Key message: The article concerns the association between callose synthase and cytoskeleton by biochemical and ultrastructural analyses in the pollen tube. Results confirmed this association and immunogold labeling showed a colocalization. Abstract: Callose is a cell wall polysaccharide involved in fundamental biological processes, from plant development to the response to abiotic and biotic stress. To gain insight into the deposition pattern of callose, it is important to know how the enzyme callose synthase is regulated through the interaction with the vesicle-cytoskeletal system. Actin filaments likely determine the long-range distribution of callose synthase through transport vesicles but the spatial/biochemical relationships between callose synthase and microtubules are poorly understood, although experimental evidence supports the association between callose synthase and tubulin. In this manuscript, we further investigated the association between callose synthase and microtubules through biochemical and ultrastructural analyses in the pollen tube model system, where callose is an essential component of the cell wall. Results by native 2-D electrophoresis, isolation of callose synthase complex and far-western blot confirmed that callose synthase is associated with tubulin and can therefore interface with cortical microtubules. In contrast, actin and sucrose synthase were not permanently associated with callose synthase. Immunogold labeling showed colocalization between the enzyme and microtubules, occasionally mediated by vesicles. Overall, the data indicate that pollen tube callose synthase exerts its activity in cooperation with the microtubular cytoskeleton.

Parrotta L., Faleri C., Del Casino C., Mareri L., Aloisi I., Guerriero G., et al. (2022). Biochemical and cytological interactions between callose synthase and microtubules in the tobacco pollen tube. PLANT CELL REPORTS, 41(5), 1301-1318 [10.1007/s00299-022-02860-3].

Biochemical and cytological interactions between callose synthase and microtubules in the tobacco pollen tube

Parrotta L.
Primo
;
Aloisi I.;Del Duca S.;
2022

Abstract

Key message: The article concerns the association between callose synthase and cytoskeleton by biochemical and ultrastructural analyses in the pollen tube. Results confirmed this association and immunogold labeling showed a colocalization. Abstract: Callose is a cell wall polysaccharide involved in fundamental biological processes, from plant development to the response to abiotic and biotic stress. To gain insight into the deposition pattern of callose, it is important to know how the enzyme callose synthase is regulated through the interaction with the vesicle-cytoskeletal system. Actin filaments likely determine the long-range distribution of callose synthase through transport vesicles but the spatial/biochemical relationships between callose synthase and microtubules are poorly understood, although experimental evidence supports the association between callose synthase and tubulin. In this manuscript, we further investigated the association between callose synthase and microtubules through biochemical and ultrastructural analyses in the pollen tube model system, where callose is an essential component of the cell wall. Results by native 2-D electrophoresis, isolation of callose synthase complex and far-western blot confirmed that callose synthase is associated with tubulin and can therefore interface with cortical microtubules. In contrast, actin and sucrose synthase were not permanently associated with callose synthase. Immunogold labeling showed colocalization between the enzyme and microtubules, occasionally mediated by vesicles. Overall, the data indicate that pollen tube callose synthase exerts its activity in cooperation with the microtubular cytoskeleton.
2022
Parrotta L., Faleri C., Del Casino C., Mareri L., Aloisi I., Guerriero G., et al. (2022). Biochemical and cytological interactions between callose synthase and microtubules in the tobacco pollen tube. PLANT CELL REPORTS, 41(5), 1301-1318 [10.1007/s00299-022-02860-3].
Parrotta L.; Faleri C.; Del Casino C.; Mareri L.; Aloisi I.; Guerriero G.; Hausman J.-F.; Del Duca S.; Cai G.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/881087
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