Add to ORKGObservation of single-cell behavior has become increasingly important to our understanding of complex biological systems given the highly dynamic nature of underlying regulatory processes which is often obscured by population-level observation. The focus of this dissertation is to explore gene regulatory dynamics in individual mammalian cells with the use of microfluidic technology and synthetic biology. First, I develop a novel microfluidic device platform which enables dynamic stimulation of mammalian cells during long-term perfusion culture. The device incorporates an innovative cell- loading method which uses a temporary on-chip vacuum to capture cells in culture regions isolated from detrimental effects of fluid-induced shear stress. S...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
Recent research on cellular responses is shifting from static observations recorded under static sti...
Mammalian cells rely on complex and highly dynamic gene networks to maintain cellular homeostasis in...
Abstract Gene networks and signaling pathways display complex topologies and, as a result, complex ...
Gene networks and signaling pathways display complex topologies and, as a result, complex nonlinear ...
Dynamic environments are commonplace in the natural world, from fluctuations in nutrient sources tha...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Over the past decade, interest in microfluidics has surged as applications have trended towards nove...
With the expanding interest in cellular responses to dynamic environments, microfluidic devices have...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2008.Page 146 blank.Include...
Technological advances in molecular biology over the last several decades have enabled researchers t...
Regulatory processes are responsible for the organization, division and death of cells in multicellu...
학위논문 (석사)-- 서울대학교 대학원 : 협동과정 바이오엔지니어링전공, 2016. 8. 전누리.Significant advances in micro technology has b...
Recent progress in reconstructing gene regulatory networks has established a framework for a quantit...
Much is still not understood about how gene regulatory interactions control cell fate decisions in s...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
Recent research on cellular responses is shifting from static observations recorded under static sti...
Mammalian cells rely on complex and highly dynamic gene networks to maintain cellular homeostasis in...
Abstract Gene networks and signaling pathways display complex topologies and, as a result, complex ...
Gene networks and signaling pathways display complex topologies and, as a result, complex nonlinear ...
Dynamic environments are commonplace in the natural world, from fluctuations in nutrient sources tha...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Over the past decade, interest in microfluidics has surged as applications have trended towards nove...
With the expanding interest in cellular responses to dynamic environments, microfluidic devices have...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2008.Page 146 blank.Include...
Technological advances in molecular biology over the last several decades have enabled researchers t...
Regulatory processes are responsible for the organization, division and death of cells in multicellu...
학위논문 (석사)-- 서울대학교 대학원 : 협동과정 바이오엔지니어링전공, 2016. 8. 전누리.Significant advances in micro technology has b...
Recent progress in reconstructing gene regulatory networks has established a framework for a quantit...
Much is still not understood about how gene regulatory interactions control cell fate decisions in s...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
Recent research on cellular responses is shifting from static observations recorded under static sti...
Mammalian cells rely on complex and highly dynamic gene networks to maintain cellular homeostasis in...