Models

What is a Model?
52 Models visible to you, out of a total of 73

The recognition of carbon sources and the regulatory adjustments to recognized changes are of particular importance for bacterial survival in fluctuating environments. Despite a thorough knowledge base of Escherichia coli's central metabolism and its regulation, fundamental aspects of the employed sensing and regulatory adjustment mechanisms remain unclear. In this paper, using a differential equation model that couples enzymatic and transcriptional regulation of E. coli's central metabolism, we ...

Creator: Quyen Yamanaka

Submitter: Quyen Yamanaka

Genomic data allow the large-scale manual or semi-automated assembly of metabolic network reconstructions, which provide highly curated organism-specific knowledge bases. Although several genome-scale network reconstructions describe Saccharomyces cerevisiae metabolism, they differ in scope and content, and use different terminologies to describe the same chemical entities. This makes comparisons between them difficult and underscores the desirability of a consolidated metabolic network that ...

Creator: Quyen Yamanaka

Submitter: Quyen Yamanaka

No description specified

Creator: Quyen Yamanaka

Submitter: Quyen Yamanaka

MCA of Glycerol Synthesis in Saccharomyces cerevisiae

Creators: Jacky Snoep, Garth R. Cronwright, Johann M. Rohwer, and Bernard A. Prior

Submitter: Katy Wolstencroft

No description specified

Creator: Quyen Yamanaka

Submitter: Quyen Yamanaka

No description specified

Creator: Quyen Yamanaka

Submitter: Quyen Yamanaka

Targeting persistent tubercule bacilli has become an important challenge in the development of anti-tuberculous drugs. As the glyoxylate bypass is essential for persistent bacilli, interference with it holds the potential for designing new antibacterial drugs. We have developed kinetic models of the tricarboxylic acid cycle and glyoxylate bypass in Escherichia coli and Mycobacterium tuberculosis, and studied the effects of inhibition of various enzymes in the M. tuberculosis model.

Creator: Guest

Submitter: Guest

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