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Items: 19

1.

Arabidopsis XTH4 and XTH9 contribute to wood cell expansion and secondary wall formation.

Kushwah S, Banasiak A, Nishikubo N, Derba-Maceluch M, Majda M, Endo S, Kumar V, Gomez L, Gorzsás A, McQueen-Mason S, Braam J, Sundberg B, Mellerowicz EJ.

Plant Physiol. 2020 Jan 31. pii: pp.01529.2019. doi: 10.1104/pp.19.01529. [Epub ahead of print]

2.

Mechanical Asymmetry of the Cell Wall Predicts Changes in Pavement Cell Geometry.

Majda M, Krupinski P, Jönsson H, Hamant O, Robert S.

Dev Cell. 2019 Jul 1;50(1):9-10. doi: 10.1016/j.devcel.2019.06.002. No abstract available.

PMID:
31265814
3.

Cellular Force Microscopy to Measure Mechanical Forces in Plant Cells.

Majda M, Sapala A, Routier-Kierzkowska AL, Smith RS.

Methods Mol Biol. 2019;1992:215-230. doi: 10.1007/978-1-4939-9469-4_14.

PMID:
31148041
4.

A role for the auxin precursor anthranilic acid in root gravitropism via regulation of PIN-FORMED protein polarity and relocalisation in Arabidopsis.

Doyle SM, Rigal A, Grones P, Karady M, Barange DK, Majda M, Pařízková B, Karampelias M, Zwiewka M, Pěnčík A, Almqvist F, Ljung K, Novák O, Robert S.

New Phytol. 2019 Aug;223(3):1420-1432. doi: 10.1111/nph.15877. Epub 2019 Jun 7.

PMID:
31038751
5.

The Role of Auxin in Cell Wall Expansion.

Majda M, Robert S.

Int J Mol Sci. 2018 Mar 22;19(4). pii: E951. doi: 10.3390/ijms19040951. Review.

6.

Mechanochemical Polarization of Contiguous Cell Walls Shapes Plant Pavement Cells.

Majda M, Grones P, Sintorn IM, Vain T, Milani P, Krupinski P, Zagórska-Marek B, Viotti C, Jönsson H, Mellerowicz EJ, Hamant O, Robert S.

Dev Cell. 2017 Nov 6;43(3):290-304.e4. doi: 10.1016/j.devcel.2017.10.017.

7.

Mitochondrial uncouplers inhibit clathrin-mediated endocytosis largely through cytoplasmic acidification.

Dejonghe W, Kuenen S, Mylle E, Vasileva M, Keech O, Viotti C, Swerts J, Fendrych M, Ortiz-Morea FA, Mishev K, Delang S, Scholl S, Zarza X, Heilmann M, Kourelis J, Kasprowicz J, Nguyen le SL, Drozdzecki A, Van Houtte I, Szatmári AM, Majda M, Baisa G, Bednarek SY, Robert S, Audenaert D, Testerink C, Munnik T, Van Damme D, Heilmann I, Schumacher K, Winne J, Friml J, Verstreken P, Russinova E.

Nat Commun. 2016 Jun 8;7:11710. doi: 10.1038/ncomms11710.

8.

Sclerostin as a novel marker of bone turnover in athletes.

Zagrodna A, Jóźków P, Mędraś M, Majda M, Słowińska-Lisowska M.

Biol Sport. 2016 Mar;33(1):83-7. doi: 10.5604/20831862.1194125. Epub 2016 Feb 8.

9.

A molecular MoS₂ edge site mimic for catalytic hydrogen generation.

Karunadasa HI, Montalvo E, Sun Y, Majda M, Long JR, Chang CJ.

Science. 2012 Feb 10;335(6069):698-702. doi: 10.1126/science.1215868.

10.

Antibody-antigen exchange equilibria in a field of an external force: design of reagentless biosensors.

Monson CF, Driscoll LN, Bennion E, Miller CJ, Majda M.

Anal Chem. 2009 Sep 1;81(17):7510-4. doi: 10.1021/ac9010759.

PMID:
19639946
11.

Ion diffusion in channels containing random arrays of microspheres: an electrochemical time-of-flight method.

Monson CF, Majda M.

Anal Chem. 2007 Dec 15;79(24):9315-20. Epub 2007 Nov 14.

PMID:
17999466
13.

Determination of the capacitance of solid-state potentiometric sensors: An electrochemical time-of-flight method.

Elsen HA, Slowinska K, Hull E, Majda M.

Anal Chem. 2006 Sep 15;78(18):6356-63.

PMID:
16970309
14.

Electrochemical studies of the lateral diffusion of TEMPO in the aqueous liquid/vapor interfacial region.

Glandut N, Malec AD, Mirkin MV, Majda M.

J Phys Chem B. 2006 Mar 30;110(12):6101-9.

PMID:
16553422
15.

Gibbs monolayers at the air/water interface: surface partitioning and lateral mobility of an electrochemically active surfactant.

Malec AD, Wu DG, Louie M, Skolimowski JJ, Majda M.

Langmuir. 2004 Feb 17;20(4):1305-10.

PMID:
15803711
16.

Viscosity of the aqueous liquid/vapor interfacial region: 2D electrochemical measurements with a piperidine nitroxy radical probe.

Wu DG, Malec AD, Head-Gordon M, Majda M.

J Am Chem Soc. 2005 Mar 30;127(12):4490-6.

PMID:
15783232
18.

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