bims-pisump Biomed News
on Pisum
Issue of 2018–08–05
two papers selected by
Vera S. Bogdanova, ИЦиГ СО РАН



  1. Mol Plant. 2018 Jul 25. pii: S1674-2052(18)30222-3. [Epub ahead of print]
      Double fertilization of angiosperms requires targeted delivery of immotile sperm to the proximity of eggs through pollen tubes, tip-growing cells whose polarity is maintained through dynamic association of active Rho GTPases of plants (ROP-GTP) at the apical plasma membrane (PM). Guanine nucleotide exchange factors (RopGEFs) catalyze the activation of ROPs and thereby affect spatiotemporal ROP signaling. RopGEFs interact with receptor-like kinases (RLKs) and can be phosphorylated in vitro. However, the biological relevance of their phosphorylation was unclear. We report here that the Arabidopsis AGC1.5 subfamily of cytoplasmic kinases is critical for the restricted localization of ROP-GTP during pollen tube growth. Functional loss of AGC1.5 and AGC1.7 resulted in the mis-targeting of active ROPs and defects in downstream events of ROP signaling in pollen tubes. AGC1.5 interacts with RopGEFs through their catalytic PRONE domains and phosphorylates PRONE domains at a conserved Ser residue. Functional loss of AGC1.5 and AGC1.7 resulted in the mis-targeting of RopGEFs in pollen tubes, similar to that by a mutation that renders RopGEFs non-phosphorylatable by AGC1.5. Results presented here provide mechanistic insights into the spatiotemporal activation of ROPs during pollen tube polar growth.
    Keywords:  AGC kinase; phosphorylation; polarity; pollen tube; tip growth
    DOI:  https://doi.org/10.1016/j.molp.2018.07.004
  2. New Phytol. 2018 Jul 28.
      The initiation of starch granule formation is still poorly understood. However, the soluble starch synthase 4 (SS4) appears to be a major component of this process since it is required to synthesize the correct number of starch granules in the chloroplasts of Arabidopsis thaliana plants. A yeast two-hybrid screen allowed the identification of several putative SS4 interacting partners. We identified the product of At4g32190 locus as a chloroplast-targeted PROTEIN INVOLVED IN STARCH INITIATION (named PII1). Arabidopsis mutants devoid of PII1 display an alteration of the starch initiation process and accumulate, on average, one starch granule per plastid instead of the five to seven granules found in plastids of wild-type plants. These granules are larger than in wild-type, and they remain flat and lenticular. pii1 mutants display wild-type growth rates and accumulate standard starch amounts. Moreover, starch characteristics, such as amylopectin chain length distribution, remain unchanged. Our results reveal the involvement of PII1 in the starch priming process in Arabidopsis leaves through interaction with SS4.
    Keywords:  Arabidopsis; PII1; SS4; starch; starch granule size; starch initiation; starch priming
    DOI:  https://doi.org/10.1111/nph.15356