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81.
Kawahara I Haruta K Ashihara Y Yamanaka D Kuriyama M Toki N Kondo Y Teruya K Ishikawa J Furuta H Ikawa Y Kojima C Tanaka Y 《Nucleic acids research》2012,40(1):e7
A site-specific isotope labeling technique of long RNA molecules was established. This technique is comprised of two simple enzymatic reactions, namely a guanosine transfer reaction of group I self-splicing introns and a ligation with T4 DNA ligase. The trans-acting group I self-splicing intron with its external cofactor, 'isotopically labeled guanosine 5'-monophosphate' (5'-GMP), steadily gave a 5'-residue-labeled RNA fragment. This key reaction, in combination with a ligation of 5'-remainder non-labeled sequence, allowed us to prepare a site-specifically labeled RNA molecule in a high yield, and its production was confirmed with (15)N NMR spectroscopy. Such a site-specifically labeled RNA molecule can be used to detect a molecular interaction and to probe chemical features of catalytically/structurally important residues with NMR spectroscopy and possibly Raman spectroscopy and mass spectrometry. 相似文献
82.
Uematsu T Konishi C Hoshino D Han X Tomari T Egawa N Takada Y Isobe T Seiki M Koshikawa N 《Journal of cellular physiology》2012,227(8):3072-3079
Integrins are adhesion receptors for components of the extracellular matrix (ECMs) that regulate multiple cellular functions, such as migration, invasion, proliferation, and survival by mediating bidirectional signal transmission. Even though many proteins have been reported to associate with integrins both on and in cells, systemic analyses of the adhesome have not been carried out. In previous studies, we identified proteins associating with a membrane-type protease, MT1-MMP, using nano-flow liquid chromatography/tandem mass spectrometry (nano-LC/MS/MS) of associated proteins prepared by optimized conditions for cell lysis and purification. Since integrins were identified as MT1-MMP-associated proteins, we next applied this method to analyze integrin-associated proteins. In this study, we expressed integrin α2 fused at the C terminus to a FLAG peptide in HT1080 cells. Cells stably expressing the chimeric protein were lysed with 1% Brij-98 and affinity purified using anti-FLAG antibody. Integrin β1 co-purified with integrin α2 confirming the specificity of the purification procedure. Analysis of the purified mixture by nano-LC/MS/MS identified 70 proteins. Nineteen of these were membrane proteins, including adhesion proteins, receptors, transporters, proteinases, and ion-channel receptors, and the balance were cytoplasmic. Interestingly, eight of the proteins had previously been shown to associate with MT1-MMP. We believe the present study provides a platform to facilitate the study of the mechanisms of cell adhesion, migration, and invasion. 相似文献
83.
Sakaidani Y Ichiyanagi N Saito C Nomura T Ito M Nishio Y Nadano D Matsuda T Furukawa K Okajima T 《Biochemical and biophysical research communications》2012,419(1):14-19
O-linked-β-N-acetylglucosamine (O-GlcNAc) modification is a unique cytoplasmic and nuclear protein modification that is common in nearly all eukaryotes, including filamentous fungi, plants, and animals. We had recently reported that epidermal growth factor (EGF) repeats of Notch and Dumpy are O-GlcNAcylated by an atypical O-GlcNAc transferase, EOGT, in Drosophila. However, no study has yet shown whether O-GlcNAcylation of extracellular proteins is limited to insects such as Drosophila or whether it occurs in other organisms, including mammals. Here, we report the characterization of A130022J15Rik, a mouse gene homolog of Drosophila Eogt (Eogt 1). Enzymatic analysis revealed that Eogt1 has a substrate specificity similar to that of Drosophila EOGT, wherein the Thr residue located between the fifth and sixth conserved cysteines of the folded EGF-like domains is modified. This observation is supported by the fact that the expression of Eogt1 in Drosophila rescued the cell-adhesion defect caused by Eogt downregulation. In HEK293T cells, Eogt1 expression promoted modification of Notch1 EGF repeats by O-GlcNAc, which was further modified, at least in part, by galactose to generate a novel O-linked-N-acetyllactosamine structure. These results suggest that Eogt1 encodes EGF domain O-GlcNAc transferase and that O-GlcNAcylation reaction in the secretory pathway is a fundamental biochemical process conserved through evolution. 相似文献
84.
Takekawa Y Saito M Wang C Qin T Ogawa M Kanemaru T Yoshida S 《Canadian journal of microbiology》2012,58(2):179-183
Legionella oakridgensis occasionally causes pneumonia in humans. We report here the characteristic morphology of intracellular microcolonies of L. oakridgensis OR-10 in infected epithelial cells. By light microscopy after Gimenez staining, the bacteria showed serpentine-like chain, disk-like conglomerate, and granular forms when they grew intracellularly in Vero cells, HeLa cells, and A549 cells. In a time-lapse study, we observed the progressive change from a serpentine-like chain form to a conglomerate form in Vero cells. Transmission electron microscopy showed that L. oakridgensis OR-10 proliferated both inside membrane structures and in the cytoplasm. Such highly serpentine chain growth has not been reported in any intracellular bacteria. Furthermore, these results imply that L. oakridgensis OR-10 may be proliferating inside the endoplasmic reticulum. 相似文献
85.
Ansai S Ochiai H Kanie Y Kamei Y Gou Y Kitano T Yamamoto T Kinoshita M 《Development, growth & differentiation》2012,54(5):546-556
Zinc-finger nucleases (ZFNs) are artificial enzymes that create site-specific double-strand breaks and thereby induce targeted genome editing. Here, we demonstrated successful gene disruption in somatic and germ cells of medaka (Oryzias latipes) using ZFN to target exogenous EGFP genes. Embryos that were injected with an RNA sequence pair coding for ZFNs showed mosaic loss of green fluorescent protein fluorescence in skeletal muscle. A number of mutations that included both deletions and insertions were identified within the ZFN target site in each embryo, whereas no mutations were found at the non-targeted sites. In addition, ZFN-induced mutations were introduced in germ cells and efficiently transmitted to the next generation. The mutation frequency varied (6-100%) in the germ cells from each founder, and a founder carried more than two types of mutation in germ cells. Our results have introduced the possibility of targeted gene disruption and reverse genetics in medaka. 相似文献
86.
Phosphoglucomutase (PGM, EC 2.7.5.1) is one of the enzymes constituting the carbohydrate synthesis pathway in higher plants. It catalyzes the reversible conversion of glucose 6-phosphate (Glc6P) to glucose 1-phosphate (Glc1P). Previously, metabolic turnover analysis using (13)CO(2) in tobacco leaves demonstrated that conversion of Glc6P to Glc1P may limit carbon flow into carbohydrate synthesis. In order to assess the effects of PGM, Arabidopsis thaliana cytosolic or plastidial PGM was expressed under the control of cauliflower mosaic virus 35S promoter in tobacco plants (Nicotiana tabacum cv. Xanthi) and phenotypic analysis was performed. The transgenic plants expressing Arabidopsis plastidial PGM showed 3.5-8.2-fold higher PGM activity than that of wild-type, and leaf starch and sucrose contents increased 2.3-3.2-fold and 1.3-1.4-fold, respectively over wild-type levels. In vivo(13)C-labeling experiments indicated that photosynthetically fixed carbon in the transgenic plants could be converted faster to Glc1P and adenosine 5'-diphosphate glucose than in wild-type, suggesting that elevation of plastidial PGM activity should accelerate conversion of Glc6P to Glc1P in chloroplasts and increase carbon flow into starch. On the other hand, transgenic plants expressing Arabidopsis cytosolic PGM showed a 2.1-3.4-fold increase in PGM activity over wild-type and a decrease of leaf starch content, but no change in sucrose content. These results suggest that plastidial PGM limits photosynthetic carbon flow into starch. 相似文献
87.
Hiroyuki Kawano Shutaro Katsurabayashi Yasuhiro Kakazu Yuta Yamashita Natsuko Kubo Masafumi Kubo Hideto Okuda Kotaro Takasaki Kaori Kubota Kenichi Mishima Michihiro Fujiwara N. Charles Harata Katsunori Iwasaki 《PloS one》2012,7(10)
The astrocyte is a major glial cell type of the brain, and plays key roles in the formation, maturation, stabilization and elimination of synapses. Thus, changes in astrocyte condition and age can influence information processing at synapses. However, whether and how aging astrocytes affect synaptic function and maturation have not yet been thoroughly investigated. Here, we show the effects of prolonged culture on the ability of astrocytes to induce synapse formation and to modify synaptic transmission, using cultured autaptic neurons. By 9 weeks in culture, astrocytes derived from the mouse cerebral cortex demonstrated increases in β-galactosidase activity and glial fibrillary acidic protein (GFAP) expression, both of which are characteristic of aging and glial activation in vitro. Autaptic hippocampal neurons plated on these aging astrocytes showed a smaller amount of evoked release of the excitatory neurotransmitter glutamate, and a lower frequency of miniature release of glutamate, both of which were attributable to a reduction in the pool of readily releasable synaptic vesicles. Other features of synaptogenesis and synaptic transmission were retained, for example the ability to induce structural synapses, the presynaptic release probability, the fraction of functional presynaptic nerve terminals, and the ability to recruit functional AMPA and NMDA glutamate receptors to synapses. Thus the presence of aging astrocytes affects the efficiency of synaptic transmission. Given that the pool of readily releasable vesicles is also small at immature synapses, our results are consistent with astrocytic aging leading to retarded synapse maturation. 相似文献
88.
C Terao K Ohmura K Ikari Y Kochi E Maruya M Katayama K Yurugi K Shimada A Murasawa S Honjo K Takasugi K Matsuo K Tajima A Suzuki K Yamamoto S Momohara H Yamanaka R Yamada H Saji F Matsuda T Mimori 《PloS one》2012,7(7):e40067
HLA-DRB1, especially the shared epitope (SE), is strongly associated with rheumatoid arthritis (RA). However, recent studies have shown that SE is at most weakly associated with RA without anti-citrullinated peptide/protein antibody (ACPA). We have recently reported that ACPA-negative RA is associated with specific HLA-DRB1 alleles and diplotypes. Here, we attempted to detect genetically different subsets of ACPA-negative RA by classifying ACPA-negative RA patients into two groups based on their positivity for rheumatoid factor (RF). HLA-DRB1 genotyping data for totally 954 ACPA-negative RA patients and 2,008 healthy individuals in two independent sets were used. HLA-DRB1 allele and diplotype frequencies were compared among the ACPA-negative RF-positive RA patients, ACPA-negative RF-negative RA patients, and controls in each set. Combined results were also analyzed. A similar analysis was performed in 685 ACPA-positive RA patients classified according to their RF positivity. As a result, HLA-DRB1*04:05 and *09:01 showed strong associations with ACPA-negative RF-positive RA in the combined analysis (p = 8.8×10−6 and 0.0011, OR: 1.57 (1.28–1.91) and 1.37 (1.13–1.65), respectively). We also found that HLA-DR14 and the HLA-DR8 homozygote were associated with ACPA-negative RF-negative RA (p = 0.00022 and 0.00013, OR: 1.52 (1.21–1.89) and 3.08 (1.68–5.64), respectively). These association tendencies were found in each set. On the contrary, we could not detect any significant differences between ACPA-positive RA subsets. As a conclusion, ACPA-negative RA includes two genetically distinct subsets according to RF positivity in Japan, which display different associations with HLA-DRB1. ACPA-negative RF-positive RA is strongly associated with HLA-DRB1*04:05 and *09:01. ACPA-negative RF-negative RA is associated with DR14 and the HLA-DR8 homozygote. 相似文献
89.
Hironori Katayama Miho Tachibana Hiroyuki Iketani Shao-Ling Zhang Chiyomi Uematsu 《Tree Genetics & Genomes》2012,8(2):313-326
The genome structure of pear chloroplast DNA (cpDNA) is extremely highly conserved in comparison with that of other angiosperms,
and therefore, relatively few phylogenetic analyses for pear (Pyrus spp.) have been carried out using cpDNA as a marker. In this study, we identified two hypervariable regions in intergenic
spacers of cpDNA from 21 species in Pyrus. One of these regions is 857 bp in length and lies between the accD-psaI genes, and the other is a 904-bp region between the rps16-trnQ genes. The mutation rate of gaps for the two regions was 10 and 26 times higher, respectively, than the base change rate.
Twenty-five haplotypes were revealed among 21 species in Pyrus by 36 mutations found in the two regions. These included 27 gaps and 9 base changes but excluded cpSSRs. Phylogenetic relationships
between the 25 haplotypes were generated by haplotype network analysis. The 25 haplotypes represented three groups (types
A–C) with two large deletions, one 228 bp in length between the accD-psaI genes and the other 141 bp between the rps16-trnQ genes. Types A and B consisted mostly of pears native to East and South Asia. Type C contained mainly Pyrus communis and wild relatives native to Europe, West and Central Asia, Russia, and Africa. Type B might have diverged from primitives
such as pea pears in type A. Phylogenetic utility of structural alterations (gaps) occurring in the hypervariable regions
of Pyrus cpDNA is discussed. 相似文献
90.
Furuichi M Suzuki N Dhakshnamoorhty B Minagawa H Yamagishi R Watanabe Y Goto Y Kaneko H Yoshida Y Yagi H Waga I Kumar PK Mizuno H 《Journal of molecular biology》2008,378(2):436-446
l-Lactate oxidase (LOX) belongs to a family of flavin mononucleotide (FMN)-dependent α-hydroxy acid-oxidizing enzymes. Previously, the crystal structure of LOX (pH 8.0) from Aerococcus viridans was solved, revealing that the active site residues are located around the FMN. Here, we solved the crystal structures of the same enzyme at pH 4.5 and its complex with d-lactate at pH 4.5, in an attempt to analyze the intermediate steps. In the complex structure, the d-lactate resides in the substrate-binding site, but interestingly, an active site base, His265, flips far away from the d-lactate, as compared with its conformation in the unbound state at pH 8.0. This movement probably results from the protonation of His265 during the crystallization at pH 4.5, because the same flip is observed in the structure of the unbound state at pH 4.5. Thus, the present structure appears to mimic an intermediate after His265 abstracts a proton from the substrate. The flip of His265 triggers a large structural rearrangement, creating a new hydrogen bonding network between His265-Asp174-Lys221 and, furthermore, brings molecular oxygen in between d-lactate and His265. This mimic of the ternary complex intermediate enzyme-substrate-O2 could explain the reductive half-reaction mechanism to release pyruvate through hydride transfer. In the mechanism of the subsequent oxidative half-reaction, His265 flips back, pushing molecular oxygen into the substrate-binding site as the second substrate, and the reverse reaction takes place to produce hydrogen peroxide. During the reaction, the flip-flop action of His265 has a dual role as an active base/acid to define the major chemical steps. Our proposed reaction mechanism appears to be a common mechanistic strategy for this family of enzymes. 相似文献