INTERCELLULAR ADHESIONS IN THE POLLEN‐STIGMA SYSTEM: POLLEN CAPTURE, GRAIN BINDING, AND TUBE ATTACHMENTS

Abstract

Four independent pollen‐stigma binding forces are differentiated after pollen contacts stigmas of Brassica oleracea var. capitata. Identification is based on their different rates and sequence of appearance during gametophyte development; on their differential occurrence after compatible and incompatible pollinations; and on their different stabilities to NaOH and hexane. The first binding force develops most rapidly, begins seconds after pollen‐stigma contact, is complete within minutes, occurs on compatible or incompatible papillae, and dissociates in methanol. A second slower binding reaction begins about 15 min after contact, continues for at least 90 min (when pollen tubes emerge), results in a binding structure termed the ocreatine, develops only on compatible papillae, and is dissociated by NaOH. A third attractive mechanism binds the tip of the emerging tube to a cuticle, is detected only on incompatible papillae, and is not dissociated by NaOH or methanol. Ocreatine formation and tube development beyond the emergence stage are prevented by the incompatibility response. A fourth attraction mechanism occurs between the surfaces of papilla and elongating tubes. Reviews of physical and biochemical evidence indicate that van der Waals forces and enzymatically mediated lipid polymerization are alternatives to agglutination as mechanisms for binding male gametophyte to papilla.