colligative properties

... • Sugar is extremely soluble in water and is not a volatile substance. What would the vapor pressure of water be at 700C if 1.0 x 102 grams of water have dissolved 2 x 102 grams of sucrose? ...

lecture3

... Global: A (user-defined) sum over a set of microstates Often a sum over sets that cannot be distinguished somehow: due to experimental limitations Due to similarity of structure Due to similarity of function Common uses: Folded vs. unfolded Folded vs. unfolded vs. intermediate different functional s ...

Document

... Specific groups of atoms that make up part of a larger molecule and have particular chemical properties (shape, polarity, reactivity, solubility) ...

Chemistry of Life

... • Large molecule built by amino acids • Amino Acids- There are _________ different proteins • Proteins have many different functions such as enzymes, structure, antibodies, hemoglobin(blood flow) ...

Coarse Grained MD

... The lightest particles (hydrogen) move faster, limiting the length of the timestep Equipartition of kinetic energy ...

Chapter 2 - The Chemistry of Life Section 1

... Exothermic = catabolic in organisms ...

Review of “Stability of Macromolecular Complexes”

... DNA Duplex – non sugar/phosphate atoms Connolly ML. Analytical molecular surface calculation. J Appl Crystallogr 1983;16:548–558. ...

Gene Column Cleaning Procedures

... • In cases where an ionic substance has been adsorbed Use a solvent with higher salt concentration or solvent with different pH from the mobile phase. • In cases where a hydrophobic substance has been adsorbed Use a solvent containing organic solvent. (In case of using buffer as a mobile phase, misc ...

Theme 1 - NUI Galway

... surface hydrophobic patch.3 The architecture of the dimer interface makes Azurin an interesting test molecule for these studies. Using selective labelling via surface exposed cysteine residues,4 bulky hydrophobic molecules (FITC analogues) will be introduced at different sites in and around the hydr ...

Review Sheet II

... The diagrams below show organic and inorganic molecules. Answer the questions that follow by writing the letter(s) of the correct diagram(s) in the space provided. ...

Chem 1151

... mℓ ...

Cell Membrane and Regulation

... The phospholipid bilayer is fluid like a soap bubble. Lipids move around in their side of the bilayer Lipid molecules do NOT move from one layer to the other. (**rare**) ...

Primary Structure - LaurensAPBiology

... Its not just chemical formula, it’s the shape of the molecule that lets it do its “job”. Never forget the axiom – structure dictates function. ...

Two Rules on Protein-Ligand Interactions Xiaodong Pang1, 2

... Understanding the ruling principles of interaction between a target protein and a ligand is of paramount importance in drug discovery efforts. So far, in finding a real ligand for a given target protein, we are limited to experimental screening from a large number of small molecules, or through free ...

Solid - burgess

... atomic number and is read from left to right. 2. Each vertical column is called a group or family. All the elements in a family have the same number of valence electrons 3. Each horizontal row is called a period. All elements in the same period have the same ending energy level (where electrons are ...

HW #6 BP401/P475 Fall 2015 Assigned Fr 10/02/15: due: Thursday

... connected by a hydrogen bond (2 in the example). Assume each hydrogen bond (shown dotted) stabilizes the system by an energy (enthalpy) of -500 J, with negative means stabilizing. (-500 J is for one mole of the molecules.) (Recall, we assume H = E, which is true since we are dealing with solids an ...

Cell Transport - Northwest ISD Moodle

... the particles are too big to fit through the membrane, WATER moves from high to low. ...

PowerPoint Presentation - Horizon Christian Academy

... -most abundant organic components of the human body 20 of total body weight -about ___% N and H _____, -all contain ___, _____ O C ____, possibly even ______ S -body makes at least __________ ...

Slide 1

... The kinetic Theory of Protein Folding  Folding proceeds through a definite series of steps or a Pathway.  A protein does not try out all possible rotations of conformational angles, but only enough to find the pathway. ...

Elements Compounds Mixtures

... • Examples: gatorade, salt water, brass, air ...

Document

... “non-polar” molecules do not, they disrupt water-water hydrogen bonds – high energy interface with water. “Hydrophobic” force. ( C-H bond is non-polar because C orbitals are larger than N, O, orbitals due to fewer protons in the nucleus ) ...

* 1. Overview of the Microbial World 8/30/2016

... Phospholipids have “polar heads”, “nonpolar tails” • form a lipid bilayer in water • the major component of biological membranes (which have cholesterol and proteins as well) ...

生物物理学 I Handout No. 2 ① ② ③ ④ ⑤

... Figure 11-4 Comparison of passive transport down an electrochemical gradient with active transport against an electrochemical gradient. Whereas simple diffusion and passive transport by membrane transport proteins {facilitated diffusion) occur spontaneously, active transport requires an input of met ...

Biochemistry - SCHS EOC biology files

... endothermic, exothermic heat capacity, polarity, surface tension, solute, solution, solvent • http://www.schooltube.com/video/b36a222fc dfef2db9af8/Properties-Of-Water ...

0d56a389a26e40f78a6bc73c6f2bab172a69bf20

... 1. What is the difference between a covalent and ionic bond? In a n ionic bond the atoms are bound together through an attraction between oppositely charged ions, in a covalent bond the atoms are bound together by shared electrons 2. What are the three parts of an atom, and what are the charges of e ...

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Implicit solvation

Implicit solvation (sometimes known as continuum solvation) is a method of representing solvent as a continuous medium instead of individual “explicit” solvent molecules most often used in molecular dynamics simulations and in other applications of molecular mechanics. The method is often applied to estimate free energy of solute-solvent interactions in structural and chemical processes, such as folding or conformational transitions of proteins, DNA, RNA, and polysaccharides, association of biological macromolecules with ligands, or transport of drugs across biological membranes. The implicit solvation model is justified in liquids, where the potential of mean force can be applied to approximate the averaged behavior of many highly dynamic solvent molecules. However, the interiors of biological membranes or proteins can also be considered as media with specific solvation or dielectric properties. These media are continuous but not necessarily uniform, since their properties can be described by different analytical functions, such as “polarity profiles” of lipid bilayers. There are two basic types of implicit solvent methods: models based on accessible surface areas (ASA) that were historically the first, and more recent continuum electrostatics models, although various modifications and combinations of the different methods are possible. The accessible surface area (ASA) method is based on experimental linear relations between Gibbs free energy of transfer and the surface area of a solute molecule. This method operates directly with free energy of solvation, unlike molecular mechanics or electrostatic methods that include only the enthalpic component of free energy. The continuum representation of solvent also significantly improves the computational speed and reduces errors in statistical averaging that arise from incomplete sampling of solvent conformations, so that the energy landscapes obtained with implicit and explicit solvent are different. Although the implicit solvent model is useful for simulations of biomolecules, this is an approximate method with certain limitations and problems related to parameterization and treatment of ionization effects.

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Implicit solvation