Genetic diversity and fine-scale spatial genetic structure of European beech populations along an elevational gradient [0.03%]
基于海拔梯度的欧洲山毛榉种群的遗传多样性及精细空间遗传结构分析
Ourania Grigoriadou Zormpa,Selina Wilhelmi,Boban Vucetic et al.
Ourania Grigoriadou Zormpa et al.
Differences in environmental conditions can shape the level and distribution of intraspecific genetic variation between and within populations. Elevational gradients are characterised by strong variation in environmental conditions on a sho...
Transcriptomic basis of within- and trans-generational predator-induced plasticity in the freshwater snail Physa acuta [0.03%]
拟阿氏螺内源和跨世代转录组响应捕食者的诱导式可塑性研究
Léo Dejeux,Nathanaëlle Saclier,Juliette Tariel-Adam et al.
Léo Dejeux et al.
Inducible defences in response to predation risk are a well-known example of adaptive phenotypic plasticity. Although inducible defences have been studied mainly within a generation (within-generational plasticity), there is now clear evide...
Chaowei Zhang,Kerry Reid,Mikkel Heide Schierup et al.
Chaowei Zhang et al.
As a fundamentally important genetic parameter and evolutionary force, germline mutation rates have many applications in evolutionary biology. However, accurate estimates of de novo mutation (DNM) rates are still relatively scarce, even for...
Genetic diversity and structure lag the effects of contemporary environmental changes in a platypus meta-population [0.03%]
鸭嘴兽元种群的遗传多样性和结构无法跟上环境变化的速度
Collin W Ahrens,Josh Griffiths,Al Danger et al.
Collin W Ahrens et al.
The platypus is an evolutionary unique mammal on the east coast of mainland Australia and throughout Tasmania. The species is dependent on freshwater ecosystems, is declining throughout its range, and is listed as Vulnerable in the state of...
Assessing simulation-based supervised machine learning for demographic parameter inference from genomic data [0.03%]
基于模拟的监督机器学习在从基因组数据中推断人口参数方面的评估
Arnaud Quelin,Frédéric Austerlitz,Flora Jay
Arnaud Quelin
The ever-increasing availability of high-throughput DNA sequences and the development of numerous computational methods have led to considerable advances in our understanding of the evolutionary and demographic history of populations. Sever...
Mitogenomic resolution of phylogenetic conflicts and adaptive signatures in feliform carnivorans [0.03%]
全基因组水平揭示食肉目猫型亚纲系统发育分歧及适应性信号
Xiaoyang Wu,Yamin Xing,Xibao Wang et al.
Xiaoyang Wu et al.
Feliform carnivores face dual threats from habitat fragmentation and climate change, but unresolved phylogenetic relationships and unclear adaptive mechanisms hinder the development of conservation strategies. This study integrates mitochon...
Correction: Maternal effects in the model system Daphnia: the ecological past meets the epigenetic future [0.03%]
纠正:模型系统水蚤中的母体效应:生态过去与表观遗传未来相遇
Trenton C Agrelius,Jeffry L Dudycha
Trenton C Agrelius
Published Erratum
Heredity. 2025 May 23. DOI:10.1038/s41437-025-00771-z 2025
Evaluating regional heritability mapping methods for identifying QTLs in a wild population of Soay sheep [0.03%]
评估区域遗传率定位方法以识别Soay羊野生种群中的QTLs
Caelinn James,Josephine M Pemberton,Pau Navarro et al.
Caelinn James et al.
The study of complex traits and their genetic underpinnings is crucial for understanding the evolutionary processes and mechanisms that shape natural populations. Regional heritability mapping (RHM) is a method for estimating the heritabili...
How partial phenotyping to reduce generation intervals can help to increase annual genetic gain in selected honeybee populations [0.03%]
部分表型测定以缩短世代间隔有助于提高选育蜜蜂种群的年均遗传进展
Tristan Kistler,Evert W Brascamp,Benjamin Basso et al.
Tristan Kistler et al.
Honeybee breeding is organized around annual cycles, following seasonal change. Generation intervals are thus commonly multiples of whole years. Most queens are generally raised during spring or early summer in temperate climates. A generat...
CDK-4 regulates nucleolar size and metabolism at the cost of late-life fitness in C. elegans [0.03%]
C. elegans 中 CDK-4通过牺牲寿命晚期的健康程度来调节核仁大小和代谢
Rachel Webster,Maria Quintana,Bin Yu et al.
Rachel Webster et al.
Studies on aging have centered on two molecular pathways: CDK4/6 and insulin/mTORC1. These pathways are thought to influence aging through distinct mechanisms: mTORC1 by reprogramming systemic metabolism, and CDK4 through p16-mediated senes...