Publications:
2023:
Mammalian neurotoxins, Blarina paralytic peptides, cause hyperpolarization of human T-type Ca channel hCav3.2 activation. Yano Y., Fukuoka R., Maturana A.D., Ohdachi S.D., Kita M. J Biol Chem. 299:105066 (2023).
ALPL-1 is a target for chimeric antigen receptor therapy in osteosarcoma. Mensali N, Köksal H, Joaquina S, Wernhoff P, Casey NP, Romecin P., Panisello C., Rodriguez R., Vimeux L., Juzeniene A., Myhre M.R., Fåne A., Ramírez C.C., Maggadottir S.M., Duru A.D,. Georgoudaki A.M., Grad I., Maturana A.D., Gaudernack G., Kvalheim G., Carcaboso A.M., de Alava E., Donnadieu E., Bruland Ø.S., Menendez P., Inderberg E.M., Wälchli S. Nature Communications. 14:3375 (2023).
2022:
Conformational Change of the Hairpin-like-structured Robo2 Ectodomain Allows NELL1/2 BindingMiyaguchi M, Nakanishi Y, Maturana AD, Mizutani K, Niimi T. J Mol Biol. 434:167777 (2022).
Cryo-EM structures of thylakoid-located voltage-dependent chloride channel VCCN1. Hagino T., Kato .T, Kasuya G., Kobayashi K., Kusakizako T., Hamamoto S., Sobajima T., Fujiwara Y., Yamashita K., Kawasaki H., Maturana A.D., Nishizawa T., Nureki O. Nature Communications. 13:2505 (2022).
2021:
骨形成を促進する新奇因子NELL1の骨誘導分子基盤の解明 Niimi T. メディカル・サイエンス・ダイジェスト 47 (2): 106 - 107 (2021).
Roles of Slit Ligands and Their Roundabout (Robo) Family of Receptors in Bone Remodeling. Niimi T. Advances in Experimental Medicine and Biology 21:143-154 (2021).
The structure of MgtE in the absence of magnesium provides new insights into channel gating. Jin F., Sun M., Fujii T., Yamada Y., Wang J., Maturana A.D., Wada M., Su S., Ma J., Takeda H., Kusakizako T., Tomita A., Nakada-Nakura Y., Liu K., Uemura T., Nomura Y., Nomura N., Ito K., Nureki O., Namba K., Iwata S., Yu Y., Hattori M. PLoS biology 19 : e3001231 (2021).
Id2 Represses Aldosterone-Stimulated Cardiac T-Type Calcium Channels Expression. Ito J., Minemura T., Wälchli S., Niimi T., Fujihara Y., Kuroda S., Takimoto K., Maturana A.D. Int J Mol Sci. 22 ( 7 ) :3561 (2021).
Time-resolved serial femptosecond crystallography reveals early structural changes in channelrhodopsin. Oda K., Nomura T., Nakane T., Yamashita K., Inoue K, Ito S, Vierock J, Hirata K, Maturana AD, Katayama K, Ikuta T, Ishigami I, Izume T, Umeda R, Eguma R, Oishi S, Kasuya G, Kato T., Kusakizako T., Shihoya W., Shimada H., Takatsuji T., Takemoto M., Taniguchi R., Tomita A., Nakamura R., Fukuda M., Miyauchi H., Lee Y., Nango E., Tanaka R., Tanaka T., Sugahara M., Kimura T., Shimamura T., Fujiwara T., Yamanaka Y., Owada S., Joti Y., Tono K., Ishitani R., Hayashi S., Kandori H., Hegemann P., Iwata S., Kubo M., Nishizawa T., Nureki O. eLife 10 ( e62389 ) : 1 - 21 (2021).
2020:
アルコール飲料製造における生物学的プロセス 招待有り Maturana A.D. アジア遊学 250 :192 - 205 ( 2020).
2019:
Maturana A.D. Acta Physiol (Oxf). 227(3):e13372 (2019).
Morinaga A., Ito J., Niimi T., Maturana A.D. RBM20 Regulates CaV1.2 Surface Expression by Promoting Exon 9* Inclusion of CACNA1C in Neonatal Rat Cardiomyocytes. Int J Mol Sci. 20 (22). pii: E5591 (2019).
Yamamoto N., Kashiwagi M., Ishihara M., Kojima T., Maturana A.D., Kuroda S., Niimi T. Robo2 contains a cryptic binding site for neural EGFL-like (NELL) protein 1/2. J Biol Chem. 294:4693-4703 (2019).
Kusakizako T., Claxton D.P., Tanaka Y., Maturana A.D., Kuroda T., Ishitani R., Mchaourab H.S., Nureki O. Structural Basis of H+-Dependent Conformational Change in a Bacterial MATE Transporter. Structure 27:293-301 (2019).
2018:
Koyama R., Mannic T., Ito J., Amar L., Zennaro M.C., Rossier M.F., Maturana A.D. MicroRNA-204 is necessary for Aldosterone-stimulated T-type calcium channel expression in cardiomyocytes. Int. J. Mol. Sci.19:E2941 (2018).
Maruyama T., Imai S., Kusakizako T., Hattori M., Ishitani R., Nureki O., Ito K., Maturana A.D., Shimada I., OsawaM. Functional roles of Mg2+ binding sites in ion-dependent gating of a Mg2+channel, MgtE, revealed by solution NMR. eLIFE 7:e31596 (2018).
2017:
Ikegami K, Minabe S, Ieda N, Goto T, Sugimoto A, Nakamura S, Inoue N, Oishi S, Maturana A.D., Sanbo M., Hirabayashi M., Maeda K.I., Tsukamura H., Uenoyama Y. Involvement of neurone-glia/neurone-neurone communications via gap junctions in synchronised activity of KNDy neurons. J Neuroendocrinol. 29:1-14 (2017).
Maturana A.D. チャネルの電気生理学解明。J. of Clinical and Experimental Medecine (医学のあゆみ) 262:506-514 (2017).
2016:
Iijima M., Yoshimoto N., Niimi T, Maturana A.D., Kuroda S. Bionanocapsule-based scaffold for clustering and oriented immobilization of Fc-fused receptors. Journal of Biotechnology 11:805-813 (2016).
Nakatani N., Ito J., Koyama R., Iijima M., Yoshimoto N., Niimi T., Kuroda S, Maturana A.D. Scaffold protein Enigma Homolog 1 overcomes the repression of myogenesis activation by Inhibitor of DNA binding 2. Biochem. Biophys. Res. Commun. 474:413-420 (2016).
Ito J., Ijima N., Yoshimoto N., Niimi T., Kuroda S., Maturana A.D. RBM20 and RBM24 cooperatively promote the expression of short ENH splice variants. FEBS Letters 590:2262-2274 (2016).
Hiraizumi M. Kasuya G., Maturana A.D., Kumazaki K., Fujiwara Y., Nishizawa T., Liu K., Nakada-Nakura Y., Iwata S., Tsukada K., Komori T., UemuraS., Yuhei Goto, Takanori Nakane, Takemoto M., KatoH.E., Yamashita K., WadaM., ItoK., IshitaniR., Hattori M., Nureki N. Crystal structures of the TRIC trimeric intracellular cation channel orthologues. Cell research 26:1288-1301 (2016).
Niimi, T. Leishmania tarentolaefor the production of the multi-subunit complexes. In: Advanced Technologies for Protein Complex Production and Characterization, Advances in Experimental Medicine and Biology. Vol. 896, (Ed: Vega, M.C.) Springer, NY, USA. pp155-165. (2016)
2015:
Kato H., Inoue K., Yoshizumi R., Kato Y., Ono H., Takemoto M., Yoshizawa S., Yamashita K. Ito J., Kogue K., Maturana A.D., Iino Y., Yawo H., Ishitani R., Kandori H., Nureki O. Structural basis for Na+ transport mechanism by a light-driven Na+ pump. Nature 521:48-53 (2015).
Fukuda M., Takeda H., Hideaki K., Doki S., Ito K., Maturana A.D., Ishitani R., Nureki O. Structural dynamic basis for mechanism of nitrate/nitrite antiport by NarK. Nature Communications 6:7097 (2015).
Kato H.E. Kamiya M. Sugo S., Ito J. Taniguchi R., Orito A., Hirata K., Inutsuka A., Yamanaka A., Maturana A.D., Ishitani R., Sudo Y., Hayashi S., Nureki O. Atomistic Design of Microbial Opsin-based Blue-Shifted Optogenetics Tools. Nature Communications 6:7177 (2015).
Liu Q., Jung J., Somiya M., Iijima M., Yoshimoto N., Niimi T., Maturana A.D., Shin S.H., Jeong S.Y., Choi E.K., Kuroda S. Virosome of hepatitis B virus envelope L proteins containing doxorubicin: synergistic enhancement of human liver-specific anti-tumor growth activity by radiotherapy. Int. J. Nanobiomedicine 10:4159-7412 (2015).
Somiya M., Yamaguchi K., Matsuzaki T., Liu Q., Niimi T., Maturana A.D., Iijima M., Yoshimoto N., Kuroda S. One-scalable preparation method for non-cationic liposomes with high siRNA content. Inter. J. Pharmaceutics 490:316-323(2015).
Somiya M., Sasaki Y., Matsuzaki T., Iijima M., Yoshimoto N., Niimi T., Maturana A.D., Kuroda S. Intracellular trafficking of Bio-nanocapsule-liposome Complex: identification of Fusiogenic Activity in the Pre-S1 Region of Hepatisis B virus Surface Antigen L Protein. Journal of Controlled Release 212:10-18 (2015).
Takemoto M., Kato H.E., Koyama M., Ito J., Hayashi S., Maturana A.D., Deisseroth K., Ryuichiro I., Nureki O. Molecular Mechanisms underlying the early stage of the channel opening in channelrhodopsin. Plos One 10:e0131094 (2015).
Ito J., Niimi T., Iijima N., Yoshimoto N, Kuroda S., Maturana A.D. Scaffold protein enigma homolog activated CREB whereas s short splice variant prevents CREB activation in cardiomyocytes. Cellular Signalling 27:2425-2433 (2015).
Mannic T., Satta N., Pagno S., Python M., Mouffok M., Virzi J., Montecucco F., Frias M., Dick J., Maturana A.D., Rossier M.F., Vuilleumier N. CD14 as a mediator of the mineralocorticoid receptor-dependent anti-apolipoproteinA-1 IgG positive chronotropic effect on cardiomyocytes. Endocrinology 156:4707-4719 (2015).
Takahashi K., Imai A, Iijima M., Yoshimoto N, Maturana A.D., Kuroda S. and Niimi T. Mapping the heparin-binding site of the osteoinductive protein NELL1 by site-directed Mutagenesis FEBS Letters 589:4026-4032 (2015).
Phan, H.-P. Kitagawa, Y., and Niimi, T. Disulfide bond formation of heterodimer and heterotrimer of human laminin-332 coiled-coil domains. Vietnam J. Sci. 2, 17-24 (2015).
2014:
Yoshimoto N., Tatematsu K., Iijima N., Niimi T., Maturana A.D., Ikuo Fujii, Kondo A., Tanizawa T., and Kuroda S. High-throughput de novo screening of receptor agonists with an automated single-cell analysis and isolation system. Scientific Reports 4:4242 (2014)
Nakamura Y., Hasebe A., Takahashi K., Ijima N., Yoshimoto N., Maturana A.D., Ting K., Kuroda S., Niimi T. Oligomerization-induced Conformational Change in the C-terminal Region of NELL1 Is Necessary for the Efficient Mediation of Murine MC3T3-E1 Cell Adhesion and Spreading. J. Biol. Chem. 289:9781-9894 (2014).
Kumazaki K., Chiba S., Takemoto M., Furukawa A., Nishiyama K., Sugano Y., Mori T., Dohmae N., Hirata K., Nakada-Nakura Y., Maturana A.D., Tanaka Y., Mori H., Sugita Y., Arisaka F., Ito K., IshitaniR., TsukazakiT. and Nureki O. Crystal Structure of YidC reveals a membrane protein instertion mechanism. Nature509:516-520 (2014).
Pescitelli G. Kato E.H., Oishi S., Ito J., Maturana A.D., Nureki O. Woody R.W. The Exciton Circular dichroism in channelrhodopsin. The J. Physic. Chem. B118:11873-11885 (2014).
Takeda H., Hattori M., Nishizawa T., Yamashita K., Shah S.T.A., Caffrey M. Maturana A.D.,Ishitani R., Nureki O. Structural Basis for ion selectivity revealed by high-resolution crystal structure of Mg2+channel MgtE. Nature Communication 5:5374 (2014).
Ito J. and Maturana A.D. Steroid hormones’ genomic and non-genomic actions on cardiac voltage-gated calcium channels. Folia Pharcacol. Jpn. 144:1-5 (2014).
2013:
Mannic T., Mouffok M., PythonM., YoshidaT., Maturana A.D.,VuilleumierN., Rossier M.F. Dehydroepiandrosterone (DHEA) prevents aldosterone-induced chronotropic and hypertrophic actions in isolated rat ventricular cardiomyocytes. Endocrinology 154:1271-1281 (2013).
Kida A., Iijima, M., Niimi T., Maturana A.D.,Yoshimoto N., Kuroda S. Cell surface-fluorescence immunosorbent assay for real-time detection of hybridomas with efficient antibody secretion at the single-cell level. Analytical Chemistry 85:1753-1759 (2013).
Yoshimoto N., Kida A., Jie X., Kurokawa M., Iijima M., Niimi T., Maturana A.D.,Nikaido I., Ueda H.R., Tatematsu K., Tanizawa K., Kondo A., Fujii I., Kuroda K. An automated system for high-throughput single cell-based breeding. Scientific Report 3:1191 (2013).
Tanaka Y., Hipolito C.J., Maturana A.D.,Ito K., Kuroda T., Higuchi T., Hattori M., Kato E.H., Tsukazaki T., Ishitani R., Suga H. and Nureki O. Structural basis for novel mechanism of drug ejection by MATE multidrug exporter. Nature 496:247-251 (2013).
Iijima M., Yoshimoto N., Niimi T., Maturana A.D., Kuroda S. Nanocapsules-based probe for evaluating the orientation of antibodies immobilized on solid phase. Analyst 138:3470-3477 (2013).
Ito J., Takita M.,Koichi Takimoto K., Maturana A.D. Enigma Homolog 1 Promotes Myogenic Gene Expression and Differentiation of C2C12 Cells.Biochem. Biophys. Res. Commun. 435:483-487 (2013).
Nishizawa T., Kita S, Maturana A.D., Furuya N., Hirata K., Kasuya G., Ogasawara S., Dohmae N., Iwamoto T., Ishitani R., Nureki O. Structural Basis for Counter-transport Mechanism of H+/Ca2+ Exchanger. Science 341:168-172 (2013).
~2012:
Niimi, T. Recombinant protein production in the eukaryotic protozoan parasite Leishmania tarentolae: A review. In: Recombinant Gene Expression: Reviews and Protocols, Third Edition, Methods in Molecular Biology. Vol. 824, (Ed: Lorence, A.) Humana Press, NJ, USA. pp 307-315 (2012).
Sugino, M. and Niimi, T. Expression of multi-subunit proteins in Leishmania tarentolae. In: Recombinant Gene Expression: Reviews and Protocols, Third Edition, Methods in Molecular Biology.Vol. 824, (Ed: Lorence, A.) Humana Press, NJ, USA. pp 317-325 (2012).
Iijima, M., Somiya, M., Yoshimoto, N., Niimi, T., and Kuroda, S. Nano-visualization of oriented-immobilized IgGs on immunosensors by high-speed atomic force microscopy. Sci. Rep. 2, 790 (2012).
Shen, J., James, A.W., Chung, J., Lee, K., Zhang, J.B., Ho, S., Lee, K.S., Kim, T.M., Niimi, T., Kuroda, S., Ting, K., and Soo, C. NELL-1 promotes cell adhesion and differentiation via Integrin β1. J. Cell. Biochem. 113, 3620-3628 (2012).
Hasebe, A., Nakamura, Y., Tashima, H., Takahashi, K., Iijima, M., Yoshimoto, N., Ting, K., Kuroda, S., and Niimi, T. The C-terminal region of NELL1 mediates osteoblastic cell adhesion through integrin a3b1.FEBS Lett. 586, 2500-2506 (2012).
Matsuo, H., Yoshimoto, N., Iijima, M., Niimi, T., Jung, J., Jeon, S.-Y., Choi, E.K., Sewaki, T., Arakawa, T., and Kuroda, S. Engineered bio-nanocapsules, hepatitis B virus surface antigen L protein particles, for in vivo active targeting to splenic dendritic cells. Int. J. Nanomedicine 7, 3341-3350 (2012).
Somiya, M., Yoshimoto, N., Iijima, M., Niimi, T., Dewa, T., Jung, J., and Kuroda, S. Targeting of polyplex to human hepatic cells by bio-nanocapsules, hepatitis B virus surface antigen L protein particles. Bioorg. Med. Chem. 20, 3873-3879 (2012).
Yamada, M., Oeda, A., Jung, J. Iijima, M., Yoshimoto, N., Niimi, T., Jeong, S.-Y., Choi, E.K., Tanizawa, K., and Kuroda, S. Hepatitis B virus envelope L protein-derived bio-nanocapsules: Mechanisms of cellular attachment and entry into human hepatic cells. J. Control. Release 160, 322-329 (2012).
Hasebe, A., Tashima, H., Ide, T., Iijima, M., Yoshimoto, N., Ting, K., Kuroda, S., and Niimi, T. Efficient production and characterization of recombinant human NELL1 protein in human embryonic kidney 293-F cells. Mol. Biotechnol.51, 58-66 (2012).
Rossier M.F., Pagano S., Python M., Maturana A.D., James R.W., Mach F., Roux-Lombard P., and Vuilleumier N. Anti-apolipoproteinA-1 IgG chronotropic effects require non-genomic action of aldosterone on L-type calcium channels. Endocrinology 153:1269-1278 (2012)
Kato E.H., Zhang F., Yizhar O., Ramakrishnan C., Nishizawa T, Hirata K., Ito J, Aita Y., Tsukazaki T., Hayashi S., Hegemann P., Maturana A.D., Ishitani R., Deisseroth K., and Nureki O*. Crystal structure of the channelrhodopsin light-gated cation channel. Nature, 482:369-374 (2012).
Ito J., Hashimoto T., Nakamura S., Aita Y., Yamazaki T., Schlegel W., Takimoto K., and Maturana A.D. Splicing transitions of the Anchoring Protein ENH during striated muscle development. Biochem. Biophys. Res. Commun. 421:232-238 (2012).
Maturana A.D., Nakagawa N., Yoshimoto, N, Tatematsu K., Hoshijima M., Tanizawa K., Kuroda S. LIM Domains Regulate Protein Kinase C Activity: A Novel Molecular Function. Cellular Signalling 23:928-934 (2011).
TsukazakiT., MoriH., EchizenY, Ishitani R., Fukai S., Tanaka T., Perederina A., Vassylyev D.G., Kohno T., Maturana A.D., Ito K., Nureki O. Structure and function of SecDF, a protein export-enhancing membrane component. Nature 474:235-238 (2011).
Aita Y., Kurebayashi N., Hirose S., Maturana A.D. Protein kinase D regulates the human cardiac L-type voltage-gated calcium channel through serine 1884. FEBS Letters 585:3903-3906 (2011).
Yamazaki T., Walchli S., Fujita T., Ryser S., Hoshijima M., Schlegel W., KurodaS., Maturana A.D. Splice variants of Enigma Homolog, differentially expressed during heart development, promote or prevent hypertrophy. Cardiovascular Research 86:374-382 (2010).
Maturana A.D., Fujita T., Kuroda S. Functional roles of Fasciculation and elongation protein zeta-1 in the brain. TheScientificWorld J. 10:1646-1654 (2010).
Rossier M.F., Python M., Maturana A.D.Contribution of MR and GR to the chronotropic and hypertrophic actions of aldosterone in neonatal rat ventricular myocytes. Endocrinology 251:2777-2787(2010).
Maturana A., Lenglet S., Python M., Kuroda S. Rossier M.F. Role of the T-type calcium channel CaV3.2 in the chronotropic action of corticosteroids on isolated rat ventricular myocytes. Endocrinology 150:3726-3734 (2009).
Hattori M., Iwase N., Furuya N., Tanaka Y. Tsukazaki T, Ishitani R., Maguire M.E., Koichi I., Maturana A. and Nureki O. Mg2+-dependent gating of bacterial MgtE channel underlying Mg2+ homeostasis. EMBO J. 28:3602-3612 (2009).
Wälchli S., Skånland S.S., Gregers T.F., Lauvrak S.U., Torgensen M.L., Ying M., Kuroda S., Maturana A., and Sandvig K. MAP kinase p38α is a key component of Shiga toxin intracellular transport. Molecular Biology of the Cell. 19:95-104 (2008).
Maturana A.D., Wälchli S., Iwata M., Ryser S., Van Lint J., Hoshijima M., Schlegel W., Ikeda Y., Tanizawa T., Kuroda S. Enigma homolog 1 scaffolds protein kinase D1 to regulate the activity of the cardiac L-type voltage-gated calcium channel. Cardiovascular Research 78:458-465 (2008).
Rossier M.F.,Lenglet S., Vetterli L., Python M., Maturana A. Corticosteroids and redox potential modulate spontaneous contractions in isolated rat ventricular cardiomyocytes. Hypertension 52:721-728 (2008).
Ikuta J., Maturana A., Toshitsugu F., Tatematsu K., Okajima T., Tanizawa T., Kuroda S. Fasciculation and elongation protein zeta-1 (FEZ1) participates in the polarization of hippocampal neuron by controlling the mitochondrial motility. Biochem. Biophys. Res. Commun. 353:127-132 (2007).
Fujita T.1,Maturana A.D., Ikuta J., Hamada J., Wälchli S., Suzuki T., Sawa H.,W. Wooten M., Okajima T., Tatematsu K., Tanizawa K., and Kuroda S. Axonal Guidance Protein FEZ1 Associates with Kinesin Motor Protein to Transport Mitochondria in Neurites of NGF-stimulated PC12 Cells. Biochem. Biophys. Res. Commun. 361:605-610 (2007).
Iwata M.1,MaturanaA.1, Hoshijima M, Tatematsu K., Okajima T., Vandenheede J.R., Lint J.V., Tanizawa K., Kuroda S. PKCepsilon-PKD1 signaling complex at Z-discs plays a pivotal role in the cardiac hypertrophy induced by G-protein coupling receptor agonists. Biochem. Biophys. Res. Commun. 327:1105-1113 (2005).
Fujita T., Ikuta J., Maturana A., Okajima T., Tatematsu K., Tanizawa K. and Kuroda S. Molecular function of axonal guidance-related proteins, Unc-76/FEZ1/FEZ2. Recent Res. Devel. Biophys. Biochem. 4:313-320 (2004).
Lilla V., Webb G., Rickenbach K., Maturana A., Steiner D.F., Halban P.A., Irminger J.C. Differential gene expression in well-regulated and dysregulated pancreatic beta-cell (MIN6) sublines. Endocrinology 144:1368-1379 (2003).
Petheo G.L., Maturana A., Spat A., Demaurex N. Interactions between electron and proton currents in excised patches from human eosinophils. J. Gen. Physiol. 122:713-276. (2003).
Maturana A.,Van Haasteren G., Piuz I., Castelbou C., Demaurex N., Schlegel W. Spontaneous calcium oscillations control c-fos transcription via the serum response element in neuroendocrine cells J. Biol. Chem. 277:39713-39721(2002).
Maturana A., Krause KH, Demaurex N. NOX Family NADPH Oxidases: Do They Have Built-in Proton Channels? J. Gen. Physiol. 120:781-786 (2002).
Stasia M.J., Lardy B., Maturana A., Rousseau P., Martel C., Bordigoni P., Demaurex N., Morel F. Molecular and functional characterization of a new X-linked chronic granulomatous disease variant (X91(+)) case with a double missense mutation in the cytosolic gp91phox C-terminal tail. Biochim Biophys Acta 1586:316-330 (2002).
Maturana A.,Arneaudeau S., Ryser S., Banfi B., Hoessle.P., Schlegel W., Krause K.-H., Demaurex N. Heme histidine ligands within gp91 phox modulate proton conduction by the phagocyte NADPH oxidaseJ. Biol. Chem.276:30277-30284 (2001).
Banfi B., Molnar G., Maturana A., Steger K., Hegedus B., Demaurex N., Krause K.-H. A Ca2+-activated NADPH oxidase in testis, spleen, and lymph nodes J. Biol. Chem. 276:7594-37601 (2001).
Banfi B., Maturana A.,Jaconi S., Arneaudeau S., Laforge T., Sinha B., Ligeti E., Demaurex N. , Krause K.-H. A mammalian H+channel generated through alternative splicing of the NADPH oxidase homolog NOH-1. Science 287:138-142 (2000).
Maturana A.D., Casal A.J., Demaurex N., Vallotton M.B., Capponi A.M., Rossier M.F. Angiotensin II negatively modulates L-type calcium channels through a pertussis toxin-sensitive G protein in adrenal glomerulosa cells. J. Biol. Chem. 274:19943-199438 (1999).
Brandenburger Y., Arrighi J.F., Rossier M.F., Maturana A., Vallotton M.B., Capponi A.M. Measurement of perimitochondrial Ca2+ concentration in bovine adrenal glomerulosa cells with aequorin targeted to the outer mitochondrial membrane. Biochem. J. 341:745-753 (1999).
Maturana A.D., Burnay M.M., Capponi A.M., Vallotton M.B., Rossier M.F. Angiotensin II type 1 receptor activation modulates L- and T-type calcium channel activity through distinct mechanisms in bovine adrenal glomerulosa cells. J. Recept. Signal. Transduct. Res. 19:509-520 (1999).
Rossier M.F., Burnay M.M., Maturana A., Capponi A.M. Duality of the voltage-dependent calcium influx in adrenal glomerulosa cells. Endocr. Res. 24: 443-447 (1998).