Digestibility of food allergens and nonallergenic proteins in simulated gastric fluid and simulated intestinal fluid-a comparative study.

Information on the comparative digestibility of food allergens and nonallergenic proteins is crucial when stability to digestion is to be used as a criterion to assess the allergenic potential of novel proteins. In this work, we compared the digestive stability of a number of food allergens and proteins of unproven allergenicity and examined whether allergens possess a higher stability than nonallergenic proteins of similar cellular functions, and whether there is a correlation between protein digestibility and allergenicity. The stability of groups of storage proteins, plant lectins, contractile proteins, and enzymes, both allergens and proteins with unproven allergenicity, in a standard simulated gastric fluid and a standard simulated intestinal fluid was measured. Food allergens were not necessarily more resistant to digestion than nonallergenic proteins. There was not a clear relationship between digestibility measured in vitro and protein allergenicity.

Chapter 3. High-throughput protein purification for x-ray crystallography and NMR.

In structural biology, the most critical issue is the availability of high-quality samples. "Structural-biology-grade" proteins must be generated in a quantity and quality suitable for structure determination using X-ray crystallography or nuclear magnetic resonance. The additional challenge for structural genomics is the need for high numbers of proteins at low cost where protein targets quite often have low sequence similarities, unknown properties and are poorly characterized. The purification procedures must reproducibly yield homogeneous proteins or their derivatives containing marker atom(s) in milligram quantities. The choice of protein purification and handling procedures plays a critical role in obtaining high-quality protein samples. Where the ultimate goal of structural biology is the same-to understand the structural basis of proteins in cellular processes, the structural genomics approach is different in that the functional aspects of individual protein or family are not ignored, however, emphasis here is on the number of unique structures, covering most of the protein folding space and developing new technologies with high efficiency. At the Midwest Center Structural Genomics (MCSG), we have developed semiautomated protocols for high-throughput parallel protein purification. In brief, a protein, expressed as a fusion with a cleavable affinity tag, is purified in two immobilized metal affinity chromatography (IMAC) steps: (i) first IMAC coupled with buffer-exchange step, and after tag cleavage using TEV protease, (ii) second IMAC and buffer exchange to clean up cleaved tags and tagged TEV protease. Size exclusion chromatography is also applied as needed. These protocols have been implemented on multidimensional chromatography workstations AKTAexplorer and AKTAxpress (GE Healthcare). All methods and protocols used for purification, some developed in MCSG, others adopted and integrated into the MCSG purification pipeline and more recently the Center for Structural Genomics of Infectious Disease (CSGID) purification pipeline, are discussed in this chapter.

Characterization of a cryptic plasmid from Lactobacillus fermentum KC5b and its use for constructing a stable Lactobacillus cloning vector.

Lactobacillus fermentum KC5b, a strain originally isolated from the human vagina, contains a cryptic plasmid pKC5b. The sequence and genetic organization of the 4392-bp plasmid were determined. It contains two convergently oriented replicons, which are homologous to each other and to the stable replicon of the Enterococcus faecium plasmid pMBB1. The two replicons of pKC5b were used either individually or together to construct Lactobacillus-Escherichia coli shuttle plasmids. Only the plasmid pSP1 that carried both replicons transformed lactobacilli, suggesting a complementary function between the two replicons. Since the replicons had a high homology to those of other plasmids that replicate via a theta-like mechanism and no detectable single-stranded intermediates were found for the plasmid, it is possible that pKC5b may replicate via a theta-like mechanism. The new shuttle plasmid pSP1 has been transformed and stably maintained in several Lactobacillus strains. As an initial application, pSP1 was used to clone the S-layer protein gene (slpA) of Lactobacillus acidophilus ATCC 4356 into a heterologous vaginal Lactobacillus strain and achieved surface-bound expression of the protein.