BACKGROUND INFORMATION: Although actin is a relevant component of the plant nucleus, only three nuclear ABPs (actin-binding proteins) have been identified in plants to date: cofilin, profilin and nuclear myosin I. Although plants lack orthologues of the main structural nuclear ABPs in animals, such as lamins, lamin-associated proteins and nesprins, their genome does contain sequences with spectrin repeats and N-terminal calponin homology domains for actin binding that might be distant relatives of spectrin. We investigated here whether spectrin-like proteins could act as structural nuclear ABPs in plants. RESULTS: We have investigated the presence of spectrins in Allium cepa meristematic nuclei by Western blotting, confocal and electron microscopy, using antibodies against α- and β-spectrin chains that cross-react in plant nuclei. Their role as nuclear ABPs was analysed by co-immunoprecipitation and IF (immunofluorescence) co-localization and their association with the nuclear matrix was investigated by sequential extraction of nuclei with non-ionic detergent, and in low- and high-salt buffers after nuclease digestion. Our results demonstrate the existence of several spectrin-like proteins in the nucleus of onion cells that have different intranuclear distributions in asynchronous meristematic populations and associate with the nuclear matrix. These nuclear proteins co-immunoprecipitate and co-localize with actin. CONCLUSIONS: These results reveal that the plant nucleus contains spectrin-like proteins that are structural nuclear components and function as ABPs. Their intranuclear distribution suggests that plant nuclear spectrin-like proteins could be involved in multiple nuclear functions.
BACKGROUND INFORMATION: Although actin is a relevant component of the plant nucleus, only three nuclear ABPs (actin-binding proteins) have been identified in plants to date: cofilin, profilin and nuclear myosin I. Although plants lack orthologues of the main structural nuclear ABPs in animals, such as lamins, lamin-associated proteins and nesprins, their genome does contain sequences with spectrin repeats and N-terminal calponin homology domains for actin binding that might be distant relatives of spectrin. We investigated here whether spectrin-like proteins could act as structural nuclear ABPs in plants. RESULTS: We have investigated the presence of spectrins in Allium cepa meristematic nuclei by Western blotting, confocal and electron microscopy, using antibodies against α- and β-spectrin chains that cross-react in plant nuclei. Their role as nuclear ABPs was analysed by co-immunoprecipitation and IF (immunofluorescence) co-localization and their association with the nuclear matrix was investigated by sequential extraction of nuclei with non-ionic detergent, and in low- and high-salt buffers after nuclease digestion. Our results demonstrate the existence of several spectrin-like proteins in the nucleus of onion cells that have different intranuclear distributions in asynchronous meristematic populations and associate with the nuclear matrix. These nuclear proteins co-immunoprecipitate and co-localize with actin. CONCLUSIONS: These results reveal that the plant nucleus contains spectrin-like proteins that are structural nuclear components and function as ABPs. Their intranuclear distribution suggests that plant nuclear spectrin-like proteins could be involved in multiple nuclear functions.
Authors: Darlene L Sanchez; Stanley Omar Pb Samonte; Jasper Benedict B Alpuerto; Peyton A Croaker; Karina Y Morales; Yubin Yang; Lloyd T Wilson; Rodante E Tabien; Zongbu Yan; Michael J Thomson; Endang M Septiningsih Journal: BMC Genomics Date: 2022-05-23 Impact factor: 4.547