Correlation Analysis Between Bone Mineral Density and Serum Element Contents of Postmenopausal Women in Xi’an Urban Area

The objective of this paper is to investigate the correlation between serum macro-element and trace element contents and bone mineral density (BMD) as well as the occurrence of osteoporosis. After the epidemiological investigation of 290 postmenopausal women from ages 45 to 65 in the Xi’an urban area, their blood was collected and serum concentrations of macro-elements, calcium, phosphonium, potassium, sodium, magnesium, and trace elements, zinc, iron, copper, and selenium were determined using atomic absorption spectrometry. Their BMD was measured by QDR-2000 dual-energy X-ray absorptiometry (DEXA). The correlation analysis between BMD and serum element contents was done with the software of SPSS 13.0. The correlation analysis of serum elements of postmenopausal women showed that there was a significant correlation between serum calcium and the other elements, and also a significant correlation between serum phosphonium and the others except serum potassium. The serum potassium content had a significant correlation with serum calcium, sodium and iron, but sodium content showed a significant correlation with the others except iron and selenium. In addition, copper had a significant correlation with the others except potassium and selenium. In correlation analysis between BMD and the elements contents, only did the potassium content show a significant positive correlation with BMD of lumbar vertebra and proximal femora. The comparison results between osteoporosis group, osteopenia group, and healthy group showed that there was no significant difference in the element contents between the groups, but there existed a tendency that potassium content increased with the rise of BMD. There exist significant correlations between the contents of serum elements such as calcium, phosphonium, sodium, potassium, magnesium, zinc, iron, copper, and selenium, but no significant differences in these elements contents between the osteoporosis group, osteopenia group, and healthy group. Serum potassium content shows a significant positive correlation with BMD, suggesting potassium may be involved in the development of osteoporosis in postmenopausal women.     

Association between Levels of Serum Ferritin and Bone Mineral Density in Korean Premenopausal and Postmenopausal Women: KNHANES 2008–2010

Background

As women go through menopause, serum estrogen decreases and ferritin increases. Decreased serum estrogen is well known to cause detrimental effects on bone health; however, data on the associations of serum ferritin with BMD before and after menopause are still lacking. Therefore, this study aimed to investigate the association between serum ferritin levels and BMD in premenopausal and postmenopausal Korean women.

Methods

This study was performed using data from the 2008–2010 Korean National Health and Nutrition Examination Survey, including 7300 women (4229 premenopausal and 3071 postmenopausal). BMD was measured using dual X-ray absorptiometry at the femur and the lumbar spine, and serum ferritin levels were measured by chemiluminescent immunoassay.

Results

Median serum ferritin levels in postmenopausal women were higher than those in premenopausal women despite the same age ranges. Serum ferritin levels were only significantly correlated with BMD on the lumbar spine (β = −0.189, p-value = 0.005) in premenopausal women after adjusting confounding factors. Additionally, BMD on the lumbar spine had tended to decrease as serum ferritin quartiles increase (P for trend = 0.035) in premenopausal women after adjusting confounding factors. On the other hand, there were no significant associations between serum ferritin levels and BMD on the total femur and, femur neck in premenopausal women, and BMD on the total femur, femur neck, and lumbar spine in postmenopausal women.

Conclusion

Increased serum ferritin levels were significantly associated with BMD in premenopausal women, particularly on the lumbar spine, but not in postmenopausal women.     

Does Baseline PTH Influence Recovery of Bone Mineral Density,Trabecular Bone Score and Bone Turnover Markers? A Prospective Study Following Curative PArathyroidectomy in Primary Hyperparathyroidism

Objective: This prospective study was carried out to assess trabecular bone score, bone mineral density (BMD), and bone biochemistry in Indian subjects with symptomatic primary hyperparathyroidism (PHPT), and to study the influence of baseline parathyroid hormone (PTH) on recovery of these parameters following curative surgery.Methods: This was a 2-year prospective study conducted at a tertiary care centre in southern India. Baseline assessment included demographic details, mode of presentation, bone mineral biochemistry, BMD, trabecular bone score (TBS), and bone turnover markers (BTMs). These parameters were reassessed at the end of the first and second years following curative parathyroid surgery.Results: Fifty-one subjects (32 men and 19 women) with PHPT who had undergone curative parathyroidectomy were included in this study. The mean (SD) age was 44.6 (13.7) years. The TBS, BTMs, and BMD at lumbar spine and forearm were significantly worse at baseline in subjects with higher baseline PTH (≥250 pg/mL) when compared to the group with lower baseline PTH (<250 pg/mL). At the end of 2 years, the difference between high versus low PTH groups (mean ± SD) persisted only for forearm BMD (0.638 ± 0.093 versus 0.698 ± 0.041 g/cm²; P =.01). However, on follow-up visits in the first and second year after curative parathyroidectomy, there was no significant difference in BTMs, BMD at the femoral neck, lumbar spine, and TBS between the 2 groups stratified by baseline PTH.Conclusion: The BMD at the forearm remained significantly worse in individuals with high baseline PTH even at 2 years after surgery, while other parameters including TBS improved significantly from baseline.Abbreviations: 25(OH)D = 25-hydroxyvitamin D; BMD = bone mineral density; BMI = body mass index; BTMs = Bone turnover markers; CTX = C-terminal telopeptide of type 1 collagen; DXA = dual energy X-ray absorptiometry; P1NP = N-terminal propeptide of type 1 procollagen; PHPT = primary hyperparathyroidism; PTH = parathyroid hormone; TBS = trabecular bone score     

Multilevel Approach of a 1-Year Program of Dietary and Exercise Interventions on Bone Mineral Content and Density in Metabolic Syndrome – the RESOLVE Randomized Controlled Trial

Background

Weight loss is a public health concern in obesity-related diseases such as metabolic syndrome (MetS). However, restrictive diets might induce bone loss. The nature of exercise and whether exercise with weight loss programs can protect against potential bone mass deficits remains unclear. Moreover, compliance is essential in intervention programs. Thus, we aimed to investigate the effects that modality and exercise compliance have on bone mineral content (BMC) and density (BMD).

Methods

We investigated 90 individuals with MetS who were recruited for the 1-year RESOLVE trial. Community-dwelling seniors with MetS were randomly assigned into three different modalities of exercise (intensive resistance, intensive endurance, moderate mixed) combined with a restrictive diet. They were compared to 44 healthy controls who did not undergo the intervention.

Results

This intensive lifestyle intervention (15–20 hours of training/week + restrictive diet) resulted in weight loss, body composition changes and health improvements. Baseline BMC and BMD for total body, lumbar spine and femoral neck did not differ between MetS groups and between MetS and controls. Despite changes over time, BMC or BMD did not differ between the three modalities of exercise and when compared with the controls. However, independent of exercise modality, compliant participants increased their BMC and BMD compared with their less compliant peers. Decreases in total body lean mass and negative energy balance significantly and independently contributed to decreases in lumbar spine BMC.

Conclusion

After the one year intervention, differences relating to exercise modalities were not evident. However, compliance with an intensive exercise program resulted in a significantly higher bone mass during energy restriction than non-compliance. Exercise is therefore beneficial to bone in the context of a weight loss program.

Trial Registration

ClinicalTrials.gov NCT00917917     

Do Premenopausal Women with Major Depression Have Low Bone Mineral Density? A 36-Month Prospective Study

Background

An inverse relationship between major depressive disorder (MDD) and bone mineral density (BMD) has been suggested, but prospective evaluation in premenopausal women is lacking.

Methods

Participants of this prospective study were 21 to 45 year-old premenopausal women with MDD (n = 92) and healthy controls (n = 44). We measured BMD at the anteroposterior lumbar spine, femoral neck, total hip, mid-distal radius, trochanter, and Ward''s triangle, as well as serum intact parathyroid hormone (iPTH), ionized calcium, plasma adrenocorticotropic hormone (ACTH), serum cortisol, and 24-hour urinary-free cortisol levels at 0, 6, 12, 24, and 36 months. 25-hydroxyvitamin D was measured at baseline.

Results

At baseline, BMD tended to be lower in women with MDD compared to controls and BMD remained stable over time in both groups. At baseline, 6, 12, and 24 months intact PTH levels were significantly higher in women with MDD vs. controls. At baseline, ionized calcium and 25-hydroxyvitamin D levels were significantly lower in women with MDD compared to controls. At baseline and 12 months, bone-specific alkaline phosphatase, a marker of bone formation, was significantly higher in women with MDD vs. controls. Plasma ACTH was also higher in women with MDD at baseline and 6 months. Serum osteocalcin, urinary N-telopeptide, serum cortisol, and urinary free cortisol levels were not different between the two groups throughout the study.

Conclusion

Women with MDD tended to have lower BMD than controls over time. Larger and longer studies are necessary to extend these observations with the possibility of prophylactic therapy for osteoporosis.

Trial Registration

ClinicalTrials.gov {"type":"clinical-trial","attrs":{"text":"NCT 00006180","term_id":"NCT00006180"}}NCT 00006180     

Dynamics of Body Composition Indices and Biochemical Parameters in Participants of Countermeasure-Free 21-Day “Dry” Immersion

Human Physiology - Time-dependent changes in body composition and the levels of hormones involved in regulating energy metabolism and eating behavior were studied in ten healthy volunteers who were...     

Composition and in vitro antimicrobial activity of Populus buds and poplar-type propolis

The antibacterial activity of propolis has been widely investigated. Since reports dealing with antimicrobial activity of the origin of propolis are not available, this study was carried out aiming to analyse the in vitro antimicrobial activity of the methanol extracts of poplar type propolis and Populus (Populus nigra, P. alba, P. tremuloides) buds as its sources against standard strains of a panel of microorganisms by determining the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC). The concentrations of the “poplar” phenolics were relatively high (4.5%) and some compounds typical for P. nigra such as pinobanksin and 4,3 acetyloxycaffeate were found in the propolis sample by GC-MS. The poplar type propolis and Populus bud exudates were found to inhibit most clinically important microorganisms in a wide spectrum including pathogenic yeasts but not Gram-negative bacteria.     

Association between VDR Apal Polymorphism and Hip Bone Mineral Density Can Be Modified by Body Mass Index:A Study on Postmenopausal Chinese Women

Osteoporosis is a major public health problem for old people.Genetic factors are considered tobe major contributors to the pathogenesis of postmenopausal osteoporosis.The vitamin D receptor(VDR)gene is a prominent candidate gene for the regulation of postmenopausal bone mass;however,despite exten-sive studies,controversy remains regarding its association with postmenopausal body mineral density(BMD)variation.In this study,a total of 260 healthy postmenopausal Chinese women were genotyped at the VDRApaI locus using polymerase chain reaction(PCR)-restriction fragment length polymorphism (RFLP).Rawhip BMD was significantly associated with VDR ApaI polymorphism with and without adjusting for age(P=0.015 and 0.040,respectively).This genetic effect can explain 3.32% of hip BMD variation.However,the significant association vanished after correcting for both age and body mass index(BMI)(P=0.169).Inaddition,we observed a significant association between VDR ApaI polymorphism with unadjusted BMI(P=0.042)or BMI adjusted for age(P=0.049).The raw hip BMD was also found to be significantly corre-lated with BMI(r=0.517,P=0.0001),with BMI explaining 26.35% of the variation of hip BMD.All of thesefacts prompt us to conclude that the significant association between the VDR ApaI genotype and hip BMDmay be modified by BMI in postmenopausal Chinese women.Our findings may partially explain the earlierinconsistent association results concerning the VDR gene and BMD,and highlight the importance of incorpo-rating covariates such as BMI into osteoporosis association studies.     

Expression of von Hippel–Lindau Protein in Normal and Pathological Human Tissues

To examine the localization of von Hippel–Lindau (VHL) protein in human tissues, we produced four novel monoclonal antibodies against human VHL protein. Western blot analysis revealed that two of these antibodies recognized the epitope in amino acid sequence 60–89 of the VHL protein and the others recognized sequences 54–60 and 189–213. In a wild-type VHL gene-transfected cell line, immunocytochemistry and immunoelectron microscopy demonstrated the intracytoplasmic localization of VHL protein, particularly in mitotic cells. In normal human tissues, VHL protein was detected immunohistochemically in epithelial cells covering the body surface and the alimentary, respiratory, and genitourinary tracts; in secretory epithelial cells of exocrine and endocrine organs; in parenchymal cells of visceral organs; in cardiomyocytes; in neurons in nervous tissue; in lymphocytes in lymphoid tissue; and in macrophages. In pathological specimens, VHL protein was expressed in VHL-related tumor, as well as in endothelial cells, fibroblasts, and pericytes, all of which are involved in active angiogenesis. These findings suggest that these monoclonal antibodies can be useful for various immunological assays and that the VHL protein plays fundamental roles in physiological and pathological situations, especially in neovascularization.     

Association between VDR ApaI Polymorphism and Hip Bone Mineral Density Can Be Modified by Body Mass Index： A Study on Postmenopausal Chinese Women

Osteoporosis is a major public health problem for old people. Genetic factors are considered to be major contributors to the pathogenesis of postmenopausal osteoporosis. The vitamin D receptor (VDR) gene is a prominent candidate gene for the regulation of postmenopausal bone mass; however, despite extensive studies, controversy remains regarding its association with postmenopausal body mineral density (BMD) variation. In this study, a total of 260 healthy postmenopausal Chinese women were genotyped at the VDR ApaI locus using polymerase chain reaction (PCR)-restriction fragment length polymorphism (RFLP). Raw hip BMD was significantly associated with VDR ApaI polymorphism with and without adjusting for age (P=0.015 and 0.040, respectively). This genetic effect can explain 3.32% of hip BMD variation. However, the significant association vanished after correcting for both age and body mass index (BMI) (P=0.169). In addition, we observed a significant association between VDR ApaI polymorphism with unadjusted BMI(P=0.042) or BMI adjusted for age (P=0.049). The raw hip BMD was also found to be significantly correlated with BMI (r=0.517, P=0.0001), with BMI explaining 26.35% of the variation of hip BMD. All of these facts prompt us to conclude that the significant association between the VDR ApaI genotype and hip BMD may be modified by BMI in postmenopausal Chinese women. Our findings may partially explain the earlier inconsistent association results concerning the VDR gene and BMD, and highlight the importance of incorporating covariates such as BMI into osteoporosis association studies.     

Post-Mortem Examination in the Diagnosis of Johne’s Disease in Goats

Post-mortem examinations play an important role in Johne’s disease programmes in Norway. The results of such examinations of samples of viscera from 2997 goats carried out during the 5-year period 1972–1976 are given. The investigations show that the demonstration of macroscopical changes in mesenteric lymph nodes and small intestine has only limited value as a guideline in the post-mortem diagnosis of Johne’s disease in goats. Often macroscopical changes were not seen or they were non-specific. Caseous and/or calcified foci in mesenteric lymph nodes in infected animals were demonstrated quite often whilst observed intestinal changes were strikingly few. Corrugation of the mucosa was rare. However, in sections of macroscopically unchanged intestine marked epithelioid cell infiltrations and abundant acid-fast bacilli were not uncommon. In sporadic cases productive inflammation with tubercle formation was seen in lymph nodes in infected animals. Bacteriological culture was by far the most reliable post-mortem diagnostic method. By this method 92% of the infected goats were detected. The corresponding figures for histological examination and microscopy were 54% and 47%, respectively.     

3α-Hydroxysteroid Dehydrogenase in Animal and Human Tissues

This review analyzes data on the biological role of 3-hydroxysteroid dehydrogenase (3-HSD) in animal and human tissues and describes its main characteristics, mechanism of action, and regulation of activity. Based on published data, a scheme for the actions of androgen, progestin, and glucocorticoids involving the participation of 3-HSD is proposed. According to this scheme, in the mechanism of steroid action 3-HSD not only regulates the concentration of the main effector androgen, 5-dihydrotestosterone, in target cells, but also switches androgen, progestin, and glucocorticosteroid genomic activity to non-genomic activity.     

Role of PTPα in the Destruction of Periodontal Connective Tissues

IL-1β contributes to connective tissue destruction in part by up-regulating stromelysin-1 (MMP-3), which in fibroblasts is a focal adhesion-dependent process. Protein tyrosine phosphatase-α (PTPα) is enriched in and regulates the formation of focal adhesions, but the role of PTPα in connective tissue destruction is not defined. We first examined destruction of periodontal connective tissues in adult PTPα^+/+ and PTPα^−/− mice subjected to ligature-induced periodontitis, which increases the levels of multiple cytokines, including IL-1β. Three weeks after ligation, maxillae were processed for morphometry, micro-computed tomography and histomorphometry. Compared with unligated controls, there was ∼1.5–3 times greater bone loss as well as 3-fold reduction of the thickness of the gingival lamina propria and 20-fold reduction of the amount of collagen fibers in WT than PTPα^−/− mice. Immunohistochemical staining of periodontal tissue showed elevated expression of MMP-3 at ligated sites. Second, to examine mechanisms by which PTPα may regulate matrix degradation, human MMP arrays were used to screen conditioned media from human gingival fibroblasts treated with vehicle, IL-1β or TNFα. Although MMP-3 was upregulated by both cytokines, only IL-1β stimulated ERK activation in human gingival fibroblasts plated on fibronectin. TIRF microscopy and immunoblotting analyses of cells depleted of PTPα activity with the use of various mutated constructs or with siRNA or PTPα^KO and matched wild type fibroblasts were plated on fibronectin to enable focal adhesion formation and stimulated with IL-1β. These data showed that the catalytic and adaptor functions of PTPα were required for IL-1β-induced focal adhesion formation, ERK activation and MMP-3 release. We conclude that inflammation-induced connective tissue degradation involving fibroblasts requires functionally active PTPα and in part is mediated by IL-1β signaling through focal adhesions.     

Lack of α-Xylosidase Activity in Arabidopsis Alters Xyloglucan Composition and Results in Growth Defects

Xyloglucan is the main hemicellulose in the primary cell walls of most seed plants and is thought to play a role in regulating the separation of cellulose microfibrils during growth. Xylose side chains block the degradation of the backbone, and α-xylosidase activity is necessary to remove them. Two Arabidopsis (Arabidopsis thaliana) mutant lines with insertions in the α-xylosidase gene AtXYL1 were characterized in this work. Both lines showed a reduction to undetectable levels of α-xylosidase activity against xyloglucan oligosaccharides. This reduction resulted in the accumulation of XXXG and XXLG in the liquid growth medium of Atxyl1 seedlings. The presence of XXLG suggests that it is a poor substrate for xyloglucan β-galactosidase. In addition, the polymeric xyloglucan of Atxyl1 lines was found to be enriched in XXLG subunits, with a concomitant decrease in XXFG and XLFG. This change can be explained by extensive exoglycosidase activity at the nonreducing ends of xyloglucan chains. These enzymes could thus have a larger role than previously thought in the metabolism of xyloglucan. Finally, Atxyl1 lines showed a reduced ability to control the anisotropic growth pattern of different organs, pointing to the importance of xyloglucan in this process. The promoter of AtXYL1 was shown to direct expression to many different organs and cell types undergoing cell wall modifications, including trichomes, vasculature, stomata, and elongating anther filaments.The primary wall that surrounds the growing cells of plants has to be able to extend in response to turgor pressure. This process needs to be tightly regulated to avoid a mechanical failure of the wall. The direction of expansion also needs to be controlled so that different cell types can develop their particular morphology. In addition, the growth of the different tissues in an organ has to be tightly coordinated so that it can achieve its final shape (Baskin, 2005). The mechanical behavior of the expanding cell wall has been likened to a fiber-reinforced composite, with crystalline cellulose microfibrils embedded in an amorphous matrix of hemicellulose and pectin. How this works at the molecular level is still the subject of much research and speculation (Geitmann and Ortega, 2009).Xyloglucan is the main hemicellulose in the primary cell walls of gymnosperms and most angiosperm families and is present in all extant groups of land plants, although with some differences in structure (Peña et al., 2008; Scheller and Ulvskov, 2010). All these xyloglucans have a backbone of (1→4)-linked β-d-glucopyranosyl residues, many of which are substituted with α-d-xylopyranosyl residues at O6. In many vascular plants, including Arabidopsis (Arabidopsis thaliana), every fourth glucosyl residue of the xyloglucan backbone is unsubstituted (Vincken et al., 1997). In the standard nomenclature for xyloglucan structures, these residues are represented by G, while X, L, and F indicate Glc residues substituted, respectively, with α-d-Xylp, β-d-Galp-(1→2)-α-d-Xylp, and α-l-Fucp-(1→2)-β-d-Galp-(1→2)-α-d-Xylp side chains (Fry et al., 1993). Conventionally, the reducing end of the molecule is positioned to the right. Treatment of Arabidopsis xyloglucan with an endoglucanase that attacks unsubstituted residues results in oligosaccharide mixtures that include XXG, GXXG, XXXG, XXLG, XLXG, XLLG, XXFG, and XLFG, with some of the Gal residues O-acetylated (Madson et al., 2003; Obel et al., 2009).Although the detailed arrangement and possible connections of the different components of primary cell walls are still unclear, xyloglucan chains are long enough to attach simultaneously to neighboring microfibrils and thus could generate resistance to cell wall extension (Obel et al., 2007). There is also considerable evidence for the covalent linkage of xyloglucan to the pectic polysaccharide rhamnogalacturonan I (Popper and Fry, 2008). The attachment of xyloglucan to cellulose microfibrils is based on hydrogen bonds, and it might be controlled by expansin proteins (Cosgrove, 2005). Xyloglucan connections between microfibrils could also be broken or created by enzymes in the xyloglucan transglycosylase/hydrolase (XTH) family (Nishitani and Vissenberg, 2007). These enzymes cleave xyloglucan chains in front of unsubstituted Glc residues and stay covalently bound to this residue, forming an enzyme-donor complex (Johansson et al., 2004). They can later attach the Glc residue to the nonreducing end of another xyloglucan molecule, acting as xyloglucan endotransglucosylases (XETs). A group of XTHs can also use water as an acceptor, acting as xyloglucan endohydrolases, but they seem to be a minority (Baumann et al., 2007; Eklöf and Brumer, 2010). It is unclear at the moment if endoglucanases from other families are involved in xyloglucan metabolism (Lopez-Casado et al., 2008).The importance of xyloglucan as a regulator of cell wall extension has been thrown into doubt by the identification of an Arabidopsis mutant that has no detectable xyloglucan but still manages to develop normally (Cavalier et al., 2008). Apart from being slightly smaller, this mutant has defective root hairs, but it seems clear that Arabidopsis must have alternative ways of regulating the separation of cellulose microfibrils. It is interesting nonetheless that microfibrils seem to be more irregularly spaced in the xyloglucan-deficient mutant (Anderson et al., 2010).The end result of endoglucanase activity on xyloglucan is the release of oligosaccharides with an unsubstituted Glc at the reducing end. Specific exoglycosidase activities are then necessary to release each type of residue (Iglesias et al., 2006). α-Xylosidase activities in both pea (Pisum sativum) and Tropaeolum majus can only remove unsubstituted Xyl residues from the nonreducing end of the molecule (O’Neill et al., 1989; Fanutti et al., 1991). A β-glucosidase is then required to remove the unsubstituted Glc before α-xylosidase can act again (Crombie et al., 1998). β-Galactosidase and α-fucosidase activities are also required for the complete disassembly of the different Arabidopsis oligosaccharides (Edwards et al., 1988; Léonard et al., 2008). There is currently no information on the enzymes that might be involved in xyloglucan deacetylation or on how the presence of acetyl residues affects exoglycosidases.The Arabidopsis gene AtXYL1 (At1g68560) was identified as coding for an α-xylosidase activity against xyloglucan oligosaccharides by the similarity of its product to purified cabbage (Brassica oleracea var capitata) α-xylosidase (Sampedro et al., 2001). The identification was confirmed through heterologous expression in yeast. According to the Carbohydrate Active Enzymes database (http://www.cazy.org/), AtXYL1 is a member of glycosyde hydrolase family 31, which includes mainly α-glucosidases and α-xylosidases(Cantarel et al., 2009). A reduction of up to 70% of α-xylosidase activity was reported in antisense lines where AtXYL1 was silenced, but this reduction did not cause changes in morphology (Monroe et al., 2003). This article presents the characterization of two independent insertional mutants in AtXYL1 that have no detectable α-xylosidase activity and show remarkable changes in xyloglucan composition along with alterations in the growth pattern.     

Age-Related Decline in DNA Polymerase β Activity in Rat Brain and Tissues

Fidelity of DNA polymerases is vital for maintaining genomic integrity. Deficient DNA repair leads to age related disorders or cancer. If the age at which the decline in activity of predominant DNA repair enzymes starts is identified, and the deficient proteins supplemented, then the manifestation of these diseases can be delayed promoting healthy aging. DNA polymerase β (pol β) is a predominant repair enzyme in brain. DNA pol β activity declines with age in rat brain/neurons but the exact age during the life time of rat when this decline begins is not known, and comparison of this activity was not made between post mitotic and proliferating tissues therefore the pattern of pol β with age was studied in rat brain and tissues. The decline in pol β activity started between 30 and 45 days postnatal in all the tissues. Post mitotic tissues showed pronounced decline than the proliferating tissues.     

Composition and photoinduced biosynthesis of the carotenoids of a protoplast-like Neurospora crass “slime” mutant

A spheroplast-like slime mutant of Neurospora crassa (lacking a rigid cell wall) was found to synthesize an identical spectrum of carotenoids as wild type strains except for -carotene. Furthermore strict photoregulation of the biosynthesis of these pigments as well as the characteristics of photoinduced carotenogenesis were also nearly identical in the mutant and in the wild type.     

Genetic polymorphism of αs1- and αs2-caseins in Hungarian Milking Goats

The aim of this study was to perform an initial characterization of milk quality and to determine genetic polymorphism at the CSN1S1 and CSN1S2 locus in two herds of local dairy goats (Hungarian Milking). The fat, protein and lactose level of milk samples in Hungarian Milking Goats were compared to other local goat breeds worldwide and it was concluded that the mean milk production of the Hungarian goats should be improved. The presence of the A, B, C + D, E, F and O alleles of CSN1S1 locus and A + B + C + E, D, F and O alleles of CSN1S2 locus were genotyped for by PCR-AS and PCR-RFLP methods in 103 goats. The strong B allele of CSN1S1 is more frequent in the local Hungarian Milking than in the imported Alpine and Saanen goats. The relatively high incidence of the O allele of CSN1S2 gene is also characteristic for the Hungarian Milking Goats and those special allele distribution patterns could be used to develop selection strategies to breed specialised lines of Hungarian local breeds.     

How Did Domestication Change the Hair Morphology in Sheep and Goats?

We analysed macro-and microscopic features of dorsal guard hairs in 21 specimens of wild and domestic sheep and goats. We integrated and extended the available data on hair morphology of wild species and provide a first comparative analysis of hair structure of domestic forms. Domestic sheep and goats, probably due to a convergence process under artificial selection, show similar medullary features to each other and different medullary structures from their relative wild relatives. Different breeds show a diverse alteration of the medullary structure probably correlated to the duration of the domestication process. Domestic sheep have a cuticular structure different from the relative wild ancestor, while domestic goats do not show clear differences in the cuticle from the related wild species. The strong artificial selection for wool production may have transformed the hair structure of the sheep, but not that of the goat. We described the effects of age on the microscopic structure of hair, which have not yet been investigated. The medullary structure and the cuticular pattern in domestic forms do not change with age, as seen in wild species, because juveniles characters are retained in adults due to domestication.