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41.
Zhao X Oh SH Jajko R Diekema DJ Pfaller MA Pujol C Soll DR Hoyer LL 《Fungal genetics and biology : FG & B》2007,44(12):1298-1309
The Candida albicans ALS (agglutinin-like sequence) gene family encodes eight cell-surface glycoproteins, some of which function in adhesion to host surfaces. ALS genes have a central tandem repeat-encoding domain comprised entirely of head-to-tail copies of a conserved 108-bp sequence. The number of copies of the tandemly repeated sequence varies between C. albicans strains and often between alleles within the same strain. Because ALS alleles can encode different-sized proteins that may have different functional characteristics, defining the range of allelic variability is important. Genomic DNA from C. albicans strains representing the major genetic clades was PCR amplified to determine the number of tandemly repeated sequence copies within the ALS5 and ALS6 central domain. ALS5 alleles had 2-10 tandem repeat sequence copies (mean=4.82 copies) while ALS6 alleles had 2-8 copies (mean=4.00 copies). Despite this variability, tandem repeat copy number was stable in C. albicans strains passaged for 3000 generations. Prevalent alleles and allelic distributions varied among the clades for ALS5 and ALS6. Overall, ALS6 exhibited less variability than ALS5. ALS5 deletions can occur naturally in C. albicans via direct repeats flanking the ALS5 locus. Deletion of both ALS5 alleles was associated particularly with clades III and SA. ALS5 exhibited allelic polymorphisms in the coding region 5' of the tandem repeats; some alleles resembled ALS1, suggesting recombination between these contiguous loci. Natural deletion of ALS5 and the sequence variation within its coding region suggest relaxed selective pressure on this locus, and that Als5p function may be dispensable in C. albicans or redundant within the Als family. 相似文献
42.
Kim DH Lee JC Kim S Oh SH Lee MK Kim KW Lee MS 《Journal of immunology (Baltimore, Md. : 1950)》2011,187(10):5211-5220
We have reported that apoptotic β cells undergoing secondary necrosis, called "late apoptotic (LA) β cells," stimulated APCs and induced diabetogenic T cell priming through TLR2, which might be one of the initial events in autoimmune diabetes. Indeed, diabetogenic T cell priming and the development of autoimmune diabetes were significantly inhibited in TLR2-null NOD mice, suggesting the possibility that TLR2 blockade could be used to inhibit autoimmune diabetes. Because prolonged TLR stimulation can induce TLR tolerance, we investigated whether repeated TLR2 administration affects responses to LA β cells and inhibits autoimmune diabetes in NOD mice by inducing TLR2 tolerance. Treatment of primary peritoneal macrophages with a TLR2 agonist, Pam3CSK(4), suppressed cytokine release in response to LA insulinoma cells or further TLR2 stimulation. The expression of signal transducer IRAK-1 and -4 proteins was decreased by repeated TLR2 stimulation, whereas expression of IRAK-M, an inhibitory signal transducer, was enhanced. Chronic Pam3CSK(4) administration inhibited the development of diabetes in NOD mice. Diabetogenic T cell priming by dendritic cells and upregulation of costimulatory molecules on dendritic cells by in vitro stimulation were attenuated by Pam3CSK(4) administration in vivo. Pam3CSK(4) inhibited diabetes after adoptive transfer of diabetogenic T cells or recurrence of diabetes after islet transplantation by pre-existing sensitized T cells. These results showed that TLR2 tolerance can be achieved by prolonged treatment with TLR2 agonists, which could inhibit priming of naive T cells, as well as the activity of sensitized T cells. TLR2 modulation could be used as a novel therapeutic modality against autoimmune diabetes. 相似文献
43.
Dong Ho Woo Sung Jun Jung Mei Hong Zhu Chul-Kyu Park Yong Ho Kim Seog Bae Oh C Justin Lee 《Molecular pain》2008,4(1):1-15
Voltage-gated sodium channels play important roles in modulating dorsal root ganglion (DRG) neuron hyperexcitability and hyperalgesia after peripheral nerve injury or inflammation. We report that chronic compression of DRG (CCD) produces profound effect on tetrodotoxin-resistant (TTX-R) and tetrodotoxin-sensitive (TTX-S) sodium currents, which are different from that by chronic constriction injury (CCI) of the sciatic nerve in small DRG neurons. Whole cell patch-clamp recordings were obtained in vitro from L4 and/or L5 dissociated, small DRG neurons following in vivo DRG compression or nerve injury. The small DRG neurons were classified into slow and fast subtype neurons based on expression of the slow-inactivating TTX-R and fast-inactivating TTX-S Na+ currents. CCD treatment significantly reduced TTX-R and TTX-S current densities in the slow and fast neurons, but CCI selectively reduced the TTX-R and TTX-S current densities in the slow neurons. Changes in half-maximal potential (V1/2) and curve slope (k) of steady-state inactivation of Na+ currents were different in the slow and fast neurons after CCD and CCI treatment. The window current of TTX-R and TTX-S currents in fast neurons were enlarged by CCD and CCI, while only that of TTX-S currents in slow neurons was increased by CCI. The decay rate of TTX-S and both TTX-R and TTX-S currents in fast neurons were reduced by CCD and CCI, respectively. These findings provide a possible sodium channel mechanism underlying CCD-induced DRG neuron hyperexcitability and hyperalgesia and demonstrate a differential effect in the Na+ currents of small DRG neurons after somata compression and peripheral nerve injury. This study also points to a complexity of hyperexcitability mechanisms contributing to CCD and CCI hyperexcitability in small DRG neurons. 相似文献
44.
Moon-Hee Choi Yuanzheng Wu Deuk-Sil Oh Sang-Kyum Kim Hyun-Jae Shin 《Biotechnology and Bioprocess Engineering》2016,21(3):355-363
Mycoleptodonoides aitchisonii (Berk.) Maas Geest. is a culinary mushroom that is recognized as both a nutritious food and an excellent source of bioactive compounds. The purpose of this study was to investigate the antioxidant and antidiabetic properties of M. aitchisonii (MA) both in vitro and in vivo. Total oxyradical scavenging capacity (TOSC) assays revealed that fruit-body extracts had higher antioxidant capacity than mycelial extracts, 0.9-fold higher as measured by peroxynitrite (PN) scavenging assay, 3.7-fold higher as measured by peroxyl radical (PR) scavenging assay, and 1.6-fold as measured by hydroxyl radical (HR) scavenging assay, respectively. The assay of Akt phosphorylation, which is inhibited by Interleukin 6 (IL-6) in the signal transduction pathway for diabetes, was employed to evaluate the antidiabetic activity. Fruit-body extracts significantly increased Akt phosphorylation according to the fruit-body extract concentration, with a maximum increment of 77% at a concentration of 100 μg/mL compared to 51.4% decrement caused by IL-6, but there was no effect of mycelial extracts. Treatment with 5% MA fruit-body powder and streptozotocin (STZ) decreased the blood sugar level to 233.8 mg/dL in diabetic mice compared to 333.8 mg/dL after treatment with STZ alone. Additionally, MA treatment lowered total cholesterol (TC), triglyceride (TG), and LDL-cholesterol levels, while it increased the HDL-cholesterol level. All these findings indicate that fruit-body of M. aitchisonii has potential utility in preventing various diseases such as disorders of sugar and lipid metabolism. 相似文献
45.
Moon KO Choi KH Kang HY Oh JI Jang SB Park CS Lee JH Cha J 《Journal of microbiology and biotechnology》2008,18(6):1064-1069
Levan fructotransferase (LFTase) preferentially catalyzes the transfructosylation reaction in addition to levan hydrolysis, whereas other levan-degrading enzymes hydrolyze levan into a levan-oligosaccharide and fructose. Based on sequence comparisons and enzymatic properties, the fructosyl transfer activity of LFTase is proposed to have evolved from levanase. In order to probe the residues that are critical to the intramolecular fructosyl transfer reaction of the Microbacterium sp. AL-210 LFTase, an error-prone PCR mutagenesis process was carried out, and the mutants that led to a shift in activity from transfructosylation towards hydrolysis of levan were screened by the DNS method. After two rounds of mutagenesis, TLC and HPLC analyses of the reaction products by the selected mutants revealed two major products; one is a di-D-fructose- 2,6':6,2'-dianhydride (DFAIV) and the other is a levanbiose. The newly detected levanbiose corresponds to the reaction product from LFTase lacking transferring activity. Two mutants (2-F8 and 2-G9) showed a high yield of levanbiose (38-40%) compared with the wild-type enzyme, and thus behaved as levanases. Sequence analysis of the individual mutants responsible for the enhanced hydrolytic activity indicated that Asn-85 was highly involved in the transfructosylation activity of LFTase. 相似文献
46.
Asymmetric cell division is a universal strategy to generate diverse cell types necessary for patterning and proliferation of all eukaryotes. The development of haploid male gametophytes (pollen grains) in flowering plants is a remarkable example in which division asymmetry governs the functional specialization and germline differentiation essential for double fertilization. The male gametophyte is patterned via two mitotic divisions resulting in three highly differentiated daughter cells at maturity, a vegetative cell and two sperm cells. The first asymmetric division segregates a unique male germ cell from an undetermined haploid microspore and is executed in an elaborate sequence of cellular events. However the molecular mechanisms governing the division asymmetry in microspores are poorly understood. Recently we studied the phenotype of sidecar pollen (scp) mutants in detail, and demonstrated a requirement of SCP for both the correct timing and orientation of microspore division. SCP is a microspore-specific member of the LOB/AS2 domain family (LBD27/ASL29) showing that a plant-specific regulator plays a key role in oriented division of polarized microspores. Identification of SCP will serve as a new platform to further explore the largely unknown molecular networks regulating division asymmetry in microspores that establishes the male germline in flowering plants.Key words: sidecar pollen, microspore division, division asymmetry, male gametophyte development, male germline, LBD/ASL family proteinUnlike animals, flowering plants do not set aside a distinct germline from an early stage of the life cycle. Instead the angiosperm germline or germ cells are only segregated in the male and female gametophytes by a limited number of post-meiotic mitoses.1 However, in common with their metazoan cousins, angiosperms utilize division asymmetry for cellular patterning and differentiation of their germlines. Through the unique patterning of a ‘cell-within-a-cell’ structure with three highly differentiated cells, the male gametophyte (pollen grains) serves its biological role to deliver two sessile male gametes to the female gametophyte. Two sequential but different modes of mitotic divisions pattern the male gametophyte (Fig. 1).2 The first division (of the microspore) is asymmetric giving rise to two completely different daughter cells, a larger vegetative cell that will form the pollen tube and a smaller germ cell that is engulfed within the vegetative cell cytoplasm. The second division (of the germ cell) usually appears symmetric† and produces a pair of linked sperm cells. Microspores artificially induced to undergo symmetric division using microtubule inhibitors lack the germ cell and fail to form the typical three-celled structure showing that asymmetry in microspore division is critical for patterning of the male gametophyte.4Open in a separate windowFigure 1Male gametophyte development in Arabidopsis (upper part) and mutations that block germ cell formation (lower part). (Upper part) Male gametophyte development involves two rounds of mitotic division. Prior to the first division the centrally positioned microspore nucleus migrates towards the radial wall (the future germ cell pole marked with an asterisk). At this eccentric site the polarized microspores undergo oriented mitosis and cytokinesis giving rise to highly unequal daughter cells, a vegetative cell and a germ cell of which the later produces a pair of sperm cells by symmetric division. (Lower part) Mutants that fail to establish a distinct germ cell arising from specific defects are illustrated. Arrows in red indicate the developmental origin of the phenotypic defects in mutants. Note that two daughter nuclei in the mutants are in grey to show that their cell fates have not yet been thoroughly investigated. n, nucleus; Vn, vegetative nucleus; Gn, generative nucleus; Gc, generative (or germ) cell; Sc, sperm cell; WT, wild type; gem1, gemini pollen1; scp, sidecar pollen; tio, two-in-one; hik/tes, hinkel/tetraspore 12a/12b, kinesin-12a/kinesin-12b. 相似文献
47.
Coleman DA Oh SH Manfra-Maretta SL Hoyer LL 《FEMS immunology and medical microbiology》2012,64(3):321-333
The Candida albicans agglutinin-like sequence (ALS) family encodes large cell surface glycoproteins that function in adhesion of the fungus to host and abiotic surfaces. Monoclonal antibodies (mAbs) specific for each Als protein were developed to study Als localization on the C. albicans surface. An anti-Als4 mAb demonstrated that Als4 covers the surface of yeast cells, with a greater abundance of Als4 on cells grown at 30 °C compared to 37 °C. On germ tubes, Als4 is localized in a restricted area proximal to the mother yeast. Immunolabeling with several anti-Als mAbs showed overlapping localization of Als1 and Als4 on yeast cells and Als1, Als3 and Als4 on germ tubes. Overlapping localization of Als proteins was also observed on yeast and hyphae recovered from mouse models of disseminated and oral candidiasis. Differences between Als localization in vivo and in vitro suggested changes in regulation of Als production in the host compared to the culture flask. Characterization with the anti-Als mAbs reveals the simultaneous presence and differences in relative abundance of Als proteins, creating an accurate image of Als representation and localization that can be used to guide conclusions regarding individual and collective Als protein function. 相似文献
48.
Substantial overproduction of antibodies by applying osmotic pressure and sodium butyrate 总被引:3,自引:0,他引:3
Much of the current cell technology has enabled increased antibody production levels due to judicious nutrient feeding to raise cell densities and design better bioreactors. This study demonstrates that hybridomas can be hyperstimulated to produce higher immunoglobulin (lg) levels by suppressing cell growth and increasing culture longevity through adaptation to higher osmolarity media and addition of sodium butyrate. Prior to adaptation, cells placed in higher osmotic pressures (350 and 400 mOsm) were severely suppressed in growth down to 25% of the control (300 mOsm), although total lg titers achieved were similar to the control, approximately 140 mg/L. After a week of adaptation to 350 and 400 mOsm media, cell growth was not as dramatically suppressed, but considerably higher lg levels were attained at these elevated osmolarities. The highest yield of 265 mg/L was obtained at 350 mOsm compared to 140 mg/L at 300 mOsm, while maximum viable cell numbers dropped from 35 x 10(5) cells/mL to 31 x 10(5) cells/mL and culture longevity was extended by 20 h more than the control. Sodium butyrate, known to enhance protein production in other cell types, was then supplemented at a range of concentrations between 0.01 and 0.4 mM to the 350 mOsm culture to further enhance the lg levels. Butyrate at a concentration of 0.1 mM, in combination with osmotic pressure at 350 mOsm, further elevated the lg levels to 350 mg/L. Concomitantly, maximum viable cell numbers were reduced to 22 x 10(5) cells/mL, but culture longevity was extended by 40 h in the 0.1 mM butyrate supplemented culture compared to the control condition. Specific antibody productivity, q(Mab), continued to stay high during the stationary phase and was further elevated during the decline phase: thus, overall lg levels can be increased by 2.3 times by combining osmotic pressure and butyrate treatment. (c) 1993 John Wiley & Sons, Inc. 相似文献
49.
50.
Sung Oh Sohn 《Animal cells and systems.》2019,23(1):1-9
Paxillin is a focal adhesion adaptor protein, heavily phosphorylated at multiple tyrosine residues, as well as at serine 273 (S273), and is known to be critical for cytoskeleton rearrangement and cell migration. We previously found that paxillin plays a regulatory role in IL-3-dependent survival of Ba/F3 cells, a mouse pro-B cell line. In this study, by using overexpressed His6 tagged-paxillin as a bait, we found that DDX42, a DEAD-box RNA helicase, interacted with paxillin, inhibited apoptosis, and promoted polarization of Ba/F3 cells. His6 tagged-paxillin was stably overexpressed in Ba/F3 cells, pulled-down from cell lysates with Ni+-NTA beads, and analyzed by one-dimensional SDS-PAGE followed by LC–MS. We found that DDX42 co-precipitated with paxillin, as demonstrated by western blotting analysis of His6 tagged-paxillin precipitates with anti-DDX42 antibodies and His6 tagged-DDX42 precipitates with anti-paxillin antibodies. In addition, we observed a preferential interaction of DDX42 with the paxillin mutant, S273A, compared to the S273D mutant. Furthermore, DDX42 overexpression in Ba/F3 cells delayed the apoptosis induced by IL-3 deprivation and promoted restoration of the elongated shape in Ba/F3 cells induced by IL-3 re-supply after a 6?h-deprivation. These results suggested that DDX42 interacts with paxillin and participates in IL-3-dependent cell survival, as well as in the cytoskeletal rearrangements underlying polarization of Ba/F3 cells. 相似文献