Cover: Simplicity and complexity of calcium signaling. Ca2+ signals controlled by a relatively limited number of molecules exert their action within broad temporal and spatial domains (page 767-772).

Vol 27 Issue 7 (2006)

EDITORIAL

calcium signaling in physiology and pathophysiology [Page767-772]
He-ping Cheng^1,4, Sheng WEI¹, Li-ping WEI², Alexei Verkhratsky^3,4
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REVIEWS

Glial calcium signaling in physiology and pathophysiology [Page773-780]
Alexei Verkhratsky²
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Ca²⁺ signaling during vertebrate somitogenesis [Page781-790]
Sarah E WEBB, Andrew L MILLER²
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Ca²⁺ sparks as a plastic signal for skeletal muscle health, aging, and dystrophy [Page791-798]
Noah Weisleder, Jian-jie Ma¹
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Molecular basis of inherited calcium channelopathies: role of mutations in pore-forming subunits [Page799-812]
Lynn MCKEOWN, Philip ROBINSON, Owen T JONES²
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Store-operated calcium channels and pro-inflammatory signals [Page813-820]
Wei-chiao CHANG¹
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Cross-talk between calcium and reactive oxygen species signaling [Page821-826]
Yuan YAN, Chao-liang WEI, Wan-rui ZHANG, He-ping CHENG, Jie LIU¹
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Multiple mechanisms involved in oxytocin-induced modulation of myometrial contractility [Page827-832]
Anatoly SHMYGOL¹, Joanna GULLAM, Andrew BLANKS, Steven THORNTON
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Regulation of TRP-like muscarinic cation current in gastrointestinal smooth muscle with special reference to PLC/InsP₃/Ca²⁺ system [Page833-842]
Alexander V ZHOLOS¹
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Cytosolic calcium oscillations in submandibular gland cells [Page843-847]
Li SU, Chun-yan MA, Yan-dong ZHOU, Yan-hong JIA, Zong-jie CUI²
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ORIGINAL ARTICLES

Ca²⁺ sparks and Ca²⁺ glows in superior cervical ganglion neurons [Page848-852]
Li-jun YAO^2,3,4, Gang WANG^3,4,, Kun-fu OU-YANG³, Chao-liang WEI³, Xian-hua WANG³, Shi-rong WANG³, Wei YAO³, Hong-ping HUANG³, Jian-hong LUO², Cai-hong WU³, Jie LIU³, Zhuan ZHOU^3,5, He-ping CHENG^3,5
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S-Nitrosoglutathione and glutathione act as NMDA receptor agonists in cultured hippocampal neurons [Page853-860]
Ting-yu CHIN², Sheau-huei CHUEH^3,5, Pao-luh TAO⁴
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Cellular mechanism for spontaneous calcium oscillations in astrocytes [Page861-868]
Tong-fei WANG², Chen ZHOU², Ai-hui TANG, Shi-qiang WANG, Zhen CHAI³
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MEK inhibitor PD98059 acutely inhibits synchronized spontaneous Ca²⁺ oscillations in cultured hippocampal networks [Page869-876]
Yan-fang RUI¹, Zhao-hui SUN², Jia-ping GU¹, Zhong-hua SHENG¹, Xiang-ping HE¹, Zuo-ping XIE^1,3
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Effect of osmotic stress on spontaneous calcium sparks in rat ventricular myocytes [Page877-887]
Hong XIE, Pei-hong ZHU¹
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Molecular nature of sulfhydryl modification by hydrogen peroxide on type 1 ryanodine receptor [Page888-894]
Hong-mei HAN², Ri-sheng WEI², Anthony F LAI³, Chang-cheng YIN^2,4
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Role of inositol 1,4,5-trisphosphate receptors in a₁-adrenergic receptor-induced cardiomyocyte hypertrophy [Page895-900]
Da-li LUO^2,3,5, Jian GAO², Xiao-mei LAN³, Gang WANG⁴, Sheng WEI⁴, Rui-ping XIAO⁴, Qi-de HAN³
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Developmental regulation of intracellular calcium transients during cardiomyocyte differentiation of mouse embryonic stem cells [Page901-910]
Ji-dong Fu, Hui-mei Yu, Rong Wang, Ji Liang, Huang-tian Yang²
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Attenuation of mitochondrial, but not cytosolic, Ca²⁺ overload reduces myocardial injury induced by ischemia and reperfusion [Page911-918]
Chun-mei CAO^2,3,6, Wing-yee YAN^3,6, Jing LIU³, Kenneth WL KAM³, Shi-zhong ZHAN⁴, James SK SHAM⁵, Tak-ming WONG^3,7
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Insulin improves cardiomyocyte contractile function through enhancement of SERCA2a activity in simulated ischemia/reperfusion [Page919-926]
Jie YU², Hai-feng ZHANG², Feng WU², Qiu-xia LI², Heng MA², Wen-yi GUO³, Hai-chang WANG³, Feng GAO^2,3,4,5
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Isoprenaline enhances local Ca²⁺ release in cardiac myocytes [Page927-932]
Jian-xin SHEN^2,3,4
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Characteristics of Ca²⁺-exocytosis coupling in isolated mouse pancreatic b cells [Page933-938]
Qian GE^2,4, Yong-ming DONG^2,4, Zhi-tao HU², Zheng-xing WU^2,5, Tao XU^2,3,5
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Localized Ca²⁺ uncaging induces Ca²⁺release through IP₃R in smooth muscle [Page939-944]
Min WANG, Zheng CHEN, Yan XING, Xu ZHANG, Xian-zhi DONG, Guang-ju JI¹
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Residue Phe266 in S5-S6 loop is not critical for Charybdotoxin binding to Ca²⁺-activated K⁺ (mSlo1) channels [Page945-949]
Jing YAO², Hui LI², Ge-liang GAN, Ying WU, Jiu-ping DING³
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Network regulation of calcium signal in stomatal development [Page950-958]
Zhu-xia SHEN, Gen-xuan WANG², Zhi-qiang LIU, Hao ZHANG, Mu-qing QIU, Xing-zheng ZHAO, Yi GAN
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