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31.
We studied the interaction between synthetic atrial natriuretic peptide (ANP) and various vasoactive substances, which included isoproterenol (ISO), aminophylline (AMI), and dibutyryl cyclic AMP (dBcAMP) as vasodilators, and angiotensin II (AII) and norepinephrine (NE) as vasoconstrictors, and prazosin as an alpha-blocker in isolated perfused rat kidneys (IPK). When 10(-9) mol of ANP was administered in 75 ml of a perfusate, the renal vascular resistance (RVR) was transiently decreased for 5 min, and increased thereafter. Simultaneously, ANP increased the glomerular filtration rate (GFR), urine flow (UV), absolute Na excretion (UNaV) and absolute K excretion (UKV). All of the above mentioned effects of ANP were significantly inhibited by administering ISO, AMI or dBcAMP. On the other hand, the administration of AII and NE significantly enhanced the increases in UV and UNaV and the fractional excretion of Na induced by ANP, although AII and NE had no influence on the changes in RVR and GFR induced by ANP. Prazosin did not modify the renal effects of ANP. These results suggest that the natriuretic effect of ANP is inhibited by agents that increase cyclic AMP in vascular smooth muscle cells. It is also suggested that the natriuretic effects of ANP can be explained by an increase in GFR and changes in intrarenal hemodynamics, rather than by the direct effect of ANP on renal tubules. 相似文献
32.
Mitochondria are frequently observed in the vicinity of chloroplasts in photosynthesizing cells, and this association is considered necessary for their metabolic interactions. We previously reported that, in leaf palisade cells of Arabidopsis thaliana, mitochondria exhibit blue‐light‐dependent redistribution together with chloroplasts, which conduct accumulation and avoidance responses under the control of blue‐light receptor phototropins. In this study, precise motility analyses by fluorescent microscopy revealed that the individual mitochondria in palisade cells, labeled with green fluorescent protein, exhibit typical stop‐and‐go movement. When exposed to blue light, the velocity of moving mitochondria increased in 30 min, whereas after 4 h, the frequency of stoppage of mitochondrial movement markedly increased. Using different mutant plants, we concluded that the presence of both phototropin1 and phototropin2 is necessary for the early acceleration of mitochondrial movement. On the contrary, the late enhancement of stoppage of mitochondrial movement occurs only in the presence of phototropin2 and only when intact photosynthesis takes place. A plasma‐membrane ghost assay suggested that the stopped mitochondria are firmly adhered to chloroplasts. These results indicate that the physical interaction between mitochondria and chloroplasts is cooperatively mediated by phototropin2‐ and photosynthesis‐dependent signals. The present study might add novel regulatory mechanism for light‐dependent plant organelle interactions. 相似文献
33.
Go Suzuki Wataru Okada Yoko Yasutake Hidekazu Yamamoto Iwao Tanita Hiroshi Yamashita Takeshi Hayashibara Toshiaki Komatsu Toru Kanyama Masahito Inoue Masashi Yamazaki 《Restoration Ecology》2020,28(5):1172-1182
Larval recruitment is essential for sustaining coral communities and a fundamental tool in some interventions for reef restoration. To improve larval supply and post‐settlement survival in sexually assisted coral restoration efforts, an integrated in situ collector system, the larval cradle, was designed to collect spawned gametes then culture the resulting larvae until settled on artificial substrates. The final design of the larval cradle was cylindrical, a nylon mesh structure with a volume of 9 m3, suspended in the sea and extending vertically toward the seabed. We found three key design features that improved the efficiency of the apparatus: (1) an open area of sea surface and mesh size of less than 100 μm produced high fertilization and optimal survival (>90%), (2) a special skirt‐shaped net (3 m in diameter) with a connection hose for attaching the cradle to collect bundles from many adult colonies over a wide area and at various depths, and (3) adding short square tube pieces, called square hollow sections, as a substrate for enhancing larval settlement and survival, to a larval cradle at 4 days after spawning was optimal for uniform settlement. This system allowed not only the collection of several million eggs, but also subsequent production of several thousand settled juvenile corals, without land facilities. Our design achieved several hundred times higher survival for early life stages of Acropora tenuis compared to nature. 相似文献
34.
Shotaro Hirase Ayumi Tezuka Atsushi J. Nagano Mana Sato Sho Hosoya Kiyoshi Kikuchi Wataru Iwasaki 《Evolution; international journal of organic evolution》2021,75(1):176-194
Hybridization between divergent lineages generates new allelic combinations. One mechanism that can hinder the formation of hybrid populations is mitonuclear incompatibility, that is, dysfunctional interactions between proteins encoded in the nuclear and mitochondrial genomes (mitogenomes) of diverged lineages. Theoretically, selective pressure due to mitonuclear incompatibility can affect genotypes in a hybrid population in which nuclear genomes and mitogenomes from divergent lineages admix. To directly and thoroughly observe this key process, we de novo sequenced the 747‐Mb genome of the coastal goby, Chaenogobius annularis, and investigated its integrative genomic phylogeographics using RNA‐sequencing, RAD‐sequencing, genome resequencing, whole mitogenome sequencing, amplicon sequencing, and small RNA‐sequencing. Chaenogobius annularis populations have been geographically separated into Pacific Ocean (PO) and Sea of Japan (SJ) lineages by past isolation events around the Japanese archipelago. Despite the divergence history and potential mitonuclear incompatibility between these lineages, the mitogenomes of the PO and SJ lineages have coexisted for generations in a hybrid population on the Sanriku Coast. Our analyses revealed accumulation of nonsynonymous substitutions in the PO‐lineage mitogenomes, including two convergent substitutions, as well as signals of mitochondrial lineage‐specific selection on mitochondria‐related nuclear genes. Finally, our data implied that a microRNA gene was involved in resolving mitonuclear incompatibility. Our integrative genomic phylogeographic approach revealed that mitonuclear incompatibility can affect genome evolution in a natural hybrid population. 相似文献
35.
36.
Lizard beetles (Erotylidae, Languriinae, Languriini) are known as stem borers of plants and contain agricultural pests and endangered species, but their species–host plant associations have been poorly documented. Here we investigated the larval host plants of two species of the genus Tetraphala Strum, T. collaris (Crotch) and Tetraphala sp. occurring in Taiwan. Females of T. collaris excavated living leafstalks and stems of the herbaceous dicot, Sambucus chinensis (Adoxaceae) using their mandibles for oviposition. We observed the eggs and early-instar larvae inside and nearby oviposition holes and late-instar larvae inside stems, suggesting that T. collaris uses living leafstalks and stems of S. chinensis as oviposition substrate and the larvae tunnel into stems with feeding on the tissues. Similarly, females of Tetraphala sp. excavated living leafstalks of the fern, Pteris wallichiana (Pteridaceae) using their mandibles for oviposition. We observed the eggs and early-instar larvae inside and nearby oviposition holes. When reared in laboratory, a larva reached adulthood inside the leafstalk. These results indicated that Tetraphala sp. uses living leafstalks of Pt. wallichiana as oviposition substrate and the larvae complete their development within. This study revealed that the genus Tetraphala contains both fern- and dicot-users during larval period. Further study is needed to clarify the evolutionary process of host plant use of languriines. Additionally, the host plant list of Languriini is provided. 相似文献
37.
Hatakeyama Wataru Lee Cliff Da Silva John Kim David M. Nagai Shigemi Kondo Hisatomo Nagai Masazumi 《International journal of peptide research and therapeutics》2021,27(2):957-965
International Journal of Peptide Research and Therapeutics - A DNA hybridization-based differential peptide display (DPD) was developed for the screening of phage peptide library to find osteogenic... 相似文献
38.
Satomi Funahashi Takahiro Nishiyama Hidekazu Ohyoshi Hiroyuki Yasui Kazuki Nishida 《Free radical research》2013,47(9):1030-1039
AbstractExposure to asbestos fiber is central to mesothelial carcinogenesis, for which iron overload in or near mesothelial cells is a key pathogenic mechanism. Alternatively, iron chelation therapy with deferasirox or regular phlebotomy was significantly preventive against crocidolite-induced mesothelial carcinogenesis in rats. However, the role of iron transporters during asbestos-induced carcinogenesis remains elusive. Here, we studied the role of divalent metal transporter 1 (DMT1; Slc11a2), which is a Fe(II) transporter, that is present not only on the apical plasma membrane of duodenal cells but also on the lysosomal membrane of every cell, in crocidolite-induced mesothelial carcinogenesis using DMT1 transgenic (DMT1Tg) mice. DMT1Tg mice show mucosal block of iron absorption without cancer susceptibility under normal diet. We unexpectedly found that superoxide production was significantly decreased upon stimulation with crocidolite both in neutrophils and macrophages of DMT1Tg mice, and the macrophage surface revealed higher iron content 1?h after contact with crocidolite. Intraperitoneal injection of 3?mg crocidolite ultimately induced malignant mesothelioma in ~50% of both wild-type and DMT1Tg mice (23/47 and 14/28, respectively); this effect was marginally (p?=?0.069) delayed in DMT1Tg mice, promoting survival. The promotional effect of nitrilotriacetic acid was limited, and the liver showed significantly higher iron content both in DMT1Tg mice and after crocidolite exposure. The results indicate that global DMT1 overexpression causes decreased superoxide generation upon stimulation in inflammatory cells, which presumably delayed the promotional stage of crocidolite-induced mesothelial carcinogenesis. DMT1Tg mice with low-stamina inflammatory cells may be helpful to evaluate the involvement of inflammation in various pathologies. 相似文献
39.
Soluble oligomeric amyloid-β (Aβ) has been suggested to impair synaptic and neuronal function, leading to neurodegeneration that is clinically observed as the memory and cognitive dysfunction characteristic of Alzheimer disease, while the precise mechanism(s) whereby oligomeric Aβ causes neurotoxicity remains unknown. Recently, the cellular prion protein (PrPC) was reported to be an essential co-factor in mediating the neurotoxic effect of oligomeric Aβ. Our recent study showed that Prnp−/− mice are resistant to the neurotoxic effect of oligomeric Aβ in vivo and in vitro. Furthermore, application of an anti-PrPC antibody or PrPC peptide was able to block oligomeric Aβ-induced neurotoxicity. These findings demonstrate that PrPC may be involved in neuropathologic conditions other than conventional prion diseases, i.e., Creutzfeldt-Jakob disease. 相似文献
40.
Alternative excision repair (AER) is a category of excision repair initiated by a single nick, made by an endonuclease, near the site of DNA damage, and followed by excision of the damaged DNA, repair synthesis, and ligation. The ultraviolet (UV) damage endonuclease in fungi and bacteria introduces a nick immediately 5′ to various types of UV damage and initiates its excision repair that is independent of nucleotide excision repair (NER). Endo IV-type apurinic/apyrimidinic (AP) endonucleases from Escherichia coli and yeast and human Exo III-type AP endonuclease APEX1 introduce a nick directly and immediately 5′ to various types of oxidative base damage besides the AP site, initiating excision repair. Another endonuclease, endonuclease V from bacteria to humans, binds deaminated bases and cleaves the phosphodiester bond located 1 nucleotide 3′ of the base, leading to excision repair. A single-strand break in DNA is one of the most frequent types of DNA damage within cells and is repaired efficiently. AER makes use of such repair capability of single-strand breaks, removes DNA damage, and has an important role in complementing BER and NER.NER and base excision repair (BER) are the major excision repair pathways present in almost all organisms. In NER, dual incisions are introduced, the damaged DNA between the incised sites is then removed, and DNA synthesis fills the single-stranded gap, followed by ligation. In BER, an AP site, formed by depurination or created by a base damage-specific DNA glycosylase, is recognized by an AP endonuclease that introduces a nick immediately 5′ to the AP site, followed by repair synthesis, removal of the AP site, and final ligation. Besides these two fundamental excision repair systems, investigators have found another category of excision repair—AER—an example of which is the excision repair of UV damage, initiated by an endonuclease called UV damage endonuclease (UVDE). UVDE introduces a single nick immediately 5′ to various types of UV lesions as well as other types of base damage, and this nick leads to the removal of the lesions by an AER process designated as UVDE-mediated excision repair (UVER or UVDR). Genetic analysis in Schizosaccharomyces pombe indicates that UVER provides cells with an extremely rapid removal of UV lesions, which is important for cells exposed to UV in their growing phase.Endo IV–type AP endonucleases from Escherichia coli and budding yeast and the Exo III–type human AP endonuclease APEX1 are able to introduce a nick at various types of oxidative base damage and initiate a form of excision repair that has been designated as nucleotide incision repair (NIR). Endonuclease V (ENDOV) from bacteria to humans recognizes deaminated bases, introduces a nick 1 nucleotide 3′ of the base, and leads to excision repair initiated by the nick. These endonucleases introduce a single nick near the DNA-damage site, leaving 3′-OH termini, and initiate repair of both the DNA damage and the nick. The mechanisms of AER may be similar to those of single-strand break (SSB) repair or BER except for the initial nicking process. However, how DNA damage is recognized determines the repair process within the cell. This article discusses the mechanisms and functional roles of AER. We begin with AER of UV damage, because genetic analysis has shown functional differences between this AER and NER in S. pombe. 相似文献