1-13 of 13
Keywords: protein evolution
Close
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Articles
Biochem J (2024) 481 (23): 1723–1740.
Published: 21 November 2024
... PRMT3 protein arginine methyltransferase protein evolution protein-protein interactions zinc finger ZNF200 Protein arginine methyltransferase 3 (PRMT3) is a type I arginine methyltransferase which generates the asymmetric dimethylation modifications at the arginine residues of the substrate...
Includes: Supplementary data
Articles
Biochem J (2019) 476 (22): 3475–3492.
Published: 21 November 2019
... reconstruction caspase computational biology functional divergence protein evolution The caspase family of proteases offers an attractive model for examining protein evolution because a common protein scaffold (the caspase-hemoglobinase fold) was used to develop subfamilies that differ in oligomeric...
Includes: Supplementary data
Articles
Biochem J (2018) 475 (6): 1141–1158.
Published: 26 March 2018
... at excitation and emission wavelengths of 428 and 475 nm, respectively, using a PerkinElmer LS-55 spectrofluorometer. allosteric regulation cation transporter enzyme kinetics membrane-bound pyrophosphatase protein evolution pyrophosphate Membrane-bound pyrophosphatases couple the hydrolysis...
Articles
Biochem J (2018) 475 (1): 137–150.
Published: 05 January 2018
... The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society 2018 enzyme kinetics lysine biosynthesis oligomerisation protein evolution Enzymes of the diaminopimelate (DAP) pathway of lysine biosynthesis are of interest as metabolic engineering targets...
Includes: Supplementary data
Articles
Articles
Biochem J (2016) 473 (19): 3099–3111.
Published: 27 September 2016
... isolated from E. coli transformed with the cloning vector only. membrane transport protein evolution proton transport pyrophosphatase sodium transport Membrane-bound pyrophosphatases (mPPases), which are present in plants, bacteria, archaea and protists, hydrolyze pyrophosphate...
Includes: Supplementary data
Articles
Biochem J (2015) 467 (2): 281–291.
Published: 02 April 2015
... membrane transport protein evolution proton pump proton transport pyrophosphatase Membrane-bound pyrophosphatases (mPPases; Transporter Classification Database number 3.A.10) couple pyrophosphate (PP i ) hydrolysis to transmembrane transport of H + , Na + or both against their electrochemical...
Includes: Supplementary data
Articles
Biochem J (2013) 449 (3): 581–594.
Published: 09 January 2013
..., protein structure–function and molecular evolution. However, the last several years have seen some exciting developments in combining these approaches to obtain an in-depth understanding of how proteins evolve. For example, a better understanding of how structural constraints affect protein evolution...
Articles
Biochem J (2012) 445 (1): 39–46.
Published: 15 June 2012
[email protected] ). 20 1 2012 23 4 2012 26 4 2012 26 4 2012 © The Authors Journal compilation © 2012 Biochemical Society 2012 epistasis evolutionary trajectories fitness landscape multivariate data analysis protein evolution substrate selectivity Attention has been...
Includes: Supplementary data
Articles
Biochem J (2010) 429 (2): 243–249.
Published: 28 June 2010
... medium, provided the original work is properly cited. atomic force microscopy (AFM) mutational effect protein evolution protein stability single-molecule analysis David Rodriguez-Larrea prepared the variants from the combinatorial library and designed, performed and analysed...
Includes: Supplementary data
Articles
Articles
Articles
Biochem J (2007) 403 (3): e13–e14.
Published: 12 April 2007
... 3 2007 7 3 2007 The Authors Journal compilation, The Biochemical Society, London 2007 chloroplast evolutionary tinkering Nicotiana protein evolution transcription factor transit peptide Chloroplasts are of endosymbiotic origin and derive from a cyanobacterium-like...