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991.
Engineering temporal accumulation of a low recalcitrance polysaccharide leads to increased C6 sugar content in plant cell walls 下载免费PDF全文
Miguel E. Vega‐Sánchez Dominique Loqué Jeemeng Lao Michela Catena Yves Verhertbruggen Thomas Herter Fan Yang Jesper Harholt Berit Ebert Edward E. K. Baidoo Jay D. Keasling Henrik V. Scheller Joshua L. Heazlewood Pamela C. Ronald 《Plant biotechnology journal》2015,13(7):903-914
Reduced cell wall recalcitrance and increased C6 monosaccharide content are desirable traits for future biofuel crops, as long as these biomass modifications do not significantly alter normal growth and development. Mixed‐linkage glucan (MLG), a cell wall polysaccharide only present in grasses and related species among flowering plants, is comprised of glucose monomers linked by both β‐1,3 and β‐1,4 bonds. Previous data have shown that constitutive production of MLG in barley (Hordeum vulgare) severely compromises growth and development. Here, we used spatio‐temporal strategies to engineer Arabidopsis thaliana plants to accumulate significant amounts of MLG in the cell wall by expressing the rice CslF6 MLG synthase using secondary cell wall and senescence‐associated promoters. Results using secondary wall promoters were suboptimal. When the rice MLG synthase was expressed under the control of a senescence‐associated promoter, we obtained up to four times more glucose in the matrix cell wall fraction and up to a 42% increase in saccharification compared to control lines. Importantly, these plants grew and developed normally. The induction of MLG deposition at senescence correlated with an increase of gluconic acid in cell wall extracts of transgenic plants in contrast to the other approaches presented in this study. MLG produced in Arabidopsis has an altered structure compared to the grass glucan, which likely affects its solubility, while its molecular size is unaffected. The induction of cell wall polysaccharide biosynthesis in senescing tissues offers a novel engineering alternative to enhance cell wall properties of lignocellulosic biofuel crops. 相似文献
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993.
Peripheral nerves are complex histological structures that can be affected by a variety of conditions with different degree
of axonal degeneration and demyelination. For the study of peripheral nerve regeneration in pathology and tissue engineering,
it is necessary to evaluate the regeneration, remyelination and extracellular matrix reorganization of the neural tissue.
Currently, different histochemical techniques must be used in parallel, and a correlation among their findings should be further
performed. In this work, we describe a new histochemical method for myelin and collagen fibers based on luxol fast blue and
picrosirius methods, for the evaluation of the morphology, the myelin sheath and the collagen fiber reorganization using a
model of peripheral nerve regeneration. Whole brain, normal sciatic nerve and regenerating peripheral nerve samples were fixed
in 10% neutral buffered formalin and paraffin-embedded, for the performance of the hematoxylin-eosin stain, the Luxol fast
blue method and the new histochemical method for myelin and collagen. The results of this technique revealed that this new
histochemical method allowed us to properly evaluate histological patterns, and simultaneously observe the histochemical reaction
for myelin sheath and collagen fibers in normal tissue, and during the regeneration process. In conclusion, this new method
combines morphological and histochemical properties that allowed us to determine with high accuracy the degree of remyelination
and collagen fibers reorganization. For all these reasons, we hypothesize that this new histochemical method could be useful
in pathology and tissue engineering. 相似文献
994.
Ana F. Pinto Smilja Todorovic Peter Hildebrandt Manabu Yamazaki Fumio Amano Shizunobu Igimi Célia V. Romão Miguel Teixeira 《Journal of biological inorganic chemistry》2011,16(3):501-510
A novel multidomain metalloprotein from Campylobacter jejuni was overexpressed in Escherichia coli, purified, and extensively characterized. This protein is isolated as a homotetramer of 24-kDa monomers. According to the
amino acid sequence, each monomer was predicted to contain three structural domains: an N-terminal desulforedoxin-like domain,
followed by a four-helix bundle domain harboring a non-sulfur μ-oxo diiron center, and a rubredoxin-like domain at the C-terminus.
The three predicted iron sites were shown to be present and were studied by a combination of UV–vis, EPR, and resonance Raman
spectroscopies, which allowed the determination of the electronic and redox properties of each site. The protein contains
two FeCys4 centers with reduction potentials of +240 mV (desulforedoxin-like center) and +185 mV (rubredoxin-like center). These centers
are in the high-spin configuration in the as-isolated ferric form. The protein further accommodates a μ-oxo-bridged diiron
site with reduction potentials of +270 and +235 mV for the two sequential redox transitions. The protein is rapidly reoxidized
by hydrogen peroxide and has a significant NADH-linked hydrogen peroxide reductase activity of 1.8 μmol H2O2 min−1 mg−1. Owing to its building blocks and its homology to the rubrerythrin family, the protein is named desulforubrerythrin. It represents
a novel example of the large diversity of the organization of domains exhibited by this enzyme family. 相似文献
995.
José M. García-Heredia Antonio Díaz-Quintana Maria Salzano Mar Orzáez Enrique Pérez-Payá Miguel Teixeira Miguel A. De la Rosa Irene Díaz-Moreno 《Journal of biological inorganic chemistry》2011,16(8):1155-1168
Cytochrome c (Cc) is a key protein in cell life (respiration) and cell death (apoptosis). On the one hand, it serves as a mitochondrial redox
carrier, transferring electrons between the membrane-embedded complexes III and IV. On the other hand, it acts as a cytoplasmic
apoptosis-triggering agent, forming the apoptosome with apoptosis protease-activating factor-1 (Apaf-1) and activating the
caspase cascade. The two functions of cytochrome c are finely tuned by the phosphorylation of tyrosines and, in particular, those located at positions 48 and 97. However, the
specific cytochrome c-phosphorylating kinase is still unknown. To study the structural and functional changes induced by tyrosine phosphorylation
in cytochrome c, we studied the two phosphomimetic mutants Y48E and Y97E, in which each tyrosine residue is replaced by glutamate. Such substitutions
alter both the physicochemical features and the function of each mutant compared with the native protein. Y97E is significantly
less stable than the WT species, whereas Y48E not only exhibits lower values for the alkaline transition pK
a and the midpoint redox potential, but it also impairs Apaf-1-mediated caspase activation. Altogether, these findings suggest
that the specific phosphorylation of Tyr48 makes cytochrome c act as an anti-apoptotic switch. 相似文献
996.
Lopes M Goupille O Saint Cloment C Lallemand Y Cumano A Robert B 《Development (Cambridge, England)》2011,138(14):3055-3066
Vessels are primarily formed from an inner endothelial layer that is secondarily covered by mural cells, namely vascular smooth muscle cells (VSMCs) in arteries and veins and pericytes in capillaries and veinules. We previously showed that, in the mouse embryo, Msx1(lacZ) and Msx2(lacZ) are expressed in mural cells and in a few endothelial cells. To unravel the role of Msx genes in vascular development, we have inactivated the two Msx genes specifically in mural cells by combining the Msx1(lacZ), Msx2(lox) and Sm22α-Cre alleles. Optical projection tomography demonstrated abnormal branching of the cephalic vessels in E11.5 mutant embryos. The carotid and vertebral arteries showed an increase in caliber that was related to reduced vascular smooth muscle coverage. Taking advantage of a newly constructed Msx1(CreERT2) allele, we demonstrated by lineage tracing that the primary defect lies in a population of VSMC precursors. The abnormal phenotype that ensues is a consequence of impaired BMP signaling in the VSMC precursors that leads to downregulation of the metalloprotease 2 (Mmp2) and Mmp9 genes, which are essential for cell migration and integration into the mural layer. Improper coverage by VSMCs secondarily leads to incomplete maturation of the endothelial layer. Our results demonstrate that both Msx1 and Msx2 are required for the recruitment of a population of neural crest-derived VSMCs. 相似文献
997.
González-Rosa JM Martín V Peralta M Torres M Mercader N 《Development (Cambridge, England)》2011,138(9):1663-1674
The zebrafish heart has the capacity to regenerate after ventricular resection. Although this regeneration model has proved useful for the elucidation of certain regeneration mechanisms, it is based on the removal of heart tissue rather than its damage. Here, we characterize the cellular response and regenerative capacity of the zebrafish heart after cryoinjury, an alternative procedure that more closely models the pathophysiological process undergone by the human heart after myocardial infarction (MI). Localized damage was induced in 25% of the ventricle by cryocauterization (CC). During the first 24 hours post-injury, CC leads to cardiomyocyte death within the injured area and the near coronary vasculature. Cell death is followed by a rapid proliferative response in endocardium, epicardium and myocardium. During the first 3 weeks post-injury cell debris was cleared and the injured area replaced by a massive scar. The fibrotic tissue was subsequently degraded and replaced by cardiac tissue. Although animals survived CC, their hearts showed nonhomogeneous ventricular contraction and had a thickened ventricular wall, suggesting that regeneration is associated with processes resembling mammalian ventricular remodeling after acute MI. Our results provide the first evidence that, like mammalian hearts, teleost hearts undergo massive fibrosis after cardiac damage. Unlike mammals, however, the fish heart can progressively eliminate the scar and regenerate the lost myocardium, indicating that scar formation is compatible with myocardial regeneration and the existence of endogenous mechanisms of scar regression. This finding suggests that CC-induced damage in zebrafish could provide a valuable model for the study of the mechanisms of scar removal post-MI. 相似文献
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Beres C de Nazaré FV de Souza NC Miguel MA Werneck MM 《Biosensors & bioelectronics》2011,30(1):328-332
Cells detection is crucial in microbiological analysis of clinical, food, water or environmental samples. However, currently employed methods are time consuming. Plastic optical fiber (POF) biosensors consist in a viable alternative for rapid and inexpensive scheme for detection. In order to study the sensitivity of tapers for microbiological detection, geometric parameters are studied, such as the taper waist diameter since the formation of taper regions are the key sensing element in this particular type of sensors. In this study, a series of POF taper sensors were prepared using a specially developed tapering machine, and the dispersion of geometric dimensions is evaluated, aiming to achieve the best tapering characteristics which will provide a better sensitivity on the sensor response. The fiber tapers that presented the finest results were those constructed in U-shaped (bended) configurations, with taper waist diameters ranging from 0.40 mm up to 0.50 mm. These fiber tapers were used as the main section of the monitoring device, and when chemically treated as immunosensors for the detection of bacteria, yeast and erythrocytes. 相似文献