Hydrophobic labeling

Segment in model Hydro- Negatively charged residues Hydrophobic labelling of peptide Tryptic limit peptide... 

Fig. 3. (A) Disposition of afi unit in the membrane, based on sequence information [14,15], selective proteolytic digestion of the a subunit [5,6] and hydrophobic labelling (Table 1). The model for the (S subunit is based on sequencing of surface peptides and identification of S-S bridges [64,65]. T, T2 and C3 show location of proteolytic splits. CHO are glycosylated asparagines in the P subunit. (B) Peptide fragments remaining in the membrane after extensive tryptic digestion of membrane-bound Na,K-ATPase from outer medulla of pig kidney as described by Karlish et al. [7,58].

The activity of water plays a dominating role in optical ion sensors in which the indicator dye is incorporated in a hydrophobic layer. Despite its hydrophobic label, such layers contain a finite, sometimes very significant concentration of water. In that respect, they behave as mixed organic-aqueous media with all the implications that affect the aforementioned acidity functions. In other words, the optical signal coming from such a selective layer is affected more by the degree of hydration than by the changes of ion activity in the solution (Janata, 1992). 

Andersen, J.P., Vilsen, B Collins, Jit., Jorgensen, P.L. (1986). Localization of ErE2 conformational transitions of sarcoplasmic reticulum Ca-ATPase by tryptic cleavage and hydrophobic labeling. J. Membr. Biol. 93, 85-92. 

Hydrophobic interactions may also serve to purify products of combinatorial syntheses. As an example, penta-O-lauroyl-l-thio-p-galactose was subjected to a Michael addition to a,p-unsaturated ketones or to alkylation by a-chloro ketones followed by reduction of the keto groups or by reductive alkylation with amino acid esters. The reaction mixtures were passed through Cl8 silica gel, whereby the desired products were adsorbed while unwanted products were washed away. Desorption was carried out with pentane, and the hydrophobic labels were removed with methanolic sodium methoxide.The methyl laurates were finally separated from the desired products by chromatography on silica... 

K Otsuka, K. Hydrophobic labeling of amino acids Transient trapping-capihary/microchip electrophoresis. Electrophoresis 2011, 32,... 

An off-lattice minimalist model that has been extensively studied is the 46-mer (3-barrel model, which has a native state characterized by a four-stranded (3-barrel. The first to introduce this model were Honeycutt and Thirumalai [38], who used a three-letter code to describe the residues. In this model monomers are labeled hydrophobic (H), hydrophilic (P), or neutral (N) and the sequence that was studied is (H)9(N)3(PH)4(N)3(H)9(N)3(PH)5P. That is, two strands are hydrophobic (residues 1-9 and 24-32) and the other two strands contain alternating H and P beads (residues 12-20 and 36-46). The four strands are connected by neutral three-residue bends. Figure 3 depicts the global minimum confonnation of the 46-mer (3-barrel model. This (3-barrel model was studied by several researchers [38-41], and additional off-lattice minimalist models of a-helical [42] and (3-sheet proteins [43] were also investigated. 

Figure 3.3 Schematic diagram showing the packing of hydrophobic side chains between the two a helices in a coiled-coil structure. Every seventh residue in both a helices is a leucine, labeled "d." Due to the heptad repeat, the d-residues pack against each other along the coiled-coil. Residues labeled "a" are also usually hydrophobic and participate in forming the hydrophobic core along the coiled-coil.

The actual reaction mechanism is very similar for the different members of the family, but the specificity toward the different side chain, R, differs most strikingly. For example, trypsin cleaves bonds only after positively charged Lys or Arg residues, while chymotrypsin cleaves bonds after large hydrophobic residues. The specificity of serine proteases is usually designated by labeling the residues relative to the peptide bond that is being cleaved, using the notation... 

PelZ is a hydrophilic protein of 420 amino acids with a short hydrophobic sequence at its N-terminal end which has Ae characteristics of the signal sequences of exported proteins. The signal peptide may be 24 amino acids long, which would corroborate wiA the usual length encountered in prokaryotes. The molecular cloning of the pelZ gene in an expression vector pT7-6 allowed for the specific 35S-cysteine-methionine raAo-labelling of PelZ in E. coli K38. We could detect, in crude extracts, the presence of a precursor and a mature form of PelZ. After cell fractionation, Ae mature form of PelZ could be localized in Ae periplasm of E. coli. So PelZ appears to be a protein exported by Ae Sec-dependent system of translocation. 

NCD-4 is a nonfluorescent carbodiimide derivative that forms a fluorescent adduct with the Ca -ATPase, accompanied by inhibition of ATPase activity and phos-phoenzyme formation [376-378]. Ca protected the enzyme against the inhibition by NCD-4 and reduced the extent of labeling, suggesting that the reaction may involve the Ca " " binding site. The stoichiometry of the Ca -protected labeling was i 2mole/mol ATPase. The fluorescence emission of the modified Ca -ATPase is consistent with the formation of a protein bound A-acylurea adduct in a relatively hydrophobic environment. After tryptic proteolysis of the NCD-4 labeled ATPase the fluorescence was associated with the A2 band of 24 kDa [376,379]. 

In Edman sequencing, the N-terminal amino acids are sequentially cleaved and labeled with a hydrophobic chromophore. Then, the labeled... 

Another approach has been to immobilize proteins within arrays of microfabricated polyacrylamide gel pads (Arenkov et al., 2000). Nanoliters of protein solutions are transferred to 100 x 100 x 20-pM gel pads and assayed with antibodies that are labeled with a fluorescent tag. Antigen imbedded in the gel pads can be detected with high sensitivity and specificity (Arenkov et al., 2000). Furthermore, enzymes such as alkaline phosphatase can be immobilized in the gel pads and enzymatic activity is readily detected upon the addition of an indicator substrate. The main advantage of the use of the threedimensional gel pad for fixation of proteins is the large capacity for immobilized molecules. In addition, the pads in the array are separated from one another by a hydrophobic surface. Thus, each pad behaves as a small test tube for assay of protein-protein interactions and enzymatic reactions (Arenkov et al., 2000). The disadvantage of the method is the need to microfabricate the array of gel pads in that microfabrication is... 

FIGURE 1.4 Ligand-binding plots showing hydrogen-bonding interactions and distances and hydrophobic contacts for (a) the sucrose molecule in the A. maxima OCP structure and (b) the 3 -hydroxyechinenone molecule. Residues labeled in bold are absolutely conserved in the primary structure of the OCP. (From Wallace, A.C. et al., Protein Eng., 8, 127, 1995.)... 

We would like to point out that an order parameter indicates the static property of the lipid bilayer, whereas the rotational motion, the oxygen transport parameter (Section 4.1), and the chain bending (Section 4.4) characterize membrane dynamics (membrane fluidity) that report on rotational diffusion of alkyl chains, translational diffusion of oxygen molecules, and frequency of alkyl chain bending, respectively. The EPR spin-labeling approach also makes it possible to monitor another bulk property of lipid bilayer membranes, namely local membrane hydrophobicity. 

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