diplomsko delo visokošolskega strokovnega študijskega programa I. stopnje
Abstract
Pomembnost bakterijske odpornosti iz dneva v dan narašča, opazimo pa tudi razmeroma večje
število mehanizmov antibiotične rezistence, zato je raziskovanje novih protibakterijskih spojin
ključnega pomena. V sklopu tega diplomskega dela smo primerjali kemijski prostor obstoječih
protibakterijskih učinkovin s kemijskim prostorom učinkovin z ostalimi indikacijami.
Rezultati dela lahko tako pomagajo pri razvoju novih antibiotikov in pri razumevanju razlik
med antibiotiki in ostalimi zdravilnimi učinkovinami v kontekstu molekulskih deskriptorjev,
ki opisujejo obliko same molekule.
V okviru diplomske naloge smo, računajoč kemijske parametre in lastnosti, primerjali seta
podatkov o antibiotikih in ostalih zdravilnih učinkovinah. Uporabljali smo PMI (angl.
principal moment of inertia/ glavni vztrajnostni moment) izpeljane lastnosti kot molekulske
deskriptorje, ki matematično opišejo obliko molekule. Primerjali smo tudi izračun PMI
izpeljanih molekulskih deskriptorjev pri uporabi 2D, 3D in geometrijsko optimiziranih
konformacij molekul ter primerjali, kako različni vhodni podatki vplivajo na izračun PMI
izpeljanih lastnosti. Opazovali smo trende oblike molekul antibiotikov in ostalih zdravilnih
učinkovin (lahko so sferične, paličaste oblike ali oblike diska), kjer smo ugotovili, da večina
zdravilnih učinkovin spada med paličasto obliko in obliko diska. Na koncu smo primerjali
kemijska prostora antibiotikov in ostalih učinkovin ter statistično ovrednotili razlike med
izbranima razredoma spojin
Keywords
antibiotik;bakterijska rezistenca;protibakterijske učinkovine;kemijski
prostor;kemijski deskriptorji;PMI deskriptorji;diplomske naloge;
Data
Language: |
Slovenian |
Year of publishing: |
2022 |
Typology: |
2.11 - Undergraduate Thesis |
Organization: |
UM FKKT - Faculty of Chemistry and Chemical Engineering |
Publisher: |
[D. Agačević] |
UDC: |
54(043.2) |
COBISS: |
133433091
|
Views: |
51 |
Downloads: |
16 |
Average score: |
0 (0 votes) |
Metadata: |
|
Other data
Secondary language: |
English |
Secondary title: |
Molecular shape descriptors of antibacterial compounds |
Secondary abstract: |
As the importance and influence of antibiotic resistance are growing on a daily basis, we also
notice substantially bigger number of antibacterial resistance mechanisms. This is the reason
why the reasearch on new antibacterial substances is crucial. Within this thesis we calculated
chemical space of already existing antibacterial substances and compared it with the chemical
space of retaining drugs. The results of this thesis can help the development of new
antibacterials, help with the understanding of differences between antibiotics and other drugs
in the context of molecular descriptors, which describe the molecular shapes.
Within this thesis, we calculated chemical parameters and properties of two data sets of
antibiotics and other active drugs. We used PMI (principal moment of inertia) derived
properties as molecular descriptors. We also compared the calculated PMI derived molecular
descriptors of 2D, 3D and geometrically optimized molecular conformations, and how
different starting data influences the calculation of PMI derived properties. We also looked at
the shapes of molecules of the two data sets (are they spherical, disk-like or rod-like). What
we found is, that within both data sets, virtually all the molecules fall within the mix of disk-like and rod-like shapes. At the end, we compared the chemical spaces of antibiotics and other
active drugs, statistically analyzing the differences between the two chosen classes of
molecules. |
Secondary keywords: |
antibiotic;bacterial resistance;antibacterial substances;chemical space;chemical
descriptors;PMI descriptors; |
Type (COBISS): |
Bachelor thesis/paper |
Thesis comment: |
Univ. v Mariboru, Fak. za kemijo in kemijsko tehnologijo |
Pages: |
1 spletni vir (1 datoteka PDF (VIII, 25 f.)) |
ID: |
16331832 |