Kerstin Dallmann scite author profile

In case of food packaging applications, high oxygen and water vapour barriers are the prerequisite conditions for preserving the quality of the products throughout their whole lifecycle. Currently available polymers and/or biopolymer films are mostly used in combination with barrier materials derived from oil based plastics or aluminium to enhance their low barrier properties. In order to replace these non-renewable materials, current research efforts are focused on the development of sustainable coatings, while maintaining the functional properties of the resulting packaging materials. This article provides an introduction to food packaging requirements, highlights prior art on the use of whey-based coatings for their barriers properties, and describes the key properties of an innovative packaging multilayer material that includes a whey-based layer. The developed whey protein formulations had excellent barrier properties almost comparable to the ethylene vinyl alcohol copolymers (EVOH) barrier layer conventionally used in food packaging composites, with an oxygen barrier (OTR) of <2 [cm³(STP)/(m²d bar)] when normalized to a thickness of 100 μm. Further requirements of the barrier layer are good adhesion to the substrate and sufficient flexibility to withstand mechanical load while preventing delamination and/or brittle fracture. Whey-protein-based coatings have successfully met these functional and mechanical requirements.

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Human agmatinase is diminished in the clear cell type of renal cell carcinoma

Dallmann

Junker

Balabanov

et al. 2003

Intl Journal of Cancer

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The proteome of RCC was analyzed by 2D PAGE to search for tumor-associated proteins. Agmatinase, which hydrolyzes agmatine to putrescine and urea, was identified by mass spectrometry and database searches and shown to be downregulated in tumor cells. Additionally, RT-PCR and Northern blot analyses demonstrated a clearly decreased amount of agmatinase mRNA in tumor cells. The differential expression of agmatinase mRNA was confirmed at the protein level. Western blot analysis showed almost no detectable agmatinase protein in tumor cells compared to corresponding normal renal tissue. Agmatinase mRNA is most abundant in human liver and kidney but expressed to a lesser extent in several other tissues, including skeletal muscle and small intestine. The human agmatinase gene encodes a 352-residue protein with a putative mitochondrial targeting sequence at the N-terminus. Using transfection and immunohistochemical studies, we show that agmatinase is localized in the mitochondria. Immunohistochemical studies revealed that agmatinase in the normal kidney is restricted to tubulus epithelial cells, while in tumors staining was low and heterogeneous. Thus, expression of human agmatinase is altered in RCC. We discuss the consequences of these findings in terms of polyamine, NO metabolism and macrophage function.

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Crystal structure of bis(η5-pentamethylcyclopentadienyl)[μ3-(η2-3-trimethyl-propinylcarboxylato)-bis(tricarbonylcobalt)-titan], C33H39Co2O8Ti

Spannenberg

Dallmann

Burlakov

et al. 2002

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In vivo Analyse der hepatischen Architektur und Mikrozirkulation der regenerierenden Mausleber nach partieller Hepatektomie

Dallmann

Eipel

Menger

et al.

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Crystal structure of bis(η5-pentamethylcyclopentadienyl)(μ3-(oxymethylidin)-cyclo-(tricarbonylcobalt)(monocarbonylcobalt)-(μ2-η2-3-trimethylpropinyl)titan, C31H39Co2<O5Ti

Spannenberg

Dallmann

Burlakov

et al. 2002

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