Access the full text.
Sign up today, get DeepDyve free for 14 days.
E Roumeliotis, B Kloosterman, M Oortwijn, T Lange, RG Visser, CW Bachem (2013)
Down regulation of StGA3ox genes in potato results in altered GA content and affect plant and tuber growth characteristicsJ Plant Physiol, 170
M Nonogaki, H Nonogaki (2017)
Prevention of preharvest sprouting through hormone engineering and germination recovery by chemical biologyFront Plant Sci, 8
S Saito, N Hirai, C Matsumoto, H Ohigashi, D Ohta, K Sakata, M Mizutani (2004)
Arabidopsis CYP707As encode (+)-abscisic acid 8′-hydroxylase, a key enzyme in the oxidative catabolism of abscisic acidPlant Physiol, 134
EH Xia (2017)
The tea tree genome provides insights into tea flavor and independent evolution of caffeine biosynthesisMol Plant, 10
C Zheng, T Halaly, AK Acheampong, Y Takebayashi, Y Jikumaru, Y Kamiya, E Or (2015)
Abscisic acid (ABA) regulates grape bud dormancy, and dormancy release stimuli may act through modification of ABA metabolismJ Exp Bot, 66
F Parada, X Noriega, D Dantas, R Bressan-Smith, FJ Perez (2016)
Differences in respiration between dormant and non-dormant buds suggest the involvement of ABA in the development of endodormancy in grapevinesJ Plant Physiol, 201
K Shu (2013)
ABI4 regulates primary seed dormancy by regulating the biogenesis of abscisic acid and gibberellins in arabidopsisPLoS Genet, 9
T Xue (2008)
Genome-wide and expression analysis of protein phosphatase 2C in rice and ArabidopsisBMC Genom, 9
DP Horvath, JV Anderson, WS Chao, ME Foley (2003)
Knowing when to grow: signals regulating bud dormancyTrends Plant Sci, 8
B Liu (2016)
Silencing of the gibberellin receptor homolog, CsGID1a, affects locule formation in cucumber (Cucumis sativus) fruitNew Phytol, 210
W Zhuang, Z Gao, L Wang, W Zhong, Z Ni, Z Zhang (2013)
Comparative proteomic and transcriptomic approaches to address the active role of GA4 in Japanese apricot flower bud dormancy releaseJ Exp Bot, 64
V Lefebvre (2006)
Functional analysis of Arabidopsis NCED6 and NCED9 genes indicates that ABA synthesized in the endosperm is involved in the induction of seed dormancyPlant J, 45
C Yang, J Liu, X Dong, Z Cai, W Tian, X Wang (2014)
Short-term and continuing stresses differentially interplay with multiple hormones to regulate plant survival and growthMol Plant, 7
E Carrera, SD Jackson, S Prat (1999)
Feedback control and diurnal regulation of gibberellin 20-oxidase transcript levels in potatoPlant Physiol, 119
C Martinez-Andujar, MI Ordiz, Z Huang, M Nonogaki, RN Beachy, H Nonogaki (2011)
Induction of 9-cis-epoxycarotenoid dioxygenase in Arabidopsis thaliana seeds enhances seed dormancyPNAS, 108
KJ Livak, TD Schmittgen (2001)
Analysis of relative gene expression data using real-time quantitative PCR and the 2 – ∆∆CT methodMethods, 25
MG Mitchum (2006)
Distinct and overlapping roles of two gibberellin 3-oxidases in Arabidopsis developmentPlant J, 45
C Gallego-Giraldo, J Hu, C Urbez, MD Gomez, TP Sun, MA Perez-Amador (2014)
Role of the gibberellin receptors GID1 during fruit-set in ArabidopsisPlant J, 79
D Wang (2015)
Expression of ABA metabolism-related genes suggests similarities and differences between seed dormancy and bud dormancy of peach (Prunus persica)Front Plant Sci, 6
Q Du, C Li, D Li, S Lu (2015)
Genome-wide analysis, molecular cloning and expression profiling reveal tissue-specifically expressed, feedback-regulated, stress-responsive and alternatively spliced novel genes involved in gibberellin metabolism in Salvia miltiorrhizaBMC Genom, 16
YH Xiao (2010)
Gibberellin 20-oxidase promotes initiation and elongation of cotton fibers by regulating gibberellin synthesisJ Plant Physiol, 167
T Krishnaraj, P Gajjeraman, S Palanisamy, SR Subhas Chandrabose, AK Azad Mandal (2011)
Identification of differentially expressed genes in dormant (banjhi) bud of tea (Camellia sinensis (L.) O. Kuntze) using subtractive hybridization approachPlant Physiol Biochem, 49
Y Lou, H Sun, L Li, H Zhao, Z Gao (2017)
Characterization and primary functional analysis of a Bamboo ZEP Gene from Phyllostachys edulisDNA Cell Biol
T Ruttink (2007)
A molecular timetable for apical bud formation and dormancy induction in poplarPlant Cell, 19
S Pearce (2015)
Heterologous expression and transcript analysis of gibberellin biosynthetic genes of grasses reveals novel functionality in the GA3ox familyBMC Plant Biol, 15
KK Tanino, L Kalcsits, S Silim, E Kendall, GR Gray (2010)
Temperature-driven plasticity in growth cessation and dormancy development in deciduous woody plants: a working hypothesis suggesting how molecular and cellular function is affected by temperature during dormancy inductionPlant Mol Biol, 73
M Khalil-Ur-Rehman, L Sun, CX Li, M Faheem, W Wang, JM Tao (2017)
Comparative RNA-seq based transcriptomic analysis of bud dormancy in grapeBMC Plant Biol, 17
C Li, O Junttila, P Heino, ET Palva (2003)
Different responses of northern and southern ecotypes of Betula pendula to exogenous ABA applicationTree Physiol, 23
T Umezawa, K Nakashima, T Miyakawa, T Kuromori, M Tanokura, K Shinozaki, K Yamaguchi-Shinozaki (2010)
Molecular basis of the core regulatory network in ABA responses: sensing, signaling and transportPlant Cell Physiol, 51
L Li (2015)
Transcriptomic insights into antagonistic effects of gibberellin and abscisic acid on petal growth in Gerbera hybridaFront Plant Sci, 6
N Druart (2007)
Environmental and hormonal regulation of the activity-dormancy cycle in the cambial meristem involves stage-specific modulation of transcriptional and metabolic networksPlant J, 50
Y Huang, W Yang, Z Pei, X Guo, D Liu, J Sun, A Zhang (2012)
The genes for gibberellin biosynthesis in wheatFunct Integr Genom, 12
MN Muniz Garcia, M Stritzler, DA Capiati (2014)
Heterologous expression of Arabidopsis ABF4 gene in potato enhances tuberization through ABA-GA crosstalk regulationPlanta, 239
A Li, W Yang, S Li, D Liu, X Guo, J Sun, A Zhang (2013)
Molecular characterization of three GIBBERELLIN-INSENSITIVE DWARF1 homologous genes in hexaploid wheatJ Plant Physiol, 170
F Wang, X Deng (2011)
Plant ubiquitin-proteasome pathway and its role in gibberellin signalingCell Res, 6
PM Barros, N Goncalves, NJ Saibo, MM Oliveira (2012)
Cold acclimation and floral development in almond bud break: insights into the regulatory pathwaysJ Exp Bot, 63
Y Boursiac, S Leran, C Corratge-Faillie, A Gojon, G Krouk, B Lacombe (2013)
ABA transport and transportersTrends Plant Sci, 18
R Finkelstein (2013)
Abscisic acid synthesis and responseArabidopsis book, 11
X Hao, Y Yang, C Yue, L Wang, DP Horvath, X Wang (2017)
Comprehensive transcriptome analyses reveal differential gene expression profiles of Camellia sinensis axillary buds at para-, endo-, ecodormancy, and bud flush stagesFront Plant Sci, 8
KK Tanino (2004)
Hormones and endodormancy induction in woody plantsJ Crop Improv, 10
S Yamaguchi (2008)
Gibberellin metabolism and its regulationAnnu Rev Plant Biol, 59
E Hansen, JE Olsen, O Junttila (1999)
Gibberellins and subapical cell divisions in relation to bud set and bud break in Salix pentandraJ Plant Growth Regul, 18
AR Meier, MR Saunders, CH Michler (2012)
Epicormic buds in trees: a review of bud establishment, development and dormancy releaseTree Physiol, 32
R Vergara, X Noriega, K Aravena, H Prieto, FC PÉREZ (2017)
ABA represses the expression of cell cycle genes and may modulate the development of endodormancy in grapevine budsFront Plant Sci, 8
RK Kakkar, PK Nagar (1997)
Distribution and changes in endogenous polyamines during winter dormancy in tea [Camellia sinensis L. (O) Kuntze]J Plant Physiol, 151
H Ye (2015)
Map-based cloning of seed dormancy1–2 identified a gibberellin synthesis gene regulating the development of endosperm-imposed dormancy in ricePlant Physiol, 169
L Huerta, A Garcia-Lor, JL Garcia-Martinez (2009)
Characterization of gibberellin 20-oxidases in the citrus hybrid Carrizo citrangeTree Physiol, 29
R Antoni, L Rodriguez, M Gonzalez-Guzman, GA Pizzio, PL Rodriguez (2011)
News on ABA transport, protein degradation, and ABFs/WRKYs in ABA signalingCurr Opin Plant Biol, 14
M Lucas (2008)
A molecular framework for light and gibberellin control of cell elongationNature, 451
C Jiang, X Fu (2007)
GA action: turning on de-DELLA repressing signalingCurr Opin Plant Biol, 10
PK Nagar, A Kumar (2000)
Changes in endogenous gibberellin activity during winter dormancy in tea (Camellia sinensis (L.) O. Kuntze)Acta Physiol Plant, 22
M Seo, Y Kanno, A Frey, HM North, A Marion-Poll (2016)
Dissection of Arabidopsis NCED9 promoter regulatory regions reveals a role for ABA synthesized in embryos in the regulation of GA-dependent seed germinationPlant Sci, 246
Y Gao, J Chen, Y Zhao, T Li, M Wang (2012)
Molecular cloning and expression analysis of a RGA-like gene responsive to plant hormones in Brassica napusMol Biol Rep, 39
X Wang, Z Wang, J Dong, M Wang, H Gao (2009)
Cloning of a 9-cis-epoxycarotenoid dioxygenase gene and the responses of Caragana korshinskii to a variety of abiotic stressesGene Genet Syst, 84
K Shu (2016)
ABI4 mediates antagonistic effects of abscisic acid and gibberellins at transcript and protein levelsPlant J, 85
Q Shen, J Cui, XQ Fu, TX Yan, KX Tang (2015)
Cloning and characterization of DELLA genes in Artemisia annuaGenet Mol Res, 14
M Ueguchi-Tanaka, M Nakajima, A Motoyuki, M Matsuoka (2007)
Gibberellin receptor and its role in gibberellin signaling in plantsAnnu Rev Plant Biol, 58
M Kaneko, H Itoh, Y Inukai, T Sakamoto, M Ueguchi-Tanaka, M Ashikari, M Matsuoka (2003)
Where do gibberellin biosynthesis and gibberellin signaling occur in rice plants?Plant J, 35
A Paul, A Jha, S Bhardwaj, S Singh, R Shankar, S Kumar (2014)
RNA-seq-mediated transcriptome analysis of actively growing and winter dormant shoots identifies non-deciduous habit of evergreen tree tea during wintersSci Rep, 4
K Yano, K Aya, K Hirano, RL Ordonio, M Ueguchi-Tanaka, M Matsuoka (2015)
Comprehensive gene expression analysis of rice aleurone cells: probing the existence of an alternative gibberellin receptorPlant Physiol, 167
PA Tuan, S Bai, T Saito, A Ito, T Moriguchi (2017)
Dormancy-associated MADS-box (DAM) and abscisic acid pathway regulate pear endodormancy through a feedback mechanismPlant Cell Physiol
JE Cooke, ME Eriksson, O Junttila (2012)
The dynamic nature of bud dormancy in trees: environmental control and molecular mechanismsPlant Cell Environ, 35
DN Barua (1969)
Seasonal dormancy in tea (Camellia sinensis L.)Nature, 224
CC Carles, JC Fletcher (2003)
Shoot apical meristem maintenance: the art of a dynamic balanceTrends plant Sci, 8
D Vyas, S Kumar, PS Ahuja (2007)
Tea (Camellia sinensis) clones with shorter periods of winter dormancy exhibit lower accumulation of reactive oxygen speciesTree Physiol, 27
Z Zhang (2016)
MsZEP, a novel zeaxanthin epoxidase gene from alfalfa (Medicago sativa), confers drought and salt tolerance in transgenic tobaccoPlant Cell Rep, 35
A Paul, S Kumar (2011)
Responses to winter dormancy, temperature, and plant hormones share gene networksFunct Integr Genom, 11
P Achard, WH Vriezen, D Straeten, NP Harberd (2003)
Ethylene regulates Arabidopsis development via the modulation of DELLA protein growth repressor functionPlant Cell, 15
T Regnault, JM Daviere, D Heintz, T Lange, P Achard (2014)
The gibberellin biosynthetic genes AtKAO1 and AtKAO2 have overlapping roles throughout Arabidopsis developmentPlant J, 80
R Zentella (2007)
Global analysis of della direct targets in early gibberellin signaling in ArabidopsisPlant Cell, 19
E Merilo, P Jalakas, K Laanemets, O Mohammadi, H Horak, H Kollist, M Brosche (2015)
Abscisic acid transport and homeostasis in the context of stomatal regulationMol Plant, 8
X Hao, D Horvath, W Chao, Y Yang, X Wang, B Xiao (2014)
Identification and evaluation of reliable reference genes for quantitative real-time PCR analysis in tea plant (Camellia sinensis (L.) O. Kuntze)Int J Mol Sci, 15
K Thirugnanasambantham, G Prabu, S Palanisamy, SR Chandrabose, AK Mandal (2013)
Analysis of dormant bud (Banjhi) specific transcriptome of tea [Camellia sinensis (L.) O. Kuntze] from cDNA library revealed dormancy-related genesApp Bioch Biotech, 169
A Rohde, RP Bhalerao (2007)
Plant dormancy in the perennial contextTrends Plant Sci, 12
BC Tan, LM Joseph, WT Deng, L Liu, QB Li, K Cline, DR McCarty (2003)
Molecular characterization of the Arabidopsis 9-cis epoxycarotenoid dioxygenase gene familyPlant J, 35
K Murase, Y Hirano, TP Sun, T Hakoshima (2008)
Gibberellin-induced DELLA recognition by the gibberellin receptor GID1Nature, 456
J Griffiths (2006)
Genetic characterization and functional analysis of the GID1 gibberellin receptors in ArabidopsisPlant Cell, 18
C Yue (2014)
Molecular cloning and expression analysis of tea plant aquaporin (AQP) gene familyPlant Physiol Biochem, 83
A Jeyaraj, V Chandran, P Gajjeraman (2014)
Differential expression of microRNAs in dormant bud of tea [Camellia sinensis (L.) O. Kuntze]Plant Cell Rep, 33
PK Nagar, S Sood (2006)
Changes in endogenous auxins during winter dormancy in tea (Camellia sinensis L.) O. KuntzeActa Physiol Plant, 28
JE Olsen (2010)
Light and temperature sensing and signaling in induction of bud dormancy in woody plantsPlant Mol Biol, 73
P Ravindran, V Verma, P Stamm, P Kumar (2017)
A novel RGL2–DOF6 complex contributes to primary seed dormancy in Arabidopsis thaliana by regulating a GATA transcription factorMol Plant, 10
DP O’Neill (2010)
Regulation of the gibberellin pathway by auxin and DELLA proteinsPlanta, 232
N Schwarz, U Armbruster, T Iven, L Bruckle, M Melzer, I Feussner, P Jahns (2015)
Tissue-specific accumulation and regulation of zeaxanthin epoxidase in Arabidopsis reflect the multiple functions of the enzyme in plastidsPlant Cell Physiol, 56
S Yamaguchi, Y Kamiya, T Sun (2001)
Distinct cell-specific expression patterns of early and late gibberellin biosynthetic genes during Arabidopsis seed germinationPlant J, 28
M Nonogaki, K Sall, E Nambara, H Nonogaki (2014)
Amplification of ABA biosynthesis and signaling through a positive feedback mechanism in seedsPlant J, 78
M Ueguchi-Tanaka (2005)
GIBBERELLIN INSENSITIVE DWARF1 encodes a soluble receptor for gibberellinNature, 437
Choubane (2012)
Photocontrol of bud burst involves gibberellin biosynthesis in Rosa spJ Plant Physiol, 13
SG Thomas, AL Phillips, P Hedden (1999)
Molecular cloning and functional expression of gibberellin 2-oxidases, multifunctional enzymes involved in gibberellin deactivationPNAS, 96
A Voegele, A Linkies, K Muller, G Leubner-Metzger (2011)
Members of the gibberellin receptor gene family GID1 (GIBBERELLIN INSENSITIVE DWARF1) play distinct roles during Lepidium sativum and Arabidopsis thaliana seed germinationJ Exp Bot, 62
X Wang (2014)
Identification of differential gene expression profiles between winter dormant and sprouting axillary buds in tea plant (Camellia sinensis) by suppression subtractive hybridizationTree Genet Genom, 10
C Bomke, MC Rojas, F Gong, P Hedden, B Tudzynski (2008)
Isolation and characterization of the gibberellin biosynthetic gene cluster in Sphaceloma manihoticolaAppl Environ Microbiol, 74
D Golldack, C Li, H Mohan, N Probst (2013)
Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditionsPlant Cell Rep, 32
Key message Thirty genes involved in GA and ABA metabolism and signalling were identified, and the expression profiles indicated that they play crucial roles in the bud activity-dormancy transition in tea plants. Abstract Gibberellin (GA) and abscisic acid (ABA) are fundamental phytohormones that extensively regulate plant growth and development, especially bud dormancy and sprouting transition in perennial plants. However, there is little information on GA- and ABA-related genes and their expression profiles during the activity-dormancy transition in tea plants. In the present study, 30 genes involved in the metabolism and signalling pathways of GA and ABA were first identified, and their expression patterns in different tissues were assessed. Further evaluation of the expression patterns of selected genes in response to G A and ABA application showed that CsGA3ox, CsGA20ox, CsGA2ox, CsZEP and CsNCED transcripts were differentially expressed after exogenous treatment. The expression profiles of the studied genes during winter dormancy and spring sprouting were investigated, and somewhat diverse expression patterns were found for GA- and ABA-related genes. This diversity was associated with the bud activity-dormancy cycle of tea plants. These results indicate that the genes involved in the metabolism and signalling of GA and ABA are important for regulating
Plant Cell Reports – Springer Journals
Published: Dec 6, 2017
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.