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Full-Text Articles in Life Sciences
Leveraging Queueing Theory To Develop Advanced Synthetic Biological Circuits, Prajakta K. Jadhav
Leveraging Queueing Theory To Develop Advanced Synthetic Biological Circuits, Prajakta K. Jadhav
Electronic Theses and Dissertations
The complexity and redundancy in the network topology of the cell hinder our understanding of the natural system, making it challenging to engineer living organisms with the desired functionality. The long-term goal of synthetic biology and bioengineering is to engineer cells to perform specific functions with increased robustness. The robust engineered systems can be easily applied to different species with the same outcome. An effective approach is a bottom-up approach where we tease apart the biological pathways and study them independently. Understanding the underlying mechanisms of biological pathways can be further applied to construct complex biological circuits that function similarly …
Understanding The Impact Of Human Germline Single-Nucleotide Variants, Samuel Adjei
Understanding The Impact Of Human Germline Single-Nucleotide Variants, Samuel Adjei
Electronic Theses and Dissertations
All genetic variations in the human genome are due to mutations, and therefore determining the impact of the different categories of mutations, particularly nonsynonymous single nucleotide variants (SNVs) which are the most abundant in the population is essential for understanding the genetics of human diseases. Generations of mutation studies have focused on a relatively small number, partly due to technological limitations. However, advances in next-generation sequencing have allowed for empirical assessments of genome-wide mutations. genome sequence of any individual contains extensive protein-altering genetic variation (missense mutations) and of which only a few are unambiguously deleterious. Characterizing the phenotypes of these …