The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism

The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism

Crassulacean acid metabolism (CAM) is a metabolic adaptation of photosynthesis that enhances water use efficiency. Here, via genomic analysis of Kalanchoë, the authors provide evidence for convergent evolution of protein sequence and temporal gene expression underpinning the multiple independent eme...

Full description

Bibliographic Details
Main Authors: 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, Robert C. Moseley, Elisabeth Fitzek, Sara Jawdy, Zhihao Zhang, Meng Xie, James Hartwell, Jane Grimwood, Paul E. Abraham, Ritesh Mewalal, Juan D. Beltrán, Susanna F. Boxall, Louisa V. Dever, Kaitlin J. Palla, Rebecca Albion, Travis Garcia, Jesse A. Mayer, Sung Don Lim, Ching Man Wai, Paul Peluso, Robert Van Buren, Henrique Cestari De Paoli, Anne M. Borland, Hong Guo, Jin-Gui Chen, Wellington Muchero, Yanbin Yin, Daniel A. Jacobson, Timothy J. Tschaplinski, Robert L. Hettich, Ray Ming, Klaus Winter, James H. Leebens-Mack, J. Andrew C. Smith, John C. Cushman, Jeremy Schmutz, Gerald A. Tuskan
Format: Article
Language:English
Published: Nature Portfolio 2017-12-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-017-01491-7
_version_ 1818750342384320512
author 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
Robert C. Moseley
Elisabeth Fitzek
Sara Jawdy
Zhihao Zhang
Meng Xie
James Hartwell
Jane Grimwood
Paul E. Abraham
Ritesh Mewalal
Juan D. Beltrán
Susanna F. Boxall
Louisa V. Dever
Kaitlin J. Palla
Rebecca Albion
Travis Garcia
Jesse A. Mayer
Sung Don Lim
Ching Man Wai
Paul Peluso
Robert Van Buren
Henrique Cestari De Paoli
Anne M. Borland
Hong Guo
Jin-Gui Chen
Wellington Muchero
Yanbin Yin
Daniel A. Jacobson
Timothy J. Tschaplinski
Robert L. Hettich
Ray Ming
Klaus Winter
James H. Leebens-Mack
J. Andrew C. Smith
John C. Cushman
Jeremy Schmutz
Gerald A. Tuskan
author_facet 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
Robert C. Moseley
Elisabeth Fitzek
Sara Jawdy
Zhihao Zhang
Meng Xie
James Hartwell
Jane Grimwood
Paul E. Abraham
Ritesh Mewalal
Juan D. Beltrán
Susanna F. Boxall
Louisa V. Dever
Kaitlin J. Palla
Rebecca Albion
Travis Garcia
Jesse A. Mayer
Sung Don Lim
Ching Man Wai
Paul Peluso
Robert Van Buren
Henrique Cestari De Paoli
Anne M. Borland
Hong Guo
Jin-Gui Chen
Wellington Muchero
Yanbin Yin
Daniel A. Jacobson
Timothy J. Tschaplinski
Robert L. Hettich
Ray Ming
Klaus Winter
James H. Leebens-Mack
J. Andrew C. Smith
John C. Cushman
Jeremy Schmutz
Gerald A. Tuskan
author_sort Xiaohan Yang
collection DOAJ
description Crassulacean acid metabolism (CAM) is a metabolic adaptation of photosynthesis that enhances water use efficiency. Here, via genomic analysis of Kalanchoë, the authors provide evidence for convergent evolution of protein sequence and temporal gene expression underpinning the multiple independent emergences of CAM.
first_indexed 2024-12-18T04:18:09Z
format Article
id doaj.art-8c3ecda50bde40cf9db00ff7984e80cf
institution Directory Open Access Journal
issn 2041-1723
language English
last_indexed 2024-12-18T04:18:09Z
publishDate 2017-12-01
publisher Nature Portfolio
record_format Article
series Nature Communications
spelling doaj.art-8c3ecda50bde40cf9db00ff7984e80cf2022-12-21T21:21:17ZengNature PortfolioNature Communications2041-17232017-12-018111510.1038/s41467-017-01491-7The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolismXiaohan Yang0Rongbin Hu1Hengfu Yin2Jerry Jenkins3Shengqiang Shu4Haibao Tang5Degao Liu6Deborah A. Weighill7Won Cheol Yim8Jungmin Ha9Karolina Heyduk10David M. Goodstein11Hao-Bo Guo12Robert C. Moseley13Elisabeth Fitzek14Sara Jawdy15Zhihao Zhang16Meng Xie17James Hartwell18Jane Grimwood19Paul E. Abraham20Ritesh Mewalal21Juan D. Beltrán22Susanna F. Boxall23Louisa V. Dever24Kaitlin J. Palla25Rebecca Albion26Travis Garcia27Jesse A. Mayer28Sung Don Lim29Ching Man Wai30Paul Peluso31Robert Van Buren32Henrique Cestari De Paoli33Anne M. Borland34Hong Guo35Jin-Gui Chen36Wellington Muchero37Yanbin Yin38Daniel A. Jacobson39Timothy J. Tschaplinski40Robert L. Hettich41Ray Ming42Klaus Winter43James H. Leebens-Mack44J. Andrew C. Smith45John C. Cushman46Jeremy Schmutz47Gerald A. Tuskan48Biosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryHudsonAlpha Institute for BiotechnologyUS Department of Energy Joint Genome InstituteCenter for Genomics and Biotechnology, Fujian Provincial Key Laboratory of Haixia Applied Plant Systems Biology, Fujian Agriculture and Forestry UniversityBiosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryDepartment of Biochemistry and Molecular Biology, University of NevadaDepartment of Biochemistry and Molecular Biology, University of NevadaDepartment of Plant Biology, University of GeorgiaUS Department of Energy Joint Genome InstituteDepartment of Biochemistry & Cellular and Molecular Biology, University of TennesseeBiosciences Division, Oak Ridge National LaboratoryDepartment of Biological Sciences, Northern Illinois UniversityBiosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryDepartment of Plant Sciences, Institute of Integrative Biology, University of LiverpoolHudsonAlpha Institute for BiotechnologyChemical Sciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryDepartment of Plant Sciences, University of OxfordDepartment of Plant Sciences, Institute of Integrative Biology, University of LiverpoolDepartment of Plant Sciences, Institute of Integrative Biology, University of LiverpoolBiosciences Division, Oak Ridge National LaboratoryDepartment of Biochemistry and Molecular Biology, University of NevadaDepartment of Biochemistry and Molecular Biology, University of NevadaDepartment of Biochemistry and Molecular Biology, University of NevadaDepartment of Biochemistry and Molecular Biology, University of NevadaDepartment of Plant Biology, University of Illinois at Urbana-ChampaignPacific Biosciences, Inc.Department of Horticulture, Michigan State UniversityBiosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryDepartment of Biochemistry & Cellular and Molecular Biology, University of TennesseeBiosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryDepartment of Biological Sciences, Northern Illinois UniversityBiosciences Division, Oak Ridge National LaboratoryBiosciences Division, Oak Ridge National LaboratoryChemical Sciences Division, Oak Ridge National LaboratoryCenter for Genomics and Biotechnology, Fujian Provincial Key Laboratory of Haixia Applied Plant Systems Biology, Fujian Agriculture and Forestry UniversitySmithsonian Tropical Research Institute, ApartadoDepartment of Plant Biology, University of GeorgiaDepartment of Plant Sciences, University of OxfordDepartment of Biochemistry and Molecular Biology, University of NevadaHudsonAlpha Institute for BiotechnologyBiosciences Division, Oak Ridge National LaboratoryCrassulacean acid metabolism (CAM) is a metabolic adaptation of photosynthesis that enhances water use efficiency. Here, via genomic analysis of Kalanchoë, the authors provide evidence for convergent evolution of protein sequence and temporal gene expression underpinning the multiple independent emergences of CAM.https://doi.org/10.1038/s41467-017-01491-7
spellingShingle 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
Robert C. Moseley
Elisabeth Fitzek
Sara Jawdy
Zhihao Zhang
Meng Xie
James Hartwell
Jane Grimwood
Paul E. Abraham
Ritesh Mewalal
Juan D. Beltrán
Susanna F. Boxall
Louisa V. Dever
Kaitlin J. Palla
Rebecca Albion
Travis Garcia
Jesse A. Mayer
Sung Don Lim
Ching Man Wai
Paul Peluso
Robert Van Buren
Henrique Cestari De Paoli
Anne M. Borland
Hong Guo
Jin-Gui Chen
Wellington Muchero
Yanbin Yin
Daniel A. Jacobson
Timothy J. Tschaplinski
Robert L. Hettich
Ray Ming
Klaus Winter
James H. Leebens-Mack
J. Andrew C. Smith
John C. Cushman
Jeremy Schmutz
Gerald A. Tuskan
The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism
Nature Communications
title The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism
title_full The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism
title_fullStr The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism
title_full_unstemmed The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism
title_short The Kalanchoë genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism
title_sort kalanchoe genome provides insights into convergent evolution and building blocks of crassulacean acid metabolism
url https://doi.org/10.1038/s41467-017-01491-7
work_keys_str_mv AT xiaohanyang thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT rongbinhu thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT hengfuyin thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jerryjenkins thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT shengqiangshu thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT haibaotang thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT degaoliu thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT deborahaweighill thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT woncheolyim thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jungminha thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT karolinaheyduk thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT davidmgoodstein thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT haoboguo thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT robertcmoseley thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT elisabethfitzek thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT sarajawdy thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT zhihaozhang thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT mengxie thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jameshartwell thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT janegrimwood thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT pauleabraham thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT riteshmewalal thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT juandbeltran thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT susannafboxall thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT louisavdever thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT kaitlinjpalla thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT rebeccaalbion thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT travisgarcia thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jesseamayer thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT sungdonlim thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT chingmanwai thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT paulpeluso thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT robertvanburen thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT henriquecestaridepaoli thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT annemborland thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT hongguo thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jinguichen thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT wellingtonmuchero thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT yanbinyin thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT danielajacobson thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT timothyjtschaplinski thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT robertlhettich thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT rayming thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT klauswinter thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jameshleebensmack thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jandrewcsmith thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT johnccushman thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jeremyschmutz thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT geraldatuskan thekalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT xiaohanyang kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT rongbinhu kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT hengfuyin kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jerryjenkins kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT shengqiangshu kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT haibaotang kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT degaoliu kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT deborahaweighill kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT woncheolyim kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jungminha kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT karolinaheyduk kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT davidmgoodstein kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT haoboguo kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT robertcmoseley kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT elisabethfitzek kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT sarajawdy kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT zhihaozhang kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT mengxie kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jameshartwell kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT janegrimwood kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT pauleabraham kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT riteshmewalal kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT juandbeltran kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT susannafboxall kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT louisavdever kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT kaitlinjpalla kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT rebeccaalbion kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT travisgarcia kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jesseamayer kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT sungdonlim kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT chingmanwai kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT paulpeluso kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT robertvanburen kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT henriquecestaridepaoli kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT annemborland kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT hongguo kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jinguichen kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT wellingtonmuchero kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT yanbinyin kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT danielajacobson kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT timothyjtschaplinski kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT robertlhettich kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT rayming kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT klauswinter kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jameshleebensmack kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jandrewcsmith kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT johnccushman kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT jeremyschmutz kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism
AT geraldatuskan kalanchoegenomeprovidesinsightsintoconvergentevolutionandbuildingblocksofcrassulaceanacidmetabolism

Similar Items