Structural Studies of Microbial Proteins - From Escherichia coli and Herpesviruses

Gurmu, Daniel

January 2010

Structure biology concerns the study of the molecular structures of biological macromolecules, such as proteins, and how these relate to the function. Protein structures are also of importance in structure-based drug design. In this thesis, the work has been carried out in two different projects. The first project concerns structural studies of proteins from the bacterium Escherichia coli and the second of proteins from five different herpesviruses.  The E. coli project resulted in the structural characterization of three proteins: CaiB, RibD, and YhaK. CaiB is a type-III CoA transferase involved in the metabolism of carnitine. Its molecular structure revealed a spectacular fold where two monomers were interlaced forming an interlocked dimer. RibD, a bi-functional enzyme, catalyzes two consecutive reactions during riboflavin biosynthesis. In an attempt to characterize the mechanism of action of the N-terminal reductase domain, the structure of RibD was also determined in two binary complexes with the oxidized cofactor, NADP+, and with the substrate analogue ribose-5-phosphate. YhaK is a protein of unknown function normally found in low abundance in the cytosol of E. coli and was previously annotated to be a member of the Pirin family. However, some structural features seem to distinguish YhaK from these other Pirin proteins and we showed that YhaK might be regulated by reactive oxygen species.  The Herpesvirus project resulted in the structural determination of two proteins, the SOX protein and ORF60 from Kaposi’s sarcoma associated herpesvirus (KSHV). SOX, a bi-functional shutoff and exonuclease protein, is involved in the maturation and packaging of the viral genome into the viral capsid and in the host shutoff of cellular proteins at the mRNA level. The SOX structure was also used for modeling DNA binding. The crystallization and preliminary structural studies of ORF60, the small R2 subunit of the ribonucleotide reductase (RNR) from KSHV is also discussed. / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 5: Manuscript.

CaiB

RibD

YhaK

SOX

ORF60

Herpesvirus

E. coli

Biochemistry

Biokemi

Stabil och antibiotikafri läkemedelsproduktion i rekombinant Escherichia coli

Benevides, Kristina, Broström, Oscar, Elison Kalman, Grim, Swenson, Hugo, Vlassov, Andrei, Ågren, Josefin

January 2017

Den här rapporten presenterar ett antibiotikafritt, stabilt och kromosombaserat expressionssystem för läkemedelsproduktion i Escherichia coli på beställning av företaget Affibody AB. E. coli-stammen BL21(DE3) valdes som värdorganism för expressionssystemet. Systemet består av en genkassett som innehåller en T7-promotor, en 5′-UTR från genen ompA och en terminatorsekvens från RNA-operonet rrnB. Fyra kopior av genkassetten ska integreras i pseudogenerna caiB, yjjM, hsdS och yjiV. En datormodell som modellerar det egentliga kopietalet i cellerna har skapats i mjukvaran MATLAB, vilket visar att det uppskattas vara maximalt 32 kopior av genkassetten per cell på grund av replikation av kromosomen. Ett högt pH i fermentorn; att använda fed-batch och blandade kolhydratkällor; och att använda stammen BL21(DE3) minskar acetatproduktionen i cellen. En lägre acetatproduktion kan leda till en högre produkthalt. En proteinutbytesmodell för mjukvaran MATLAB har konstruerats för att uppskatta koncentrationen av Affibody®-molekylen i en E. coli cell.

copynumber

copy-number

copy

number

origin of replication

rekombinant

proteinexpression

läkemedel

E. coli

antibiotikafri

antibiotika

expressionssystem

expression

system

escherichia coli

kromosom

kromosombaserad

kromosomal

plasmidfri

plasmid

T7-promotor

T7

promotor

ompA

rrnB

autoinduktion

auto

induktion

matlab

kopietalmodell

utbytemodell

stabil

pH

pseudogen

pseudo

gen

caiB

yjjM

hsdS

yjiV

fermentor

batch

fed-batch

kontinuerlig

fed

batch

fermentation

Affibody

affibody-molekyl

affibody-molekyler

affibodymolekyl

affibodymolekyler

bioreaktor

acetat

acetatbildning

acetatproduktion

acetatreduktion

acetatreducering

peptidläkemedel

peptider

peptid

T7-system

operator

lac-operator

operon

5'-UTR

3'-UTR

sekundärstruktur

mRNA

T1

T2

terminator

termineringssekvens

optimering

lac-operon

repressor

inducering

BL21(DE3)

BL21

B-stam

B

stam

modell

kopietal

kopie

tal

OriC

Pharmaceutical Biotechnology

Läkemedelsbioteknik