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排序方式: 共有368条查询结果,搜索用时 265 毫秒
51.
cDNA cloning of a novel androgen receptor subtype. 总被引:13,自引:0,他引:13
T Ikeuchi T Todo T Kobayashi Y Nagahama 《The Journal of biological chemistry》1999,274(36):25205-25209
52.
Mio Kawabata Honoka Matsuo Takumi Koito Misaki Murata Tomoko Kubori Hiroki Nagai Mitsuo Tagaya Kohei Arasaki 《PLoS pathogens》2021,17(3)
Legionella pneumophila (L. pneumophila) is a gram-negative bacterium that replicates in a compartment that resembles the host endoplasmic reticulum (ER). To create its replicative niche, L. pneumophila manipulates host membrane traffic and fusion machineries. Bacterial proteins called Legionella effectors are translocated into the host cytosol and play a crucial role in these processes. In an early stage of infection, Legionella subverts ER-derived vesicles (ERDVs) by manipulating GTPase Rab1 to facilitate remodeling of the Legionella-containing vacuole (LCV). Subsequently, the LCV associates with the ER in a mechanism that remains elusive. In this study, we show that L. pneumophila recruits GTPases Rab33B and Rab6A, which regulate vesicle trafficking from the Golgi to the ER, to the LCV to promote the association of LCV with the ER. We found that recruitment of Rab6A to the LCV depends on Rab33B. Legionella effector SidE family proteins, which phosphoribosyl-ubiquitinate Rab33B, were found to be necessary for the recruitment of Rab33B to the LCV. Immunoprecipitation experiments revealed that L. pneumophila facilitates the interaction of Rab6 with ER-resident SNAREs comprising syntaxin 18, p31, and BNIP1, but not tethering factors including NAG, RINT-1, and ZW10, which are normally required for syntaxin 18-mediated fusion of Golgi-derived vesicles with the ER. Our results identified a Rab33B-Rab6A cascade on the LCV and the interaction of Rab6 with ER-resident SNARE proteins for the association of LCV with the ER and disclosed the unidentified physiological role of SidE family proteins. 相似文献
53.
Tatsuhiko Tsunoda Mio Takase Hideyuki Shigemori 《Bioorganic & medicinal chemistry》2018,26(12):3202-3209
Alzheimer’s disease (AD), a neurodegenerative disorder, is characterized by aggregation of amyloid β-protein (Aβ). Aβ aggregates through β-sheet formation and induces cytotoxicity against neuronal cells. Inhibition of Aβ aggregation by naturally occurring compounds is thus a promising strategy for the treatment of AD. We have already reported that caffeoylquinic acids and phenylethanoid glycosides, which possess two or more catechol moieties, strongly inhibited Aβ aggregation. Clovamide (1) containing two catechol moieties, isolated from cacao beans (Theobroma cacao L.), is believed to exhibit preventive effects on Aβ aggregation. To investigate the structure-activity relationship of clovamide (1) for the inhibition of Aβ aggregation, we synthesized 1 and related compounds 2–11 through reaction between l-DOPA, d-DOPA, l-tyrosine, or l-phenylalanine and caffeic acid, p-coumaric acid, or cinnamic acid, and compounds 12 and 13 were derived from 1. Among tested compounds 1–13, those containing one or two catechol moieties exhibited potent anti-aggregation activity, whereas the non-catechol-type related compounds showed little or no activity. This suggests that at least one catechol moiety is essential for inhibition of Aβ42 aggregation, and this activity increases depending on the number of catechol moieties. Consequently, clovamide (1) and its related compounds may be a promising therapeutic option for inhibiting Aβ-mediated pathology in AD. 相似文献
54.
Koji Kashima Yoshikazu Yuki Mio Mejima Shiho Kurokawa Yuji Suzuki Satomi Minakawa Natsumi Takeyama Yoshiko Fukuyama Tatsuhiko Azegami Takeshi Tanimoto Masaharu Kuroda Minoru Tamura Yasuyuki Gomi Hiroshi Kiyono 《Plant cell reports》2016,35(3):667-679
Key message
The first Good Manufacturing Practices production of a purification-free rice-based oral cholera vaccine (MucoRice-CTB) from transgenic plants in a closed cultivation system yielded a product meeting regulatory requirements.Abstract
Despite our knowledge of their advantages, plant-based vaccines remain unavailable for human use in both developing and industrialized countries. A leading, practical obstacle to their widespread use is producing plant-based vaccines that meet governmental regulatory requirements. Here, we report the first production according to current Good Manufacturing Practices of a rice-based vaccine, the cholera vaccine MucoRice-CTB, at an academic institution. To this end, we established specifications and methods for the master seed bank (MSB) of MucoRice-CTB, which was previously generated as a selection-marker-free line, evaluated its propagation, and given that the stored seeds must be renewed periodically. The production of MucoRice-CTB incorporated a closed hydroponic system for cultivating the transgenic plants, to minimize variations in expression and quality during vaccine manufacture. This type of molecular farming factory can be operated year-round, generating three harvests annually, and is cost- and production-effective. Rice was polished to a ratio of 95 % and then powdered to produce the MucoRice-CTB drug substance, and the identity, potency, and safety of the MucoRice-CTB product met pre-established release requirements. The formulation of MucoRice-CTB made by fine-powdering of drug substance and packaged in an aluminum pouch is being evaluated in a physician-initiated phase I study.55.
Goto Takatsugu; Yamashita Atsushi; Hirakawa Hideki; Matsutani Minenosuke; Todo Kozo; Ohshima Kenshiro; Toh Hidehiro; Miyamoto Kazuaki; Kuhara Satoru; Hattori Masahira; Shimizu Tohru; Akimoto Shigeru 《DNA research》2008,15(1):39-47
Finegoldia magna (formerly Peptostreptococcus magnus), a memberof the Gram-positive anaerobic cocci (GPAC), is a commensalbacterium colonizing human skin and mucous membranes. Moreover,it is also recognized as an opportunistic pathogen responsiblefor various infectious diseases. Here, we report the completegenome sequence of F. magna ATCC 29328. The genome consistsof a 1 797 577 bp circular chromosome and an 189 163bp plasmid (pPEP1). The metabolic maps constructed based onthe genome information confirmed that most F. magna strainscannot ferment most sugars, except fructose, and have variousaminopeptidase activities. Three homologs of albumin-bindingprotein, a known virulence factor useful for antiphagocytosis,are encoded on the chromosome, and one albumin-binding proteinhomolog is encoded on the plasmid. A unique feature of the genomeis that F. magna encodes many sortase genes, of which substratesmay be involved in bacterial pathogenesis, such as antiphagocytosisand adherence to the host cell. The plasmid pPEP1 encodes sevensortase and seven substrate genes, whereas the chromosome encodesfour sortase and 19 substrate genes. These plasmid-encoded sortasesmay play important roles in the pathogenesis of F. magna byenriching the variety of cell wall anchored surface proteins. 相似文献
56.
57.
Miura Y Hato M Shinohara Y Kuramoto H Furukawa J Kurogochi M Shimaoka H Tada M Nakanishi K Ozaki M Todo S Nishimura S 《Molecular & cellular proteomics : MCP》2008,7(2):370-377
Recent progress in mass spectrometry has led to new challenges in glycomics, including the development of rapid glycan enrichment techniques. A facile technique for exploration of a carbohydrate-related biomarker is important because proteomics research targets glycosylation, a posttranslational modification. Here we report an "all-in-one" protocol for high throughput clinical glycomics. This new technique integrates glycoblotting-based glycan enrichment onto the BlotGlycoABC bead, on-bead stabilization of sialic acids, and fluorescent labeling of oligosaccharides in a single workflow on a multiwell filter plate. The advantage of this protocol and MALDI-TOF MS was demonstrated through differentiation of serum N-glycan profiles of subjects with congenital disorders of glycosylation and hepatocellular carcinoma and healthy donors. The method also permitted total cellular glycomics analysis of human prostate cancer cells and normal human prostate epithelial cells. These results demonstrate the potentials of glycan enrichment/processing for biomarker discovery. 相似文献
58.
59.
Mio Nakamura Koji Nomura Jun-ichi P. Abe Yousuke Degawa Makoto Kakishima 《Mycoscience》2009,50(6):448-451
A simple method for isolating the nuclei from Basidiobolus ranarum was established. To improve the yield and purity of nuclei, we investigated maceration methods, buffer composition, and centrifugation
conditions to establish an optimal procedure. Basidiobolus ranarum cultured for 5 days was enzymatically macerated and then homogenized and filtrated through stainless steel sieves. The crude
cell homogenate was loaded on a layer of buffer containing 50% glycerol and centrifuged at 1500 g. The resultant pellet contained pure nuclei. 相似文献
60.
Yuusuke Maruyama Toshihiko Ogura Kazuhiro Mio Kenta Kato Takeshi Kaneko Shigeki Kiyonaka Yasuo Mori Chikara Sato 《The Journal of biological chemistry》2009,284(20):13676-13685
The Ca2+ release-activated Ca2+ channel is a
principal regulator of intracellular Ca2+ rise, which conducts
various biological functions, including immune responses. This channel,
involved in store-operated Ca2+ influx, is believed to be composed
of at least two major components. Orai1 has a putative channel pore and
locates in the plasma membrane, and STIM1 is a sensor for luminal
Ca2+ store depletion in the endoplasmic reticulum membrane. Here we
have purified the FLAG-fused Orai1 protein, determined its tetrameric
stoichiometry, and reconstructed its three-dimensional structure at 21-Å
resolution from 3681 automatically selected particle images, taken with an
electron microscope. This first structural depiction of a member of the Orai
family shows an elongated teardrop-shape 150Å in height and 95Å in
width. Antibody decoration and volume estimation from the amino acid sequence
indicate that the widest transmembrane domain is located between the round
extracellular domain and the tapered cytoplasmic domain. The cytoplasmic
length of 100Å is sufficient for direct association with STIM1. Orifices
close to the extracellular and intracellular membrane surfaces of Orai1 seem
to connect outside the molecule to large internal cavities.Ca2+ is an intracellular second messenger that plays important
roles in various physiological functions such as immune response, muscle
contraction, neurotransmitter release, and cell proliferation. Intracellular
Ca2+ is mainly stored in the endoplasmic reticulum
(ER).2 This ER system
is distributed through the cytoplasm from around the nucleus to the cell
periphery close to the plasma membrane. In non-excitable cells, the ER
releases Ca2+ through the inositol 1,4,5-trisphosphate
(IP3) receptor channel in response to various signals, and the
Ca2+ store is depleted. Depletion of Ca2+ then induces
Ca2+ influx from outside the cell to help in refilling the
Ca2+ stores and to continue Ca2+ rise for several
minutes in the cytoplasm (1,
2). This Ca2+ influx
was first proposed by Putney
(3) and was named
store-operated Ca2+ influx. In the immune system, store-operated
Ca2+ influx is mainly mediated by the Ca2+
release-activated Ca2+ (CRAC) current, which is a highly
Ca2+-selective inwardly rectified current with low conductance
(4,
5). Pathologically, the loss of
CRAC current in T cells causes severe combined immunodeficiency
(6) where many Ca2+
signal-dependent gene expressions, including cytokines, are interrupted
(7). Therefore, CRAC current is
necessary for T cell functions.Recently, Orai1 (also called CRACM1) and STIM1 have been physiologically
characterized as essential components of the CRAC channel
(8–12).
They are separately located in the plasma membrane and in the ER membrane;
co-expression of these proteins presents heterologous CRAC-like currents in
various types of cells (10,
13–15).
Both of them are shown to be expressed ubiquitously in various tissues
(16–18).
STIM1 senses Ca2+ depletion in the ER through its EF hand motif
(19) and transmits a signal to
Orai1 in the plasma membrane. Although Orai1 is proposed as a regulatory
component for some transient receptor potential canonical channels
(20,
21), it is believed from the
mutation analyses to be the pore-forming subunit of the CRAC channel
(8,
22–24).
In the steady state, both Orai1 and STIM1 molecules are dispersed in each
membrane. When store depletion occurs, STIM1 proteins gather into clusters to
form puncta in the ER membrane near the plasma membrane
(11,
19). These clusters then
trigger the clustering of Orai1 in the plasma membrane sites opposite the
puncta (25,
26), and CRAC channels are
activated (27).Orai1 has two homologous genes, Orai2 and Orai3
(8). They form the Orai family
and have in common the four transmembrane (TM) segments with relatively large
N and C termini. These termini are demonstrated to be in the cytoplasm,
because both N- and C-terminally introduced tags are immunologically detected
only in the membrane-permeabilized cells
(8,
9). The subunit stoichiometry
of Orai1 is as yet controversial: it is believed to be an oligomer, presumably
a dimer or tetramer even in the steady state
(16,
28–30).Despite the accumulation of biochemical and electrophysiological data,
structural information about Orai1 is limited due to difficulties in
purification and crystallization. In this study, we have purified Orai1 in its
tetrameric form and have reconstructed the three-dimensional structure from
negatively stained electron microscopic (EM) images. 相似文献