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51.
Tetsuya Sasaki Tomofumi Oga Keiko Nakagaki Kazuhisa Sakai Kayo Sumida Kohei Hoshino Izuru Miyawaki Koichi Saito Fumikazu Suto Noritaka Ichinohe 《Biochemical and biophysical research communications》2014
This is the second report of a series paper, which reports molecular mechanisms underlying the occurrence of pruning spine phase after rapid spinogenesis phase in neonates and young infant in the primate brain. We performed microarray analysis between the peak of spine numbers [postnatal 3 months (M)] and spine pruning (postnatal 6 M) in prefrontal, inferior temporal, and primary visual cortices of the common marmoset (Callithrix jacchus). The pruning phase is not clearly defined in rodents but is in primates including the marmoset. The differentially expressed genes between 3 M and 6 M in all three cortical areas were selected by two-way analysis of variance. The list of selected genes was analyzed by canonical pathway analysis using “Ingenuity Pathway Analysis of complex omics data” (IPA; Ingenuity Systems, Qiagen, Hilden, Germany). In this report, we discuss these lists of genes for the glutamate receptor system, G-protein-coupled neuromodulator system, protector of normal tissue and mitochondria, and reelin. (1) Glutamate is a common neurotransmitter. Its receptors AMPA1, GRIK1, and their scaffold protein DLG4 decreased as spine numbers decreased. Instead, GRIN3 (NMDA receptor) increased, suggesting that strong NMDA excitatory currents may be required for a single neuron to receive sufficient net synaptic activity in order to compensate for the decrease in synapse. (2) Most of the G protein-coupled receptor genes (e.g., ADRA1D, HTR2A, HTR4, and DRD1) in the selected list were upregulated at 6 M. The downstream gene ROCK2 in these receptor systems plays a role of decreasing synapses, and ROCK2 decreased at 6 M. (3) Synaptic phagosytosis by microglia with complement and other cytokines could cause damage to normal tissue and mitochondria. SOD1, XIAP, CD46, and CD55, which play protective roles in normal tissue and mitochondria, showed higher expression at 6 M than at 3 M, suggesting that normal brain tissue is more protected at 6 M. (4) Reelin has an important role in cortical layer formation. In addition, RELN and three different pathways of reelin were expressed at 6 M, suggesting that new synapse formation decreased at that age. Moreover, if new synapses were formed, their positions were free and probably dependent on activity. 相似文献
52.
Tetsuya Sasaki Tomofumi Oga Keiko Nakagaki Kazuhisa Sakai Kayo Sumida Kohei Hoshino Izuru Miyawaki Koichi Saito Fumikazu Suto Noritaka Ichinohe 《Biochemical and biophysical research communications》2014
The synapse number and the related dendritic spine number in the cerebral cortex of primates shows a rapid increase after birth. Depending on the brain region and species, the number of synapses reaches a peak before adulthood, and pruning takes place after this peak (overshoot-type synaptic formation). Human mental disorders, such as autism and schizophrenia, are hypothesized to be a result of either too weak or excessive pruning after the peak is reached. Thus, it is important to study the molecular mechanisms underlying overshoot-type synaptic formation, particularly the pruning phase. 相似文献
53.
Polyembryonic parasitoids producing single-sex broods of clonal offspring provide an unusually clear window into the classic tradeoff between the number and size of offspring. We conducted a laboratory study of the encyrtid parasitoid Copidosoma bakeri parasitizing the noctuid Agrotis ipsilon to examine the way that size and number of offspring tradeoff in broods of each sex and to determine how the fit between host and parasitoid brood is achieved. We found that brood mass (wasp body mass ×brood size) was proportional to host mass, independent of brood sex, indicating a tight fit between brood and host and ensuring a size–number tradeoff. By correcting brood size and body mass of each brood for host mass, we demonstrated the expected inverse relationship between wasp variables. We postulated that the wasp brood might achieve the fit to the host by (1) adjusting brood size based on information available early in host development before and during division of the embryo, (2) manipulating host size late in host development after completion of embryo division, or (3) simply adjusting individual wasp mass to fill the host. We evaluated host responses to parasitism – and correlations between brood size and host growth early and late in development – for broods of each sex. The data are consistent with adjustment of brood size to the amount of host growth early in host development and with manipulation of host mass late in host development. The tight link between host mass and brood mass also suggests a final adjustment by parasitoid growth to achieve complete filling. Within the tight fit, female broods were smaller but contained larger individuals than male broods. The sex-specific balance point of the tradeoff and sex differences in balancing mechanisms and responses to host size suggest different selection pressures on each sex requiring future investigation. 相似文献
54.
Serlin Bruce S.; Lew Roger R.; Krasnoshtein Flora; Krol Justyna; Sumida Kevin D. 《Plant & cell physiology》1996,37(2):175-179
Red light mediates chloroplast movement and increased activityof calcium-activated potassium channels on the plasma membraneof the alga Mougeotia sp. (UTEX LB 734). When activation ismediated by phytochrome, a far-red light irradiation given sometime after the red light irradiation will reverse the effectof the red light, due to phytochrome photoreversibility. Wecharacterized the escape times (time required for loss of photoreversibility)for these two processes to compare the transduction pathwaysinvolved in chloroplast rotation and channel activation. Theescape time for chloroplast rotation was 2.5 min after red lightirradiation (red and far-red light irradiations were 30 s).For channel activation, shorter red and far-red light irradiations(10 s) had to be used to obtain an escape time of 20 s. Thedifference in the escape times suggests that there is relativelyrapid divergence in the transduction pathways leading from phytochromeactivation (only one molecular species of phytochrome is foundin Mougeotia) to each of the two responses in the same cellularsystem. Because channel activation occurs 24 min afterirradiation while the escape time is 20 s, it is unlikely thatphytochrome acts directly on the channel. (Received September 26, 1995; Accepted December 28, 1995) 相似文献
56.
Sumida M Kotaki M Islam MM Djong TH Igawa T Kondo Y Matsui M Anslem de S Khonsue W Nishioka M 《Zoological science》2007,24(6):547-562
The rice frog (Fejervarya limnocharis) species complex is widely distributed, from India to Japan, and most prevalently in Southeast Asia. Conspicuous morphological variation has been reported for this species complex throughout its distribution range. In the present study, we used mtDNA gene sequence and allozyme analyses to infer evolutionary affinities within this species complex using eight populations (Sri Lanka; Bangkok and Ranong in Thailand; Taiwan; and Hiroshima, Okinawa, Ishigaki and Iriomote in Japan). We also conducted crossing experiments among four populations from Japan, Thailand, and Sri Lanka in order to find out more about the reproductive isolating mechanisms that might exist among the East, Southeast, and South Asian populations of this species complex. The crossing experiments revealed that the Sri Lanka population is reproductively isolated from the Hiroshima, Bangkok, and Ranong populations by complete hybrid inviability, and that the Bangkok population may be reproductively isolated from the Hiroshima population by partial hybrid inviability. Thus, it is not unreasonable to regard the Sri Lanka population as a species separated from F. limnocharis. The mtDNA and allozyme data showed that the Ranong population is most closely related to the Bangkok population in nuclear genome, but more similar to the Okinawa and Taiwan populations in mtDNA genome. The present, preliminary survey may raise questions about the species status of these particular populations and also about the nature of the biological species concept. 相似文献
57.
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59.
Sugiki T Uyama T Toyoda M Morioka H Kume S Miyado K Matsumoto K Saito H Tsumaki N Takahashi Y Toyama Y Umezawa A 《Journal of cellular biochemistry》2007,100(5):1240-1254
What is it that defines a bone marrow‐derived chondrocyte? We attempted to identify marrow‐derived cells with chondrogenic nature and immortality without transformation, defining “immortality” simply as indefinite cell division. KUM5 mesenchymal cells, a marrow stromal cell line, generated hyaline cartilage in vivo and exhibited enchondral ossification at a later stage after implantation. Selection of KUM5 chondroblasts based on the activity of the chondrocyte‐specific cis‐regulatory element of the collagen α2(XI) gene resulted in enhancement of their chondrogenic nature. Gene chip analysis revealed that OP9 cells, another marrow stromal cell line, derived from macrophage colony‐stimulating factor‐deficient osteopetrotic mice and also known to be niche‐constituting cells for hematopoietic stem cells expressed chondrocyte‐specific or ‐associated genes such as type II collagen α1, Sox9, and cartilage oligomeric matrix protein at an extremely high level, as did KUM5 cells. After cultured OP9 micromasses exposed to TGF‐β3 and BMP2 were implanted in mice, they produced abundant metachromatic matrix with the toluidine blue stain and formed type II collagen‐positive hyaline cartilage within 2 weeks in vivo. Hierarchical clustering and principal component analysis based on microarray data of the expression of cell surface markers and cell‐type‐specific genes resulted in grouping of KUM5 and OP9 cells into the same subcategory of “chondroblast,” that is, a distinct cell type group. We here show that these two cell lines exhibit the unique characteristics of hyaline cartilage formation and enchondral ossification in vitro and in vivo. J. Cell. Biochem. 100: 1240–1254, 2007. © 2006 Wiley‐Liss, Inc. 相似文献
60.
Mutations in the helix termination motif of mouse type I IRS keratin genes impair the assembly of keratin intermediate filament 总被引:1,自引:0,他引:1
Tanaka S Miura I Yoshiki A Kato Y Yokoyama H Shinogi A Masuya H Wakana S Tamura M Shiroishi T 《Genomics》2007,90(6):703-711
Two classical mouse hair coat mutations, Rex (Re) and Rex wavy coat (Re(wc)), are linked to the type I inner root sheath (IRS) keratin genes of chromosome 11. An N-ethyl-N-nitrosourea-induced mutation, M100573, also maps close to the type I IRS keratin genes. In this study, we demonstrate that Re and M100573 mice bear mutations in the type I IRS gene Krt25; Re(wc) mice bear an additional mutation in the type I IRS gene Krt27. These three mutations are located in the helix termination motif of the 2B alpha-helical rod domain of a type I IRS keratin protein. Immunohistological analysis revealed abnormal foam-like immunoreactivity with an antibody raised to type II IRS keratin K71 in the IRS of Re/+ mice. These results suggest that the helix termination motif is essential for the proper assembly of types I and II IRS keratin protein complexes and the formation of keratin intermediate filaments. 相似文献