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941.
942.
Makoto Urata Jun Tsuchimoto Kinya Yasui Masaaki Yamaguchi 《Development genes and evolution》2009,219(7):377-382
Deuterostomes comprise a monophyletic group of animals that include chordates, xenoturbellids, and the Ambulacraria, which
consists of echinoderms and hemichordates. The ancestral chordate probably had 14 Hox genes aligned linearly along the chromosome, with the posterior six genes showing an independent duplication compared to
protostomes. In contrast, ambulacrarians are characterized by a duplication of the posterior Hox genes, resulting in three genes known as Hox11/13a, Hox11/13b, and Hox11/13c. Here, we isolated 12 Hox genes from the hemichordate Balanoglossus misakiensis and found an extra Hox gene that has not been reported in hemichordates. The extra B. misakiensis gene was suggested to be Hox8 from paralog-characteristic residues in its hexapepetide motif and homeodomain and a comparison with Strongylocentrotus purpuratus Hox genes. Our data suggest that the ancestor of echinoderms and hemichordates may have had a full complement of 12 Hox genes. 相似文献
943.
Takashi Sazuka Noriko Kamiya Takeshi Nishimura Kozue Ohmae Yutaka Sato Kohei Imamura Yasuo Nagato Tomokazu Koshiba Yoshiaki Nagamura Motoyuki Ashikari Hidemi Kitano Makoto Matsuoka 《The Plant journal : for cell and molecular biology》2009,60(2):227-241
Indole-3-acetic acid (IAA) plays a critical role in many aspects of plant growth and development; however, complete pathways of biosynthesis, localization and many aspects of functions of IAA in rice remain unclear. Here, we report the analysis of a rice tryptophan- (Trp-) and IAA-deficient mutant, tryptophan deficient dwarf1 ( tdd1 ) , which is embryonic lethal because of a failure to develop most organs during embryogenesis. Regenerated tdd1 plants showed pleiotropic phenotypes: dwarfing, narrow leaves, short roots and abnormal flowers. TDD1 encodes a protein homologous to anthranilate synthase β-subunit, which catalyses the first step of the Trp biosynthesis pathway and functions upstream of Trp-dependent IAA biosynthesis. TDD1-uidA and DR5-uidA expression overlapped at many sites in WT plants but was lacking in tdd1 , indicating that TDD1 is involved in auxin biosynthesis. Both Trp and IAA levels in flowers and embryos were much lower in tdd1 than in wild type (WT). Trp feeding completely rescued the mutant phenotypes and moderate expression of OsYUCCA1 , which encodes a key enzyme in Trp-dependent IAA biosynthesis, also rescued plant height and root length, indicating that the abnormal phenotypes of tdd1 are caused predominantly by Trp and IAA deficiency. In tdd1 embryos, the expression patterns of OSH1 and OsSCR , which mark the presumptive apical region and the L2 layer, respectively, are identical to those in WT, suggesting a possibility either that different IAA levels are required for basic pattern formation than for organ formation or that an orthologous gene compensates for TDD1 deficiency during pattern formation. 相似文献
944.
Sato Y Morita R Katsuma S Nishimura M Tanaka A Kusaba M 《The Plant journal : for cell and molecular biology》2009,57(1):120-131
Yellowing, which is related to the degradation of chlorophyll and chlorophyll–protein complexes, is a notable phenomenon during leaf senescence. NON-YELLOW COLORING1 ( NYC1 ) in rice encodes a membrane-localized short-chain dehydrogenase/reductase (SDR) that is thought to represent a chlorophyll b reductase necessary for catalyzing the first step of chlorophyll b degradation. Analysis of the nyc1 mutant, which shows the stay-green phenotype, revealed that chlorophyll b degradation is required for the degradation of light-harvesting complex II and thylakoid grana in leaf senescence. Phylogenetic analysis further revealed the existence of NYC1-LIKE (NOL) as the most closely related protein to NYC1. In the present paper, the nol mutant in rice was also found to show a stay-green phenotype very similar to that of the nyc1 mutant, i.e. the degradation of chlorophyll b was severely inhibited and light-harvesting complex II was selectively retained during senescence, resulting in the retention of thylakoid grana even at a late stage of senescence. The nyc1 nol double mutant did not show prominent enhancement of inhibition of chlorophyll degradation. NOL was localized on the stromal side of the thylakoid membrane despite the lack of a transmembrane domain. Immunoprecipitation analysis revealed that NOL and NYC1 interact physically in vitro . These observations suggest that NOL and NYC1 are co-localized in the thylakoid membrane and act in the form of a complex as a chlorophyll b reductase in rice. 相似文献
945.
946.
Tomoharu Iino Yasuhiro Sasaki Makoto Bamba Morihiro Mitsuya Akio Ohno Kenji Kamata Hideka Hosaka Hiroko Maruki Mayumi Futamura Riki Yoshimoto Sumika Ohyama Kaori Sasaki Masato Chiba Norikazu Ohtake Yasufumi Nagata Jun-ichi Eiki Teruyuki Nishimura 《Bioorganic & medicinal chemistry letters》2009,19(19):5531-5538
We describe design, syntheses and structure–activity relationships of a novel class of 4,6-disubstituted quinazoline glucokinase activators. Prototype quinazoline leads (4 and 5) were designed based on the X-ray analyses of the previous 2-aminobenzamide lead classes. Modifications of the quinazoline leads led to the identification of a potent GK activator (21d). 相似文献
947.
Ekkehart Lausch Romy Keppler Valerie Cormier-Daire Gen Nishimura Jürgen Spranger Bernhard Zabel 《American journal of human genetics》2009,85(2):168-535
The matrix metalloproteinases MMP9 and MMP13 catalyze the degradation of extracellular matrix (ECM) components in the growth plate and at the same time cleave and release biologically active molecules stored in the ECM, such as VEGFA. In mice, ablation of Mmp9, Mmp13, or both Mmp9 and Mmp13 causes severe distortion of the metaphyseal growth plate. We report that mutations in either MMP9 or MMP13 are responsible for the human disease metaphyseal anadysplasia (MAD), a heterogeneous group of disorders for which a milder recessive variant and a more severe dominant variant are known. We found that recessive MAD is caused by homozygous loss of function of either MMP9 or MMP13, whereas dominant MAD is associated with missense mutations in the prodomain of MMP13 that determine autoactivation of MMP13 and intracellular degradation of both MMP13 and MMP9, resulting in a double enzymatic deficiency. 相似文献
948.
Tomoko Yoshino Taisei Nishimura Tetsushi Mori Shigeya Suzuki Hideki Kambara Haruko Takeyama Tadashi Matsunaga 《Biotechnology and bioengineering》2009,103(1):130-137
There is a high demand for inexpensive and high‐throughput DNA sequencing technologies in molecular biology and applied biosciences. In this study, novel nano‐sized magnetic particles displaying enzymes for pyrosequencing, a rather novel bioluminometric DNA sequencing method based on the sequencing‐by‐synthesis principle by employing a cascade of several enzymatic reactions, was developed. A highly thermostable enzyme, pyruvate phosphate dikinase (PPDK) which converts PPi to ATP was successfully expressed onto bacterial magnetic particles (BacMPs) using a novel protein display system of Magnetospirillum magneticum AMB‐1. The enzymatic stability of BacMPs displaying PPDK (PPDK‐BacMPs) to pH and temperature was evaluated and its broad range of properties was shown. Subsequently, PPDK‐BacMPs were applied in pyrosequencing and a target oligonucleotide was successfully sequenced. The PPDK enzyme displayed on BacMPs was shown to be recyclable in each sequence reaction as they can be manipulated by magnetic force. It was concluded that nano‐sized PPDK‐BacMPs are useful for the scale down of pyrosequencing reaction volumes, thus, permitting high‐throughput. The recycling of enzymes was also shown to be promising and applicable for the development of an inexpensive DNA sequencing at a low running cost. Biotechnol. Bioeng. 2009;103: 130–137. © 2008 Wiley Periodicals, Inc. 相似文献
949.
Tomoaki Kato Shigeru Tanabe Marie Nishimura Yuko Ohtake Yoko Nishizawa Takafumi Shimizu Yusuke Jikumaru Jinichiro Koga Kazunori Okada Hisakazu Yamane Eiichi Minami 《Plant molecular biology》2009,70(6):617-625
We analyzed the response of rice to Magnaporthe oryzae infection using two mutant strains deficient in Mgb1 and Mst12, which are essential for the development of appresoria and
penetration pegs. Both mutants induced the much lower levels of accumulation of phytoalexins than wild-type, suggesting that
the massive production of phytoalexins requires the fungal invasion of rice cells. Intense accumulation of H2O2 in a single whole cell also required fungal penetration. Microarray analysis of rice gene expression revealed mutant-specific
gene expression, indicating that signal exchange between rice and M. oryzae commence before fungal penetration of the rice cell. In situ detection of mRNAs for peroxidase and β-1,3-glucanase showed that expression of these genes also occurs after penetration as observed for phytoalexin production.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
Tomoaki Kato, Shigeru Tanabe, and Marie Nishimura contributed equally to this work.
Accession number of the original microarray data in NCBI is GSE9450. 相似文献
950.
The geomagnetic field is typically about 50 μT (range 20-90 μT). Geomagnetic activity generally decreases by about 4% for the seven days leading up to a full moon, and increases by about 4% after the full moon, lasting for seven days. Animals can clearly detect the changes in magnetic field intensity that occur at full moon, as it has been shown that variations of just a few tens of nT are adequate to form a useful magnetic ‘map’. We think that moonlight increases the sensitivity of animals' magnetoreception because the radical pair model predicts that magnetoreception is light dependent. In fact, there have been some reports of changes in the sensitivity of magnetoreception with lunar phase. We propose a hypothesis that animals respond to the full moon because of changes in geomagnetic fields, and that the sensitivity of animals' magnetoreception increases at this time. 相似文献