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Conceptual Models of Entrainment, Jet Lag, and Seasonality (2020)

Tokuda, Isao ; Schmal, Christoph ; Ananthasubramaniam, Bharath ; [et al.]

Berlin : Humboldt-Universität zu Berlin

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edochu_18452_23138

Format: 1 Online-Ressource (10 Seiten)

Content: Understanding entrainment of circadian rhythms is a central goal of chronobiology. Many factors, such as period, amplitude, Zeitgeber strength, and daylength, govern entrainment ranges and phases of entrainment. We have tested whether simple amplitude-phase models can provide insight into the control of entrainment phases. Using global optimization, we derived conceptual models with just three free parameters (period, amplitude, and relaxation rate) that reproduce known phenotypic features of vertebrate clocks: phase response curves (PRCs) with relatively small phase shifts, fast re-entrainment after jet lag, and seasonal variability to track light onset or offset. Since optimization found multiple sets of model parameters, we could study this model ensemble to gain insight into the underlying design principles. We found complex associations between model parameters and entrainment features. Arnold onions of representative models visualize strong dependencies of entrainment on periods, relative Zeitgeber strength, and photoperiods. Our results support the use of oscillator theory as a framework for understanding the entrainment of circadian clocks.

Content: Peer Reviewed

In: Lausanne : Frontiers Research Foundation, 11

Language: English

DOI: 10.18452/22520

DOI: 10.3389/fphys.2020.00334

URN: urn:nbn:de:kobv:11-110-18452/23138-6

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Inter-layer and inter-subject variability of diurnal gene expression in human skin (2022)

del Olmo, Marta ; Spörl, Florian ; Korge, Sandra ; [et al.]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_28810

Format: 1 Online-Ressource (11 Seiten)

Content: The skin is the largest human organ with a circadian clock that regulates its function. Although circadian rhythms in specific functions are known, rhythms in the proximal clock output, gene expression, in human skin have not been thoroughly explored. This work reports 24 h gene expression rhythms in two skin layers, epidermis and dermis, in a cohort of young, healthy adults, who maintained natural, regular sleep-wake schedules. 10% of the expressed genes showed such diurnal rhythms at the population level, of which only a third differed between the two layers. Amplitude and phases of diurnal gene expression varied more across subjects than layers, with amplitude being more variable than phases. Expression amplitudes in the epidermis were larger and more subject-variable, while they were smaller and more consistent in the dermis. Core clock gene expression was similar across layers at the population-level, but were heterogeneous in their variability across subjects. We also identified small sets of biomarkers for internal clock phase in each layer, which consisted of layer-specific non-core clock genes. This work provides a valuable resource to advance our understanding of human skin and presents a novel methodology to quantify sources of variability in human circadian rhythms.

Content: Peer Reviewed

In: Oxford : Oxford University Press, 4,4

Language: English

DOI: 10.18452/28159

DOI: 10.1093/nargab/lqac097

URN: urn:nbn:de:kobv:11-110-18452/28810-5

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Venn diagram analysis overestimates the extent of circadian rhythm reprogramming (2021)

Pelikan, Anne ; Herzel, Hanspeter ; Kramer, Achim ; [et al.]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_26448

Format: 1 Online-Ressource (17 Seiten)

Content: The circadian clock modulates key physiological processes in many organisms. This widespread role of circadian rhythms is typically characterized at the molecular level by profiling the transcriptome at multiple time points. Subsequent analysis identifies transcripts with altered rhythms between control and perturbed conditions, that is, are differentially rhythmic (DiffR). Commonly, Venn diagram analysis (VDA) compares lists of rhythmic transcripts to catalog transcripts with rhythms in both conditions, or that have gained or lost rhythms. However, unavoidable errors in rhythmicity detection propagate to the final DiffR classification resulting in overestimated DiffR. We show using artificial experiments on biological data that VDA indeed produces excessive false DiffR hits both in the presence and absence of true DiffR transcripts. We review and benchmark hypothesis testing and model selection approaches that instead compare circadian amplitude and phase of transcripts between the two conditions. These methods identify transcripts that ‘gain’, ‘lose’, ‘change’, or have the ‘same’ rhythms; the third category is missed by VDA. We reanalyzed three studies on the interplay between metabolism and the clock in the mouse liver that used VDA. We found not only fewer DiffR transcripts than originally reported, but VDA overlooked many relevant DiffR transcripts. Our analyses confirmed some and contradicted other conclusions in the original studies and also generated novel insights. Our conclusions equally apply to circadian studies using other omics technologies. We believe that avoiding Venn diagrams and using our convenient r‐package comparerhythms will improve the reliability of analyses in chronobiology.

Content: Comparing rhythms with and without an intervention reveals the functioning of the circadian system. High‐throughput studies of clock outputs (transcripts, proteins, etc.) typically compare lists of rhythmic outputs in each condition using Venn diagrams. This approach incorrectly predicts too many altered rhythms, while also overlooking some rhythm changes. Direct comparison of amplitudes and phases using R‐package comparerhythms fixes this problem and reveals limited circadian remodeling due to metabolic changes. image

Content: Peer Reviewed

In: Oxford : Wiley-Blackwell, 289,21, Seiten 6605-6621

Language: English

DOI: 10.18452/25780

DOI: 10.1111/febs.16095

URN: urn:nbn:de:kobv:11-110-18452/26448-6

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Data integration and analysis for circadian medicine (2023)

Baum, Lena ; Johns, Marco ; Poikela, Maija ; [et al.]

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_27786

Format: 1 Online-Ressource (14 Seiten)

Content: Data integration, data sharing, and standardized analyses are important enablers for data-driven medical research. Circadian medicine is an emerging field with a particularly high need for coordinated and systematic collaboration between researchers from different disciplines. Datasets in circadian medicine are multimodal, ranging from molecular circadian profiles and clinical parameters to physiological measurements and data obtained from (wearable) sensors or reported by patients. Uniquely, data spanning both the time dimension and the spatial dimension (across tissues) are needed to obtain a holistic view of the circadian system. The study of human rhythms in the context of circadian medicine has to confront the heterogeneity of clock properties within and across subjects and our inability to repeatedly obtain relevant biosamples from one subject. This requires informatics solutions for integrating and visualizing relevant data types at various temporal resolutions ranging from milliseconds and seconds to minutes and several hours. Associated challenges range from a lack of standards that can be used to represent all required data in a common interoperable form, to challenges related to data storage, to the need to perform transformations for integrated visualizations, and to privacy issues. The downstream analysis of circadian rhythms requires specialized approaches for the identification, characterization, and discrimination of rhythms. We conclude that circadian medicine research provides an ideal environment for developing innovative methods to address challenges related to the collection, integration, visualization, and analysis of multimodal multidimensional biomedical data.

Content: Peer Reviewed

In: Oxford [u.a.] : Wiley-Blackwell, 237,4

Language: English

DOI: 10.18452/27119

DOI: 10.1111/apha.13951

URN: urn:nbn:de:kobv:11-110-18452/27786-9

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Quantification of circadian rhythms in mammalian lung tissue snapshot data (2024)

Grabe, Saskia ; Ananthasubramaniam, Bharath ; Herzel, Hanspeter

Berlin : Humboldt-Universität zu Berlin

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UID:

edochu_18452_32524

Format: 1 Online-Ressource (13 Seiten)

Content: Healthy mammalian cells have a circadian clock, a gene regulatory network that allows them to schedule their physiological processes to optimal times of the day. When healthy cells turn into cancer cells, the circadian clock often becomes cancer specifically disturbed, so there is an interest in the extraction of circadian features from gene expression data of cancer. This is challenging, as clinical gene expression samples of cancer are snapshot-like and the circadian clock is best examined using gene expression time series. In this study, we obtained lists of intersecting circadian genes in public gene expression time series data of lung tissue of mouse and baboon. We base our circadian gene lists on correlations of gene expression levels of circadian genes, which are closely associated to the phase differences between them. Combining circadian gene expression patterns of diurnal and nocturnal species of different ages provides circadian genes that are also important in healthy and cancerous human lung tissue. We tested the quality of the representation of the circadian clock in our gene lists by PCA-based reconstructions of the circadian times of the mouse and baboon samples. Then we assigned potential circadian times to the human lung tissue samples and find an intact circadian clock in the healthy human lung tissue, but an altered, weak clock in the adjacent cancerous lung tissue.

Content: Peer Reviewed

In: : Springer Nature, 2024, 14,1

Language: English

DOI: 10.18452/31905

DOI: 10.1038/s41598-024-66694-7

URN: urn:nbn:de:kobv:11-110-18452/32524-9

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