Chemistry Reference
In-Depth Information
[62]
Hirayama T, Ohto C, Mizoguchi T. A gene encoding a phosphatidylinositol-specific
phospholipase C is induced by dehydration and salt stress in Arabidopsis thaliana. Proc
Natl Acad Sci U S A.
,
1995, 92(9):3903-7.
[63]
Sanchez JP, Chua NH. Arabidopsis PLC1 is required for secondary responses to abscisic
acid signals.
The Plant Cell,
2001, 13(5):1143-54.
[64]
Popescu SC, Popescu GV, Bachan S, Zhang Z, Seay M, Gerstein M, Snyder M, Dinesh-
Kumar SP. Differential binding of calmodulin-related proteins to their targets revealed
through high-density Arabidopsis protein microarrays.
Proc Natl Acad Sci U S A.
,
2007,
104(11):4730-5.
[65]
Peters C, Li M, Narasimhan R, Roth M. Nonspecific phospholipase C NPC4 promotes
responses to abscisic acid and tolerance to hyperosmotic stress in Arabidopsis.
The Plant
Cell,
2010, 22(8):2642-59.
[66]
Testerink C, Dekker HL, Lim ZY, Johns MK. Isolation and identification of phosphatidic
acid targets from plants.
The Plant Journal,
2004, 39(4):527-36.
[67]
Yu L, Nie J, Cao C, Jin Y, Yan M, Wang F, Liu J. Phosphatidic acid mediates salt stress
response by regulation of MPK6 in Arabidopsis thaliana.
New Phytologist,
2010,
188(3):762-73.
[68]
Guo L, Wang X. Crosstalk between Phospholipase D and Sphingosine Kinase in Plant
Stress Signaling.
Frontiers in plant science,
2012, 51(3):3389-99.
[69]
Lemtiri-Chlieh F, MacRobbie EAC. Inositol hexakisphosphate mobilizes an
endomembrane store of calcium in guard cells. Proc Natl Acad Sci U S A.
,
2003, 100
(17): 10091-5.
[70]
DeWald DB, Torabinejad J, Jones CA. Rapid accumulation of phosphatidylinositol 4, 5-
bisphosphate and inositol 1, 4, 5-trisphosphate correlates with calcium mobilization in
salt-stressed Arabidopsis.
Plant Physiology,
2001, 126 (2): 759-69.
[71]
Peters C, Li M, Narasimhan R, Roth M. Nonspecific phospholipase C NPC4 promotes
responses to abscisic acid and tolerance to hyperosmotic stress in Arabidopsis.
The Plant
Cell,
2010, 22 (8): 2642-59.
[72]
Scherer GFE, Labusch C, Effendi Y. Frontiers: Phospholipases and the Network of
Auxin Signal Transduction with ABP1 and TIR1 as Two Receptors: A Comprehensive
and Provocative Model.
Frontiers in Plant Physiology,
2012, 56 (3): 652-63.
[73]
Busch W, Benfey PN. Information processing without brains-the power of intercellular
regulators in plants.
Development,
2010, 137 (2): 1215-1226.
[74]
Sachs T, Thimann KV. The role of auxins and cytokinins in the release of buds from
dominance. American Journal of Botany, 1967, 54(1):136-44.
[75]
Thimann KV, Skoog F. Studies on the growth hormone of plants: III. The inhibiting
action of the growth substance on bud development. Proc Natl Acad Sci U S A.
,
1933,
19(7): 714-6.
[76]
Sauter A, Davies WJ, Hartung W. The long-distance abscisic acid signal in the
droughted plant: the fate of the hormone on its way from root to shoot.
Journal of
Experimental Botany,
2001, 52(363): 1991-7.
