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Specific Organs (specific + organ)
Selected AbstractsChanges of telomere length with agingGERIATRICS & GERONTOLOGY INTERNATIONAL, Issue 2010Kaiyo Takubo We reviewed our methodology and results of telomere measurements, with reference to telomere length and aging. Human tissues always showed telomere shortening with age, except for the brain and myocardium. Yearly rates of telomere length reduction in various tissues were mostly within the range 20,60 bp, and thus compatible with that expected from only one round of mitosis. It was suggested that when telomeres were found to be longer in any specific organ in a given individual, then the other organs in that individual would also have longer telomeres. Using the quantitative fluorescence in situ hybridization (Q-FISH) method for telomere measurement, we were able to measure the telomere lengths of various cell types within tissues. Here we summarize the results obtained for various cell types in the stomach, tongue and breast. Our Q-FISH method using our original software program "Tissue Telo" is excellent for measuring telomere lengths using tissue sections and PNA probes. Geriatr Gerontol Int 2010; 10 (Suppl. 1): S197,S206. [source] Gastrointestinal motility and the brain-gut axisDIGESTIVE ENDOSCOPY, Issue 2 2003TADASHI ISHIGUCHI The role of the brain-gut axis in gastrointestinal motility is discussed according to the specific organs of the gastrointestinal tract. Not only clinical studies but basic animal research are reviewed. Although the mechanism of functional gut disorders remains to be clarified, recent data suggest that there is evidence that the brain-gut axis has significant effects on gastrointestinal motility. The major role of endoscopy in the diagnosis of functional gastrointestinal disorders is to exclude organic gastrointestinal disorders. In the esophagus, the lower esophageal sphincter and a gamma-aminobutyric acid B mechanism are considered to play important roles in gastroesophageal reflux disease. In the stomach, corticotropin-releasing factor, neuropeptide Y and other substances might be involved in the pathogenesis of non-ulcer dyspepsia. In the small intestine, corticotropin-releasing factor, gamma-aminobutyric acid B and other substances are considered to modulate intestinal transit via central mechanisms. In the colon, it is known that psychiatric factors are related to the onset and clinical course of irritable bowel syndrome. Serotonin, corticotropin-releasing factor, gamma-aminobutyric acid, orphanin FQ and neuropeptide Y have been reported as putative neurotransmitters. More efforts in basic science studies and animal and human studies of physiology of the gastointestinal tract are still required. These efforts will elucidate further mechanisms to clarify the etiology of motility disorders and encourage the investigation of new therapies in this field. [source] Cloning, characterization and localization of a novel basic peroxidase gene from Catharanthus roseusFEBS JOURNAL, Issue 5 2007Santosh Kumar Catharanthus roseus (L.) G. Don produces a number of biologically active terpenoid indole alkaloids via a complex terpenoid indole alkaloid biosynthetic pathway. The final dimerization step of this pathway, leading to the synthesis of a dimeric alkaloid, vinblastine, was demonstrated to be catalyzed by a basic peroxidase. However, reports of the gene encoding this enzyme are scarce for C. roseus. We report here for the first time the cloning, characterization and localization of a novel basic peroxidase, CrPrx, from C. roseus. A 394 bp partial peroxidase cDNA (CrInt1) was initially amplified from the internodal stem tissue, using degenerate oligonucleotide primers, and cloned. The full-length coding region of CrPrx cDNA was isolated by screening a leaf-specific cDNA library with CrInt1 as probe. The CrPrx nucleotide sequence encodes a deduced translation product of 330 amino acids with a 21 amino acid signal peptide, suggesting that CrPrx is secretory in nature. The molecular mass of this unprocessed and unmodified deduced protein is estimated to be 37.43 kDa, and the pI value is 8.68. CrPrx was found to belong to a ,three intron' category of gene that encodes a class III basic secretory peroxidase. CrPrx protein and mRNA were found to be present in specific organs and were regulated by different stress treatments. Using a ,-glucuronidase,green fluorescent protein fusion of CrPrx protein, we demonstrated that the fused protein is localized in leaf epidermal and guard cell walls of transiently transformed tobacco. We propose that CrPrx is involved in cell wall synthesis, and also that the gene is induced under methyl jasmonate treatment. Its potential involvement in the terpenoid indole alkaloid biosynthetic pathway is discussed. [source] Designer Biomaterials for NanomedicineADVANCED FUNCTIONAL MATERIALS, Issue 24 2009Nishit Doshi Abstract Nanotechnology has had tremendous impact on medical science and has resulted in phenomenal progress in the field of drug delivery and diagnostics. A wide spectrum of novel nanomaterials including polymeric particles, liposomes, quantum dots, and iron oxide particles have been developed for applications in therapeutic delivery and diagnostics. This has resulted in control over the rate and period of delivery and targeting of drugs to specific organs in the human body. This feature article focuses on the delivery of drugs using polymeric particles. The size, choice of polymer, surface chemistry, shape, and mechanical properties of the particles are parameters that critically affect particle function. Numerous biomaterials and fabrication techniques have been developed in the last decade that focus on novel design parameters, such as shape and mechanical properties and the interplay of these parameters with the size and surface chemistry of particles. Recent advances with particular focus on the importance of particle shape are highlighted, and the challenges that are yet to be fulfilled are underscored. [source] Functional coordination between leaf gas exchange and vulnerability to xylem cavitation in temperate forest treesPLANT CELL & ENVIRONMENT, Issue 4 2006HAFIZ MAHERALI ABSTRACT We examined functional coordination among stem and root vulnerability to xylem cavitation, plant water transport characteristics and leaf traits in 14 co-occurring temperate tree species. Relationships were evaluated using both traditional cross-species correlations and phylogenetically independent contrast (PIC) correlations. For stems, the xylem tension at which 50% of hydraulic conductivity was lost (,50) was positively associated (P < 0.001) with specific conductivity (KS) and with mean hydraulically weighted xylem conduit diameter (Dh-w), but was only marginally (P = 0.06) associated with leaf specific conductivity (KL). The PIC correlation for each of these relationships, however, was not statistically significant. There was also no relationship between root ,50 and root KS in either cross-species or PIC analysis. Photosynthetic rate (A) and stomatal conductance (gs) were strongly and positively correlated with root ,50 in the cross-species analysis (P < 0.001), a relationship that was robust to phylogenetic correction (P < 0.01). A and gs were also positively correlated with stem ,50 in the cross-species analysis (P = 0.02 and 0.10, respectively). However, only A was associated with stem ,50 in the PIC analysis (P = 0.04). Although the relationship between vulnerability to cavitation and xylem conductivity traits within specific organs (i.e. stems and roots) was weak, the strong correlation between gs and root ,50 across species suggests that there is a trade-off between vulnerability to cavitation and water transport capacity at the whole-plant level. Our results were therefore consistent with the expectation of coordination between vulnerability to xylem cavitation and the regulation of stomatal conductance, and highlight the potential physiological and evolutionary significance of root hydraulic properties in controlling interspecific variation in leaf function. [source] Effects of feeding level of milk replacer on body growth, plasma metabolite and insulin concentrations, and visceral organ growth of suckling calvesANIMAL SCIENCE JOURNAL, Issue 6 2009Mitsuru KAMIYA ABSTRACT The objective was to evaluate effects of feeding level of milk replacer on body growth, plasma metabolite and insulin concentrations, and allometric growth of visceral organs in suckling calves. Holstein bull calves (n = 8; 3,4 days of age) were fed either a low amount (average 0.63 kgDM/day, LM) or high amount (average 1.15 kgDM/day, HM) of high protein milk replacer until they were slaughtered at 6 weeks of age. Body weight (BW) at 4, 5, and 6 weeks of age, feed intake, average daily gain, and feed efficiency were higher in the HM than LM calves. The HM group had higher plasma glucose at 3 and 4 weeks of age and insulin levels after the age of 4 weeks compared with LM calves whereas no effect was detected on plasma nonesterified fatty acid or urea nitrogen concentrations. The HM calves had greater empty body weight (EBW), viscera-free BW and most of the organs dissected than LM calves. Relative weights (% of EBW) of liver, spleen, kidneys, and internal fat were higher, whereas head and large intestine was lower in HM than LM calves. The results suggest that increased milk feeding levels would accelerate the growth of the body and specific organs. [source] Toward an in situ phospho-protein atlas: phospho- and site-specific antibody-based spatio-temporally systematized detection of phosphorylated proteins in vivoBIOESSAYS, Issue 8 2009Toshiya Teraishi Abstract The "Human Genome Project" was completed in 2003, shifting the focus to proteome and transcriptome research. One approach to proteomics involves the comprehensive visualization of the localization of proteins in all tissues and organs. We discuss in situ phospho-protein atlases, which are systematized representations of the localization of proteins. Protein atlases provide important information about the identity and presence of proteins in specific organs, tissues and cells under physiological and pathological conditions. Antibody-based immunohistochemical analysis is a powerful method for generating a protein atlas. However, it is difficult to localize phosphorylated proteins under in vivo physiological conditions, even with immunohistochemistry, because these proteins tend to be dephosphorylated or phosphorylated due to the experimental manipulations. We also discuss an improved immunohistochemical method for precisely detecting phosphorylated protein, using the detection of phosphorylated ERK1/2 as an example. We consider that it is possible and useful to generate a phospho-protein atlas. [source] | |||||||||||||