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971.
The lipoprotein lipase-catalyzed hydrolysis of diacylphosphatidylcholines (PC) in mixed micelles of Triton X-100/PC was studied as a function of temperature in the presence and absence of apolipoprotein C-II (apo-C-II), the activator protein for lipoprotein lipase. Dilauroyl-, dimyristoyl-, dipalmitoyl-, and distearoyl-phosphatidylcholine (di-C12-PC, di-C14-PC, di-C16-PC, and di-C18-PC, respectively) were used as substrates. No systematic relationship between substrate fatty acyl chain length and either the rates of the activation energies for hydrolysis in the presence or absence of apo-C-II was observed. However, there was a linear relationship between fatty acyl chain length and both the logarithm of the activation factor (the ratio of enzyme activity with apo-C-II to that without apo-C-II) and the difference in activation energy in the presence and absence of apo-C-II. These relationships were not the result of an alteration in the physical form of the substrate, since a mixture of di-C14-PC and di-C16-PC gave activation factors for each PC which were the same as those obtained for each individual lipid. From the temperature dependence of the activation factor, thermodynamic functions of the apo-C-II-induced change in the reaction pathway were calculated. The free energy of activation decreased linearly with increasing chain length as the result of a linear increase in activation entropy which more than offset the unfavorable increase in activation enthalpy. We propose that the apo-C-II-mediated increase in the rate of the lipoprotein lipase-catalyzed hydrolysis of phosphatidylcholine is associated with transfer of a fatty acyl chain of the substrate or product to a more hydrophobic environment within the transition state complex. 相似文献
972.
Andrew M. Cobb Brian R. Jackson Ella Kim Philip L. Bond Richard P. Bowater 《Analytical biochemistry》2013
Many proteins involved in DNA repair systems interact with DNA that has structure altered from the typical B-form helix. Using magnetic beads to immobilize DNAs containing various types of structures, we evaluated the in vitro binding activities of two well-characterized DNA repair proteins, Escherichia coli MutS and human p53. E. coli MutS bound to double-stranded DNAs, with higher affinity for a G/T mismatch compared to a G/A mismatch and highest affinity for larger non-B-DNA structures. E. coli MutS bound best to DNA between pH 6 and 9. Experiments discriminated between modes of p53–DNA binding, and increasing ionic strength reduced p53 binding to nonspecific double-stranded DNA, but had minor effects on binding to consensus response sequences or single-stranded DNA. Compared to nonspecific DNA sequences, p53 bound with a higher affinity to mismatches and base insertions, while binding to various hairpin structures was similar to that observed to its consensus DNA sequence. For hairpins containing CTG repeats, the extent of p53 binding was proportional to the size of the repeat. In summary, using the flexibility of the magnetic bead separation assay we demonstrate that pH and ionic strength influence the binding of two DNA repair proteins to a variety of DNA structures. 相似文献
973.
974.
Abstract We investigated how insects use wax as a defence against visual predators, using a New Zealand salticid species, Marpissa marina, as the predator and Eriosoma lanigerum, an aphid that covers itself with wax, as the prey. For live‐prey testing, the predator was presented with two aphids, one with its wax covering intact and one with its wax removed. The predator ate more of the waxless than wax‐covered aphids. The predators were presented with two lures at a time: (1) one that was fully covered with wax (hid the aphid's head) compared with one that was without wax (waxless) or (2) one that was fully covered with wax compared with one that was only partially covered with wax (the head of the prey exposed), or (3) one that was waxless compared with one that was partially covered with wax. The predators stalked waxless prey more often than they stalked prey that was fully or partially covered with wax. When wax only partially covered the prey (i.e., when the prey's head was left exposed), the predator more often stalked than when the insect was fully covered. These findings suggest that the aphid's wax covering functions in part to hide prey‐identification cues from vision‐guided predators. 相似文献
975.
Stephanie Boudon Marc Heidl Anna Vuorinen Eliane Wandeler Remo Campiche Alex Odermatt Eileen Jackson 《Bioorganic & medicinal chemistry》2018,26(18):5128-5139
The enzyme 11β-HSD1 plays a crucial role in the tissue-specific regulation of cortisol levels and it has been associated with various diseases. Inhibition of 11β-HSD1 is an attractive intervention strategy and the discovery of novel selective 11β-HSD1 inhibitors is of high relevance. In this study, we identified and evaluated a new series of selective peptide 11β-HSD1 inhibitors with potential for skin care applications. This novel scaffold was designed with the aid of molecular modeling and two previously reported inhibitors. SAR optimization yielded highly active peptides (IC50 below 400?nM) that were inactive at 1?µM concentration against structurally related enzymes (11β-HSD2, 17β-HSD1 and 17β-HSD2). The best performing peptides inhibited the conversion of cortisone into cortisol in primary human keratinocytes and the most active compound, 5d, was further shown to reverse cortisone-induced collagen damage in human ex-vivo tissue. 相似文献
976.
Andrew Jackson 《Neuron》2018,97(4):736-738
977.
Anthony B. Pinkerton Eduard Sergienko Yalda Bravo Russell Dahl Chen-Ting Ma Qing Sun Michael R. Jackson Nicholas D.P. Cosford José Luis Millán 《Bioorganic & medicinal chemistry letters》2018,28(1):31-34
Tissue-nonspecific alkaline phosphatase (TNAP) is an ectoenzyme crucial for bone matrix mineralization via its ability to hydrolyze extracellular inorganic pyrophosphate (ePPi), a potent mineralization inhibitor, to phosphate (Pi). By the controlled hydrolysis of ePPi, TNAP maintains the correct ratio of Pi to ePPi and therefore enables normal skeletal and dental calcification. In other areas of the body low ePPi levels lead to the development of pathological soft-tissue calcification, which can progress to a number of disorders. TNAP inhibitors have been shown to prevent these processes via an increase of ePPi. Herein we describe the use of a whole blood assay to optimize a previously described series of TNAP inhibitors resulting in 5-((5-chloro-2-methoxyphenyl)sulfonamido)nicotinamide (SBI-425), a potent, selective and oral bioavailable compound that robustly inhibits TNAP in vivo. 相似文献
978.
A candidate tolerance gene identified in a natural population of field voles (Microtus agrestis) 下载免费PDF全文
979.
980.
Matrix‐glycoprotein interactions required for budding of a plant nucleorhabdovirus and induction of inner nuclear membrane invagination 下载免费PDF全文
Kai Sun Xin Zhou Wenye Lin Xueping Zhou Andrew O. Jackson Zhenghe Li 《Molecular Plant Pathology》2018,19(10):2288-2301
Nucleorhabdoviruses such as Sonchus yellow net virus (SYNV) replicate in the nuclei and undergo morphogenesis at the inner nuclear membrane (IM) in plant cells. Mature particles are presumed to form by budding of the Matrix (M) protein‐nucleocapsid complexes through host IMs to acquire host phospholipids and the surface glycoproteins (G). To address mechanisms underlying nucleorhabdovirus budding, we generated recombinant SYNV G mutants containing a truncated amino‐terminal (NT) or carboxyl‐terminal (CT) domain. Electron microscopy and sucrose gradient centrifugation analyses showed that the CT domain is essential for virion morphogenesis whereas the NT domain is also required for efficient budding. SYNV infection induces IM invaginations that are thought to provide membrane sites for virus budding. We found that in the context of viral infections, interactions of the M protein with the CT domain of the membrane‐anchored G protein mediate M protein translocation and IM invagination. Interestingly, tethering the M protein to endomembranes, either by co‐expression with a transmembrane G protein CT domain or by artificial fusion with the G protein membrane targeting sequence, induces IM invagination in uninfected cells. Further evidence to support functions of G‐M interactions in virus budding came from dominant negative effects on SYNV‐induced IM invagination and viral infections that were elicited by expression of a soluble version of the G protein CT domain. Based on these data, we propose that cooperative G‐M interactions promote efficient SYNV budding. 相似文献