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61.
Kentaro M. Tanaka Aya Takahashi Naoyuki Fuse Toshiyuki Takano-Shimizu-Kouno 《Genetics》2014,197(2):739-742
Cell death is a mechanism utilized by organisms to eliminate excess cells during development. Here, we describe a novel regulator of caspase-independent cell death, Mabiki (Mabi), that is involved in the repair of the head patterning defects caused by extra copies of bicoid in Drosophila melanogaster. Mabiki functions together with caspase-dependent cell death mechanisms to provide robustness during development. 相似文献
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63.
Kenjiro Asagoshi Yuan Liu Aya Masaoka Li Lan Rajendra Prasad Julie K. Horton Ashley R. Brown Xiao-hong Wang Hussam M. Bdour Robert W. Sobol John-Stephen Taylor Akira Yasui Samuel H. Wilson 《DNA Repair》2010,9(2):109-119
We examined a role for DNA polymerase β (Pol β) in mammalian long patch base excision repair (LP BER). Although a role for Pol β is well known in single-nucleotide BER, information on this enzyme in the context of LP BER has been limited. To examine the question of Pol β involvement in LP BER, we made use of nucleotide excision repair-deficient human XPA cells expressing UVDE (XPA-UVDE), which introduces a nick directly 5′ to the cyclobutane pyrimidine dimer or 6-4 photoproduct, leaving ends with 3′-OH and 5′-phosphorylated UV lesion. We observed recruitment of GFP-fused Pol β to focal sites of nuclear UV irradiation, consistent with a role of Pol β in repair of UV-induced photoproducts adjacent to a strand break. This was the first evidence of Pol β recruitment in LP BER in vivo. In cell extract, a 5′-blocked oligodeoxynucleotide substrate containing a nicked 5′-cyclobutane pyrimidine dimer was repaired by Pol β-dependent LP BER. We also demonstrated Pol β involvement in LP BER by making use of mouse cells that are double null for XPA and Pol β. These results were extended by experiments with oligodeoxynucleotide substrates and purified human Pol β. 相似文献
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65.
Takezawa T Takeuchi T Nitani A Takayama Y Kino-Oka M Taya M Enosawa S 《Journal of biotechnology》2007,131(1):76-83
We previously succeeded in converting a soft and turbid disk of type-I collagen gel into a strong and transparent vitrigel membrane utilizing a concept for the vitrification of heat-denatured proteins and have demonstrated its protein-permeability and advantage as a scaffold for reconstructing crosstalk models between two different cell types. In this study, we observed the nano-structure of the type-I collagen vitrigel membrane and verified its utility for paracrine assays in vitro and drug delivery systems in vivo. Scanning electron microscopic observation revealed that the vitrigel membrane was a dense network architecture of typical type-I collagen fibrils. In the crosstalk model between PC-12 pheochromocytoma cells and L929 fibroblasts, nerve growth factor (NGF) secreted from L929 cells passed through the collagen vitrigel membrane and induced the neurite outgrowth of PC-12 cells by its paracrine effect. Also, the collagen vitrigel membrane containing vascular endothelial growth factor (VEGF) showed sustained-release of VEGF in vitro and its subcutaneous transplantation into a rat resulted in remarkable angiogenesis. These data suggest that the collagen vitrigel membrane is useful for paracrine assays in vitro and drug delivery systems in vivo. 相似文献
66.
FSAP (Factor VII-activating protease) can cleave and inactivate PDGF-BB (platelet-derived growth factor-BB) and thereby inhibits VSMC (vascular smooth-muscle cell) proliferation. The auto-activation of FSAP is facilitated by negatively charged polyanions such as heparin, dextransulfate or extracellular ribonucleic acids. Since auto-activation is essential for the anti-proliferative function of FSAP, the influence of nucleic acids as cofactors for the FSAP-mediated inhibition of PDGF-BB was investigated. Natural or artificial RNA was an effective cofactor for FSAP mediated PDGF-BB degradation, whereas the effect of DNA was weak. RNA-induced cleavage of PDGF-BB was inhibited by serine protease inhibitors. The pattern of PDGF-BB cleavage was identical with either heparin or RNA as a cofactor. One of the cleavage sites in PDGF-BB was at the positions 160-162 (R160KK162), which is an important region for receptor binding and activation. In VSMCs, PDGF-BB-stimulated DNA synthesis was inhibited by FSAP in the presence of RNA. RNA was more effective than DNA and the cofactor activity of RNA was neutralized after pretreatment with RNase. FSAP binding to RNA protected the nucleic acid from degradation by RNase. These data are relevant to situations where extracellular nucleic acids released from necrotic or apoptotic cells could activate local FSAP, leading to inhibition of PDGF-BB. 相似文献
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68.
Takahashi S Hasumi K Ohnishi A Koshino H Matsumoto S 《Bioorganic & medicinal chemistry》2007,15(1):97-103
69.
Masuya H Sezutsu H Sakuraba Y Sagai T Hosoya M Kaneda H Miura I Kobayashi K Sumiyama K Shimizu A Nagano J Yokoyama H Kaneko S Sakurai N Okagaki Y Noda T Wakana S Gondo Y Shiroishi T 《Genomics》2007,89(2):207-214
Mammal-fish-conserved-sequence 1 (MFCS1) is a highly conserved sequence that acts as a limb-specific cis-acting regulator of Sonic hedgehog (Shh) expression, residing 1 Mb away from the Shh coding sequence in mouse. Using gene-driven screening of an ENU-mutagenized mouse archive, we obtained mice with three new point mutations in MFCS1: M101116, M101117, and M101192. Phenotype analysis revealed that M101116 mice exhibit preaxial polydactyly and ectopic Shh expression at the anterior margin of the limb buds like a previously identified mutant, M100081. In contrast, M101117 and M101192 show no marked abnormalities in limb morphology. Furthermore, transgenic analysis revealed that the M101116 and M100081 sequences drive ectopic reporter gene expression at the anterior margin of the limb bud, in addition to the normal posterior expression. Such ectopic expression was not observed in the embryos carrying a reporter transgene driven by M101117. These results suggest that M101116 and M100081 affect the negative regulatory activity of MFCS1, which suppresses anterior Shh expression in developing limb buds. Thus, this study shows that gene-driven screening for ENU-induced mutations is an effective approach for exploring the function of conserved, noncoding sequences and potential cis-regulatory elements. 相似文献
70.
Shimonaga T Fujiwara S Kaneko M Izumo A Nihei S Francisco PB Satoh A Fujita N Nakamura Y Tsuzuki M 《Marine biotechnology (New York, N.Y.)》2007,9(2):192-202
Red algae are widely known to produce floridean starch but it remains unclear whether the molecular structure of this algal polyglucan is distinct from that of the starch synthesized by vascular plants and green algae. The present study shows that the unicellular species Porphyridium purpureum R-1 (order Porphyridiales, class Bangiophyceae) produces both amylopectin-type and amylose-type alpha-polyglucans. In contrast, Cyanidium caldarium (order Porphyridiales, class Bangiophyceae) synthesizes glycogen-type polyglucan, but not amylose. Detailed analysis of alpha-1,4-chain length distribution of P. purpureum polyglucan suggests that the branched polyglucan has a less ordered structure, referred to as semi-amylopectin, as compared with amylopectin of rice endosperm having a tandem-cluster structure. The P. purpureum linear amylose-type polyglucan, which has a lambda(max) of 630 nm typical of amylose-iodine complex and is resistant to Pseudomonas isoamylase digestion, accounts for less than 10% of the total polyglucans. We produced and isolated a cDNA encoding a granule-bound starch synthase (GBSS)-type protein of P. purpureum, which is probably the approximately 60-kDa protein bound tightly to the starch granules, resembling the amylose-synthesizing GBSS protein of green plants. The present investigation indicates that the class Bangiophyceae includes species producing both semi-amylopectin and amylose, and species producing glycogen alone. 相似文献