Analyzing the normal mode dynamics of macromolecules by the component synthesis method: Residue clustering and multiple-component approach

A study of the component synthesis method (CSM) for analyzing the normal mode dynamics of macromolecules is reported. The procedure involves a reduction of the dimensions of the normal mode problems for large molecular systems and the accurate extraction of the low-frequency modes. A macromolecule is divided into small components based on a hierarchical clustering of the residues in the structure. Interactions between coupled components are treated by the method of static correlation. The normal modes of the components are obtained first, and a fraction of the low-frequency normal modes of the components under mutual correlations are then used as a reduced basis for solving for the normal modes of the whole molecule. Multiple components are introduced for large macromolecules so that the dimensions of the eigenvalue problems at the component level are small. The method is applied to the protein crambin. In test calculations in which the dimensions of the eigenvalue equations are reduced to 1/6 of their natural size, the errors in the normal mode frequencies calculated by the CSM procedure are only about 1–2% when compared with the exact values. The rms fluctuations of all atoms in crambin calculated by the CSM procedure are basically identical to the exact results. The CSM procedure is shown to be accurate for calculating the normal modes of large macromolecules with a significant reduction of the size of the problem. © 1994 John Wiley & Sons, Inc.     

Syntheses and properties of circular dichroism active phospholipids

A group of circular dichroism (CD) active phospholipids has been synthesised, in which one or both acyl chains has been replaced with a cinnamoyl or azobenzene chromophore-containing acid. Studies on the structure, CD activity and thermodynamic property of liposome membranes composed of CD active phospholipids were carried out. CD active liposomes were found to be stable, normal liposomes of approximately 550 A diameter based on the electron micrograph and dynamic light scattering, and to have thermodynamic property similar to the conventional phospholipid membranes without serious perturbation by aromatic bulk groups based on DSC. Liposomes composed of phospholipid having two trans-azobenzene chromophores showed an extremely large CD enhancement even well above Tc. This CD enhancement was drastically changed by the presence of cis-azobenzene chromophore and cis-cis isomer content after irradiation was higher than the theoretical value, suggesting the importance of interchromophore interaction in the liposome membranes.     

Cycloheximide sensitivity in regulation of acyl coenzyme A:cholesterol acyltransferase activity in Chinese hamster ovary cells. 1. Effect of exogenous sterols

Chinese hamster ovary cells grown in medium containing low-density lipoprotein (LDL) express high acyl coenzyme A:cholesterol acyltransferase (ACAT) activity as measured by an [3H]oleate pulse. Removal of LDL from the medium causes rapid inactivation of ACAT activity; the t1/2 for the initial inactivation rate is 0.8 h. Preincubation with protein synthesis inhibitors (cycloheximide or emetine) for 2 h or longer lengthens the t1/2 for the initial inactivation rate to approximately 2.1 h. When LDL is removed for more than 10 h, the cells contain only 3% of the original ACAT activity. Cycloheximide under this condition causes an 8-fold increase in ACAT activity; the increase approaches a maximum in 6-8 h. The extent of ACAT activation by cycloheximide inversely depends on exogenous sterol present in the medium; LDL diminishes the activation, while cationized LDL or 25-hydroxycholesterol completely abolishes the activation. Adding LDL back to the sterol-free medium causes a 40-70-fold increase in ACAT activity; however, the activation of LDL is not further augmented if the cells are pretreated with cycloheximide. The above observations are qualitatively confirmed by ACAT assays in vitro with cell homogenates. LDL or cycloheximide has no effect on the rates of 3H-labeled triglyceride and 3H-labeled polar lipid synthesis. Efflux of prelabeled cholesterol from cells is cycloheximide-insensitive. Rates of degradation of [3H]-leucine-pulse-labeled total protein in cells grown with or without LDL are identical. The above results imply the existence of at least one specific short-lived factor that directly or indirectly inhibits ACAT activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Phenylalanine ammonia-lyase immobilized in microcapsules for the depletion of phenylalanine in plasma in phenylketonuric rat model

Microencapsulation of the enzyme phenylalanine ammonia-lyase was developed for in vivo depletion of systemic phenylalanine in phenylketonuric rats. Compared to normal rats, systemic phenylalanine blood levels in phenylketonuric rats was increased by 15-20-fold. Daily oral administration of 1 unit of phenylalanine ammonia-lyase-loaded artificial cells to phenylketonuric rats lowered the systemic phenylalanine level to 58% +/- 18% (mean + S.D.) in 7 days (P less than 0.010), while 5 units lowered the systemic phenylalanine level to 25% +/- 8%. 5 units of the immobilized enzyme lowered the systemic phenylalanine level to normal levels within 6 days. Phenylketonuric treated rats showed no signs of abnormal behavior and weight loss compared to phenylketonuric non-treated rats. The immobilized enzyme within artificial cells is therefore protected against low gastrointestinal pH and proteolytic enzymes.