AbstractsBiology & Animal Science

Abstract Small-scale cultivation methods are a necessity for the development of new biotechnological processes. The most common method for submerged microbial cultivation is a shake flask used with a batch operation protocol. Well plate cultivation formats have also increased their importance, due to the need to utilize high-throughput cultivations for efficient product development. However, batch cultivation is often not the optimal method for obtaining high cell densities and good product quality, due to unlimited microbial growth. The aim of this dissertation was to improve small-scale microbial cultivations for microbial growth and product formation. Hydrolytic enzymes were utilized to relieve nutrient limitation by hydrolysis of proteins in lactic acid bacteria cultures to improve lactic acid production from dairy side products. Hydrolytic enzymes were also utilized in the enzymatic release of glucose from starch to create a fed-batch-like cultivation system applicable on small scale. The wireless sensor system developed was applied in shake flask cultivations to monitor oxygen and pH levels. Enzymatic polymer processing was applicable for small-scale cultivations. Lactic acid production by Lactobacillus salivarius ssp. salicinius was enhanced four-fold when the proteins were hydrolyzed either by proteases or by proteolytic microbes. The fed-batch-mimicking controlled glucose feeding and growth control were obtained by means of the simultaneous enzymatic hydrolysis of starch-polymer during cultivation. Controlled growth, higher cell densities, decreased side product formation and increased amount of soluble protein product were obtained in Escherichia coli cultivations. When this method was applied to the cultivation and recombinant protein production of the methylotrophic yeast Pichia pastoris, higher cell densities and higher amounts of active protein were obtained. The glucose concentration remained low enough to avoid the substrate repression of the alcohol oxidase promoter. The fed-batch method is suitable for high-throughput cultivations since the method can be utilized in well plate formats without external feeding devices. The method can be utilized in the development of new biotechnological products, especially when the production system is sensitive to growth conditions, and growth control is preferred. Tiivistelmä Pienen mittakaavan mikrobikasvatusmenetelmiä tarvitaan kehitettäessä uusia bioteknologisia prosesseja. Tavallisin menetelmä mikrobien liuoksessa tapahtuvaan kasvatukseen on panostyyppisesti tehtävä sekoituspullokasvatus. Kuoppalevykasvatukset ovat myös tulleet entistä tärkeämmiksi, koska tuotekehityksen tehostamiseksi on tarvetta käyttää high-throughput-menetelmiä. Tavoiteltaessa korkeita mikrobisolutiheyksiä ja tuotteen hyvää laatua, panostyyppinen kasvatus ei ole usein paras vaihtoehto, johtuen mikrobien rajoittamattomasta kasvusta. Tämän työn tarkoituksena oli parantaa mikrobien kasvua ja tuotteen muodostusta pienen mittakaavan kasvatuksissa. Meijeriteollisuuden sivutuotteiden… Advisors/Committee Members: Ojamo, H. (Heikki), Vasala, A. (Antti), Neubauer, P. (Peter).