Structural Studies of Bacteriophage PRR1 and HIV-1 protease

Persson, Magnus

January 2010

Viruses are a diverse genera of organisms adapted to thrive in many different hosts from prokaryotic to eukaryotic. We present here the structure of bacteriophage PRR1 virus-like particle (VLP), belonging to Leviviridae family. Our structure reveals calcium ions in the VLP. Metal ions are rare in the VLP among the Leviviridae and the calcium ions were found to affect VLP stability. Gene expression in Leviviridae is controlled by a specific interaction between the viral coat protein that assembles to create the VLP, and the genomic RNA. This interaction has been thoroughly studied for the levivirus MS2 but other structural data are scarce. We have solved the structure of PRR1 VLP in complex with its RNA operator stem-loop. Binding of the stem-loop in PRR1 shows similarities to MS2 but also a different arrangement of the nucleotides, in the area of the loop that we could interpret, compared to MS2. The structures of PRR1 increase our knowledge about translational control in Leviviridae and add new information about particle stability within this family. The other virus we investigated is the more infamous human pathogen, the HIV. Because of the high mutation rate of HIV new drugs are needed on a continuous basis. We describe here the structure of two new protease inhibitors bound to the HIV-1 protease and compare them with two previously published inhibitors. Due to an extended P1´site the new compounds are able to exploit a new interaction to Phe53 in the protease structure. / <p>Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 724</p>

PRR1

HIV

Structural Biology

X-ray crystallography

PRR1

HIV-1 protease

NCS

crystallography

inhibitor

virus

bacteriophage

X-ray crystallography

Virology

Virologi

Molecular biology

Molekylärbiologi

Conserved function of core clock proteins in the gymnosperm Norway spruce (Picea abies L. Karst)

Karlgren, Anna, Gyllenstrand, Niclas, Källman, Thomas, Lagercrantz, Ulf

January 2013

From studies of the circadian clock in the plant model species Arabidopsis (Arabidopsis thaliana), a number of important properties and components have emerged. These include the genes CIRCADIAN CLOCK ASSOCIATED 1 (CCA1), GIGANTEA (GI), ZEITLUPE (ZTL) and TIMING OF CAB EXPRESSION 1 (TOC1 also known as PSEUDO-RESPONSE REGULATOR 1 (PRR1)) that via gene expression feedback loops participate in the circadian clock. Here, we present results from ectopic expression of four Norway spruce (Picea abies) putative homologs (PaCCA1, PaGI, PaZTL and PaPRR1) in Arabidopsis, their flowering time, circadian period length, red light response phenotypes and their effect on endogenous clock genes were assessed. For PaCCA1-ox and PaZTL-ox the results were consistent with Arabidopsis lines overexpressing the corresponding Arabidopsis genes. For PaGI consistent results were obtained when expressed in the gi2 mutant, while PaGI and PaPRR1 expressed in wild type did not display the expected phenotypes. These results suggest that protein function of PaCCA1, PaGI and PaZTL are at least partlyconserved compared to Arabidopsis homologs, however further studies are needed to reveal the protein function of PaPRR1. Our data suggest that components of thethree-loop network typical of the circadian clock in angiosperms were present beforethe split of gymnosperms and angiosperms.

circadian clock

Picea abies (Norway spruce)

transformants

gymnosperm

ZEITLUPE (ZTL)

GIGANTEA (GI)

TIMING OF CAB1 (TOC1 or PRR1)

CIRCADIAN CLOCK ASSOCIATED 1 (CCA1)