Protein synthesis in tobacco pollen tubes: preferential synthesis of cell-wall 69-kDa and 66-kDa glycoproteins

Abstract

One- and two-dimensional electrophoresis of Nicotiana tabacum pollen and pollen tube proteins confirmed that a new protein is preferentially synthesized during pollen germination and tube growth and becomes the most abundant protein in pollen tubes. Analysis of proteins extracted with sodium dodecyl sulfate (SDS) from different pollen tube fractions showed that it is the most abundant non-covalently bound wall protein, characterized by molecular mass of 69 kDa, pI between 7.9 and 8.2, and glycosylation with glucose and/or mannose. Amino acid analysis revealed relative abundance of serine, glutamic acid and glycine, but did not show the presence of hydroxyproline. According to all these characteristics, it cannot be classified as an extensin-like protein. Another prominent wall-bound glycoprotein has a molecular mass of 66 kDa and the same pI as the 69 kDa glycoprotein. These two glycoproteins are similar also in ConA binding, rate of synthesis, and rapid incorporation into pollen tube walls. Their synthesis is strongly reduced by tunicamycin and this inhibition results in the occurrence of new polypeptides in the range of 57–61 kDa. Tunicamycin also inhibited pollen tube growth. At 10 ng ml-1 and 50 ng ml-1 the inhibitor reduced pollen tube mass after 24 h of culture by 30% and 85%, respectively. This indicates that tobacco pollen presents a system highly sensitive to tunicamycin and that cotranslational N-linked glycosylation on the rough endoplasmic reticulum is required for 66 and 69 kDa glycoprotein formation and for pollen tube growth. Although other proteins appear during pollen germination and tube growth, the new proteins occur at low levels and seem to originate through modifications of preexisting polypeptides. In contrast to 69 and 66 kDa proteins, most proteins detected by [14C]amino acid incorporation and fluorography of gels were not revealed by Coomassie blue staining.