|
Abs # |
Presenter |
Title |
| 419 | Sun, Yan |
Role of Brassinosteroid in Cotton Fiber Development | |
| 420 | Reddy, Vaka S. |
Differential regulation of a microtubule motor protein by Ca2+-sensors: Role of KIC and KCBP/ZWI in trichome morphogenesis | |
| 421 | Clouse, Steven D. |
Functional Analysis of BRI1 Receptor Kinase Phosphorylation Sites Involved in Brassinosteroid Signaling | |
| 422 | Baek, Dongwon |
Bax-induced cell death of Arabidopsis is meditated through reactive oxygen-dependent and -independent processes | |
| 423 | Yalamanchili, Roopa Devi |
Differential Interactions of the Tomato Stress Responsive MAPKs, LeMPK1/2 and LeMPK3 with four LeMKKs | |
| 424 | Sharma, Vijay K |
Dissecting the function(s) of CLE gene family in Arabidopsis | |
| 425 | Jones, Alan M. |
Role of a Seven-transmembrane RGS Protein in Sugar Signaling in Arabidopsis | |
| 426 | Wang, Xuemin |
Phosphatidic Acid as a Pivotal Lipid Messenger in Cell Signaling in Plants | |
| 427 | Huang, Yadong |
Sugars and Phytohormones Regulate Seed Germination and Early Seedling Development via a Complex Signaling “Network” | |
| 428 | Strader, Lucia C |
Recessive-interfering mutations in the GA-response gene SLEEPY1 are rescued by overexpression of its homologue SNEEZY | |
| 429 | Nibau, Candida |
Expression and functional characterization of Arac7 | |
| 430 | Moore, Brandon |
Characterization of Arabidopsis Hexokinase-Like Genes in Glucose Signaling | |
| 431 | Tao, Li-zhen |
Plant Rac-like GTPases are activated by auxin and mediate auxin-responsive gene expression | |
| 432 | Durbak, Amanda R |
Characterization of epidermal cell dedifferentiation during carpel fusion in Madagascar periwinkle | |
| 433 | Zhao, Dazhong |
Control of Arabidopsis Anther Cell Fate Determination by EMS1, a Leucine-rich Repeat Receptor-like Protein Kinase | |
| 434 | Perera, Imara Y |
Increased tolerance to water stress in transgenic Arabidopsis plants constitutively expressing the type I inositol polyphosphate 5-phosphatase | |
| 435 | Delk, Nikki A. |
The Expression Patterns and Physiological Functions of CML23 AND CML24 (TCH2) | |
| 436 | Kanter, Diane |
Is IP3-Mediated Signal Transduction Required for Synthesis of NO? | |
| 437 | Jeter, Collene R. |
Evidence of a Novel Cell Signaling Role for Extracellular Nucleoside Tri- and Diphosphates in Arabidopsis | |
| 438 | Robinson, Jamille M. |
Isolation and Characterization of Mutants Defective in Inositol Polyphosphate 5-Phosphatase (5PTase) Genes in Arabidopsis thaliana | |
| 439 | Davis, Amanda J. |
Identification of phosphatidylinositol phosphate kinase interacting proteins | |
| 440 | Gillaspy, Glenda |
A Functional Genomics Approach for Understanding Inositol Phosphate and Phosphatidylinositol Phosphate Breakdown in Plants. | |
| 441 | McCormack, Elizabeth |
CaMs and CMLs as potential mediators of calcium signaling in Arabidopsis | |
| 442 | Ranf, Stefanie |
Silencing of tomato mitogen-activated protein kinases (MAPKs) by virus-induced gene silencing | |
| 443 | Feirer, Russ P. |
Stress-induced elevation of arginine decarboxylase occurs via two distinct signal transduction pathways | |
| 444 | Clark, Greg |
Expression profiling and T-DNA knockout analysis of the Arabidopsis thaliana annexin multigene family | |
| 445 | Patterson, Sara E. |
Expression and cellular localization of dab 5-1, a delayed abscission mutant, in Arabidopsis thaliana. | |
| 446 | Patterson, Sara E. |
Characterization of an ectopic cell separation mutant tfa "things fall apart" | |
| 447 | Braun, David M. |
Tie-dyed1 promotes the sink to source transition in leaves | |
| 448 | Wang, Wuyi |
Development of a model for ethylene receptor signaling based on in vitro mutagenesis and domain swapping between receptor isoforms | |
| 449 | Lazzaro, Mark D |
Calcium dynamics within elongating conifer pollen tubes differ from that seen in flowering plants. | |
| 450 | Roux, Stanley J |
Extracellular nucleotide signaling induces the accumulation of superoxide in Arabidopsis thaliana | |
| 451 | Jeong, Dong-Hoon |
Activation tagging of the OsBRI1 gene enhances responsiveness and reduces the levels of brassinosteroids in rice | |
