STRUKTURNA PREDIKCIJA FUNKCIJE PROTEINA I ODNOS FUNKCIONALNIH KATEGORIJA PROTEINA I NJIHOVE NEUREÐENOSTI

eBibliothek Repositorium

 
 

STRUKTURNA PREDIKCIJA FUNKCIJE PROTEINA I ODNOS FUNKCIONALNIH KATEGORIJA PROTEINA I NJIHOVE NEUREÐENOSTI

Zur Langanzeige

Titel: STRUKTURNA PREDIKCIJA FUNKCIJE PROTEINA I ODNOS FUNKCIONALNIH KATEGORIJA PROTEINA I NJIHOVE NEUREÐENOSTI
Autor: Kovačević, Jovana
Zusammenfassung: Proteins represent the most important groups of biomoleculs. Di erent functions that they carry out in each organism are unique and irreplaceable, including versatile cellular processes, structural role of proteins, catalytic function, a number of metabolic functions and so on. Knowing and under- standing protein function is therefore essential in investigation of any biolo- gical process, especially of human diseases since a lot of them are caused by functional mutations. In this paper, we represent investigation of protein function domain through two di erent approaches. In the rst one, protein function is represented by GO ontologies with the structure of a directed acyclic graph. There are three GO ontologies: one for functions regarding biological processes, one for functions regarding cellular components and one for molecular functions. Each ontology contains several thousands of nodes, where every node deter- mines more speci c function than his ascendants. The task of this part of research was to develop a software for predicting protein function from its primary sequence based on structural support vector machines method which represents generalization of well-known support vector machines method on structural output. Structure-function paradigm is one of basic concepts in molecular biology, stating that 3D proten structure is closely connected to its role in organism. It has been detected that disordered proteins (the ones that lack 3D struc- ture) and disordered regions of proteins are related with severe contemporary illnesses, which contributed to their popularity in modern research. In an- other aspect, we investigated the relationship between proteins' functional categories and their disorder, as well ad with other physico-chemical char- acteristics of proteins. Here, protein function has been observed through 25 elementary functions grouped in 4 functional groups. In this work, we present results of thorough analysis over large protein dataset where dis- order has been determined computationally, using publicly available tools.
URI: http://hdl.handle.net/123456789/4451
Datum: 2015

Dateien zu dieser Ressource

Dateien Größe Format Anzeige
DoktoratJK2015.pdf 1.116Mb PDF Öffnen

Die folgenden Lizenzbestimmungen sind mit dieser Ressource verbunden:

Das Dokument erscheint in:

Zur Langanzeige