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831.
Christopher M. Richards Ann Reilley Darren Touchell Michael F. Antolin Christina Walters 《Conservation Genetics》2004,5(6):853-859
Seed collections in gene banks are useful for the preservation of wild germplasm, providing inexpensive insurance for species that survive in conventional cold storage (–18 °C). Seeds that cannot survive these conditions must be pretreated with cryoprotectants and stored at liquid nitrogen temperatures, which presents unique technical and methodological challenges. Implicit in this approach is the assumption that these added manipulations do not change the genetic diversity of the preserved collections. We used polymorphic microsatellite markers for an endangered aquatic grass, Texas wild rice (Zizania texana), to conduct a preliminary evaluation of the effects of cryogenic preservation of mature embryos on genetic diversity. Using several statistical approaches, we show that allele frequencies did not change in collections of seeds that underwent cryopreservation (cryoprotected) compared to those samples that was not exposed to cryopreservation (control). The retention of the allelic diversity at the five loci examined suggests that there were no significant changes in genetic diversity due to treatments and that these protocols may be appropriate for ex situ conservation of genetically diverse wild germplasm. 相似文献
832.
833.
Satoko Arai Christina Minjares Seiho Nagafuchi Toru Miyazaki 《Experimental diabetes research》2004,5(3):219-226
The manipulation of a specific gene in NOD mice, the
best animal model for insulin-dependent diabetes mellitus
(IDDM), must allow for the precise characterization of the
functional involvement of its encoded molecule in the pathogenesis
of the disease. Although this has been attempted by
the cross-breeding of NOD mice with many gene knockout
mice originally created on the 129 or C57BL/6 strain background,
the interpretation of the resulting phenotype(s) has
often been confusing due to the possibility of a known or
unknown disease susceptibility locus (e.g., Idd locus) cosegregating
with the targeted gene from the diabetes-resistant
strain. Therefore, it is important to generate mutant mice
on a pure NOD background by using NOD-derived embryonic
stem (ES) cells. By using the NOD ES cell line established
by Nagafuchi and colleagues in 1999 (FEBSLett., 455,
101–104), the authors reexamined various conditions in the
context of cell culture, DNA transfection, and blastocyst injection,
and achieved a markedly improved transmission
efficiency of these NOD ES cells into the mouse germ line.
These modifications will enable gene targeting on a “pure” NOD background with high efficiency, and contribute to
clarifying the physiological roles of a variety of genes in the
disease course of IDDM. 相似文献
834.
Richards CL Walls RL Bailey JP Parameswaran R George T Pigliucci M 《American journal of botany》2008,95(8):931-942
Japanese knotweeds are among the most invasive organisms in the world. Their recent expansion into salt marsh habitat provides a unique opportunity to investigate how invasives establish in new environments. We used morphology, cytology, and AFLP genotyping to identify taxa and clonal diversity in roadside and salt marsh populations. We conducted a greenhouse study to determine the ability to tolerate salt and whether salt marsh populations are more salt tolerant than roadside populations as measured by the efficiency of PSII, leaf area, succulence, height, root-to-shoot ratio, and total biomass. Clonal diversity was extremely low with one F. japonica clone and five F. ×bohemica genotypes. The two taxa were significantly different in several traits, but did not vary in biomass or plasticity of any trait. All traits were highly plastic in response to salinity, but differed significantly among genets. Despite this variation, plants from the salt marsh habitats did not perform better in the salt treatment, suggesting that they are not better adapted to tolerate salt. Instead, our data support the hypothesis that plasticity in salt tolerance traits may allow these taxa to live in saline habitats without specific adaptation to tolerate salt. 相似文献
835.
836.
Hydrogenase expression in Chlamydomonas reinhardtii can be artificially induced by anaerobic adaptation or is naturally established under sulphur deprivation. In comparison to anaerobic adaptation, sulphur-deprived algal cultures show considerably higher expression rates of the [FeFe]-hydrogenase (HydA1) and develop a 25-fold higher in vitro hydrogenase activity. Based on this efficient induction principle we have established a novel purification protocol for the isolation of HydA1 that can also be used for other green algae. From an eight liter C. reinhardtii culture 0.52 mg HydA1 with a specific activity of 741 μmol H2 min− 1 mg− 1 was isolated. Similar amounts were also purified from Chlorococcum submarinum and Chlamydomonas moewusii. The extraordinarily large yields of protein allowed a spectroscopic characterization of the active site of these smallest [FeFe]-hydrogenases for the first time. An initial analysis by EPR spectroscopy shows characteristic axial EPR signals of the CO inhibited forms that are typical for the Hox-CO state of the active site from [FeFe]-hydrogenases. However, deviations in the g-tensor components have been observed that indicate distinct differences in the electronic structure between the various hydrogenases. At cryogenic temperatures, light-induced changes in the EPR spectra were observed and are interpreted as a photodissociation of the inhibiting CO ligand. 相似文献
837.
Chan PH Pardon E Menzer L De Genst E Kumita JR Christodoulou J Saerens D Brans A Bouillenne F Archer DB Robinson CV Muyldermans S Matagne A Redfield C Wyns L Dobson CM Dumoulin M 《Biochemistry》2008,47(42):11041-11054
A single-domain fragment, cAb-HuL22, of a camelid heavy-chain antibody specific for the active site of human lysozyme has been generated, and its effects on the properties of the I56T and D67H amyloidogenic variants of human lysozyme, which are associated with a form of systemic amyloidosis, have been investigated by a wide range of biophysical techniques. Pulse-labeling hydrogen-deuterium exchange experiments monitored by mass spectrometry reveal that binding of the antibody fragment strongly inhibits the locally cooperative unfolding of the I56T and D67H variants and restores their global cooperativity to that characteristic of the wild-type protein. The antibody fragment was, however, not stable enough under the conditions used to explore its ability to perturb the aggregation behavior of the lysozyme amyloidogenic variants. We therefore engineered a more stable version of cAb-HuL22 by adding a disulfide bridge between the two beta-sheets in the hydrophobic core of the protein. The binding of this engineered antibody fragment to the amyloidogenic variants of lysozyme inhibited their aggregation into fibrils. These findings support the premise that the reduction in global cooperativity caused by the pathogenic mutations in the lysozyme gene is the determining feature underlying their amyloidogenicity. These observations indicate further that molecular targeting of enzyme active sites, and of protein binding sites in general, is an effective strategy for inhibiting or preventing the aberrant self-assembly process that is often a consequence of protein mutation and the origin of pathogenicity. Moreover, this work further demonstrates the unique properties of camelid single-domain antibody fragments as structural probes for studying the mechanism of aggregation and as potential inhibitors of fibril formation. 相似文献
838.
839.
Christina Sch?ffer Thomas Wugeditsch Hanspeter K?hlig Andrea Scheberl Sonja Zayni Paul Messner 《The Journal of biological chemistry》2002,277(8):6230-6239
Geobacillus stearothermophilus NRS 2004/3a possesses an oblique surface layer (S-layer) composed of glycoprotein subunits as the outermost component of its cell wall. In addition to the elucidation of the complete S-layer glycan primary structure and the determination of the glycosylation sites, the structural gene sgsE encoding the S-layer protein was isolated by polymerase chain reaction-based techniques. The open reading frame codes for a protein of 903 amino acids, including a leader sequence of 30 amino acids. The mature S-layer protein has a calculated molecular mass of 93,684 Da and an isoelectric point of 6.1. Glycosylation of SgsE was investigated by means of chemical analyses, 600-MHz nuclear magnetic resonance spectroscopy, and matrix-assisted laser desorption ionization-time of flight mass spectrometry. Glycopeptides obtained after Pronase digestion revealed the glycan structure [-->2)-alpha-L-Rhap-(1-->3)-beta-L-Rhap-(1-->2)-alpha-L-Rhap-(1-->](n = 13-18), with a 2-O-methyl group capping the terminal trisaccharide repeating unit at the non-reducing end of the glycan chains. The glycan chains are bound via the disaccharide core -->3)-alpha-l-Rhap-(1-->3)-alpha-L-Rhap-(L--> and the linkage glycose beta-D-Galp in O-glycosidic linkages to the S-layer protein SgsE at positions threonine 620 and serine 794. This S-layer glycoprotein contains novel linkage regions and is the first one among eubacteria whose glycosylation sites have been characterized. 相似文献
840.
Manfred Fobker Reinhard Voss Holger Reinecke Christina Crone Gerd Assmann Michael Walter 《FEBS letters》2001,500(3):595-162
Tangier disease (TD) is an inherited disorder of lipid metabolism characterized by very low high density lipoprotein (HDL) plasma levels, cellular cholesteryl ester accumulation and reduced cholesterol excretion in response to HDL apolipoproteins. Molecular defects in the ATP binding cassette transporter 1 (ABCA1) have recently been identified as the cause of TD. ABCA1 plays a key role in the translocation of cholesterol across the plasma membrane, and defective ABCA1 causes cholesterol storage in TD cells. Not only cholesterol efflux, but also phospholipid efflux was shown to be impaired in TD cells. By use of thin layer chromatography, high performance liquid chromatography and time-of-flight secondary ion mass spectrometry, we characterized the cellular phospholipid content in fibroblasts from three homozygous TD patients. The cellular content of the major phospholipids was not found to be significantly altered in TD fibroblasts. However, the two phospholipids cardiolipin and lysocardiolipin, which make up minute amounts in normal cells, were at least 3–5-fold enriched in fibroblasts from TD subjects. A structurally closely related phospholipid (lysobisphosphatidic acid) has recently been shown to be enriched in Niemann–Pick type C, another lipid storage disorder. Altogether these data may indicate that the role of these phospholipids is a regulatory one rather than that of a bulk mediator of cholesterol solubilization in sterol trafficking and efflux. 相似文献