• Title/Summary/Keyword: Optic lobe

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Pigment-dispersing factor induces phase shifts of circadian locomotor rhythm in the cricket Gryllus bimaculatus

  • Singaravel, Muniyandi;Tomioka, Kenji
    • Journal of Photoscience
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    • v.9 no.2
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    • pp.243-245
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    • 2002
  • Pigment-dispersing factor (PDF) is an octadecapeptide distributed in the optic lobe and the brain in a variety of insect species. There are lines of evidence suggesting possible involvement of PDF in the insect circadian system. However, its physiological roles in the circadian time keeping mechanism have not been clearly defined. In this study, we have examined the phase shifting effects of Gryllus-PDF on the circadian locomotor rhythm in the cricket Gryllus bimaculatus of which circadian clock is located in the optic lobe. Phase shifts in the circadian activity rhythm were measured following microinjection of 22nl of vehicle (Ringer's solution) or O.lmM PDF into the optic lobe through the compound eye at various circadian times. The results showed that PDF induced phase shifts of the circadian clock in a phase-dependent manner, suggesting that it may play a role as an input signal for the circadian clock.

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Diversion of locomotor activity rhythm and neural control by Azadirachtin in Leucophaea maderae (Azadirachtin에 의한 Leucophaea mederae의 활동주기 변화와 뇌신경에 의한 조절관계 조사)

  • 한상진
    • The Korean Journal of Zoology
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    • v.32 no.4
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    • pp.441-449
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    • 1989
  • Azadirachtin은 Leucophaeq muderae (Fabricius연 하루 활동주기길이를 0.16 $\pm$ 0.03 h 단축시켰으며, 실험동물의 40 %에서 리듬의 Splitting현상이 관찰되었다. 하루에 두개의 활동주기를 보이는 Splitting현상은 서로 180$^{\circ}$를 유지하여 나타났고, 이는 동물의 실험 전의 본래 주기길이가 평균보다 더 긴 주기를 지닌 동물에게 주로 나타났다. 또한 활동주기의 Splitting현상을 보이는 동물의 안구와 뇌신경(optic lobe) 절단수술 후 Splitting이 사라짐으로써 Azadirachtin이 뇌신경에 자극을 주어 Splitting을 야기시켰으며, 한쌍의 optic lobe 중 어느 한쪽만으로도 동물의 활동주기 조절가능성이 있다는 것이 본 실험을 통하여 밝혀졌다. Azadirachtin shortens the period length of the locomotor activity rhythm in the circadian rhythm of Leucophoeo maderae and induces splitting of this rhythm in ho components in about 40% of the animals. The phase relationship between the ho components is 180$^{\circ}$Both shortening of period and splitting are more pronounced in animals processing longer periods before the injection of azadirachtin. Splitting disappears after the surgical transection of optic lobe.

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Optic Nerve Decompression for Traumatic Optic Neuropathy: A Case Report (외상성 시신경병증의 시신경 감압술을 통한 치험례)

  • Hyun, Kyung Bae;Kim, Sun Ho;Choi, Jong Woo;Kim, Yong Oock;Park, Beyoung Yun
    • Archives of Plastic Surgery
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    • v.32 no.3
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    • pp.389-392
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    • 2005
  • A case of visual loss following cranio-maxillofacial trauma is reported. The patient had acute optic nerve injury associated with a fracture of the right zygomaticomaxillary and fronto-naso-ethmoido-orbital bone and epidural hematoma on the right temporal lobe of brain. Bony fragments compressing the optic nerve on lateral side was identified on computed tomography. Decompression of the optic nerve combined with evacuation of epidural hematoma has been performed via transfrontal craniotomy. The patient had complete recovery of visual acuity without any complications. The role of optic nerve decompression in the management of patients with traumatic optic neuropathy is discussed. Surgical indication is controversial and the procedure should be considered only within the context of the specific indication of the individual patient.

Formation of 4-lobe texture patterns in a CNT doped vertically aligned nematic liquid crystal cell (카본나노튜브가 분산된 수직 배향 네마퇴 액정 셀에서의 4-lobe texture의 형성)

  • Jo, Eun-Mi;Jeong, Seok-Jin;Shin, Seung-Hwan;Lee, Seung-Hee;Jeong, Seok-Ho;Lee, Young-Hee
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2007.06a
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    • pp.406-407
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    • 2007
  • We report the observed peculiar double four lobe textures in CNT dispersed nematic liquid crystal under vertical field. The electro optic studies in a wide range of applied field showed that the double four lobe texture was observed only in the field range of 120 to 160v. This observed peculiar phenomena is explained in terms field induced movement of CNTs and the subsequent reorientation of Liquid crystal molecules.

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Development of the Central Nervous System in the Wolf Spider Arctosa kwangreungensis (Araneae: Lycosidae) (광릉늑대거미(Arctosa kwangreungensis) 중추신경계 발생에 관한 연구)

  • Yang, Sung-Chan;Moon, Myung-Jin
    • Applied Microscopy
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    • v.42 no.2
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    • pp.77-86
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    • 2012
  • The morphological and histologic differentiation of the central nervous system (CNS) in the wolf spider Arctosa kwangreungensis with respect to postembryonic development are studied using light and scanning electron microscopes. The organization of CNS which consisted of supraesophageal ganglion (SpG) and subesophageal ganglion (SbG) are established prior to the postembryo stage. The brain of first instar spiderling after a molt of the postembryo is also made up of supraesophageal ganglion and subesophageal ganglion. Although development of the optic nerve and optic lobe in SpG are not completed during the postembryoic stage, completion of whole neural system resemble to that of adult are established during the second instar stage. In particular, optic gangalion is developed from the undifferentiated cell clusters of the SpG, moreover four pairs of appendage ganglia and another pairs of abdominal ganglia are produced from the SbG. Nerve cells of the most developing stages are composed of typical monopolar neur1ons, and total three types of neurons can be identified through the histological and morphological basis of present study. These cell clusters are differentiated into neurons and grow dendritic fibers according to further development of the CNS.

Functional Characterization of the Squid Calexcitin-2, a Calcium and GTP-binding Protein

  • Park, Sae-Young;Nelson, Thomas J.;Alkon, Daniel L.;Kim, Jeong-Ho
    • BMB Reports
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    • v.33 no.5
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    • pp.391-395
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    • 2000
  • Calexcitin, a calcium-binding protein, was previously cloned and functionally characterized in the squid Loligo pealei. We now report the cloning of a second form of Calexcitin, Calexcitin-2, found in the squid Todarodes pacificus optic lobe. Calexcitin-2 has a significantly different carboxyl terminal region than Calexcitin-1. It lacks the CAAX motif, which is a farnesylation site. The amino acid sequence of Calexcitin-2 shows an 84% identity with Calexcitin-1 and also displays a strong cross immunoreactivity. Western blotting shows that Calexcitin-2 was expressed exclusively in the optic lobe region of squid, but not in other body organs. Regardless of its lack of conserved regions for GTP-binding, Calexcitin-2 shows moderately low affinity GTP-binding and also shows dramatic conformational change induced by GTP-binding. Three possible GTP-binding region mutations, K142A, D144A, and K157A, did not change the G TP binding affinity. This raises the possibility that Calexcitin-2 may have a novel GTP-binding motif.

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Immunocytochemical Mapping of Serotonergic Neurons in Postembrvonic Brains of Cabbage Butterfly Pieris rcpce (배추흰나비 유충, 용, 성충의 뇌에 분포하는 세로토닌 면역반응성 신경원)

  • 이봉희;심재원
    • The Korean Journal of Zoology
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    • v.35 no.4
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    • pp.428-438
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    • 1992
  • The serotonin-immunoreactive (5-HTil neurons have been investigated in the brains of lanra, pupa and adult from Pieris ropae. There are ca. 54 5-HTi neurons in 5-instar larva, ca. 20 in 2-dav-old pupa and ca. 118 in 1-day-old adult, respectively. Most of these 5-HTi neurons are interneurons, but efferent and afferent 5-HTi neurons were also observed. Most of the 5-HTi neurons project into the central neuropils of postembrvonic brains. The larval brain contains abundant 5-HTi processes in the central neuropils, including those in three cerebral commissures. But in the pupal brain the 5-HTi processes are restricted in small numbers to the given regions of central neuropil. The adult brain contains a large number of 5-HTi processes in mushroom body, central body complex, lateral protocerebrum, protocerebral bridge, antennal lobe, and tritocerebral and suboesophageal neuropils. However, the 5-HTi processes are not found in the optic lobe of the brains. One prominent feature of the 5-HTi fibers in the postembrvonic brains is the fact that they are greatly arborized.

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Metamorphic Changes of the Neurosecretory Cells in the Brains of Wax Moth Gafferfa mellonella during Metamorphosis (꿀벌부채명나방 뇌신경분비세포의 변태에 따른 변화)

  • 이봉희;강성훈;김민영;김우갑
    • The Korean Journal of Zoology
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    • v.32 no.2
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    • pp.120-133
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    • 1989
  • The paraidehyde-fuchsin(PAE)-positive neurosecretory cells in the brains of wax moth Galleria mellonella have been morphologically examined at the six different metamorphic stages. During the metamorphosis, neurosecretory cells in the brain can be found in the five unclei of pars intercerebralis, lateral region of protocerebrum, optic lobe, deutocrebrum and tritocerebrum. The five nuelel include one to seven neurosecretory cells. On the bases of cell sizes and histochemical specificities of neurosercretion within cells, all the PAF-positive neurosercretory cells included in the six different metamorphic brains can be recognized as four species of neurosecretory cells as follows; (1) large (about 25 $\mu$m), neurosecretion-parcked cell (type I neurosecretory cell), (2) large, granule-dispersed cell (type II neurosecretury cell), (3) small (about 15 $\mu$m), neurosecretion-packed cell (type III neurosecretory cell), and (4) small, granule-dispersed cell (type IV neurose-cretory cell). The three tb seven medial neurosecretory cells are included in the pars intercerebralis of the six different metamorphic brains. With the increase of days from the late larva to the adult the type I cells of medial neurosecretory cells gradually decrease in number, but the respective three type II neurosecretory cells appear in the five different metamorphic brains except in pupa 2 day before the emeregnce of the adult which has only one type II. The one to five lateral neurosecretory cells are observed in the lateral region of protocerebrum from thepupa just after pupation to the adult. The type IV neurosecretory cells are the most in number of lateral neurosecretory cells. The one type Ineurosecretory cells are included near the optic lobe of only the 4-day-old pupa. the one deutocerebral neurosecretory cell, type II, appears only in the adult. The tritocerebrum includes both three neurosecretory cells in the late larva and one neuresecretory cell in the adult. In the late larva the two tritocerebral neurosecretory cells are type Ill neurosecretory cell and the one is type IV. The remaining one tritocerebral neurosecretory cell is type IV.

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Visual recovery demonstrated by functional MRI and diffusion tensor tractography in bilateral occipital lobe infarction

  • Seo, Jeong Pyo;Jang, Sung Ho
    • Journal of Yeungnam Medical Science
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    • v.31 no.2
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    • pp.152-156
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    • 2014
  • We report on a patient who showed visual recovery following bilateral occipital lobe infarct, as evaluated by follow up functional magnetic resonance imaging (fMRI) and diffusion tensor tractography (DTT). A 56-year-old female patient exhibited severe visual impairment since onset of the cerebral infarct in the bilateral occipital lobes. The patient complained that she could not see anything, although the central part of the visual field remained dimly at 1 week after onset. However, her visual function has shown improvement with time. As a result, at 5 weeks after onset, she notified that her visual field and visual acuity had improved. fMRI and DTT were acquired at 1 week and 4 weeks after onset, using a 1.5-T Philips Gyroscan Intera. The fiber number of left optic radiation (OR) increased from 257 (1-week) to 353 (4-week), although the fiber numbers for right OR were similar. No activation in the occipital lobe was observed on 1-week fMRI. By contrast, activation of the visual cortex, including the bilateral primary visual cortex, was observed on 4-week fMRI. We demonstrated visual recovery in this patient in terms of the changes observed on DTT and fMRI. It appears that the recovery of the left OR was attributed more to resolution of local factors, such as peri-infarct edema, than brain plasticity.