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991.
992.
Matsunaga I Komori T Mori N Sugita M 《Biochemical and biophysical research communications》2012,419(4):687-691
Mycobacterium avium complex (MAC) is a group of non-tuberculous mycobacteria that cause tuberculosis-like diseases in humans. Unlike Mycobacterium tuberculosis, MAC expresses high levels of glycopeptidolipids (GPLs) containing a well-defined tetrapeptide-amino alcohol core, composed of D-phenylalanine, D-allo-threonine, D-alanine, and L-alaninol, that is modified with a fatty acid and sugar residues. Surprisingly, however, a careful scrutiny of the mass spectrum of MAC GPLs revealed the presence of ions that could not readily accountable for the known GPL structure. The magnitude of the ions was increased prominently when GPLs were isolated from the valine-supplemented culture, and the ions representing the authentic GPL species were diminished, suggesting the possibility that the basic structure of the peptide backbone might be altered in response to the exogenously added valine. Indeed, further mass spectrometry (MS)/MS and gas chromatography-MS analysis indicated a substitution of D-valine for the N-terminal D-phenylalanine of the tetrapeptide core, and the presence of D-valine and the absence of D-phenylalanine was confirmed by high-performance liquid chromatography, using the derivatized amino acid residues that were released from the tetrapeptide. Finally, specific antibodies to the purified valine-containing GPL species were detected in the serum of a MAC-infected guinea pig. Therefore, these results identify a new molecular species of MAC GPLs with immunogenic potential. 相似文献
993.
Yoshitome S Furuno N Prigent C Hashimoto E 《Biochemical and biophysical research communications》2012,422(4):770-775
Cyclins B1 and B2 are subtypes of cyclin B, a regulatory subunit of a maturation/M-phase promoting factor, and they are also highly conserved in many vertebrate species. Cyclin B1 is essential for mitosis, whereas cyclin B2 is regarded as dispensable. However, the overexpression of the cyclin B2 N-terminus containing the cytoplasmic retention signal, but not cyclin B1, inhibits bipolar spindle formation in Xenopus oocytes and embryos. Here we show that endogenous cyclin B2 was localized in and around the germinal vesicle. The perinuclear localization of cyclin B2 was perturbed by the overexpression of its N-terminus containing the cytoplasmic retention signal, which resulted in a spindle defect. This spindle defect was rescued by the overexpression of bipolar kinesin Eg5, which is located at the perinuclear region in the proximity of endogenous cyclin B2. These results demonstrate that the proper localization of cyclin B2 is essential for bipolar spindle formation in Xenopus oocytes. 相似文献
994.
Koichi Kamiya Satoshi Nanami Tanaka Kenzo Reiji Yoneda Bibian Diway Lucy Chong Mohamad A. Azani Nik M. Majid Shawn K. Y. Lum Khoon‐Meng Wong Ko Harada 《Biotropica》2012,44(5):577-585
We assessed the variability of chloroplast DNA sequences in populations of the dipterocarp forest tree, Shorea curtisii. This species is widely distributed in hill and coastal hill dipterocarp forests of the Malay Peninsula, whereas isolated populations are found in the coastal hills of north Borneo. Two chloroplast DNA regions (1555 bp of trnH‐psbA‐trnK and 925 bp of trnL‐trnF) were sequenced from 123 individuals collected from six Malay Peninsula and two Bornean populations. There were 15 chloroplast haplotypes derived from 16 polymorphic sites. A haplotype network revealed two distinct haplogroups that correlate with two geographic regions, the Malay Peninsula and Borneo. These two haplogroups differed by a number of mutations, and no haplotypes were shared between populations from the different geographic regions. This suggests an ancient diversification of these haplogroups, and that long‐distance seed dispersal was unlikely to have occurred during the Pleistocene when the Sunda Shelf was a contiguous landmass. Phylogenetic analysis of the haplotypes together with those found in other Shorea species showed that two haplogroups in S. curtisii appear in different positions of the phylogenetic tree. This could be explained by the persistence of ancestral polymorphisms or by ancient chloroplast capture. Low levels of genetic differentiation were found between populations within each geographic region. Signature of a bottleneck followed by demographic expansion was detected in the Malay Peninsula haplogroup. The presence of two distinct evolutionary lineages in the different regions suggests that they should be managed independently to conserve the major sources of genetic diversity in S. curtisii. 相似文献
995.
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
996.
Aiko Ikenishi Hitomi Okayama Noriko Iwamoto Satoshi Yoshitome Shoji Tane Kazuomi Nakamura Tetsuya Obayashi Toshinori Hayashi Takashi Takeuchi 《Development, growth & differentiation》2012,54(8):731-738
The regulation of cardiomyocyte proliferation is important for heart development and function. Proliferation levels of mouse cardiomyocytes are high during early embryogenesis and start to decrease at midgestation. Many cardiomyocytes undergo mitosis without cytokinesis, resulting in binucleated cardiomyocytes during early postnatal stages, following which the cell cycle arrests irreversibly. It remains unknown how the proliferation pattern is regulated, and how the irreversible cell cycle arrest occurs. To clarify the mechanisms, fundamental information about cell cycle regulators in cardiomyocytes and cell cycle patterns during embryonic and postnatal stages is necessary. Here, we show that the expression, complex formation, and activity of main cyclins and cyclin‐dependent kinases (CDKs) changed in a synchronous manner during embryonic and postnatal stages. These levels decreased from midgestation to birth, and then showed one wave in which the peak was around postnatal day 5. Detailed analysis of the complexes suggested that CDK activities were inhibited before the protein levels decreased. Analysis of DNA content distribution patterns in mono‐ and binucleated cardiomyocytes after birth revealed changes in cell cycle distribution patterns and the transition from mono‐ to binucleated cells. These analyses indicated that the wave of cell cycle regulator expression or activities during postnatal stages mainly produced binucleated cells from mononucleated cells. The data obtained should provide a basis for the analysis of cell cycle regulation in cardiomyocytes during embryonic and postnatal stages. 相似文献
997.
Yasushi Otani Takashi Kijima Satoshi Kohmo Shinya OishiToshiyuki Minami Izumi NagatomoRyo Takahashi Haruhiko HirataMayumi Suzuki Koji InoueYoshito Takeda Hiroshi KidaIsao Tachibana Nobutaka FujiiAtsushi Kumanogoh 《FEBS letters》2012,586(20):3639-3644
CXCL12 is a chemokine essential for the organ-specific spread of a variety of cancers including small cell lung cancer (SCLC). Here, we examined the anti-metastatic efficacy of TF14016, a small peptidic inhibitor of CXCL12 receptor CXCR4, in SCLC. Treatment of mice with TF14016 significantly suppressed pulmonary metastases of CXCR4-expressing SCLC in size and number. Furthermore, histological examination revealed that the expression of vascular endothelial cell growth factor and the density of CD31-positive microvessels in metastatic foci were both significantly reduced in TF14016-treated mice. Collectively, CXCR4 could be an attractive target for anti-metastatic and anti-angiogenic therapy in SCLC. 相似文献
998.
Miki M Makimura S Sugahara Y Yamada R Bunya M Saitoh T Tobita H 《Journal of molecular biology》2012,420(1-2):40-55
It is essential to know the detailed structure of the thin filament to understand the regulation mechanism of striated muscle contraction. Fluorescence resonance energy transfer (FRET) was used to construct an atomic model of the actin-tropomyosin (Tm)-troponin (Tn) core domain complex. We generated single-cysteine mutants in the 167-195 region of Tm and in TnC, TnI, and the β-TnT 25-kDa fragment, and each was attached with an energy donor probe. An energy acceptor probe was located at actin Gln41, actin Cys374, or the actin nucleotide-binding site. From these donor-acceptor pairs, FRET efficiencies were determined with and without Ca(2+). Using the atomic coordinates for F-actin, Tm, and the Tn core domain, we searched all possible arrangements for Tm or the Tn core domain on F-actin to calculate the FRET efficiency for each donor-acceptor pair in each arrangement. By minimizing the squared sum of deviations for the calculated FRET efficiencies from the observed FRET efficiencies, we determined the location of Tm segment 167-195 and the Tn core domain on F-actin with and without Ca(2+). The bulk of the Tn core domain is located near actin subdomains 3 and 4. The central helix of TnC is nearly perpendicular to the F-actin axis, directing the N-terminal domain of TnC toward the actin outer domain. The C-terminal region in the I-T arm forms a four-helix-bundle structure with the Tm 175-185 region. After Ca(2+) release, the Tn core domain moves toward the actin outer domain and closer to the center of the F-actin axis. 相似文献
999.
Shinya K Gao Y Cilloniz C Suzuki Y Fujie M Deng G Zhu Q Fan S Makino A Muramoto Y Fukuyama S Tamura D Noda T Eisfeld AJ Katze MG Chen H Kawaoka Y 《Journal of virology》2012,86(11):6055-6066
1000.
Kajikawa M Li PC Goto E Miyashita N Aoki-Kawasumi M Mito-Yoshida M Ikegaya M Sugita Y Ishido S 《Journal of virology》2012,86(9):5288-5296
Kaposi's sarcoma-associated herpesvirus (KSHV), a human tumor virus, encodes two homologous membrane-associated E3 ubiquitin ligases, modulator of immune recognition 1 (MIR1) and MIR2, to evade host immunity. Both MIR1 and MIR2 downregulate the surface expression of major histocompatibility complex class I (MHC I) molecules through ubiquitin-mediated endocytosis followed by lysosomal degradation. Since MIR2 additionally downregulates a costimulatory molecule (B7-2) and an integrin ligand (intercellular adhesion molecule 1 [ICAM-1]), MIR2 is thought to be a more important molecule for immune evasion than MIR1; however, the molecular basis of the MIR2 substrate specificity remains unclear. To address this issue, we determined which regions of B7-2 and MIR2 are required for MIR2-mediated B7-2 downregulation. Experiments with chimeras made by swapping domains between human B7-2 and CD8α, a non-MIR2 substrate, and between MIR1 and MIR2 demonstrated a significant contribution of the juxtamembrane (JM) region of B7-2 and the intertransmembrane (ITM) region of MIR2 to MIR2-mediated downregulation. Structure prediction and mutagenesis analyses indicate that Phe119 and Ser120 in the MIR2 ITM region and Asp244 in the B7-2 JM region contribute to the recognition of B7-2 by MIR2. This finding provides new insight into the molecular basis of substrate recognition by MIR family members. 相似文献