A. Literature:
B. Research Paper:
Publication List of Dr. Rong Long Pan
Research Paper:
(1). Izawa, S. and R.L. Pan (1978): “Photosystem I electron transport and phosphorylation supported by electron donation to the plastoquinone region”, Biochim. Biophys. Res. Comm. 83(3), 1171-1177.
(2). Pan, R.L. and S. Izawa (1979): “Photosystem II energy coupling in chloroplast with H202– as electron donor”, Biochim. Biophys. Acta 547, 311-319.
(3). Bhardwaj, R., R.L. Pan and E. L. Gross (1981): “Solar energy conversion by chloroplast photoelectrochemical cells”, Nature 298, 396-398.
(4). Bhardwaj, R., R. L. Pan and E.L. Gross (1981): “Photosystem I-phenosafranine solar cell”, Photochem. Photobiol. 34, 215-222.
(5). Bhardwaj, R., R. L. Pan and E. L. Gross (1981): “Photopotential generation by Photosystem I-mediated and proflavin-catalyzed photo-reduction of methyl viologen”, Photochem. Photobiophys. 3, 19-30.
(6). Pan, R.L., I.J. Fan, R. Bhardwaj, and E.L. Gross (1982): “A photosynthetic photoelectrochemical cell using flavin mononucleotide as electron acceptor”, Photochem. Photobiol. 35, 655-664.
(7). Bhardwaj, R., R.L. Pan, and E.L. Gross (1981): “A photosynthetic photo-electrochemical cell in Photosynthesis: Photosynthesis and productivity, photosynthesis and environment”, Vol VI, ed. by G. Akoyunoglou, Balaban Intl. Sci. Service, Philadelphia, PA, p719-728.
(8). Fan, I.J., R.L. Pan, and E.L. Gross (1982): “A CdS catalyzed photosynthetic photoelectrochemical cell”, Electrochim. Acta 27(9), 1219-1226.
(9). Pan, R.L., R. Bhardwaj, and E.L. Gross (1983): “Photochemical energy conversion by a thiazine photosynthetic photoelectro-chemical cell”, J. Chem. Tech. Biotech. 33A, 39-48.
(10). Fan, I.J., I. H. Chiang, R.L. Pan, R. Bhardwaj, and E. L. Gross (1983): “The photolysis of alcohol under visible light”, J. Shanghai Teacher's College (Nature Science ed.) 3, 87-92.
(11). Sanderson, D.G., R.L. Pan, and E.L. Gross (1983): “Studies of a photosynthetic photoelectrochemical cell using various electrodes”, Appl. Biochem. Biotechnol. 8, 395-405.
(12). Lee, J.Y., B.D. Hsu, and R.L. Pan (1985): “The high affinity binding site for calcium on the oxidizing side of photosystem II”, Biochem. Biophys. Res. Comm. 128(1), 464-469.
(13). Draheim, J.E., G.P. Anderson, R.L. Pan, L. M. Rellick, J.W. Duane and E.L. Gross (1985): “Conformational changes of plastocyanine”. Arch. Biochem. Biophys. 237, 110-117.
(14). Pan, R. S. B. D. Hsu, M. Y. Wang, and R. L. Pan (1986): “The determination of functional size of photosynthetic electron transport chain: The application of radiation target theory”. Nuclear Sci. J. 23(5), 393-302.
(15). Hsu, B.D., R. S. Pan, W.J. Lin, M. Y. Wang, C.S. Chiang, and R.L. Pan (1987): “The application of radiation target theory to the determination of functional size of biological molecules”. Nuclear Sci. J. 23(6), 379-396.
(16). Hsu, B.D., J.Y. Lee, and R.L. Pan (1987): “The two binding sites for DCMU in photosystem II”. Biochem. Biophys. Res. Comm. 1412, 682-688.
(17). Hsu, B.D., J.Y. Lee, and R.L. Pan (1987): “The high affinity binding site for manganese on the oxidizing side of photosystem II”. Biochim. Biophys. Acta 890, 89-96.
(18). Pan, R.S., L.F. Chien, M.Y. Wang, M.Y. Tsai, R.L. Pan, and B.D. Hsu (1987): “Functional size of photosynthetic electron transport chain determined by radiation inactivation”. Plant Physiol. 85, 158-166.
(19). Hsu, B.D., W.J. Lin, J.Y. Lee, and R.L. Pan (1987): “Evidence for structural distinction between PSIIa and PSIIb reaction centers”, FEBS Lett. 217, 53-56.
(20). Chou, Y.C., N.T. Liang, R.L. Pan, C.S. Kuo and T.T. Chen (1987): “The effects of protonation on the Surface-Enhanced Raman Scattering from ATP molecule absorbed on the Ag electrode”, Chem. Phys. Lett. 137, 386-390.
(21). Wang, M. Y., L.F. Chien, and R.L. Pan (1988): “Radiation inactivation analysis of chloroplast CF-CF1–ATPase”, J. Biol. Chem. 263(18), 8838-8843.
(22). Wang, M. Y., M. Y. Tsai, R.L. Pan, and E.L. Gross (1989): “Chemical modification of plastocyanin with 7-chloro-4-nitrobenz-2-oxa-1,3-diazole: preparation and characterization”, Bot. Bull. Academia Sinica 30, 59-69.
(23). Wang, M.Y., Y.H. Lin, W.M. Chou, T.P. Chung, and R.L. Pan (1989): “Purification and characterization of tonoplast H+-ATPase from etiolated mung bean seedlings”, Plant Physiol. 90, 475-481.
(24). Chen, W.L., Hong, J. L., and R.L. Pan (1989): “Arrhenius analysis of photosynthetic electron transport under protein phosphorylation”, Biochem. Intl. 19(6), 1309-1315.
(25). Kuo, S.Y. and R.L. Pan (1990): “An essential arginyl residue in H+-pyrophosphatase of hypocotyls from etiolated mung beans”, Plant Physiol. 93, 1128-1133.
(26). Wu, J.J., Ma, J.T., and Pan, R.L. (1991): “Functional size analysis of pyrophosphatase from Rhodospirillum rubrum determined by radiation inactivation”. FEBS Lett, 283, 57-60.
(27). Chou, W.M., Tzeng, C.M., Wang, M.Y., Chen, C.S., and Pan, R.L. (1992): ”Inhibition of tonoplanst H+-ATPase by 2’,3’-dialdehyde derivative of ATP”. Plant Physiol. 98, 44-52.
(28). Chen, W.L., Gross, E.L., and Pan, R.L. (1992): “A photo-electrochemical cell using electrodes modified by photosystem I particles of spinach”. Bot. Bull. Acad. Sin. 33, 9-15.
(29). Tzeng, C.M., Hsu, L.H., and Pan, R.L. (1992): “Chemical modification of tonoplast H+-ATPase by fluorescein 5'-isothiocyanate”. Biochem. J. 285, 737-743.
(30). Hsu, L.H., Tzeng, C.M., and Pan, R.L. (1993a): “Functional size of the thylakoid phosphatase determined by radiation inactivation”. FEBS Lett. 318, 1-3.
(31). Hsu, L.H., Tzeng, C.M., and Pan, R.L. (1993b): “Characterization of the phosphatase from spinach thylakoids”. Bot. Bull. Acad. Sin. 34, 175-182.
(32). Ma, J.T., Wu, J.J., Tzeng, C.M., and Pan, R.L. (1993): “Functional size analysis of F-ATPase from Escherichia coli by radiation inactivation”. J. Biol. Chem. 268, 10802-10807.
(33). Tzeng, C.M., Chou, W.M., Chu, C.L., Yang, C.Y., Chiang, P.T., Wang, M.Y., Lin, Y. H., Lin, W.J., Lin, M. H., Hsu, L.,H., and Pan, R.L. (1993): “Structural mapping of vacuolar H+-ATPase from higher plants”. in Recent Advances in Botany, ed. Hsing, Y.I., Chou, C. H., Acad. Sinica, 187-194.
(34). Chien, L.F., Wu, C.J., Tzeng, C.M., and Pan, R.L. (1993): “H+-ATPase of Rhodospirillum rubrum requires three functional copies of B subunit as determined by radiation inactivation analysis”, Biochem. Mol. Biol. Interntl. 31, 13-18.
(35). Su, J.H., Tzeng, C.M., Jiang S.S., and Pan, R.L. (1993): “Characterization of thylakoid membrane inorganic pyrophosphatase from Spinachia oleracia L.”, Chia Nan Ann. Bull. 19, 33-44.
(36). Hung, S.H., Chiu, S.J., Lin, L.Y., and Pan, R.L. (1995): “Vacuolar H+-pyrophosphatase cDNA from etiolated mung bean seedlings” Plant Physiol. 109, 1125-1127
(37). Chiu, S.J., Hung, S.H., Lin, L.Y., and Pan, R.L. (1995): “A cDNA clone encoding the A subunit of the vacuolar H+-ATPase from etiolated mung bean seedlings.” Plant Physiol. 109, 1125-1127.
(38). Tzeng, C.M., Yang, C.Y., Yang, S.J., Jiang, S.S., Kuo, S.Y., Hung, S.S., Ma, J.T., and Pan, R.L. (1996): “Subunit structure of vacuolar proton pyrophosphatase as determined by radiation inactivation” Biochem. J. 316, 143-147.
(39). Ambesi, A, Pan, R.L., and Slayman, C.W. (1996): “Alanine-scanning mutagenesis along membrane segment 4 of the yeast plasma membrane H+-ATPase” J. Biol. Chem. 271, 22999-23005.
(40). Yang, S.J., Jiang, S.S., Tzeng, C.M., Kuo, S.Y., Hung, S.H., and Pan, R.L. (1996): “Involvement of tyrosine residue in the inhibition of plant vacuolar H+-pyrophosphatase by tetranitromethane” Biochim. Biophys. Acta 1294, 89-97.
(41). Chen, C.S., Chao, H.T., Pan, R.L., and Wei, Y.H. (1997): “Hydroxyl radical-induced decline in motility and increase in lipid peroxidation and DNA modification in human sperm” Biochem. Mol. Biol. Intl. 43, 291-303.
(42). Chen, C.S., Chao, H.T., Pan, R.L., and Wei, Y.H. (1997): “Maintenance of human sperm motility and prevention of oxidative damage through co-culture incubation” Andrologia 29, 227-233.
(43). Jiang, S.S, Fan, L.L., Yang, S.J., Kuo, S.Y., and Pan, R.L. (1997): “Purification and characterization of thylakoid membrane-bound inorganic pyrophosphatase”. Arch. Biochem. Biophys. 346, 105-112.
(44). Chen, C.S., Chao, H.T., Pan, R.L., and Wei, Y.H. (1998): “Direct measurement of the tail beat frequency of human sperm by flash light synchronization”. Androl. 30, 49-54.
(45). Tsai, Y.R., Yang, S.J., Jiang, S.S., Ko, S.J., Hung, S.H., Kuo, S.Y., and Pan, R.L. (1998): “High pressure effects on vacuolar H+-ATPase from etiolated mung bean seedlings”. J. Protein Chem. 17(2), 161-172.
(46). Yang, S.S., Ko, S.S., Tsai, Y.R., Yang, S.J., Jiang, S.S., Kuo, S.Y., Hung, S.H., and Pan, R.L. (1998): “Subunit interaction of vacuolar H+-pyrophosphatase as determined by high pressure”. Biochem. J. 330, 395-402.
(47). Kuo, S.Y., Tzeng, C.M., Lin, W.J., Jiang, S.S., Hung, S.H., and Pan, R.L. (1999): “An essential arginine residue in tonoplast H+-ATPase from etiolated mung bean seedlings”. Bull. Bot. Acad. Sin. 40, 127-134.
(48). Yang, S.J., Jiang, S.S., Kuo, S.Y., Hung, S.H., Tam, M.H., and Pan, R.L. (1999): “Localization of a carboxylic residue possibly involved in the inhibition of vacuolar H+-pyrophosphatase by N,N’- dicyclohexylcarbodi-imide”. Biochem. J. 342, 641-646.
(49). Yang, S.J., Jiang, S.S., Van, R.C., Hsiao, Y.Y., and Pan, R.L., (2000):“A lysine residue involved in the inhibition of vacuolar H+-pyrophosphatase by fluorescein 5'-isothiocyanate”, Biochim. Biophys. Acta. 1460 (2-3): 375-83
(50). Jiang, S.S., Yang, S.J., Kuo, S.Y., and Pan, R.L. (2000): “Radiation inactivation analysis of H+-pyrophosphatase from submitochondrial particles of etiolated mung bean seedlings” FEBS Lett. 468, 211-214.
(51). Wu, C.M., Liu, T.J., Huang, C.C., Hwang, T.L., and Pan, R.L. (2001): “Human progestrone receptor shows differential sensitivity to carboxyl group modifying agents when bound to agonist and antagonist ligands”, Chang Guang Med. J. 24 (3), 151-158.
(52). Chu C.L., Hsiao Y.Y., Chen C.H., Van R.C., Lin, W.J., and Pan, R.L. (2001): “Inhibition of plant vacuolar H+-ATPase by diethylpyrocarbonate”, Biochim. Biophys. Acta. 1506(1): 12-22
(53). Hsiao, Y.Y., Van, R.C., Hung, H.H., and Pan, R.L. (2002): “Diethylpyrocarbonate inhibition of H+-pyrophosphatase possibly involves a histidine residue”. J. Protein Chem. 21, 51-58.
(54). Moon, YH., Chen, L., Pan, RL. Chang, HS, Zhu, T., Maffeo, DM, and Sung, ZR (2003): “EMF genes maintain vegetative development by repressing the flower program in Arabidopsis”, Plant Cell 15, 681-693.
(55). Hsiao, Yi Y., Van, R. C. Hung, S. H., Lin, H. H., and Pan, R.L. (2004): “Roles of histidine residues in plant vacuolar H+-pyrophosphatase” Biochim. Biophys. Acta 1608, 190-199.
(56). Yan, K.H., Liu, P.F., Tzeng, H.T., Chang, W.C., Chou, W.G., and Pan, R.L. (2004): “Characterization of DNA end-binding activities in higher plants” Plant Physiol. Biochem., 42, 617-622.
(57). Yang, S.J., Jiang, S.S., Hsiao, Y.Y., Van, R.C., Pan, Y.J., and Pan, R.L. (2004): “Thermoinactivaion analysis of vacuolar H+-pyrophosphatase” Biochim. Biophys. Acta, 1656, 88-95.
(58). Wu, C.M., Liu, T.J., Hsieh, L.L., and Pan, R.L. (2004): “Radiation inactivation analysis of progesterone receptor in human uterine cytosol”, Protein J., 23(7), 461-465.
(59). Kuo, S. Y., Chien, L. F., Hsiao, Y. Y., Van, R. C., Yan, K. H., Liu, P. F., Mao, S. J. and Pan, R. L. (2005) “Proton pumping inorganic pyrophosphatase of endoplasmic reticulum-enriched vesicles from etiolated mung bean seedlings”, J. Plant Physiol. 162, 129-138.
(60). Van R. C., Pan Y. J., Hsu S. H., Huang Y. T., Hsiao Y. Y., Pan R. L. (2005) “Role of transmembrane segment 5 of the plant vacuolar H+-pyrophosphatase.” Biochim. Biophys. Acta, 1709(1): 84-94.
(61). Lin, H.H., Pan, Y.J., Hsu, S.H., Van, R.C., Hsiao, Y.Y., Chen, J.H., and Pan, R.L. (2005) “Deletion mutation analysis on C-terminal domain of plant vacuolar H+-pyrophosphatase”, Arch. Biochem. Biophys. 442 (2005) 206-213.
(62). Kuo, S.Y., Chien, L.F.,Van, R.C., Yan, K.H., Liu, P.F., Chang, W.C., Wang, J.K. and R.L. Pan, (2005) “Purification and subunit determination of H+-pyrophosphatase from endoplasmic reticulum-enriched vesicles of mung bean seedlings”, Plant Sci. 169, 347-353.
(63). Lee, S.C., L.F. Chien, R.C. Van, Y.Y. Hsiao, J.L. Hong, and R.L. Pan (2006) “Radiation inactivation analysis of thylakoid protein kinase systems in light and in darkness”, Photosynthetics 44 (1): 116-124.
(64). Chiu, F.S., Hsu, S.H., Chen, J.H., Hsiao, Y.Y., Pan, Y.J., Van, R.C., Huang, Y.T., Tseng, F.G., Chou, W.M., Fan, S.K., and Pan, R.L. (2006) “Differential response of vacuolar proton pumps to osmotica”, Funct. Plant Biol. 33, 195-206.
(65). Liu, P.F., W.C. Chang, Y.K. Wang, S.B. Munisamy, S.H. Hsu, H.Y. Chang, S.H. Wu, and R.L. Pan (2007) “Differential regulation of Ku gene expression in etiolated mung bean hypocotyls by auxins.” Biochim. Biophys. Acta 1769, 443-454.
(66). Hsiao, Y.Y., Y.J. Pan, S.H. Hsu, Y.T. Huang, T.H. Liu, C.H. Lee, P.F. Liu, W.C. Chang, Y.K. Wang, L.F. Chien, and R.L. Pan (2007) “Functional roles of arginine residues in mung bean vacuolar H+-pyrophosphatase”. Biochim. Biophys. Acta 1767, 965-973.
(67). Huang, C.H., Lin, T.Y., Pan, R.L., and Juang, J.L. (2007) “The Involvement of Abl and PTP61F in the regulation of Abi protein localization and stability and lamella formation in Drosophila S2 Cells”. J. Biol. Chem. 282 (44), 32442–32452.
(68). Liu, P.F., Chang, W.C., Wang, Y.K., Chang, H.Y., and Pan, R.L. (2008) “Signaling pathways mediating the suppression of Arabidopsis thaliana Ku gene expression by abscisic acid”. Biochim. Biophys. Acta 1779, 164–174.
(69). Chang, W.C., Wang, Y.K., Liu, P.F., Tsai, Y.F., Kong, L.R., Lin, C.K., Yang, C.H., and Pan, R.L. (2008) “Regulation of Ku gene promoters in Arabidopsis by hormones and stress” Funct. Plant Biol., 35, 265-280.
(70). Liu, P.F., Wang, Y.K., Chang, W.C., Chang, H.Y., and Pan, R.L. (2008) “Regulation of Arabidopsis thaliana Ku genes at different developmental stages under heat stress”. Biochim. Biophys. Acta 1779, 402-407.
(71). Liu, W.T., Lin, S.C., Chou, W.I., Liu, T.H., Pan, R.L., Tzou, D.L., Hua, T.E., and Chang, M.D.T. (2008). “Identification and characterization of a novel fibril forming peptide in fungal starch binding domain”. Biochem. Biophys. Res. Commun. 377 (2008) 966–970.
(72). Chang, W.C., Lee, T.Y., Huang, H.D., Huang, H.Y., and Pan, R.L. (2008). “PlantPAN: Plant Promoter Analysis Navigator, for identifying combinatorial cis-regulatory elements with distance constraint in plant gene groups”. BMC Genomics, 9, 561-575.
(73). Chang, W.C., Lee, T.Y., Hsu, J.B.K., Hsu, P.C., Wang, T.Y., Huang, H.D., Pan, R.L. (2009). “Incorporating support vector machine for identifying protein tyrosin sulfonation sites”. J. Comput. Chem. 30 (15), 2526-2537.
(74). Hsu, S.H., Hsiao, Y.Y., Liu, P.F., Lin, S.M., Luo, Y.Y., Pan, R.L. (2009) “Purification, characterization, and spectral analyses of histidine-tagged vacuolar H+-pyrophosphatase expressed in yeast”. Bot. Stud. 50, 291-301.
(75). Liu, T.H., Hsu, S.H., Huang, Y.T., Lin, S.M., Huang, T.W., Chuang, T.H., Fan, S.K., Fu, C.C., Tseng, F.G., Pan, R.L. (2009) “The proximity between C-termini of dimeric vacuolar H+-pyrophosphatase determined using atomic force microscopy and gold nanoparticle technique”. FEBS J. 276, 4381-4396.
(76). Lin, T.Y., Huang, C.H., Kao, H.H., Liou, G.G., Yeh, S.R., Cheng, C.M., Chen, M.H., Pan, R.L., and Juang, J.L. (2009): “Abi plays an opposing role to Abl in Drosophila axonogenesis and synaptogenesis” Development, 136, 3099-3107.
(77). Hsu, S.H., Lo, Y.Y., Tung, J.Y., Ko, Y.C., Sun, Y.J., Hung, C.C., Yang, C.W., Tseng, F.G., Fu, C.C., and Pan, R.L.(2010): “Leptospiral outer membrane lipoprotein LipL32 binding on Toll-like receptor 2 of renal cell as determined by Atomic Force Microscope” Biochemistry, 49 (26), 5408-17.
(78). Huang, Y.T., Liu, T.H., Chen, Y.W., Lee, C.H., Chen, H.H., Huang, T.W., Hsu, S.H., Lin, S.M., Pan, Y.J., Lee, C.H., Hsu, I.C., Tseng, F.G., Fu, C.C., and Pan, R.L. (2010): “Distance variations between active sites of H+-pyrophosphatase determined by fluorescence resonance energy transfer” J. Biol. Chem. 285 (31), 23655–23664.
(79). Wang, Y.K., Chang, W.C., Liu, P.F., Hsiao, M.K., Lin, C.T., Lin, S.M., and Pan, R.L. (2010): ”Ovate family protein 1 as a plant Ku70 interacting proteininvolving in DNA double-strand break repair” Plant Mol. Biol. 74, 453-466.
(80). Pan, Y.J., Lee, C.H., Hsu, S.H., Huang, Y.T., Lee, C.H., Liu, T.H., Chen, Y.W., Lin, S.M., and Pan, R.L. (2010): “The transmembrane domain 6 of vacuolar H+-pyrophosphatase mediates protein targeting and proton transport” Biochim. Biophys. Acta, 1807, 59-67.
(81). Shieh, G.J., Chien, L.F., and Pan, R.L. (2011): “The extrinsic proteins of oxygen-evolving complex in marine diatom Cylindrotheca fusiformis.” Bot. Stud. 52, 161-171.
(82). Lee, C.H., Pan, Y.J., Huang, Y.T., Liu, T.H., Hsu, S.H., Lee, C.H., Chen, Y.W., Lin, S.M., and Pan, R.L. (2011): “Identification of essential lysines involved in substrate binding of vacuolar H+-pyrophosphatase”, J. Biol. Chem. 286 (14), 11970–11976
(83). Huang, C.H., Hsiao, P.Y., Tseng, F.G., Fan, S.K., Fu, C.C., and Pan, R.L. (2011): “Pore-spanning lipid membrane under indentation by a probe tip: a molecular dynamics simulation study” Langmuir, 27, 11930-42
(84). Shiung, Y.-T., Chiang, C.-Y., Chen, J.-B., Wu, P.C., Hung, A.F.-H., Lu, D.C.-S., Pan, R.-L., and Chang, T.W. (2012) “ An anti-IgE monoclonal antibody that binds to IgEon CD23 but not on high affinity IgE.Fc receptor” Immunol. 217(7): 676-83
(85). Lin, S. M., Tsai, J. Y., Hsiao, C. D., Chiu, C. L., Liu, M. H., Tung, J. Y., Huang, Y. T., Liu, T. H., Pan, R. L., and Sun, Y. J. (2012) “Crystal structure of a membrane-embedded H+-translocating pyrophosphatase” Nature 484, 399-404 (*Co-corresponding author)
(86). Wu, S.C., Jiang, S.S., Pan, R.L., and Juang, J.L. (2012) “Intestinal oxidative stress triggers oxygen-to-organ immunological communication in Drosophila” Cell Host & Microbe.11, 410–417
(87). Lin, C.J., Chen, N.Y., Chen, J.B., Lu, C.S., Hung, A.F., Shiung, Y.Y., Wu, P.C., Pan, R.L., Chang, T.W. (2012) “CɛmX peptide-carrying HBcAg virus-like particles induced antibodies that down-regulate mIgE-B lymphocytes” Mol. Immunol. 52, 190-199
(88). Lo, Y.Y., Hsu, S.H., Ko, Y.C., Hung, C.C., Chang, M.Y., Hsu, H.H., Pan, M. J., Chen, Y.W., Lee, C.H., Tseng, F.G., Sun, Y.J., Yang, C.W. Pan, R.L. (2013) “Essential calcium binding cluster of Leptospira LipL32 for inflammatory responses through the Toll-like receptor 2 pathway” J. Biol. Chem. 288(17), 12335–12344
(89). Lee, C.H., Chen, Y.W., Huang, Y.T., Pan, Y.J., Lee, C.H., Lin, S.M., Huang, L.K., Lo, Y.Y., Huang, Y.F., Shiu, Y.D., Pan R.L. (2013) “Functional investigation of transmembrane helix 3
in H+-translocating pyrophosphatase” J. Membrane Biol. 246:959–966.
(90). Huang, Y.T., Liu, T.H., Lin, S.M., Chen, Y.W., Pan, Y.J., Lee, C.H., Sun, Y.J., Tseng, F.G., Pan, R.L. (2013) “Squeezing at entrance of proton transport pathway in proton-translocating pyrophosphatase upon substrate binding” J. Biol. Chem. 288(27), 19312–19320.
(91). Chen, Y.W., Lee, C.H., Huang, Y.T., Pan, Y.J., Lin, S.M., Lo, Y.Y., Lee, C.H., Huang, L.K., Huang, Y.F., Shiu, Y.D., Pan, R.L. (2014) “Functional and fluorescence analyses of tryptophan residues in H+-pyrophosphatase of Clostridium tetani“ J. Bioenerg. Biomembr. 46:127–134
(92). Fan, S.K., Chen, C.W., Lin,Y.Y., Chen, L.C., Tseng, F.G., and Pan, R.L. (2014) “Formation of suspended bilayer lipid membrane between electrowetting-driven encapsulated droplets” Biomicrofluidics 8: 052006
(93). Hsu, S.H., Lo, Y.Y., Liu, T.H., Pan, Y.J., Chen, Y.W., Huang, Y.T., Lee, C.H., Sun, Y.J., Tseng, CF.G., Yang, C.W., and R.L. Pan (2015): “Substrate induced changes in domains interaction of vacuolar H+-pyrophosphatase” J. Biol. Chem. 290 (2), 1197-1209
(94). Liu, T.H., Huang, Y.T., Cheng, H.W., Jheng, W.Y., Huang, T.W., Fan, S.K., Fu, C.C., Pan, R.L., and Tseng, F.G. (2014): “A single-molecule take-and-place technique for positioning a functional membrane protein on a lipid bilayer” Nano Lett, (Submitted).
(95). Chuang, T., Jiang, M., Mikolas, D., Lei, W., Shew, B., Pan, R.L., and Fu, C.C. (2014) “Swelling phenomena of PMMA in x-ray lithography under low accumulated dose”. J. Micromechan. Microengin. (Revised)
(96). Cai, T., Chen, H.,Yan, L ., Zhang, C., Deng, Y., Wu, S ., Pan, R.L.,Chen, S ., Zhuang, W.J. (2015): RIP expression driven by the root-specific NtR12 promotes resistance to bacterial wilt disease ”. J. Integr. Plant Biol. (Revised)
omitted, ~40 papers in recent five years; totally >150 papers
(Update : 3/7/2015)