Monoclonal antibodies specific to plant tubulin

Tubulin was isolated from mung bean seedling by a combination of affinity (ethyl N-phenylcarbamate-Sepharose 4 B) and ion exchange (DEAE-Sephacel) chromatography. Using SDS-PAGE together with blotting with subunit-specific antitubulins, mung bean tubulin has been shown to consist of two α-tubulin subunits, MBT₂ and MBT₃, of which MBT₃ is a minor component, and one Β-tubulin, MBT₁. Monoclonal antibodies were produced by fusing mouse myeloma cells and spleen cells from a Balb/c mouse immunized with mung bean tubulin. Antibody producing cell lines were identified by an ELISA assay and immunofluorescence microscopy and subsequently cloned by limiting dilution. The properties of monoclonal antibody (K₄E₇G₃) were examined by Western blot analysis and indirect immunofluorescence studies. K₄E₇G₃ reacts with MBT₂ and MBT₃ α-tubulin subunits of mung bean tubulin, but not with MBT₁ Β-tubulin nor with the α- and Β-subunits of sheep brain tubulin. Peptide fragments transferred onto nitrocellulose papers were treated with K₄E₇G₃ and with other monoclonal antibodies that are known to be specific to the α-subunit of yeast tubulin and α- or Β-subunit of mammalian brain tubulin. MBT₂ and MBT₃ are shown to be similar but not identical and are quite different from MBT₁ and the Β-subunit of sheep brain tubulin. K₄E₇G₃ reacts with peptide fragments in MBT₂ and MBT₃ that are not found in digests of brain tubulin, and that are either not reactive or only weakly reactive to the antibodies to yeast and brain α-tubulin. It is concluded that K₄E₇G₃ and another monoclonal antibody, K₂D₇B₈, which has similar properties, are relatively specific for plant α-tubulin. In indirect immunofluorescence studies on a wide range of plant cells, the epitopes recognised by these monoclonal antibodies are shown to be present in all types of microtubule array that were investigated. The spindle, preprophase band, phragmoplast and interphase microtubules were clearly observed in onion and mung bean root tip cells. Reactions with spindle microtubules of Funaria spore mother cells and with the blepharoplast and flagella microtubules of fern spermatozoa are also seen. However, studies using several animal cell lines have shown that K₄E₇G₃ and K₂D₇B₈ do not give positive immunofluorescent localization of animal microtubules, correlating with the inability of K₄E₇G₃ to react with brain tubulin subunits on Western blot analysis.