Michael Lienemann

Overview

Explore the profile of Michael Lienemann including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 21

Citations 164

Followers 0

Related Specialties

Chemistry

Microbiology

Biotechnology

Top 10 Co-Authors

Markus B Linder

Hendrik Hahl

Karin Jacobs

Alessandra Griffo

Paivi Laaksonen

Tetsuya Haruyama

Ralf Seemann

Jean-Baptiste Fleury

Arja Paananen

Yoshiyuki Takatsuji

Published In

Langmuir

Glycobiology

Appl Environ Microbiol

Colloids Surf B Biointerfaces

J Agric Food Chem

Affiliations

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Recent Articles

Stabilization of the catalytically active structure of a molybdenum-dependent formate dehydrogenase depends on a highly conserved lysine residue

Li F, Lienemann M

FEBS J . 2025 Mar; PMID: 40028997

Molybdenum-dependent formate dehydrogenases (Mo-FDHs) reversibly catalyze the interconversion of CO and formate, and therefore may be utilized for the development of innovative energy storage and CO utilization concepts. Mo-FDHs contain...

A growth-based screening strategy for engineering the catalytic activity of an oxygen-sensitive formate dehydrogenase

Li F, Scheller S, Lienemann M

Appl Environ Microbiol . 2024 Aug; 90(9):e0147224. PMID: 39194220

Enzyme engineering is a powerful tool for improving or altering the properties of biocatalysts for industrial, research, and therapeutic applications. Fast and accurate screening of variant libraries is often the...

Hydrophobin Bilayer as Water Impermeable Protein Membrane

Nolle F, Starke L, Griffo A, Lienemann M, Jacobs K, Seemann R, et al.

Langmuir . 2023 Sep; 39(39):13790-13800. PMID: 37726241

One of the most important properties of membranes is their permeability to water and other small molecules. A targeted change in permeability allows the passage of molecules to be controlled....

Production of biopolymer precursors beta-alanine and L-lactic acid from CO with metabolically versatile DSM 43205

Salusjarvi L, Ojala L, Peddinti G, Lienemann M, Jouhten P, Pitkanen J, et al.

Front Bioeng Biotechnol . 2022 Oct; 10:989481. PMID: 36281430

Hydrogen oxidizing autotrophic bacteria are promising hosts for conversion of CO into chemicals. In this work, we engineered the metabolically versatile lithoautotrophic bacterium strain DSM 43205 for synthesis of polymer...

Molecular mechanisms of electron transfer employed by native proteins and biological-inorganic hybrid systems

Lienemann M

Comput Struct Biotechnol J . 2021 Jan; 19:206-213. PMID: 33425252

Recent advances in enzymatic electrosynthesis of desired chemicals in biological-inorganic hybrid systems has generated interest because it can use renewable energy inputs and employs highly specific catalysts that are active...

Solar-Powered Carbon Fixation for Food and Feed Production Using Microorganisms-A Comparative Techno-Economic Analysis

Nappa M, Lienemann M, Tossi C, Blomberg P, Jantti J, Tittonen I, et al.

ACS Omega . 2021 Jan; 5(51):33242-33252. PMID: 33403286

This study evaluates the techno-economic feasibility of five solar-powered concepts for the production of autotrophic microorganisms for food and feed production; the main focus is on three concepts based on...

Dynamic Assembly of Class II Hydrophobins from at the Air-Water Interface

Hahl H, Griffo A, Safaridehkohneh N, Heppe J, Backes S, Lienemann M, et al.

Langmuir . 2019 Jul; 35(28):9202-9212. PMID: 31268722

Class II hydrophobins are amphiphilic proteins produced by filamentous fungi. One of their typical features is the tendency to accumulate at the interface between an aqueous phase and a hydrophobic...

Electrode material studies and cell voltage characteristics of the in situ water electrolysis performed in a pH-neutral electrolyte in bioelectrochemical systems

Givirovskiy G, Ruuskanen V, Ojala L, Lienemann M, Kokkonen P, Ahola J

Heliyon . 2019 Jun; 5(5):e01690. PMID: 31193244

Hydrogen-oxidizing bacteria (HOB) have been shown to be promising micro-organisms for the reduction of carbon dioxide to a wide range of value-added products in bioelectrochemical systems with in situ water...

Towards patterned bioelectronics: facilitated immobilization of exoelectrogenic Escherichia coli with heterologous pili

Lienemann M, TerAvest M, Pitkanen J, Stuns I, Penttila M, Ajo-Franklin C, et al.

Microb Biotechnol . 2018 Oct; 11(6):1184-1194. PMID: 30296001

Biosensors detect signals using biological sensing components such as redox enzymes and biological cells. Although cellular versatility can be beneficial for different applications, limited stability and efficiency in signal transduction...

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Adhesion Properties of Freestanding Hydrophobin Bilayers

Hahl H, Vargas J, Jung M, Griffo A, Laaksonen P, Lienemann M, et al.

Langmuir . 2018 Jun; 34(29):8542-8549. PMID: 29886739

Hydrophobins are a family of small-sized proteins featuring a distinct hydrophobic patch on the protein's surface, rendering them amphiphilic. This particularity allows hydrophobins to self-assemble into monolayers at any hydrophilic/hydrophobic...