@inbook {4741, title = {Can cytoplasm exist without undergoing phase separation?}, booktitle = {International Review of Cytology - a Survey of Cell Biology, Vol 192}, series = {International Review of Cytology-a Survey of Cell Biology}, volume = {192}, year = {2000}, note = {ISI Document Delivery No.: BP32STimes Cited: 6Cited Reference Count: 10Review525 B STREET, SUITE 1900, SAN DIEGO, CA 92101-4495 USA}, pages = {321-330}, publisher = {Academic Press Inc}, organization = {Academic Press Inc}, address = {San Diego}, keywords = {BOUND WATER, confocal, microscopy, PHASE SEPARATION, scanning probe microscopy}, isbn = {0074-7696}, url = {://000084720600013}, author = {Brooks, D. E.} } @article {3540, title = {PHASE-SEPARATION IN CYTOPLASM, DUE TO MACROMOLECULAR CROWDING, IS THE BASIS FOR MICROCOMPARTMENTATION}, journal = {Febs Letters}, volume = {361}, number = {2-3}, year = {1995}, note = {ISI Document Delivery No.: QN707Times Cited: 72Cited Reference Count: 40}, month = {Mar}, pages = {135-139}, type = {Article}, abstract = {The macromolecular diversity and concentrations in the fluid phase of cytoplasm constitute conditions necessary and sufficient for aqueous phase separation. Consequences of phase separation in cytoplasm, including its {\textquoteright}compartmentation{\textquoteright}, are inferred from analogies with the physicochemical properties of aqueous two-phase systems and with the partitioning behavior of biomaterials in them.}, keywords = {AQUEOUS PHASE SYSTEM, CELL CYTOPLASM, CYTOARCHITECTURE, CYTOPLASM, DIFFUSION, K+, LIVING CELL, MACROMOLECULAR CROWDING, MICROCOMPARTMENTATION, PHASE SEPARATION, TRANSLATIONAL MOBILITY, TRANSPORT}, isbn = {0014-5793}, url = {://A1995QN70700001}, author = {Walter, H. and Brooks, D. E.} }