Biology Reference
In-Depth Information
Shuel, R.W. (1967). Nectar secretion in excised flowers. IV. Selective transport of sucrose in
the presence of other solutes.
Canadian Journal of Botany
,
45
, 1953-1961.
Shuel, R.W., & Tsao, W. (1978). Nectar secretion in excised flowers. VI. Relationship of
secretion to protein metabolism.
Canadian Journal of Botany
,
56
, 833-842.
Siegfried, K.R., Eshed, Y., Baum, S.F., Otsuga, D., Drews, G.N., & Bowman, J.L. (1999).
Members of the
YABBY
gene family specify abaxial cell fate in
Arabidopsis
.
Development
,
126
, 4117-4141.
Song, J.T., Seo, H.S., Song, S.I., Lee, J.S., & Choi, Y.D. (2000).
NTR1
encodes a floral nec-
tary-specific gene in
Brassica campestris
L. ssp.
pekinensis
.
Plant Molecular Biology
,
42
,
647-655.
Stintzi, A., Heitz, T., Prasad, V., Wiedemann-Merdinoglu, S., Kauffmann, S., Geoffroy, P.,
Legrand, M., & Fritig, B. (1993). Plant “pathogenesis-related” proteins and their role in
defense against pathogens.
Biochimie
,
75
, 687-706.
Stpiczyńska, M. (2003). Nectar resorption in the spur of
Platanthera chlorantha
Custer
(Rchb.) Orchidaceae—structural and microautoradiographic study.
Plant Systematics and
Evolution
,
238
, 119-126.
Stpiczyńska, M., Davies, K.L., & Gregg, A. (2005). Comparative account of nectary structure
in
Hexisea imbricata
(Lindl.) Rchb.f. (Orchidaceae).
Annals of Botany
,
95
, 749-756.
Stromvik, M., Sundararaman, V., & Vodkin, L. (1999). A novel promoter from soybean that
is active in a complex developmental pattern with and without its proximal 650 base pairs.
Plant Molecular Biology
,
41
, 217-231.
Tang, X., Gomes, A.M.T.R., Bhatia, A., & Woodson, W.R. (1994). Pistil-specific and ethyl-
ene-regulated expression of 1-aminocyclopropane-1-carboxylate oxidase genes in petunia
flowers.
Plant Cell
,
6
, 1227-1239.
Thom, C., Guerenstein, P.G., Mechaber, W.L., & Hildebrand, J.G. (2004). Floral CO
2
reveals
flower profitability to moths.
Journal of Chemical Ecology
,
30
, 1285-1288.
Thoma, S., Hecht, U., Kippers, A., Botella, J., de Vries, S., & Somerville, C. (1994). Tissue-
specific expression of a gene encoding a cell wall-localized lipid transfer protein from
Arabidopsis
.
Plant Physiology
,
105
, 35-45.
Thornburg, R.W., Carter, C., Powell, A., Rizhsky, L., Mittler, R., & Horner, H.T. (2003). A
major function of the tobacco floral nectary is defense against microbial attack.
Plant Sys-
tematics and Evolution
,
238
, 211-218.
Torres, M.A., Dangl, J.L., & Jones, J.D. (2002).
Arabidopsis
gp91phox
homologues
AtrbohD
and
AtrbohF
are required for accumulation of reactive oxygen intermediates in the plant
defense response.
Proceedings of the National Academy of Sciences USA
,
99
, 517-522.
Watari, J., Kobae, Y., Shohei, Y., Kunio, Y., Kyoko, T., Toshihito, T., & Katsuhiro, S.
(2004). Identification of sorbitol transporters expressed in the phloem of apple source
leaves.
Plant Cell Physiology
,
45
, 1032-1041.
Watson, R., Zinyowera, M., & Moss, R. (1996).
Climate change 1995
: impacts, adaptations
and mitigation of climate change: scientific technical analysis. Cambridge: Cambridge
University Press.
Weiss, C.A., Huang, H., & Ma, H. (1993). Immunolocalization of the G protein alpha subunit
encoded by the
GPA1
gene in
Arabidopsis
.
Plant Cell
,
5
, 1513-1528.
Zauralov, O.A. (1969a). Oxidizing enzymes in nectaries and nectar.
Trudy Nauchno-
Issledovatel'skogo Instituta Pchelovodstva
,
1969
, 197-225.
Zauralov, O.A. (1969b). Role of glycolysis in nectar secretion in milkweed and pumpkin.
Fiziologiya Rastenii (Moscow)
,
16
, 542-529.
Zauralov, O.A., & Pavlinova, O.A. (1975). Transport and transformation of sugars in the nec-
tary with respect to secretory function.
Fiziologiya Rastenii (Moscow)
,
22
, 500-507.