Characterization of the human epidermal profilaggrin gene. Genomic organization and identification of an S-100-like calcium binding domain at the amino terminus.

Filaggrin is an intermediate filament-associated protein which functions to aggregate keratin intermediate filaments in the stratum corneum of mammalian epidermis. It is synthesized as a large precursor protein, profilaggrin, that consists of multiple filaggrin units and is localized in keratohyalin granules. In this report, we describe the characterization of cosmid genomic clones containing the human profilaggrin gene coding for 11 complete filaggrin repeats of 324 amino acids each. At the amino- and carboxyl-terminal ends of human profilaggrin are leader and tail peptide sequences of 293 and 157 amino acids, respectively, which differ from filaggrin. The leader peptide is composed of two distinct domains: an 81-residue segment which shows significant homology to the S-100 family of EF hand-containing calcium-binding proteins, and a hydrophilic second domain of 212 residues. The gene is divided into three exons, with one intron (approximately 9.6 kilobase pairs) in the 5' noncoding region and a second one of 570 base pairs between the EF hands. The position of intron 2 is identical to that of other members of the S-100-like family. The presence of an S-100-like domain suggests that profilaggrin binds calcium and that the calcium binding domain is functionally significant in the formation of keratohyalin and/or the subsequent processing of profilaggrin to filaggrin, both of which may be calcium-dependent events.     

A non-PCR-based Invader<Superscript>®</Superscript> assay quantitatively detects single-copy genes in complex plant genomes

An accurate determination of gene copy number is critical to the success of a molecular breeding program involving both transgenic and non-transgenic plants. In this paper, we have described the application of a non-PCR-based technology, Invader^®*, for determination of gene copy number and zygosity in plants. A biplex assay format detected both a target gene and an endogenous reference gene simultaneously from the genomic DNA. The ratio between the signals of the two genes in relation to known copy number standards of the same target gene allowed copy number determination. The linear range of the Invader assay was 1–4 copies per genome, but it can be accurate over a larger copy number range depending on the assay conditions. This technique was utilized for screening plants carrying low transgene copy numbers from a large number of events generated by plant transformation, and shown to produce results comparable to that of Southern blots. We have also utilized this technique to screen thousands of field-grown plants for zygosity determinations and obtained data that was over 98% accurate, thus proving that this assay can be used to improve the efficiency of a breeding program. Overall, the Invader assays proved to be reproducible, specific, applicable to any gene sequence and amenable to high-throughput screening.