The Plant Vascular System: Evolution, Development and FunctionsF
The Plant Vascular System: Evolution, Development and FunctionsF
The Plant Vascular System: Evolution, Development and FunctionsF
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
388 Journal of Integrative <strong>Plant</strong> Biology Vol. 55 No. 4 2013<br />
Zhang Y, Cheng YT, Qu N, Zhao Q, Bi D, Li X (2006) Negative regulation<br />
of defense response in Arabidopsis by two NPR1 paralogs.<br />
<strong>Plant</strong> J. 48, 647–656.<br />
ZhangY,FanW,KinkemaM,LiX,DongX(1999) Interaction of<br />
NPR1 with basic leucine zipper protein transcription factors that<br />
bind sequences required for salicylic acid induction of the PR-1<br />
gene. Proc. Natl. Acad. Sci. USA 96, 6523–6528.<br />
Zhang Y, Tessaro MJ, Lassner M, Li X (2003) Knockout analysis of<br />
Arabidopsis transcription factors TGA2, TGA5, <strong>and</strong> TGA6 reveals<br />
their redundant <strong>and</strong> essential roles in systemic acquired resistance.<br />
<strong>Plant</strong> Cell 15, 2647–2653.<br />
Zhao C, Johnson BJ, Kositsup B, Beers EP (2000) Exploiting<br />
secondary growth in Arabidopsis. Construction of xylem <strong>and</strong> bark<br />
cDNA libraries <strong>and</strong> cloning of three xylem endopeptidases. <strong>Plant</strong><br />
Physiol. 123, 1185–1196.<br />
Zheng Q, Durben DJ, Wolf GH, Angell CA (1991) Liquids at large<br />
negative pressures: Water at the homogeneous nucleation limit.<br />
Science 254, 829–832.<br />
Zhong R, Demura T, Ye ZH (2006) SND1, a NAC domain transcription<br />
factor, is a key regulator of secondary wall synthesis in fibers of<br />
Arabidopsis. <strong>Plant</strong> Cell 18, 3158–3170.<br />
Zhong R, Lee C, Ye ZH (2010) Global analysis of direct targets of<br />
secondary wall NAC master switches in Arabidopsis. Mol. <strong>Plant</strong> 3,<br />
1087–1103.<br />
Zhong R, Lee C, Zhou J, McCarthy RL, Ye ZH (2008) A battery of<br />
transcription factors involved in the regulation of secondary cell wall<br />
biosynthesis in Arabidopsis. <strong>Plant</strong> Cell 20, 2763–2782.<br />
Zhong R, Richardson EA, Ye ZH (2007) <strong>The</strong> MYB46 transcription<br />
factor is a direct target of SND1 <strong>and</strong> regulates secondary wall<br />
biosynthesis in Arabidopsis. <strong>Plant</strong> Cell 19, 2776–2792.<br />
Zhong R, Ye ZH (2007) Regulation of cell wall biosynthesis. Curr. Opin.<br />
<strong>Plant</strong> Biol. 10, 564–572.<br />
Zhong R, Ye ZH (1999) Ifl1, a gene regulating interfascicular fiber<br />
differentiation in Arabidopsis, encodes a homeodomain-leucine<br />
zipper protein. <strong>Plant</strong> Cell 11, 2139–2152.<br />
Zhong R, Ye ZH (2001) Alteration of auxin polar transport in the<br />
Arabidopsis ifl1 mutants. <strong>Plant</strong> Physiol. 126, 549–563.<br />
Zhou J, Lee C, Zhong R, Ye ZH (2009) MYB58 <strong>and</strong> MYB63 are<br />
transcriptional activators of the lignin biosynthetic pathway during<br />
secondary cell wall formation in Arabidopsis. <strong>Plant</strong> Cell 21, 248–<br />
266.<br />
Zhou JM, Trifa Y, Silva H, Pontier D, Lam E, Shah J, Klessig DF<br />
(2000) NPR1 differentially interacts with members of the TGA/OBF<br />
family of transcription factors that bind an element of the PR-1 gene<br />
required for induction by salicylic acid. Mol. <strong>Plant</strong>-Microbe Interact.<br />
13, 191–202.<br />
Zhou N, Tootle TL, Tsui F, Klessig DF, Glazebrook J (1998) PAD4<br />
functions upstream from salicylic acid to control defense responses<br />
in Arabidopsis. <strong>Plant</strong> Cell 10, 1021–1030.<br />
Zhou Y, Setz N, Niemietz C, Qu H, Offler CE, Tyerman SD, Patrick<br />
JW (2007) Aquaporins <strong>and</strong> unloading of phloem-imported water<br />
in coats of developing bean seeds. <strong>Plant</strong> Cell Environ. 30, 1566–<br />
1577.<br />
Zhu S, Jeong RD, Venugopal SC, Lapchyk L, Navarre D, Kachroo<br />
A, Kachroo P (2011) SAG101 forms a ternary complex with EDS1<br />
<strong>and</strong> is required for resistance signaling against turnip crinkle virus.<br />
PLoS Pathog. 7, e1002318.<br />
Zimmermann U, Schneider H, Wegner L, Haase A (2004)<br />
Water ascent in tall trees: Does evolution of l<strong>and</strong> plants<br />
rely on a highly metastable state? New Phytol. 162, 575–<br />
615.<br />
Zwieniecki MA, Holbrook NM (2000) Bordered pit structure <strong>and</strong> vessel<br />
wall surface properties. Implications for embolism repair. <strong>Plant</strong><br />
Physiol. 123, 1015–1020.<br />
Zwieniecki MA, Holbrook NM (2009) Confronting Maxwell’s demon:<br />
Biophysics of xylem embolism repair. Trends <strong>Plant</strong> Sci. 14, 530–<br />
534.<br />
Zwieniecki MA, Melcher PJ, Feild TS, Holbrook NM (2004) A potential<br />
role for xylem-phloem interactions in the hydraulic architecture<br />
of trees: Effects of phloem girdling on xylem hydraulic conductance.<br />
Tree Physiol. 24, 911–917.<br />
Zwieniecki MA, Melcher PJ, Holbrook NM (2001a) Hydraulic properties<br />
of individual xylem vessels of Fraxinus americana. J. Exp. Bot.<br />
52, 257–264.<br />
Zwieniecki MA, Melcher PJ, Holbrook NM (2001b) Hydrogel control<br />
of xylem hydraulic resistance in plants. Science 291, 1059–<br />
1062.<br />
(Co-Editor: Li-Jia Qu)