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.
370 Journal of Integrative <strong>Plant</strong> Biology Vol. 55 No. 4 2013<br />
Guelette BS, Benning UF, Hoffmann-Benning S (2012) Identification<br />
of lipids <strong>and</strong> lipid-binding proteins in phloem exudates from<br />
Arabidopsis thaliana. J. Exp. Bot. 63, 3603–3616.<br />
Guo S, Zhang J, Sun H, Salse J, Lucas WJ, Zhang H, Zheng Y,<br />
Mao L, Ren Y, Wang Z, Min J, Guo X, Murat F, Ham BK, Zhang<br />
Z, Gao S, Huang M, Xu Y, Zhong S, Bombarely A, Mueller LA,<br />
Zhao H, He H, Zhang Y, Zhang Z, Huang S, Tan T, Pang E, Lin<br />
K, Hu Q, Kuang H, Ni P, Wang B, Liu J, Kou Q, Hou W, Zou X,<br />
Jiang J, Gong G, Klee K, Schoof H, Huang Y, Hu X, Dong S,<br />
Liang D, Wang J, Wu K, Xia Y, Zhao X, Zheng Z, Xing M, Liang<br />
X, Huang B, Lv T, Wang J, Yin Y, Yi H, Li R, Wu M, Levi A,<br />
Zhang X, Giovannoni JJ, Wang J, Li Y, Fei Z, Xu Y (2012) <strong>The</strong><br />
draft genome of watermelon (Citrullus lunatus) <strong>and</strong> resequencing of<br />
20 diverse accessions. Nat. Genet. 45, 51–58.<br />
Guo WJ, Bundithya W, Goldsbrough PB (2003) Characterization<br />
of the Arabidopsis metallothionein gene family: Tissue-specific<br />
expression <strong>and</strong> induction during senescence <strong>and</strong> in response to<br />
copper. New Phytol. 159, 369–381.<br />
Guo WJ, Meetam M, Goldsbrough PB (2008) Examining the specific<br />
contributions of individual Arabidopsis metallothioneins to copper<br />
distribution <strong>and</strong> metal tolerance. <strong>Plant</strong> Physiol. 146, 1697–<br />
1706.<br />
Hacke U, Sauter JJ (1996) Xylem dysfunction during winter <strong>and</strong><br />
recovery of hydraulic conductivity in diffuse-porous <strong>and</strong> ring-porous<br />
trees. Oecologia 105, 435–439.<br />
Hacke UG, Sperry JS (2003) Limits to xylem refilling under negative<br />
pressure in Laurus nobilis <strong>and</strong> Acer negundo. <strong>Plant</strong> Cell Environ.<br />
26, 303–311.<br />
Hacke UG, Sperry JS, Pockman WP, Davis SD, McCulloh KA<br />
(2001a) Trends in wood density <strong>and</strong> structure are linked to prevention<br />
of xylem implosion by negative pressure. Oecologia 126,<br />
457–461.<br />
Hacke UG, Sperry JS, Wheeler JK, Castro L (2006) Scaling of<br />
angiosperm xylem structure with safety <strong>and</strong> efficiency. Tree Physiol.<br />
26, 689–701.<br />
Hacke UG, Stiller V, Sperry JS, Pittermann J, McCulloh KA<br />
(2001b) Cavitation fatigue: Embolism <strong>and</strong> refilling cycles can<br />
weaken cavitation resistance of xylem. <strong>Plant</strong> Physiol. 125, 779–<br />
786.<br />
Hacke UG, Jansen S (2009) Embolism resistance of three boreal<br />
conifers varies with pit structure. New Phytol. 182, 675–686.<br />
Ham B-K, Br<strong>and</strong>om J, Xoconostle-Cázares, B, Ringgold V, Lough<br />
TJ, Lucas WJ (2009) Polypyrimidine tract binding protein, Cm-<br />
RBP50, forms the basis of a pumpkin phloem ribonucleoprotein<br />
complex. <strong>Plant</strong> Cell 21, 197–215.<br />
Hamburger D, Rezzonico E, MacDonald-Comber Petétot J,<br />
Somerville C, Poirier Y (2002) Identification <strong>and</strong> characterization<br />
of the Arabidopsis PHO1 gene involved in phosphate loading to the<br />
xylem. <strong>Plant</strong> Cell 14, 889–902.<br />
Hamilton AJ, Baulcombe DC (1999) A species of small antisense<br />
RNA in posttranscriptional gene silencing in plants. Science 286,<br />
950–952.<br />
Han JJ, Lin W, Oda Y, Cui KM, Fukuda H, He XQ (2012) <strong>The</strong><br />
proteasome is responsible for caspase-3-like activity during xylem<br />
development. <strong>Plant</strong> J. 72, 129–141.<br />
Hanikenne M, Talke IN, Haydon MJ, Lanz C, Nolte A, Motte P,<br />
Kroymann J, Weigel D, Krämer U (2008) <strong>Evolution</strong> of metal<br />
hyperaccumulation required cis-regulatory changes <strong>and</strong> triplication<br />
of HMA4. Nature 453, 391–395.<br />
Hannapel DJ (2010) A model system of development regulated by the<br />
long-distance transport of mRNA. J. Integr. <strong>Plant</strong> Biol. 52, 40–52.<br />
Hanzawa Y, Takahashi T, Komeda Y (1997) ACL5: AnArabidopsis<br />
gene required for internodal elongation after flowering. <strong>Plant</strong> J. 12,<br />
863–874.<br />
Hardtke CS, Berleth T (1998) <strong>The</strong> Arabidopsis gene MONOPTEROS<br />
encodes a transcription factor mediating embryo axis formation <strong>and</strong><br />
vascular development. EMBO J. 17, 1405–1411.<br />
Hardtke CS, Ckurshumova W, Vidaurre DP, Singh SA, Stamatiou G,<br />
Tiwari SB, Hagen G, Guilfoyle TJ, Berleth T (2004) Overlapping<br />
<strong>and</strong> non-redundant functions of the Arabidopsis auxin response<br />
factors MONOPTEROS <strong>and</strong> NONPHOTOTROPIC HYPOCOTYL<br />
4. <strong>Development</strong> 131, 1089–1100.<br />
Haritatos E, Medville R, Turgeon R (2000) Minor vein structure <strong>and</strong><br />
sugar transport in Arabidopsis thaliana. <strong>Plant</strong>a 211, 105– 111.<br />
Hassan Z, Aarts MGM (2011) Opportunities <strong>and</strong> feasibilities for<br />
biotechnological improvement of Zn, Cd or Ni tolerance <strong>and</strong> accumulation<br />
in plants. Environ. Exp. Bot. 72, 53–63.<br />
Hawkesford MJ (2003) Transporter gene families in plants: <strong>The</strong><br />
sulphate transporter gene family – redundancy or specialization?<br />
Physiol. <strong>Plant</strong>. 117, 155–163.<br />
Haywood V, Yu TS, Huang NC, Lucas WJ (2005) Phloem longdistance<br />
trafficking of GIBBERELLIC ACID INSENSITIVE RNA<br />
regulates leaf development. <strong>Plant</strong> J. 42, 49–68.<br />
He Y, Gan S (2002) A gene encoding an acyl hydrolase is involved in<br />
leaf senescence in Arabidopsis. <strong>Plant</strong> Cell 14, 805–815.<br />
Heidel AJ, Clarke JD, Antonovics J, Dong X (2004) Fitness costs<br />
of mutations affecting the systemic acquired resistance pathway in<br />
Arabidopsis thaliana. Genetics 168, 2197–2206.<br />
Heidrich K, Wirthmueller L, Tasset C, Pouzet C, Desl<strong>and</strong>es L,<br />
Parker JE (2011) Arabidopsis EDS1 connects pathogen effector<br />
recognition to cell compartment-specific immune responses.<br />
Science 334, 1401–1404.<br />
Heil M, Baldwin IT (2002) Fitness costs of induced resistance: Emerging<br />
experimental support for a slippery concept. Trends <strong>Plant</strong> Sci.<br />
7, 61–66.<br />
Herbette S, Cochard H (2010) Calcium is a major determinant of xylem<br />
vulnerability to cavitation. <strong>Plant</strong> Physiol. 153, 1932–1939.<br />
Herbik A, Giritch A, Horstmann C, Becker R, Balzer HJ, Bäumlein H,<br />
Stephan UW (1996) Iron <strong>and</strong> copper nutrition-dependent changes<br />
in protein expression in a tomato wild type <strong>and</strong> the nicotianaminefree<br />
mutant chloronerva. <strong>Plant</strong> Physiol. 111, 533–540.<br />
Hermans C, Hammond JP, White PJ, Verbuggen N (2006) How do<br />
plants respond to nutrient shortage by biomass allocation? Trends<br />
<strong>Plant</strong> Sci. 11, 610–617.