Articles citing this paper
Carbohydrate partitioning in the leaves of Bromeliaceae performing C3 photosynthesis or Crassulacean acid metabolism
John T. Christopher and Joseph A. M. Holtum
25(3) pp.371 - 376
16 articles found in Crossref database.
Progress in Botany (2009)
Photosynthetic pathways in Bromeliaceae: phylogenetic and ecological significance of CAM and C3based on carbon isotope ratios for 1893 species
Crayn Darren M.,
Winter Klaus,
Schulte Katharina, Smith J. Andrew C.
Botanical Journal of the Linnean Society. 2015 178(2). p.169
Identification and expression analysis of pineapple sugar transporters reveal their role in the development and environmental response
Fakher Beenish,
Jakada Bello Hassan,
Greaves Joseph G.,
Wang Lulu,
Niu Xiaoping,
Cheng Yan,
Zheng Ping,
Aslam Mohammad,
Qin Yuan, Wang Xiaomei
Frontiers in Plant Science. 2022 13
Occurrence and Habitats of CAM Plants Distributed in Japan
Yoshimura Yasuyuki
Japanese Journal of Crop Science. 2021 90(3). p.277
Day–Night Changes of Energy-rich Compounds in Crassulacean Acid Metabolism (CAM) Species Utilizing Hexose and Starch
CHEN LI-SONG, NOSE AKIHIRO
Annals of Botany. 2004 94(3). p.449
The role of transitory starch in C3, CAM, and C4 metabolism and opportunities for engineering leaf starch accumulation
Weise Sean E.,
van Wijk Klaas J., Sharkey Thomas D.
Journal of Experimental Botany. 2011 62(9). p.3109
CRASSULACEAN ACID METABOLISM:Molecular Genetics
Cushman John C., Bohnert Hans J.
Annual Review of Plant Physiology and Plant Molecular Biology. 1999 50(1). p.305
Drought adaptation in plants with crassulacean acid metabolism involves the flexible use of different storage carbohydrate pools
Ceusters Johan,
Borland Anne M., De Proft Maurice P.
Plant Signaling & Behavior. 2009 4(3). p.212
Maltose Processing and Not β-Amylase Activity Curtails Hydrolytic Starch Degradation in the CAM Orchid Phalaenopsis
Ceusters Nathalie,
Frans Mario,
Van den Ende Wim, Ceusters Johan
Frontiers in Plant Science. 2019 10
Diel Shifts in Carboxylation Pathway and Metabolite Dynamics in the CAM Bromeliad Aechmea ‘Maya’ in Response to Elevated CO2
Ceusters J.,
Borland A. M.,
Londers E.,
Verdoodt V.,
Godts C., De Proft M. P.
Annals of Botany. 2008 102(3). p.389
Progress in Botany (2007)
Differential usage of storage carbohydrates in the CAM bromeliad Aechmea ‘Maya’ during acclimation to drought and recovery from dehydration
Ceusters Johan,
Borland Anne M.,
Londers Elsje,
Verdoodt Veerle,
Godts Christof, De Proft Maurice P.
Physiologia Plantarum. 2009 135(2). p.174
Metabolite gradients and carbohydrate translocation in rosette leaves of CAM and C3 bromeliads
Popp Marianne,
Janett Heinz‐Peter,
Lüttge Ulrich, Medina Ernesto
New Phytologist. 2003 157(3). p.649
CAM evolution is associated with gene family expansion in an explosive bromeliad radiation
Groot Crego Clara,
Hess Jaqueline,
Yardeni Gil,
de La Harpe Marylaure,
Priemer Clara,
Beclin Francesca,
Saadain Sarah,
Cauz-Santos Luiz A,
Temsch Eva M,
Weiss-Schneeweiss Hanna,
Barfuss Michael H J,
Till Walter,
Weckwerth Wolfram,
Heyduk Karolina,
Lexer Christian,
Paun Ovidiu, Leroy Thibault
The Plant Cell. 2024
Crassulacean acid metabolism: plastic, fantastic
Dodd Antony N.,
Borland Anne M.,
Haslam Richard P.,
Griffiths Howard, Maxwell Kate
Journal of Experimental Botany. 2002 53(369). p.569
Water and nutrient uptake capacity of leaf-absorbing trichomes vs. roots in epiphytic tank bromeliads
Leroy Céline,
Gril Eva,
Si Ouali Lynda,
Coste Sabrina,
Gérard Bastien,
Maillard Pascale,
Mercier Helenice, Stahl Clément
Environmental and Experimental Botany. 2019 163 p.112
