European agrarian fund for development country (EAFRD) and its influence on raise developind potential provincial space

The content and meaning of the EAFRD scientific literature. The collection of input-Bulletin granted subsidies to its localization according to the development potential of the region. Create a table comparing the invested financial resources and anticipated effects of subsidies granted from the Fund under EAFERD JK. Calculation of the projected increase in development potential for the region. Preparation of base map and text, identifying the need for allocation of funds from the EAFRD

The studies in the Czech Republic based on students' loans

I have tried to get closer to student loan´s in my bachelor work. I have picked out for my elaboration the Českou spořitelnu, Komerční banku, Poštovní spořitelnu, Oberbank and UniCredit Bank and their conditions

Physiochemical characteristics and fermentation ability of milk from Czech Fleckvieh cows are related to genetic polymorphisms of -casein, -casein, and -lactoglobulin

Objective The aim of the study was to find a possible association between the β- and κ-casein and β-lactoglobulin genotypes and important milk physiochemical and technological characteristics such as acidity, alcohol stability, the contents of some minerals and the parameters of acid fermentation ability (FEA) in Czech Fleckvieh Cattle. Methods Milk and blood samples were collected from 338 primiparous Czech Fleckvieh cows at the same stage of lactation. The genotypes of individual cows for κ-casein (alleles A, B, and E) and β-lactoglobulin (alleles A and B) were ascertained by polymerase chain reaction-restriction fragment length polymorphism, while their β-casein (alleles A1, A2, A3, and B) genotype was determined using melting curve genotyping analysis. The data collected were i) milk traits including active acidity (pH), titratable acidity (TA), alcohol stability (AS); calcium (Ca), phosphorus (P), sodium (Na), magnesium (Mg), and potassium (K) contents; and ii) yoghurt traits including active acidity (Y-pH), titratable acidity (Y-TA), and the counts of both Lactobacilli and Streptococci in 1 mL of yoghurt. A linear model was assumed with fixed effects of herd, year, and season of calving, an effect of the age of the cow at first calving and effects of the casein and lactoglobulin genotypes of β-CN (β-casein, CSN2), κ-CN (κ-casein, CSN3), and β-LG (β-lactoglobulin, LGB), or the three-way interaction between those genes. Results The genetic polymorphisms were related to the milk TA, AS, content of P and Ca, Y-pH and Lactobacilli number in the fresh yoghurt. The CSN3 genotype was significantly associated with milk AS (p<0.05). The effect of the composite CSN2-CSN3-LGB genotype on the investigated traits mostly reflected the effects of the individual genes. It significantly influenced TA (p<0.01), Y-pH (p<0.05) and the log of the Lactobacilli count (p<0.05). Conclusion Our findings indicate that the yoghurt fermentation test together with milk proteins genotyping could contribute to milk quality control and highlight new perspectives in dairy cattle selection

RNF213 Rare Variants in Slovakian and Czech Moyamoya Disease Patients.

RNF213/Mysterin has been identified as a susceptibility gene for moyamoya disease, a cerebrovascular disease characterized by occlusive lesions in the circle of Willis. The p.R4810K (rs112735431) variant is a founder polymorphism that is strongly associated with moyamoya disease in East Asia. Many non-p.R4810K rare variants of RNF213 have been identified in white moyamoya disease patients, although the ethnic mutations have not been investigated in this population. In the present study, we screened for RNF213 variants in 19 Slovakian and Czech moyamoya disease patients. A total of 69 RNF213 coding exons were directly sequenced in 18 probands and one relative who suffered from moyamoya disease in Slovakia and the Czech Republic. We previously reported one proband harboring RNF213 p.D4013N. Results from the present study identified four rare variants other than p.D4013N (p.R4019C, p.E4042K, p.V4146A, and p.W4677L) in four of the patients. P.V4146A was determined to be a novel de novo mutation, and p.R4019C and p.E4042K were identified as double mutations inherited on the same allele. P.W4677L, found in two moyamoya disease patients and an unaffected subject in the same pedigree, was a rare single nucleotide polymorphism. Functional analysis showed that RNF213 p.D4013N, p.R4019C and p.V4146A-transfected human umbilical vein endothelial cells displayed significant lowered migration, and RNF213 p.V4146A significantly reduced tube formation, indicating that these are disease-causing mutations. Results from the present study identified RNF213 rare variants in 22.2% (4/18 probands) of Slovakian and Czech moyamoya disease patients, confirming that RNF213 may also be a major causative gene in a relative large population of white patients

Imaging data of II-2 in Family 1.

<p>(A) MRA image. TOF-3D MRA verifies typical steno-occlusive changes of the circle of Willis. Distal T segments of both internal carotid arteries are occluded and basal moyamoya vessels are clearly seen (anteroposterior view, left panel). Typical “puff-of-smoke” look of moyamoya vessels. Internal carotid arteries are relatively hypoplastic compared with the vertebrobasilar system (lateral view, right panel). (B) Digital subtraction angiography. Catheterization angiography of left vertebral artery (left panel), left carotid artery (middle panel), and right carotid artery (right panel). (C) Transcranial color-coded sonography. Severely dampened flow in the M1 segment of the left middle cerebral artery.</p

MAF in database and prediction of functional change of identified RNF213 variants.

<p>MAF in database and prediction of functional change of identified RNF213 variants.</p

Homology of identified RNF213 variants.

<p>Homology of identified RNF213 variants.</p

Migration assay using HUVECs transfected with <i>RNF213</i> D4013N, R4019C and V4146A.

<p>Representative images are shown in upper panel. The re-endothelialized areas were quantified by imaging analysis (lower panel). “Vector” represents backbone vector, not including <i>RNF213</i>. Data with bars represent mean ± SD (<i>n</i> = 3 or 4). *<i>P</i> < 0.05 compared with vector, #<i>P</i> < 0.05 compared with WT according to Student’s <i>t</i>-test.</p

Identification of <i>RNF213</i> rare variants in three families.

<p>(A) Pedigree chart and genotypes of <i>RNF213</i> rare variants and microsatellite markers of the three families. Filled and unfilled symbols indicate affected and unaffected individuals, respectively. Squares and circles represent males and females, respectively. Arrows indicate index case. (B) Sequence chromatography of the identified <i>RNF213</i> rare variants. (C) Haplotype for p.R4019C and p.E4042K determined by cloning in II-1 in Family 2.</p

Schematic diagram of <i>RNF213</i> rare variants identified in MMD patients.

<p>Variants in Asian and white patients are shown above and below the protein, respectively. The five variants identified in MMD patients from this study are shown in bold characters. AA, amino acid; AAA+, ATPase associated with diverse cellular activities domain; RING, RING-finger domain. This figure was modified from the original version described in Reference 6.</p