Articles citing this paper
Gene families and evolution of trehalose metabolism in plants
John E. Lunn A
+ Author Affiliations
- Author Affiliations
A Max Planck Institute of Molecular Plant Physiology, Am Mühlenberg 1, 14424 Potsdam, Germany. Email: lunn@mpimp-golm.mpg.de
B This paper originates from a presentation at the 8th International Congress of Plant Molecular Biology, Adelaide, Australia, August 2006.
Functional Plant Biology 34(6) 550-563 https://doi.org/10.1071/FP06315
Submitted: 29 November 2006 Accepted: 11 January 2007 Published: 1 June 2007
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Vandesteene Lies,
Ramon Matthew,
Le Roy Katrien,
Van Dijck Patrick, Rolland Filip
Molecular Plant. 2010 3(2). p.406
Abiotic Stress Responses in Plants (2012)
Genome-Wide Identification, Evolution, and Expression Analysis of TPS and TPP Gene Families in Brachypodium distachyon
Wang Song,
Ouyang Kai, Wang Kai
Plants. 2019 8(10). p.362
Genetic manipulation of trehalose‐6‐phosphate synthase results in changes in the soluble sugar profile in transgenic sugarcane stems
Gabriel Casey,
Fernhout Jean‐Jacque,
Fichtner Franziska,
Feil Regina,
Lunn John E.,
Kossmann Jens,
Lloyd James R., van der Vyver Christell
Plant Direct. 2021 5(11).
Investigation of sugar signaling behaviors involved in sucrose-induced senescence initiation and progression in N. tabacum
Asim Muhammad,
Guo Mei,
Khan Rayyan,
Sun Yanguo,
Du Shasha,
liu Wenting,
Li Yang,
Wang Xiaolin,
Wang Mengyun,
Shi Yi, Zhang Yan
Plant Physiology and Biochemistry. 2022 184 p.112
Genome-Wide Analysis of the Trehalose-6-Phosphate Synthase (TPS) Gene Family and Expression Profiling of ScTPS Genes in Sugarcane
Hu Xin,
Wu Zhuan-Di,
Luo Zheng-Ying,
Burner David M.,
Pan Yong-Bao, Wu Cai-Wen
Agronomy. 2020 10(7). p.969
The Cytophaga hutchinsonii ChTPSP: First Characterized Bifunctional TPS–TPP Protein as Putative Ancestor of All Eukaryotic Trehalose Biosynthesis Proteins
Avonce Nelson,
Wuyts Jan,
Verschooten Katrien,
Vandesteene Lies, Van Dijck Patrick
Molecular Biology and Evolution. 2010 27(2). p.359
In-silico analysis of eukaryotic translation initiation factors (eIFs) in response to environmental stresses in rice (Oryza sativa)
Saidi Abbas, Hajibarat Zohreh
Biologia. 2020 75(10). p.1731
Carbohydrate dynamics in Populus trees under drought: An expression atlas of genes related to sensing, translocation, and metabolism across organs
Fox Hagar,
Ben‐Dor Shifra,
Doron‐Faigenboim Adi,
Goldsmith Moshe,
Klein Tamir, David‐Schwartz Rakefet
Physiologia Plantarum. 2023 175(5).
Grapevine TPS (trehalose-6-phosphate synthase) family genes are differentially regulated during development, upon sugar treatment and drought stress
Morabito Cristina,
Secchi Francesca, Schubert Andrea
Plant Physiology and Biochemistry. 2021 164 p.54
Non-structural carbohydrates coordinate tree peony flowering both as energy substrates and as sugar signaling triggers, with the bracts playing an essential role
Liu Zhiyong,
Shi Yantong,
Xue Yuqian,
Wang Xiaoping,
Huang Zhen,
Xue Jingqi, Zhang Xiuxin
Plant Physiology and Biochemistry. 2021 159 p.80
In Silico and Transcription Analysis of Trehalose-6-phosphate Phosphatase Gene Family of Wheat: Trehalose Synthesis Genes Contribute to Salinity, Drought Stress and Leaf Senescence
Islam Md Ashraful,
Rahman Md Mustafizur,
Rahman Md Mizanor,
Jin Xiujuan,
Sun Lili,
Zhao Kai,
Wang Shuguang,
Sikdar Ashim,
Noor Hafeez,
Jeon Jong-Seong,
Zhang Wenjun, Sun Daizhen
Genes. 2021 12(11). p.1652
Analysis of trehalose-6-phosphate synthase (TPS) gene family suggests the formation of TPS complexes in rice
Zang Baisheng,
Li Haowen,
Li Wenjun,
Deng Xing Wang, Wang Xiping
Plant Molecular Biology. 2011 76(6). p.507
Genome-wide analysis of trehalose-6-phosphate phosphatases (TPP) gene family in wheat indicates their roles in plant development and stress response
Du Linying,
Li Shumin,
Ding Li,
Cheng Xinxiu,
Kang Zhensheng, Mao Hude
BMC Plant Biology. 2022 22(1).
Plant signaling: Understanding the molecular crosstalk (2014)
Redundant and non-redundant roles of the trehalose-6-phosphate phosphatases in leaf growth, root hair specification and energy-responses in Arabidopsis
Van Houtte Hilde,
López-Galvis Lorena,
Vandesteene Lies,
Beeckman Tom, Van Dijck Patrick
Plant Signaling & Behavior. 2013 8(3). p.e23209
Metabolomics Characterization of Two Apocynaceae Plants, Catharanthus roseus and Vinca minor, Using GC-MS and LC-MS Methods in Combination
Chen Qi,
Lu Xueyan,
Guo Xiaorui,
Guo Qingxi, Li Dewen
Molecules. 2017 22(6). p.997
Genome-Wide Analysis of Trehalose-6-Phosphate Phosphatase Gene Family and Their Expression Profiles in Response to Abiotic Stress in Groundnut
Liu Yue,
Wang Xin,
Ouyang Lei,
Yao Ruonan,
Wang Zhihui,
Kang Yanping,
Yan Liying,
Chen Yuning,
Huai Dongxin,
Wang Qianqian,
Jiang Huifang,
Lei Yong, Liao Boshou
Plants. 2024 13(8). p.1056
Altering Trehalose-6-Phosphate Content in Transgenic Potato Tubers Affects Tuber Growth and Alters Responsiveness to Hormones during Sprouting
Debast Stefan,
Nunes-Nesi Adriano,
Hajirezaei Mohammad R.,
Hofmann Jörg,
Sonnewald Uwe,
Fernie Alisdair R., Börnke Frederik
Plant Physiology. 2011 156(4). p.1754
Metabolism and Plant Hormone Action During Clubroot Disease
Ludwig-Müller Jutta,
Prinsen Els,
Rolfe Stephen A., Scholes Julie D.
Journal of Plant Growth Regulation. 2009 28(3). p.229
Genome-wide Identification and analysis of the stress-resistance function of the TPS (Trehalose-6-Phosphate Synthase) gene family in cotton
Mu Min,
Lu Xu-Ke,
Wang Jun-Juan,
Wang De-Long,
Yin Zu-Jun,
Wang Shuai,
Fan Wei-Li, Ye Wu-Wei
BMC Genetics. 2016 17(1).
Down‐regulation of PvTRE1 enhances nodule biomass and bacteroid number in the common bean
Barraza Aarón,
Estrada‐Navarrete Georgina,
Rodriguez‐Alegria Maria Elena,
Lopez‐Munguia Agustin,
Merino Enrique,
Quinto Carmen, Sanchez Federico
New Phytologist. 2013 197(1). p.194
Trehalose Metabolites in Arabidopsis—elusive, active and central
Schluepmann Henriette, Paul Matthew
The Arabidopsis Book. 2009 7 p.e0122
Stress Signaling in Plants: Genomics and Proteomics Perspective, Volume 2 (2017)
Identification of TPS family members in apple (Malus x domestica Borkh.) and the effect of sucrose sprays on TPS expression and floral induction
Du Lisha,
Qi Siyan,
Ma Juanjuan,
Xing Libo,
Fan Sheng,
Zhang Songwen,
Li Youmei,
Shen Yawen,
Zhang Dong, Han Mingyu
Plant Physiology and Biochemistry. 2017 120 p.10
Desiccation tolerance in the vegetative tissues of the fern Mohria caffrorum is seasonally regulated
Farrant Jill M.,
Lehner Arnaud,
Cooper Keren, Wiswedel Stefan
The Plant Journal. 2009 57(1). p.65
Response of trehalose, its degrading enzyme, sucrose, and floridoside/isofloridoside under abiotic stresses in Gracilariopsis lemaneiformis (Rhodophyta)
Lv Yan,
Sun Peng,
Zhang Yingying,
Xuan Wenyan,
Xu Nianjun, Sun Xue
Journal of Applied Phycology. 2019 31(6). p.3861
Transcriptomic analysis of topping-induced axillary shoot outgrowth in Nicotiana tabacum
Wang Wei-feng,
Chen Peng,
Lv Jing,
Chen Lei, Sun Yu-he
Gene. 2018 646 p.169
Nucleotide-sugar metabolism in plants: the legacy of Luis F. Leloir
Figueroa Carlos M,
Lunn John E, Iglesias Alberto A
Journal of Experimental Botany. 2021 72(11). p.4053
Sugar and Nitrate Sensing: A Multi-Billion-Year Story
Fichtner Franziska,
Dissanayake Indeewari Madhubhashini,
Lacombe Benoit, Barbier Francois
Trends in Plant Science. 2021 26(4). p.352
Characteristics and Expression Analyses of Trehalose-6-Phosphate Synthase Family in Prunus mume Reveal Genes Involved in Trehalose Biosynthesis and Drought Response
Yang Yongjuan,
Ma Kaifeng,
Zhang Tengxun,
Li Lulu,
Wang Jia,
Cheng Tangren, Zhang Qixiang
Biomolecules. 2020 10(10). p.1358
Metabolism control over growth: a case for trehalose-6-phosphate in plants
Schluepmann H.,
Berke L., Sanchez-Perez G. F.
Journal of Experimental Botany. 2012 63(9). p.3379
Arabidopsis and primary photosynthetic metabolism – more than the icing on the cake
Stitt Mark,
Lunn John, Usadel Björn
The Plant Journal. 2010 61(6). p.1067
In situ expression of trehalose synthesizing genes, TPS1 and TPPB, in Arabidopsis thaliana using the GUS reporter gene
Bae Hanhong,
Sicher Richard,
Natarajan Savithiry, Bailey Bryan
Plant Cell, Tissue and Organ Culture (PCTOC). 2009 98(3). p.311
Genome-Wide Identification and Evolution Analysis of Trehalose-6-Phosphate Synthase Gene Family in Nelumbo nucifera
Jin Qijiang,
Hu Xin,
Li Xin,
Wang Bei,
Wang Yanjie,
Jiang Hongwei,
Mattson Neil, Xu Yingchun
Frontiers in Plant Science. 2016 7
Trehalose metabolism is activated upon chilling in grapevine and might participate in Burkholderia phytofirmans induced chilling tolerance
Fernandez Olivier,
Vandesteene Lies,
Feil Regina,
Baillieul Fabienne,
Lunn John Edward, Clément Christophe
Planta. 2012 236(2). p.355
Characterization and expression pattern of the trehalose-6-phosphate synthase and trehalose-6-phosphate phosphatase gene families in Populus
Gao Yuhan,
Yang Xiaoyu,
Yang Xiong,
Zhao Tianyun,
An Xinmin, Chen Zhong
International Journal of Biological Macromolecules. 2021 187 p.9
Identification, Evolutionary Relationship Analysis of the Trehalose-6-Phosphate Synthase (TPS) Gene Family in Common Bean (Phaseolus vulgaris) and Their Expression in Response to Cold Stress
Liu Wei,
Zhang Huan-Huan,
Long Zi-Xuan,
Chi Xiao-Na, Wang Yu-Ping
Journal of Plant Growth Regulation. 2024 43(1). p.323
Trehalose Metabolism and Signaling
Paul Matthew J.,
Primavesi Lucia F.,
Jhurreea Deveraj, Zhang Yuhua
Annual Review of Plant Biology. 2008 59(1). p.417
The sucrose–trehalose 6-phosphate (Tre6P) nexus: specificity and mechanisms of sucrose signalling by Tre6P
Yadav Umesh Prasad,
Ivakov Alexander,
Feil Regina,
Duan Guang You,
Walther Dirk,
Giavalisco Patrick,
Piques Maria,
Carillo Petronia,
Hubberten Hans-Michael,
Stitt Mark, Lunn John Edward
Journal of Experimental Botany. 2014 65(4). p.1051
Functional screening of a cDNA library from the desiccation-tolerant plant Selaginella lepidophylla in yeast mutants identifies trehalose biosynthesis genes of plant and microbial origin
Pampurova Suzana,
Verschooten Katrien,
Avonce Nelson, Van Dijck Patrick
Journal of Plant Research. 2014 127(6). p.803
Virus-Induced Gene Silencing-Based Functional Analyses Revealed the Involvement of Several Putative Trehalose-6-Phosphate Synthase/Phosphatase Genes in Disease Resistance against Botrytis cinerea and Pseudomonas syringae pv. tomato DC3000 in Tomato
Zhang Huijuan,
Hong Yongbo,
Huang Lei,
Liu Shixia,
Tian Limei,
Dai Yi,
Cao Zhongye,
Huang Lihong,
Li Dayong, Song Fengming
Frontiers in Plant Science. 2016 7
A guide to using MapMan to visualize and compare Omics data in plants: a case study in the crop species, Maize
USADEL BJÖRN,
POREE FABIEN,
NAGEL AXEL,
LOHSE MARC,
CZEDIK‐EYSENBERG ANGELIKA, STITT MARK
Plant, Cell & Environment. 2009 32(9). p.1211
The plant energy sensor: evolutionary conservation and divergence of SnRK1 structure, regulation, and function
Broeckx Tom,
Hulsmans Sander, Rolland Filip
Journal of Experimental Botany. 2016 67(22). p.6215
Plastid Development in Leaves during Growth and Senescence (2013)
Identification of Trehalose-6-Phosphate Synthase (TPS) Genes Associated with Both Source-/Sink-Related Yield Traits and Drought Response in Rapeseed (Brassica napus L.)
Yang Bo,
Zhang Liyuan,
Xiang Sirou,
Chen Huan,
Qu Cunmin,
Lu Kun, Li Jiana
Plants. 2023 12(5). p.981
Wheat Grain Development Is Characterized by Remarkable Trehalose 6-Phosphate Accumulation Pregrain Filling: Tissue Distribution and Relationship to SNF1-Related Protein Kinase1 Activity
Martínez-Barajas Eleazar,
Delatte Thierry,
Schluepmann Henriette,
de Jong Gerhardus J.,
Somsen Govert W.,
Nunes Cátia,
Primavesi Lucia F.,
Coello Patricia,
Mitchell Rowan A.C., Paul Matthew J.
Plant Physiology. 2011 156(1). p.373
Mal de Río Cuarto virus infection causes hormone imbalance and sugar accumulation in wheat leaves
de Haro Luis Alejandro,
Arellano Sofía Maité,
Novák Ondrej,
Feil Regina,
Dumón Analía Delina,
Mattio María Fernanda,
Tarkowská Danuše,
Llauger Gabriela,
Strnad Miroslav,
Lunn John Edward,
Pearce Stephen,
Figueroa Carlos María, del Vas Mariana
BMC Plant Biology. 2019 19(1).
Bioinformatic analyses to uncover genes involved in trehalose metabolism in the polyploid sugarcane
de Oliveira Lauana Pereira,
Navarro Bruno Viana,
de Jesus Pereira João Pedro,
Lopes Adriana Rios,
Martins Marina C. M.,
Riaño-Pachón Diego Mauricio, Buckeridge Marcos Silveira
Scientific Reports. 2022 12(1).
Functional Features of TREHALOSE-6-PHOSPHATE SYNTHASE1, an Essential Enzyme in Arabidopsis[OPEN]
Fichtner Franziska,
Olas Justyna J.,
Feil Regina,
Watanabe Mutsumi,
Krause Ursula,
Hoefgen Rainer,
Stitt Mark, Lunn John E.
The Plant Cell. 2020 32(6). p.1949
Genome-Wide Identification and Characterization of the Trehalose-6-phosphate Synthetase (TPS) Gene Family in Watermelon (Citrullus lanatus) and Their Transcriptional Responses to Salt Stress
Yuan Gaopeng,
Liu Junpu,
An Guolin,
Li Weihua,
Si Wenjing,
Sun Dexi, Zhu Yingchun
International Journal of Molecular Sciences. 2021 23(1). p.276
Characterization of trehalose-6-phosphate synthase and Na+/H+ antiporter genes in Vuralia turcica and expression analysis under salt and cadmium stresses
TEKDAL DILEK
Anais da Academia Brasileira de Ciências. 2021 93(3).
A high‐density linkage map of finger millet provides QTL for blast resistance and other agronomic traits
Pendergast, Thomas H.,
Qi Peng,
Odeny Damaris Achieng,
Dida Mathews M., Devos Katrien M.
The Plant Genome. 2022 15(1).
Genome-wide identification and expression analysis of the trehalose-6-phosphate synthase (TPS) gene family in cucumber (Cucumis sativus L.)
Dan Yuanyuan,
Niu Yuan,
Wang Chunlei,
Yan Mei, Liao Weibiao
PeerJ. 2021 9 p.e11398
A fluorometric assay for trehalose in the picomole range
Carillo Petronia,
Feil Regina,
Gibon Yves,
Satoh-Nagasawa Namiko,
Jackson David,
Bläsing Oliver E,
Stitt Mark, Lunn John
Plant Methods. 2013 9(1). p.21
Encyclopedia of Life Sciences (2008)
Interspecies and Intraspecies Analysis of Trehalose Contents and the Biosynthesis Pathway Gene Family Reveals Crucial Roles of Trehalose in Osmotic-Stress Tolerance in Cassava
Han Bingying,
Fu Lili,
Zhang Dan,
He Xiuquan,
Chen Qiang,
Peng Ming, Zhang Jiaming
International Journal of Molecular Sciences. 2016 17(7). p.1077
Expressional characterization of two class I trehalose-6-phosphate synthase genes in Hevea brasiliensis (para rubber tree) suggests a role in rubber production
Zhou Binhui,
Fang Yongjun,
Fan Yujie,
Wang Ying,
Qi Jiyan, Tang Chaorong
New Forests. 2017 48(4). p.513
A Conserved Carbon Starvation Response Underlies Bud Dormancy in Woody and Herbaceous Species
Tarancón Carlos,
González-Grandío Eduardo,
Oliveros Juan C.,
Nicolas Michael, Cubas Pilar
Frontiers in Plant Science. 2017 8
Expansive Evolution of the TREHALOSE-6-PHOSPHATE PHOSPHATASE Gene Family in Arabidopsis
Vandesteene Lies,
López-Galvis Lorena,
Vanneste Kevin,
Feil Regina,
Maere Steven,
Lammens Willem,
Rolland Filip,
Lunn John E.,
Avonce Nelson,
Beeckman Tom, Van Dijck Patrick
Plant Physiology. 2012 160(2). p.884
The combined effect of salinity and heat reveals a specific physiological, biochemical and molecular response in tomato plants
RIVERO ROSA M.,
MESTRE TERESA C.,
MITTLER RON,
RUBIO FRANCISCO,
GARCIA‐SANCHEZ FRANCISCO, MARTINEZ VICENTE
Plant, Cell & Environment. 2014 37(5). p.1059
Genome-Wide Analysis of the Trehalose-6-Phosphate Synthase Gene Family in Rose (Rosa chinensis) and Differential Expression under Heat Stress
Wei Xiao-Ru,
Ling Wu,
Ma Yu-Wan,
Du Jiao-Lin,
Cao Fu-Xiang,
Chen Hai-Xia,
Chen Ji-Ren, Li Yu-Fan
Horticulturae. 2022 8(5). p.429
Identification and Characterization of ABA-Responsive MicroRNAs in Rice
Tian Caijuan,
Zuo Zhangli, Qiu Jin-Long
Journal of Genetics and Genomics. 2015 42(7). p.393
Decreased Expression of Cytosolic Pyruvate Kinase in Potato Tubers Leads to a Decline in Pyruvate Resulting in an in Vivo Repression of the Alternative Oxidase
Oliver Sandra N.,
Lunn John E.,
Urbanczyk-Wochniak Ewa,
Lytovchenko Anna,
van Dongen Joost T.,
Faix Benjamin,
Schmälzlin Elmar,
Fernie Alisdair R., Geigenberger Peter
Plant Physiology. 2008 148(3). p.1640
Trehalose 6-phosphate metabolism in C4 species
Rojas Bruno E.,
Tonetti Tomás, Figueroa Carlos M.
Current Opinion in Plant Biology. 2023 72 p.102347
Characterization of Trehalose-6-Phosphate Synthase and Trehalose-6-Phosphate Phosphatase Genes of Tomato (Solanum lycopersicum L.) and Analysis of Their Differential Expression in Response to Temperature
Mollavali Mohanna, Börnke Frederik
International Journal of Molecular Sciences. 2022 23(19). p.11436
Trehalose 6-Phosphate/SnRK1 Signaling Participates in Harvesting-Stimulated Rubber Production in the Hevea Tree
Zhou Binhui,
Fang Yongjun,
Xiao Xiaohu,
Yang Jianghua,
Qi Jiyan,
Qi Qi,
Fan Yujie, Tang Chaorong
Plants. 2022 11(21). p.2879
Genome-Wide Identification and Analysis of Stress Response of Trehalose-6-Phosphate Synthase and Trehalose-6-Phosphate Phosphatase Genes in Quinoa
Wang Xiaoting,
Wang Mingyu,
Huang Yongshun,
Zhu Peng,
Qian Guangtao,
Zhang Yiming,
Liu Yuqi,
Zhou Jingwen, Li Lixin
International Journal of Molecular Sciences. 2023 24(8). p.6950
SnRK1/TOR/T6P: three musketeers guarding energy for root growth
Morales-Herrera S.,
Paul M.J.,
Van Dijck P., Beeckman T.
Trends in Plant Science. 2024
Genome-wide analysis of the Solanum tuberosum (potato) trehalose-6-phosphate synthase (TPS) gene family: evolution and differential expression during development and stress
Xu Yingchun,
Wang Yanjie,
Mattson Neil,
Yang Liu, Jin Qijiang
BMC Genomics. 2017 18(1).
Feedback Inhibition of Starch Degradation in Arabidopsis Leaves Mediated by Trehalose 6-Phosphate
Martins Marina Camara Mattos,
Hejazi Mahdi,
Fettke Joerg,
Steup Martin,
Feil Regina,
Krause Ursula,
Arrivault Stéphanie,
Vosloh Daniel,
Figueroa Carlos María,
Ivakov Alexander,
Yadav Umesh Prasad,
Piques Maria,
Metzner Daniela,
Stitt Mark, Lunn John Edward
Plant Physiology. 2013 163(3). p.1142
Delineation of the Crucial Evolutionary Amino Acid Sites in Trehalose-6-Phosphate Synthase From Higher Plants
Wang Rong,
He Congfen,
Dong Kun,
Zhao Xin,
Li Yaxuan, Hu Yingkao
Evolutionary Bioinformatics. 2020 16 p.117693432091014
Sugar Sensing and Signaling
Ramon Matthew,
Rolland Filip, Sheen Jen
The Arabidopsis Book. 2008 6 p.e0117
Genome-wide Identification, Expression Profiling and Promoter Analysis of Trehalose-6-Phosphate Phosphatase Gene Family in Rice
Rahman Md Mustafizur,
Rahman Md Mizanor,
Eom Joon-Seob, Jeon Jong-Seong
Journal of Plant Biology. 2021 64(1). p.55
The Role of Trehalose 6-Phosphate (Tre6P) in Plant Metabolism and Development
Fichtner Franziska, Lunn John Edward
Annual Review of Plant Biology. 2021 72(1). p.737
Single molecule, full-length transcript sequencing provides insight into the TPS gene family in Paeonia ostii
Sun Jing,
Chen Tian, Tao Jun
PeerJ. 2021 9 p.e11808
Trehalose metabolism in plants
Lunn John Edward,
Delorge Ines,
Figueroa Carlos María,
Van Dijck Patrick, Stitt Mark
The Plant Journal. 2014 79(4). p.544
Functions of sucrose and trehalose 6-phosphate in controlling plant development
Göbel Moritz, Fichtner Franziska
Journal of Plant Physiology. 2023 291 p.154140
Auxin and carbohydrate control flower bud development in Anthurium andraeanum during early stage of sexual reproduction
Wan Xiao,
Zou Long-Hai,
Pan Xiaoyun,
Ge Yaying,
Jin Liang,
Cao Qunyang,
Shi Jiewei, Tian Danqing
BMC Plant Biology. 2024 24(1).
Genome-wide identification of TPS genes in sesame and analysis of their expression in response to abiotic stresses
Zhou Wangyi,
Sheng Chen,
Koffi Dossou Senouwa Segla,
Wang Zhijian,
Song Shengnan,
You Jun, Wang Linhai
Oil Crop Science. 2023 8(2). p.81
Global Transcript Levels Respond to Small Changes of the Carbon Status during Progressive Exhaustion of Carbohydrates in Arabidopsis Rosettes
Usadel Björn,
Bläsing Oliver E.,
Gibon Yves,
Retzlaff Kristin,
Höhne Melanie,
Günther Manuela, Stitt Mark
Plant Physiology. 2008 146(4). p.1834
The use of metabolomics integrated with transcriptomic and proteomic studies for identifying key steps involved in the control of nitrogen metabolism in crops such as maize
Amiour Nardjis,
Imbaud Sandrine,
Clément Gilles,
Agier Nicolas,
Zivy Michel,
Valot Benoît,
Balliau Thierry,
Armengaud Patrick,
Quilleré Isabelle,
Cañas Rafael,
Tercet-Laforgue Thérèse, Hirel Bertrand
Journal of Experimental Botany. 2012 63(14). p.5017
Leaf metabolite profile of the Brazilian resurrection plant Barbacenia purpurea Hook. (Velloziaceae) shows two time-dependent responses during desiccation and recovering
Suguiyama Vanessa F.,
Silva Emerson A.,
Meirelles Sergio T.,
Centeno Danilo C., Braga Marcia R.
Frontiers in Plant Science. 2014 5
Abiotic and biotic stress combinations
Suzuki Nobuhiro,
Rivero Rosa M.,
Shulaev Vladimir,
Blumwald Eduardo, Mittler Ron
New Phytologist. 2014 203(1). p.32
Starch (2015)
Extensive expression regulation and lack of heterologous enzymatic activity of the Class II trehalose metabolism proteins from Arabidopsis thaliana
RAMON MATTHEW,
DE SMET IVE,
VANDESTEENE LIES,
NAUDTS MIRANDE,
LEYMAN BARBARA,
VAN DIJCK PATRICK,
ROLLAND FILIP,
BEECKMAN TOM, THEVELEIN JOHAN M.
Plant, Cell & Environment. 2009 32(8). p.1015
Trehalose-6-phosphate and SnRK1 kinases in plant development and signaling: the emerging picture
Tsai Allen Y.-L., Gazzarrini Sonia
Frontiers in Plant Science. 2014 5
Mapping of the plant SnRK1 kinase signalling network reveals a key regulatory role for the class II T6P synthase-like proteins
Van Leene Jelle,
Eeckhout Dominique,
Gadeyne Astrid,
Matthijs Caroline,
Han Chao,
De Winne Nancy,
Persiau Geert,
Van De Slijke Eveline,
Persyn Freya,
Mertens Toon,
Smagghe Wouter,
Crepin Nathalie,
Broucke Ellen,
Van Damme Daniël,
Pleskot Roman,
Rolland Filip, De Jaeger Geert
Nature Plants. 2022 8(11). p.1245
Molecular characterization of a sweet potato stress tolerance-associated trehalose-6-phosphate synthase 1 gene (IbTPS1) in response to abiotic stress
Wang Wenbin,
Yu Huan,
Kim Ho Soo,
Yang Yanxin,
Qiu Xiangpo, Kwak Sang-Soo
Plant Biotechnology Reports. 2019 13(3). p.235
Effects of low temperature on growth and non-structural carbohydrates of the imperial bromeliad Alcantarea imperialis cultured in vitro
Mollo Luciana,
Martins Marina C. M.,
Oliveira Vanessa Fátima,
Nievola Catarina C., L. Figueiredo-Ribeiro Rita de Cássia
Plant Cell, Tissue and Organ Culture (PCTOC). 2011 107(1). p.141
Coordination of carbon supply and plant growth
SMITH ALISON M., STITT MARK
Plant, Cell & Environment. 2007 30(9). p.1126
Metabolic and genetic perturbations accompany the modification of galactomannan in seeds of Medicago truncatula expressing mannan synthase from guar (Cyamopsis tetragonoloba L.)
Naoumkina Marina,
Vaghchhipawala Sanchita,
Tang Yuhong,
Ben Yuxing,
Powell Ronald J., Dixon Richard A.
Plant Biotechnology Journal. 2008 6(6). p.619
Overexpression of the Trehalase Gene AtTRE1 Leads to Increased Drought Stress Tolerance in Arabidopsis and Is Involved in Abscisic Acid-Induced Stomatal Closure
Van Houtte Hilde,
Vandesteene Lies,
López-Galvis Lorena,
Lemmens Liesbeth,
Kissel Ewaut,
Carpentier Sebastien,
Feil Regina,
Avonce Nelson,
Beeckman Tom,
Lunn John E., Van Dijck Patrick
Plant Physiology. 2013 161(3). p.1158
The trehalose pathway in maize: conservation and gene regulation in response to the diurnal cycle and extended darkness
Henry Clémence,
Bledsoe Samuel W.,
Siekman Allison,
Kollman Alec,
Waters Brian M.,
Feil Regina,
Stitt Mark, Lagrimini L. Mark
Journal of Experimental Botany. 2014 65(20). p.5959
Genomes of Meniocus linifolius and Tetracme quadricornis reveal the ancestral karyotype and genomic features of core Brassicaceae
Liu Jie,
Zhou Shi-Zhao,
Liu Yun-Long,
Zhao Bin-Yan,
Yu Dongmei,
Zhong Mi-Cai,
Jiang Xiao-Dong,
Cui Wei-Hua,
Zhao Jiu-Xia,
Qiu Juan,
Liu Liang-Min,
Guo Zhen-Hua,
Li Hong-Tao,
Tan Dun-Yan,
Hu Jin-Yong, Li De-Zhu
Plant Communications. 2024 p.100878
Two Subclasses of Differentially Expressed TPS1 Genes and Biochemically Active TPS1 Proteins May Contribute to Sugar Signalling in Kiwifruit Actinidia chinensis
Voogd Charlotte,
Brian Lara A.,
Varkonyi-Gasic Erika, Wilson Richard A.
PLOS ONE. 2016 11(12). p.e0168075
Transcriptomic exploration of a high sucrose mutant in comparison with the low sucrose mother genotype in sugarcane during sugar accumulating stage
Khan Qaisar,
Chen Jiao‐Yun,
Zeng Xu‐Peng,
Qin Ying,
Guo Dao‐Jun,
Mahmood Amir,
Yang Li‐Tao,
Liang Qiang,
Song Xiu‐Peng,
Xing Yong‐Xiu, Li Yang‐Rui
GCB Bioenergy. 2021 13(9). p.1448
In vivo protein kinase activity of SnRK1 fluctuates in Arabidopsis rosettes during light-dark cycles
Avidan Omri,
Moraes Thiago A,
Mengin Virginie,
Feil Regina,
Rolland Filip,
Stitt Mark, Lunn John E
Plant Physiology. 2023 192(1). p.387
Genome-wide identification of the trehalose-6-phosphate synthase gene family in sweet orange (Citrus sinensis) and expression analysis in response to phytohormones and abiotic stresses
Liu Kehong, Zhou Yan
PeerJ. 2022 10 p.e13934
Plant Signaling Molecules (2019)
Inhibition of SNF1-Related Protein Kinase1 Activity and Regulation of Metabolic Pathways by Trehalose-6-Phosphate
Zhang Yuhua,
Primavesi Lucia F.,
Jhurreea Deveraj,
Andralojc P. John,
Mitchell Rowan A.C.,
Powers Stephen J.,
Schluepmann Henriette,
Delatte Thierry,
Wingler Astrid, Paul Matthew J.
Plant Physiology. 2009 149(4). p.1860
Capillary electrophoresis-mass spectrometry analysis of trehalose-6-phosphate in Arabidopsis thaliana seedlings
Delatte T. L.,
Schluepmann H.,
Smeekens S. C. M.,
de Jong G. J., Somsen G. W.
Analytical and Bioanalytical Chemistry. 2011 400(4). p.1137
Computational Intelligence Methods for Bioinformatics and Biostatistics (2011)
Carbon starvation reduces carbohydrate and anthocyanin accumulation in red‐fleshed fruit via trehalose 6‐phosphate and MYB27
Nardozza Simona,
Boldingh Helen L.,
Kashuba M. Peggy,
Feil Regina,
Jones Dan,
Thrimawithana Amali H.,
Ireland Hilary S.,
Philippe Marine,
Wohlers Mark W.,
McGhie Tony K.,
Montefiori Mirco,
Lunn John E.,
Allan Andrew C., Richardson Annette C.
Plant, Cell & Environment. 2020 43(4). p.819
Identification of the trehalose-6-phosphate synthase gene family in winter wheat and expression analysis under conditions of freezing stress
XIE D. W.,
WANG X. N.,
FU L. S.,
SUN J.,
ZHENG W., LI Z. F.
Journal of Genetics. 2015 94(1). p.55
Why measure enzyme activities in the era of systems biology?
Stitt Mark, Gibon Yves
Trends in Plant Science. 2014 19(4). p.256
A trehalose-6-phosphate synthase gene from Saccharina japonica (Laminariales, Phaeophyceae)
Deng Yunyan,
Wang Xiuliang,
Guo Hui, Duan Delin
Molecular Biology Reports. 2014 41(1). p.529
Trehalose-6-phosphate synthase 1 is not the only active TPS in Arabidopsis thaliana
Delorge Ines,
Figueroa Carlos M.,
Feil Regina,
Lunn John E., Van Dijck Patrick
Biochemical Journal. 2015 466(2). p.283
Ectopic Expression of Jatropha curcas TREHALOSE-6-PHOSPHATE PHOSPHATASE J Causes Late-Flowering and Heterostylous Phenotypes in Arabidopsis but not in Jatropha
Zhao Mei-Li,
Ni Jun,
Chen Mao-Sheng, Xu Zeng-Fu
International Journal of Molecular Sciences. 2019 20(9). p.2165
Evolution and expression patterns of the trehalose-6-phosphate synthase gene family in drumstick tree (Moringa oleifera Lam.)
Lin Mengfei,
Jia Ruihu,
Li Juncheng,
Zhang Mengjie,
Chen Hanbin,
Zhang Deng,
Zhang Junjie, Chen Xiaoyang
Planta. 2018 248(4). p.999
Trehalases: A neglected carbon metabolism regulator?
Barraza Aarón, Sánchez Federico
Plant Signaling & Behavior. 2013 8(7). p.e24778
Sugars, signalling, and plant development
Eveland A. L., Jackson D. P.
Journal of Experimental Botany. 2012 63(9). p.3367
Multilevel genomics analysis of carbon signalling during low carbon availability: coordinating the supply and utilisation of carbon in a fluctuating environment
Stitt Mark,
Gibon Yves,
Lunn John E., Piques Maria
Functional Plant Biology. 2007 34(6). p.526
Osmoprotectant-Mediated Abiotic Stress Tolerance in Plants (2019)
Cloning and truncation modification of trehalose-6-phosphate synthase gene from Selaginella pulvinata
Zhao Sheng-Mei,
Fu Feng-Ling,
Gou Lin,
Wang Han-Guang,
He Gang, Li Wan-Chen
Gene. 2013 512(2). p.414
SnRK1 and trehalose 6-phosphate – two ancient pathways converge to regulate plant metabolism and growth
Baena-González Elena, Lunn John Edward
Current Opinion in Plant Biology. 2020 55 p.52
Sucrose metabolism analysis in a high sucrose sugarcane mutant clone at a mature stage in contrast to low sucrose parental clone through the transcriptomic approach
Khan Qaisar,
Qin Ying,
Guo Dao-Jun,
Chen Jiao-Yun,
Zeng Xu-Peng,
Mahmood Amir,
Yang Li-Tao,
Liang Qiang,
Song Xiu-Peng,
Xing Yong-Xiu, Li Yang-Rui
Chemical and Biological Technologies in Agriculture. 2023 10(1).
The trehalose 6‐phosphate phosphatase family in plants
Kerbler Sandra Mae‐Lin,
Armijos‐Jaramillo Vinicio,
Lunn John Edward, Vicente Rubén
Physiologia Plantarum. 2023 175(6).
How Do Sugars Regulate Plant Growth and Development? New Insight into the Role of Trehalose-6-Phosphate
O’Hara Liam E.,
Paul Matthew J., Wingler Astrid
Molecular Plant. 2013 6(2). p.261
Grapevine in a Changing Environment (2015)
Osmoprotectant-Mediated Abiotic Stress Tolerance in Plants (2019)
Evolutionary and structure-function analysis elucidates diversification of prokaryotic and eukaryotic trehalases
Tellis Meenakshi B.,
Gujar Nidhi N., Joshi Rakesh S.
Journal of Biomolecular Structure and Dynamics. 2019 37(11). p.2926
Trehalose Metabolism: From Osmoprotection to Signaling
Iturriaga Gabriel,
Suárez Ramón, Nova-Franco Barbara
International Journal of Molecular Sciences. 2009 10(9). p.3793
Plant Acclimation to Environmental Stress (2013)
Plant hormone signals regulate trehalose accumulation against osmotic stress in watermelon cells
Zhu Fangming,
Li Mingyan,
Sun Mengli,
Jiang Xuefei, Qiao Fei
Protoplasma. 2022 259(5). p.1351
Metabolic Networks: How to Identify Key Components in the Regulation of Metabolism and Growth
Stitt Mark,
Sulpice Ronan, Keurentjes Joost
Plant Physiology. 2010 152(2). p.428
Chemical Intervention: New Tools to Dissect Metabolic Signaling
Ramon Matthew, Rolland Filip
Trends in Plant Science. 2017 22(5). p.353
