A conditional sterile mutation eliminates surface components from Arabidopsis pollen and disrupts cell signaling during fertilization.

Abstract: Plants distinguish among the pollen grains that land on the stigma, permitting only compatible pollen to fertilize egg cells. To investigate these cell-cell interactions, Arabidopsis mutations that affect pollen-pistil communication were isolated. A male-sterile mutation that disrupts pollen-pistil interactions by eliminating the extracellular pollen coat (tryphine) is described here. Stigma cells that contact the mutant pollen produce callose, a carbohydrate synthesized in response to foreign pollen. The muta… Show more

“…Arabidopsis species possesses a dry stigma that is covered with papillae on the stigmatic surface. Once a compatible pollen grain comes in contact with a stigmatic papilla, the early stages of pollen capture and adhesion, pollen hydration, and germination are closely regulated (Elleman et al 1992 ;Preuss et al 1993 ;Kandasamy et al 1994 ;Zinkl et al 1999 ). The ability to conduct genetic screens with relative ease in A. thaliana has aided in identifying a number of factors that regulate pollen-stigma interactions (Preuss et al 1993 ;Hulskamp et al 1995 ;Nishikawa et al 2005 ).…”

“…The pollen coat is then involved in further adhesion of the pollen grain to the stigmatic papilla. At this stage, the pollen coat fl ows out from the pollen grain toward the stigmatic papilla to mix with the lipidic and proteinaceous surface of the stigmatic papilla, creating a more robust connection at the pollen-stigma interface (Elleman et al 1992 ;Preuss et al 1993 ;Kandasamy et al 1994 ;Zinkl et al 1999 ).…”

“…The result is an interface between the pollen grain and the papilla where signaling is hypothesized to occur, and water is transferred from the papilla to the pollen grain for hydration (Elleman and Dickinson 1990 ;Preuss et al 1993 ). Pollen hydration is necessary for the desiccated pollen grain to become metabolically active and proceed to the next stage of pollen germination and formation of a pollen tube, and components of the pollen-stigma interface are important to this process (Preuss et al 1993 ).…”

“…Pollen hydration is necessary for the desiccated pollen grain to become metabolically active and proceed to the next stage of pollen germination and formation of a pollen tube, and components of the pollen-stigma interface are important to this process (Preuss et al 1993 ). On the female side, the specifi c lipid content in the stigmatic cuticle was indirectly implicated in the control of pollen hydration through the study of the A. thaliana fi ddlehead ( fdh ) mutant.…”

“…The importance of pollen coat lipids in the hydration process was determined by the study of impaired pollen hydration in A. thaliana eceriferum ( cer ) mutants (Preuss et al 1993 ;Hulskamp et al 1995 ). The cer mutants have defects in the long-chain lipid synthesis, and there was a reduction or loss of pollen coat on the surface of the cer mutant pollen grains.…”

Signaling Events in Pollen Acceptance or Rejection in the Arabidopsis Species

“…Arabidopsis species possesses a dry stigma that is covered with papillae on the stigmatic surface. Once a compatible pollen grain comes in contact with a stigmatic papilla, the early stages of pollen capture and adhesion, pollen hydration, and germination are closely regulated (Elleman et al 1992 ;Preuss et al 1993 ;Kandasamy et al 1994 ;Zinkl et al 1999 ). The ability to conduct genetic screens with relative ease in A. thaliana has aided in identifying a number of factors that regulate pollen-stigma interactions (Preuss et al 1993 ;Hulskamp et al 1995 ;Nishikawa et al 2005 ).…”

“…The pollen coat is then involved in further adhesion of the pollen grain to the stigmatic papilla. At this stage, the pollen coat fl ows out from the pollen grain toward the stigmatic papilla to mix with the lipidic and proteinaceous surface of the stigmatic papilla, creating a more robust connection at the pollen-stigma interface (Elleman et al 1992 ;Preuss et al 1993 ;Kandasamy et al 1994 ;Zinkl et al 1999 ).…”

“…The result is an interface between the pollen grain and the papilla where signaling is hypothesized to occur, and water is transferred from the papilla to the pollen grain for hydration (Elleman and Dickinson 1990 ;Preuss et al 1993 ). Pollen hydration is necessary for the desiccated pollen grain to become metabolically active and proceed to the next stage of pollen germination and formation of a pollen tube, and components of the pollen-stigma interface are important to this process (Preuss et al 1993 ).…”

“…Pollen hydration is necessary for the desiccated pollen grain to become metabolically active and proceed to the next stage of pollen germination and formation of a pollen tube, and components of the pollen-stigma interface are important to this process (Preuss et al 1993 ). On the female side, the specifi c lipid content in the stigmatic cuticle was indirectly implicated in the control of pollen hydration through the study of the A. thaliana fi ddlehead ( fdh ) mutant.…”

“…The importance of pollen coat lipids in the hydration process was determined by the study of impaired pollen hydration in A. thaliana eceriferum ( cer ) mutants (Preuss et al 1993 ;Hulskamp et al 1995 ). The cer mutants have defects in the long-chain lipid synthesis, and there was a reduction or loss of pollen coat on the surface of the cer mutant pollen grains.…”

Signaling Events in Pollen Acceptance or Rejection in the Arabidopsis Species

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