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101.
The crystal structure of glycerol kinase from the hyperthermophilic archaeon Thermococcus kodakaraensis (Tk-GK) in a dimeric form was determined at a resolution of 2.4 A. This is the first crystal structure of a hyperthermophilic glycerol kinase. The overall structure of the Tk-GK dimer is very similar to that of the Escherichia coli glycerol kinase (Ec-GK) dimer. However, two dimers of Ec-GK can associate into a tetramer with a twofold axis, whereas those of Tk-GK cannot. This may be the reason why Tk-GK is not inhibited by fructose 1,6-bisphosphate, because the fructose 1,6-bisphosphate binding site is produced only when a tetrameric structure is formed. Differential scanning calorimetry analyses indicate that Tk-GK is a highly thermostable protein with a melting temperature (T(m)) of 105.4 degrees C for the major transition. This value is higher than that of Ec-GK by 34.1 degrees C. Comparison of the crystal structures of Tk-GK and Ec-GK indicate that there is a marked difference in the number of ion pairs in the alpha16 helix. Four ion pairs, termed IP1-IP4, are formed in this helix in the Tk-GK structure. To examine whether these ion pairs contribute to the stabilization of Tk-GK, four Tk-GK and four Ec-GK derivatives with reciprocal mutations at the IP1-IP4 sites were constructed. The determination of their stabilities indicates that the removal of each ion pair does not affect the stability of Tk-GK significantly, whereas the mutations designed to introduce one of these ion pairs stabilize or destabilize Ec-GK considerably. These results suggest that the ion pairs in the alpha16 helix contribute to the stabilization of Tk-GK in a cooperative manner. 相似文献
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106.
Wordsworth S Buchanan J Regan R Davison V Smith K Dyer S Campbell C Blair E Maher E Taylor J Knight SJ 《Genomic Medicine》2007,1(1-2):35-45
Array based comparative genomic hybridisation (aCGH) is a powerful technique for detecting clinically relevant genome imbalance
and can offer 40 to > 1000 times the resolution of karyotyping. Indeed, idiopathic learning disability (ILD) studies suggest
that a genome-wide aCGH approach makes 10–15% more diagnoses involving genome imbalance than karyotyping. Despite this, aCGH
has yet to be implemented as a routine NHS service. One significant obstacle is the perception that the technology is prohibitively
expensive for most standard NHS clinical cytogenetics laboratories. To address this, we investigated the cost-effectiveness
of aCGH versus standard cytogenetic analysis for diagnosing idiopathic learning disability (ILD) in the NHS. Cost data from
four participating genetics centres were collected and analysed. In a single test comparison, the average cost of aCGH was
£442 and the average cost of karyotyping was £117 with array costs contributing most to the cost difference. This difference
was not a key barrier when the context of follow up diagnostic tests was considered. Indeed, in a hypothetical cohort of 100 ILD
children, aCGH was found to cost less per diagnosis (£3,118) than a karyotyping and multi-telomere FISH approach (£4,957).
We conclude that testing for genomic imbalances in ILD using microarray technology is likely to be cost-effective because
long-term savings can be made regardless of a positive (diagnosis) or negative result. Earlier diagnoses save costs of additional
diagnostic tests. Negative results are cost-effective in minimising follow-up test choice. The use of aCGH in routine clinical
practice warrants serious consideration by healthcare providers.
Copyright statement The Corresponding Author has the right to grant on behalf of all authors and does grant on behalf of all authors, an exclusive
licence (or non exclusive for government employees) on a worldwide basis to the BMJ Publishing Group Ltd, and its Licensees
to permit this article (if accepted) to be published in BMJ editions and any other BMJPGL products and to exploit all subsidiary
rights, as set out in our licence (bmj.com/advice/copyright.shtml).
Authorship The authors included on this paper fulfil the criteria of authorship and no one who fulfils the criteria has been excluded
from authorship. The authors made a substantial contribution to the conception, design, analysis and interpretation of data.
They were involved in drafting the article or revising it critically for important intellectual content and approving the
version to be published.
Contributorship Sarah Wordsworth (Guarantor): Planning, conducting and reporting work, interpretation of data, drafting and revising article.
James Buchanan: Conducting and reporting work, interpretation of data, revising article.
Regina Regan: Completing costing questionnaire, providing protocol details, other costing information, interpretation of data,
information about learning disability and genome imbalance and revising article.
Val Davison: Completing costing questionnaire, providing protocol details, sharing overall laboratory experience and drafting
article.
Kim Smith: Completing costing questionnaire, providing protocol details, drafting article.
Sara Dyer: Completing costing questionnaire and providing protocol details.
Carolyn Campbell: Completing costing questionnaire and providing protocol details.
Edward Blair: Critical appraisal of article for clinical content and revising article.
Eddy Maher: Completing costing questionnaire, providing protocol details, sharing overall laboratory experience and drafting
article.
Jenny Taylor: Planning and facilitating work between centres. Drafting and revising article.
Samantha JL Knight: Completing costing questionnaire, providing protocol details, other costing information, interpretation
of data, providing information about learning disability and genome imbalance, drafting and revising article.
Jenny Taylor and Samantha JL Knight contributed equally to the work presented. 相似文献
107.
Synthesis of temperature-responsive heterobifunctional block copolymers of poly(ethylene glycol) and poly(N-isopropylacrylamide) 总被引:1,自引:0,他引:1
Heterobifunctional block copolymers of poly(ethylene glycol) (PEG) and poly(N-isopropylacrylamide) (PNIPAM) were synthesized by reversible addition-fragmentation chain transfer (RAFT) polymerization of NIPAM using a macromolecular trithiocarbonate PEG-based chain transfer agent. The polymerization showed all the expected features of living radical polymerization and allowed the synthesis of copolymers with different lengths of the PNIPAM block. The synthesized block copolymers contained a carboxylic acid group from L-lysine at the focal point and a trithiocarbonate group at the terminus of the PNIPAM block. The trithiocarbonate functionality was converted into a thiol group and used for conjugation of biotin to the end of the PNIPAM block. The copolymers exhibited temperature-dependent association behavior in aqueous solution with a phase transition of approximately 32 degrees C. The described heterobifunctional block copolymers show promise for surface modifications with the potential for stimulus-controlled surface presentation of ligands attached to the terminus of the PNIPAM block. 相似文献
108.
Kulig P Zabel BA Dubin G Allen SJ Ohyama T Potempa J Handel TM Butcher EC Cichy J 《Journal of immunology (Baltimore, Md. : 1950)》2007,178(6):3713-3720
Chemerin is an attractant for cells that express the serpentine receptor CMKLR1, which include immature plasmacytoid dendritic cells (pDC) and macrophages. Chemerin circulates in the blood where it exhibits low biological activity, but upon proteolytic cleavage of its C terminus, it is converted to a potent chemoattractant. Enzymes that contribute to this conversion include host serine proteases of the coagulation, fibrinolytic, and inflammatory cascades, and it has been postulated that recruitment of pDC and macrophages by chemerin may serve to balance local tissue immune and inflammatory responses. In this work, we describe a potent, pathogen-derived proteolytic activity capable of chemerin activation. This activity is mediated by staphopain B (SspB), a cysteine protease secreted by Staphylococcus aureus. Chemerin activation is triggered by growth medium of clinical isolates of SspB-positive S. aureus, but not by that of a SspB(null) mutant. C-terminal processing by SspB generates a chemerin isoform identical with the active endogenous attractant isolated from human ascites fluid. Interestingly, SspB is a potent trigger of chemerin even in the presence of plasma inhibitors. SspB may help direct the recruitment of specialized host cells, including immunoregulatory pDC and/or macrophages, contributing to the ability of S. aureus to elicit and maintain a chronic inflammatory state. 相似文献
109.
The objective of this work was to characterize tumor cell locomotion in response to chemotactic stimulation using a dual-micropipet assay. The assay involves two micropipets. An individual A2058 human melanoma cell was retained, without pressure gradient, in a pipet of approximately 14 micrometers i.d. A solution of type IV collagen, chosen as the chemotactic source, was placed in another pipet (approximately 10 micrometers o.d.) with zero pressure at the pipet tip. The smaller pipet was then inserted into the larger one containing the melanoma cell. The initial chemoattractant concentration (C0) and the distance between the tip of the small pipet and the cell surface (delta) provided a gradient (C0/delta) for tumor cell locomotion toward stimulation. This novel assay provides a direct measure of cell movement: cyclic pseudopod protrusion (Lp) and subsequent cell locomotion (Lc). The influences of different adhesion substrates on cell locomotion were also studied. The peak length in Lp precedes the highest locomotion velocity (dLc/dt) by an apparent lag time. C0/delta influences pseudopod protrusion frequency (fp) and dLc/dt, but not significantly on Lp. Substrate adhesions affect dLc/dt, but apparently not Lp or fp. In conclusion, pseudopod protrusion and substrate adhesion are two necessary but mutually independent factors in tumor cell locomotion. dLc/dt correlates with changes in C0/delta, which is in significant correlation with fp but not Lp. 相似文献
110.