Your search keyword '"Pospiech, E."' showing total 55 results

51. Differences in two-dimensional gel electrophoresis patterns of skeletal muscle myosin light chain isoforms between Bos taurus, Sus scrofa and selected poultry species.

Author

Montowska M and Pospiech E

Subjects

Amino Acid Sequence, Animals, Avian Proteins chemistry, Avian Proteins metabolism, Cattle, Databases, Protein, Dietary Proteins metabolism, Isoelectric Point, Meat-Packing Industry methods, Molecular Weight, Peptide Fragments chemistry, Peptide Fragments metabolism, Peptide Mapping, Poultry, Protein Isoforms chemistry, Protein Isoforms metabolism, Sequence Alignment, Species Specificity, Sus scrofa, Two-Dimensional Difference Gel Electrophoresis, Meat analysis, Muscle, Skeletal metabolism, Myosin Light Chains chemistry, Myosin Light Chains metabolism

Abstract

Background: In this study the interspecies differences in two-dimensional electrophoresis patterns of skeletal muscle myosin light chain (MLC) isoforms between Bos taurus (cattle), Sus scrofa (pig), Gallus gallus (chicken), Meleagris gallopavo (turkey), Anas platyrhynchos (duck) and Anser anser (goose) were characterised on the basis of specific properties of MLCs associated with their structure and mobility in gel., Results: Two-dimensional electrophoresis separations revealed species-specific differences in the molecular weight and pI of individual MLC isoforms (MLC1f, MLC2f and MLC3f). In the case of closely related animal species such as goose and duck or turkey and chicken, significant differences occurred in MLC1f. For MLC2f, differences between cattle and turkey and between pig and chicken were around 1 and 0.3 kDa respectively. It appeared from the comparison of amino acid sequences that even MLCs with only 2% difference in sequences have different electrophoretic mobilities., Conclusion: Interspecies differences in skeletal MLC isoforms appeared between cattle, pig, chicken, turkey, duck and goose. The slight changes observed in the course of the aging process confirmed that these proteins are relatively little susceptible to proteolytic enzymes during meat aging., (Copyright © 2011 Society of Chemical Industry.)

Published

2011

52. Impact of polymorphism of the regulatory subunit of the μ-calpain (CAPN1S) on the proteolysis process and meat tenderness of young cattle.

Author

Iwanowska A, Grześ B, Mikołajczak B, Iwańska E, Juszczuk-Kubiak E, Rosochacki SJ, and Pospiech E

Subjects

Animals, Cattle, Genotype, Heterozygote, Meat, Molecular Weight, Myosin Heavy Chains metabolism, Protein Isoforms, Time Factors, Calpain genetics, Muscle, Skeletal metabolism, Polymorphism, Genetic

Abstract

The objective of this study was to estimate the impact of the polymorphism of μ-calpain (CAPN1S) gene on protein changes of the cattle muscle tissue and its tenderness during 10-day cold storage. The analysis was performed on the longest dorsal and lumbar muscles collected from 76 bulls 6 to 12 months of age. Polymorphism identification of the above-mentioned gene was conducted using the PCR-RFLP technique. Its effect on the course of the proteolysis process was assessed by monitoring changes in proportions of tissue proteins during 10-day process of meat ageing. Special attention was focused on changes in native titin (T1) share and products of its degradation (proteins of molecular weight (m.w.) of 2400 and 200 kDa), α-actinin and protein of 37 kDa as well as myosin heavy chains (MHC). In the case of the last proteins, their polymorphism was evaluated as well. Meat tenderness was estimated measuring the value of shear force and sensorially. The highest tenderness was ascertained for the heterozygote. Its improvement was associated with a significant decrease in proportions of proteins of molecular weight of approximately 37 kDa accompanied by an increase of those with 200 kDa molecular weight. Muscles derived from cattle of CT genotype were characterised by the highest proportions of type 2a MHC isoform. Value differences between proportions determined for the heterozygote and CC and TT homozygotes of the CAPN1S gene were statistically significant. Therefore, it can be presumed that the process of meat tenderisation was especially connected with MHC polymorphism.

Published

2011

53. Changes in structure of psoas major and minor and semitendinosus muscles of calves, heifers and cows during post-mortem ageing.

Author

Kołczak T, Pospiech E, Palka K, and La ̨ Cki J

Abstract

Changes occurring during post-mortem ageing in structure of psoas major and minor (PM) and semitendinosus (ST) muscles of calves, heifers and cows were observed. Samples from muscles taken 3 h after slaughter and after 6 and 12 days of storage at the temperature of 4 °C were analysed using light and transmission electron microscopy. Three hours after slaughter muscle fibres were close to each other and sarcomeres showed normal structure of A- and I-bands, M-lines and Z-disks. The space between myofibrils and sarcolemma and also between single myofibrils in muscle fibres increased during storage. Structure of sarcomeres underwent continuous degradation, length of sarcomeres increased due to enlargement of I-bands accompanied by Z-disk degradation. During ageing structural changes in myofibrils took place faster, were more intensive in muscles of younger animals and were more extensive and faster in PM than in ST muscles.

Published

2003

54. Changes of myofibrillar and centrifugal drip proteins and shear force of psoas major and minor and semitendinosus muscles from calves, heifers and cows during post-mortem ageing.

Author

Kołczak T, Pospiech E, Palka K, and La ̨ Cki J

Abstract

Changes in myofibrillar protein content and centrifugal drip proteins of psoas major and minor (PM) and semitendinosus (ST) muscles of calves, heifers and cows taken from carcasses on the 1st, 6th and 12th day of post-mortem cold storage were estimated. Washed myofibrils and centrifugal drip from muscles were analysed using SDS-PAGE 10 and 12% polyacrylamide gels. No significant changes were observed in content of contractile proteins, α-actinin and regulatory proteins (except for TN-T). There were no significant differences between muscles from investigated groups and between muscles aged in chilled conditions. The levels of titin T1 during ageing varied slightly. The 30 kDa-fraction appearance was fastest in calf, slower in heifer and slowest in cow muscles. More pronounced differences in the level of protein degradation with regards to muscle type, age of animals and time of storage were found in the centrifugal drip of meat. In the drip, the level of high molecular weight proteins was higher in muscles from young animals and in the muscles stored longer. The opposite was observed in case of 26-28 kDa proteins. Their amount in muscle drip decreased with increased storage time. The rate of proteolysis and release of cytoskeletal proteins during cold storage of muscles were related to change in shear values of roasted meat. The highest rate of protein degradation was observed in PM calf muscle and the lowest rate in ST cow muscle. The fastest tenderization process was registered in calves muscles and the slowest tenderization in cows.

Published

2003

55. Thermal properties of titin from porcine and bovine muscles.

Author

Pospiech E, Greaser ML, Mikolajczak B, Chiang W, and Krzywdzińska M

Abstract

The thermal properties of titin isolated from porcine and bovine longissimus muscles were investigated by differential scanning calorimetry in the temperature range from 20 to 100 °C. A single peak with average maximum temperatures of 75.6 and 78.4 °C characterized porcine and bovine titin denaturation, respectively. The peaks were much broader than those from the other major muscle proteins. Titin denaturation enthalpy values (1.6-2.6 J/g) were only about half those of whole meat and also lower than those previously determined for myosin, actin, or collagen. The relatively high titin denaturation temperature suggests that it may be partially responsible for meat toughening when muscle tissue is heated above 60 °C.

Published

2002