Photochemically crosslinked matrices of gelatin and fibrinogen promote rapid cell proliferation.

Here we report the use of a facile photochemical crosslinking method to fabricate stable polymer matrices from unmodified gelatin and fibrinogen. Gels were produced by covalent crosslinking of the proteins in a rapid photo-oxidative process, catalysed by a ruthenium metal complex and irradiation with visible light. For generation of macroporous, spongy matrices, the proteins and crosslinking reagents were mixed with catalase and hydrogen peroxide to achieve a foaming reaction, producing a stable, foamed matrix that was subsequently photo-crosslinked.

A highly elastic tissue sealant based on photopolymerised gelatin.

Gelatin is widely used as a medical biomaterial because it is readily available, cheap, biodegradable and demonstrates favourable biocompatibility. Many applications require stabilisation of the biomaterial by chemical crosslinking, and this often involves derivatisation of the protein or treatment with cytotoxic crosslinking agents. We have previously shown that a facile photochemical method, using blue light, a ruthenium catalyst and a persulphate oxidant, produces covalent di-tyrosine crosslinks in resilin and fibrinogen to form stable hydrogel biomaterials.

Gene expression profiles of BMP4, FGF10 and cognate inhibitors, in the skin of foetal Merino sheep, at the time of secondary follicle branching.

The high concentration of secondary branched follicles is a distinctive feature of the Merino sheep. These follicles initiate from 100 days of gestation. Here, we report a transition in abundance of the BMP4 and FGF10 morphogens occurring at this time.

Microsatellite detection of donor-derived sperm DNA following germ cell transplantation in cattle.

Although autologous and heterologous transplantation has resulted in colonisation of recipient testes in cattle, the ability of the transplanted spermatogonial stem cells to complete spermatogenesis has not yet been determined. The objective of the present study was to identify and validate microsatellite markers that can distinguish the genotype of different individuals and therefore can be used to detect the presence of donor DNA in recipient semen samples. In a previous study by this group, successful colonisation of recipient testes by heterologous transfer using a fluorescent dye was shown.

The development of photochemically crosslinked native fibrinogen as a rapidly formed and mechanically strong surgical tissue sealant.

We recently reported the generation of a highly elastic, crosslinked protein biomaterial via a rapid photochemical process using visible light illumination. In light of these findings, we predicted that other unmodified, tyrosine-rich, self-associating proteins might also be susceptible to this covalent crosslinking method. Here we show that unmodified native fibrinogen can also be photochemically crosslinked into an elastic hydrogel biomaterial through the rapid formation of intermolecular dityrosine.

Examination of basement membrane components associated with the bovine seminiferous tubule basal lamina.

Immunohistology has been used to examine the distribution of certain components of the basement membrane (BM) associated with bovine spermatogonial germ cells that are located within the seminiferous tubules. Histology was performed on testis tissue from Brahman cattle (Bos indicus) of three different age groups: pre-pubescent (4-6 months), juvenile (8-10 months) and adult (18-24 months) animals. There were no major changes in the BM composition apparent between these three age groups, except for certain lectin staining.

Design and facile production of recombinant resilin-like polypeptides: gene construction and a rapid protein purification method.

Resilin is an elastic protein found in specialized regions of the cuticle of insects, which displays unique resilience and fatigue lifetime properties. As is the case with many elastomeric proteins, including elastin, gliadin and spider silks, resilin contains distinct repetitive domains that appear to confer elastic properties to the protein. Recent work within our laboratory has demonstrated that cloning and expression of exon 1 of the Drosophila melanogaster CG15920 gene, encoding a putative resilin-like protein, results in a recombinant protein that can be photochemically crosslinked to form a highly resilient, elastic biomaterial (Rec1 resilin).

High yield expression of recombinant pro-resilin: lactose-induced fermentation in E. coli and facile purification.

Resilin is an elastic protein with outstanding material properties: high resilience and a very high fatigue lifetime. We are interested in the production of resilin-like proteins which can be photo-chemically cross-linked to form rubbery biomaterials to be used in a variety of industrial and medicinal applications. A method has been developed for producing soluble recombinant proteins in small scale fermentation equipment using glycerol batch for initial growth and primary induction by IPTG at carbon source depletion, followed by new growth in lactose-induced culture.

A rapid method for detecting extracellular proteinase activity in Cryptococcus neoformans and a survey of 63 isolates.

A rapid method to detect extracellular proteolytic activity around colonies of Cryptococcus neoformans was developed with tannic acid used to complex with residual protein in a solid medium. A survey was conducted with 32 isolates of C. neoformans var.