Research programme and results

In structure-activity relationship studies on biologically active molecules and their analogues, X-ray diffraction analysis, computational chemistry methods, molecular computer graphics, spectroscopic methods, and bioassays have been used. Molecular recognition approach, based on the characteristic structural parameters, particularly of the active site or bioactive conformations, along with the physico-chemical properties of the molecules studied, have been used in study of biological processes at the molecular and atomic levels. Detailed molecular architecture in the crystalline state and in solution has been used to understand chemical and biological reactions of real and model systems. In molecular (computer) modelling a number of methods have been used: molecular mechanics, molecular dynamics, Monte Carlo approach, combination of quantum-mechanical methods and already mentioned approaches, and QSAR (and /or SAR, QSPR). Interactions of small molecules (substrates and inhibitors) with proteins and nucleic acids, and interactions between protein molecules have been studied. The results of X-ray structure analysis and molecular modelling have been used in studies of intramolecular and, in particular, of intermolecular – non-covalent interactions. The non-covalent interactions are essential in crystal packing, formation of supramolecular compounds, and, in general, for (macro)molecular assembling. In these interactions and in enzymatic catalysis of hydrolases, hydrogen bonding plays a crucial role which is the subject of our research.

Oznaka: 0098030

Tel. ++385 1 4680096   e-mail: cvitas@chem.pmf.hr

Projekt istražuje sastav zraka s obzirom na mikrokonsituene te njihova svojstva, transformacije i transport u atmosferi nad različitim područjima Hrvatske: kontinentalnim krajevima daleko od velikih izvora zagađenja (npr. Medvednica) i primorskim krajevima (npr. Srđ). Objavljen je završni izvještaj rada na EUREKA projektu EUROTRAC/TOR na kojem je suradnja trajala ukupno 12 godina. Za hrvatski doprinos, uz mnoge kroz godine objavljene rezultate, najznačajnije je da je pokazano da 12-godišnji trend koncentracije ozona na referentnoj stanici Puntijarka ima statistički nesignifikantni godišnji pad od 0,3 ppb (0,6 mg/m³).

The project involves investigation of trace constituents of air, their properties, transformation and transport in the atmosphere over different regions of Croatia: continental remote regions (e.g. Medvednica) and coastal areas (e.g. Srđ). The final research report for the EUREKA project EUROTRAC/TOR on which the participation lasted for 12 years was published. From the Croatian side, along with numerous over the years published results, the most important is the finding that the statistical trend analysis of 12 years ozone data at station Puntijarka yielded a statistically unsignificant downward slope of 0.3 ppb per year (0,6 mg/m³).

Oznaka: 0098031

Tel. ++385 1 4561074   e-mail: filipovi@irb.hr

Istraživanja procesa i mehanizama međudjelovanja iona, molekula, molekula u pobuđenom stanju i radikala u modelnim sustavima osnova su za bolje razumijevanje i kontrolu kemijskih reakcija. Osnovni pravci naših interesa su (i) istraživanje jednostavnih i složenih sustava s površinski aktivnim tvarima (PAT), (ii) istraživanje fizičko-kemijskih svojstava, kinetike i reakcijskih mehanizama slobodnih radikala i molekula u pobuđenom stanju u otopinama, te (iii) istraživanje procesa na anorgansko/organskoj međupovršini.

Pripravljene su nove dimerne površinski aktivne tvari (PAT) i istražena je uloga strukture molekule dimerne PAT na strukturu supramolekule. Najvažniji parametar koji određuje svojstva asimetričnih dimernih PAT je duljina hidrofilnog poveznika. Variranjem duljine hidrofilnog poveznika moguća je manipulacija sa strukturom micela, mezomorfnih stanja i uređenjem kristala.

U smjesama suprotno nabijenih ionskih PAT (katanionski sustavi) i smjesama ionska PAT i biopolimer suprotnog naboja, studirane su različite supramolekule, od sfernih do crvolikih micela, “divovskih” vezikula i planarnih lamelnih struktura.

Istraživanje mehanizma reakcija halogeniranih peroksilnih radikala pokazalo je da oni mogu oksidirati neke reaktante prijenosom dva elektrona uz istovremeno stvaranje oksilnih radikala. Peroksilni radikali sudjeluju i u oksidaciji jestivih ulja, a kinetika tog procesa studirana je optotermalnom tehnikom. Određen je kinetički izotopni efekt za reakciju apstrakcije H/D-atoma hidroksilnim radikalima za nekoliko organskih spojeva koji sadrže OH ili amino grupe. Mjerenjem primarnih reakcija degradacije kloriranih fenola s OH-radikalima utvrđeno je stvaranje novih međuprodukata.

Research programme and results:

Investigations of processes and mechanisms of interactions among ions, molecules, molecules in excited states and radicals in model systems are the base for better understanding and control of chemical reactions. In particular, our investigations are focused on single and complex systems with surfactants, (ii) studying of kinetics and reaction mechanisms of free radicals and excited states produced in solutions and (iii) processes at the inorganic/organic interfaces.

Novel generation of dimeric surfactants was prepared and the role of the molecular structure on the self-organization to supramolecules has been investigated. The most important parameter in determining the properties of dissymmetric gemini surfactants is the length of the flexible hydrophobic spacer. By variation of the spacer length we can manipulate the geometrical packing parameter which, in turn, influences the arrangement of a surfactant molecule in its micellar and mesomorphic state, as well as in the crystalline state.

Various supramolecules from spheroids to wormlike micelles, giant vesicles and planar lamellar structures were studied in mixtures of oppositely charged ionic surfactants (catanionic system) and of ionic surfactant and oppositely charged biopolymers.

Investigations of halogenated peroxyl radicals reaction mechanism have revealed that they could oxidize some reactants by two-electron transfer with simultaneous formation of oxyl radicals. Peroxyl radicals are involved also in the oxidation of the vegetable oils; the kinetics of such processes have been studied by the optothermal technique. Kinetic isotope effect has been measured for H/D-atom abstraction by hydroxyl radicals from several organic compounds carryng OH or amino functional groups. By measuring primary degradation reactions of chlorinated phenols with OH-radicals, formation of new transient products could be identified.

Oznaka: 0098032

Tel. ++385 1 4561077   e-mail: dsrzic@irb.hr

Program rada obuhvaća istraživanje homogenih kemijskih reakcije u plinskoj fazi, te heterogenih reakcije u plinovito/čvrstim i plinovito/tekućim fazama koje su od posebne važnosti za biološku aktivnost, kemijsku proizvodnju i istraživanje okoliša, a za koje reakcijski mehanizam nije poznat. Posebno se želi ustanoviti u kojem se opsegu nekom reakcijom može upravljati mijenjanjem uvijeta, odnosno, koji dio zavisi isključivo o reaktantima (intrinzička reaktivnost). Konkretno se istražuju:

I) antioksidantna aktivnost i reakcije izmjene vodika (protona) u biomolekulama;

II) elektronska struktura i ovisnost kemijskih i bioloških svojstava o njoj;

III) ligand/metal interakcije u plinskoj fazi;

IV) svojstva i raspad (bio)molekula pod utjecajem svjetla, zračenja i bombardiranja česticama (optička, fotoelektronska spektroskopija i spektrometrija masa);

V) primjena kvantno-kemijskih i drugih teorijskih metoda u tim istraživanjima.

U skladu s programom rada u protekloj godini:

- fotoelektronskom spektroskopijom uz pomoć sofisticiranih kvantnokemijskih proračuna istraživana je elektronska struktura i elektronske interakcije u dijodonaftalenima, aromatskim pseudohalidima i spojevima sa slobodnim elektronskim parovima dušika (bispidin i derivati tetrazola). Istraživana je i uloga elektronske strukture u biološki aktivnim i farmaceutskim spojevima (anti-HIV spoj zidovudin i antimalarik artemizin);

- spektrometrijom masa istraživani su:

I) ligacija metalnih iona policikličkim, aromatskim ugljikovodicima i/ili njihovim heterocikličkim analozima u plinskoj fazi;

II) praćena je vodik/deuterij izmjena protoniranih i natrioniranih aminokiselina u plinskoj fazi u zavisnosti o donoru deuterija;

III) provedena su istraživanja fragmentacije derivata purinskih nukleinskih kiselina i nukleozida.

Research programme and results:

The research programme comprises investigation of homogeneous chemical reactions in gas phase and heterogeneous reactions in gas/solid and gas/liquid phases of unknown mechanism important for biological acivity, chemical production and in environmental processes. The main aim is to find to which extent a reaction can be governed by changing conditions; in other words, which part depends exclusively on the reactants (intrinsic reactivity). Investigations will be focused on:

I) antioxidant activity and reactions of hydrogen (proton) exchange in biomolecules;

II) dependence of chemical and biological activity on electronic structure;

III) ligand/metal interactions in gas phase;

IV) properties and transformations of (bio)molecules under the influence of light, radiation and bombardment with particles (optical, photoelectron spectroscopy and mass spectrometry);

V) application of quantum-chemical calculations and other theoretical methods.

Within the last year research programme:

- the electronic structure and electronic interactions in diiodonaphthalenes, aromatic pseudohalides and compounds with nitrogen ione pairs [bispidine and tetrazole derivatives] have been investigated by photoelectron spectroscopy in conjunction with high-level quantum chemical calculations. The role of electronic structure in the biological activity of important pharmaceuticals (anti-HIV drug zidovudine and anti-malarial agent artemisinine) has also been studied;

- using mass spectrometry:

I) reactions of metal ions with polycyclic aromatic hydrocarbons and/or their heterocyclic analogues in gaseous phase;

II) gas phase H/D exchange in protonated phenylalanine, proline, tyrosine and tryptophan, III) fragmentation of derivatives of purine nucleic bases and nucleosides were investigated.

Oznaka: 0098033

Tel. ++385 1 4561 089   e-mail: sabljic@irb.hr

Temeljni ciljevi projekta su istraživanja reakcijskih mehanizama te termodinamičkih i kinetičkih svojstava dominantnih oksidacijskih procesa u troposferi te procesa intramolekularnog prijenosa vodika. Provedeno je detaljno ab initio CASSCF/CASPT2 istraživanje reakcijskog mehanizma adicije ozona na fluoreten u plinskoj fazi. Počevši od primarnog adicijskog produkta (primarni fluorozonid), istraženi su svi mogući konfiguracijski i konformacijski načini daljnjeg cijepanja primarnog fluorozonida u odgovarajući Criegee-ov međuprodukt i karbonilni spoj. Sve stacionarne točke na reakcijskoj plohi i pripadni harmonijski vibracijski valni brojevi izračunati su na CASSCF/cc-pVTZ razini teorije. Elektronske energije u stacionarnim točkama potom su utočnjene na CASPT2/cc-pVTZ razini, uzevši optimiranu CASSCF/cc-pVTZ valnu funkciju kao referentnu funkciju nultoga reda za multireferentni perturbacijski račun do drugoga reda (PT2). Energijski najpovoljnije cijepanje primarnog fluorozonida daje karbonilni oksid (Criegee-ov međuprodukt) i formil-fluorid, i to u anti-konformaciji s obzirom na međusobni položaj vršnog kisika u Criegee-ovom međuproduktu i atoma fluora u karbonilnom spoju. Reakcijske konstante su izračunate prema RRKM teoriji i pokazuju da je ta reakcijska staza zastupljena do 98%, što je u suglasju s predviđanjima temeljenim na mjerenjima. Raspad sekundarnog fluorozonida najčešće ide putem neusklađenog mehanizma koji započinje pucanjem kisik-kisik veze.

Koristeći četverodimenzionalane plohe potencijalne energije u normalnim koordinatama istraživana je dinamika intramolekularne vodikove veze u malonaldehidu i acetilacetonu. Posebna pozornost posvećena je snažnom sprezanju vrpce OH istezanja i istezanja vodikove veze. Pritom je pokazano da karakterizacija vrpce OH istezanja nije adekvatna u terminima osnovnih spektroskopskih prijelaza. Izračunati vibracijski spektri ukazuju na snažno sprezanje nisko frekventnih modova koji uključuju istezanje vodikove veze i visoko frekventnog istezanja OH (OD) veze. Nadalje, koristeći simetrično deuterirane spojeve pokazano je da su relativni položaj, struktura i intenzitet OH/OD vrpci jako ovisni o topologiji plohe potencijalne energije. Radili smo i na analitičkom oblikovanju multirezonantnih laserskih pulseva namijenjenih kontroli prijenosa populacije u općenitim kvantnim sustavima. Specifično, postignuto je dobro slaganje izmedju analitički i numerički optimiziranih pulseva u kontroli populacije HF rovibratora u osnovnom elektronskom stanju.

Research programme and results:

The main goal of this proposal is to investigate the reaction mechanisms and thermodynamic and kinetic properties of the dominant oxidation processes in the troposphere as well as the processes of intramolecular hydrogen (proton) transfer. Ab initio multiconfigurational CASSCF and CASPT2 methods were employed in studying the reaction mechanisms and kinetics of the gas-phase ozone addition to fluoroethene. A theoretical investigation into unimolecular decomposition paths of primary and secondary fluorozonide was carried out by utilizing the multiconfigurational approach. Reactants, transition-state structures, and products were optimized, and harmonic vibrational frequencies were calculated at the CASSCF/cc-pVTZ level. For kinetic calculations, the electron energies of all the stationary points were further refined by utilizing the CASPT2 method with the optimized CASSCF/cc-pVTZ wave functions taken as the zeroth order. The most favorable decomposition route of primary fluorozonide is the formation of carbonyl oxide (CO) and formyl fluoride (FF) with fragments in the anti conformation, with regard to the orientation of the terminal oxygen in the carbonyl oxide and the fluorine atom of the carbonyl compound. The secondary fluorozonide decomposition most readily takes place in a stepwise manner initiated by the O-O bond rupture.

The spectroscopy and dynamics of the intramolecular hydrogen bond in malonaldehyde and acetylacetone have been investigated by the application of the four-dimensional potential energy surfaces described in normal coordinates. Special emphasis is paid to the OH/OD stretching region which reveals the signatures of strong mode mixing what renders a simple assignment in terms of fundamental transitions difficult. The theoretical spectra calculated for the intramolecular hydrogen bonds in malonaldehyde and acetylacetone show a strong coupling between low-frequency hydrogen bond stretching and the high-frequency hydroxyl group stretching modes. Thus, the position, shape and intensity of the OH bands in both compounds are consequences of the strong coupling between low-frequency and high-frequency OH stretching modes. Furthermore, results with deuterated isomers show that the position, shape and intensity of the OH (OD) bands also strongly depend on the topology of potential energy surface. Finally, an in-depth analytical investigation was performed to design the specific type of multiresonant laser pulses that can be used to achieve precise and complete population transfer between two arbitrary states connected by a cascade of dipole transitions in a general quantum system. We have numerically investigated and confirmed our analytical results on the HF rovibrator in ground electronic state.

Oznaka: 0098034