Naohiko Yokota scite author profile

Reactive oxygen species (ROS) are implicated in plant innate immunity. NADPH oxidase (RBOH; for Respiratory Burst Oxidase Homolog) plays a central role in the oxidative burst, and EF-hand motifs in the N terminus of this protein suggest possible regulation by Ca 2þ . However, regulatory mechanisms are largely unknown. We identified Ser-82 and Ser-97 in the N terminus of potato (Solanum tuberosum) St RBOHB as potential phosphorylation sites. An anti-phosphopeptide antibody (pSer82) indicated that Ser-82 was phosphorylated by pathogen signals in planta. We cloned two potato calcium-dependent protein kinases, St CDPK4 and St CDPK5, and mass spectrometry analyses showed that these CDPKs phosphorylated only Ser-82 and Ser-97 in the N terminus of St RBOHB in a calcium-dependent manner. Ectopic expression of the constitutively active mutant of St CDPK5, St CDPK5VK, provoked ROS production in Nicotiana benthamiana leaves. The CDPK-mediated ROS production was disrupted by knockdown of Nb RBOHB in N. benthamiana. The loss of function was complemented by heterologous expression of wild-type potato St RBOHB but not by a mutant (S82A/S97A). Furthermore, the heterologous expression of St CDPK5VK phosphorylated Ser-82 of St RBOHB in N. benthamiana. These results suggest that St CDPK5 induces the phosphorylation of St RBOHB and regulates the oxidative burst.

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Characterization of the SP11/SCR High-Affinity Binding Site Involved in Self/Nonself Recognition in Brassica Self-Incompatibility

Shimosato

et al. 2007

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In Brassica self-incompatibility, the recognition of self/nonself pollen grains, is controlled by the S-locus, which encodes three highly polymorphic proteins: S-locus receptor kinase (SRK), S-locus protein 11 (SP11; also designated S-locus Cys-rich protein), and S-locus glycoprotein (SLG). SP11, located in the pollen coat, determines pollen S-haplotype specificity, whereas SRK, located on the plasma membrane of stigmatic papilla cells, determines stigmatic S-haplotype specificity. SLG shares significant sequence similarity with the extracellular domain of SRK and is abundant in the stigmatic cell wall, but its function is controversial. We previously showed that SP11 binds directly to its cognate SRK with high affinity (K d ¼ 0.7 nM) and induces its autophosphorylation. We also found that an SLG-like, 60-kD protein on the stigmatic membrane forms a high-affinity binding site for SP11. Here, we show that the 60-kD stigmatic membrane protein is a truncated form of SRK containing the extracellular domain, transmembrane domain, and part of the juxtamembrane domain. A transiently expressed, membrane-anchored form of SRK exhibits high-affinity binding to SP11, whereas the soluble SRK (eSRK) lacking the transmembrane domain exhibits no high-affinity binding, as is the case with SLG. The different binding affinities of the membrane-anchored SRK and soluble eSRK or SLG will be significant for the specific perception of SP11 by SRK.

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Structural Mechanism for Coordination of Proofreading and Polymerase Activities in Archaeal DNA Polymerases

Kuroita

Matsumura

Yokota

et al. 2005

Journal of Molecular Biology

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Identification and functional analysis of a new phosphorylation site (Y398) in the SH3 domain of Abi-1

Sato

Maruoka

Yokota³

et al. 2011

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a b s t r a c tAbi-1 is an adaptor protein for Abelson kinase (c-Abl), and Abi-1 promotes the Abl-mediated phosphorylation of Mammalian Enabled (Mena) by binding both c-Abl and Mena. Here, we identified a new phosphorylation site (Y398) in the SH3 domain of Abi-1, and disruption of Y398, combined with the previously identified phosphorylation site Y213, significantly weakens the binding of Abi-1 to cAbl. The SH3 domain of Abi-1 and the proline-rich domain of c-Abl are involved in this interaction. Abi-1 phosphorylation at both sites stimulates the phosphorylation of Mena through the activation of c-Abl kinase. The phosphorylation of Abi-1 also plays a role in enhancing the adhesion of BcrAbl-transformed leukemic cells. Structured summary of protein interactions:Abi1 physically interacts with c-Abl by pull down (View Interaction 1, 2) c-Abl physically interacts with Abi1 by anti bait coimmunoprecipitation (View Interaction 1, 2) c-Abl physically interacts with Abi1 by pull down (View interaction)

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Naohiko Yokota

Calcium-Dependent Protein Kinases Regulate the Production of Reactive Oxygen Species by Potato NADPH Oxidase

Characterization of the SP11/SCR High-Affinity Binding Site Involved in Self/Nonself Recognition in Brassica Self-Incompatibility

Structural Mechanism for Coordination of Proofreading and Polymerase Activities in Archaeal DNA Polymerases

Identification and functional analysis of a new phosphorylation site (Y398) in the SH3 domain of Abi-1

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