Reducing enzyme conformational flexibility by multi-point covalent immobilisation R. Fernandez-LafuenteA. N. P. WoodD. A. Cowan OriginalPaper Pages: 1 - 6
Analysis of enzyme kinetic measurements for an organic-medium biocatalyst Stephanie G. BurtonJohn R. Duncan OriginalPaper Pages: 7 - 12
Thermal stability of immobilized α-chymotrypsin is additionally increased by chaotropic compounds Anna A. PanovaV. Yu. LevitskyVadim V. Mozhaev OriginalPaper Pages: 13 - 18
Porous polymers for fixed bed adsorption of aroma compounds in fermentation processes Ulrich KringsRalf G. Berger OriginalPaper Pages: 19 - 24
Analysis of solids resulted from dilute-acid pretreatment of lignocellulosic biomass T. HsuQ. Nguyen OriginalPaper Pages: 25 - 28
A convenient procedure for quantitative analysis of stained or immunostained blotting membranes by densitometry Juan ParradoAntonio AyalaAlberto Machado OriginalPaper Pages: 29 - 30
High frequency transformation of Alcaligenes eutrophus producing poly-β-hydroxybutyric acid by electroporation Hae-Chul ParkKyung-Jun LimTae-Lin Huh OriginalPaper Pages: 31 - 34
Wastewater treatment in a pilot scale inverse fluidized-bed biofilm reactor Yoon Chan ChoiDong Seog KimSeung Koo Song OriginalPaper Pages: 35 - 40
Improved transformation of Pseudomonas putida KT2440 by electroporation Jin-Ho ChoEun-Ki KimJae-Seong So OriginalPaper Pages: 41 - 44
On-line determination of pigment composition and biomass in cultures of microalgae Niels Thomas EriksenJens Jørgen Lønsmann Iversen OriginalPaper Pages: 49 - 54
Effect of cell concentration on the rheology of glucoamylase fermentation broth Wang RuohangColin Webb OriginalPaper Pages: 55 - 58
Comparative study on hydrolysis of triolein in reversed micellar system catalyzed by different types of lipases K. Bélafi-BakóÁ. DombiE. Nagy OriginalPaper Pages: 59 - 64
Microbial bioassay of fungal compounds that stimulate the growth of a consortium of anaerobic cellulolytic bacteria R. G. Campos-MontielG. Viniegra-Gonzalez OriginalPaper Pages: 65 - 68
Determination of interleukin 2 activity by a new fluorometric method M. HarveyB. PagéM. Pagé OriginalPaper Pages: 69 - 73