about
Reduced oxidative pentose phosphate pathway flux in recombinant xylose-utilizing Saccharomyces cerevisiae strains improves the ethanol yield from xyloseFunctional specialization and differential regulation of short-chain carboxylic acid transporters in the pathogen Candida albicansPydna: a simulation and documentation tool for DNA assembly strategies using python.Mitochondria-dependent apoptosis in yeast.Yeast Pathway Kit: A Method for Metabolic Pathway Assembly with Automatically Simulated Executable Documentation.Characterization of DNA damage in yeast apoptosis induced by hydrogen peroxide, acetic acid, and hyperosmotic shock.Xylulokinase overexpression in two strains of Saccharomyces cerevisiae also expressing xylose reductase and xylitol dehydrogenase and its effect on fermentation of xylose and lignocellulosic hydrolysate.The MX4blaster cassette: repeated and clean Saccharomyces cerevisiae genome modification using the genome-wide deletion collection.Integrated approach for selecting efficient Saccharomyces cerevisiae for industrial lignocellulosic fermentations: Importance of yeast chassis linked to process conditions.Effect of enhanced xylose reductase activity on xylose consumption and product distribution in xylose-fermenting recombinant Saccharomyces cerevisiae.Microfluidic biosensing systems. Part II. Monitoring the dynamic production of glucose and ethanol from microchip-immobilised yeast cells using enzymatic chemiluminescent micro-biosensors.Measuring oxidative DNA damage and DNA repair using the yeast comet assay.Genotoxic effect of photodynamic therapy mediated by curcumin on Candida albicans.Hyperosmotic stress induces metacaspase- and mitochondria-dependent apoptosis in Saccharomyces cerevisiae.Deciphering the factors defining the pH-dependence of a commercial glycoside hydrolase family 8 enzyme.Plasmids for in vivo construction of integrative Candida albicans vectors in Saccharomyces cerevisiae.Improved gap repair cloning in yeast: treatment of the gapped vector with Taq DNA polymerase avoids vector self-ligation.Metabolic engineering of Saccharomyces cerevisiae ethanol strains PE-2 and CAT-1 for efficient lignocellulosic fermentationQuantitative assessment of DNA damage in the industrial ethanol production strain Saccharomyces cerevisiae PE-2.Multiple gene expression by chromosomal integration and CRE-loxP-mediated marker recycling in Saccharomyces cerevisiaeStimulation of DNA repair in Saccharomyces cerevisiae by Ginkgo biloba leaf extractQuantitative DNA damage and repair measurement with the yeast comet assay
P50
Q24536292-00E05241-F95B-451F-81E2-1F833D563C25Q33808815-EF5C8428-E533-4DA1-99E8-99EF805DDC9CQ35620431-8A32775E-4DF1-493B-A6F2-BD90DD913B77Q37136118-13E086DC-45CF-4FAC-A1E0-9FEBB50A9C07Q38439270-9343C7EE-2813-4BE4-AD6D-B4C448150AD7Q39083967-A6481222-7773-418F-81E1-8B69F6BFFC6FQ39492550-30E693A8-E601-48BE-8B41-40CF4A4E555AQ42616467-699B3873-FC99-44D2-89AE-8191D91E25B6Q43357978-248B0EC5-F502-478A-8670-4FAC87830EC9Q44408294-C613144C-0EF6-4221-807F-93F92717629EQ45096936-3A8E2E28-DD8D-48B0-A8F2-828B08EF897CQ45224919-A8C6EA92-3A1F-4A19-B9A4-FB09D4458E02Q46739301-312A7996-DC29-4F1C-B9C0-B6BBD894C713Q46765222-6DE43D4B-2FFF-47FE-A78A-8657FD3755A7Q51095522-EF416CE9-7944-4C9E-A4A7-74AE74629B84Q54383159-39627F96-B654-4C74-8573-06F673F20262Q54481044-6116D857-C8CA-49AA-B4BC-F1832F4A2F17Q56955763-611C1DB2-A69C-47C5-A271-A5D539585C0AQ58491512-16BAAD92-5402-439B-B4EF-00D5D4B2F4AAQ80370974-2C28B50A-3A5C-43E2-8737-F613E5B87D7DQ83654127-D8B4FEBB-A450-46C1-AC70-5D682945728BQ84919201-8C830A2A-D6EA-4D30-992E-A5363E3ADFCC
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Björn Johansson
@ast
Björn Johansson
@en
Björn Johansson
@es
Björn Johansson
@nl
Björn Johansson
@sl
type
label
Björn Johansson
@ast
Björn Johansson
@en
Björn Johansson
@es
Björn Johansson
@nl
Björn Johansson
@sl
prefLabel
Björn Johansson
@ast
Björn Johansson
@en
Björn Johansson
@es
Björn Johansson
@nl
Björn Johansson
@sl
P1053
A-3523-2012
P106
P21
P2456
P31
P3829
P496
0000-0002-7723-074X