine healthcare data in Wales

使用威尔士常规医疗数据寻找多发性硬化症患者的算法方法

DOI：
发表时间：
2024
期刊：
Journal of Neurology Neurosurgery & Psychiatry
影响因子：
11
作者：
Richard Nicholas;E. Tallantyre;James Witts;R. Marrie;E. Craig;Sarah Knowles;O. Pearson;Katherine Harding;Karim Kreft;J. Hawken;Gillian Ingram;Bethan Morgan;Rod Middleton;Neil P Robertson;Professor Nikos Evangelou;Professor Kellie Allen;Klaus Schmierer Dr;Dr Ian Galea;Professor Matt Craner;Dr Jeremy Chataway;Ms Gavin McDonnell;Dr Annemieke Fox;Dr Heather Wilson;Dr David Rog;Dr Chris Kipps;Dr Andrew Gale;Monica Marta;Dr Sarah Fuller;Dr Judy Archer;Dr Brendan McLean;Agne Straukiene Dr;Joe Guadango;Dr Jo Kitley;Dr Andrew Graham;Dr Carlo Canepa;Helen Ford Professor;Professor H Emsley Alasdair Coles;Professor Jeremy Hobart;Julie Foxton Dr;Dr Dreedharan Harikrishnan;Dr Laura Petzold;Professor Tim Harrower
通讯作者：
Professor Tim Harrower

Narratives that nudge: Raising theoretical questions about reflective practice

推动叙事：提出有关反思实践的理论问题

DOI：
发表时间：
2006
期刊：
影响因子：
0
作者：
Dean Pierides;N. Lemon;Anthony Weare;Sarah Knowles;James Fiford
通讯作者：
James Fiford

Collaborative care approaches for people with severe mental illness (Protocol)

严重精神疾病患者的协作护理方法（方案）

DOI：
发表时间：
2012
期刊：
影响因子：
0
作者：
Siobhan M Reilly;C. Planner;Sarah Knowles;L. Gask;Mark Hann;Benjamin G. Druss;Helen Lester
通讯作者：
Helen Lester

Effects of interventions on depression and anxiety in older people with physical health problems in the criminal justice system: a systematic review.

刑事司法系统中对有身体健康问题的老年人抑郁和焦虑的干预措施的影响：系统评价。

DOI：
发表时间：
2023
期刊：
The Lancet Healthy Longevity
影响因子：
0
作者：
A. Perry;David Marshall;Thirimon Moe;Sarah Knowles;R. Churchill;M. Harden;S. Parrott;J. Schofield;K. Williamson;Lisa Ashton
通讯作者：
Lisa Ashton