Notes on entrainment - Revision history

XenoEngineer at 09:38, 19 June 2025

2025-06-19T09:38:43Z

← Older revision		Revision as of 09:38, 19 June 2025
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	GL, 0000-0003-4758-6427		GL, 0000-0003-4758-6427

	Entrainment is a phenomenon in which two oscillators interact with each other, typically through physical or chemical means, to synchronize their oscillations. This phenomenon occurs in biology to coordinate processes from the molecular to organismal scale. Biological oscillators can be entrained within a single cell, between cells or to an external input.		Entrainment is a phenomenon in which two oscillators interact with each other, typically through physical or chemical means, to synchronize their oscillations. This phenomenon occurs in biology to coordinate processes from the molecular to organismal scale.

			Biological oscillators can be entrained within a single cell, between cells or to an external input.

	Using six illustrative examples of entrainable biological oscillators, we discuss the distinctions between entrainment and synchrony and explore features that contribute to a system’s propensity to entrain. Entrainment can either enhance or reduce the heterogeneity of oscillations within a cell population, and we provide examples and mechanisms of each case.		Using six illustrative examples of entrainable biological oscillators, we discuss the distinctions between entrainment and synchrony and explore features that contribute to a system’s propensity to entrain. Entrainment can either enhance or reduce the heterogeneity of oscillations within a cell population, and we provide examples and mechanisms of each case.

	Finally, we discuss the known functions of entrainment and discuss potential functions from an evolutionary perspective.		Finally, we discuss the known functions of entrainment and discuss potential functions from an evolutionary perspective.

XenoEngineer at 09:37, 19 June 2025

2025-06-19T09:37:26Z

← Older revision		Revision as of 09:37, 19 June 2025
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	[[Category:entrainment]]		[[Category:entrainment]]


			===Principles, mechanisms and functions of entrainment in biological oscillators===
	;* https://royalsocietypublishing.org/doi/pdf/10.1098/rsfs.2021.0088		;* https://royalsocietypublishing.org/doi/pdf/10.1098/rsfs.2021.0088
	;Alba Jiménez<sup>1</sup>, Ying Lu<sup>1</sup>, Ashwini Jambhekarss[ and Galit Lahav<sup>1,2</sup>		;Alba Jiménez<sup>1</sup>, Ying Lu<sup>1</sup>, Ashwini Jambhekarss[ and Galit Lahav<sup>1,2</sup>

XenoEngineer: Created page with "Category:entrainment ;* https://royalsocietypublishing.org/doi/pdf/10.1098/rsfs.2021.0088 ;Alba Jiménez¹, Ying Lu¹, Ashwini Jambhekarss[ and Galit Lahav^1,2 ;1 Department of Systems Biology, Blavatnik Institute at Harvard Medical School, Boston, MA 02115, USA ;2 Ludwig Center at Harvard, Boston, MA 02115, USA AJi, 0000-0002-9014-5857; YL, 0000-0003-3516-7735; AJa, 0000-0003-1078-6601; GL, 0000-0003-4758-6427 Entrainment is a phenom..."

2025-06-19T09:36:50Z

Created page with "Category:entrainment ;* https://royalsocietypublishing.org/doi/pdf/10.1098/rsfs.2021.0088 ;Alba Jiménez1, Ying Lu1, Ashwini Jambhekarss[ and Galit Lahav1,2 ;1 Department of Systems Biology, Blavatnik Institute at Harvard Medical School, Boston, MA 02115, USA ;2 Ludwig Center at Harvard, Boston, MA 02115, USA AJi, 0000-0002-9014-5857; YL, 0000-0003-3516-7735; AJa, 0000-0003-1078-6601; GL, 0000-0003-4758-6427 Entrainment is a phenom..."

New page

[[Category:entrainment]]

;* https://royalsocietypublishing.org/doi/pdf/10.1098/rsfs.2021.0088
;Alba Jiménez1, Ying Lu1, Ashwini Jambhekarss[ and Galit Lahav1,2
;1 Department of Systems Biology, Blavatnik Institute at Harvard Medical School, Boston, MA 02115, USA
;2 Ludwig Center at Harvard, Boston, MA 02115, USA AJi, 0000-0002-9014-5857; YL, 0000-0003-3516-7735; AJa, 0000-0003-1078-6601;
GL, 0000-0003-4758-6427

Entrainment is a phenomenon in which two oscillators interact with each other, typically through physical or chemical means, to synchronize their oscillations. This phenomenon occurs in biology to coordinate processes from the molecular to organismal scale. Biological oscillators can be entrained within a single cell, between cells or to an external input.
Using six illustrative examples of entrainable biological oscillators, we discuss the distinctions between entrainment and synchrony and explore features that contribute to a system’s propensity to entrain. Entrainment can either enhance or reduce the heterogeneity of oscillations within a cell population, and we provide examples and mechanisms of each case.
Finally, we discuss the known functions of entrainment and discuss potential functions from an evolutionary perspective.