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Table of Contents

The Plant Cell: 29 (2)
Feb 2017
  • A
  • B
  • C
  • D
  • E
  • F
  • G
  • H
  • I
  • J
  • K
  • L
  • M
  • N
  • O
  • P
  • Q
  • R
  • S
  • T
  • U
  • V
  • W
  • X
  • Y
  • Z

A

  1. An, Lizhe

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

B

  1. Becker, Claude

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  2. Bertoni, Gregory

    1. Photodamaged Chloroplasts Are Targets of Cellular Garbage Disposal
      Open Access
      Photodamaged Chloroplasts Are Targets of Cellular Garbage Disposal
      Gregory Bertoni
      Plant Cell Feb 2017, 29 (2) 199; DOI: https://doi.org/10.1105/tpc.17.00054
  3. Buti, Sara

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

C

  1. Cao, Liyong

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  2. Castleden, Ian

    1. Protein Degradation Rate in <em>Arabidopsis thaliana</em> Leaf Growth and Development
      Open Access
      Protein Degradation Rate in Arabidopsis thaliana Leaf Growth and Development
      Lei Li, Clark J. Nelson, Josua Trösch, Ian Castleden, Shaobai Huang, A. Harvey Millar
      Plant Cell Feb 2017, 29 (2) 207-228; DOI: https://doi.org/10.1105/tpc.16.00768

      The degradation rate of 1228 Arabidopsis proteins was measured, their variation assessed, and the data used to calculate the protein turnover energy costs in different leaves of the rosette.

  3. Chen, Daibo

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  4. Chen, Qingqing

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  5. Chen, Zhuoyao

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

  6. Cheng, Shihua

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

D

  1. Ding, Mingxin

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

  2. Ding, Yong

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  3. Dong, Aiwu

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

F

  1. Feng, Haiyang

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  2. Freeling, Michael

    1. Picking up the Ball at the K/Pg Boundary: The Distribution of Ancient Polyploidies in the Plant Phylogenetic Tree as a Spandrel of Asexuality with Occasional Sex
      Open Access
      Picking up the Ball at the K/Pg Boundary: The Distribution of Ancient Polyploidies in the Plant Phylogenetic Tree as a Spandrel of Asexuality with Occasional Sex
      Michael Freeling
      Plant Cell Feb 2017, 29 (2) 202-206; DOI: https://doi.org/10.1105/tpc.16.00836
  3. Fultz, Dalen

    1. Exogenous Transposable Elements Circumvent Identity-Based Silencing, Permitting the Dissection of Expression-Dependent Silencing
      Open Access
      Exogenous Transposable Elements Circumvent Identity-Based Silencing, Permitting the Dissection of Expression-Dependent Silencing
      Dalen Fultz, R. Keith Slotkin
      Plant Cell Feb 2017, 29 (2) 360-376; DOI: https://doi.org/10.1105/tpc.16.00718

      Transformation of endogenous and exogenous transposable elements into Arabidopsis distinguishes expression-dependent and identity-based mechanisms responsible for the establishment, progression, and heritability of silencing.

G

  1. Geuten, Koen

    1. The Origin of Floral Organ Identity Quartets
      You have accessRestricted Access
      The Origin of Floral Organ Identity Quartets
      Philip Ruelens, Zhicheng Zhang, Hilda van Mourik, Steven Maere, Kerstin Kaufmann, Koen Geuten
      Plant Cell Feb 2017, 29 (2) 229-242; DOI: https://doi.org/10.1105/tpc.16.00366

      Floral organ identity-specifying MADS box complexes underwent compositional changes along the angiosperm stem lineage that can be linked to the origin of bisexual flowers.

  2. Gommers, Charlotte M.M.

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

H

  1. Hanke, Sebastian

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  2. He, Yongxing

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  3. Hermann, Helen-Maria

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  4. Hidema, Jun

    1. Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Open Access
      Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Masanori Izumi, Hiroyuki Ishida, Sakuya Nakamura, Jun Hidema
      Plant Cell Feb 2017, 29 (2) 377-394; DOI: https://doi.org/10.1105/tpc.16.00637

      An autophagy process termed chlorophagy is induced by photodamage and serves to eliminate entire damaged chloroplasts via transport to the vacuole in Arabidopsis leaves.

  5. Hiltbrunner, Andreas

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  6. Hiß, Manuel

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  7. Huang, Shaobai

    1. Protein Degradation Rate in <em>Arabidopsis thaliana</em> Leaf Growth and Development
      Open Access
      Protein Degradation Rate in Arabidopsis thaliana Leaf Growth and Development
      Lei Li, Clark J. Nelson, Josua Trösch, Ian Castleden, Shaobai Huang, A. Harvey Millar
      Plant Cell Feb 2017, 29 (2) 207-228; DOI: https://doi.org/10.1105/tpc.16.00768

      The degradation rate of 1228 Arabidopsis proteins was measured, their variation assessed, and the data used to calculate the protein turnover energy costs in different leaves of the rosette.

  8. Huang, Tongtong

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  9. Huq, Enamul

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

I

  1. Ishida, Hiroyuki

    1. Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Open Access
      Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Masanori Izumi, Hiroyuki Ishida, Sakuya Nakamura, Jun Hidema
      Plant Cell Feb 2017, 29 (2) 377-394; DOI: https://doi.org/10.1105/tpc.16.00637

      An autophagy process termed chlorophagy is induced by photodamage and serves to eliminate entire damaged chloroplasts via transport to the vacuole in Arabidopsis leaves.

  2. Izumi, Masanori

    1. Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Open Access
      Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Masanori Izumi, Hiroyuki Ishida, Sakuya Nakamura, Jun Hidema
      Plant Cell Feb 2017, 29 (2) 377-394; DOI: https://doi.org/10.1105/tpc.16.00637

      An autophagy process termed chlorophagy is induced by photodamage and serves to eliminate entire damaged chloroplasts via transport to the vacuole in Arabidopsis leaves.

K

  1. Kaufmann, Kerstin

    1. The Origin of Floral Organ Identity Quartets
      You have accessRestricted Access
      The Origin of Floral Organ Identity Quartets
      Philip Ruelens, Zhicheng Zhang, Hilda van Mourik, Steven Maere, Kerstin Kaufmann, Koen Geuten
      Plant Cell Feb 2017, 29 (2) 229-242; DOI: https://doi.org/10.1105/tpc.16.00366

      Floral organ identity-specifying MADS box complexes underwent compositional changes along the angiosperm stem lineage that can be linked to the origin of bisexual flowers.

  2. Keim, Sarah

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  3. Keuskamp, Diederik H.

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

  4. Koevoets, Iko T.

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

L

  1. Leng, Linna

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  2. Li, Chengxiang

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  3. Li, Lei

    1. Protein Degradation Rate in <em>Arabidopsis thaliana</em> Leaf Growth and Development
      Open Access
      Protein Degradation Rate in Arabidopsis thaliana Leaf Growth and Development
      Lei Li, Clark J. Nelson, Josua Trösch, Ian Castleden, Shaobai Huang, A. Harvey Millar
      Plant Cell Feb 2017, 29 (2) 207-228; DOI: https://doi.org/10.1105/tpc.16.00768

      The degradation rate of 1228 Arabidopsis proteins was measured, their variation assessed, and the data used to calculate the protein turnover energy costs in different leaves of the rosette.

  4. Li, Xiaoming

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  5. Liu, Qunen

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  6. Lockhart, Jennifer

    1. Loose-Knit Family: Tracing the Evolution of Actin-Depolymerizing Factors That Sever or Join the Actin Cytoskeleton
      Open Access
      Loose-Knit Family: Tracing the Evolution of Actin-Depolymerizing Factors That Sever or Join the Actin Cytoskeleton
      Jennifer Lockhart
      Plant Cell Feb 2017, 29 (2) 200-201; DOI: https://doi.org/10.1105/tpc.17.00088
  7. Lu, Chengyuan

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  8. Lu, Tiegang

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  9. Ludewig, Uwe

    1. The Kinase CIPK23 Inhibits Ammonium Transport in <em>Arabidopsis thaliana</em>
      You have accessRestricted Access
      The Kinase CIPK23 Inhibits Ammonium Transport in Arabidopsis thaliana
      Tatsiana Straub, Uwe Ludewig, Benjamin Neuhäuser
      Plant Cell Feb 2017, 29 (2) 409-422; DOI: https://doi.org/10.1105/tpc.16.00806

      CIPK23, a kinase that regulates the most abundant nitrate transporter (NPF6;3) and activates potassium channel AKT1, inhibits the high-affinity plant ammonium transporters, AMT1s, by phosphorylation.

  10. Luo, Qiang

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

M

  1. Ma, Jianchao

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  2. Ma, Jinbiao

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  3. Mach, Jennifer

    1. A Histone Chaperone and a Specific Transcription Factor Modulate <em>GLABRA2</em> Expression in Root Hair Development
      Open Access
      A Histone Chaperone and a Specific Transcription Factor Modulate GLABRA2 Expression in Root Hair Development
      Jennifer Mach
      Plant Cell Feb 2017, 29 (2) 197-198; DOI: https://doi.org/10.1105/tpc.17.00131
  4. Maere, Steven

    1. The Origin of Floral Organ Identity Quartets
      You have accessRestricted Access
      The Origin of Floral Organ Identity Quartets
      Philip Ruelens, Zhicheng Zhang, Hilda van Mourik, Steven Maere, Kerstin Kaufmann, Koen Geuten
      Plant Cell Feb 2017, 29 (2) 229-242; DOI: https://doi.org/10.1105/tpc.16.00366

      Floral organ identity-specifying MADS box complexes underwent compositional changes along the angiosperm stem lineage that can be linked to the origin of bisexual flowers.

  5. Mao, Ting

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  6. Millar, A. Harvey

    1. Protein Degradation Rate in <em>Arabidopsis thaliana</em> Leaf Growth and Development
      Open Access
      Protein Degradation Rate in Arabidopsis thaliana Leaf Growth and Development
      Lei Li, Clark J. Nelson, Josua Trösch, Ian Castleden, Shaobai Huang, A. Harvey Millar
      Plant Cell Feb 2017, 29 (2) 207-228; DOI: https://doi.org/10.1105/tpc.16.00768

      The degradation rate of 1228 Arabidopsis proteins was measured, their variation assessed, and the data used to calculate the protein turnover energy costs in different leaves of the rosette.

N

  1. Nakamura, Sakuya

    1. Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Open Access
      Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy
      Masanori Izumi, Hiroyuki Ishida, Sakuya Nakamura, Jun Hidema
      Plant Cell Feb 2017, 29 (2) 377-394; DOI: https://doi.org/10.1105/tpc.16.00637

      An autophagy process termed chlorophagy is induced by photodamage and serves to eliminate entire damaged chloroplasts via transport to the vacuole in Arabidopsis leaves.

  2. Nan, Qiong

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  3. Nelson, Clark J.

    1. Protein Degradation Rate in <em>Arabidopsis thaliana</em> Leaf Growth and Development
      Open Access
      Protein Degradation Rate in Arabidopsis thaliana Leaf Growth and Development
      Lei Li, Clark J. Nelson, Josua Trösch, Ian Castleden, Shaobai Huang, A. Harvey Millar
      Plant Cell Feb 2017, 29 (2) 207-228; DOI: https://doi.org/10.1105/tpc.16.00768

      The degradation rate of 1228 Arabidopsis proteins was measured, their variation assessed, and the data used to calculate the protein turnover energy costs in different leaves of the rosette.

  4. Neuhäuser, Benjamin

    1. The Kinase CIPK23 Inhibits Ammonium Transport in <em>Arabidopsis thaliana</em>
      You have accessRestricted Access
      The Kinase CIPK23 Inhibits Ammonium Transport in Arabidopsis thaliana
      Tatsiana Straub, Uwe Ludewig, Benjamin Neuhäuser
      Plant Cell Feb 2017, 29 (2) 409-422; DOI: https://doi.org/10.1105/tpc.16.00806

      CIPK23, a kinase that regulates the most abundant nitrate transporter (NPF6;3) and activates potassium channel AKT1, inhibits the high-affinity plant ammonium transporters, AMT1s, by phosphorylation.

  5. Ning, Yuese

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  6. Niu, Yue

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  7. Niu, Zhimin

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

P

  1. Paik, Inyup

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  2. Pierik, Ronald

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

  3. Possart, Anja

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

Q

  1. Qian, Dong

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  2. Qiao, Shenglong

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  3. Qin, Genji

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

R

  1. Reinen, Emilie

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

  2. Rensing, Stefan A.

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  3. Rong, Liang

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  4. Ruelens, Philip

    1. The Origin of Floral Organ Identity Quartets
      You have accessRestricted Access
      The Origin of Floral Organ Identity Quartets
      Philip Ruelens, Zhicheng Zhang, Hilda van Mourik, Steven Maere, Kerstin Kaufmann, Koen Geuten
      Plant Cell Feb 2017, 29 (2) 229-242; DOI: https://doi.org/10.1105/tpc.16.00366

      Floral organ identity-specifying MADS box complexes underwent compositional changes along the angiosperm stem lineage that can be linked to the origin of bisexual flowers.

S

  1. Shen, Wen-Hui

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  2. Slotkin, R. Keith

    1. Exogenous Transposable Elements Circumvent Identity-Based Silencing, Permitting the Dissection of Expression-Dependent Silencing
      Open Access
      Exogenous Transposable Elements Circumvent Identity-Based Silencing, Permitting the Dissection of Expression-Dependent Silencing
      Dalen Fultz, R. Keith Slotkin
      Plant Cell Feb 2017, 29 (2) 360-376; DOI: https://doi.org/10.1105/tpc.16.00718

      Transformation of endogenous and exogenous transposable elements into Arabidopsis distinguishes expression-dependent and identity-based mechanisms responsible for the establishment, progression, and heritability of silencing.

  3. Straub, Tatsiana

    1. The Kinase CIPK23 Inhibits Ammonium Transport in <em>Arabidopsis thaliana</em>
      You have accessRestricted Access
      The Kinase CIPK23 Inhibits Ammonium Transport in Arabidopsis thaliana
      Tatsiana Straub, Uwe Ludewig, Benjamin Neuhäuser
      Plant Cell Feb 2017, 29 (2) 409-422; DOI: https://doi.org/10.1105/tpc.16.00806

      CIPK23, a kinase that regulates the most abundant nitrate transporter (NPF6;3) and activates potassium channel AKT1, inhibits the high-affinity plant ammonium transporters, AMT1s, by phosphorylation.

  4. Su, Yanhua

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  5. Sun, Shiyong

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

T

  1. Tian, Weisheng

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  2. Tian, Yongke

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  3. Tong, Shaofei

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  4. Trösch, Josua

    1. Protein Degradation Rate in <em>Arabidopsis thaliana</em> Leaf Growth and Development
      Open Access
      Protein Degradation Rate in Arabidopsis thaliana Leaf Growth and Development
      Lei Li, Clark J. Nelson, Josua Trösch, Ian Castleden, Shaobai Huang, A. Harvey Millar
      Plant Cell Feb 2017, 29 (2) 207-228; DOI: https://doi.org/10.1105/tpc.16.00768

      The degradation rate of 1228 Arabidopsis proteins was measured, their variation assessed, and the data used to calculate the protein turnover energy costs in different leaves of the rosette.

V

  1. van Mourik, Hilda

    1. The Origin of Floral Organ Identity Quartets
      You have accessRestricted Access
      The Origin of Floral Organ Identity Quartets
      Philip Ruelens, Zhicheng Zhang, Hilda van Mourik, Steven Maere, Kerstin Kaufmann, Koen Geuten
      Plant Cell Feb 2017, 29 (2) 229-242; DOI: https://doi.org/10.1105/tpc.16.00366

      Floral organ identity-specifying MADS box complexes underwent compositional changes along the angiosperm stem lineage that can be linked to the origin of bisexual flowers.

  2. van Veen, Hans

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

  3. Voesenek, Laurentius A.C.J.

    1. Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Open Access
      Molecular Profiles of Contrasting Shade Response Strategies in Wild Plants: Differential Control of Immunity and Shoot Elongation
      Charlotte M.M. Gommers, Diederik H. Keuskamp, Sara Buti, Hans van Veen, Iko T. Koevoets, Emilie Reinen, Laurentius A.C.J. Voesenek, Ronald Pierik
      Plant Cell Feb 2017, 29 (2) 331-344; DOI: https://doi.org/10.1105/tpc.16.00790

      Geranium species from different habitats show contrasting molecular patterns and physiological responses to phytochome-mediated detection of neighbor cues.

W

  1. Wan, Dongshi

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  2. Wang, Baihui

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  3. Wang, Guo-Liang

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  4. Wang, Jianhui

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

  5. Wang, Linlin

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  6. Wang, Shiliang

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

  7. Wang, Tao

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  8. Wang, Xuelu

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

  9. Wei, Baoye

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

  10. Wei, Xiangjin

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  11. Wolf, Luise

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  12. Wu, Weixun

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  13. Wu, Zhihua

    1. The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      You have accessRestricted Access
      The RLA1/SMOS1 Transcription Factor Functions with OsBZR1 to Regulate Brassinosteroid Signaling and Rice Architecture
      Shenglong Qiao, Shiyong Sun, Linlin Wang, Zhihua Wu, Chengxiang Li, Xiaoming Li, Tao Wang, Linna Leng, Weisheng Tian, Tiegang Lu, Xuelu Wang
      Plant Cell Feb 2017, 29 (2) 292-309; DOI: https://doi.org/10.1105/tpc.16.00611

      The RLA1/SMOS1 transcription factor acts as an integrator of the transcriptional complex directly downstream of the kinase GSK2 and plays an essential role in BR signaling and development in rice.

X

  1. Xiang, Yun

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  2. Xu, Tengfei

    1. Characterization of Phytochrome Interacting Factors from the Moss <em>Physcomitrella patens</em> Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      You have accessRestricted Access
      Characterization of Phytochrome Interacting Factors from the Moss Physcomitrella patens Illustrates Conservation of Phytochrome Signaling Modules in Land Plants
      Anja Possart, Tengfei Xu, Inyup Paik, Sebastian Hanke, Sarah Keim, Helen-Maria Hermann, Luise Wolf, Manuel Hiß, Claude Becker, Enamul Huq, Stefan A. Rensing, Andreas Hiltbrunner
      Plant Cell Feb 2017, 29 (2) 310-330; DOI: https://doi.org/10.1105/tpc.16.00388

      The phytochrome-phytochrome interacting factor signaling node, which relays light signals to target genes, has been largely conserved during evolution and exhibits lineage-specific diversification.

  3. Xu, Zuntao

    1. Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in <em>Arabidopsis thaliana</em>
      Open Access
      Phosphorylation of SPT5 by CDKD;2 Is Required for VIP5 Recruitment and Normal Flowering in Arabidopsis thaliana
      Chengyuan Lu, Yongke Tian, Shiliang Wang, Yanhua Su, Ting Mao, Tongtong Huang, Qingqing Chen, Zuntao Xu, Yong Ding
      Plant Cell Feb 2017, 29 (2) 277-291; DOI: https://doi.org/10.1105/tpc.16.00568

      Phosphorylation of transcription elongation factor SPT5 determines the trimethylated lysine 4 on histone 3 (H3K4me3) status in Arabidopsis.

Y

  1. Yang, Yang

    1. Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Open Access
      Plant Actin-Depolymerizing Factors Possess Opposing Biochemical Properties Arising from Key Amino Acid Changes throughout Evolution
      Qiong Nan, Dong Qian, Yue Niu, Yongxing He, Shaofei Tong, Zhimin Niu, Jianchao Ma, Yang Yang, Lizhe An, Dongshi Wan, Yun Xiang
      Plant Cell Feb 2017, 29 (2) 395-408; DOI: https://doi.org/10.1105/tpc.16.00690

      Plant actin-depolymerizing factors were derived from a common ancestor but have acquired opposing biochemical properties due to N-terminal extensions and conserved amino acid changes during evolution.

  2. Yang, Yue

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  3. Yu, Hao

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

  4. Yu, Ning

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  5. Yuan, Rongrong

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

Z

  1. Zhan, Xiaodeng

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  2. Zhang, Chi

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  3. Zhang, Jinzhe

    1. The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Open Access
      The Arabidopsis RING-Type E3 Ligase TEAR1 Controls Leaf Development by Targeting the TIE1 Transcriptional Repressor for Degradation
      Jinzhe Zhang, Baoye Wei, Rongrong Yuan, Jianhui Wang, Mingxin Ding, Zhuoyao Chen, Hao Yu, Genji Qin
      Plant Cell Feb 2017, 29 (2) 243-259; DOI: https://doi.org/10.1105/tpc.16.00771

      TEAR1 is an active E3 ligase that controls leaf development by promoting CIN-like TCP activity by targeting the TCP repressor TIE1 for degradation via the ubiquitin-proteasome system.

  4. Zhang, Yingxin

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  5. Zhang, Zhicheng

    1. The Origin of Floral Organ Identity Quartets
      You have accessRestricted Access
      The Origin of Floral Organ Identity Quartets
      Philip Ruelens, Zhicheng Zhang, Hilda van Mourik, Steven Maere, Kerstin Kaufmann, Koen Geuten
      Plant Cell Feb 2017, 29 (2) 229-242; DOI: https://doi.org/10.1105/tpc.16.00366

      Floral organ identity-specifying MADS box complexes underwent compositional changes along the angiosperm stem lineage that can be linked to the origin of bisexual flowers.

  6. Zhao, Chunde

    1. OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Open Access
      OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice
      Qunen Liu, Yuese Ning, Yingxin Zhang, Ning Yu, Chunde Zhao, Xiaodeng Zhan, Weixun Wu, Daibo Chen, Xiangjin Wei, Guo-Liang Wang, Shihua Cheng, Liyong Cao
      Plant Cell Feb 2017, 29 (2) 345-359; DOI: https://doi.org/10.1105/tpc.16.00650

      OsCUL3a interacts with and degrades OsNPR1 to regulate innate immunity in rice.

  7. Zheng, Lina

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  8. Zhou, Nana

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

  9. Zhu, Yan

    1. The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate <em>GLABRA2</em> in Arabidopsis Root Hair Development
      You have accessRestricted Access
      The Histone Chaperone NRP1 Interacts with WEREWOLF to Activate GLABRA2 in Arabidopsis Root Hair Development
      Yan Zhu, Liang Rong, Qiang Luo, Baihui Wang, Nana Zhou, Yue Yang, Chi Zhang, Haiyang Feng, Lina Zheng, Wen-Hui Shen, Jinbiao Ma, Aiwu Dong
      Plant Cell Feb 2017, 29 (2) 260-276; DOI: https://doi.org/10.1105/tpc.16.00719

      Interaction with the gene-specific transcription factor WER recruits the histone chaperone NRP1 to the GL2 promoter, where it coactivates GL2 transcription in Arabidopsis root hairs.

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In this issue

The Plant Cell: 29 (2)
The Plant Cell
Vol. 29, Issue 2
Feb 2017
  • Table of Contents
  • Table of Contents (PDF)
  • Cover (PDF)
  • About the Cover
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