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1.
Planta ; 245(4): 835-848, 2017 Apr.
Article in English | MEDLINE | ID: mdl-28064363

ABSTRACT

MAIN CONCLUSION: The order of the internodes, and their geometry and mechanical characteristics influence the capability of the Equisetum stem to vibrate, potentially stimulating spore liberation at the optimum stress setting along the stem. Equisetum hyemale L. plants represent a special example of cellular solid construction with mechanical stability achieved by a high second moment of area and relatively high resistance against local buckling. We proposed the hypothesis that the order of E. hyemale L. stem internodes, their geometry and mechanical characteristics influence the capability of the stem to vibrate, stimulating spore liberation at the minimum stress setting value along the stem. An analysis of apex vibration was done based on videos presenting the behavior of an Equisetum clump filmed in a wind tunnel and also as a result of excitation by bending the stem by 20°. We compared these data with the vibrations of stems of the same size but deprived of the three topmost internodes. Also, we created a finite element model (FEM), upon which we have based the 'natural' stem vibration as a copy of the real object, 'random' with reshuffled internodes and 'uniform', created as one tube with the characters averaged from all internodes. The natural internode arrangement influences the frequency and amplitude of the apex vibration, maintaining an equal stress distribution in the stem, which may influence the capability for efficient spore spreading.


Subject(s)
Equisetum/physiology , Plant Stems/physiology , Biomechanical Phenomena/physiology , Equisetum/anatomy & histology , Plant Stems/anatomy & histology , Spores/physiology , Vibration
2.
Mol Cell Biol ; 33(8): 1645-56, 2013 Apr.
Article in English | MEDLINE | ID: mdl-23401858

ABSTRACT

Histone chaperones function in chromatin assembly and disassembly, suggesting they have important regulatory roles in transcription elongation. The Saccharomyces cerevisiae proteins Nap1 and Vps75 are structurally related, evolutionarily conserved histone chaperones. We showed that Nap1 genetically interacts with several transcription elongation factors and that both Nap1 and Vps75 interact with the RNA polymerase II kinase, CTK1. Loss of NAP1 or VPS75 suppressed cryptic transcription within the open reading frame (ORF) observed when strains are deleted for the kinase CTK1. Loss of the histone acetyltransferase Rtt109 also suppressed ctk1-dependent cryptic transcription. Vps75 regulates Rtt109 function, suggesting that they function together in this process. Histone H3 K9 was found to be the important lysine that is acetylated by Rtt109 during ctk1-dependent cryptic transcription. We showed that both Vps75 and Nap1 regulate the relative level of H3 K9 acetylation in the STE11 ORF. This supports a model in which Nap1, like Vps75, directly regulates Rtt109 activity or regulates the assembly of acetylated chromatin. Although Nap1 and Vps75 share many similarities, due to their distinct interactions with SET2, Nap1 and Vps75 may also play separate roles during transcription elongation. This work sheds further light on the importance of histone chaperones as general regulators of transcription elongation.


Subject(s)
Histones/metabolism , Molecular Chaperones/metabolism , Nucleosome Assembly Protein 1/metabolism , Protein Kinases/genetics , Saccharomyces cerevisiae Proteins/metabolism , Saccharomyces cerevisiae/metabolism , Acetylation , Chromatin Assembly and Disassembly , Histone Acetyltransferases/genetics , Histone Chaperones , Histones/genetics , MAP Kinase Kinase Kinases/metabolism , Methyltransferases/metabolism , Molecular Chaperones/genetics , Nucleosome Assembly Protein 1/genetics , Open Reading Frames , Protein Kinases/metabolism , Saccharomyces cerevisiae/genetics , Saccharomyces cerevisiae Proteins/genetics , Transcription, Genetic
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