[1]
Abramson J, Kaback
HR, Iwata S. 2004. Structural comparison of lactose permease
and the glycerol-3-phosphate antiporter:
members of the major facilitator superfamily.
Current Opinion in Structural Biology,
14:413-419. 文件编号: 05005.
[2]
Agutter PS, Malone PC, Wheatley DN. 2000. Diffusion theory in biology: a relic
of mechanistic materialism. Journal of the History of Biology, 33: 71–111. 文件编号: 05045.
[3]
Andersen OS, Koeppe
II RE, Roux B. 2005. Gramicidin channels.
IEEE Transactions on Nanobioscience, 4:10-20. 文件编号: 05059.
[4]
Anderson PAV, Greenberg
RM. 2001.
Phylogeny of ion channels: clues to structure and function. Comparative
Biochemistry and Physiology Part B: Biochemistry and Molecular
Biology, 129: 17-28. 文件编号: 05032.
[5]
Biggin PC, Sansom MSP. 2003. Mechanosensitive
Channels: Stress Relief. Current Biology,
13: R183-R185. 文件编号: 05015.
[6]
ChungSH, Kuyucak H. 2002. Recent advances in ion
channel research. Biochimica et Biophysica
Acta, . 文件编号: 05018.
[7]
de Groot BL, Tieleman
DP, Pohl P, et al. 2002. Water permeation through gramicidin a:
desformylation and the double helix: a molecular dynamics
study. Biophysical Journal,
82:2934–2942. 文件编号: 05060.
[8]
DeFelice LJ. 2004. Transporter structure and mechanism. Trends in Neurosciences,
27:352-359. 文件编号: 05012.
[9]
Doyle DA. 2004. Structural changes during ion
channel gating. Trends in Neurosciences, 27:298-302. 文件编号: 05008.
[10]
Dutzler R. 2004. The structural basis of ClC chloride
channel function. Trends in Neurosciences, 27:315-320. 文件编号: 05010.
[11]
Estévez R,
Jentsch TJ. 2002. CLC chloride channels: correlating structure with function. Current
Opinion in Structural Biology,
12:531-539. 文件编号: 05021.
[12]
Fedida D, Hesketh JH. 2001. Gating of voltage-dependent
potassium channels. Progress in Biophysics and Molecular Biology,
75:165-199. 文件编号: 05035.
[13]
Fischer WB, Sansom
MSP. 2002. Viral ion channels: structure and function. Biochimica
et Biophysica Acta, 1561:27-45. 文件编号: 05024.
[14]
Fujiyoshi Y, Mitsuoka K, de Groot BL, et al. 2002.
Structure and function of water channels. Current Opinion in Structural
Biology, 12:509-515.
文件编号: 05020.
[15]
Gerencser GA, Zhang J. 2003. Existence and nature of the chloride pump. Biochimica et Biophysica Acta, 1618:133-139.
文件编号: 05036.
[16]
Giorgetti A, Carloni P. 2003. Molecular modeling of
ion channels: structural predictions. Current Opinion in Chemical
Biology, 7:150-156. 文件编号: 05016.
[17]
Gulbis JM, Doyle AD. 2004. Potassium channel structures: do they conform?. Current Opinion in Structural Biology, 14:440-446. 文件编号: 05006.
[18]
Henderson H, Busath DD, Rowley R. 2001. Fluids near surfaces and in pores
and membrane channels. Progress in Surface Science, 68: 279-295. 文件编号: 05029.
[19]
Heymann JB. 1998. Progress on the structure and function of aquaporin 1. Journal Of Structural Biology, 121:191–206. 文件编号: 05050.
[20]
Hille B, Armstrong CM, MacKinnon R. 1999. Ion channels: from idea to reality.
Nature Medicine, 5:1105-1109.
文件编号: 05058.
[21]
IJohansson I, Karlsson M, Johanson
U, et
al. 2000. The role of aquaporins in
cellular and whole plant water balance. Biochimica
et Biophysica Acta, 1465:324-342. 文件编号: 05053.
[22]
Jiang Y, et al. 2003. The principle of gating charge movement in a voltage
dependent K+ channel. Nature,
423:42. 文件编号: 05044.
[23]
Kaupp UB, Seifert R. 2002. Cyclic nucleotide-gated ion channels. Physiol Rev, 82:
769–824. 文件编号: 05054.
[24]
Keramidas A, Moorhouse AJ, Schofield PR, et al. 2004.
Ligand-gated ion channels: mechanisms
underlying ion selectivity. Progress in Biophysics and Molecular
Biology, 86:161-204. 文件编号: 05004.
[25]
King LS, Kozono D,
Agre P, et al. 2004. From structure
to disease: the evolving tale of aquaporin
biology. Nature Reviews Molecular Cell Biology,
5:687-698. 文件编号: 05038.
[26]
Knepper MA. 1994. The aquaporin family of molecular
water channels. PNAS, 91:6255-6258.
文件编号: 05048.
[27]
Krane CM, Kishore BK. 2003. Aquaporins:
The membrane water channels of the biological world. Biologist, 50: 81–86. 文件编号: 05055.
[28]
Kuo MMC, Haynes WJ, Loukin SH, et al. 2005.
Prokaryotic K+ channels: From crystal structures to diversity.
FEMS Microbiology Reviews,
29:961-985. 文件编号: 05003.
[29]
Law RJ, Sansom MSP.
2002. Water Transporters: How So Fast Yet So Selective?.
, 12:R250-R252. 文件编号: 05023.
[30]
Lee AG. 2002. A calcium pump made visible. Current
Opinion in Structural Biology, 12:547-554. 文件编号: 05022.
[31]
Lee AG. 2002. Ca2+-ATPase structure in the E1
and E2 conformations: mechanism, helix–helix and helix–lipid interactions.
Biochimica et Biophysica Acta, 1565:246-266. 文件编号: 05017.
[32]
Levin M, Thorlin T,
Robinson KR,et
al. 2002. Asymmetries in H+/K+-ATPase
and cell membrane potentials comprise a very early step in left-right
patterning. Cell, 111:77–89. 文件编号: 05051.
[33]
Lodish H, et al. 1999. Chapter 15. Transport across
cell membranes,
in Molecular Cell Biology 4th.
WH. Freeman and Company, 578-614. 文件编号: 05052.
[34]
Long SB, et al. 2005. Crystal structure of a mammalian
voltage dependent shaker family K+ channel. Science, 309:897. 文件编号: 05039.
[35]
Long SB, et al. 2005. Voltage sensor of Kv1.2:
structural basis of electromechanical coupling. Science, 309:903. 文件编号: 05040.
[36]
Mancia F, Shapiro L. 2002. Chloride channel function: partial charges and
dipolar rods. Structure,
10:283-284. 文件编号: 05025.
[37]
Martinaca B, Kloda A. 2003. Evolutionary origins of
mechanosensitive ion channels. Progress
in Biophysics & Molecular Biology,
82:11–24. 文件编号: 05046.
[38]
Mille G. 2003. Gateways into cells usher in nobels.
Science, 302:383.
文件编号: 05043.
[39]
Mille G. 2003. The puzzling portrait of a pore.
Science, 300:2020.
文件编号: 05042.
[40]
Miloshevsky GV, Jordan PC. 2004. Permeation in ion channels: the interplay of structure and
theory. Trends in Neurosciences,
6:308-314. 文件编号: 05009.
[41]
Minor DL. 2001. Potassium channels: life in the
post-structural world. Current Opinion in Structural Biology,
11: 408-414. 文件编号: 05030.
[42]
Moe PC, Blount P, Kung C. 1998. Functional and
structural conservation in the mechanosensitive
channel implicates elements crucial for mechanosensation.
Mol Microbiol,
28:583–592. 文件编号: 05056.
[43]
Patel AJ, Lazdunski
M, Honoré E. 2001. Lipid and mechano-gated 2P domain K+ channels. Current Opinion in Cell
Biology, 13:422-428.
文件编号: 05031.
[44]
Perozo E. 2002. New structural perspectives on k+ channel gating. Structure,
10:1027-1029. 文件编号: 05026.
[45]
Phogat SK, Dimitrov DS. 2003. Cell biology of virus
entry: a review of selected topics from the 3rd International
Frederick meeting. Biochimica et Biophysica
Acta (BBA) - Biomembranes, 1614(1):85-88. 文件编号: 05001.
[46]
Pighin JA, Zheng H, Balakshin
LJ, et al. 2004. Plant cuticular lipid
export requires an ABC transporter. Science,
306: 704-706. 文件编号: 05057.
[47]
Randak C, Welsh MJ. 2003. An intrinsic adenylate
kinase activity regulates gating of
the ABC transporter CFTR. Cell,
115:837–850. 文件编号: 05047.
[48]
Roosild TP, Lê
KT, Choe S. 2004. Cytoplasmic gatekeepers of K+-channel flux: a structural perspective.
Trends in Biochemical Sciences, 29:39-45. 文件编号: 05014.
[49]
Roux B, Schulten K.
2004. Computational studies of membrane channels. Structure, 12:1343-1351. 文件编号: 05007.
[50]
Sansom MSP, Capener CE. 2002. Ion channels: open
at last. Current Biology,
12:R566-R568. 文件编号: 05027.
[51]
Sansom MSP, Shrivastava IH, Bright JN, et al. 2002.
Potassium channels: structures, models, simulations. Biochimica
et Biophysica Acta, 1565:294-307. 文件编号: 05019.
[52]
Service RF. 2005. A New Portrait Puts Potassium
Pore in a Fresh Light. Science, 309:867. 文件编号: 05041.
[53]
Sigworth FJ. 2001. Potassium channel mechanics. Neuron, 32:555-556. 文件编号: 05028.
[54]
Sprengel R, Aronoff
R, Völkner M, et al. 2001. Glutamate
receptor channel signatures. Trends in Pharmacological Sciences, 22:7-10. 文件编号: 05034.
[55]
Taylor CW, da
Fonseca PCA, Morris EP. 2004. IP3 receptors:
the search for structure. Trends in Biochemical Sciences, 29:210-219. 文件编号: 05013.
[56]
Tyerman SD, Bohnert HJ, Maurel
C, et al. 1999. Plant aquaporins: their
molecular biology, biophysics and significance for plant water
relations. J. Exp. Bot,
50:1055-1071. 文件编号: 05049.
[57]
van Veen HW. 2001. Towards
the molecular mechanism of prokaryotic and eukaryotic multidrug
transporters. Seminars in Cell & Developmental Biology, 12:239-245. 文件编号: 05002.
[58]
Wipf D, Ludewig U, Tegeder
M, et al. 2002. Conservation of amino acid transporters in fungi,
plants and animals. Trends in Biochemical Sciences,
27:139-147. 文件编号: 05037.
[59]
Wollmuth LP, Sobolevsky AI. 2004. Structure and gating
of the glutamate receptor ion channel. Trends in Neurosciences, 27:321-328. 文件编号: 05011.
[60]
Zagotta WN. 2001. Structure that opens the gate and opens the door. Neuron,
29:547-548. 文件编号: 05033.
