Lands grupp

Henrik Land introbild

Upptäckt och modifiering av redoxaktiva metallenzymer

Vår forskning

Landgruppen fokuserar på upptäckt och modifiering av redoxaktiva metallenzymer. Vår forskning är interdisciplinär och kombinerar proteinmodifiering, bio-oorganisk kemi och biofysik på enzymer som katalyserar miljörelevanta reaktioner.

Vårt labb huserar en oavbruten anaerob plattform för screening av enzymbibliotek som möjliggör riktad evolution av syrekänsliga enzymer. Detta innefattar förmågan att anaerobt utföra proteinuttryck, cellskörd och spektrofotometrisk analys.

Mer information om vår forskning.

Gruppmedlemmar

Forskningsledare: Henrik Land

Gruppmedlemmar: Maximilian Böhm

Publikationer

Probing Substrate Transport Effects on Enzymatic Hydrogen Catalysis: An Alternative Proton Transfer Pathway in Putatively Sensory [FeFe] Hydrogenase

Cabotaje, Princess R.; Walter, Kaija; Zamader, Afridi; Huang, Ping et al.

Ingår i ACS Catalysis, s. 10435-10446, 2023
- DOI för Probing Substrate Transport Effects on Enzymatic Hydrogen Catalysis: An Alternative Proton Transfer Pathway in Putatively Sensory [FeFe] Hydrogenase
- Ladda ner fulltext (pdf) av Probing Substrate Transport Effects on Enzymatic Hydrogen Catalysis: An Alternative Proton Transfer Pathway in Putatively Sensory [FeFe] Hydrogenase
Light-Driven [FeFe] Hydrogenase Based H-2 Production in E. coli: A Model Reaction for Exploring E. coli Based Semiartificial Photosynthetic Systems

Lorenzi, Marco; Gamache, Mira T.; Redman, Holly J.; Land, Henrik et al.

Ingår i ACS Sustainable Chemistry and Engineering, s. 10760-10767, 2022
- DOI för Light-Driven [FeFe] Hydrogenase Based H-2 Production in E. coli: A Model Reaction for Exploring E. coli Based Semiartificial Photosynthetic Systems
- Ladda ner fulltext (pdf) av Light-Driven [FeFe] Hydrogenase Based H-2 Production in E. coli: A Model Reaction for Exploring E. coli Based Semiartificial Photosynthetic Systems
Enantioselective Synthesis of Pharmaceutically Relevant Bulky Arylbutylamines Using Engineered Transaminases

Sheludko, Yuriy, V; Slagman, Sjoerd; Gittings, Samantha; Charnock, Simon J. et al.

Ingår i Advanced Synthesis and Catalysis, s. 2972-2981, 2022
- DOI för Enantioselective Synthesis of Pharmaceutically Relevant Bulky Arylbutylamines Using Engineered Transaminases
- Ladda ner fulltext (pdf) av Enantioselective Synthesis of Pharmaceutically Relevant Bulky Arylbutylamines Using Engineered Transaminases
Reversible or Irreversible Catalysis of H⁺/H₂ Conversion by FeFe Hydrogenases

Fasano, Andrea; Land, Henrik; Fourmond, Vincent; Berggren, Gustav et al.

Ingår i Journal of the American Chemical Society, s. 20320-20325, 2021
- DOI för Reversible or Irreversible Catalysis of H⁺/H₂ Conversion by FeFe Hydrogenases
Semi-synthetic hydrogenases—in vitro and in vivo applications

Meszaros, Livia S.; Land, Henrik; Redman, Holly J.; Berggren, Gustav

Ingår i Current Opinion in Green and Sustainable Chemistry, 2021
- DOI för Semi-synthetic hydrogenases—in vitro and in vivo applications
- Ladda ner fulltext (pdf) av Semi-synthetic hydrogenases—in vitro and in vivo applications
Semisynthetic [FeFe]-hydrogenase with stable expression and H₂ production capacity in a photosynthetic microbe

Wegelius, Adam; Land, Henrik; Berggren, Gustav; Lindblad, Peter

Ingår i Cell Reports Physical Science, 2021
- DOI för Semisynthetic [FeFe]-hydrogenase with stable expression and H₂ production capacity in a photosynthetic microbe
- Ladda ner fulltext (pdf) av Semisynthetic [FeFe]-hydrogenase with stable expression and H₂ production capacity in a photosynthetic microbe
Carbon Dots and [FeFe] Hydrogenase Biohybrid Assemblies for Efficient Light-Driven Hydrogen Evolution

Hola, Katerina; Pavliuk, Mariia V.; Nemeth, Brigitta; Huang, Ping et al.

Ingår i ACS Catalysis, s. 9943-9952, 2020
- DOI för Carbon Dots and [FeFe] Hydrogenase Biohybrid Assemblies for Efficient Light-Driven Hydrogen Evolution
- Ladda ner fulltext (pdf) av Carbon Dots and [FeFe] Hydrogenase Biohybrid Assemblies for Efficient Light-Driven Hydrogen Evolution
Engineering the Active Site of an (S)-Selective Amine Transaminase for Acceptance of Doubly Bulky Primary Amines

Land, Henrik; Ruggieri, Federica; Szekrenyi, Anna; Fessner, Wolf-Dieter et al.

Ingår i Advanced Synthesis and Catalysis, s. 812-821, 2020
- DOI för Engineering the Active Site of an (S)-Selective Amine Transaminase for Acceptance of Doubly Bulky Primary Amines
- Ladda ner fulltext (pdf) av Engineering the Active Site of an (S)-Selective Amine Transaminase for Acceptance of Doubly Bulky Primary Amines
Characterization of a putative sensory [FeFe]-hydrogenase provides new insight into the role of the active site architecture

Land, Henrik; Sekretaryova, Alina N.; Huang, Ping; Redman, Holly J. et al.

Ingår i Chemical Science, s. 12789-12801, 2020
- DOI för Characterization of a putative sensory [FeFe]-hydrogenase provides new insight into the role of the active site architecture
- Ladda ner fulltext (pdf) av Characterization of a putative sensory [FeFe]-hydrogenase provides new insight into the role of the active site architecture
Current State of [FeFe]-Hydrogenase Research: Biodiversity and Spectroscopic Investigations

Land, Henrik; Senger, Moritz; Berggren, Gustav; Stripp, Sven T.

Ingår i ACS Catalysis, s. 7069-7086, 2020
- DOI för Current State of [FeFe]-Hydrogenase Research: Biodiversity and Spectroscopic Investigations
The maturase HydF enables [FeFe] hydrogenase assembly via transient, cofactor-dependent interactions

Németh, Brigitta; Land, Henrik; Magnuson, Ann; Hofer, Anders et al.

Ingår i Journal of Biological Chemistry, s. 11891-11901, 2020
- DOI för The maturase HydF enables [FeFe] hydrogenase assembly via transient, cofactor-dependent interactions
- Ladda ner fulltext (pdf) av The maturase HydF enables [FeFe] hydrogenase assembly via transient, cofactor-dependent interactions
B-factor Guided Proline Substitutions in Chromobacterium violaceum Amine Transaminase: Evaluation of the Proline Rule as a Method for Enzyme Stabilization

Land, Henrik; Campillo-Brocal, Jonatan C.; Humble, Maria Svedendahl; Berglund, Per

Ingår i ChemBioChem (Print), s. 1297-1304, 2019
- DOI för B-factor Guided Proline Substitutions in Chromobacterium violaceum Amine Transaminase: Evaluation of the Proline Rule as a Method for Enzyme Stabilization
- Ladda ner fulltext (pdf) av B-factor Guided Proline Substitutions in Chromobacterium violaceum Amine Transaminase: Evaluation of the Proline Rule as a Method for Enzyme Stabilization
Discovery of novel [FeFe]-hydrogenases for biocatalytic H-2-production

Land, Henrik; Ceccaldi, Pierre; Meszaros, Livia S.; Lorenzi, Marco et al.

Ingår i Chemical Science, s. 9941-9948, 2019
- DOI för Discovery of novel [FeFe]-hydrogenases for biocatalytic H-2-production
- Ladda ner fulltext (pdf) av Discovery of novel [FeFe]-hydrogenases for biocatalytic H-2-production

Kontakt

Henrik Land