The Plant Vascular System: Evolution, Development and FunctionsF
The Plant Vascular System: Evolution, Development and FunctionsF
The Plant Vascular System: Evolution, Development and FunctionsF
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
Mills RF, Krijgert GC, Baccarini PJ, Hall JL, Williams LE (2003)<br />
Functional expression of AtHMA4, a P1B-type ATPase of the<br />
Zn/Co/Cd/Pb subclass. <strong>Plant</strong> J. 35, 164–176.<br />
Mills RF, Francini A, Ferreira Da Rocha PSC, Baccarini PJ, Aylett<br />
M, Krijger GC, Williams LE (2005) <strong>The</strong> plant P1B-type ATPase<br />
AtHMA4 transports Zn <strong>and</strong> Cd <strong>and</strong> plays a role in detoxification<br />
of transition metals supplied at elevated levels. FEBS Lett. 579,<br />
783–791.<br />
Minchin PEH, Thorpe MR (1983) A rate of cooling response in phloem<br />
translocation. J. Exp. Bot. 34, 529–536.<br />
Mira H, Martínez-García F, Peñarrubia L (2001) Evidence for the<br />
plant-specific intercellular transport of the Arabidopsis copper chaperone<br />
CCH. <strong>Plant</strong> J. 25, 521–528.<br />
Mishina TE, Zeier J (2006) <strong>The</strong> Arabidopsis flavin-dependent<br />
monooxygenase FMO1 is an essential component of biologically<br />
induced systemic acquired resistance. <strong>Plant</strong> Physiol. 141, 1666–<br />
1675.<br />
Mishler BD, Churchill SP (1984) A cladistic approach to the phylogeny<br />
of the “bryophytes.” Brittonia 36, 406–424.<br />
Misra NB, Varshini YP (1961) Viscosity-temperature relation to solutions.<br />
J. Chem. Eng. Data 6, 194–196.<br />
Mitsuda N, Seki M, Shinozaki K, Ohme-Takagi M (2005) <strong>The</strong> NAC<br />
transcription factors NST1 <strong>and</strong> NST2 of Arabidopsis regulate secondary<br />
wall thickenings <strong>and</strong> are required for anther dehiscence.<br />
<strong>Plant</strong> Cell 17, 2993–3006.<br />
Mitsuda N, Iwas A, Yamamoto H, Yoshida M, Seki M, Shinozaki<br />
K, Ohme-Takagi M (2007) NAC transcription factors, NST1 <strong>and</strong><br />
NST3, are key regulators of the formation of secondary walls in<br />
woody tissues of Arabidopsis. <strong>Plant</strong> Cell 19, 270–280.<br />
Mittelheuser CJ, Van Steveninck RFM (1969) Stomatal closure <strong>and</strong><br />
inhibition of transpiration induced by (RS)-abscisic acid. Nature 221,<br />
281–282.<br />
Miwa H, Betsuyaku S, Iwamoto K, Kinoshita A, Fukuda H, Sawa<br />
S (2008) <strong>The</strong> receptor-like kinase SOL2 mediates CLE signaling in<br />
Arabidopsis. <strong>Plant</strong> Cell Physiol. 49, 1752–1757.<br />
Miwa K, Fujiwara T (2010) Boron transport in plants: Co-ordinated<br />
regulation of transporters. Ann. Bot. 105, 1103–1108.<br />
Miyashima S, Nakajima K (2011) <strong>The</strong> root endodermis: A hub of<br />
developmental signals <strong>and</strong> nutrient flow. <strong>Plant</strong> Signal. Behav. 6,<br />
1954–1958.<br />
Miyashima S, Koi S, Hashimoto T, Nakajima K (2011) Non-cellautonomous<br />
microRNA165 acts in a dose-dependent manner to<br />
regulate multiple differentiation status in the Arabidopsis root. <strong>Development</strong><br />
138, 2303–2313.<br />
Miyashima S, Sebastian J, Lee JY, Helariutta Y (2012) Stem cell<br />
function during plant vascular development. EMBO J. 32, 178–193.<br />
Miyazawa H, Oka-Kira E, Sato N, Takahashi H, Wu GJ, Sato S,<br />
Hayashi M, Betsuyaku S, Nakazono M, Tabata S, Harada K,<br />
Sawa S, Fukuda H, Kawaguchi M (2010) <strong>The</strong> receptor-like kinase<br />
KLAVIER mediates systemic regulation of nodulation <strong>and</strong> nonsymbiotic<br />
shoot development in Lotus japonicus. <strong>Development</strong> 137,<br />
4317–4325.<br />
Insights into <strong>Plant</strong> <strong>Vascular</strong> Biology 377<br />
Moeder W, Pozo OD, Navarre DA, Martin GB, Klessig DF (2007)<br />
Aconitase plays a role in regulating resistance to oxidative stress<br />
<strong>and</strong> cell death in Arabidopsis <strong>and</strong> Nicotiana benthamiana. <strong>Plant</strong> Mol.<br />
Biol. 63, 273–287.<br />
Mok DW, Mok MC (2001) Cytokinin metabolism <strong>and</strong> action. Annu. Rev.<br />
<strong>Plant</strong> Physiol. <strong>Plant</strong> Mol. Biol. 52, 89–118.<br />
Molders W, Buchala A, Metraux J-P (1996) Transport of salicylic acid<br />
in tobacco necrosis virus-infected cucumber plants. <strong>Plant</strong> Physiol.<br />
112, 787–792.<br />
Molnar A, Melnyk CW, Bassett A, Hardcastle TJ, Dunn R,<br />
Baulcombe DC (2010) Small silencing RNAs in plants are mobile<br />
<strong>and</strong> direct epigenetic modification in recipient cells. Science 328,<br />
872–875.<br />
Moreno-Risueno MA, Van Norman JM, Moreno A, Zhang JY, Ahnert<br />
SE, Benfey PN (2010) Oscillating gene expression determines<br />
competence for periodic Arabidopsis root branching. Science 329,<br />
1306–1311.<br />
Morrissey J, Baxter IR, Lee J, Li L, Lahner B, Grotz N, Kaplan J,<br />
Salt DE, Guerinot ML (2009) <strong>The</strong> ferroportin metal efflux proteins<br />
function in iron <strong>and</strong> cobalt homeostasis in Arabidopsis. <strong>Plant</strong> Cell<br />
21, 3326–3338.<br />
Mosher RA, Durrant WE, Wang D, Song J, Dong X (2006) A comprehensive<br />
structure-function analysis of Arabidopsis SNI1 defines<br />
essential regions <strong>and</strong> transcriptional supppressor activity. <strong>Plant</strong> Cell<br />
18, 1750–1765.<br />
Mosher RA, Schwach F, Studhollme D, Baulcombe DC (2008)<br />
PolIVb influences RNA-directed DNA-methylation independently of<br />
its role in siRNA biogenesis. Proc. Natl. Acad. Sci USA 105, 3145–<br />
3150.<br />
Motose H, Sugiyama M, Fukuda H (2004) A proteoglycan mediates<br />
inductive interaction during plant vascular development. Nature 429,<br />
873–878.<br />
Mott KA, Peak D (2011) Alternative perspective on the control of<br />
transpiration by radiation. Proc. Natl. Acad. Sci. USA 108, 19820–<br />
19823.<br />
Mou Z, Fan W, Dong X (2003) Inducers of plant systemic acquired<br />
resistance regulate NPR1 function through redox changes. Cell 113,<br />
935–944.<br />
Mullendore DL, Windt CW, Van As H, Knoblauch M (2010) Sieve<br />
tube geometry in relation to phloem flow. <strong>Plant</strong> Cell 22, 579–<br />
593.<br />
Müller R, Bleckmann A, Simon R (2008) <strong>The</strong> receptor kinase<br />
CORYNE of Arabidopsis transmits the stem cell-limiting signal<br />
CLAVATA3 independently of CLAVATA1. <strong>Plant</strong> Cell 20, 934–946.<br />
Münch E (1930) Material Flow in <strong>Plant</strong>s. Translated 2003 by Milburn<br />
JA <strong>and</strong> Kreeb KH, University of Bremen, Germany. Gustav Fischer<br />
Verlag, Jena Germany.<br />
Muñiz L, Minguet EG, Singh SK, Pesquet E, Vera-Sirera F, Moreau-<br />
Courtois CL, Carbonell J, Blázquez MA, Tuominen H (2008)<br />
ACAULIS5 controls Arabidopsis xylem specification through the<br />
prevention of premature cell death. <strong>Development</strong> 135, 2573–<br />
2582.