| Review: tissue engineering: reconstitution of human hematopoiesis ex vivo. |
M.R. Koller; B.Ø. Palsson |
1993 |
| Simultaneous determination of ammonia nitrogen and L-glutamine in bioreactor media using flow injection. |
B.Ø. Palsson; B.Q. Shen; M.E. Meyerhoff; M. Trojanowicz |
1993 |
| Stability of antibody productivity is improved when hybridoma cells are entrapped in calcium alginate beads. |
G.M. Lee; B.Ø. Palsson |
1993 |
| Metabolic capabilities of Escherichia coli: I. synthesis of biosynthetic precursors and cofactors. |
A. Varma; B.Ø. Palsson |
1993 |
| Cell Culture conditions determine the enhancement of specific monoclonal antibody productivity of calcium alginate-entrapped S3H5/gamma2bA2 hybridoma cells. |
G.M. Lee; A.S. Chuck; B.Ø. Palsson |
1993 |
| Expansion of human bone marrow progenitor cells in a high cell density continuous perfusion system. |
B.Ø. Palsson; S.H. Paek; R.M. Schwartz; M.A. Palsson; G.M. Lee; S. Silver; S.G. Emerson |
1993 |
| Model complexity has a significant effect on the numerical value and interpretation of metabolic sensitivity coefficients. |
B.Ø. Palsson; I.D. Lee |
1993 |
| Simultaneous enzymatic/electrochemical determination of glucose and L-glutamine in hybridoma media by flow-injection analysis. |
M.E. Meyerhoff; M. Trojanowicz; B.Ø. Palsson |
1993 |
| Continuous photoautotrophic cultures of the eukaryotic alga Chlorella vulgaris can exhibit stable oscillatory dynamics. |
M. Javanmardian; B.Ø. Palsson |
1992 |
| Optimal selection of metabolic fluxes for in vivo measurement. I. Development of mathematical methods. |
J.M. Savinell; B.Ø. Palsson |
1992 |
| Optimal selection of metabolic fluxes for in vivo measurement. II. Application to Escherichia coli and hybridoma cell metabolism. |
J.M. Savinell; B.Ø. Palsson |
1992 |
| Replication of mini-F plasmids during the bacterial division cycle. |
J.D. Keasling; B.Ø. Palsson; S. Cooper |
1992 |
| Replication of prophage P1 is cell-cycle specific. |
J.D. Keasling; B.Ø. Palsson; S. Cooper |
1992 |
| A Macintosh software package for simulation of human red blood cell metabolism. |
I.D. Lee; B.Ø. Palsson |
1992 |