Author
Listed:
- Xiaohan Yang
(Oak Ridge National Laboratory
University of Tennessee)
- Rongbin Hu
(Oak Ridge National Laboratory)
- Hengfu Yin
(Oak Ridge National Laboratory)
- Jerry Jenkins
(HudsonAlpha Institute for Biotechnology)
- Shengqiang Shu
(US Department of Energy Joint Genome Institute)
- Haibao Tang
(Fujian Agriculture and Forestry University)
- Degao Liu
(Oak Ridge National Laboratory)
- Deborah A. Weighill
(Oak Ridge National Laboratory
University of Tennessee)
- Won Cheol Yim
(University of Nevada)
- Jungmin Ha
(University of Nevada)
- Karolina Heyduk
(University of Georgia)
- David M. Goodstein
(US Department of Energy Joint Genome Institute)
- Hao-Bo Guo
(University of Tennessee)
- Robert C. Moseley
(Oak Ridge National Laboratory
University of Tennessee)
- Elisabeth Fitzek
(Northern Illinois University)
- Sara Jawdy
(Oak Ridge National Laboratory)
- Zhihao Zhang
(Oak Ridge National Laboratory)
- Meng Xie
(Oak Ridge National Laboratory)
- James Hartwell
(University of Liverpool)
- Jane Grimwood
(HudsonAlpha Institute for Biotechnology)
- Paul E. Abraham
(Oak Ridge National Laboratory)
- Ritesh Mewalal
(Oak Ridge National Laboratory)
- Juan D. Beltrán
(University of Oxford)
- Susanna F. Boxall
(University of Liverpool)
- Louisa V. Dever
(University of Liverpool)
- Kaitlin J. Palla
(Oak Ridge National Laboratory
University of Tennessee)
- Rebecca Albion
(University of Nevada)
- Travis Garcia
(University of Nevada)
- Jesse A. Mayer
(University of Nevada)
- Sung Don Lim
(University of Nevada)
- Ching Man Wai
(University of Illinois at Urbana-Champaign)
- Paul Peluso
(Pacific Biosciences, Inc.)
- Robert Buren
(Michigan State University)
- Henrique Cestari Paoli
(Oak Ridge National Laboratory
University of Tennessee)
- Anne M. Borland
(Oak Ridge National Laboratory
Newcastle University)
- Hong Guo
(University of Tennessee)
- Jin-Gui Chen
(Oak Ridge National Laboratory)
- Wellington Muchero
(Oak Ridge National Laboratory)
- Yanbin Yin
(Northern Illinois University)
- Daniel A. Jacobson
(Oak Ridge National Laboratory
University of Tennessee)
- Timothy J. Tschaplinski
(Oak Ridge National Laboratory)
- Robert L. Hettich
(Oak Ridge National Laboratory)
- Ray Ming
(Fujian Agriculture and Forestry University
University of Illinois at Urbana-Champaign)
- Klaus Winter
(Smithsonian Tropical Research Institute, Apartado)
- James H. Leebens-Mack
(University of Georgia)
- J. Andrew C. Smith
(University of Oxford)
- John C. Cushman
(University of Nevada)
- Jeremy Schmutz
(HudsonAlpha Institute for Biotechnology
US Department of Energy Joint Genome Institute)
- Gerald A. Tuskan
(Oak Ridge National Laboratory)
Abstract
Crassulacean acid metabolism (CAM) is a water-use efficient adaptation of photosynthesis that has evolved independently many times in diverse lineages of flowering plants. We hypothesize that convergent evolution of protein sequence and temporal gene expression underpins the independent emergences of CAM from C3 photosynthesis. To test this hypothesis, we generate a de novo genome assembly and genome-wide transcript expression data for Kalanchoë fedtschenkoi, an obligate CAM species within the core eudicots with a relatively small genome (~260 Mb). Our comparative analyses identify signatures of convergence in protein sequence and re-scheduling of diel transcript expression of genes involved in nocturnal CO2 fixation, stomatal movement, heat tolerance, circadian clock, and carbohydrate metabolism in K. fedtschenkoi and other CAM species in comparison with non-CAM species. These findings provide new insights into molecular convergence and building blocks of CAM and will facilitate CAM-into-C3 photosynthesis engineering to enhance water-use efficiency in crops.
Suggested Citation
Xiaohan Yang & Rongbin Hu & Hengfu Yin & Jerry Jenkins & Shengqiang Shu & Haibao Tang & Degao Liu & Deborah A. Weighill & Won Cheol Yim & Jungmin Ha & Karolina Heyduk & David M. Goodstein & Hao-Bo Guo, 2017.
"The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism,"
Nature Communications, Nature, vol. 8(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01491-7
DOI: 10.1038/s41467-017-01491-7
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Cited by:
- David Wickell & Li-Yaung Kuo & Hsiao-Pei Yang & Amra Dhabalia Ashok & Iker Irisarri & Armin Dadras & Sophie de Vries & Jan de Vries & Yao-Moan Huang & Zheng Li & Michael S. Barker & Nolan T. Hartwick , 2021.
"Underwater CAM photosynthesis elucidated by Isoetes genome,"
Nature Communications, Nature, vol. 12(1), pages 1-13, December.
- Junhui Yuan & Sanjie Jiang & Jianbo Jian & Mingyu Liu & Zhen Yue & Jiabao Xu & Juan Li & Chunyan Xu & Lihong Lin & Yi Jing & Xiaoxiao Zhang & Haixin Chen & Linjuan Zhang & Tao Fu & Shuiyan Yu & Zhangy, 2022.
"Genomic basis of the giga-chromosomes and giga-genome of tree peony Paeonia ostii,"
Nature Communications, Nature, vol. 13(1), pages 1-16, December.
- Justine K. Kitony & Kelly Colt & Bradley W. Abramson & Nolan T. Hartwick & Semar Petrus & Emadeldin H. E. Konozy & Nisa Karimi & Levi Yant & Todd P. Michael, 2024.
"Chromosome-level baobab genome illuminates its evolutionary trajectory and environmental adaptation,"
Nature Communications, Nature, vol. 15(1), pages 1-14, December.
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