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理科教育における原生生物.
安藤元紀.
原生生物学辞典, 矢崎裕規 他 編, 朝倉書店, 2023.

New study decodes one of the living world’s fastest cell movements.
Ando M.
EurekAlert!, News Release, published online: 18 Jan 2023.

Telling up from down: How marine flatworms learn to sense gravity.
Ando M.
EurekAlert!, News Release, published online: 21 May 2021.

Biology of symbiotic apostome ciliates: their diversity and importance in the aquatic ecosystems.
Ohtsuka S, Suzaki S, Kanazawa A, Ando M.
In: Ohtsuka S, Suzaki T, Horiguchi T, Suzuki N, Not F (eds) Marine Protists. Springer, 2015, pp 441-463.

原生生物を利用した環境モニタリング法の開発 (第7章).
安藤元紀.
原生生物フロンティア その生物学と工学, 洲崎敏伸 編, 化学同人, 2014.

Physiological significance of intercellular communication mediated by tissue-specific membrane transport systems:insights from heart and inner-ear tissues.
Ando M.
Proc Okayama Assoc Lab Anim Sci, 2013, 29:55-60.

不規則チルト負荷試験による圧受容器反射の動特性の推定~マウスからヒトまで.
安藤元紀, 山崎文靖, 佐藤隆幸.
心臓, 2008, 40:34-36.

Novel analytic frameworks for identifying human baroreflex dynamics: random head-up tilting and equilibrium diagram analysis.
Ando M, Yamasaki F, Sato T.
Auton Nerv Syst (Tokyo), 2007, 44:229-235.

脊髄刺激による血圧制御.
山崎文靖, 牛田亨宏, 横山武志, 山下幸一, 安藤元紀, 佐藤隆幸.
自律神経, 2007, 44:236-242.

Functional structure of the stria vascularis studied by confocal laser microscopy.
Takeuchi S, Ando M, Kakigi A.
Otology Japan, 2001, 11:84-86.



 Genes registered in DDBJ (GenBank)


Raphidocystis ambigua 20S_OpNCC gene for 18S rRNA, partial sequence.
Accession: LC682598
Kurokawa M, Sakagami T, Ando M.
05-MAR-2022

Choanocystis sp. 21S_OpNCC gene for 18S ribosomal RNA, partial sequence.
Accession: LC682599
Kurokawa M, Sakagami T, Ando M.
05-MAR-2022

Raphidocystis contractilis KATNA1 mRNA for katanin p60 ATPase-containing subunit A1, partial cds.
Accession: LC468148
Ikeda R, Hamada M, Murai M, Saito N, Ando M.
02-APR-2021

Raphidocystis contractilis SPAST mRNA for spastin, partial cds.
Accession: LC468147
Ikeda R, Hamada M, Murai M, Saito N, Ando M.
02-APR-2021

Raphidocystis contractilis FIGNL1 mRNA for fidgetin-like protein 1, partial cds.
Accession: LC468146
Ikeda R, Hamada M, Murai M, Saito N, Ando M.
02-APR-2021

Raphidocystis contractilis VPS4 mRNA for vacuolar protein-sorting-associated protein 4 variant 2, complete cds.
Accession: LC468145
Ikeda R, Hamada M, Murai M, Saito N, Ando M.
02-APR-2021

Raphidocystis contractilis VPS4 mRNA for vacuolar protein-sorting-associated protein variant 1, partial cds.
Accession: LC468144
Ikeda R, Hamada M, Murai M, Saito N, Ando M.
02-APR-2021


 Original Articles


Notes on present status and future prospects of web-based scanning electron microscopy. (Invited)
Ando M, Nakano C, Sakagami T, Hayashi K.
J Electr Microsc Technol Med Biol, 2024, 36:60-61.

Structure of putative epidermal sensory receptors in an acoel flatworm, Praesagittifera naikaiensis.
Sakagami T, Watanabe K, Hamada M, Sakamoto T, Hatabu T, Ando M.
Cell Tissue Res, 2024, 395: 299-311. (Cover illustration of the issue)

Morphological analysis of the cochlear stria vascularis in wild type and melanocyte-deficient Mitf mi-bw/Mitf mi-bw mutant mice.
Kanda N, Jigyo M, Sakagamagi T, Yamamoto H, Ando M.
Proc Okayama Assoc Lab Anim Sci, 2023, 36:3-9.

De novo transcriptome analysis of the centrohelid Raphidocystis contractilis to identify genes involved in microtubule-based motility.
Ikeda R, Sakagami T, Hamada M, Sakamoto T,Hatabu T, Saito N, Ando M.
J Eukaryot Microbiol, 2022, e12955 (accepted: Nov 14, 2022).

Structural analysis of the statocyst and nervous system of Praesagittifera naikaiensis, an acoel flatworm, during development after hatching.
Sakagami T, Watanabe K, Ikeda R, Ando M.
Zoomorphology, 2021, 140:183-192.

Immunocytochemical analysis of alpha-tubulin distribution before and after rapid axopodial contraction in the centrohelid Raphidocystis contractilis.
Ikeda R, Kurokawa M, Murai M, Saito N, Ando M.
Acta Protozool, 2020, 59:1-12.

Cytoskeletal elements in an acoelomorph worm, Praesagittifera naikaiensis.
Ikeda R, Fujiwara C, Hamada M, Sakamoto T, Saito N, Ando M.
Proc Okayama Assoc Lab Anim Sci, 2018, 34:21-27.

Differential localizations of the myo-inositol transporters HMIT and SMIT1 in the cochlear stria vascularis.
Edamatsu M, Kondo Y, Ando M.
Neurosci Lett, 2018, 674:88–93.

Structure and function of tegmentum vasculosum in avian cochlea.
Ikeda R, Otono T, Ikeda N, Saito N, Ando M.
Proc Okayama Assoc Lab Anim Sci, 2017, 33:26-30.

Direct evidence of the glucose uptake into cochlear strial marginal cells: Application of a fluorescent tracer method combined with immunohistochemistry.
Hishikawa S, Edamatsu M, Inoue-Ikeda R, Ando M.
Bioimages, 2016, 23:1–8.

Acetylcholine suppresses ventricular arrhythmias and improves conduction and connexin-43 properties during myocardial ischemia in isolated rabbit hearts.
Aiba T, Noda T, Hidaka I, Inagaki M, Katare R, Ando M, Sunagawa K, Sato T, Sugimachi M.
J Cardiovasc Electrophysiol, 2015, 26:678-685.

Immunological identification of H+-coupled myo-inositol cotransporter in the lateral wall of the cochlear duct.
Yamaji M, Inoue R, Edamatsu M, Ando M.
Proc Okayama Assoc Lab Anim Sci, 2015, 31:55-58.

Microtubule dynamics during rapid axopodial contraction in heliozoon Raphidiophrys
contractilis revealed by immunoelectron microscopy.
Inoue R, Ando M.
Jpn J Protozool, 2014, 47:#3.

Real-time phenomenological analysis of dielectric behavior of Euglena cells during their cell-shape changes.
Hanahara K, Ando M.
Jpn J Protozool, 2014, 47:#4.

Cover illustration: 耳の中のアンプ,血管条辺縁細胞の機能を探る.
山地真裕美, 安藤元紀.
J Clin Lab Med, 2013, 57:828.

Ultrastructural changes during rapid axopodial contraction in heliozoon Raphidiophrys contractilis.
Inoue R, Edamatsu M, Ando M.
Jpn J Protozool, 2013, 46:#P3.

Three-dimensional observation of the vascular networks and functional proteins in the cochlear stria vascularis using a non-corroded casting method combined with an immunohistochemical analysis.
Edamatsu M, Hishikawa S, Kondo Y, Ando M.
Bioimages, 2012, 20:9–15.

Ultraastructural metamorphosis of the apostome ciliate Vampyrophrya pelagica in the phoront stage during and after infection to pelagic copepods.
Kanazawa A, Suzaki T, Ando M, Ohtsuka S.
Jpn J Protozool, 2012, 45:#21.

A prototype of the biomonitoring system for assessing water quality using heliozoon cell.
Yoshimura C, Ando M, Suzaki T.
Jpn J Protozool, 2012, 45:#33.

Multiple expression of glucose transporters in the lateral wall of the cochlear duct studied by quantitative real-time PCR assay.
Edamatsu M, Kondo Y, Ando M.
Neurosci Lett, 2011, 490:72–77.

Re-elongation of axopodia after induction of rapid axopodial contraction in heliozoon Raphidiophrys contractilis.
Enomoto T, Suzaki T, Ando M.
Jpn J Protozool, 2011, 44:58-59.

Steps toward the practical use of a system for water quality monitoring using heliozoon cells.
Yoshimura C, Ando M, Suzaki T.
Jpn J Protozool, 2011, 44:53-54.

Differential regulation of TNF receptors by vagal nerve stimulation protect heart against acute ischemic injury.
Katare RG, Ando M, Kakinuma Y, Arikawa M, Yamasaki F, Sato T.
J Mol Cell Cardiol, 2010, 49:234-44.

Engineered heart tissue: a novel tool to study the ischemic changes of the heart in vitro.
Katare RG, Ando M, Kakinuma Y, Sato T.
PLoS One, 2010, 5:e9275.

Dielectric behavior of the flagellate Euglena gracilis SM-ZK, a permanent chloroplast-lacking mutant.
Fukuizumi S, Suzaki T, Ando M.
Jpn J Protozool, 2010, 43:41-42.

聴覚機能におけるエネルギー供給システムの解明.
安藤元紀.
生物学に関する試験研究論叢, 2010, 25:74-78.

Evaluation of an in-vitro bioassay system for microtubule inhibitors with antitumor activity using the heliozoon Actinophrys sol.
Enomoto T, Ishikawa T, Suzaki T, Ando M.
Jpn J Protozool, 2010, 43:66-67.

Anti-Alzheimer's drug, donepezil, markedly improves long-term survival after chronic heart failure in mice.
Handa T, Katare RG, Kakinuma Y, Arikawa M, Ando M, Sasaguri S, Yamasaki F, Sato T.
J Card Fail, 2009, 15:805-811.

Vagal nerve stimulation prevents reperfusion injury through inhibition of opening of mitochondrial permeability transition pore independent of the bradycardiac effect.
Katare RG, Ando M, Kakinuma Y, Arikawa M, Handa T, Yamasaki F, Sato T.
J Thorac Cardiovasc Surg, 2009, 137:223-231.

Improvement of a flow-through type chamber for the aquatic bio-monitoring system using adhesiveness of heliozoon cells to substratum.
Enomoto T, Fukuizumi S, Edamatsu M, Suzaki T, Ando M.
Jpn J Protozool, 2009, 42:22-23.

Continuous dielectric measurement system for monitoring cell-shape dynamics in the flagellate Euglena gracilis.
Fukuizumi S, Enomoto T, Edamatsu M, Suzaki T, Ando M.
Jpn J Protozool, 2009, 42:74.

Cellular localization of facilitated glucose transporter 1 (GLUT-1) in the cochlea stria vascularis: its possible contribution to the transcellular glucose pathway.
Ando M, Edamatsu M, Fukuizumi S, Takeuchi S.
Cell Tissue Res, 2008, 331:763-769.

Dielectric analysis for cell shape changes in the flagellate Euglena gracilis.
Fukuizumi S, Edamatsu M, Suzaki T, Ando M.
Jpn J Protozool, 2008, 41:55-57.

Granulocyte colony-stimulating factor activates Wnt signal to sustain gap junction function through recruitment of beta-catenin and cadherin.
Kuwabara M, Kakinuma Y, Katare RG, Ando M, Yamasaki F, Doi Y, Sato T.
FEBS Lett, 2007, 581:4821-4830.

Acetylcholine inhibits the hypoxia-induced reduction of connexin43 protein in rat cardiomyocytes.
Zhang Y, Kakinuma Y, Ando M, Katare RG, Yamasaki F, Sugiura T, Sato T.
J Pharmacol Sci, 2006, 101:214-222.

Nitric oxide stimulates vascular endothelial growth factor production in cardiomyocytes involved in angiogenesis.
Kuwabara M, Kakinuma Y, Ando M, Katare RG, Yamasaki F, Doi Y, Sato T.
J Physiol Sci, 2006, 56:95-101.

Artificial baroreflex: clinical application of a bionic baroreflex system.
Yamasaki F, Ushida T, Yokoyama T, Ando M, Yamashita K, Sato T.
Circulation, 2006, 113:634-639.

Efferent vagal nerve stimulation protects heart against ischemia-induced arrhythmias by preserving connexin43 protein.
Ando M, Katare RG, Kakinuma Y, Zhang D, Yamasaki F, Muramoto K, Sato T.
Circulation, 2005, 112:164-170.

Neural interface therapy for protecting the heart against ischemia-induced arrhythmia and apoptosis.
Ando M, Katare RG, Kakinuma Y, Sato T.
Proc Symp Biol Physiol Eng, 2005, 20th:51-54.

Dielectric behavior of pulmonary edema induced in the rat lung.
Yamashiro T, Ando M, Okazaki Y, Sasaguri S.
Respir Physiol Neurobiol, 2005, 145:91-100.

Acetylcholine from vagal stimulation protects cardiomyocytes against ischemia and hypoxia involving additive non-hypoxic induction of HIF-1alpha.
Kakinuma Y, Ando M, Kuwabara M, Katare RG, Okudela K, Kobayashi M, Sato T.
FEBS Lett, 2005, 579:2111-2118.

Effect of electrical modification of cardiomyocytes on transcriptional activity through 5'-AMP-activated protein kinase.
Kakinuma Y, Zhang Y, Ando M, Sugiura T, Sato T.
J Cardiovasc Pharmacol, 2004, 44:S435-438.

Carotid-sinus baroreflex modulation of core and skin temperatures in rats: an open-loop approach.
Zhang D, Ando M, Yamasaki F, Sato T.
Jpn J Physiol, 2003, 53:461-466.

Aquaporin-1(AQP1) is expressed in the stria vascularis of rat cochlea.
Sawada S, Takeda T, Kitano H, Takeuchi S, Okada T, Ando M, Suzuki M, Kakigi A.
Hear Res, 2003, 181:15-19.

Acute ischemia causes ‘dark cell’ change of strial marginal cell in gerbil cochlea.
Ando M, Takeuchi S, Kakigi A, Raicu V, Yagyu K, Sato T.
Cell Tissue Res, 2002, 309:229-235.

Bumetanide-induced enlargement of the intercellular space in the stria vascularis requires an active Na+-K+-ATPase.
Azuma H, Takeuchi S, Higashiyama K, Ando M, Kakigi A, Nakahira M, Yamakawa K, Takeda T.
Acta Otolaryngol, 2002, 122:816-821.

Reduction in the endocochlear potential caused by Cs+ in the perilymph can be explained by the five-compartment model of the stria vascularis.
Kakigi A, Takeuchi S, Ando M, Higashiyama K, Azuma H, Sato T, Takeda T.
Hear Res, 2002, 166:54-61.

Three-dimensional and ultrastructural relationships between intermediate cells and capillaries in the gerbil stria vascularis.
Takeuchi S, Ando M, Sato T, Kakigi A.
Hear Res, 2001, 155:103-112.

Mechanism generating endocochlear potential: role played by intermediate cells in stria vascularis.
Takeuchi S, Ando M, Kakigi A.
Biophys J, 2000, 79:2572-2582.

mRNA encoding ‘ClC-K1, a kidney Cl-channel’is expressed in marginal cells of the stria vascularis of rat cochlea: its possible contribution to Cl currents.
Ando M, Takeuchi S.
Neurosci Lett, 2000, 284:171-174.

Voltage-dependent outward K+ current in intermediate cell of stria vascularis of gerbil cochlea.
Takeuchi S, Ando M.
Am J Physiol, 1999, 277 (Cell Physiol 46): C91-99.

Immunological identification of an inward rectifier K+ channel (Kir4.1) in the intermediate cell (melanocyte) of the cochlear stria vascularis of gerbils and rats.
Ando M, Takeuchi S.
Cell Tissue Res, 1999, 298:179-183.

Elongated pericyte-like cells connect discrete capillaries in the cochlear stria vascularis of gerbils and rats.
Ando M, Kakigi A,Takeuchi S.
Cell Tissue Res, 1999, 296:673–676.

Dye-coupling of melanocytes with endothelial cells and pericytes in the cochlea of gerbils.
Takeuchi S, Ando M.
Cell Tissue Res, 1998, 293:271–275.

Inwardly rectifying K+ currents in intermediate cells in the cochlea of gerbils: a possible contribution to the endocochlear potential.
Takeuchi S, Ando M.
Neurosci Lett, 1998, 247:175–178.

Postnatal vascular development in the lateral wall of the cochlear duct of gerbils : quantitative analysis by electron microscopy and confocal laser microscopy.
Ando M, Takeuchi S.
Hear Res, 1998, 123:145–156.

Marginal cells of the stria vascularis of gerbils take up glucose via the facilitated transporter GLUT: application of autofluorescence.
Takeuchi S, Ando M.
Hear Res, 1997, 114:69–74.

Changes in the volume of marginal cells induced by isotonic ‘Cl depletion/restoration’: involvement of the Cl channel and Na+-K+-Cl cotransporter.
Takeuchi S, Ando M, Irimajiri A.
Hear Res, 1997, 113:99–109.

Dielectric monitoring of rouleaux formation in human whole blood: a feasibility study.
Irimajiri A, Ando M, Matsuoka R, Ichinowatari T. Takeuchi S.
Biochim Biophys Acta, 1996, 1290:207-209.

Ion channels in basolateral membrane of marginal cells dissociated from gerbil stria vascularis.
Takeuchi S, Ando M, Kozakura K, Saito H, Irimajiri A.
Hear Res, 1995, 83:89–100.

Dielectric behavior of the rabbit cornea as a measure of the healing process in injured epithelium.
Mokudai Y, Watanabe M, Ando M, Ueno H.
J Jpn Ophthalmol Soc, 1994, 98:215-223.

Structure and function of the cytoskeleton in Heliozoa: 3. Rapid microtubule disorganization during axopodial contraction in Echinosphaerium.
Suzaki T, Ando M, Inai Y, Shigenaka Y.
Europ J Protistol, 1994, 30:404-413.

Dielectric measurements on the rabbit cornea using a surface electrode.
Watanabe M, Mokudai Y, Ueno H, Ando M, Irimajiri A.
Acta Soc Ophthalmol Jpn, 1993, 97:569-574.

Structure and function of the cytoskeleton in Heliozoa: 2. Measurement of the force of rapid axopodial contraction in Echinosphaerium.
Suzaki T, Ando M, Ishigame K, Shigenaka Y.
Europ J Protistol, 1992, 28:430-433.

A computer program for estimating size distribution of spherical organelles from electron micrographs.
Suzaki T, Ando M.
Mem Fac Integrated Arts Sci Hiroshima Univ Sci. Rep Ser.IV, 1992, 18:35-42.

Structure and function of the cytoskeleton in Heliozoa: 1. Mechanism of rapid axopodial contraction in Echinosphaerium.
Ando M, Shigenaka Y.
Cell Motil Cytoskel, 1989, 14:288-301.

Ultrastructure of the isolated microtubules and intermicrotubular bridges in a heterotrichous ciliate, Spirostomum ambiguum.
Shigenaka Y, Hosoi J, Ando M, Ishida M, Ishii I.
J Electron Microsc, 1989, 38:363-370.