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Adachi K Yamaguchi T Yang Y Konitzer PT Pang J Reddy KS Ivanova M Ferrone F Surrey S 《Protein expression and purification》2000,20(1):37-44
Individual, soluble human alpha-globin chains were expressed in bacteria with exogenous heme and methionine aminopeptidase. The yields of soluble alpha chains in bacteria were comparable to those of recombinant non-alpha chains expressed under the same conditions. Molecular mass and gel-filtration properties of purified recombinant alpha chains were the same as those of authentic human alpha chains. Biochemical and biophysical properties of isolated alpha chains were identical to those of native human alpha chains as assessed by UV/vis, circular dichroism (CD), and nuclear magnetic resonance (NMR) spectroscopy which contrasts with previous results of refolded precipitated alpha chains made in the presence of heme in vitro (M. T. Sanna et al., J. Biol. Chem. 272, 3478-3486, 1997). Mixtures of purified, soluble recombinant alpha-globin and native beta-globin chains formed heterotetramers in vitro, and oxygen- and CO-binding properties as well as the heme environment of the assembled tetramers were experimentally indistinguishable from those of native human Hb A. UV/vis, CD, and NMR spectra of assembled Hb A were also the same as those of human Hb A. These results indicate that individual expressed alpha chains are stable in bacteria and fold properly in vivo and that they then can assemble with free beta chains to form hemoglobin heterotetramers in vivo as well as in vitro. 相似文献
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Julia Jungnickel Kristina Haase Jens Konitzer Marco Timmer Claudia Grothe 《Developmental neurobiology》2006,66(9):940-948
Basic fibroblast growth factor (FGF‐2) is expressed in the peripheral nervous system and is up‐regulated after nerve lesion. It has been demonstrated that administration of FGF‐2 protects neurons from injury‐induced cell death and promotes axonal regrowth. Using transgenic mice over‐expressing FGF‐2 (TgFGF‐2), we addressed the importance of endogenously generated FGF‐2 on sensory neuron loss and sciatic nerve regeneration. After sciatic nerve transection, wild‐type and transgenic mice showed the same degree of cell death in L5 spinal ganglia. Also, the number of chromatolytic, eccentric, and pyknotic sensory neurons was not changed under elevated levels of FGF‐2. Morphometric evaluation of intact nerves from TgFGF‐2 mice revealed no difference in number and size of myelinated fibers compared to wild‐type mice. One week after crush injury, the number of regenerated axons was doubled and the myelin thickness was significantly smaller in transgenic mice. After 2 and 4 weeks, morphometric analysis and functional tests revealed no differences in recovery of sensory and motor nerve fibers. To study the role of FGF‐2 over‐expression on Schwann cell proliferation during the early regeneration process, we used BrdU‐labeling to mark dividing cells. In transgenic mice, the number of proliferating cells was significantly increased distal to the crush site compared to wild‐types. We propose that endogenously synthesized FGF‐2 influences early peripheral nerve regeneration by regulating Schwann cell proliferation, axonal regrowth, and remyelination. © 2006 Wiley Periodicals, Inc. J Neurobiol, 2006 相似文献
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L-Lactate uniformly labelled with 14C was administered to rats as a single intravenous injection. In experiments concerning the determination of lactate flux into total forebrain, the tissue was obtained by a freeze-clamping technique; in experiments concerning the determination of lactate flux in discrete brain areas the tissue was coagulated by microwave irradiation of the head. In the acid extract of brain tissue the contents and radioactivities of lactate, glucose and cycle amino acids were measured. The following results were obtained: 1. Labelled lactate in plasma equilibrates rapidly with lactate in a small pool in brain tissue. This accessible pool comprises one quarter of total brain lactate. Its size varies in brain regions being largest in cortex and smallest in pons and medulla. 2. Approximately one half of plasma-borne lactate in brain is used metabolically as is seen from the incorporation of lactate carbon in amino acids. The regional activity of lactate metabolism correlates with the local size of the accessible lactate pool. 3. The rates of lactate flux in total forebrain were approximated, the invasion of lactate from plasma to brain tissue to 0.4 mumol, the metabolisms of plasma-borne lactate to 0.2 mumol per g brain tissue min-1. 4. The labelling pattern of cycle amino acids is intermediate between the pattern from [14C]-glucose and [14c]-bicarbonate as precursors. This gives evidence for the influx of part of lactate into the "small" compartment of the citrate cycle along the CO2 fixation route with a predominant accumulation of lactate carbon in aspartate and glutamine. 相似文献
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Paul REL Lafond T Müller-Graf CDM Nithiuthai S Brey PT Koella JC 《BMC evolutionary biology》2004,4(1):1-13
Background
Theoretical studies suggest that direct and indirect selection have the potential to cause substantial evolutionary change in female mate choice. Similarly, sexual selection is considered a strong force in the evolution of male attractiveness and the exaggeration of secondary sexual traits. Few studies have, however, directly tested how female mate choice and male attractiveness respond to selection. Here we report the results of a selection experiment in which we selected directly on female mating preference for attractive males and, independently, on male attractiveness in the guppy, Poecilia reticulata. We measured the direct and correlated responses of female mate choice and male attractiveness to selection and the correlated responses of male ornamental traits, female fecundity and adult male and female survival.Results
Surprisingly, neither female mate choice nor male attractiveness responded significantly to direct or to indirect selection. Fecundity did differ significantly among lines in a way that suggests a possible sexually-antagonistic cost to male attractiveness.Conclusions
The opportunity for evolutionary change in female mate choice and male attractiveness may be much smaller than predicted by current theory, and may thus have important consequences for how we understand the evolution of female mate choice and male attractiveness. We discuss a number of factors that may have constrained the response of female choice and male attractiveness to selection, including low heritabilities, low levels of genetic (co)variation in the multivariate direction of selection, sexually-antagonistic constraint on sexual selection and the "environmental covariance hypothesis".10.
Alexis Llewellyn Craig Whittington Gavin Stewart Julian PT Higgins Nick Meader 《PloS one》2015,10(12)