References
Albert, Réka, and Albert-László Barabási. 2002. “Statistical Mechanics
of Complex Networks.” Reviews of Modern Physics 74(1):47–97.
Angeles-Núñez, Juan Gabriel, and Axel Tiessen. 2012. “Regulation of
AtSUS2 and AtSUS3 by Glucose and the Transcription Factor LEC2 in
Different Tissues and at Different Stages of Arabidopsis Seed
Development.” Plant Molecular Biology 78(4–5):377–92.
dos Anjos, Letícia, Prashant Kumar Pandey, Thiago Alexandre Moraes,
Regina Feil, John E. Lunn, and Mark Stitt. 2018. “Feedback Regulation
by Trehalose 6-Phosphate Slows down Starch Mobilization below the Rate
That Would Exhaust Starch Reserves at Dawn in Arabidopsis Leaves.”Plant Direct 2(8):e00078.
Antunes, W. C., M. F. Pompelli, D. M. Carretero, and F. M. DaMatta.
2008. “Allometric Models for Non-Destructive Leaf Area Estimation in
Coffee (Coffea Arabica and Coffea Canephora).” Annals of Applied
Biology 153(1):33–40.
Antunes, Werner C., Nicholas J. Provart, Thomas C. R. Williams, and
Marcelo E. Loureiro. 2012. “Changes in Stomatal Function and Water Use
Efficiency in Potato Plants with Altered Sucrolytic Activity.”Plant, Cell and Environment 35(4):747–59.
Antunes, Werner Camargos, Danilo de Menezes Daloso, Daniela Pereira
Pinheiro, Thomas Christopher Rhys Williams, and Marcelo Ehlers Loureiro.
2017. “Guard Cell-Specific down-Regulation of the Sucrose Transporter
SUT1 Leads to Improved Water Use Efficiency and Reveals the Interplay
between Carbohydrate Metabolism and K+ Accumulation in the Regulation of
Stomatal Opening.” Environmental and Experimental Botany135:73–85.
Araújo, Wagner L., Adriano Nunes-Nesi, Sonia Osorio, Björn Usadel,
Daniela Fuentes, Réka Nagy, Ilse Balbo, Martin Lehmann, Claudia
Studart-Witkowski, Takayuki Tohge, Enrico Martinoia, Xavier Jordana,
Fábio M. DaMatta, and Alisdair R. Fernie. 2011. “Antisense Inhibition
of the Iron-Sulphur Subunit of Succinate Dehydrogenase Enhances
Photosynthesis and Growth in Tomato via an Organic Acid–Mediated Effect
on Stomatal Aperture.” The Plant Cell 23(2):600–627.
Arnhold, Emmanuel. 2018. “R-Environment Package for Regression
Analysis.” Pesquisa Agropecuaria Brasileira 53(7).
Assenov, Yassen, Fidel Ramírez, Sven-Eric Schelhorn, Thomas Lengauer,
and Mario Albrecht. 2008. “Computing Topological Parameters of
Biological Networks.” Bioinformatics 24(2):282–84.
Bacon, Mark A. 2004. “Water Use Efficiency in Plant Biology.” Pp.
1–22 in Water Use Efficiency in Plant Biology , edited by M. A.
Bacon. Oxford, UK: Blackwell.
Baroja-Fernández, Edurne, Francisco José Muñoz, Jun Li, Abdellatif
Bahaji, Goizeder Almagro, Manuel Montero, Ed Etxeberria, Maite Hidalgo,
María Teresa Sesma, and Javier Pozueta-Romero. 2012. “Sucrose Synthase
Activity in the Sus1/Sus2/Sus3/Sus4 Arabidopsis Mutant Is Sufficient to
Support Normal Cellulose and Starch Production.” Proceedings of
the National Academy of Sciences of the United States of America109(1):321–26.
Basu, Sumanta, William Duren, Charles R. Evans, Charles F. Burant,
George Michailidis, and Alla Karnovsky. 2017. “Sparse Network Modeling
and Metscape-Based Visualization Methods for the Analysis of Large-Scale
Metabolomics Data.” Bioinformatics 33(10):1545–53.
Bates, George W., David M. Rosenthal, Jindong Sun, Maitreyi
Chattopadhyay, Emily Peffer, Jing Yang, Donald R. Ort, and Alan M.
Jones. 2012. “A Comparative Study of the Arabidopsis Thaliana
Guard-Cell Transcriptome and Its Modulation by Sucrose.” PLoS
ONE 7(11):e49641.
Bauer, Hubert, Peter Ache, Silke Lautner, Joerg Fromm, Wolfram Hartung,
Khaled A. S. Al-Rasheid, Sophia Sonnewald, Uwe Sonnewald, Susanne
Kneitz, Nicole Lachmann, Ralf R. Mendel, Florian Bittner, Alistair M.
Hetherington, and Rainer Hedrich. 2013. “The Stomatal Response to
Reduced Relative Humidity Requires Guard Cell-Autonomous ABA
Synthesis.” Current Biology 23(1):53–57.
Bertolli, S. C., P. Mazzafera, and G. M. Souza. 2014. “Why Is It so
Difficult to Identify a Single Indicator of Water Stress in Plants? A
Proposal for a Multivariate Analysis to Assess Emergent Properties.”Plant Biology 16(3):578–85.
Bieniawska, Zuzanna, D. H. Paul Barratt, Andrew P. Garlick, Vera Thole,
Nicholas J. Kruger, Cathie Martin, Rita Zrenner, and Alison M. Smith.
2007. “Analysis of the Sucrose Synthase Gene Family in Arabidopsis.”Plant Journal 49(5):810–28.
Brodribb, Timothy J., and Scott A. M. McAdam. 2017. “Evolution of the
Stomatal Regulation of Plant Water Content.” Plant Physiology174(2):639–49.
Brodribb, Timothy J., Frances Sussmilch, and Scott A. M. McAdam. 2019.
“From Reproduction to Production, Stomata Are the Master Regulators.”The Plant Journal tpj.14561.
Chong, Jasmine, Othman Soufan, Carin Li, Iurie Caraus, Shuzhao Li,
Guillaume Bourque, David S. Wishart, and Jianguo Xia. 2018.
“MetaboAnalyst 4.0: Towards More Transparent and Integrative
Metabolomics Analysis.” Nucleic Acids Research 46(W1):W486–94.
Condon, A. G., R. A. Richards, G. J. Rebetzke, and G. D. Farquhar. 2004.
“Breeding for High Water-Use Efficiency.” Journal of
Experimental Botany 55(407):2447–60.
Dai, Aiguo. 2013. “Increasing Drought under Global Warming in
Observations and Models.” Nature Climate Change 3(1):52–58.
Daloso, Danilo M., Leticia dos Anjos, and Alisdair R. Fernie. 2016a.
“Roles of Sucrose in Guard Cell Regulation.” New Phytologist211(3):809–18.
Daloso, Danilo M., Werner C. Antunes, Daniela P. Pinheiro, Jardel P.
Waquim, Wagner L. Araújo, Marcelo E. Loureiro, Alisdair R. Fernie, and
Thomas C. R. Williams. 2015. “Tobacco Guard Cells Fix CO2 by Both
Rubisco and PEPcase While Sucrose Acts as a Substrate during
Light-Induced Stomatal Opening.” Plant Cell and Environment38(11):2353–71.
Daloso, Danilo M., David B. Medeiros, Letícia dos Anjos, Takuya Yoshida,
Wagner L. Araújo, and Alisdair R. Fernie. 2017. “Metabolism within the
Specialized Guard Cells of Plants.” New Phytologist216(4):1018–33.
Daloso, Danilo M., Thomas C. R. Williams, Werner C. Antunes, Daniela P.
Pinheiro, Caroline Müller, Marcelo E. Loureiro, and Alisdair R. Fernie.
2016b. “Guard Cell-Specific Upregulation of Sucrose Synthase 3 Reveals
That the Role of Sucrose in Stomatal Function Is Primarily Energetic.”New Phytologist 209(4):1470–83.
Doncheva, Nadezhda T., Yassen Assenov, Francisco S. Domingues, and Mario
Albrecht. 2012. “Topological Analysis and Interactive Visualization of
Biological Networks and Protein Structures.” Nature Protocols7(4):670–85.
Dow, Graham J., and Dominique C. Bergmann. 2014. “Patterning and
Processes: How Stomatal Development Defines Physiological Potential.”Current Opinion in Plant Biology 21:67–74.
Fettke, Joerg, and Alisdair R. Fernie. 2015. “Intracellular and
Cell-to-Apoplast Compartmentation of Carbohydrate Metabolism.”Trends in Plant Science 20(8):490–97.
Figueroa, Carlos M., Regina Feil, Hirofumi Ishihara, Mutsumi Watanabe,
Katharina Kölling, Ursula Krause, Melanie Höhne, Beatrice Encke, William
C. Plaxton, Samuel C. Zeeman, Zhi Li, Waltraud X. Schulze, Rainer
Hoefgen, Mark Stitt, and John E. Lunn. 2016. “Trehalose 6-Phosphate
Coordinates Organic and Amino Acid Metabolism with Carbon
Availability.” The Plant Journal 85(3):410–23.
Figueroa, Carlos M., and John E. Lunn. 2016. “A Tale of Two Sugars:
Trehalose 6-Phosphate and Sucrose.” Plant Physiology172(1):7–27.
Flexas, J. 2016. “Genetic Improvement of Leaf Photosynthesis and
Intrinsic Water Use Efficiency in C3plants: Why so Much Little
Success?” Plant Science 251:155–61.
Flütsch, Sabrina, Arianna Nigro, Franco Conci, Jiří Fajkus, Matthias
Thalmann, Martin Trtílek, Klára Panzarová, and Diana Santelia. 2020a.
“Glucose Uptake to Guard Cells via STP Transporters Provides Carbon
Sources for Stomatal Opening and Plant Growth.” EMBO Reports21(8).
Flütsch, Sabrina, Yizhou Wang, Atsushi Takemiya, Silvére
Vialet-Chabrand, Martina Klajchova, Arianna Nigro, Adrian Hills, Tracy
Lawson, Michael R. Blatt, and Diana Santelia. 2020b. “Guard Cell Starch
Degradation Yields Glucose for Rapid Stomatal Opening in Arabidopsis.”Pant Cell, in Press .
Gago, D. M. Daloso, M. Carriquí, M. Nadal, M. Morales, W. L. Araújo, A.
Nunes-nesi, A. V Perera-castro, M. J. Clemente-moreno, and J. Flexas.
2020. “The Photosynthesis Game Is in the ” Inter-Play ”: Mechanisms
Underlying CO 2 Di Ff Usion in Leaves.” 178(July).
Gago, C. Douthe, I. Florez-Sarasa, Jose M. Escalona, Jeroni Galmes,
Alisdair R. Fernie, Jaume Flexas, and Hipolito Medrano. 2014.
“Opportunities for Improving Leaf Water Use Efficiency under Climate
Change Conditions.” Plant Science 226:108–19.
Gago, Jorge, Danilo de Menezes Daloso, Carlos María Figueroa, Jaume
Flexas, Alisdair Robert Fernie, and Zoran Nikoloski. 2016.
“Relationships of Leaf Net Photosynthesis, Stomatal Conductance, and
Mesophyll Conductance to Primary Metabolism: A Multispecies
Meta-Analysis Approach.” Plant Physiology 171(1):265–79.
Granot, David, and Gilor Kelly. 2019. “Evolution of Guard-Cell
Theories: The Story of Sugars.” Trends in Plant Science24(6):507–18.
Hedrich, R., K. Raschke, and M. Stitt. 1985. “A Role for Fructose
2,6-Bisphosphate in Regulating Carbohydrate Metabolism in Guard Cells.”Plant Physiology 79:977–82.
Hoagland, D. R., and D. I. Arnon. 1950. “The Water-Culture Method for
Growing Plants without Soil.” California Agricultural Experiment
Station Circular 347:1–32.
Hoffmann, WILLIAM A., and HENDRIK Poorter. 2002. “Avoiding Bias in
Calculations of Relative Growth Rate.” Annals of Botany90(1):37–42.
Höfgen, Rainer, and Lothar Willmitzer. 1990. “Biochemical and Genetic
Analysis of Different Patatin Isoforms Expressed in Various Organs of
Potato (Solanum Tuberosum).” Plant Science 66(2):221–30.
Horrer, Daniel, Sabrina Flütsch, Diana Pazmino, Jack S. A. Matthews,
Matthias Thalmann, Arianna Nigro, Nathalie Leonhardt, Tracy Lawson, and
Diana Santelia. 2016. “Blue Light Induces a Distinct Starch Degradation
Pathway in Guard Cells for Stomatal Opening.” Current Biology26(3):362–70.
Jeong, H., B. Tombor, R. Albert, Z. N. Oltval, and A. L. Barabásl. 2000.
“The Large-Scale Organization of Metabolic Networks.” Nature407(6804):651–54.
Karnovsky, Alla, Terry Weymouth, Tim Hull, V. Glenn Tarcea, Giovanni
Scardoni, Carlo Laudanna, Maureen A. Sartor, Kathleen A. Stringer, H. V.
Jagadish, Charles Burant, Brian Athey, and Gilbert S. Omenn. 2012.
“Metscape 2 Bioinformatics Tool for the Analysis and Visualization of
Metabolomics and Gene Expression Data.” Bioinformatics28(3):373–80.
Kelly, Gilor, Aiman Egbaria, Belal Khamaisi, Nitsan Lugassi, Ziv Attia,
Menachem Moshelion, and David Granot. 2019. “Guard-Cell Hexokinase
Increases Water-Use Efficiency Under Normal and Drought Conditions.”Frontiers in Plant Science 10:1499.
Kelly, Gilor, Nitsan Lugassi, Eduard Belausov, Dalia Wolf, Belal
Khamaisi, Danja Brandsma, Jayaram Kottapalli, Lena Fidel, Batsheva
Ben-Zvi, Aiman Egbaria, Atiako Kwame Acheampong, Chuanlin Zheng, Etti
Or, Assaf Distelfeld, Rakefet David-Schwartz, Nir Carmi, and David
Granot. 2017. “The Solanum Tuberosum KST1 Partial Promoter as a Tool
for Guard Cell Expression in Multiple Plant Species.” Journal of
Experimental Botany 68(11):2885–97.
Kelly, Gilor, Menachem Moshelion, Rakefet David-Schwartz, Ofer Halperin,
Rony Wallach, Ziv Attia, Eduard Belausov, and David Granot. 2013.
“Hexokinase Mediates Stomatal Closure.” Plant Journal75(6):977–88.
Koch, Karen E., Kurt D. Nolte, Edwin R. Duke, D. R. McCarty, and W. T.
Avigne. 1992. “Sugar Levels Modulate Differential Expression of Maize
Sucrose Synthase Genes.” The Plant Cell 4(1):59–69.
Kopka, Joachim, Nicholas J. Provart, and Bernd Muller-Rober. 1997.
“Potato Guard Cells Respond to Drying Soil by a Complex Change in the
Expression of Genes Related to Carbon Metabolism and Turgor
Regulation.” The Plant Journal 11(4):871–82.
Laporte, Marianne M., Bo Shen, and Mitchell C. Tarczynski. 2002.
“Engineering for Drought Avoidance: Expression of Maize NADP‐malic
Enzyme in Tobacco Results in Altered Stomatal Function.” Journal
of Experimental Botany 53(369):699–705.
Lasceve, G., J. Leymarie, and A. Vavasseur. 1997. “Alterations in
Light-Induced Stomatal Opening in a Starch- Deficient Mutant of
Arabidopsis Thaiiana L . Deficient in Chloroplast Phosphoglucomutase
Activity.” 350–58.
Lawson, Tracy, and Jack Matthews. 2020. “Guard Cell Metabolism and
Stomatal Function.” Annual Review OfPlant Biology 71:273–302.
Lawson, Tracy, Andrew J. Simkin, Gilor Kelly, and David Granot. 2014.
“Mesophyll Photosynthesis and Guard Cell Metabolism Impacts on Stomatal
Behaviour.” New Phytologist 203(4):1064–81.
Lawson, Tracy, and Silvère Vialet-Chabrand. 2019. “Speedy Stomata,
Photosynthesis and Plant Water Use Efficiency.” New Phytologist221(1):93–98.
Lima, V. F., D. B. Medeiros, L. Dos Anjos, J. Gago, A. R. Fernie, and D.
M. Daloso. 2018. “Toward Multifaceted Roles of Sucrose in the
Regulation of Stomatal Movement.” Plant Signaling and Behavior13(8):1–8.
Lima, Valéria F., Letícia dos Anjos, David B. Medeiros, Silvio A.
Cândido-Sobrinho, Leonardo P. Souza, Jorge Gago, Alisdair R. Fernie, and
Danilo M. Daloso. 2019. “The Sucrose-to-Malate Ratio Correlates with
the Faster CO2 and Light Stomatal Responses of Angiosperms Compared to
Ferns.” New Phytologist 223(4):1873–87.
Lisec, Jan, Nicolas Schauer, Joachim Kopka, Lothar Willmitzer, and
Alisdair R. Fernie. 2006. “Gas Chromatography Mass Spectrometry-Based
Metabolite Profiling in Plants.” Nature Protocols 1(1):387–96.
Livak, Kenneth J., and Thomas D. Schmittgen. 2001. “Analysis of
Relative Gene Expression Data Using Real-Time Quantitative PCR and the
2−ΔΔCT Method.” Methods 25(4):402–8.
Luedemann, Alexander, Katrin Strassburg, Alexander Erban, and Joachim
Kopka. 2008. “TagFinder for the Quantitative Analysis of Gas Metabolite
Profiling Experiments.” Bioinformatics 24(5):732–37.
Lugassi, Nitsan, Gilor Kelly, Lena Fidel, Yossi Yaniv, Ziv Attia, Asher
Levi, Victor Alchanatis, Menachem Moshelion, Eran Raveh, Nir Carmi, and
David Granot. 2015. “Expression of Arabidopsis Hexokinase in Citrus
Guard Cells Controls Stomatal Aperture and Reduces Transpiration.”Frontiers in Plant Science 6(December):1–11.
Lunn, John Edward, Ines Delorge, Carlos María Figueroa, Patrick Van
Dijck, and Mark Stitt. 2014. “Trehalose Metabolism in Plants.”The Plant Journal 79(4):544–67.
Martins, Marina Camara Mattos, Mahdi Hejazi, Joerg Fettke, Martin Steup,
Regina Feil, Ursula Krause, Stéphanie Arrivault, Daniel Vosloh, Carlos
María Figueroa, Alexander Ivakov, Umesh Prasad Yadav, Maria Piques,
Daniela Metzner, Mark Stitt, and John Edward Lunn. 2013. “Feedback
Inhibition of Starch Degradation in Arabidopsis Leaves Mediated by
Trehalose 6-Phosphate.” Plant Physiology 163(3):1142–63.
McAusland, Lorna, Silvère Vialet-Chabrand, Philip Davey, Neil R. Baker,
Oliver Brendel, and Tracy Lawson. 2016. “Effects of Kinetics of
Light-Induced Stomatal Responses on Photosynthesis and Water-Use
Efficiency.” The New Phytologist 211(4):1209–20.
McLachlan, Deirdre H., Jue Lan, Christoph Martin Geilfus, Antony N.
Dodd, Tony Larson, Alison Baker, Hanna Hõrak, Hannes Kollist, Zhesi He,
Ian Graham, Michael V. Mickelbart, and Alistair M. Hetherington. 2016.
“The Breakdown of Stored Triacylglycerols Is Required during
Light-Induced Stomatal Opening.” Current Biology 26(5):707–12.
Medeiros, DAVID B., DANILO M. DALOSO, ALISDAIR R. FERNIE, ZORAN
NIKOLOSKI, and WAGNER L. ARAÚJO. 2015. “Utilizing Systems Biology to
Unravel Stomatal Function and the Hierarchies Underpinning Its
Control.” Plant, Cell & Environment 38(8):1457–70.
Medeiros, David B., Leonardo Perez Souza, Werner C. Antunes, Wagner L.
Araújo, Danilo M. Daloso, and Alisdair R. Fernie. 2018. “Sucrose
Breakdown within Guard Cells Provides Substrates for Glycolysis and
Glutamine Biosynthesis during Light-Induced Stomatal Opening.”Plant Journal 94(4):583–94.
Mott, Keith A. 2009. “Opinion: Stomatal Responses to Light and CO2
Depend on the Mesophyll.” Plant, Cell and Environment32(11):1479–86.
Murashige, Toshio, and Folke Skoog. 1962. “A Revised Medium for Rapid
Growth and Bio Assays with Tobacco Tissue Cultures.” Physiologia
Plantarum 15(3):473–97.
Ni, Di An. 2012. “Role of Vacuolar Invertase in Regulating Arabidopsis
Stomatal Opening.” Acta Physiologiae Plantarum 34(6):2449–52.
Nunes-Nesi, Adriano, Fernando Carrari, Yves Gibon, Ronan Sulpice, Anna
Lytovchenko, Joachim Fisahn, James Graham, R. George Ratcliffe, Lee J.
Sweetlove, and Alisdair R. Fernie. 2007. “Deficiency of Mitochondrial
Fumarase Activity in Tomato Plants Impairs Photosynthesis via an Effect
on Stomatal Function.” The Plant Journal 50(6):1093–1106.
Outlaw, W. H., and J. Manchester. 1979. “Guard Cell Starch
Concentration Quantitatively Related to Stomatal Aperture.” Plant
Physiology 64:79–82.
Papanatsiou, M., J. Petersen, L. Henderson, Y. Wang, J. M. Christie, and
M. R. Blatt. 2019. “Optogenetic Manipulation of Stomatal Kinetics
Improves Carbon Assimilation,Water Use, and Growth.” Science363(6434):1456–59.
Pennisi, E. 2008. “The Blue Revolution, Drop by Drop, Gene by Gene.”Science 320(5873):171–73.
Pinheiro, Flávio L., and Dominik Hartmann. 2017. “Intermediate Levels
of Network Heterogeneity Provide the Best Evolutionary Outcomes.”Scientific Reports 7(1):1–9.
Plesch, Gunnar, Thomas Ehrhardt, and Bernd Mueller-Roeber. 2001.
“Involvement of TAAAG Elements Suggests a Role for Dof Transcription
Factors in Guard Cell-Specific Gene Expression.” The Plant
Journal 28(4):455–64.
Price, M. N., P. S. Dehal, and A. P. Arkin. 2009. “FastTree: Computing
Large Minimum Evolution Trees with Profiles Instead of a Distance
Matrix.” Molecular Biology and Evolution 26(7):1641–50.
Qi, Xingyun, and Keiko U. Torii. 2018. “Hormonal and Environmental
Signals Guiding Stomatal Development.” BMC Biology 16(1):1–11.
R Core Team. 2020. “R: A Language and Environment for Statistical
Computing.”
Rahmstorf, S., and D. Coumou. 2011. “Increase of Extreme Events in a
Warming World.” Proceedings of the National Academy of Sciences108(44):17905–9.
Robaina-Estévez, Semidán, Danilo M. Daloso, Youjun Zhang, Alisdair R.
Fernie, and Zoran Nikoloski. 2017. “Resolving the Central Metabolism of
Arabidopsis Guard Cells.” Scientific Reports 7(1):1–13.
Rodgman, Alan, and Thomas Perfetti. 2013. The Chemical Components
of Tobacco and Tobacco Smoke, Second Edition . Boca Raton: CRC Press.
Schnabl, H. 1980. “CO2 and Malate Metabolism in Starch-Containing and
Starch-Lacking Guard-Cell Protoplasts.” Planta 149(1):52–58.
Schnabl, Heide, Christine Elbert, and Gerda Krämer. 1982. “The
Regulation of the Starch-Malate Balances during Volume Changes of Guard
Cell Protoplasts.” Journal of Experimental Botany33(5):996–1003.
Schroeder, Julian I., Gethyn J. Allen, Veronique Hugouvieux, June M.
Kwak, and David Waner. 2001. “ G Uard C Ell S Ignal T Ransduction .”Annual Review of Plant Physiology and Plant Molecular Biology52(1):627–58.
Shannon, Paul, Andrew Markiel, Owen Ozier, Nitin S. Baliga, Jonathan T.
Wang, Daniel Ramage, Nada Amin, Benno Schwikowski, and Trey Ideker.
2003. “Cytoscape: A Software Environment for Integrated Models of
Biomolecular Interaction Networks.” Genome Research13(11):2498–2504.
Sussmilch, Frances C., M. Rob G. Roelfsema, and Rainer Hedrich. 2019.
“On the Origins of Osmotically Driven Stomatal Movements.” New
Phytologist 222(1):84–90.
Sussmilch, Frances C., Jörg Schultz, Rainer Hedrich, and M. Rob G.
Roelfsema. 2019. “Acquiring Control: The Evolution of Stomatal
Signalling Pathways.” Trends in Plant Science 24(4):342–51.
Talbott, L. D., and Eduardo Zeiger. 1998. “The Role of Sucrose in Guard
Cell Osmoregulation.” Journal of Experimental Botany49(Special):329–37.
Talbott, Lawrence D., and Eduardo Zeiger. 1993. “Sugar and Organic Acid
Accumulation in Guard Cells of Vicia Faba in Response to Red and Blue
Light.” Plant Physiology 102(4):1163–69.
Wang, Hai, Shijuan Yan, Hongjia Xin, Wenjie Huang, Hao Zhang, Shouzhen
Teng, Ya Chi Yu, Alisdair R. Fernie, Xiaoduo Lu, Pengcheng Li, Shengyan
Li, Chunyi Zhang, Yong Ling Ruan, Li Qing Chen, and Zhihong Lang. 2019.
“A Subsidiary Cell-Localized Glucose Transporter Promotes Stomatal
Conductance and Photosynthesis.” The Plant Cell 31(6):1328–43.
Wang, Zhong, Pan Wei, Mingzhu Wu, Yalong Xu, Feng Li, Zhaopeng Luo,
Jianfeng Zhang, Ang Chen, Xiaodong Xie, Peijian Cao, Fucheng Lin, and
Jun Yang. 2015. “Analysis of the Sucrose Synthase Gene Family in
Tobacco: Structure, Phylogeny, and Expression Patterns.” Planta242(1):153–66.
Watling, Jenny R., Malcolm C. Press, and W. Paul Quick. 2000. “Elevated
CO 2 Induces Biochemical and Ultrastructural Changes in Leaves of the C
4 Cereal Sorghum.” Plant Physiology 123(3):1143–52.
Xia, Jianguo, and David S. Wishart. 2011. “Web-Based Inference of
Biological Patterns, Functions and Pathways from Metabolomic Data Using
MetaboAnalyst.” Nature Protocols 6(6):743–60.
Yao, Danyu, Eliana Gonzales-Vigil, and Shawn D. Mansfield. 2020.
“Arabidopsis Sucrose Synthase Localization Indicates a Primary Role in
Sucrose Translocation in Phloem” edited by C. Foyer. Journal of
Experimental Botany 71(6):1858–69.
Zeiger, Eduardo, Lawrence D. Talbott, Silvia Frechilla, Alaka
Srivastava, and Jianxin Zhu. 2002. “The Guard Cell Chloroplast: A
Perspective for the Twenty-First Century.” New Phytologist153(3):415–24.
Zhao, Zhixin, and Sarah M. Assmann. 2011. “The Glycolytic Enzyme,
Phosphoglycerate Mutase, Has Critical Roles in Stomatal Movement,
Vegetative Growth, and Pollen Production in Arabidopsis Thaliana.”Journal of Experimental Botany 62(14):5179–89.