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Literature DB >> 23840923

Non-ideal solution thermodynamics of cytoplasm.

Lisa U Ross-Rodriguez, Janet A W Elliott, Locksley E McGann.

Abstract

Quantitative description of the non-ideal solution thermodynamics of the cytoplasm of a living mammalian cell is critically necessary in mathematical modeling of cryobiology and desiccation and other fields where the passive osmotic response of a cell plays a role. In the solution thermodynamics osmotic virial equation, the quadratic correction to the linear ideal, dilute solution theory is described by the second osmotic virial coefficient. Herein we report, for the first time, intracellular solution second osmotic virial coefficients for four cell types [TF-1 hematopoietic stem cells, human umbilical vein endothelial cells (HUVEC), porcine hepatocytes, and porcine chondrocytes] and further report second osmotic virial coefficients indistinguishable from zero (for the concentration range studied) for human hepatocytes and mouse oocytes.

Entities: Species

Mesh：

Substances：
Solutions

Year: 2012 PMID： 23840923 PMCID： PMC3698627 DOI： 10.1089/bio.2012.0027

Source DB: PubMed Journal: Biopreserv Biobank ISSN： 1947-5543 Impact factor: 2.300

55 in total

1. Correlation between the osmotic second virial coefficient and the solubility of proteins.

Authors: S Ruppert; S I Sandler; A M Lenhoff
Journal: Biotechnol Prog Date: 2001 Jan-Feb

2. A multisolute osmotic virial equation for solutions of interest in biology.

Authors: J A W Elliott; R C Prickett; H Y Elmoazzen; K R Porter; L E McGann
Journal: J Phys Chem B Date: 2007-02-01 Impact factor: 2.991

3. A non-ideal replacement for the Boyle van't Hoff equation.

Authors: Richelle C Prickett; Janet A W Elliott; Shamina Hakda; Locksley E McGann
Journal: Cryobiology Date: 2008-07-18 Impact factor: 2.487

4. Application of the osmotic virial equation in cryobiology.

Authors: Richelle C Prickett; Janet A W Elliott; Locksley E McGann
Journal: Cryobiology Date: 2009-08-06 Impact factor: 2.487

5. Kinetics of osmotic water movement in chondrocytes isolated from articular cartilage and applications to cryopreservation.

Authors: L E McGann; M Stevenson; K Muldrew; N Schachar
Journal: J Orthop Res Date: 1988 Impact factor: 3.494

6. Osmotic properties of human lymphocyte.

Authors: H G Hempling; S Thompson; A Dupre
Journal: J Cell Physiol Date: 1977-11 Impact factor: 6.384

7. Transport phenomena in articular cartilage cryopreservation as predicted by the modified triphasic model and the effect of natural inhomogeneities.

Authors: Alireza Abazari; Richard B Thompson; Janet A W Elliott; Locksley E McGann
Journal: Biophys J Date: 2012-03-20 Impact factor: 4.033

Non-ideal solution thermodynamics of cytoplasm.

1. Correlation between the osmotic second virial coefficient and the solubility of proteins.

2. A multisolute osmotic virial equation for solutions of interest in biology.

3. A non-ideal replacement for the Boyle van't Hoff equation.

4. Application of the osmotic virial equation in cryobiology.

5. Kinetics of osmotic water movement in chondrocytes isolated from articular cartilage and applications to cryopreservation.

6. Osmotic properties of human lymphocyte.

7. Transport phenomena in articular cartilage cryopreservation as predicted by the modified triphasic model and the effect of natural inhomogeneities.

8. A biomechanical triphasic approach to the transport of nondilute solutions in articular cartilage.

9. A theoretically optimized method for cord blood stem cell cryopreservation.

10. Water transport and estimated transmembrane potential during freezing of mouse oocytes.

1. Improved Cryopreservation of Human Umbilical Vein Endothelial Cells: A Systematic Approach.

2. Measuring the effects of macromolecular crowding on antibody function with biolayer interferometry.