Peter A Lind
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Explore the profile of Peter A Lind including associated specialties, affiliations and a list of published articles.
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16
Citations
463
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Recent Articles
1.
Farr A, Vasileiou C, Lind P, Rainey P
PLoS Genet
. 2025 Jan;
21(1):e1011572.
PMID: 39888938
Mutation rate varies within and between genomes. Within genomes, tracts of nucleotides, including short sequence repeats and palindromes, can cause localised elevation of mutation rate. Additional mechanisms remain poorly understood....
2.
Pentz J, Biswas A, Alsaed B, Lind P
Proc Biol Sci
. 2024 Dec;
291(2036):20242312.
PMID: 39657800
Improving evolutionary forecasting requires progressing from studying repeated evolution of a single genotype under identical conditions to formulating broad principles. These principles should enable predictions of how similar species will...
3.
Chavhan Y, Dey S, Lind P
Nat Commun
. 2023 Jun;
14(1):3555.
PMID: 37322016
The evolutionary transition from unicellularity to multicellularity was a key innovation in the history of life. Experimental evolution is an important tool to study the formation of undifferentiated cellular clusters,...
4.
Sun T, Lind P
Microbiology (Reading)
. 2023 May;
169(5).
PMID: 37134005
Natural selection is commonly assumed to act on extensive standing genetic variation. Yet, accumulating evidence highlights the role of mutational processes creating this genetic variation: to become evolutionarily successful, adaptive...
5.
Wortel M, Agashe D, Bailey S, Bank C, Bisschop K, Blankers T, et al.
Evol Appl
. 2023 Jan;
16(1):3-21.
PMID: 36699126
Evolution has traditionally been a historical and descriptive science, and predicting future evolutionary processes has long been considered impossible. However, evolutionary predictions are increasingly being developed and used in medicine,...
6.
Pentz J, Lind P
PLoS Genet
. 2021 Aug;
17(8):e1009722.
PMID: 34351900
Experimental evolution with microbes is often highly repeatable under identical conditions, suggesting the possibility to predict short-term evolution. However, it is not clear to what degree evolutionary forecasts can be...
7.
Libby E, Lind P
Bio Protoc
. 2021 Mar;
9(20):e3407.
PMID: 33654908
Understanding the translation of genetic variation to phenotypic variation is a fundamental problem in genetics and evolutionary biology. The introduction of new genetic variation through mutation can lead to new...
8.
Lind P, Libby E, Herzog J, Rainey P
Elife
. 2019 Jan;
8.
PMID: 30616716
Predicting evolutionary change poses numerous challenges. Here we take advantage of the model bacterium in which the genotype-to-phenotype map determining evolution of the adaptive 'wrinkly spreader' (WS) type is known....
9.
Rainey P, Remigi P, Farr A, Lind P
Curr Opin Genet Dev
. 2017 Oct;
47:102-109.
PMID: 29059583
Over the last two decades interest in direct realisation of evolutionary process and the possibilities presented by real time evolution experiments with microbes have escalated. Long-term selection experiments with bacteria...
10.
Lind P, Arvidsson L, Berg O, Andersson D
Mol Biol Evol
. 2016 Dec;
34(2):408-418.
PMID: 28025272
Random mutations in genes from disparate protein classes may have different distributions of fitness effects (DFEs) depending on different structural, functional, and evolutionary constraints. We measured the fitness effects of...