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Elulookirjeldus (CV)
1.Eesnimi Peep
2.Perekonnanimi Palumaa
3.Töökoht Tallinna Tehnikaülikool, Geenitehnoloogia Instituut
4.Ametikoht professor
5.Sünniaeg 30.06.1959 (päev.kuu.aasta)
6.Haridus 1986 Ph.D. (teaduste kandidaadi kraad orgaanilises keemias)
1982-1986 Tartu Ülikool, orgaanilise keemia kateeder, aspirant
1977-1982 Tartu Ülikool, keemiaosakond, diplom cum laude bioorgaanilises keemias
7.Teenistuskäik 2002 sept.- k.a.: TTÜ Geenitehnoloogia Instituudi genoomika ja proteoomika korraline professor
2001-2002: TTÜ Geenitehnoloogia Keskus, vanemteadur
1999-2001: TTÜ Alus- ja Rakenduskeemia Instituut, vanemteadur
1994 dets.-1999 sept: TÜ Molekulaar- ja Rakubioloogia Instituut, biokeemia korraline professor
1993 sept. TÜ Molekulaar- ja Rakubioloogia Instituut, biokeemia ôppetooli professori kt.
1992 sept.-1993 veebr: Tartu Ülikool, Bioorgaanilise keemia laboratoorium, vanemteadur
1991-1992: Zürichi Ülikool, Biokeemia Instituut, postdoktorant / vanemassistent
1990 - 1991: Zürichi Ülikool, Biokeemia Instituut, postdoktorant / assistent
1989 - 1990: Zürichi Ülikool, Biokeemia Instituut, Sveits, postdoktorant
1989 mai: Kuopio Ülikool, Soome, külalisteadur
1986-1989: TÜ Bioorgaanilise keemia laboratoorium, nooremteadur, teadur ja vanemteadur.
8.Teaduskraad teaduste kandidaat (Ph.D.)
9.Teaduskraadi välja
andnud asutus, aasta		 Eesti Teaduste Akadeemia Keemiainstituut
10.Tunnustused
11.Teadusorganisatsiooniline
ja –administratiivne
tegevus		 Eesti Biokeemia Selts, viitsepresident
2002- EL 5 Raamprogrammi projekti: The role of zinc metabolism in Alzheimer’s disease. Elaboration of a new strategy for prevention and therapy of Alzheimer’s disease" koordinaator
2000–2002 Swiss Science Officer – Šveitsiga teaduskoostöö organisaator Tallinna Tehnikaülikoolis
2000–2002 Swiss Science Officer at Tallinn University of Technology
1995-1998 EÜ TEMPUS JEP projekti “Restructuring of Biochemical Education in the University of Tartu” koordinaator.
12.Juhendamisel kaitstud
väitekirjad

Elo Eriste, PhD, 2004, juh. Peep Palumaa. Purification, structure and function of bioactive peptides. Karolinska Instituut, Rootsi

Indrek Tammiste, MSc, 2004, juh. Peep Palumaa. Metallotioneiin-2 ja metallotioneiin-3 metallisidumisomaduste ja sekundaarstruktuuri võrdlev analüüs. Tallinna Tehnikaülikool

Julia Smirnova, MSc, 2004, juh. Peep Palumaa. Metallotioneiini isovormide metallide sidumisomaduste võrdlev analüüs. Tallinna Tehnikaülikool

Olga Njunkova, MSc, 2002, juh. Peep Palumaa. Metallotioneiin-3 metallide sidumisomaduste uuringud ESI-MS abil. Tallinna Tehnikaülikool

Liina Kangur, MSc, 2000, juh. Peep Palumaa. Metallotioneiin-ligand seostumiskonstantide määüramine. Tartu Ülikool

Maret Vaher, MSc, 1995, juh. Peep Palumaa. Kaadmium-metallotioneiini reaktsioon vask(II)-ga. Tartu Ülikool

Rain Lehtme, DSc, 1995, juh. Peep Palumaa. Inimese ajuspetsiifilise metallotioneiini ekspresseerimine E. colis. Tartu Ülikool
13.Teadustöö põhisuunad Metalloproteiinide struktuursed ja spektroskoopilised uuringud (NMR-, EXAFS-, UV-, CD-, luminestsents-, aatomabsorbtsioon-, röntgendifraktsioon, ESI TOF mass-spektroskoopia jne.)
metalloproteiinide funktsionaalsed uuringud (valk – valk, valk – ligand valk – metall interaktsioonid)
Rekombinantsete peptiidide ja valkude biotehnoloogia
Tsingi ja vase metabolism normaalses ja patoloogilistes tingimustes
Alzheimeri haiguse uute terapeutikumide väljatöötamine.
14.Jooksvad grandid 1. EL 5. Raamprogrammi CA projekt: The role of zinc metabolism in Alzheimer’s disease. Elaboration of a new strategy for prevention and therapy of Alzheimer’s disease" Koordinaator
2. DFG & University of Münster “Structure of polynuclear metal thiolate clusters”. TTÜ & Münsteri Ülikooli koostöögrant
3. "Structural studioes of metallothionein-4" Gebert Rüf Stiftung, Sveits, koostöögrant Zürichi Ülikooli Biokeemia Instituudiga
4. ETF grant 5635 "Tsingi metabolismi roll Alzheimeri haiguses. Uue strateegia väljatöötamine Alzheimeri haiguse preventsiooniks ja raviks"
15.Teaduspublikatsioonid

Palumaa, P., Tammiste, I., Kangur, L., Kruusel, K., Jörnvall, H., Sillard, R. Metal-binding of metallothionein-3 versus metallothionein-2: lower affinity and higher plasticity (2005), BBA - Proteins and Proteomics, 1747 (2), 205-211.

Palumaa, P., Voronova, A., Kangur, L., Sillard, R., Meyer-Klauke, W., Meyer, T., Rompel, A. „Mammalian copper chaperone Cox17 exists in two metalloforms linked by oxydative switch“. The FEBS Journal 272, Supplement 1, July 2005. Abstracts 30th FEBS Congress and 9th IUMB Conference, Budapest 2-7 July 2005, p. 386-387

Palumaa, P. Kangur, L. Voronova, A. and Sillard, R. Mechanism of metal binding by Cox17, a copper chaperone for cytochrome c oxidase. (2004), Biochem. J. 382, 307-314.

Eriste E, Kruusel K, Palumaa P, Jörnvall H, Sillard R. Purification of recombinant human apometallothionein-3 and reconstitution with zinc. Protein Expr. Purif. 2003, 31(1), 161-165.

Palumaa P, Eriste E, Kangur L, Jörnvall H, Sillard R. Metal binding to brain-specific metallothionein-3 studied by electrospray ionization mass spectrometry. Cell. Mol. Biol. 2003, 49(5), 763-768.

Palumaa, P., Eriste, E., Njunkova, O., Pokras, L., Jörnvall, H., and Sillard, R. The brain-specific metallothionein-3 has higher metal-binding capacity as compared to the ubiquitous metallothioneins and binds metals non-cooperatively. (2002) Biochemistry, 41(19), 6158-6163.

Palumaa, P., Njunkova, O., Pokras, L., Eriste, E., Jörnvall, H., and Sillard, R. Evidence for non-isostructural replacement of Zn2+ with Cd2+ in the b-domain of brain-specific metallothionein-3. (2002) FEBS Letters, 527, 76 - 80.

Kangur, L and Palumaa, P. Reactivity of Metallothionein towards 5,5'-dithio-bis(2-nitrobenzoic acid). New Method for determination of binding constants for metallothionein – ligand interactions. (2001) Eur. J. Biochem., 268, 4979-4987.

Vaher, M., Romero-Isart, N., Vasak, M. and Palumaa, P. Reactivity of Cd7-metallothionein with Cu(II) ions: Evidence for a cooperative formation of Cd3,Cu(I)5-metallothionein (2001) J. Inorg. Biochem. 83, 1-6.

Bonetto, V., Kangur, L., Palumaa P., Mutt V., Jörnvall H., Sillard R. Large scale purification of Calbindin D9K from Porcine Intestine. (1999) Protein Expr. Purif. 17, 387 - 391.

Palumaa, P. and Lehtme, R. Biochemical characterization of monomeric and dimeric cadmium-substituted metallothionein-3. In: Metallothionein IV. 1998 Birkhäuser, p. 63 – 69.

Palumaa, P. and Vaher, M. Metal-induced dimerization of Cd7-metallothionein. Role of Anions. (1996) Ann. Clin. Lab. Sci. Vol. 26, No. 3, 264-268.

Palumaa P., Vasak M. Formation and spectroscopic characterization of a novel monomeric cadmium- and phosphate-containing form of metallothionein. (1993) Biochemistry 32, 2874-2879.

Palumaa P., Mackay E. A., Vasak M. Nonoxidative cadmium-dependent dimerization of Cd7-metallothionein from rabbit liver. (1992) Biochemistry 31, 2181-2186.

Palumaa P., Vasak M. Binding of inorganic phosphate to the cadmium-induced dimeric form of metallothionein from rabbit liver. (1992) Eur. J. Biochem. 205, 1131-1135.

Santa H., Laatikainen R., Lötjonen S., Palumaa P. Dynamic NMR determination of the N,N-dimethyl inversion rate and apparent Inversion free nergy in 2-hydroxy-N,N-dimethyl-2-phenylethylamine. (1992) J. Chem. Research (S), 198-199.

Zorko M., Palumaa P., Kask K. Binding of some aromatic ligands to the active site of acetylcholinesterase. (1991) Periodicum Biologorum 2, 355-356.

Zorko M., Langel U., Palumaa P. Simultaneous action of quaternary ammonium ligands and alkanesulfonylchlorides on electric eel acetylcholinesterase. (1990) Periodicum Biologorum 4, 385-391.

Palumaa P., Kask K. Biomimetic modelling of spatial structure of acetylcholinesterase active site with cyclodextrins. (1989) Organic Reactivity 26, 122-141.

Sepp A., Palumaa P., Langel U., Järv J., Zorko M. Spatial orientation of n-alkanesulfonyl chlorides in the active center of cholinesterases. (1989) Bioorg. Chem. 17, 79-85.

Eller M., Järv J., Palumaa P. Influence of non-radioactive ligand on kinetics of N-methyl-[3H]scopolamine binding to muscarinic receptor. (1988) Organic reactivity 25, 372-386.

Palumaa P., Järv J., Schevchenko V., Myasojedov N. Synthesis f -(N,N-dimethylamino)4,-3H-acetophenon. (1986) Radiokhim.(USSR) 22, 231-232.

Palumaa P., Järv J. Alkylboronic acid acceleration of acetylcholinesterase alkylation with N,N- dimethyl-2-phenylaziridinium ion. (1985) Bioorg. Khim. (USSR) 11, 1210-1216.

Palumaa P., Raidaru G., Schevchenko V., Järv J., Myasojedov N Synthesis of tritium labeled N,N- dimethyl-2-phenylaziridinium and its reaction with acetylcholinesterase. (1985) Bioorg. Khim. (USSR) 11, 1348-1352.

Palumaa P., Soomets U., Järv J. Effects of reaction medium and temperature on solvolysis of N,N-dimethyl-2-phenylaziridinium ion. (1985) Organic reactivity 22, 238-257.

Palumaa P., Järv J. Alkylboronic acids accelerate affinity labeling of acetylcholinesterase with N,N- dimethyl-2-phenylaziridinium ion. (1984) Biochim. Biophys. Acta 784, 35-39.

Palumaa P., Raba R., Järv J. Site-specificity of butyrylcholinesterase alkylation with N,N- dimethyl-2- phenylaziridinium ion. (1984) Biochim. Biophys. Acta 791, 15-20.

Palumaa P., Käämbre T., Järv J. Kinetics of the reaction of N,N-dimethyl-2-phenylaziridinium ions with muscarinic receptor and acetylcholinesterases. (1983) Bioorg. Khim. (USSR) 9, 1348-1355.

Palumaa P., Mähar A,. Järv J. Kinetic analysis of butyrylcholinesterase inhibition with N,N- dimethyl-2-phenylaziridinium ion. (1982) Bioorg. Chem. 11, 394-403.

viimati muudetud: 15.08.2005

Curriculum Vitae (CV)
1.First Name Peep
2.Surname Palumaa
3.Institution Tallinn University of Technology , Department of Gene Technology
4.Position professor
5.Date of birth 30.06.1959 (day.month.year)
6.Education 1986 Candidate of sciences (Ph.D.), Institute of Chemistry, Estonian Academy of Sciences
1977-1982 Diploma Cum Laude (Bioorganic Chemistry), University of Tartu
7.Research and
professional experience		 2002-present Professor of genomics and proteomics, Institute of Gene Technology, Tallinn Technical University, Estonia
2001-2002Senior Research Scientist, Center of Gene Technology, Tallinn Technical University, Estonia
1999-2001 Senior Research Scientist, Institute of Basic and Applied Chemistry, Tallinn Technical University, Estonia
1993-1999 Professor of Biochemistry, Institute of Molecular and Cell Biology, University of Tartu, Estonia
1996 Visiting Research Scientist, Institute of Biochemistry, University of Zürich
1995 Visiting Research Scientist, Institute of Chemistry, University of Münster, Germany
1992 – 1993 Senior Research Scientist, Laboratory of Bioorganic Chemistry, University of Tartu, Estonia
1991 – 1992 Senior Assistant, Institute of Biochemistry, Univesity of Zürich, Switzerland
1990 – 1991 Assistant, Institute of Biochemistry, Univesity of Zürich
1991 – 1992 Postdoctoral Fellow, Institute of Biochemistry, Univesity of Zürich
1986 – 1989 Research Scientist, Laboratory of Bioorganic Chemistry, University of Tartu
8.Academic degree candidate of sciences (Ph.D.)
9.Dates and sites of
earning the degrees		 Institute of Chemistry, Estonian Academy of Sciences
10.Honours/awards
11.Research-administrative
experience		 Estonian Biochemical Society, vice president
2002-2005 EU 5th FP Concerted action project ”Role of zinc in Alzheimer’s disease. Elaboration of new strategy for prevention and therapy of Alzheimer’s disease”. Coordinator
1995–1998 EU TEMPUS JEP “Restructuring of biochemical education at the University of Tartu” Coordinator
12.Supervised dissertations

Elo Eriste, PhD, 2004, superv. Peep Palumaa. Purification, structure and function of bioactive peptides. Karolinska Instituut, Rootsi

Indrek Tammiste, MSc, 2004, superv. Peep Palumaa. Metallotioneiin-2 ja metallotioneiin-3 metallisidumisomaduste ja sekundaarstruktuuri võrdlev analüüs. Tallinna Tehnikaülikool

Julia Smirnova, MSc, 2004, superv. Peep Palumaa. Metallotioneiini isovormide metallide sidumisomaduste võrdlev analüüs. Tallinna Tehnikaülikool

Olga Njunkova, MSc, 2002, superv. Peep Palumaa. Metallotioneiin-3 metallide sidumisomaduste uuringud ESI-MS abil. Tallinna Tehnikaülikool

Liina Kangur, MSc, 2000, superv. Peep Palumaa. Metallotioneiin-ligand seostumiskonstantide määüramine. Tartu Ülikool

Maret Vaher, MSc, 1995, superv. Peep Palumaa. Kaadmium-metallotioneiini reaktsioon vask(II)-ga. Tartu Ülikool

Rain Lehtme, DSc, 1995, superv. Peep Palumaa. Inimese ajuspetsiifilise metallotioneiini ekspresseerimine E. colis. Tartu Ülikool
13.Current research program Structural proteomics, neurodegenerative diseases, biomedical and environmental applications of metalloproteins,
Bioinorganic chemistry of zinc and copper, structural and spectroscopic studies of metalloproteins
Biomimetic modeling and mechanisms of enzyme action
Quantitative structure - affinity relationships in enzymatic reactions, affinity labeling of cholinesterases, synthesis of tritium – labeled ligands
14.Current grant funding 2002 - 2005 EU 5th FP Concerted action project ”Role of zinc in Alzheimer’s disease. Elaboration of new strategy for prevention and therapy of Alzheimer’s disease”. Coordinator
2002 - 2006 Collaboration Grant with University of Zürich from Gebert Rüf Stiftung
1994 - 2002 Estonian Science Foundation Grants "Role of zinc in Alzheimer’s disease. Elaboration of new strategy for prevention and therapy of Alzheimer’s disease”
15.List of most important publications

Palumaa, P., Tammiste, I., Kangur, L., Kruusel, K., Jörnvall, H., Sillard, R. Metal-binding of metallothionein-3 versus metallothionein-2: lower affinity and higher plasticity (2005), BBA - Proteins and Proteomics, 1747 (2), 205-211.

Palumaa, P., Voronova, A., Kangur, L., Sillard, R., Meyer-Klauke, W., Meyer, T., Rompel, A. „Mammalian copper chaperone Cox17 exists in two metalloforms linked by oxydative switch“. The FEBS Journal 272, Supplement 1, July 2005. Abstracts 30th FEBS Congress and 9th IUMB Conference, Budapest 2-7 July 2005, p. 386-387

Palumaa, P. Kangur, L. Voronova, A. and Sillard, R. Mechanism of metal binding by Cox17, a copper chaperone for cytochrome c oxidase. (2004), Biochem. J. 382, 307-314.

Eriste E, Kruusel K, Palumaa P, Jörnvall H, Sillard R. Purification of recombinant human apometallothionein-3 and reconstitution with zinc. Protein Expr. Purif. 2003, 31(1), 161-165.

Palumaa P, Eriste E, Kangur L, Jörnvall H, Sillard R. Metal binding to brain-specific metallothionein-3 studied by electrospray ionization mass spectrometry. Cell. Mol. Biol. 2003, 49(5), 763-768.

Palumaa, P., Eriste, E., Njunkova, O., Pokras, L., Jörnvall, H., and Sillard, R. The brain-specific metallothionein-3 has higher metal-binding capacity as compared to the ubiquitous metallothioneins and binds metals non-cooperatively. (2002) Biochemistry, 41(19), 6158-6163.

Palumaa, P., Njunkova, O., Pokras, L., Eriste, E., Jörnvall, H., and Sillard, R. Evidence for non-isostructural replacement of Zn2+ with Cd2+ in the b-domain of brain-specific metallothionein-3. (2002) FEBS Letters, 527, 76 - 80.

Kangur, L and Palumaa, P. Reactivity of Metallothionein towards 5,5'-dithio-bis(2-nitrobenzoic acid). New Method for determination of binding constants for metallothionein – ligand interactions. (2001) Eur. J. Biochem., 268, 4979-4987.

Vaher, M., Romero-Isart, N., Vasak, M. and Palumaa, P. Reactivity of Cd7-metallothionein with Cu(II) ions: Evidence for a cooperative formation of Cd3,Cu(I)5-metallothionein (2001) J. Inorg. Biochem. 83, 1-6.

Bonetto, V., Kangur, L., Palumaa P., Mutt V., Jörnvall H., Sillard R. Large scale purification of Calbindin D9K from Porcine Intestine. (1999) Protein Expr. Purif. 17, 387 - 391.

Palumaa, P. and Lehtme, R. Biochemical characterization of monomeric and dimeric cadmium-substituted metallothionein-3. In: Metallothionein IV. 1998 Birkhäuser, p. 63 – 69.

Palumaa, P. and Vaher, M. Metal-induced dimerization of Cd7-metallothionein. Role of Anions. (1996) Ann. Clin. Lab. Sci. Vol. 26, No. 3, 264-268.

Palumaa P., Vasak M. Formation and spectroscopic characterization of a novel monomeric cadmium- and phosphate-containing form of metallothionein. (1993) Biochemistry 32, 2874-2879.

Palumaa P., Mackay E. A., Vasak M. Nonoxidative cadmium-dependent dimerization of Cd7-metallothionein from rabbit liver. (1992) Biochemistry 31, 2181-2186.

Palumaa P., Vasak M. Binding of inorganic phosphate to the cadmium-induced dimeric form of metallothionein from rabbit liver. (1992) Eur. J. Biochem. 205, 1131-1135.

Santa H., Laatikainen R., Lötjonen S., Palumaa P. Dynamic NMR determination of the N,N-dimethyl inversion rate and apparent Inversion free nergy in 2-hydroxy-N,N-dimethyl-2-phenylethylamine. (1992) J. Chem. Research (S), 198-199.

Zorko M., Palumaa P., Kask K. Binding of some aromatic ligands to the active site of acetylcholinesterase. (1991) Periodicum Biologorum 2, 355-356.

Zorko M., Langel U., Palumaa P. Simultaneous action of quaternary ammonium ligands and alkanesulfonylchlorides on electric eel acetylcholinesterase. (1990) Periodicum Biologorum 4, 385-391.

Palumaa P., Kask K. Biomimetic modelling of spatial structure of acetylcholinesterase active site with cyclodextrins. (1989) Organic Reactivity 26, 122-141.

Sepp A., Palumaa P., Langel U., Järv J., Zorko M. Spatial orientation of n-alkanesulfonyl chlorides in the active center of cholinesterases. (1989) Bioorg. Chem. 17, 79-85.

Eller M., Järv J., Palumaa P. Influence of non-radioactive ligand on kinetics of N-methyl-[3H]scopolamine binding to muscarinic receptor. (1988) Organic reactivity 25, 372-386.

Palumaa P., Järv J., Schevchenko V., Myasojedov N. Synthesis f -(N,N-dimethylamino)4,-3H-acetophenon. (1986) Radiokhim.(USSR) 22, 231-232.

Palumaa P., Järv J. Alkylboronic acid acceleration of acetylcholinesterase alkylation with N,N- dimethyl-2-phenylaziridinium ion. (1985) Bioorg. Khim. (USSR) 11, 1210-1216.

Palumaa P., Raidaru G., Schevchenko V., Järv J., Myasojedov N Synthesis of tritium labeled N,N- dimethyl-2-phenylaziridinium and its reaction with acetylcholinesterase. (1985) Bioorg. Khim. (USSR) 11, 1348-1352.

Palumaa P., Soomets U., Järv J. Effects of reaction medium and temperature on solvolysis of N,N-dimethyl-2-phenylaziridinium ion. (1985) Organic reactivity 22, 238-257.

Palumaa P., Järv J. Alkylboronic acids accelerate affinity labeling of acetylcholinesterase with N,N- dimethyl-2-phenylaziridinium ion. (1984) Biochim. Biophys. Acta 784, 35-39.

Palumaa P., Raba R., Järv J. Site-specificity of butyrylcholinesterase alkylation with N,N- dimethyl-2- phenylaziridinium ion. (1984) Biochim. Biophys. Acta 791, 15-20.

Palumaa P., Käämbre T., Järv J. Kinetics of the reaction of N,N-dimethyl-2-phenylaziridinium ions with muscarinic receptor and acetylcholinesterases. (1983) Bioorg. Khim. (USSR) 9, 1348-1355.

Palumaa P., Mähar A,. Järv J. Kinetic analysis of butyrylcholinesterase inhibition with N,N- dimethyl-2-phenylaziridinium ion. (1982) Bioorg. Chem. 11, 394-403.

last updated: 15.08.2005

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