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Items: 1 to 20 of 117

1.

Functional investigation of transmembrane helix 3 in H⁺-translocating pyrophosphatase.

Lee CH, Chen YW, Huang YT, Pan YJ, Lee CH, Lin SM, Huang LK, Lo YY, Huang YF, Hsu YD, Yen SC, Hwang JK, Pan RL.

J Membr Biol. 2013 Dec;246(12):959-66.

PMID:
24121627
2.

Role of transmembrane segment 5 of the plant vacuolar H+-pyrophosphatase.

Van RC, Pan YJ, Hsu SH, Huang YT, Hsiao YY, Pan RL.

Biochim Biophys Acta. 2005 Aug 15;1709(1):84-94.

3.

Roles of histidine residues in plant vacuolar H(+)-pyrophosphatase.

Hsiao YY, Van RC, Hung SH, Lin HH, Pan RL.

Biochim Biophys Acta. 2004 Feb 15;1608(2-3):190-9.

4.

Deletion mutation analysis on C-terminal domain of plant vacuolar H(+)-pyrophosphatase.

Lin HH, Pan YJ, Hsu SH, Van RC, Hsiao YY, Chen JH, Pan RL.

Arch Biochem Biophys. 2005 Oct 15;442(2):206-13. Epub 2005 Sep 2.

PMID:
16185650
5.

Mutagenic analysis of functional residues in putative substrate-binding site and acidic domains of vacuolar H+-pyrophosphatase.

Nakanishi Y, Saijo T, Wada Y, Maeshima M.

J Biol Chem. 2001 Mar 9;276(10):7654-60. Epub 2000 Dec 11.

6.

Elucidating the role of conserved glutamates in H+-pyrophosphatase of Rhodospirillum rubrum.

Malinen AM, Belogurov GA, Salminen M, Baykov AA, Lahti R.

J Biol Chem. 2004 Jun 25;279(26):26811-6. Epub 2004 Apr 23.

7.

Identification of the critical residues for the function of vacuolar H⁺-pyrophosphatase by mutational analysis based on the 3D structure.

Asaoka M, Segami S, Maeshima M.

J Biochem. 2014 Dec;156(6):333-44. doi: 10.1093/jb/mvu046. Epub 2014 Jul 28.

PMID:
25070903
8.

Membrane-bound pyrophosphatase of Thermotoga maritima requires sodium for activity.

Belogurov GA, Malinen AM, Turkina MV, Jalonen U, Rytkönen K, Baykov AA, Lahti R.

Biochemistry. 2005 Feb 15;44(6):2088-96.

PMID:
15697234
9.

Membrane topology of the H+-pyrophosphatase of Streptomyces coelicolor determined by cysteine-scanning mutagenesis.

Mimura H, Nakanishi Y, Hirono M, Maeshima M.

J Biol Chem. 2004 Aug 13;279(33):35106-12. Epub 2004 Jun 8.

10.

Functional roles of arginine residues in mung bean vacuolar H+-pyrophosphatase.

Hsiao YY, Pan YJ, Hsu SH, Huang YT, Liu TH, Lee CH, Lee CH, Liu PF, Chang WC, Wang YK, Chien LF, Pan RL.

Biochim Biophys Acta. 2007 Jul;1767(7):965-73. Epub 2007 May 3.

11.

Squeezing at entrance of proton transport pathway in proton-translocating pyrophosphatase upon substrate binding.

Huang YT, Liu TH, Lin SM, Chen YW, Pan YJ, Lee CH, Sun YJ, Tseng FG, Pan RL.

J Biol Chem. 2013 Jul 5;288(27):19312-20. doi: 10.1074/jbc.M113.469353. Epub 2013 May 29.

12.

Crystal structure of a membrane-embedded H+-translocating pyrophosphatase.

Lin SM, Tsai JY, Hsiao CD, Huang YT, Chiu CL, Liu MH, Tung JY, Liu TH, Pan RL, Sun YJ.

Nature. 2012 Mar 28;484(7394):399-403. doi: 10.1038/nature10963.

PMID:
22456709
13.

The proximity between C-termini of dimeric vacuolar H+-pyrophosphatase determined using atomic force microscopy and a gold nanoparticle technique.

Liu TH, Hsu SH, Huang YT, Lin SM, Huang TW, Chuang TH, Fan SK, Fu CC, Tseng FG, Pan RL.

FEBS J. 2009 Aug;276(16):4381-94. doi: 10.1111/j.1742-4658.2009.07146.x. Epub 2009 Jul 15.

14.

Structure of inorganic pyrophosphatase from Helicobacter pylori.

Wu CA, Lokanath NK, Kim DY, Park HJ, Hwang HY, Kim ST, Suh SW, Kim KK.

Acta Crystallogr D Biol Crystallogr. 2005 Nov;61(Pt 11):1459-64. Epub 2005 Oct 19.

PMID:
16239722
15.
16.

Identification of essential lysines involved in substrate binding of vacuolar H+-pyrophosphatase.

Lee CH, Pan YJ, Huang YT, Liu TH, Hsu SH, Lee CH, Chen YW, Lin SM, Huang LK, Pan RL.

J Biol Chem. 2011 Apr 8;286(14):11970-6. doi: 10.1074/jbc.M110.190215. Epub 2011 Feb 3.

17.

Differential regulation of vacuolar H+-ATPase and H+-PPase in Cucumis sativus roots by zinc and nickel.

Kabała K, Janicka-Russak M.

Plant Sci. 2011 Mar;180(3):531-9. doi: 10.1016/j.plantsci.2010.11.013. Epub 2010 Dec 4.

PMID:
21421401
19.

Membrane-integral pyrophosphatase subfamily capable of translocating both Na+ and H+.

Luoto HH, Baykov AA, Lahti R, Malinen AM.

Proc Natl Acad Sci U S A. 2013 Jan 22;110(4):1255-60. doi: 10.1073/pnas.1217816110. Epub 2013 Jan 7.

20.

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