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991.
Ayumi Nakagawa Kazuki Moriya Mayuno Arita Yohei Yamamoto Kyotaro Kitamura Naoki Ishiguro Taro Kanzaki Toshihiko Oka Koki Makabe Kunihiro Kuwajima Masafumi Yohda 《Journal of molecular biology》2014
Group II chaperonin captures an unfolded protein while in its open conformation and then mediates the folding of the protein during ATP-driven conformational change cycle. In this study, we performed kinetic analyses of the group II chaperonin from a hyperthermophilic archaeon, Thermococcus sp. KS-1 (TKS1-Cpn), by stopped-flow fluorometry and stopped-flow small-angle X-ray scattering to reveal the reaction cycle. Two TKS1-Cpn variants containing a Trp residue at position 265 or position 56 exhibit nearly the same fluorescence kinetics induced by rapid mixing with ATP. Fluorescence started to increase immediately after the start of mixing and reached a maximum at 1–2 s after mixing. Only in the presence of K+ that a gradual decrease in fluorescence was observed after the initial peak. Similar results were obtained by stopped-flow small-angle X-ray scattering. A rapid fluorescence increase, which reflects nucleotide binding, was observed for the mutant containing a Trp residue near the ATP binding site (K485W), irrespective of the presence or absence of K+. Without K+, a small, rapid fluorescence decrease followed the initial increase, and then a gradual decrease was observed. In contrast, with K+, a large, rapid fluorescence decrease occurred just after the initial increase, and then the fluorescence gradually increased. Finally, we observed ATP binding signal and also subtle conformational change in an ATPase-deficient mutant with K485W mutation. Based on these results, we propose a reaction cycle model for group II chaperonins. 相似文献
992.
Yoshihiro Nakao Takeshi Kanamori Takehiko Itoh Yukiko Kodama Sandra Rainieri Norihisa Nakamura Tomoko Shimonaga Masahira Hattori Toshihiko Ashikari 《DNA research》2009,16(2):115-129
This work presents the genome sequencing of the lager brewing yeast (Saccharomyces pastorianus) Weihenstephan 34/70, a strain widely used in lager beer brewing. The 25 Mb genome comprises two nuclear sub-genomes originating from Saccharomyces cerevisiae and Saccharomyces bayanus and one circular mitochondrial genome originating from S. bayanus. Thirty-six different types of chromosomes were found including eight chromosomes with translocations between the two sub-genomes, whose breakpoints are within the orthologous open reading frames. Several gene loci responsible for typical lager brewing yeast characteristics such as maltotriose uptake and sulfite production have been increased in number by chromosomal rearrangements. Despite an overall high degree of conservation of the synteny with S. cerevisiae and S. bayanus, the syntenies were not well conserved in the sub-telomeric regions that contain lager brewing yeast characteristic and specific genes. Deletion of larger chromosomal regions, a massive unilateral decrease of the ribosomal DNA cluster and bilateral truncations of over 60 genes reflect a post-hybridization evolution process. Truncations and deletions of less efficient maltose and maltotriose uptake genes may indicate the result of adaptation to brewing. The genome sequence of this interspecies hybrid yeast provides a new tool for better understanding of lager brewing yeast behavior in industrial beer production.Key words: Saccharomyces pastorianus, beer, genome, interspecies hybrid, larger yeast 相似文献
993.
Yuya Sato Toshihiko Uemura Keisuke Morimitsu Ryoko Sato-Nishiuchi Ri-ichiroh Manabe Junichi Takagi Masashi Yamada Kiyotoshi Sekiguchi 《The Journal of biological chemistry》2009,284(21):14524-14536
Integrin α8β1 interacts with a variety of Arg-Gly-Asp
(RGD)-containing ligands in the extracellular matrix. Here, we examined the
binding activities of α8β1 integrin toward a panel of
RGD-containing ligands. Integrin α8β1 bound specifically to
nephronectin with an apparent dissociation constant of 0.28 ± 0.01
nm, but showed only marginal affinities for fibronectin and other
RGD-containing ligands. The high-affinity binding to α8β1 integrin
was fully reproduced with a recombinant nephronectin fragment derived from the
RGD-containing central “linker” segment. A series of deletion
mutants of the recombinant fragment identified the LFEIFEIER sequence on the
C-terminal side of the RGD motif as an auxiliary site required for
high-affinity binding to α8β1 integrin. Alanine scanning
mutagenesis within the LFEIFEIER sequence defined the EIE sequence as a
critical motif ensuring the high-affinity integrin-ligand interaction.
Although a synthetic LFEIFEIER peptide failed to inhibit the binding of
α8β1 integrin to nephronectin, a longer peptide containing both the
RGD motif and the LFEIFEIER sequence was strongly inhibitory, and was
∼2,000-fold more potent than a peptide containing only the RGD motif.
Furthermore, trans-complementation assays using recombinant fragments
containing either the RGD motif or LFEIFEIER sequence revealed a clear
synergism in the binding to α8β1 integrin. Taken together, these
results indicate that the specific high-affinity binding of nephronectin to
α8β1 integrin is achieved by bipartite interaction of the integrin
with the RGD motif and LFEIFEIER sequence, with the latter serving as a
synergy site that greatly potentiates the RGD-driven integrin-ligand
interaction but has only marginal activity to secure the interaction by
itself.Integrins are a family of adhesion receptors that interact with a variety
of extracellular ligands, typically cell-adhesive proteins in the
extracellular matrix
(ECM).2 They play
mandatory roles in embryonic development and the maintenance of tissue
architectures by providing essential links between cells and the ECM
(1). Integrins are composed of
two non-covalently associated subunits, termed α and β. In mammals,
18 α and 8 β subunits have been identified, and combinations of
these subunits give rise to at least 24 distinct integrin heterodimers. Based
on their ligand-binding specificities, ECM-binding integrins are classified
into three groups, namely laminin-, collagen- and RGD-binding integrins
(2,
3), of which the RGD-binding
integrins have been most extensively investigated. The RGD-binding integrins
include α5β1, α8β1, αIIbβ3, and
αV-containing integrins, and have been shown to interact with a variety
of ECM ligands, such as fibronectin and vitronectin, with distinct binding
specificities.The α8 integrin subunit was originally identified in chick nerves
(4). Integrin α8β1
is expressed in the metanephric mesenchyme and plays a crucial role in
epithelial-mesenchymal interactions during the early stages of kidney
morphogenesis. Disruption of the α8 gene in mice was found to be
associated with severe defects in kidney morphogenesis
(5) and stereocilia development
(6). To date, α8β1
integrin has been shown to bind to fibronectin, vitronectin, osteopontin,
latency-associated peptide of transforming growth factor-β1, tenascin-W,
and nephronectin (also named POEM)
(7–13),
among which nephronectin is believed to be an α8β1 integrin ligand
involved in kidney development
(10).Nephronectin is one of the basement membrane proteins whose expression and
localization patterns are restricted in a tissue-specific and developmentally
regulated manner (10,
11). Nephronectin consists of
five epidermal growth factor-like repeats, a linker segment containing the RGD
cell-adhesive motif (designated RGD-linker) and a meprin-A5 protein-receptor
protein-tyrosine phosphatase μ (MAM) domain (see
Fig. 3A). Although the
physiological functions of nephronectin remain only poorly understood, it is
thought to play a role in epithelial-mesenchymal interactions through binding
to α8β1 integrin, thereby transmitting signals from the epithelium
to the mesenchyme across the basement membrane
(10). Recently, mice deficient
in nephronectin expression were produced by homologous recombination
(14). These
nephronectin-deficient mice frequently displayed kidney agenesis, a phenotype
reminiscent of α8 integrin knock-out mice
(14), despite the fact that
other RGD-containing ligands, including fibronectin and osteopontin, were
expressed in the embryonic kidneys
(9,
15). The failure of the other
RGD-containing ligands to compensate for the deficiency of nephronectin in the
developing kidneys suggests that nephronectin is an indispensable
α8β1 ligand that plays a mandatory role in epithelial-mesenchymal
interactions during kidney development.Open in a separate windowFIGURE 3.Binding activities of α8β1 integrin to nephronectin and its
fragments. A, schematic diagrams of full-length nephronectin
(NN) and its fragments. RGD-linker and RGD-linker
(GST), the central RGD-containing linker segments expressed in
mammalian and bacterial expression systems, respectively; PRGDV, a
short RGD-containing peptide modeled after nephronectin and expressed as a GST
fusion protein (see Fig.
4A for the peptide sequence). The arrowheads
indicate the positions of the RGD motif. B, purified recombinant
proteins were analyzed by SDS-PAGE in 7–15% gradient (left and
center panels) and 12% (right panels) gels, followed by
Coomassie Brilliant Blue (CBB) staining, immunoblotting with an
anti-FLAG mAb, or lectin blotting with PNA. The quantities of proteins loaded
were: 0.5 μg (for Coomassie Brilliant Blue staining) and 0.1 μg (for
blotting with anti-FLAG and PNA) in the left and center
panels;1 μg in the right panel. C, recombinant proteins (10
nm) were coated on microtiter plates and assessed for their binding
activities toward α8β1 integrin (10 nm) in the presence
of 1 mm Mn2+. The backgrounds were subtracted as
described in the legend to Fig.
2. The results represent the mean ± S.D. of triplicate
determinations. D, titration curves of α8β1 integrin bound
to full-length nephronectin (NN, closed squares), the RGD-linker
segments expressed in 293F cells (RGD-linker, closed triangles) and
E. coli (RGD-linker (GST), open
triangles), the MAM domain (MAM, closed diamonds), and the PRGDV
peptide expressed as a GST fusion protein in E. coli (PRGDV
(GST), open circles). The assays were performed as described
in the legend to Fig.
2B. The results represent the means of duplicate
determinations.Although ligand recognition by RGD-binding integrins is primarily
determined by the RGD motif in the ligands, it is the residues outside the RGD
motif that define the binding specificities and affinities toward individual
integrins (16,
17). For example,
α5β1 integrin specifically binds to fibronectin among the many
RGD-containing ligands, and requires not only the RGD motif in the 10th type
III repeat but also the so-called “synergy site” within the
preceding 9th type III repeat for fibronectin recognition
(18). Recently, DiCara et
al. (19) demonstrated
that the high-affinity binding of αVβ6 integrin to its natural
ligands, e.g. foot-and-mouth disease virus, requires the RGD motif
immediately followed by a Leu-Xaa-Xaa-Leu/Ile sequence, which forms a helix to
align the two conserved hydrophobic residues along the length of the helix.
Given the presence of many naturally occurring RGD-containing ligands, it is
conceivable that the specificities of the RGD-binding integrins are dictated
by the sequences flanking the RGD motif or those in neighboring domains that
come into close proximity with the RGD motif in the intact ligand proteins.
However, the preferences of α8β1 integrin for RGD-containing
ligands and how it secures its high-affinity binding toward its preferred
ligands remain unknown.In the present study, we investigated the binding specificities of
α8β1 integrin toward a panel of RGD-containing cell-adhesive
proteins. Our data reveal that nephronectin is a preferred ligand for
α8β1 integrin, and that a LFEIFEIER sequence on the C-terminal side
of its RGD motif serves as a synergy site to ensure the specific high-affinity
binding of nephronectin to α8β1 integrin. 相似文献
994.
995.
Accurate identification of cell nuclei and their tracking using three dimensional (3D) microscopic images is a demanding task in many biological studies. Manual identification of nuclei centroids from images is an error-prone task, sometimes impossible to accomplish due to low contrast and the presence of noise. Nonetheless, only a few methods are available for 3D bioimaging applications, which sharply contrast with 2D analysis, where many methods already exist. In addition, most methods essentially adopt segmentation for which a reliable solution is still unknown, especially for 3D bio-images having juxtaposed cells. In this work, we propose a new method that can directly extract nuclei centroids from fluorescence microscopy images. This method involves three steps: (i) Pre-processing, (ii) Local enhancement, and (iii) Centroid extraction. The first step includes two variations: first variation (Variant-1) uses the whole 3D pre-processed image, whereas the second one (Variant-2) modifies the preprocessed image to the candidate regions or the candidate hybrid image for further processing. At the second step, a multiscale cube filtering is employed in order to locally enhance the pre-processed image. Centroid extraction in the third step consists of three stages. In Stage-1, we compute a local characteristic ratio at every voxel and extract local maxima regions as candidate centroids using a ratio threshold. Stage-2 processing removes spurious centroids from Stage-1 results by analyzing shapes of intensity profiles from the enhanced image. An iterative procedure based on the nearest neighborhood principle is then proposed to combine if there are fragmented nuclei. Both qualitative and quantitative analyses on a set of 100 images of 3D mouse embryo are performed. Investigations reveal a promising achievement of the technique presented in terms of average sensitivity and precision (i.e., 88.04% and 91.30% for Variant-1; 86.19% and 95.00% for Variant-2), when compared with an existing method (86.06% and 90.11%), originally developed for analyzing C. elegans images. 相似文献
996.
997.
Kanavillil Nandakumar Hideki Obika Tatsuya Shinozaki Toshihiko Ooie Akihiro Utsumi Tetsuo Yano 《Biofouling》2013,29(2):109-114
The mechanisms of laser action on bacteria are not adequately understood. Here, an attempt has been made to study the fluctuation in ATP (adenosine triphosphate) concentration following laser irradiation from a pulsed Nd:YAG laser on a marine biofilm-forming bacterium Pseudoalteromonas carrageenovora. A stationary phase bacterial suspension (density 107-8 mlm 1) was exposed to pulsed laser irradiations at a fluence of 0.1 J cmm 2 (pulse width 5 ns, repetition rate 10 Hz) for different durations, ranging from 2 s to 15 min. The total viable count (TVC) and ATP concentration of the irradiated samples were determined immediately after the laser irradiation. While the maximum reduction in the TVC observed with respect to the control was 59% immediately after 15 min irradiation, the ATP concentration showed a reduction of about 86% for the same duration. The ATP concentration showed an abrupt reduction from 3 min of laser irradiation and continued to reduce significantly with increasing duration of irradiation. Thus, 3 min irradiation at a fluence of 0.1 J cmm 2 is considered as an approximate threshold for ATP production in this bacterium. As the decreased level of ATP production continued, bacterial mortality resulted. The reduction in ATP production could be due to damage caused by the laser irradiations on bacterial metabolic processes such as cellular respiration. 相似文献
998.
Abstract The susceptibility of Salmonella typhimurium LT2 and of S. typhi 1079 to oxygen metabolites were compared. S. typhimurium LT2 and S. typhi 1079 were killed to an equal extent (about 40%) by the xanthine-xanthine oxidase (200 mU/ml) system. Among the various scavengers of oxygen metabolites, catalase alone inhibited the killing of S. typhimurium LT2 and S. typhi 1079 by the xanthine-xanthine oxidase system, indicating that hydrogen peroxide contributed to the killing of Salmonellae . The respiratory burst of murine macrophages was efficiently triggered by the ingestion of S. typhimurium LT2, S. typhimurium SL1102, and S. typhi 1079 and all to the same extent. However, in the range of the concentration of hydrogen peroxide produced by murine macrophages, neither S. typhimurium LT2 nor S. typhi 1079 were killed. Only S. typhimurium SL1102, a rough mutant of S. typhimurium LT2, was markedly susceptible under these conditions. The findings suggest that both S. typhimurium LT2 and S. typhi 1079 are resistant to oxygen-dependent killing mechanisms. 相似文献
999.
Cloning and sequencing of a dehalogenase gene encoding an enzyme with hydrolase activity involved in the degradation of gamma-hexachlorocyclohexane in Pseudomonas paucimobilis. 总被引:1,自引:2,他引:1 下载免费PDF全文
In Pseudomonas paucimobilis UT26, gamma-hexachlorocyclohexane (gamma-HCH) is converted by two steps of dehydrochlorination to a chemically unstable intermediate, 1,3,4,6-tetrachloro-1,4-cyclohexadiene (1,4-TCDN), which is then metabolized to 2,5-dichloro-2,5-cyclohexadiene-1,4-diol (2,5-DDOL) by two steps of hydrolytic dehalogenation via the chemically unstable intermediate 2,4,5-trichloro-2,5-cyclohexadiene-1-ol (2,4,5-DNOL). To clone a gene encoding the enzyme responsible for the conversion of the chemically unstable intermediates 1,4-TCDN and 2,4,5-DNOL, a genomic library of P. paucimobilis UT26 was constructed in Pseudomonas putida PpY101LA into which the linA gene had been introduced by Tn5. An 8-kb BglII fragment from one of the cosmid clones, which could convert gamma-HCH to 2,5-DDOL, was subcloned, and subsequent deletion analyses revealed that a ca. 1.1-kb region was responsible for the activity. Nucleotide sequence analysis revealed an open reading frame (designated the linB gene) of 885 bp within the region. The deduced amino acid sequence of LinB showed significant similarity to hydrolytic dehalogenase, DhlA (D. B. Janssen, F. Pries, J. van der Ploeg, B. Kazemier, P. Terpstra, and B. Witholt, J. Bacteriol. 171:6791-6799, 1989). The protein product of the linB gene was 32 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Not only 1-chlorobutane but also 1-chlorodecane (C10) and 2-chlorobutane, which are poor substrates for other dehalogenases, were good substrates for LinB, suggesting that LinB may be a member of haloalkane dehalogenases with broad-range specificity for substrates. 相似文献
1000.