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81.
Ryosuke Nakai Takashi Abe Tomoya Baba Satoshi Imura Hiroshi Kagoshima Hiroshi Kanda Yuji Kohara Akiko Koi Hironori Niki Katsuhiko Yanagihara Takeshi Naganuma 《Polar Biology》2012,35(10):1495-1504
Aquatic mosses of Leptobryum species form unique tower-like pillars of vegetation termed “moss pillars” in Antarctic lakes. Moss pillars have distinct redox-affected sections: oxidative exteriors and reductive interiors. We have proposed that a “pillar” is a community and habitat of functionally interdependent organisms and may represent a mini-biosphere. Batteries of 16S rRNA genotypes, or phylotypes, of eubacteria and cyanobacteria, but no archaea, have been identified in moss pillars. However, detailed identification or phylogenetic analyses of the moss and their associated eukaryotic microbiota have not been performed. This study analyzed near-full-length 18S rRNA gene sequences obtained from two whole moss pillars. In total, 28 PCR clone libraries from two whole moss pillars were constructed, and 96 clones from each library (total 2,688 clones) were randomly selected and sequenced. Molecular phylogenetic analysis revealed that the phylotype belonging to Bryophyta, considered to be derived from moss, was closely related (99.9?%) to the 18S rRNA gene sequence from Leptobryum pyriforme. Unexpectedly, phylotypes belonging to a novel clade of fungi dominated (approximately 27–75?%) the moss pillar libraries. This suggests that fungi may contribute to carbon cycling in the moss pillar as parasites or decomposers. In addition, phylotypes related to ciliates and tardigrades were subdominant in the exterior, while the phylotype of the ameba-like, single-celled eukaryote, Cercomonas (Cercozoa), was detected only in the interior. These features were shared by both moss pillars. The 18S rRNA gene-based profiles demonstrated that redox-related factors may control distribution of some eukaryotic microbes in a whole moss pillar. 相似文献
82.
Ming Li Luca Vanella Yuming Zhang Ming Shi Takashi Takaki Joseph I Shapiro Susumu Ikehara 《International journal of biological sciences》2012,8(10):1335-1344
Intra bone marrow-bone marrow transplantation (IBM- BMT) + thymus transplantation (TT) has been shown to reduce the incidence of graft versus host disease (GVHD) and restore donor-derived T cell function. In addition, an increase in insulin sensitivity occurred in db/db mice after IBM-BMT+TT treatment. Heme oxygenase (HO)-1 is a stress inducible enzyme which exert antioxidant, antiapoptotic, and immune-modulating properties. We examined whether IBM-BMT+TT could modulate the expression of HO-1 in the kidneys of db/db mice. Six-week-old db/db mice with blood glucose levels higher than 250 mg/dl were treated with IBM-BMT+TT. Six weeks later, the db/db mice showed decreased body weight, blood glucose levels and insulin, and increased plasma adiponectin levels. The upregulation of HO-1 was associated with significantly (p<0.05) increased levels of peNOS and pAKT, but decreased levels of iNOS in the kidneys of db/db mice. Plasma creatinine levels also decreased (p<0.05), and the expression of type IV collagen was improved. Thus IBM-BMT+TT unregulated the expression of HO-1, peNOS and pAKT, while decreasing iNOS levels in the kidney of db/db mice. This was associated with an improvement in renal function. 相似文献
83.
84.
Takashi Hishida Yoshihiro Hirade Nami Haruta Yoshino Kubota Hiroshi Iwasaki 《Molecular and cellular biology》2010,30(20):4840-4850
Differential posttranslational modification of proliferating cell nuclear antigen (PCNA) by ubiquitin or SUMO plays an important role in coordinating the processes of DNA replication and DNA damage tolerance. Previously it was shown that the loss of RAD6-dependent error-free postreplication repair (PRR) results in DNA damage checkpoint-mediated G2 arrest in cells exposed to chronic low-dose UV radiation (CLUV), whereas wild-type and nucleotide excision repair-deficient cells are largely unaffected. In this study, we report that suppression of homologous recombination (HR) in PRR-deficient cells by Srs2 and PCNA sumoylation is required for checkpoint activation and checkpoint maintenance during CLUV irradiation. Cyclin-dependent kinase (CDK1)-dependent phosphorylation of Srs2 did not influence checkpoint-mediated G2 arrest or maintenance in PRR-deficient cells but was critical for HR-dependent checkpoint recovery following release from CLUV exposure. These results indicate that Srs2 plays an important role in checkpoint-mediated reversible G2 arrest in PRR-deficient cells via two separate HR-dependent mechanisms. The first (required to suppress HR during PRR) is regulated by PCNA sumoylation, whereas the second (required for HR-dependent recovery following CLUV exposure) is regulated by CDK1-dependent phosphorylation.DNA damage occurs frequently in all organisms as a consequence of both endogenous metabolic processes and exogenous DNA-damaging agents. In nature, the steady-state level of DNA damage is usually very low. However, chronic low-level DNA damage can lead to age-related genome instability as a consequence of the accumulation of DNA damage (12, 27). Increasing evidence implicates DNA damage-related replication stress in genome instability (7, 21). Replication stress occurs when an active fork encounters DNA lesions or proteins tightly bound to DNA. These obstacles pose a threat to the integrity of the replication fork and are thus a potential source of genome instability, which can contribute to tumorigenesis and aging in humans (4, 11). Confronted with this risk, cells have developed fundamental DNA damage response mechanisms in order to faithfully complete DNA replication (8).In budding yeast Saccharomyces cerevisiae, the Rad6-dependent postreplication repair (PRR) pathway is subdivided into three subpathways, which allow replication to resume by bypassing the lesion without repairing the damage (3, 22, 33). Translesion synthesis (TLS) pathways dependent on the DNA polymerases eta and zeta promote error-free or mutagenic bypass depending on the DNA lesion and are activated upon monoubiquitination of proliferating cell nuclear antigen (PCNA) at Lys164 (K164) (5, 16, 37). The Rad5 (E3) and Ubc13 (E2)/Mms2 (E2 variant)-dependent pathway promotes error-free bypass by template switching and is activated by polyubiquitination of PCNA via a Lys63-linked ubiquitin chain (16, 38, 41). It remains mechanistically unclear how polyubiquitinated PCNA promotes template switching at the molecular level. In addition to its ubiquitin E3 activity, Rad5 also has a helicase domain and was recently shown to unwind and reanneal fork structures in vitro (6). This led to the proposal that Rad5 helicase activity is required at replication forks to promote fork regression and subsequent template switching. It is possible that PCNA polyubiquitination acts to facilitate Rad5-dependent template switching by inhibiting monoubiquitination-dependent TLS activity and/or by recruiting alternative proteins to the fork.In addition to modification by ubiquitin, PCNA can also be sumoylated on Lys164 by the SUMO E3 ligase Siz1 (16). A second sumoylation site, Lys127, is also targeted by an alternative SUMO E3 ligase, Siz2, albeit with lower efficiency (16, 30). PCNA SUMO modification results in recruitment of the Srs2 helicase and subsequent inhibition of Rad51-dependent recombination events (29, 32). The modification can therefore allow the replicative bypass of lesions by promoting the RAD6 pathway. Srs2 is known to act as an antirecombinase by eliminating recombination intermediates. This can occur independently of PCNA sumoylation, and when srs2Δ cells are UV irradiated or other antirecombinases, such as Sgs1, are concomitantly deleted, toxic recombination structures accumulate (1, 10). Such genetic data are consistent with the ability of Srs2 to disassemble the Rad51 nucleoprotein filaments formed on single-stranded DNA (ssDNA) in vitro (20, 40). In addition to directly inhibiting homologous recombination (HR), Srs2 is also involved in regulating HR outcomes to not produce crossover recombinants in the mitotic cell cycle (18, 34, 35).The UV spectrum present in sunlight is a primary environmental cause of exogenous DNA damage. Sunlight is a potent and ubiquitous carcinogen responsible for much of the skin cancer in humans (17). In the natural environment, organisms are exposed to chronic low-dose UV light (CLUV), as opposed to the acute high doses commonly used in laboratory experiments. Hence, understanding the cellular response to CLUV exposure is an important approach complementary to the more traditional laboratory approaches for clarifying the biological significance of specific DNA damage response pathways. A recently developed experimental assay for the analysis of CLUV-induced DNA damage responses was used to show that the PCNA polyubiquitination-dependent error-free PRR pathway plays a critical role in tolerance of CLUV exposure by preventing the generation of excessive ssDNA when replication forks arrest, thus suppressing counterproductive checkpoint activation (13).Mutants of SRS2 were first isolated by their ability to suppress the radiation sensitivity of rad6 and rad18 mutants (defective in PRR) by a mechanism that requires a functional HR pathway (23, 36). In this study, we analyzed the function of Srs2 in CLUV-exposed PRR-deficient cells. We established that Srs2 acts in conjunction with SUMO-modified PCNA to lower the threshold for checkpoint activation and maintenance by suppressing the function of HR in rad18Δ cells exposed to CLUV. We also showed that Srs2 is separately involved in an HR-dependent recovery process following cessation of CLUV exposure and that this second role for Srs2, unlike its primary role in checkpoint activation and maintenance, is regulated by CDK1-dependent phosphorylation. Thus, Srs2 is involved in both CLUV-induced checkpoint-mediated arrest and recovery from CLUV exposure in PRR-deficient cells, and these two functions, while both involving HR, are separable and thus independent. 相似文献
85.
Nobuhisa Ozaki Arigala Uma Ravi Sankar Mitsuji Yamashita Takashi Aoki Yasutaka Tanaka Motohiko Kimura Mitsuo Toda Michio Fujie Yasuo Takehara Harumi Sakahara 《Bioorganic & medicinal chemistry letters》2010,20(3):932-934
A new type of dendritic molecules Gd-DTPA-XDA-D1-Glc(OH), which work as a functionalized ligand coordinating gadolinium(III) ion at the center of their frameworks with two glucose moieties on the molecular surfaces, were readily synthesized with high yield. The structures were established by IR, 1H, 13C NMR, and mass spectral studies. Its bio-distribution patterns were evaluated on rats. 相似文献
86.
Ribonuclease P (RNase P) is a ribonucleoprotein complex involved in the processing of the 5′-leader sequence of precursor tRNA. Human RNase P protein subunits Rpp21 and Rpp29, which bind to each other, with catalytic RNA (H1 RNA) are sufficient for activating endonucleolytic cleavage of precursor tRNA. Here we have determined the crystal structure of the complex between the Pyrococcus horikoshii RNase P proteins PhoRpp21 and PhoRpp29, the archaeal homologs of Rpp21 and Rpp29, respectively. PhoRpp21 and PhoRpp29 form a heterodimeric structure where the two N-terminal helices (α1 and α2) in PhoRpp21 predominantly interact with the N-terminal extended structure, the β-strand (β2), and the C-terminal helix (α3) in PhoRpp29. The interface is dominated by hydrogen bonds and several salt bridges, rather than hydrophobic interactions. The electrostatic potential on the surface of the heterodimer shows a positively charged cluster on one face, suggesting a possible RNA-binding surface of the PhoRpp21-PhoRpp29 complex. The present structure, along with the result of a mutational analysis, suggests that heterodimerization between PhoRpp21 and PhoRpp29 plays an important role in the function of P. horikoshii RNase P. 相似文献
87.
Miyoko Kasai Takashi Miyazaki Tsuneo Takenaka Hiroyuki Yanagisawa Hiromichi Suzuki 《Biological trace element research》2012,150(1-3):285-290
This study investigated the effects of excess zinc intake on the mean arterial pressure (MAP), renal blood flow (RBF), inulin clearance (IC), serum zinc level, serum angiotensin-converting enzyme (ACE) activity, and kidney angiotensin II (AT II) levels in rats. Experiments were performed on male Sprague?CDawley rats maintained for 4?weeks on a diet containing either 5?mg/100?g (control group), 50?mg/100?g (Zn50 group), or 200?mg/100?g (Zn200 group) zinc carbonate. Serum zinc levels significantly increased to 126.5?% in the Zn50 group and 198.1?% in the Zn200 group compared with controls. MAP significantly increased to 107.8?% in the Zn50 group and 114.5?% in the Zn200 group again compared with controls. Although the difference in serum ACE activity was independent of the serum zinc levels, the kidney AT II levels increased significantly to 137.2?% in the Zn50 group and 174.4?% in the Zn200 group compared with the controls. RBF was decreased significantly to 74.4?% in the Zn50 group and 69.7?% in the Zn200 group compared with the controls. IC values were significantly decreased to 69.6?% in the Zn50 group and 52.7?% in the Zn200 group as compared with control levels. Combined together, these results show that excessive Zn intake reduced IC and RBF and increased MAP and kidney AT II levels, suggesting that excessive Zn intake reduces renal function. 相似文献
88.
Emmanuel S. Burgos Carola Wilczek Takashi Onikubo Jeffrey B. Bonanno Janina Jansong Ulf Reimer David Shechter 《The Journal of biological chemistry》2015,290(15):9674-9689
The protein arginine methyltransferase PRMT5 is complexed with the WD repeat protein MEP50 (also known as Wdr77 or androgen coactivator p44) in vertebrates in a tetramer of heterodimers. MEP50 is hypothesized to be required for protein substrate recruitment to the catalytic domain of PRMT5. Here we demonstrate that the cross-dimer MEP50 is paired with its cognate PRMT5 molecule to promote histone methylation. We employed qualitative methylation assays and a novel ultrasensitive continuous assay to measure enzyme kinetics. We demonstrate that neither full-length human PRMT5 nor the Xenopus laevis PRMT5 catalytic domain has appreciable protein methyltransferase activity. We show that histones H4 and H3 bind PRMT5-MEP50 more efficiently compared with histone H2A(1–20) and H4(1–20) peptides. Histone binding is mediated through histone fold interactions as determined by competition experiments and by high density histone peptide array interaction studies. Nucleosomes are not a substrate for PRMT5-MEP50, consistent with the primary mode of interaction via the histone fold of H3-H4, obscured by DNA in the nucleosome. Mutation of a conserved arginine (Arg-42) on the MEP50 insertion loop impaired the PRMT5-MEP50 enzymatic efficiency by increasing its histone substrate Km, comparable with that of Caenorhabditis elegans PRMT5. We show that PRMT5-MEP50 prefers unmethylated substrates, consistent with a distributive model for dimethylation and suggesting discrete biological roles for mono- and dimethylarginine-modified proteins. We propose a model in which MEP50 and PRMT5 simultaneously engage the protein substrate, orienting its targeted arginine to the catalytic site. 相似文献
89.
90.
Takashi Kitagawa Shingo Kimura Hideaki Nakata Harumi Yamada Akira Nitta Yoshikazu Sasai Hideharu Sasaki 《Environmental Biology of Fishes》2009,84(2):193-196
The habitat and movements of a Pacific bluefin tuna were investigated by reanalyzing archival tag data with sea surface temperature
data. During its trans-Pacific migration to the eastern Pacific, the fish took a direct path and primarily utilized waters,
in the Subarctic Frontal Zone (SFZ). Mean ambient temperature during the trans-Pacific migration was 14.5 ± 2.9 (°C ± SD),
which is significantly colder than the waters typically inhabited by bluefin tuna in their primary feeding grounds in the
western and eastern Pacific (17.6 ± 2.1). The fish moved rapidly through the colder water, and the heat produced during swimming
and the thermoconservation ability of bluefin tuna likely enabled it to migrate through the cold waters of the SFZ. 相似文献