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41.
Yarbakht Melina Nikkhah Maryam Moshaii Ahmad Abbasian Sara Dellith Andrea 《Plasmonics (Norwell, Mass.)》2018,13(2):715-726
Plasmonics - Although glancing angle deposited silver substrates offer an excellent figures for surface enhanced Raman scattering (SERS) sensing, the chemical instability issues of silver... 相似文献
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Melina E. Hale 《Journal of morphology》1996,227(1):51-65
Unlike most teleosts, the seahorse (genus Hippocampus) is able to bend its tail ventrally, uses its tail in a postural role as a grasping and holding appendage, and possesses heavy body plates instead of scales. To investigate seahorse axial bending mechanisms and the role of plating in those mechanisms, observations were made on seahorses curling their tails ventrally and holding a support and components of the mechanical system used for axial bending, including dermal plates, vertebrae, and axial muscles, were examined. Anatomical modifications involved in ventral tail bending include hypertrophy of the ventral region of the hypaxial muscle, ventrolateral attachment of the myomeres to plates, and modification of the infracarinalis posterior muscles so that they act in axial bending rather than in fin movement as has previously been hypothesized (Harder, '75) for other fishes. Modifications for prehension include the presence of fibers histochemically characterized as tonic in the median ventral muscles (the modified infracarinalis muscle) and in portions of the myomeres. Dermal plates are an important part of the force transmission system used in seahorse tail bending. They transmit forces from the hypaxial myomeres to bend the tail both laterally and ventrally. This study expands our understanding of axial bending in fishes by examining extreme modifications of the musculoskeletal system associated with the evolution of unique functional capabilities within teleosts. © 1996 Wiley-Liss, Inc. 相似文献
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Rawlins JT Fernandez CR Cozby ME Opperman LA 《Experimental biology and medicine (Maywood, N.J.)》2008,233(12):1518-1526
Premature suture obliteration results in an inability of cranial and facial bones to grow, with craniofacial dysmorphology requiring surgical correction as a consequence. Understanding signaling pathways associated with suture morphogenesis might enable non-invasive treatment of patients with fused sutures. Tgf-beta 2 induces premature suture fusion associated with increased cell proliferation both in vitro and in vivo. Tgf-beta 2 and Egf signal transduction pathways use some signaling proteins in common to regulate proliferation and differentiation, leading to speculation that these two pathways converge to regulate normal suture development. It was therefore hypothesized that Egf could induce suture fusion, and that Tgf-beta 2-induced suture closure occurred via an Egf-dependent pathway. A well-established fetal calvarial organ culture system was used to expose developing E19.5 fetal rat coronal sutures to Egf, Tgf-beta 2 and SC-120, a blocker of Egf receptor activity. Co-culture experiments examined the effect of Egf on Tgf-beta 2-induced suture closure when Egf was given either prior to or after Tgf-beta 2 treatment. Histomorphometric measurement of suture width was done on sagittal sections through coronal sutures harvested after 5 days in culture. Western blotting using phospho-antibodies against Egf receptors was used to confirm Egf receptor activity. Suture width increased with increasing concentrations of Egf, demonstrating that Egf-induced cell activity alone was not sufficient to cause premature suture obliteration. Egf administered prior to Tgf-beta 2 treatment rescued sutures from Tgf-beta 2-induced suture obliteration, demonstrating that pre-exposure of cells to this powerful mitogen prevented their response to signals induced by Tgf-beta 2. However, Egf added after Tgf-beta 2 treatment had no effect on Tgf-beta 2-induced suture closure. Blocking Egf activity after Tgf-beta 2 treatment rescued sutures from Tgf-beta 2-induced obliteration, indicating that Tgf-beta 2 required Egf activity to induce suture obliteration. Appropriate timing of signal generation by Egf and Tgf-beta 2 is critical for normal suture development and maintenance of suture patency. 相似文献
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Emma N. Quiroga Melina A. Sgariglia César F. Molina Diego A. Sampietro José R. Soberón Marta A. Vattuone 《Mycological Research》2009,113(12):1404-1410
The present work describes the purification and characterization of a novel extracellular polygalacturonase, PGase I, produced by Pycnoporus sanguineus when grown on citrus fruit pectin. This substrate gave enhanced enzyme production as compared to sucrose and lactose. PGase I is an exocellular enzyme releasing galacturonic acid as its principal hydrolysis product as determined by TLC and orcinol-sulphuric acid staining. Its capacity to hydrolyze digalacturonate identified PGase I as an exo-polygalacturonase. SDS-PAGE showed that PGase I is an N-glycosidated monomer. The enzyme has a molecular mass of 42 kDa, optimum pH 4.8 and stability between pH 3.8 and 8.0. A temperature optimum was observed at 50–60 °C, with some enzyme activity retained up to 80 °C. Its activation energy was 5.352 cal mol−1. PGase I showed a higher affinity towards PGA than citric pectin (Km = 0.55 ± 0.02 and 0.72 ± 0.02 mg ml−1, respectively). Consequently, PGase I is an exo-PGase, EC 3.2.1.82. 相似文献
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Muneera R. Kapadia Jason W. Eng Qun Jiang Detcho A. Stoyanovsky Melina R. Kibbe 《Nitric oxide》2009,20(4):279-288
It is well established that nitric oxide (NO) inhibits vascular smooth muscle cell (VSMC) proliferation by modulating cell cycle proteins. The 26S proteasome is integral to protein degradation and tightly regulates cell cycle proteins. Therefore, we hypothesized that NO directly inhibits the activity of the 26S proteasome. The three enzymatic activities (chymotrypsin-like, trypsin-like and caspase-like) of the 26S proteasome were examined in VSMC. At baseline, caspase-like activity was approximately 3.5-fold greater than chymotrypsin- and trypsin-like activities. The NO donor S-nitroso-N-acetylpenicillamine (SNAP) significantly inhibited all three catalytically active sites in a time- and concentration-dependent manner (P < 0.05). Caspase-like activity was inhibited to a greater degree (77.2% P < 0.05). cGMP and cAMP analogs and inhibitors had no statistically significant effect on basal or NO-mediated inhibition of proteasome activity. Dithiothreitol, a reducing agent, prevented and reversed the NO-mediated inhibition of the 26S proteasome. Nitroso-cysteine analysis following S-nitrosoglutathione exposure revealed that the 20S catalytic core of the 26S proteasome contains 10 cysteines which were S-nitrosylated by NO. Evaluation of 26S proteasome subunit protein expression revealed differential regulation of the α and β subunits in VSMC following exposure to NO. Finally, immunohistochemical analysis of subunit expression revealed distinct intracellular localization of the 26S proteasomal subunits at baseline and confirmed upregulation of distinct subunits following NO exposure. In conclusion, NO reversibly inhibits the catalytic activity of the 26S proteasome through S-nitrosylation and differentially regulates proteasomal subunit expression. This may be one mechanism by which NO exerts its effects on the cell cycle and inhibits cellular proliferation in the vasculature. 相似文献
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Whey proteins (WP) gelation process with addition of Arabic gum (AG) was studied. Two different driving processes were employed
to induce gelation: (1) heating of 12% whey protein isolate (WPI) solutions (w/w) or (2) acidification of previous thermal denatured WPI solutions (5% w/w) with glucono-δ-lactone (GDL). Protein concentrations were different because they were minimal to form gel in these two processes,
but denaturation conditions were the same (90 °C/30 min). Water-holding capacity and mechanical properties of the gels were
evaluated. The BST equation was used to evaluate the nonlinear part of the stress–strain data. Cold-set gels were weaker than
heat-set gels at the pH range near the isoelectric point (pI) of the main whey proteins, but heated gels were more deformable
(did not exhibit rupture point) and showed greater elasticity modulus. However, gels formed by heating far from the pI (pH 6.7
or 3.5) showed more fragile structure, indicating that, in these mixed gels, there are prevailing biopolymers interactions.
Cold-set and heat-set gels at pH near or below the WP pI showed strain-weakening behavior, but heated gels at neutral pH showed
strong strain-hardening behavior. Such results suggest that differences in stress–strain curve at the nonlinear part of the
data could be correlated to structure particularities obtained from different gelation processes. 相似文献
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Muse Oke Lester G. Carter Kenneth A. Johnson Huanting Liu Stephen A. McMahon Xuan Yan Melina Kerou Nadine D. Weikart Nadia Kadi Md. Arif Sheikh Stefan Schmelz Mark Dorward Michal Zawadzki Christopher Cozens Helen Falconer Helen Powers Ian M. Overton C. A. Johannes van Niekerk Xu Peng Prakash Patel Roger A. Garrett David Prangishvili Catherine H. Botting Peter J. Coote David T. F. Dryden Geoffrey J. Barton Ulrich Schwarz-Linek Gregory L. Challis Garry L. Taylor Malcolm F. White James H. Naismith 《Journal of structural and functional genomics》2010,11(2):167-180
The Scottish Structural Proteomics Facility was funded to develop a laboratory scale approach to high throughput structure determination. The effort was successful in that over 40 structures were determined. These structures and the methods harnessed to obtain them are reported here. This report reflects on the value of automation but also on the continued requirement for a high degree of scientific and technical expertise. The efficiency of the process poses challenges to the current paradigm of structural analysis and publication. In the 5 year period we published ten peer-reviewed papers reporting structural data arising from the pipeline. Nevertheless, the number of structures solved exceeded our ability to analyse and publish each new finding. By reporting the experimental details and depositing the structures we hope to maximize the impact of the project by allowing others to follow up the relevant biology. 相似文献