• 제목/요약/키워드: photoreceptors

검색결과 44건 처리시간 0.025초

Whole Structure of the Photoreceptors in the Ascidian Larva Visualized by an Antibody Against Arrestin (Ci-Arr)

  • Horie, Takeo;Nakagawa, Masashi;Orii, Hidefumi;Tsuda, Motoyuki
    • Journal of Photoscience
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    • 제9권2호
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    • pp.272-274
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    • 2002
  • The anterior brain vesicle of ascidian larvae contains two distinct pigment cells. Ultrastructure of these pigment cells has been shown that the anterior pigment cell is an otolith for perception of gravity and the posterior pigment cell is an ocellus for light reception. The larva has remarkably simple central nervous system (CNS) composed of about 330 cells. We focused to study neural networks of visual systems. In the present paper, we report the whole structure of the photoreceptors of the ascidian larva visualized by an antibody against arrestin. Visual arrestin is the key protein for the termination of phototransduction and one of the abundant proteins in photoreceptors. Recently, we cloned an arrestin homologue gene, Ci-arr and the expression of Ci-arr was found to be restricted to the photoreceptors in the ocellus. To study the whole structure of the photoreceptors in the larva, we prepared an antibody against Ci-Arr. It is found that anti Ci-Arr antibody specifically stains the photoreceptors, including the cell bodies, the axons, and the nerve terminals. The photoreceptor cell bodies lies in row outside the pigment cup which penetrate the pigment cell and is continuous with the outer segments of the photoreceptor cell, inside the concavity of the pigments. The axons form bundle into a single tract. The tract extends toward the midline, where the nerve terminals diverge and seem to form synapses

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햄스터 망막에서의 광수용체 분포 (Populations of Rod and Cone Photoreceptors in the Hamster Retina)

  • 유성희;김현진;이경필;이은실;이제영;전창진
    • Applied Microscopy
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    • 제39권4호
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    • pp.291-299
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    • 2009
  • 본 연구에서는 햄스터 망막의 추상과 간상 광수용체의 양적 분석을 하였다. 추상 광수용체를 과산화 효소로 표지된 피넛 렉틴(peroxidase-labeled peanut lectin)을 사용하여 염색한 뒤 광학 미분간섭 현미경(DIC, differential interference contrast optics)을 사용하여 관찰하였다. 또한 면역세포화학적 방법으로 추상 광수용체에 위치한 M/L-옵신과 S-옵신을 염색한 뒤 공초점 형광 현미경(confocal microscope)을 사용하여 관찰하였다. 추상세포의 평균 밀도는 9,307 $cells/mm^2$이며 전체 추상세포는 293,060개였다. 추상세포의 최대값(12,857 $cells/mm^2$)은 맹점(시신경 유두, optic disk)로부터 코 쪽 망막(nasal retina)으로 0.3 mm 떨어진 곳에 위치하였다. 간상세포의 평균은 300,082 $cells/mm^2$으로 전체 간상세포는 9,448,150개였다. 간상세포의 최대값(340,000 $cells/mm^2$)은 맹점으로부터 등쪽 망막(dorsal retina) 방향으로 0.3 mm 떨어진 곳에서 발견되었다. 평균적으로 전체 광수용체 중, 간상세포의 전체 분포는 96.99%이고 추상세포는 3.01%를 차지하였다. 또한 간상과 추상의 평균 비는 32.24 : 1이었다. 햄스터의 추상세포는 M/L-와 S-옵신을 가진다. 본 연구 결과는 햄스터가 일부 명소시를 가지는 강한 간상 우세 망막임을 제시한다.

Molecular Aspects of Some Photobiological Receptors

  • Song, Pill-Soon
    • Applied Biological Chemistry
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    • 제20권1호
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    • pp.10-25
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    • 1977
  • The photobiological receptors of phototactic, phototropic, and photomorphogenic responses of various organisms have been described in terms of spectroscopic, photophysical and photochemical properties which may be relevant in elucidating the energy transduct ion mechanism(s) in photobiology. The photoreceptors discussed include carotenoids, flavins, stentorin and phytochrome. Although the molecular modes of their photobiological action still remain largely unexplained, it is possible to suggest several primary molecul ar processes of the photoreceptors in eliciting responses of various organisms to light.

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Deep Brain Photoreceptors and Photoperiodism in Vertebrates

  • Oishi, Tadashi;Haida, Yuka;Okano, Keiko;Yoshikawa, Tomoko;Kawano, Emi;Nagai, Kiyoko;Fukada, Yoshitaka;Tsutsui, Kazuyoshi;Tamotsu, Satoshi
    • Journal of Photoscience
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    • 제9권2호
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    • pp.5-8
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    • 2002
  • Photoperiodism is an important adaptive phenomenon in various physiological parameters including reproduction to cope with seasonal changes. Involvement of extraretinal photoreceptors in the photoperiodism in non-mammalian vertebrates has been well established. In addition, circadian clock system is known to be involved in the photoperiodic time measurement. The pathway consists of light-input system, time measurement system (circadian clock), gonadotropin releasing hormone (GnRH) production in the hypothalamus, luteinizing hormone (LH) and follicle stimulating hormone (FSH) production in the pituitary, and final gonadal development. Recently, several laboratories reported photopigments newly cloned in the pineal, eyes and deep brain in addition to already known visual pigments in the retina. These are pinopsin, parapinopsin, VA-opsin, melanopsin, etc. All these photopigments belong to the opsin family having retinal as the chromophore. However, the function of these photopigments remains unknown. I reviewed the studies on the location of the photopigments by immunocytochemistry. I also discussed the results on the action spectra for induction of gonadal development in relation with the location of the photoreceptors. Various physiologically active substances distribute in the vertebrate brain. Such substances are GnRH, GnIH, neuropeptide Y, vasoactive intestinal peptide, c-Fos, galanin, neurosteroids, etc. I summarized the immunhistochemical studies on the distribution and the photoperiodic changes of these substances and discussed the route from the deep brain photoreceptor to GnRH cells.

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Photoreception for Photoperiodism and Circadian Rhythms in the Blow Fly

  • Shiga, Sakiko;Numata, Hideharu
    • Journal of Photoscience
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    • 제9권2호
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    • pp.13-16
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    • 2002
  • A comparison of the functional components underlying photoperiodism and circadian rhythmicity in the same species is an interesting issue in the context of unravelling clock mechanisms. In the present study, covering or surgical removal of the compound eyes was performed to localize photoreceptors for photoperiodism to control reproductive diapause and for entrainment of circadian locomotor rhythms in the blow fly Protophormia terraenovae. Intact flies showed a long-day photoperiodic response. When the compound eyes were covered by silver paint, diapause incidence increased under diapause-averting conditions of a long-day photoperiod and constant light, as if flies were kept under constant darkness. Covering of a medial region of the head capsule or solvent painting of the compound eyes gave no significant effects. When the compound eyes were removed, flies did not distinguish the photoperiod, whereas removal of antennal lobes or ocelli did not affect the photoperiodism. Intact flies showed a freerunning rhythm under constant darkness. The rhythm entrained to light-dark (LD) cycles with light of high and low intensity. When the compound eyes and ocelli were surgically removed, the rhythm entrained to LD cycles with light of high intensity but freeran under LD cycles with light of low intensity. The results suggest the retinal pathways are involved in photoperiodism and that flies use both retinal and extraretinal pathways for rhythm entrainment. Under dim light-LD cycles, the retinal pathways mainly mediate rhythm entrainment. Retinal photoreceptors seem to be used both for photoperiodism and entrainment of the rhythm.

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A Molecular Model for Light Signal Perception and Interdomain Crosstalk in Phytochrome Photoreceptors

  • Song, Pill-Soon;Park, Chung-Mo
    • Journal of Photoscience
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    • 제7권3호
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    • pp.79-86
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    • 2000
  • Phytochromes are red and far-red light absorbing photoreceptors for photomorphogenesis in plants. The red/far wavelength reversible biliproteins are made up of two structural domains. The light-perceiving function of the photoreceptor resides in the N-terminal domain, whereas the signal transducing regulatory function is located within the C-terminal domain. The characteristic role of the phytochromes as phtosensory molecular switches is derived from the phototransformation between two distinct spectral forms, the red light absorbing Pr and the far-red light absorbing Pfr forms. The photoinduced Pr Pfr phototransformation accompanies subtle conformational changes throughout the phytochrome molecule. The conformational signals are subsequently transmitted to the C-terminal domain through various inter-domain crosstalks and induce the interaction of the activated C-terminal domain with phytochrome interacting factors. Thus the inter-domain crosstalks play critical roles in the photoactivation of the phytochromes. Posttranslational modifications, such as the phosphorylation of Ser-598, are also involved in this process through conformational changes and by modulating inter-domain signaling.

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디지털 프린터의 출려특성기반 톤 보정 망점화 (A Tone Correction Halftone Method Based on Response Characteristic of Digital Printer)

  • 신지현
    • 한국인쇄학회지
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    • 제15권1호
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    • pp.71-83
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    • 1997
  • In recent years, various kinds of organic photoreceptors have been used for copy machines based on electrophotography. Most of them are constructed into layered devices in which a photogeneration layer is separated from a charge transport layer. They are usually used with application of negative charges. Organic pigment have received considerable attention with phthalocyanine, squaraine, and azo compounds being used to construct zerograpgic photoreceptors with enhanced long wavelength sensitivity, residual potential and zerograpgic gain of squaraine photoconductor were measured from the photoinduced discharge curve. Most of synthesized squaraine derivative couldn`t use for CGM(charge generation material), but it knew that a part of one was able to use it within the possibility. A few appliance is used it know about dependence on CTM(charge transport material) of squaraine derivative. It could know that experiment`s result is 2.5-bis(4-N-N`-diethylaminophenyl)-1,3,4-oxadiazole(OXD) is the bestproduct.

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Color Sensing and Signal Transmission Diversity of Cyanobacterial Phytochromes and Cyanobacteriochromes

  • Villafani, Yvette;Yang, Hee Wook;Park, Youn-Il
    • Molecules and Cells
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    • 제43권6호
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    • pp.509-516
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    • 2020
  • To perceive fluctuations in light quality, quantity, and timing, higher plants have evolved diverse photoreceptors including UVR8 (a UV-B photoreceptor), cryptochromes, phototropins, and phytochromes (Phys). In contrast to plants, prokaryotic oxygen-evolving photosynthetic organisms, cyanobacteria, rely mostly on bilin-based photoreceptors, namely, cyanobacterial phytochromes (Cphs) and cyanobacteriochromes (CBCRs), which exhibit structural and functional differences compared with plant Phys. CBCRs comprise varying numbers of light sensing domains with diverse color-tuning mechanisms and signal transmission pathways, allowing cyanobacteria to respond to UV-A, visible, and far-red lights. Recent genomic surveys of filamentous cyanobacteria revealed novel CBCRs with broader chromophore-binding specificity and photocycle protochromicity. Furthermore, a novel Cph lineage has been identified that absorbs blue-violet/yellow-orange light. In this minireview, we briefly discuss the diversity in color sensing and signal transmission mechanisms of Cphs and CBCRs, along with their potential utility in the field of optogenetics.