Regulation of KRAS by SNAREs and noncoding RNAs with therapeutic approaches to treatment

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Abstract/Contents

Abstract: Human malignancies exact a heavy toll on human life expectancy and productive working years even in developed societies with access to leading medical care. Underlying intractable cancers is an innumerable number of inciting factors, all interconnected into an adaptive entity designed to persist and empowered with the tools that enable life itself. Here, we describe work investigating the mechanistic nuances of how a growth factor signaling cascade is regulated by a series of vesicular transport mechanisms modulated by non-coding RNA. These findings lead us to investigate new therapeutic options to treatment and the development of two in-silico methods to accelerate targeted drug discovery in cancer

Type of resource	text
Form	electronic resource; remote; computer; online resource
Extent	1 online resource
Place	California
Place	[Stanford, California]
Publisher	[Stanford University]
Copyright date	2020; ©2020
Publication date	2020; 2020
Issuance	monographic
Language	English

Author	Che, Yonglu
Degree supervisor	Khavari, Paul A
Thesis advisor	Khavari, Paul A
Thesis advisor	Oro, Anthony, 1958-
Thesis advisor	Sage, Julien
Thesis advisor	Stearns, Tim
Degree committee member	Oro, Anthony, 1958-
Degree committee member	Sage, Julien
Degree committee member	Stearns, Tim
Associated with	Stanford University, Cancer Biology Program.

Genre	Theses
Genre	Text

Statement of responsibility	Yonglu Che
Note	Submitted to the Cancer Biology Program
Thesis	Thesis Ph.D. Stanford University 2020
Location	electronic resource

License: This work is licensed under a Creative Commons Attribution Non Commercial 3.0 Unported license (CC BY-NC).

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