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    BAK1 BRI1-associated receptor kinase [ Arabidopsis thaliana (thale cress) ]

    Gene ID: 829480, updated on 18-Sep-2024

    GeneRIFs: Gene References Into Functions

    GeneRIFPubMed TitleDate
    Association mechanism between Arabidopsis immune coreceptor BAK1 and Pseudomonas syringae effector HopF2.

    Association mechanism between Arabidopsis immune coreceptor BAK1 and Pseudomonas syringae effector HopF2.
    Han R, Zhu T, Zhou L, Chen M, Wang D, Liu J.

    04/25/2024
    Functional screening of the Arabidopsis 2C protein phosphatases family identifies PP2C15 as a negative regulator of plant immunity by targeting BRI1-associated receptor kinase 1.

    Functional screening of the Arabidopsis 2C protein phosphatases family identifies PP2C15 as a negative regulator of plant immunity by targeting BRI1-associated receptor kinase 1.
    Diao Z, Yang R, Wang Y, Cui J, Li J, Wu Q, Zhang Y, Yu X, Gong B, Huang Y, Yu G, Yao H, Guo J, Zhang H, Shen J, Gust AA, Cai Y., Free PMC Article

    04/4/2024
    A pair of G-type lectin receptor-like kinases modulates nlp20-mediated immune responses by coupling to the RLP23 receptor complex.

    A pair of G-type lectin receptor-like kinases modulates nlp20-mediated immune responses by coupling to the RLP23 receptor complex.
    Bao Y, Li Y, Chang Q, Chen R, Wang W, Zhang Q, Chen S, Xu G, Wang X, Cui F, Dou D, Liang X.

    10/25/2023
    Regulation of immune receptor kinase plasma membrane nanoscale organization by a plant peptide hormone and its receptors.

    Regulation of immune receptor kinase plasma membrane nanoscale organization by a plant peptide hormone and its receptors.
    Gronnier J, Franck CM, Stegmann M, DeFalco TA, Abarca A, von Arx M, Dünser K, Lin W, Yang Z, Kleine-Vehn J, Ringli C, Zipfel C., Free PMC Article

    02/26/2022
    Infection of Arabidopsis by cucumber mosaic virus triggers jasmonate-dependent resistance to aphids that relies partly on the pattern-triggered immunity factor BAK1.

    Infection of Arabidopsis by cucumber mosaic virus triggers jasmonate-dependent resistance to aphids that relies partly on the pattern-triggered immunity factor BAK1.
    Tungadi T, Watt LG, Groen SC, Murphy AM, Du Z, Pate AE, Westwood JH, Fennell TG, Powell G, Carr JP., Free PMC Article

    02/5/2022
    Chemical control of receptor kinase signaling by rapamycin-induced dimerization.

    Chemical control of receptor kinase signaling by rapamycin-induced dimerization.
    Kim S, Park J, Jeon BW, Hwang G, Kang NY, We Y, Park WY, Oh E, Kim J.

    02/5/2022
    BAK1-induced RPK1 phosphorylation is essential for RPK1-mediated cell death in Arabidopsis.

    BAK1-induced RPK1 phosphorylation is essential for RPK1-mediated cell death in Arabidopsis.
    Shang Y, Yang D, Ha Y, Nam KH.

    11/22/2021
    Receptor-like protein kinases RPK1 and BAK1 sequentially form complexes with the cytoplasmic kinase OST1 to regulate ABA-induced stomatal closure.

    Receptor-like protein kinases RPK1 and BAK1 sequentially form complexes with the cytoplasmic kinase OST1 to regulate ABA-induced stomatal closure.
    Shang Y, Yang D, Ha Y, Shin HY, Nam KH.

    06/12/2021
    The root growth reduction in response to mechanical stress involves ethylene-mediated microtubule reorganization and transmembrane receptor-mediated signal transduction in Arabidopsis.

    The root growth reduction in response to mechanical stress involves ethylene-mediated microtubule reorganization and transmembrane receptor-mediated signal transduction in Arabidopsis.
    Okamoto T, Takatani S, Motose H, Iida H, Takahashi T.

    06/5/2021
    The juxtamembrane domains of Arabidopsis CERK1, BAK1, and FLS2 play a conserved role in chitin-induced signaling.

    The juxtamembrane domains of Arabidopsis CERK1, BAK1, and FLS2 play a conserved role in chitin-induced signaling.
    Zhou Q, Liu J, Wang J, Chen S, Chen L, Wang J, Wang HB, Liu B.

    01/30/2021
    Specifying the role of BAK1-interacting receptor-like kinase 3 in brassinosteroid signaling.

    Specifying the role of BAK1-interacting receptor-like kinase 3 in brassinosteroid signaling.
    Großeholz R, Feldman-Salit A, Wanke F, Schulze S, Glöckner N, Kemmerling B, Harter K, Kummer U.

    01/9/2021
    Loss of the common immune coreceptor BAK1 leads to NLR-dependent cell death.

    Loss of the common immune coreceptor BAK1 leads to NLR-dependent cell death.
    Wu Y, Gao Y, Zhan Y, Kui H, Liu H, Yan L, Kemmerling B, Zhou JM, He K, Li J., Free PMC Article

    12/19/2020
    BAK1 Mediates Light Intensity to Phosphorylate and Activate Catalases to Regulate Plant Growth and Development.

    BAK1 Mediates Light Intensity to Phosphorylate and Activate Catalases to Regulate Plant Growth and Development.
    Zhang S, Li C, Ren H, Zhao T, Li Q, Wang S, Zhang Y, Xiao F, Wang X., Free PMC Article

    11/21/2020
    In this study, we show that loss of function of SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE (SERK) genes results in aberrant embryo development. Fewer cortical, endodermal, and vascular cells are generated in the embryos of serk1 serk2 bak1 triple mutants.

    SERK Receptor-like Kinases Control Division Patterns of Vascular Precursors and Ground Tissue Stem Cells during Embryo Development in Arabidopsis.
    Li H, Cai Z, Wang X, Li M, Cui Y, Cui N, Yang F, Zhu M, Zhao J, Du W, He K, Yi J, Tax FE, Hou S, Li J, Gou X.

    03/28/2020
    NSP-interacting kinase 1 (NIK1) negatively regulates the formation of FLAGELLIN-SENSITIVE 2 protein (FLS2) / SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE 3 (BAK1) complex.

    The receptor-like kinase NIK1 targets FLS2/BAK1 immune complex and inversely modulates antiviral and antibacterial immunity.
    Li B, Ferreira MA, Huang M, Camargos LF, Yu X, Teixeira RM, Carpinetti PA, Mendes GC, Gouveia-Mageste BC, Liu C, Pontes CSL, Brustolini OJB, Martins LGC, Melo BP, Duarte CEM, Shan L, He P, Fontes EPB., Free PMC Article

    03/21/2020
    NAD(+) is a putative mobile signal, which triggers systemic acquired resistance through its receptor complex LecRK-VI.2/BAK1 in Arabidopsis thaliana.

    Extracellular pyridine nucleotides trigger plant systemic immunity through a lectin receptor kinase/BAK1 complex.
    Wang C, Huang X, Li Q, Zhang Y, Li JL, Mou Z., Free PMC Article

    02/29/2020
    Regulation of BAK1 via a Ca(2+)-dependent proteolytic cleavage process.BAK1 role in the plant immunity, development and cell death.

    Proteolytic Processing of SERK3/BAK1 Regulates Plant Immunity, Development, and Cell Death.
    Zhou J, Wang P, Claus LAN, Savatin DV, Xu G, Wu S, Meng X, Russinova E, He P, Shan L., Free PMC Article

    02/29/2020
    results suggest a phosphocode-based dichotomy of BAK1 function in plant signalling, and provide insights into receptor kinase activation that have broad implications for our understanding of how plants respond to their changing environment

    Phosphocode-dependent functional dichotomy of a common co-receptor in plant signalling.
    Perraki A, DeFalco TA, Derbyshire P, Avila J, Séré D, Sklenar J, Qi X, Stransfeld L, Schwessinger B, Kadota Y, Macho AP, Jiang S, Couto D, Torii KU, Menke FLH, Zipfel C., Free PMC Article

    04/27/2019
    BRI1 and BAK1 have roles interacting with G proteins and regulating sugar-responsive growth and development in Arabidopsis

    BRI1 and BAK1 interact with G proteins and regulate sugar-responsive growth and development in Arabidopsis.
    Peng Y, Chen L, Li S, Zhang Y, Xu R, Liu Z, Liu W, Kong J, Huang X, Wang Y, Cheng B, Zheng L, Li Y., Free PMC Article

    12/22/2018
    the BAK1 C-terminal tail is differentially required for its functions in development and immunity.

    Differential requirement of BAK1 C-terminal tail in development and immunity.
    Wu D, Liu Y, Xu F, Zhang Y.

    09/22/2018
    BIR3 interacts with BAK1 and inhibits ligand binding receptors to prevent BAK1 receptor complex formation.

    The Arabidopsis Leucine-Rich Repeat Receptor Kinase BIR3 Negatively Regulates BAK1 Receptor Complex Formation and Stabilizes BAK1.
    Imkampe J, Halter T, Huang S, Schulze S, Mazzotta S, Schmidt N, Manstretta R, Postel S, Wierzba M, Yang Y, van Dongen WMAM, Stahl M, Zipfel C, Goshe MB, Clouse S, de Vries SC, Tax F, Wang X, Kemmerling B., Free PMC Article

    06/23/2018
    The role of BAK1 in defense against root-knot nematode and pattern-triggered immunity

    Root-knot nematodes induce pattern-triggered immunity in Arabidopsis thaliana roots.
    Teixeira MA, Wei L, Kaloshian I.

    02/3/2018
    N-glycosylation and specific ERQC components are essential to activate bak1/serk4 cell death, and CRK4 is likely to be among client proteins of protein glycosylation involved in BAK1/SERK4-regulated cell death.

    Specific control of Arabidopsis BAK1/SERK4-regulated cell death by protein glycosylation.
    de Oliveira MV, Xu G, Li B, de Souza Vespoli L, Meng X, Chen X, Yu X, de Souza SA, Intorne AC, de A Manhães AM, Musinsky AL, Koiwa H, de Souza Filho GA, Shan L, He P., Free PMC Article

    02/3/2018
    BAK1 and SOBIR1 associate with each other in planta when the function of BIR1 is compromised.

    Loss-of-function of Arabidopsis receptor-like kinase BIR1 activates cell death and defense responses mediated by BAK1 and SOBIR1.
    Liu Y, Huang X, Li M, He P, Zhang Y.

    01/27/2018
    an allosteric mechanism for inhibition of BAK1 by C408 S-glutathionylation

    Allosteric Control of a Plant Receptor Kinase through S-Glutathionylation.
    Moffett AS, Bender KW, Huber SC, Shukla D., Free PMC Article

    01/6/2018
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