”What an awesome time to be a fan!” ‒ Kokemuksellisuuden muodostuminen Batman: Yön Ritari -elokuvan markkinointiin kehitetyssä ARG-pelissä

Tutkimukseni käsittelee kokemuksellisuuden muodostumista Batman: Yön Ritari -elokuvan markkinointiin kehitetyssä ARG-pelissä. ARG-peli eli vaihtoehtotodellisuuspeli on pervasiivinen peli, joka välittyy osallistujille reaaliaikaisesti erilaisten arkipäiväisten viestimien kautta immersiivisyyttä ja yhteisöllisyyttä korostaen. Vuorovaikutukseen perustuva ARG-peli on kokemus, joka muodostuu yhteistyössä pelintekijöiden ja osallistujien välillä. Tutkimuksen keskeisenä tavoitteena on tarkastella Why So Serious? -pelin kokemuksellisuutta luovia elementtejä sekä pelintekijöiden että pelaajien näkökulmasta. Tutkimusaineistoni koostuu verkkoaineistosta. Käsittelen tutkimuksessani kahta peliyhteisön kannalta merkittävää keskustelufoorumia, joissa osallistujat kokivat ja pelasivat peliä yhteisönä ja yksilöinä. Tutkimusmetodini pohjautuu fenomenologis-hermeneuttiseen metodiin: tarkastelen ARG-pelin kokemuksellisuutta tulkitsemalla osallistujien kirjallisia ilmaisuja ilmiöön liittyvä teoriatausta tukenani. Tutkimukseni on aineistolähtöinen ja etenee kronologisesti. Pelin kokonaiskuvan muodostamisessa olen hyödyntänyt osallistujien luomaa wikisivustoa, mikä toimi pelin aikana sekä informaatiokanavana että peliä dokumentoivana mediana. Vaikka käsittelemäni ARG-peli ei edustanut perinteistä ARG-peliä muun muassa heikon tarinallisuutensa vuoksi, se muodosti osallistujilleen hyvin voimakkaan kokemuksen. Why So Serious? -pelin kokemuksellisuus pohjautui hyvin pitkälti Batman-brändin tunnettuuteen ja populaarikulttuuriseen arvoon sekä nimekkäisiin fiktiivisiin hahmoihin, jotka yhdessä houkuttelivat osallistujia uppoutumaan pelin vaihtoehtotodellisuuteen. Keskinäisestä kilpailustaan huolimatta peliyhteisöt muodostivat jäsenilleen kollektiivisen identiteetin tunteen, minkä lisäksi muun muassa pelin dokumentointi ja spekulointi laajensivat osallistujien kokemusta. Yksilötasolla ensikertalaisuus vaikutti vahvasti pelin muodostamaan kokemukseen: kokemus oli voimakkaampi niille pelaajille, jotka osallistuivat ARG-peliin ensimmäistä kertaa. Why So Serious? -pelistä tuli ainutkertaisuudessaan osa Batman-brändin historiaa, mikä vahvisti pelin osallistujilleen tuottamaa kokemusta. 2000-luvun kuluttaja etsii elämyksiä ja myös markkinoinnin on mukauduttava – sekä uudistuttava – kuluttajien kasvavien vaatimuksien mukaan. Tutkimukseni on yksi esimerkki onnistuneesta, 2000-luvun kuluttajille suunnatusta markkinointikampanjasta.

Torque teno -viruksen proteiinien tuotto ja puhdistus

Torque teno -virus (TTV, TT-virus) on uusimpia löydettyjä ihmisviruksia ja se on erittäin yleinen täysin terveissäkin ihmisissä. Sitä kantaa ihmisistä yli 80 % kantajan maantieteellisestä sijainnista tai iästä riippumatta. Vielä ei osata sanoa, aiheuttaako torque teno -virus tiettyjä tauteja vai onko se osa normaaliflooraa, mikä olisi viruksista puhuttaessa täysin uutta. Helsingin yliopiston virologian laitoksella Haartman instituutissa toimiva professori Klaus Hedmanin tutkimusryhmä on kehitellyt sopivia menetelmiä TT-viruksen proteiinien tuottoon ja puhdistamiseen. Tämän opinnäytetyön tarkoituksena oli optimoida näitä menetelmiä. Proteiinien tuottoon ja puhdistukseen valittiin mukaan TTV:n genomin koodittamista kuudesta proteiinista oletettavasti kapsidiproteiinina toimiva ORF1-Arg (ORF1-proteiini, josta on poistettu arginiinirikas alue) ja ei-rakenneproteiinina toimiva ORF2/2. Proteiinit tuotettiin Sf9- ja High Five -hyönteissoluissa, ja vektorina ekspressoinnissa oli baculovirus. Puhdistukseen käytettiin agaroosigeelielektroforeesia (AGE) ja vaihtoehtoisesti histidiiniaffiniteettikromatografiaa. Proteiinien tuotossa optimoitiin solujen infektiossa käytettävän baculoviruksen määrää ja selvitettiin, että proteiineja saatiin tuotettua suunnilleen yhtä paljon sekä Sf9- että High Five -soluissa. AGE-menetelmällä saatiin puhdistettua ORF2/2-proteiinia ja menetelmää yritettiin kehitellä niin, että saataisiin puhdistuksen yhteydessä enemmän proteiineja talteen. Histidiiniaffiniteettipuhdistusta ei ollut aikaisemmin käytetty hyönteissoluissa tuotettujen TTV:n proteiinien puhdistukseen. Menetelmällä saatiin tuotettua ORF1-proteiinia, mutta puhdistusmenetelmä vaatii vielä kehittelyä. Tämän opinnäytetyön avulla saatiin menetelmien kehitystyötä eteenpäin, ja havaittiin ongelmakohtia, joihin tulee kiinnittää jatkossa huomiota. Histidiiniaffiniteettipuhdistusta ei vielä saatu toimivaksi ja AGE:n kehittelyä täytyy myös vielä jatkaa. TTV:n puhdistettuja proteiineja tullaan käyttämään apuna määritettäessä TTV:n mahdollista patogeenisuutta ja biologista merkitystä. Proteiinien avulla kehitellään laboratoriomenetelmiä TTV:n virusinfektioiden ja sairauksien löytämiseen ja diagnosointiin mm. tuottamalla proteiinien avulla spesifisiä vasta-aineita TTV:tä vastaan. Opinnäytetyössä puhdistettuja ORF2/2-proteiineja käytettiin tutkimusryhmässä TTV-spesifisen T-soluimmuniteetin tutkimiseen.

Threat Simulation- The Function of Dreaming?

Dreaming is a pure form of phenomenality, created by the brain untouched by external stimulation or behavioral activity, yet including a full range of phenomenal contents. Thus, it has been suggested that the dreaming brain could be used as a model system in a biological research program on consciousness (Revonsuo, 2006). In the present thesis, the philosophical view of biological realism is accepted, and thus, dreaming is considered as a natural biological phenomenon, explainable in naturalistic terms. The major theoretical contribution of the present thesis is that it explores dreaming from a multidisciplinary perspective, integrating information from various fields of science, such as dream research, consciousness research, evolutionary psychology, and cognitive neuroscience. Further, it places dreaming into a multilevel framework, and investigates the constitutive, etiological, and contextual explanations for dreaming. Currently, the only theory offering a full multilevel explanation for dreaming, that is, a theory including constitutive, etiological, and contextual level explanations, is the Threat Simulation Theory (TST) (Revonsuo, 2000a; 2000b). The empirical significance of the present thesis lies in the tests conducted to test this specific theory put forth to explain the form, content, and biological function of dreaming. The first step in the empirical testing of the TST was to define exact criteria for what is a ‘threatening event’ in dreams, and then to develop a detailed and reliable content analysis scale with which it is possible to empirically explore and quantify threatening events in dreams. The second step was to seek answers to the following questions derived from the TST: How frequent threatening events are in dreams? What kind of qualities these events have? How threatening events in dreams relate to the most recently encoded or the most salient memory traces of threatening events experienced in waking life? What are the effects of exposure to severe waking life threat on dreams? The results reveal that threatening events are relatively frequent in dreams, and that the simulated threats are realistic. The most common threats include aggression, are targeted mainly against the dream self, and include simulations of relevant and appropriate defensive actions. Further, real threat experiences activate the threat simulation system in a unique manner, and dream content is modulated by the activation of long term episodic memory traces with highest negative saliency. To sum up, most of the predictions of the TST tested in this thesis received considerable support. The TST presents a strong argument that explains the specific design of dreams as threat simulations. The TST also offers a plausible explanation for why dreaming would have been selected for: because dreaming interacted with the environment in such a way that enhanced fitness of ancestral humans. By referring to a single threat simulation mechanism it furthermore manages to explain a wide variety of dream content data that already exists in the literature, and to predict the overall statistical patterns of threat content in different samples of dreams. The TST and the empirical tests conducted to test the theory are a prime example of what a multidisciplinary approach to mental phenomena can accomplish. Thus far, dreaming seems to have always resided in the periphery of science, never regarded worth to be studied by the mainstream. Nevertheless, when brought to the spotlight, the study of dreaming can greatly benefit from ideas in diverse branches of science. Vice versa, knowledge learned from the study of dreaming can be applied in various disciplines. The main contribution of the present thesis lies in putting dreaming back where it belongs, that is, into the spotlight in the cross-road of various disciplines.

Type II aromatic polyketide biosynthetic tailoring enzymes: diversity and adaptation in Streptomyces secondary metabolism.

Members of the bacterial genus Streptomyces are well known for their ability to produce an exceptionally wide selection of diverse secondary metabolites. These include natural bioactive chemical compounds which have potential applications in medicine, agriculture and other fields of commerce. The outstanding biosynthetic capacity derives from the characteristic genetic flexibility of Streptomyces secondary metabolism pathways: i) Clustering of the biosynthetic genes in chromosome regions redundant for vital primary functions, and ii) the presence of numerous genetic elements within these regions which facilitate DNA rearrangement and transfer between non-progeny species. Decades of intensive genetic research on the organization and function of the biosynthetic routes has led to a variety of molecular biology applications, which can be used to expand the diversity of compounds synthesized. These include techniques which, for example, allow modification and artificial construction of novel pathways, and enable gene-level detection of silent secondary metabolite clusters. Over the years the research has expanded to cover molecular-level analysis of the enzymes responsible for the individual catalytic reactions. In vitro studies of the enzymes provide a detailed insight into their catalytic functions, mechanisms, substrate specificities, interactions and stereochemical determinants. These are factors that are essential for the thorough understanding and rational design of novel biosynthetic routes. The current study is a part of a more extensive research project (Antibiotic Biosynthetic Enzymes; www.sci.utu.fi/projects/biokemia/abe), which focuses on the post-PKS tailoring enzymes involved in various type II aromatic polyketide biosynthetic pathways in Streptomyces bacteria. The initiative here was to investigate specific catalytic steps in anthracycline and angucycline biosynthesis through in vitro biochemical enzyme characterization and structural enzymology. The objectives were to elucidate detailed mechanisms and enzyme-level interactions which cannot be resolved by in vivo genetic studies alone. The first part of the experimental work concerns the homologous polyketide cyclases SnoaL and AknH. These catalyze the closure of the last carbon ring of the tetracyclic carbon frame common to all anthracycline-type compounds. The second part of the study primarily deals with tailoring enzymes PgaE (and its homolog CabE) and PgaM, which are responsible for a cascade of sequential modification reactions in angucycline biosynthesis. The results complemented earlier in vivo findings and confirmed the enzyme functions in vitro. Importantly, we were able to identify the amino acid -level determinants that influence AknH and SnoaL stereoselectivity and to determine the complex biosynthetic steps of the angucycline oxygenation cascade of PgaE and PgaM. In addition, the findings revealed interesting cases of enzyme-level adaptation, as some of the catalytic mechanisms did not coincide with those described for characterised homologs or enzymes of known function. Specifically, SnoaL and AknH were shown to employ a novel acid-base mechanism for aldol condenzation, whereas the hydroxylation reaction catalysed by PgaM involved unexpected oxygen chemistry. Owing to a gene-level fusion of two ancestral reading frames, PgaM was also shown to adopt an unusual quaternary sturucture, a non-covalent fusion complex of two alternative forms of the protein. Furthermore, the work highlighted some common themes encountered in polyketide biosynthetic pathways such as enzyme substrate specificity and intermediate reactivity. These are discussed in the final chapters of the work.

A Diagnostic view of the Genetics of CASADIL

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL, OMIM #125310) is an inherited vascular disease. The main symptoms include migraineous headache, recurrent strokes and progressive cognitive impairment. CADASIL is caused by mutations in the NOTCH3 gene which result in degeneration of vascular smooth muscle cells, arteriolar stenosis and impaired cerebral blood flow. The aims of this study were assessment of the genetic background of Finnish and Swedish CADASIL patients, analysis of genetic and environmental factors that may influence the phenotype, and identification of the optimal diagnostic strategy. The majority of Finnish CADASIL patients carry the p.Arg133Cys mutation. Haplotype analysis of 18 families revealed a region of linkage disequilibrium around the NOTCH3 locus, which is evidence for a founder effect and a common ancestral mutation. Despite the same mutational background, the clinical course of CADASIL is highly variable between and even within families. The association of several genetic factors with the phenotypic variation was investigated in 120 CADASIL patients. Apolipoprotein E allele 4 was associated with earlier occurrence of strokes, especially in younger patients. Study of a pair of monozygotic twins with CADASIL revealed environmental factors which may influence the phenotype, i.e. smoking, statin medication and physical activity. Knowledge of these factors is useful, since life-style choices may influence the disease progression. The clinical CADASIL diagnosis can be confirmed by detection of either the NOTCH3 mutation or granular osmiophilic material by electron microscopy in skin biopsy, although the sensitivity estimates have been contradictory. Comparison of these two methods in a group of 131 diagnostic cases from Finland, Sweden and France demonstrated that both methods are highly sensitive and reliable.

Molecular Systematics of Noctuoidea (Insecta, lepidoptera)

In this thesis, I conduct a series of molecular systematic studies on the large phytophagous moth superfamily Noctuoidea (Insecta, Lepidoptera) to clarify deep divergences and evolutionary affinities of the group, based on material from every zoogeographic region of the globe. Noctuoidea are the most speciose radiations of butterflies and moths on earth, comprising about a quarter of all lepidopteran diversity. The general aim of these studies was to apply suitably conservative genetic markers (DNA sequences of mitochondrial—mtDNA—and nuclear gene— nDNA—regions) to reconstruct, as the initial step, a robust skeleton phylogenetic hypothesis for the superfamily, then build up robust phylogenetic frameworks for those circumscribed monophyletic entities (i.e., families), as well as clarifying the internal classification of monophyletic lineages (subfamilies and tribes), to develop an understanding of the major lineages at various taxonomic levels within the superfamily Noctuoidea, and their inter-relationships. The approaches applied included: i) stabilizing a robust family-level classification for the superfamily; ii) resolving the phylogeny of the most speciose radiation of Noctuoidea: the family Erebidae; iii) reconstruction of ancestral feeding behaviors and evolution of the vampire moths (Erebidae, Calpinae); iv) elucidating the evolutionary relationships within the family Nolidae and v) clarifying the basal lineages of Noctuidae sensu stricto. Thus, in this thesis I present a wellresolved molecular phylogenetic hypothesis for higher taxa of Noctuoidea consisting of six strongly supported families: Oenosandridae, Notodontidae, Euteliidae, Erebidae, Nolidae, and Noctuidae. The studies in my thesis highlight the importance of molecular data in systematic and phylogenetic studies, in particular DNA sequences of nuclear genes, and an extensive sampling strategy to include representatives of all known major lineages of entire world fauna of Noctuoidea from every biogeographic region. This is crucial, especially when the model organism is as species-rich, highly diverse, cosmopolitan and heterogeneous as the Noctuoidea, traits that represent obstacles to the use of morphology at this taxonomic level.