Aileen Collery, John A. Browne, Christiane O’Brien, John T. Sheridan & Barbara A. Murphy. (2023) Optimised Stable Lighting Strengthens Circadian Clock Gene Rhythmicity in Equine Hair Follicles. Animals 13:14, pages 2335.
Crossref
Lingling Tang, Li Liu, Xianhong Sun, Po Hu, Hui Zhang, Bohan Wang, Xiaona Zhang, Jinjin Jiang, Xia Zhao & Xiaolu Shi. (2022) BMAL1/FOXA2-induced rhythmic fluctuations in IL-6 contribute to nocturnal asthma attacks. Frontiers in Immunology 13.
Crossref
Qingyun Guan, Zixu Wang, Jing Cao, Yulan Dong & Yaoxing Chen. (2022) The role of light pollution in mammalian metabolic homeostasis and its potential interventions: A critical review. Environmental Pollution 312, pages 120045.
Crossref
Valentina Sophia Rumanova, Monika Okuliarova, Ewout Foppen, Andries Kalsbeek & Michal Zeman. (2022) Exposure to dim light at night alters daily rhythms of glucose and lipid metabolism in rats. Frontiers in Physiology 13.
Crossref
Zainab Taleb & Phillip Karpowicz. (2022) Circadian regulation of digestive and metabolic tissues. American Journal of Physiology-Cell Physiology 323:2, pages C306-C321.
Crossref
Zainab Taleb, Vania Carmona-Alcocer, Kyle Stokes, Marta Haireek, Huaqing Wang, Stephen M. Collins, Waliul I. Khan & Phillip Karpowicz. (2022) BMAL1 Regulates the Daily Timing of Colitis. Frontiers in Cellular and Infection Microbiology 12.
Crossref
Ankita AS. Galinde, Faheem Al-Mughales, Henrik Oster & Isabel Heyde. (2023) Different levels of circadian (de)synchrony – where does it hurt?. F1000Research 11, pages 1323.
Crossref
Ankita AS. Galinde, Faheem Al-Mughales, Henrik Oster & Isabel Heyde. (2022) Different levels of circadian (de)synchrony – where does it hurt?. F1000Research 11, pages 1323.
Crossref
Kathyani Parasram, Daniela Bachetti, Vania Carmona-Alcocer & Phillip Karpowicz. 2022. Circadian Regulation. Circadian Regulation
353
371
.
Fangyi Gu, Eduardo Cortes Gomez, Jianhong Chen, Matthew F. Buas, Nicolas F. Schlecht, Karen Hulme, Shweta Vishwas Kulkarni, Prashant K. Singh, Richard O’Connor, Christine B. Ambrosone, Anurag K. Singh & Jianmin Wang. (2021) Genes Relevant to Tissue Response to Cancer Therapy Display Diurnal Variation in mRNA Expression in Human Oral Mucosa. Journal of Circadian Rhythms 19:1, pages 8.
Crossref
Valentina S. Rumanova, Monika Okuliarova & Michal Zeman. (2020) Differential Effects of Constant Light and Dim Light at Night on the Circadian Control of Metabolism and Behavior. International Journal of Molecular Sciences 21:15, pages 5478.
Crossref
Daisuke Yamamuro, Manabu Takahashi, Shuichi Nagashima, Tetsuji Wakabayashi, Hisataka Yamazaki, Akihito Takei, Shoko Takei, Kent Sakai, Ken Ebihara, Yusaku Iwasaki, Toshihiko Yada & Shun Ishibashi. (2020) Peripheral circadian rhythms in the liver and white adipose tissue of mice are attenuated by constant light and restored by time-restricted feeding. PLOS ONE 15:6, pages e0234439.
Crossref
Amanda J. Page, Stewart Christie, Erin Symonds & Hui Li. (2020) Circadian regulation of appetite and time restricted feeding. Physiology & Behavior 220, pages 112873.
Crossref
Lalita Oparija-Rogenmozere, Anuradha Rajendran, Nadège Poncet, Simone M. R. Camargo & François Verrey. (2020) Phosphorylation of mouse intestinal basolateral amino acid uniporter LAT4 is controlled by food-entrained diurnal rhythm and dietary proteins. PLOS ONE 15:5, pages e0233863.
Crossref
Shan Zhang, Miao Dai, Xu Wang, Shu-Heng Jiang, Li-Peng Hu, Xue-Li Zhang & Zhi-Gang Zhang. (2020) Signalling entrains the peripheral circadian clock. Cellular Signalling 69, pages 109433.
Crossref
Cristina Camello-Almaraz, Francisco E. Martin-Cano, Francisco J. Santos, Mª Teresa Espin, Juan Antonio Madrid, Maria J. Pozo & Pedro J. Camello. (2020) Age-Induced Differential Changes in the Central and Colonic Human Circadian Oscillators. International Journal of Molecular Sciences 21:2, pages 674.
Crossref
Silke Kiessling. 2020. Beyond Our Genes. Beyond Our Genes
17
35
.
Jiffin K. Paulose, Charles V. Cassone, Kinga B. Graniczkowska & Vincent M. Cassone. (2019) Entrainment of the Circadian Clock of the Enteric Bacterium Klebsiella aerogenes by Temperature Cycles. iScience 19, pages 1202-1213.
Crossref
Bandik Föh, Torsten Schröder, Henrik Oster, Stefanie Derer & Christian Sina. (2019) Seasonal Clock Changes Are Underappreciated Health Risks—Also in IBD?. Frontiers in Medicine 6.
Crossref
Lucie Olejníková, Lenka Polidarová, Michal Behuliak, Martin Sládek & Alena Sumová. (2018) Circadian alignment in a foster mother improves the offspring's pathological phenotype. The Journal of Physiology 596:23, pages 5757-5775.
Crossref
Honglei Wang, Yeqing Gu, Lixiao Zheng, Li Liu, Ge Meng, Hongmei Wu, Yang Xia, Xue Bao, Hongbin Shi, Shaomei Sun, Xing Wang, Ming Zhou, Qiyu Jia, Kun Song, Qing Zhang & Kaijun Niu. (2018) Association between bedtime and the prevalence of newly diagnosed non-alcoholic fatty liver disease in adults. Liver International 38:12, pages 2277-2286.
Crossref
Mino D. C. Belle & Casey O. Diekman. (2018) Neuronal oscillations on an ultra‐slow timescale: daily rhythms in electrical activity and gene expression in the mammalian master circadian clockwork. European Journal of Neuroscience 48:8, pages 2696-2717.
Crossref
Tomas Petrasek, Iveta Vojtechova, Veronika Lobellova, Anna Popelikova, Martina Janikova, Hana Brozka, Pavel Houdek, Martin Sladek, Alena Sumova, Zdenka Kristofikova, Karel Vales & Ales Stuchlík. (2018) The McGill Transgenic Rat Model of Alzheimer's Disease Displays Cognitive and Motor Impairments, Changes in Anxiety and Social Behavior, and Altered Circadian Activity. Frontiers in Aging Neuroscience 10.
Crossref
Zuzana Novosadová, Lenka Polidarová, Martin Sládek & Alena Sumová. (2018) Alteration in glucose homeostasis and persistence of the pancreatic clock in aged mPer2Luc mice. Scientific Reports 8:1.
Crossref
Natalí N. Guerrero-Vargas, Estefania Espitia-Bautista, Ruud M. Buijs & Carolina Escobar. (2018) Shift-work: is time of eating determining metabolic health? Evidence from animal models. Proceedings of the Nutrition Society 77:3, pages 199-215.
Crossref
Adrián Báez-Ruiz, Natalí N Guerrero-Vargas, Fernando Cázarez-Márquez, Elizabeth Sabath, María del Carmen Basualdo, Roberto Salgado-Delgado, Carolina Escobar & Ruud M Buijs. (2017) Food in synchrony with melatonin and corticosterone relieves constant light disturbed metabolism. Journal of Endocrinology 235:3, pages 167-178.
Crossref
Li Liu, Guomin Jiang, Zhitao Peng, Yulong Li, Jinlong Li, Li Zou, Zhigang He, Xiaoqing Wang & Wuying Chu. (2017) The effect of high fat diet on daily rhythm of the core clock genes and muscle functional genes in the skeletal muscle of Chinese soft-shelled turtle ( Trionyx sinensis ). Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 213, pages 17-27.
Crossref
Neha Agarwal, Ila Mishra, Ruchi Komal, Sangeeta Rani & Vinod Kumar. (2017) Circannual testis and moult cycles persist under photoperiods that disrupt circadian activity and clock gene cycles in spotted munia. Journal of Experimental Biology.
Crossref
Vincent M. Cassone, Jiffin K. Paulose & Clifford E. Harpole. 2017. Circadian Rhythms and Their Impact on Aging. Circadian Rhythms and Their Impact on Aging
83
101
.
Pavel Houdek, Marta Nováková, Lenka Polidarová, Martin Sládek & Alena Sumová. (2016) Melatonin is a redundant entraining signal in the rat circadian system. Hormones and Behavior 83, pages 1-5.
Crossref
Eliane A. Lucassen, Claudia P. Coomans, Maaike van Putten, Suzanne R. de Kreij, Jasper H.L.T. van Genugten, Robbert P.M. Sutorius, Karien E. de Rooij, Martijn van der Velde, Sanne L. Verhoeve, Jan W.A. Smit, Clemens W.G.M. Löwik, Hermelijn H. Smits, Bruno Guigas, Annemieke M. Aartsma-Rus & Johanna H. Meijer. (2016) Environmental 24-hr Cycles Are Essential for Health. Current Biology 26:14, pages 1843-1853.
Crossref
Cheng Xu, Hiroki Ochi, Toru Fukuda, Shingo Sato, Satoko Sunamura, Takeshi Takarada, Eiichi Hinoi, Atsushi Okawa & Shu Takeda. (2016) Circadian Clock Regulates Bone Resorption in Mice. Journal of Bone and Mineral Research 31:7, pages 1344-1355.
Crossref
David B. Rhoads, Lynne L. Levitsky & Ali Tavakkoli. 2016. Circadian Clocks: Role in Health and Disease. Circadian Clocks: Role in Health and Disease
267
293
.
Yutaro Hamaguchi, Yu Tahara, Masashi Hitosugi & Shigenobu Shibata. (2015) Impairment of Circadian Rhythms in Peripheral Clocks by Constant Light Is Partially Reversed by Scheduled Feeding or Exercise. Journal of Biological Rhythms 30:6, pages 533-542.
Crossref
Christopher B. Forsyth, Robin M. Voigt, Helen J. Burgess, Garth R. Swanson & Ali Keshavarzian. (2015) Circadian rhythms, alcohol and gut interactions. Alcohol 49:4, pages 389-398.
Crossref
Pavel Houdek, Lenka Polidarová, Marta Nováková, Kristýna Matějů, Štěpán Kubík & Alena Sumová. (2015) Melatonin administered during the fetal stage affects circadian clock in the suprachiasmatic nucleus but not in the liver. Developmental Neurobiology 75:2, pages 131-144.
Crossref
Siobhan Banks, Jillian Dorrian, Crystal Grant & Alison Coates. 2015. Modulation of Sleep by Obesity, Diabetes, Age, and Diet. Modulation of Sleep by Obesity, Diabetes, Age, and Diet
155
164
.
Juan J. Chiesa, José M. Duhart, Leandro P. Casiraghi, Natalia Paladino, Ivana L. Bussi & Diego A. Golombek. 2015. Mechanisms of Circadian Systems in Animals and Their Clinical Relevance. Mechanisms of Circadian Systems in Animals and Their Clinical Relevance
289
320
.
Pavel Houdek & Alena Sumová. (2014) In Vivo Initiation of Clock Gene Expression Rhythmicity in Fetal Rat Suprachiasmatic Nuclei. PLoS ONE 9:9, pages e107360.
Crossref
Gianluigi Mazzoccoli, Manlio Vinciguerra, Jude Oben, Roberto Tarquini & Salvatore De Cosmo. (2014) Non-alcoholic fatty liver disease: the role of nuclear receptors and circadian rhythmicity. Liver International 34:8, pages 1133-1152.
Crossref
Elizabeth Sabath, Roberto Salgado-Delgado, Natali N. Guerrero-Vargas, Mara A. Guzman-Ruiz, Maria del Carmen Basualdo, Carolina Escobar & Ruud M. Buijs. (2014) Food entrains clock genes but not metabolic genes in the liver of suprachiasmatic nucleus lesioned rats. FEBS Letters 588:17, pages 3104-3110.
Crossref
Shannon M Bailey, Uduak S Udoh & Martin E Young. (2014) Circadian regulation of metabolism. Journal of Endocrinology 222:2, pages R75-R96.
Crossref
Lenka Polidarová, Lucie Olejníková, Lucia Paušlyová, Martin Sládek, Matúš Soták, Jiří Pácha & Alena Sumová. (2014) Development and entrainment of the colonic circadian clock during ontogenesis. American Journal of Physiology-Gastrointestinal and Liver Physiology 306:4, pages G346-G356.
Crossref
Yu Tahara & Shigenobu Shibata. (2014) Chrono-biology, Chrono-pharmacology, and Chrono-nutrition. Journal of Pharmacological Sciences 124:3, pages 320-335.
Crossref
Christopher B. Forsyth, Robin M. Voigt & Ali. Keshavarzian. (2014) Intestinal CYP2E1: A mediator of alcohol-induced gut leakiness. Redox Biology 3, pages 40-46.
Crossref
Christopher B. ForsythRobin M. VoigtMaliha ShaikhYueming TangArthur I. CederbaumFred W. TurekAli Keshavarzian. (2013) Role for intestinal CYP2E1 in alcohol-induced circadian gene-mediated intestinal hyperpermeability. American Journal of Physiology-Gastrointestinal and Liver Physiology 305:2, pages G185-G195.
Crossref
J. Pácha & A. Sumová. (2013) Circadian regulation of epithelial functions in the intestine. Acta Physiologica 208:1, pages 11-24.
Crossref
Akhilesh B. Reddy. 2013. Circadian Clocks. Circadian Clocks
379
388
.
Jaclyn N. Malloy, Jiffin K. Paulose, Ye Li & Vincent M. Cassone. (2012) Circadian rhythms of gastrointestinal function are regulated by both central and peripheral oscillators. American Journal of Physiology-Gastrointestinal and Liver Physiology 303:4, pages G461-G473.
Crossref
Felino R. Cagampang & Kimberley D. Bruce. (2012) The role of the circadian clock system in nutrition and metabolism. British Journal of Nutrition 108:3, pages 381-392.
Crossref
Anita Balakrishnan, Ali Tavakkolizadeh & David B. Rhoads. (2012) Circadian clock genes and implications for intestinal nutrient uptake. The Journal of Nutritional Biochemistry 23:5, pages 417-422.
Crossref
M. Nováková, L. Polidarová, M. Sládek & A. Sumová. (2011) Restricted feeding regime affects clock gene expression profiles in the suprachiasmatic nucleus of rats exposed to constant light. Neuroscience 197, pages 65-71.
Crossref