Temporally distinct regulatory pathways coordinate thermo-responsive storage organ formation in potato.
暂无分享,去创建一个
H. Cho | J. Jeon | Hyun-Soon Kim | Ji-Sun park | Ki-Beom Moon | Ah-Young Shin | Sang-Un Park | Suk-Yoon Kwon | Hyo‐Jun Lee | Su-Jin Park | J. Park | Suk‑Yoon Kwon
[1] Sophia Sonnewald,et al. Assimilate highway to sink organs - Physiological consequences of SP6A overexpression in transgenic potato (Solanum tuberosum L.). , 2021, Journal of plant physiology.
[2] Sophia Sonnewald,et al. Future-Proofing Potato for Drought and Heat Tolerance by Overexpression of Hexokinase and SP6A , 2021, Frontiers in Plant Science.
[3] G. Bryan,et al. TERMINAL FLOWER‐1/CENTRORADIALIS inhibits tuberisation via protein interaction with the tuberigen activation complex , 2020, The Plant journal : for cell and molecular biology.
[4] A. Banerjee,et al. BEL1-like protein (StBEL5) regulates CYCLING DOF FACTOR1 (StCDF1) through tandem TGAC core motifs in potato. , 2019, Journal of plant physiology.
[5] S. Prat,et al. Identification of TIMING OF CAB EXPRESSION 1 as a temperature-sensitive negative regulator of tuberization in potato , 2019, Journal of experimental botany.
[6] Sophia Sonnewald,et al. Post-transcriptional Regulation of FLOWERING LOCUS T Modulates Heat-Dependent Source-Sink Development in Potato , 2019, Current Biology.
[7] C. Bachem,et al. Source-Sink Regulation Is Mediated by Interaction of an FT Homolog with a SWEET Protein in Potato , 2019, Current Biology.
[8] Bernadetta Rina Hastilestari,et al. Deciphering source and sink responses of potato plants (Solanum tuberosum L.) to elevated temperatures. , 2018, Plant, cell & environment.
[9] A. Banerjee,et al. The essential role of microRNAs in potato tuber development: a mini review , 2017, Indian Journal of Plant Physiology.
[10] Sumei Chen,et al. Gibberellic Acid Signaling Is Required to Induce Flowering of Chrysanthemums Grown under Both Short and Long Days , 2017, International journal of molecular sciences.
[11] N. Topoonyanont,et al. Moderate-abiotic stress increase in vitro tuberization and microtuber growth of potato , 2017 .
[12] K. Shimamoto,et al. Potato Tuber Induction is Regulated by Interactions Between Components of a Tuberigen Complex , 2016, Plant & cell physiology.
[13] J. Franco-Zorrilla,et al. Potato StCONSTANS-like1 Suppresses Storage Organ Formation by Directly Activating the FT-like StSP5G Repressor , 2016, Current Biology.
[14] K. Halliday,et al. Molecular and genetic control of plant thermomorphogenesis , 2016, Nature Plants.
[15] Devendra Kumar,et al. Expression profiling of potato cultivars with contrasting tuberization at elevated temperature using microarray analysis. , 2015, Plant physiology and biochemistry : PPB.
[16] D. Hannapel,et al. Targets of the StBEL5 Transcription Factor Include the FT Ortholog StSP6A1[OPEN] , 2015, Plant Physiology.
[17] R. Shamir,et al. Evaluation and integration of functional annotation pipelines for newly sequenced organisms: the potato genome as a test case , 2014, BMC Plant Biology.
[18] C. Simpson,et al. Physiological, biochemical and molecular responses of the potato (Solanum tuberosum L.) plant to moderately elevated temperature. , 2014, Plant, cell & environment.
[19] A. Banerjee,et al. MicroRNA156: A Potential Graft-Transmissible MicroRNA That Modulates Plant Architecture and Tuberization in Solanum tuberosum ssp. andigena1[C][W][OPEN] , 2013, Plant Physiology.
[20] C. Bachem,et al. A crosstalk of auxin and GA during tuber development , 2012, Plant signaling & behavior.
[21] P. Suárez-López,et al. Potato CONSTANS is involved in photoperiodic tuberization in a graft-transmissible manner. , 2012, The Plant journal : for cell and molecular biology.
[22] G. Schaller. Ethylene and the regulation of plant development , 2012, BMC Biology.
[23] J. Abelenda,et al. Control of flowering and storage organ formation in potato by FLOWERING LOCUS T , 2011, Nature.
[24] S. Zhong,et al. High-throughput illumina strand-specific RNA sequencing library preparation. , 2011, Cold Spring Harbor protocols.
[25] P. Suárez-López,et al. Graft-transmissible induction of potato tuberization by the microRNA miR172 , 2009, Development.
[26] Tai Wang,et al. Overexpression of OsERF1, a novel rice ERF gene, up-regulates ethylene-responsive genes expression besides affects growth and development in Arabidopsis. , 2008, Journal of plant physiology.
[27] D. Hannapel,et al. Accumulation of BEL1-like transcripts in solanaceous species , 2008, Planta.
[28] C. Bachem,et al. StGA2ox1 is induced prior to stolon swelling and controls GA levels during potato tuber development. , 2007, The Plant journal : for cell and molecular biology.
[29] Yueyue Yu,et al. Dynamics of a Mobile RNA of Potato Involved in a Long-Distance Signaling Pathway[W][OA] , 2006, The Plant Cell Online.
[30] Saranyan K. Palaniswamy,et al. AGRIS and AtRegNet. A Platform to Link cis-Regulatory Elements and Transcription Factors into Regulatory Networks1[W][OA] , 2006, Plant Physiology.
[31] H. Hirt,et al. Reactive oxygen species: metabolism, oxidative stress, and signal transduction. , 2004, Annual review of plant biology.
[32] M. Salvucci,et al. Relationship between the Heat Tolerance of Photosynthesis and the Thermal Stability of Rubisco Activase in Plants from Contrasting Thermal Environments1 , 2004, Plant Physiology.
[33] A. Banerjee,et al. The tandem complex of BEL and KNOX partners is required for transcriptional repression of ga20ox1. , 2004, The Plant journal : for cell and molecular biology.
[34] Robert J. Hijmans,et al. The effect of climate change on global potato production , 2003, American Journal of Potato Research.
[35] S. Prat,et al. Control of photoperiod-regulated tuberization in potato by the Arabidopsis flowering-time gene CONSTANS , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[36] J. Hartley,et al. DNA cloning using in vitro site-specific recombination. , 2000, Genome research.
[37] S. Prat,et al. Changes in GA 20-oxidase gene expression strongly affect stem length, tuber induction and tuber yield of potato plants. , 2000, The Plant journal : for cell and molecular biology.
[38] K Maxwell,et al. Chlorophyll fluorescence--a practical guide. , 2000, Journal of experimental botany.
[39] D. Vreugdenhil,et al. The role of gibberellin, abscisic acid, and sucrose in the regulation of potato tuber formation in vitro , 1998, Plant physiology.
[40] B. Aloni,et al. Role of Ethylene Biosynthesis and Auxin Content and Transport in High Temperature-Induced Abscission of Pepper Reproductive Organs , 1997, Journal of Plant Growth Regulation.
[41] P. C. Struik,et al. Effects of temperature and photoperiod on early growth and final number of tubers in potato (Solanum tuberosum L.) , 1996, Potato Research.
[42] J. Kumamoto,et al. Studies on the carbon dioxide promotion and ethylene inhibition of tuberization in potato explants cultured in vitro. , 1976, Plant physiology.
[43] R. Strasser,et al. Evaluation of abiotic stress tolerance in transgenic potato plants with reduced expression of PSII manganese stabilizing protein. , 2013, Plant science : an international journal of experimental plant biology.
[44] N. Suzuki,et al. Reactive oxygen species and temperature stresses: A delicate balance between signaling and destruction , 2006 .