The objective of this research was to clarify the basis
of subfertility in Delaware roosters. It was anticipated
that a sensitive method would be needed to compare seminal
plasma protein composition between subfertile and fertile
roosters. Consequently, the applicability of two-dimensional
electrophoresis was tested as a tool for the
analysis...
A novel protocol for the study of protein-nucleic acid interactions is presented and demonstrated
to be feasible. The protocol combines photochemical crosslinking techniques and mass
spectrometric methods into a new strategy for identifying protein domains or amino acid residues
that are in close contact with nucleic acid in protein-nucleic acid...
The first goal of this study was to understand the role of calpains in skeletal muscle
protein degradation in cultured cells. We have developed a genetic approach to inhibit
endogenous calpain activity through over-expressing dominant negative m-calpain (DN),
antisense m-calpain (AS) and calpastatin inhibitory domain (CID). We observed that,
under...
The aim of this research was to gain more understanding on how a linker histone (LH), H1⁰, and high mobility group protein, HMG1, interact with nucleosome. To determine the location of linker proteins, three specific positioning sequences were used to reconstitute core nucleosomes and the binding of H1 and HMG1...
In order to better characterize linker histone interactions with DNA, avian erythrocyte-specific linker H5 and the trypsin-resistant globular domain of H5 (GH5) were used in DNA binding studies. To begin, H5 displayed a considerably higher binding
affinity for DNA than the isolated globular domain (GH5), supporting the importance of the...
Every cell is faced continuously with the task of transducing a vast number of external signals into appropriate intracellular responses. In mammalian cells, membrane bound receptors modulate the production of secondary messenger molecules, such as cyclic AMP (cAMP). Cell signaling through second messengers relies on the diffusion of such second...
Vaccinia virus (VV) encodes at least six proteins that are modified by the addition of a 14-carbon saturated fatty acid through an amide linkage and at least eight proteins that are modified post-translationally by the addition of a 16-carbon saturated fatty acid through linkage to cysteine residues. These post-translational modifications...