Biology Reference
In-Depth Information
Chamnongpol, S., Willekens, H., Moeder, W., Langebartels, C., Sandermann, H.J., Van Mon-
tagu, M., Inze, D., & Van Camp, W. (1998). Defense activation and enhanced pathogen
tolerance induced by H
2
O
2
in transgenic tobacco.
Proceedings of the National Academy of
Sciences USA
,
95
, 5818-5823.
Davis, A., Pylatuik, J., Paradis, J., & Low, N. (1998). Nectar-carbohydrate production and
composition vary in relation to nectary anatomy and location within individual flowers of
several species of Brassicaceae.
Planta
,
205
, 305-318.
Davis, A.R. (2003). Influence of elevated CO
2
and ultraviolet-B radiation levels on floral
nectar production: a nectary-morphological perspective.
Plant Systematics and Evolution
,
238
, 169-181.
de Pinto, M.C., Tommasi, F., & De Gara, L. (2002). Changes in the antioxidant systems as
part of the signaling pathway responsible for the programmed cell death activated by nitric
oxide and reactive oxygen species in tobacco Bright-Yellow 2 cells.
Plant Physiology
,
130
, 698-708.
Desikan, R., Neill, S.J., & Hancock, J.T. (2000). Hydrogen peroxide-induced gene expression
in
Arabidopsis thaliana
.
Free Radical Biology and Medicine
,
28
, 773-8.
Erhardt, A., Rusterholz, H.P., & Stocklin, J. (2005). Elevated carbon dioxide increases nectar
production in
Epilobium angustifolium
L.
Oecologia
,
146
, 311-317.
Eshed, Y., Baum, S.F., & Bowman, J.L. (1999). Distinct mechanisms promote polarity estab-
lishment in carpels of
Arabidopsis
.
Cell
,
99
, 199-209.
Fordham-Skelton, A.P., Lilley, C., Urwin, P.E., & Robinson, N.J. (1997). GUS expression in
Arabidopsis
directed by 5′ regions of the pea metallothionein-like gene PsMTA.
Plant Mo-
lecular Biology
,
34
, 659-668.
Frey-Wyssling, A., Zimmermann, M., & Maurizio, A. (1954). Enzymic sugar metabolism in
the nectaries of
Euphorbia pulcherrima
.
Experientia
,
10
, 490-492.
Gao, Z., Maurousset, L., Lemoine, R., Yoo, S.D., van Nocker, S., & Loescher, W. (2003).
Cloning, expression, and characterization of sorbitol transporters from developing sour
cherry fruit and leaf sink tissues.
Plant Physiology
,
131
, 1566-1575.
Garabagi, F., Duns, G., & Strommer, J. (2005). Selective recruitment of
Adh
genes for distinct
enzymatic functions in
Petunia hybrida
.
Plant Molecular Biology
,
58
, 283-294.
Ge, Y.X., Angenent, G.C., Dahlhaus, E., Franken, J., Peters, J., Wullems, G.J., & Creemers-
Molenaar, J. (2001). Partial silencing of the
NEC1
gene results in early opening of anthers
in
Petunia hybrida
.
Molecular Genetics and Genomics
,
265
, 414-423.
Ge, Y.X., Angenent, G.C., Wittich, P.E., Peters, J., Franken, J., Busscher, M., Zhang, L.M.,
Dahlhaus, E., Kater, M.M., Wullems, G.J., & Creemers-Molenaar, T. (2000).
NEC1
, a
novel gene, highly expressed in nectary tissue of
Petunia hybrida
.
Plant Journal
,
24
, 725-
734.
Golz, J.F., Keck, E.J., & Hudson, A. (2002) Spontaneous mutations in
KNOX
genes give rise
to a novel floral structure in
Antirrhinum
.
Current Biology
,
12
, 515-522.
Green, T., & Ryan, C. (1972). Wound-induced proteinase inhibitor in plant leaves: a possible
defense mechanism against insects.
Science
,
175
, 776-777.
Guerenstein, P.G., Yepez, E.A., van Haren, J., Williams, D.G., & Hildebrand, J.G. (2004).
Floral CO
2
schaften
,
91
, 329-333.
emission may indicate food abundance to nectar-feeding moths.
Naturwissen-
Heinrich, G. (1975), Glucose metabolism in the nectaries of two
Aloe
species and mechanism
of prenectar secretion.
Protoplasma
,
85
, 351-371.
Horner, H.T., Healy, R.A., Ren, G., Fritz, D., Seames, C., & Thornburg, R.W. (2007). Amyloplast
to chromoplast conversion in developing ornamental tobacco floral nectaries provides sugar
for nectar and antioxidants for protection.
American Journal of Botany
,
94
, 12-24.
