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12. EPR studies on a stable sulfinyl radical observed in the iron-oxygen-reconstituted Y177F/1263C protein R2 double mutant of ribonucleotide reductase from mouse

Author

Adrait, Annie, Ohrstrom, Maria, Barra, Anne-Laure, Thelander, Lars, and Graslund, Astrid

Subjects
Biochemistry -- Research, Bacterial proteins -- Genetic aspects, Gene mutations -- Physiological aspects, Iron -- Physiological aspects, Oxygen -- Physiological aspects, Radicals (Chemistry) -- Physiological aspects, Ribonucleotides -- Genetic aspects, Biological sciences, Chemistry
Abstract

Research has been conducted on the ribonucleotide reductase which catalyzes deoxyribonucleotide biosynthesis. Results suggest that sulfinyl radicals are important intermediates in the ribonucleotide reductase radical chemistry.

Published
2002

14. Metabolic fate of oxidized guanine ribonucleoticdes in mammalian cells

Author

Hayakawa, Hiroshi, Hofer, Anders, Thelander, Lars, Kitajima, Shigetaka, Cai, Yong, Oshiro, Satoru, Yakushiji, Hiroyuki, Nakabeppu, Yusaku, Kuwano, Michihiko, and Sekiguchi, Mutsuo

Subjects
Nucleotides -- Research, Radicals (Chemistry) -- Research, Cells -- Analysis, Biological sciences, Chemistry
Abstract

A study was conducted to analyze the interconversion and metabolic fate of 8-oxoguanine-containing ribonucleotides in mammalian cells. Bio-Rad protein assay kits were utilized with bovine serum albumin to obtain protein concentration. Experimental results indicated that the ribonucleotide reductase may prevent the influx of potent genotoxic substrates from the oxidized ribonucleotide pool.

Published
1999

17. EPR study of the mixed-valent diiron sites in mouse and herpes simplex virus ribonucleotide reductases. Effect of the tyrosyl radical on structure and reactivity of the diferric center

Author

Davydov, Roman M., Davydov, Albert, Ingemarson, Rolf, Thelander, Lars, Ehrenberg, Anders, and Graslund, Astrid

Subjects
Recombinant proteins -- Research, Mice -- Physiological aspects, Biological sciences, Chemistry
Abstract

Researchers have investigated the mixed-valent states of the recombinant mammalian (mouse) and HSV1 R2 proteins. An EPR study looked at the diiron sites in mouse and HSV1 R2 proteins obtained by reduction in frozen solution at 77 K with mobile electrons produced by gamma-radiolysis. It was established that gamma-irradiation of mouse and HSV1 R2 proteins in a water-glycerol glass at 77 K leads to transient mixed-valent diiron intermediates in quite high yields.

Published
1997

18. A kinetic study on the influence of nucleoside triphosphate effectors on subunit interaction in mouse ribonucleotide reductase

Author

Ingemarson, Rolf and Thelander, Lars

Subjects
Enzymes -- Regulation, Binding sites (Biochemistry) -- Research, Adenosine triphosphate -- Physiological aspects, Biological sciences, Chemistry
Abstract

The binding of the nucleoside triphosphates ATP, dATP, dTTP and dGTP effectors helps in the formation of the R1 homodimer protein which is necessary for binding to the R2 homodimer to form the mouse ribonucleotide reductase. The binding of ATP or dATP to the active site of the enzyme regulates enzyme activity. The regulation occurs through control of electron transport between the catalytic site of the subunit R1 and the tyrosyl free radical of the subunit R2, rather than a change in the aggregation state of R1/R2.

Published
1996

19. De novo dNTP production is essential for normal postnatal murine heart development

Author

Tran, Phong, Wanrooij, Paulina H., Lorenzon, Paolo, Sharma, Sushma, Thelander, Lars, Nilsson, Anna Karin, Olofsson, Anna-Karin, Medini, Paolo, von Hofsten, Jonas, Stål, Per, Chabes, Andrei, Tran, Phong, Wanrooij, Paulina H., Lorenzon, Paolo, Sharma, Sushma, Thelander, Lars, Nilsson, Anna Karin, Olofsson, Anna-Karin, Medini, Paolo, von Hofsten, Jonas, Stål, Per, and Chabes, Andrei

Abstract

The building blocks of DNA, dNTPs, can be produced de novo or can be salvaged from deoxyribonucleosides. However, to what extent the absence of de novo dNTP production can be compensated for by the salvage pathway is unknown. Here, we eliminated de novo dNTP synthesis in the mouse heart and skeletal muscle by inactivating ribonucleotide reductase (RNR), a key enzyme for the de novo production of dNTPs, at embryonic day 13. All other tissues had normal de novo dNTP synthesis and theoretically could supply heart and skeletal muscle with deoxyribonucleosides needed for dNTP production by salvage. We observed that the dNTP and NTP pools in wild-type postnatal hearts are unexpectedly asymmetric, with unusually high dGTP and GTP levels compared with those in whole mouse embryos or murine cell cultures. We found that RNR inactivation in heart led to strongly decreased dGTP and increased dCTP, dTTP, and dATP pools; aberrant DNA replication; defective expression of muscle-specific proteins; progressive heart abnormalities; disturbance of the cardiac conduction system; and lethality between the second and fourth weeks after birth. We conclude that dNTP salvage cannot substitute for de novo dNTP synthesis in the heart and that cardiomyocytes and myocytes initiate DNA replication despite an inadequate dNTP supply. We discuss the possible reasons for the observed asymmetry in dNTP and NTP pools in wildtype hearts.

Published
2019
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21. 1H NMR studies of mouse ribonucleotide reductase: the R2 protein carboxyl-terminal tail, essential for subunit interaction, is highly flexible but becomes rigid in the presence of protein R1

Author

Lycksell, Per-Olof, Ingemarson, Rolf, Davis, Ralph, Graslund, Astrid, and Thelander, Lars

Subjects
Mice -- Genetic aspects, Ribonucleotides -- Analysis, Nuclear magnetic resonance spectroscopy -- Analysis, Biological sciences, Chemistry
Abstract

Nonidentical protein subunits, R1 and R2, are each inactive in the absence of the other, and constitute the mouse ribonucleotide reductase. Active enzyme complexes are formed by the carboxyl-terminal region of the R2 protein. The R2 protein also produces sharp H1 nuclear magnetic resonance spectroscopic lines. The lines are much narrower than the resonance lines. Reduction in the broadening of the spectral lines indicates molecular segmental mobility.

Published
1994

25. Metal binding and activity of ribonucleotide reductase protein R2 mutants: conditions for formation of the mixed manganese-iron cofactor

Author

Popovic-Bijelic, Ana, Voevodskaya, Nina, Domkin, Vladimir, Thelander, Lars, and Graslund, Astrid

Subjects
Chlamydia trachomatis -- Research, Escherichia coli -- Research, Iron compounds -- Chemical properties, Iron compounds -- Structure, Ribonucleotides -- Chemical properties, Biological sciences, Chemistry
Abstract

Comparative studies of the metal content and specific activity of the Chlamydia trachomatis (C. tm.) wild-type R2 protein and its F127Y mutant, as well as the native mouse R2 protein and its Y177F mutant, all produced as recombinant proteins in Escherichia coli are reported. The results indicated that the affinity of the RNR R2 proteins for binding metals is influenced by the nature of one specific residue in the vicinity of the dimetal site, namely the one that carries the tyrosyl radical in class Ia and Ib R2 proteins.

Published
2009

26. Survival of DNA damage in yeast directly depends on increased dNTP levels allowed by relaxed feedback inhibition of ribonucleotide reductase

Author

Chabes, Andrei, Georgieva, Xiaolan, Rothstein, Rodney, and Thelander, Lars

Subjects
DNA damage -- Genetic aspects, DNA damage -- Physiological aspects, Mechanical chemistry -- Research, Metabolic regulation -- Physiological aspects, Biological sciences
Abstract

Results indicate that in yeast cells there is a 6- to 8-fold increase in the deoxyribonucleoside triphosphate (dNTP) levels after DNA damage, which is brought about by a dATP feedback inhibition mechanism of ribonucleotide reductase as shown by a mutant lacking the feedback inhibiton machinery. Data show that increased dNTP pools markedly improve survival following DNA damage.

Published
2003

27. Yeast ribonucleotide reductase has a heterodimeric iron-radical-containing subunit

Author

Chabes, Andrei, Domkin, Vladimir, Larsson, Goran, Liu, Aimin, Graslund, Astrid, Wijmenga, Sybren, and Thelander, Lars

Subjects
Ribonucleotides -- Research, Yeast -- Genetic aspects, Science and technology
Abstract

Ribonucleotide reductase (RNR) catalyzes the de novo synthesis of deoxyribonucleotides. Eukaryotes have an [[Alpha].sub.2][[Beta].sub.2] form of RNR consisting of two homodimeric subunits, proteins R1 ([[Alpha].sub.2]) and R2 ([[Beta].sub.2]). The R1 protein is the business end of the enzyme containing the active site and the binding sites for allosteric effectors. The R2 protein is a radical storage device containing an iron center-generated tyrosyl free radical. Previous work has identified an RNR protein in yeast, Rnr4p, which is homologous to other R2 proteins but lacks a number of conserved amino acid residues involved in iron binding. Using highly purified recombinant yeast RNR proteins, we demonstrate that the crucial role of Rnr4p ([Beta]') is to fold correctly and stabilize the radical-storing Rnr2p by forming a stable 1:1 Rnr2p/Rnr4p complex. This complex sediments at 5.6 S as a [Beta][Beta]' heterodimer in a sucrose gradient. In the presence of Rnr1p, both polypeptides of the Rnr2p/Rnr4p heterodimer cosediment at 9.7 S as expected for an [[Alpha].sub.2][Beta][Beta]' heterotetramer, where Rnr4p plays an important role in the interaction between the [[Alpha].sub.2] and the [Beta][Beta]' subunits. The specific activity of the Rnr2p complexed with Rnr4p is 2,250 nmol deoxycytidine 5'-diphosphate formed per min per mg, whereas the homodimer of Rnr2p shows no activity. This difference in activity may be a consequence of the different conformations of the inactive homodimeric Rnr2p and the active Rnr4p-bound form, as shown by CD spectroscopy. Taken together, our results show that the Rnr2p/Rnr4p heterodimer is the active form of the yeast RNR small subunit.

Published
2000

31. Trypanosoma brucei thymidine kinase is tandem protein consisting of two homologous parts, which together enable efficient substrate binding

Author

Ranjbarian, Farahnaz, Vodnala, Munender, Vodnala, Sharvani Munender, Rofougaran, Reza, Thelander, Lars, Hofer, Anders, Ranjbarian, Farahnaz, Vodnala, Munender, Vodnala, Sharvani Munender, Rofougaran, Reza, Thelander, Lars, and Hofer, Anders

Abstract

Trypanosoma brucei causes African sleeping sickness, a disease for which existing chemotherapies are limited by their toxicity or lack of efficacy. We have found that four parasites, including T. brucei, contain genes where two or four thymidine kinase (TK) sequences are fused into a single open reading frame. The T. brucei full-length enzyme as well as its two constituent parts, domain 1 and domain 2, were separately expressed and characterized. Of potential interest for nucleoside analog development, T. brucei TK was less discriminative against purines than human TK1 with the following order of catalytic efficiencies: thymidine > deoxyuridine ≫ deoxyinosine > deoxyguanosine. Proteins from the TK1 family are generally dimers or tetramers, and the quaternary structure is linked to substrate affinity. T. brucei TK was primarily monomeric but can be considered a two-domain pseudodimer. Independent kinetic analysis of the two domains showed that only domain 2 was active. It had a similar turnover number (k(cat)) as the full-length enzyme but could not self-dimerize efficiently and had a 5-fold reduced thymidine/deoxyuridine affinity. Domain 1, which lacks three conserved active site residues, can therefore be considered a covalently attached structural partner that enhances substrate binding to domain 2. A consequence of the non-catalytic role of domain 1 is that its active site residues are released from evolutionary pressure, which can be advantageous for developing new catalytic functions. In addition, nearly identical 89-bp sequences present in both domains suggest that the exchange of genetic material between them can further promote evolution.

Published
2012
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32. p53R2-dependent ribonucleotide reduction provides deoxyribonucleotides in quiescent human fibroblasts in the absence of induced DNA damage

Author

Pontarin, Giovanna, Ferraro, Paola, Håkansson, Pelle, Thelander, Lars, Reichard, Peter, Bianchi, Vera, Pontarin, Giovanna, Ferraro, Paola, Håkansson, Pelle, Thelander, Lars, Reichard, Peter, and Bianchi, Vera

Abstract

Human fibroblasts in culture obtain deoxynucleotides by de novo ribonucleotide reduction or by salvage of deoxynucleosides. In cycling cells the de novo pathway dominates, but in quiescent cells the salvage pathway becomes important. Two forms of active mammalian ribonucleotide reductases are known. Each form contains the catalytic R1 protein, but the two differ with respect to the second protein (R2 or p53R2). R2 is cell cycle-regulated, degraded during mitosis, and absent from quiescent cells. The recently discovered p53-inducible p53R2 was proposed to be linked to DNA repair processes. The protein is not cell cycle-regulated and can provide deoxynucleotides to quiescent mouse fibroblasts. Here we investigate the in situ activities of the R1-p53R2 complex and two other enzymes of the de novo pathway, dCMP deaminase and thymidylate synthase, in confluent quiescent serum-starved human fibroblasts in experiments with [5-3H]cytidine, [6-3H]deoxycytidine, and [C3H3]thymidine. These cells had increased their content of p53R2 2-fold and lacked R2. From isotope incorporation, we conclude that they have a complete de novo pathway for deoxynucleotide synthesis, including thymidylate synthesis. During quiescence, incorporation of deoxynucleotides into DNA was very low. Deoxynucleotides were instead degraded to deoxynucleosides and exported into the medium as deoxycytidine, deoxyuridine, and thymidine. The rate of export was surprisingly high, 25% of that in cycling cells. Total ribonucleotide reduction in quiescent cells amounted to only 2–3% of cycling cells. We suggest that in quiescent cells an important function of p53R2 is to provide deoxynucleotides for mitochondrial DNA replication.

Published
2007
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35. EPR studies of mixed-valent (FeIIFeIII) clusters formed in the R2 subunit of ribonucleotide reductase from mouse or herpes simplex virus: mild chemical reduction of the diferric centers

Author

Atta, Mohamed, Andersson, Kristoffer K., Ingemarson, Rolf, Thelander, Lars, and Graslund, Astrid

Subjects
Herpes simplex virus -- Research, Mice -- Research, Proteins -- Analysis, Electron paramagnetic resonance spectroscopy -- Analysis, Chemistry
Abstract

Diiron clusters in the R2 proteins of mouse and herpes simplex virus 1 ribonucleotide reductase (HSV1 RNR) undergo mild reduction to produce two mixed-valent (Fe(II)Fe(III)) clusters. EPR spectroscopy proves the high yield of this mixed-valent state. The redox properties are different from those of R2 proteins from Escherichia coli. The E. coli iron center is less reactive and more strongly-attached to the R2 protein than in HSV1/2 and mouse.

Published
1994

44. Yeast DNA damage-inducible Rnr3 has a very low catalytic activity strongly stimulated after the formation of a cross-talking Rnr1/Rnr3 complex.

Author

Domkin, Vladimir, Thelander, Lars, Chabes, Andrei, Domkin, Vladimir, Thelander, Lars, and Chabes, Andrei

Abstract

The ribonucleotide reductase system in Saccharomyces cerevisiae includes four genes (RNR1 and RNR3 encoding the large subunit and RNR2 and RNR4 encoding the small subunit). RNR3 expression, nearly undetectable during normal growth, is strongly induced by DNA damage. Yet an rnr3 null mutant has no obvious phenotype even under DNA damaging conditions, and the contribution of RNR3 to ribonucleotide reduction is not clear. To investigate the role of RNR3 we expressed and characterized the Rnr3 protein. The in vitro activity of Rnr3 was less than 1% of the Rnr1 activity. However, a strong synergism between Rnr3 and Rnr1 was observed, most clearly demonstrated in experiments with the catalytically inactive Rnr1-C428A mutant, which increased the endogenous activity of Rnr3 by at least 10-fold. In vivo, the levels of Rnr3 after DNA damage never reached more than one-tenth of the Rnr1 levels. We propose that heterodimerization of Rnr3 with Rnr1 facilitates the recruitment of Rnr3 to the ribonucleotide reductase holoenzyme, which may be important when Rnr1 is limiting for dNTP production. In complex with inactive Rnr1-C428A, the activity of Rnr3 is controlled by effector binding to Rnr1-C428A. This result indicates cross-talk between the Rnr1 and Rnr3 polypeptides of the large subunit.

Published
2002
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45. Cid13 is a cytoplasmic poly(A) polymerase that regulates ribonucleotide reductase mRNA.

Author

Saitoh, Shigeaki, Chabes, Andrei, McDonald, W Hayes, Thelander, Lars, Yates, John R, Russell, Paul, Saitoh, Shigeaki, Chabes, Andrei, McDonald, W Hayes, Thelander, Lars, Yates, John R, and Russell, Paul

Abstract

Fission yeast Cid13 and budding yeast Trf4/5 are members of a newly identified nucleotidyltransferase family conserved from yeast to man. Trf4/5 are thought to be essential DNA polymerases. We report that Cid13 is a poly(A) polymerase. Unlike conventional poly(A) polymerases, which act in the nucleus and indiscriminately polyadenylate all mRNA, Cid13 is a cytoplasmic enzyme that specifically targets suc22 mRNA that encodes a subunit of ribonucleotide reductase (RNR). cid13 mutants have reduced dNTP pools and are sensitive to hydroxyurea, an RNR inhibitor. We propose that Cid13 defines a cytoplasmic form of poly(A) polymerase important for DNA replication and genome maintenance.

Published
2002

46. En litteraturstudie om brännskadade individers upplevelse av lidande

Author

Philipsson, Elisabeth, Thelander, Lars, Philipsson, Elisabeth, and Thelander, Lars

Abstract

The aim was to see how burn victims experience their situation and if they feel suffering. Then it is discussed against different perspectives of suffering. The problems were ?How does a burn victim experience their situation??, ?Does a burn victim suffer?? and ? How does the attitude inflect the suffering?? To find the answers, the authors made a literature review in which already published interviews from ordinary papers were used. In the result, the authors used the individual?s own words. The word shows that the persons suffer in many ways. For example, the look changes, the pain is constant and the people feel insecure in their life. The authors find out that a burn is a traumatic experience and it is a dramatic change in the individual?s life. An individual need to talk about the accident and the situation. It is important that the burn victim feel support so they easier can get on with their life. Sammanfattning Syftet var att ta reda på hur brännskadade människor upplever sin situation och om det förekommer något lidande. Detta diskuteras utifrån olika lidandeperspektiv. Problemformuleringarna var ?Hur upplever brännskadade individer sin situation??, ?Upplever en brännskadad individ ett lidande?? och ?Hur påverkar människans inställning lidandet??. För att belysa detta har författarna gjort en litteraturstudie där publicerade intervjuer, från vanlig dagspress, har använts. I resultatet används citat från de drabbade. Citaten visar att brännskadade individer lider på flera olika sätt. Exempel är att utseendet förändras, att alltid ha olidliga smärtor samt att individerna känner en otrygghet i sitt liv. Författarna har kommit fram till att en brännskada är en traumatisk upplevelse som förändrar individens liv radikalt. En individ behöver få prata igenom sin situation. Det är även viktigt att den drabbade får stöd för att kunna gå vidare i sitt liv.

Published
2002

49. Mammalian p53R2 protein forms an active ribonucleotide reductase in vitro with the R1 protein, which is expressed both in resting cells in response to DNA damage and in proliferating cells

Author

Guittet, Olivier, Håkansson, Pelle, Voevodskaya, Nina, Fridd, Susan, Gräslund, Astrid, Arakawa, Hirofumi, Nakamura, Yusuke, Thelander, Lars, Guittet, Olivier, Håkansson, Pelle, Voevodskaya, Nina, Fridd, Susan, Gräslund, Astrid, Arakawa, Hirofumi, Nakamura, Yusuke, and Thelander, Lars

Published
2001
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