P
Peter Blomberg
Researcher at VTT Technical Research Centre of Finland
Publications - 13
Citations - 339
Peter Blomberg is an academic researcher from VTT Technical Research Centre of Finland. The author has contributed to research in topics: Gibbs free energy & Flux balance analysis. The author has an hindex of 8, co-authored 13 publications receiving 284 citations.
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Journal ArticleDOI
Comparative Genome-Scale Reconstruction of Gapless Metabolic Networks for Present and Ancestral Species
Esa Pitkänen,Paula Jouhten,Jian Hou,Muhammad Fahad Syed,Peter Blomberg,Jana Kludas,Merja Oja,Liisa Holm,Merja Penttilä,Juho Rousu,Mikko Arvas +10 more
TL;DR: This work introduces a novel computational approach, CoReCo, for comparative metabolic reconstruction and provides genome-scale metabolic network models for 49 important fungal species, demonstrating the functionality and usability of the reconstructed fungal models with computational steady-state biomass production experiment.
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Phosphorus sorption and recovery using mineral-based materials: Sorption mechanisms and potential phytoavailability
TL;DR: In this paper, a critical assessment of P sorption to a range of mineral-based materials and the potential application of these materials to P recovery schemes is provided, as well as a review of the potential applications of such materials for P recovery from solution.
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Bioleaching phosphorus from fluorapatites with acidophilic bacteria
Outi Priha,Tuija Sarlin,Peter Blomberg,Laura Wendling,Jarno Mäkinen,Mona Arnold,Päivi Kinnunen +6 more
TL;DR: In this article, the potential application of bio-leaching technology to the recovery of phosphorus from different phosphate ore materials, and isolate indigenous phosphorus-solubilising bacterial strains from them, was evaluated.
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Whole-genome metabolic model of Trichoderma reesei built by comparative reconstruction
Sandra Castillo,Dorothee Barth,Mikko Arvas,Tiina Pakula,Esa Pitkänen,Peter Blomberg,Tuulikki Seppänen-Laakso,Heli Nygren,Dhinakaran Sivasiddarthan,Merja Penttilä,Merja Oja +10 more
TL;DR: Improvements presented in this work on the CoReCo pipeline for metabolic model reconstruction resulted in higher-quality metabolic models compared with previous versions.
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Evaluation of synthetic formaldehyde and methanol assimilation pathways in Yarrowia lipolytica
TL;DR: In silico, the expression of heterologous formaldehyde assimilation pathways enable Y. lipolytica to efficiently use methanol as co-substrate with glycerol and in vivo, meetinghanol was shown to be converted to formaldehyde and the enzymes of formaldehyde Assimilation were actively expressed in this yeast.