| 483 - 483 |
In appreciation: James E. Bailey, 1944-2001
Clark DS |
| 484 - 489 |
Jay Bailey as mentor - The students' perspective
Reardon KF, Lee KH, Wittrup KD, Hatzimanikatis V |
| 490 - 495 |
Engineering of molecular and cellular biocatalysts: Selected contributions by James E. Bailey
Dordick JS, Khosla C |
| 496 - 503 |
Cell-surface display of heterologous proteins: From high-throughput screening to environmental applications
Chen W, Georgiou G |
| 504 - 508 |
A memorial review of Jay Bailey's contribution in prokaryotic metabolic engineering
Hatzimanikatis V, Liao JC |
| 509 - 531 |
Metabolic engineering II. Eukaryotic systems
Fussenegger M, Betenbaugh MJ |
| 532 - 538 |
Analysis of fermentation processes using flow microfluorometry: Single-parameter observations of batch bacterial growth
Fazel-Madjlessi J, Bailey JE |
| 539 - 549 |
Structure-function relationships in immobilized chymotrypsin catalysis
Clark DS, Bailey JE |
| 550 - 557 |
Analysis of growth rate effects on productivity of recombinant Escherichia coli populations using molecular mechanism models
Lee SB, Bailey JE |
| 558 - 567 |
Intracellular expression of Vitreoscilla hemoglobin modifies microaerobic Escherichia coli metabolism through elevated concentration and specific activity of cytochrome o
Tsai PS, Nageli M, Bailey JE |
| 568 - 579 |
Inverse metabolic engineering: A strategy for directed genetic engineering of useful phenotypes
Bailey JE, Sburlati A, Hatzimanikatis V, Lee K, Renner WA, Tsai PS |
| 580 - 585 |
Engineering of coordinated up- and down-regulation of two glycosyltransferases of the O-glycosylation pathway in Chinese hamster ovary (CHO) cells
Prati EGP, Matasci M, Suter TB, Dinter A, Sburlati AR, Bailey JE |
