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Acta Alimentaria
Authors: R. Božac, I. Kos, Z. Janječić, Ž. Kuzmanović, M. Konjačić, and J. Nežak

An investigation has been carried out on the effect of different crossbreeds on chemical and sensory profiling of Croatian representative pork products, Istrian hams. Due to the original trimming of hams (without skin and subcutaneous adipose tissue) the total weight loss was significantly higher (41.67–43.69%) in all three genotypes (Swedish Landrace×Dutch Large Whit ×Pietrain (SL×DLW×P), Dutch Large White×Swedish Landrace (DLW×SL) and Dutch Large White×Duroc (DLW×D)) in comparison with the Italian and Spanish hams with skin and subcutaneous adipose tissue. Hams from DLW×D genotype had a significantly lower (P<0.01) total weight loss (41.67%) and, in comparison with the Spanish and Italian hams, Istrian ham contains much less moisture (45.05–46.35%). The content of total saturated, monounsaturated, polyunsaturated fatty acids and cholesterol was similar in all crossbreeds (P>0.05). The cholesterol level is low (541.9–555.9 mg kg−1), which makes Istrian dry-cured ham a dietary product. Hams from DLW×D had significantly more visible intramuscular fat (P<0.01) than hams from SL×DLW×P crossbreeds. The colour of muscle tissue, seasoned flavour, taste, saltiness, total mouth consistency (tender, melting, stringy) and tactile consistency were best in genotype DLW×D.

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The growing interest in emmer cultivation has no doubt been stimulated by the increasing demand for traditional foods with an image of naturalness, especially on the organic market. The new economic situation could stimulate the breeding and production of emmer as the source of an especially valuable foodstuff. It is the task of breeders to produce emmer varieties that can survive even the hardest winter occurring in the targeted cultivation area without serious damage. The best sources to improve the winter hardiness are probably the emmer genetic resources stored in genebanks. Unfortunately no public data are available on the frost tolerance and winter hardiness of the various genebank accessions. In the present research the frost tolerance and winter hardiness of 10 winter emmer genebank accessions were studied under nursery and phytotronic conditions. The results suggest that the majority of the populations studied are frost-sensitive, and only few landraces have an acceptable level of winter hardiness and frost resistance.

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The characterization of the old Hungarian varieties and landraces is an important part of Hungarian cereal research and breeding. Analysis of these germplasms with the most up-to-date methodologies results a broad scale of diversity of glutenin alleles, which proves their genetic heterogenicity. Exploitation of this attribute is an untapped possibility for developing modern varieties in our breeding programs. The previous research work revealed this diversity by SDS-PAGE analysis and MALDI-TOF technology. The powerful tool, the high throughput lab-on-a chip technique can facilitate the effectiveness of this function and decreases the cost of the analysis. This study demonstrates the application of this technique for analysing the old varieties. The allelic composition and their effects on bread making quality concluded by means of functional analysis.

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South African sorghum landraces and breeding of varieties suitable for low-input agriculture — Acta Agronomica Hungarica, Vol. 54, No 3 pp. 379–388 Abu Assar A. H. Evaluation of South

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Köszegi, B., Kovács, G. (2003): Gradient chamber studies on the dry matter accumulation of winter emmer [ Triticum turgidum ssp. dicoccon (Schrank) Thell.] landraces in the seedling stage. Acta Agron. Hung. , 51 , 413

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R. Peter, T. W. Eschholz, P. Stamp, et al.: 2006. Swiss maize landraces-Early vigour adaptation to cool conditions — Acta Agronomica Hungarica, Vol. 54, No 3 pp. 329–336 Stamp P

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The parents (the landrace Chinese spring (CS) and a synthetic hexaploids (S6x)) and 17 derived single chromosome substitution lines (SL) were grown in parallel in the field under non-saline (1.0 dSm−1) and saline (12.0 dSm−1) conditions, and evaluated for a set of phenotypic traits. The performance of CS indicated it to have borderline salinity tolerance with respect to all of the traits except for leaf area (for which it behaved in as a salinity sensitive type). The SL 4D was early in booting, ear emergence, flowering and maturity, while 5D and 2B SLs were both late. The 2B SL produce 33% more ears than CS. The 5D SL under-performed with respect to ear weight, grain number per ear, grain weight per ear and 1000-grain weight both under non-saline and saline conditions. Under saline conditions, four SLs (1A>5A>1D>2B) outperformed Cs for ear length, and six SLs (1D>6A>4B>3A>3B>3D) showed an improved grain weight. The grains produce by the 2B SL were smaller than those of CS. Leaf area developed better in four SLs (4D>2B>1A>7D) than in CS.

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Damaged starch, protein and arabinoxylan (AX) content and composition have been related to water absorption (WA) in a large set of samples. We tested 20 modern bread wheat cultivars bred in Hungary, 20 old Hungarian landraces, and 17 cultivars with special biochemical/functional characteristics from all around the world, this last set for international comparison. Grain was field grown in the 2011 and 2012 harvest seasons. Alinear mathematical model has been developed to estimate WA from protein content, starch damage, AX content and the relative amount of soluble proteins with strong correlation (r2 = 0.65) between measured and estimated data. The introduction of a new parameter, related to the cultivar dependent quantitative composition of soluble proteins and determined by lab-on-a-chip (LOC) analysis, largely improved the predictability of WA. Based on the large variation among the level of AX and certain soluble protein components in wheat flour and their significant contribution toWA determination, it was concluded, that these properties could be appropriate target traits to alter them during wheat breeding programs to improve the WA of wheat flour.

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Simple sequence repeat (SSR) DNA markers were used to characterize the genetic diversity in 70 accessions of Aegilops crassa from Iran as well as to determine relationships among these accessions with 9 accessions of Aegilops tauschii (subsp. tauschii and strangulata ) and 5 Triticum aestivum landraces. All twenty SSR primer pairs were polymorphic and identified a total number of 149 alleles corresponding to an average of 7.5 alleles per locus. The highest and lowest PIC values were obtained in subsp. strangulata and Ae. crassa accessions, respectively. Data obtained were used to estimate genetic similarity using the Dice coefficient, and dendrogram was constructed using the UPGMA method. The dendrogram separated the 84 accessions into two main groups. All species grouped according to their genomes. A good level of genetic diversity was observed in the accessions of Ae. crassa , even in geographically close regions, which can be used in the broadening of the genetic base of bread wheat. In addition, T. aestivum and subsp. tauschii were clustered further away from Ae. crassa , confirming probably chromosomal rearrangements in the Dgenome of Ae. crassa during the processes of evolution.

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Acta Veterinaria Hungarica
Authors: Róbert Romvári, András Szabó, Gabriella Andrássy, Zsolt Petrási, Tamás Donkó, and Péter Horn

A two-way selection procedure was performed on a Landrace pig line. First the cardiac output (CO) values (6.89 ± 1.27 L/min) were estimated by ECG-gated magnetic resonance imaging (MRI) to quantify the heart performance of the boars (n = 30), then total body skeletal muscle volume (MVTB; 48.7 ± 5.17 dm 3 ) was determined applying spiral computerised tomography (CT). The relative cardiac output value (RCO) was developed, expressing the relationship between CO and MVTB. Four superior [RCO value below 6.7 dm 3 / (L * min −1 )] and one minus variant [(8.97 dm 3 / (L * min −1 )] boars were taken into breeding. The best fifteen percentage of the first generation males (n = 30) was characterised according to their RCO values. Significant difference was found between the developed performance measure of the progenies of minus and plus variant boars [8.2 ± 0.65 and 5.63 ± 0.70 dm 3 / (L * min −1 ), n = 7 and 23], respectively. Comparing the existing five progeny groups, all of the ‘HP+’ groups differed significantly from the ‘HP-’ one, where the largest heart performance contrast found was 3.2 dm 3 / (L * min −1 ). Based upon the results, the selection is being continued on a larger population.

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